WO2019196862A1 - Filter core assembly replacement structure, filter core housing mounting mechanism, water filter, and water purifying device - Google Patents
Filter core assembly replacement structure, filter core housing mounting mechanism, water filter, and water purifying device Download PDFInfo
- Publication number
- WO2019196862A1 WO2019196862A1 PCT/CN2019/082042 CN2019082042W WO2019196862A1 WO 2019196862 A1 WO2019196862 A1 WO 2019196862A1 CN 2019082042 W CN2019082042 W CN 2019082042W WO 2019196862 A1 WO2019196862 A1 WO 2019196862A1
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- WO
- WIPO (PCT)
- Prior art keywords
- base
- assembly
- cartridge
- filter element
- filter
- Prior art date
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Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D29/00—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
- B01D29/96—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor in which the filtering elements are moved between filtering operations; Particular measures for removing or replacing the filtering elements; Transport systems for filters
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D35/00—Filtering devices having features not specifically covered by groups B01D24/00 - B01D33/00, or for applications not specifically covered by groups B01D24/00 - B01D33/00; Auxiliary devices for filtration; Filter housing constructions
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D35/00—Filtering devices having features not specifically covered by groups B01D24/00 - B01D33/00, or for applications not specifically covered by groups B01D24/00 - B01D33/00; Auxiliary devices for filtration; Filter housing constructions
- B01D35/30—Filter housing constructions
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D29/00—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
- B01D29/11—Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with bag, cage, hose, tube, sleeve or like filtering elements
- B01D29/31—Self-supporting filtering elements
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
Definitions
- the present application relates to the field of water purifiers, and in particular to a filter element replacement structure and a water purifier thereof.
- the invention relates to the technical field of water treatment, in particular to a filter housing mounting mechanism and a water purifying device.
- the water purifier products are mainly based on physical filtration, this determines that after the filter element is used for a period of time, the filter element is clogging due to the accumulation of impurities, so the water purifier filter element needs to be periodically disassembled and replaced.
- the object of the present application is to provide a filter element assembly replacement structure, a filter cartridge housing mounting mechanism, a water purifier, and a water purifying device, so as to facilitate the user to replace the filter element assembly of the water purifier.
- a filter element replacement structure includes:
- the filter element assembly is provided with an operation portion capable of being externally biased
- a locking mechanism having a locking position for fitting the cartridge assembly to the base and a release position for allowing the cartridge assembly to be disengaged from the base; the operating portion is biased by an external force The locking mechanism is actuated to the release position.
- a cartridge assembly replacement structure comprising: a cartridge assembly, a base for mounting the cartridge assembly, a locking mechanism for locking the cartridge assembly to the base, and an unlocking for opening the locking mechanism Piece;
- the filter element assembly is provided with a force receiving member for receiving a force applied by a user; the force receiving member has a first position and a second position by the action;
- the unlocking member When the force receiving member is moved from the first position to the second position, the unlocking member can be pushed to open the locking mechanism; and the filter element assembly can be moved to the base when the force receiving member is in the second position Insert until locked by the locking mechanism.
- a water purifier comprising: the filter element assembly replacement structure according to any of the above.
- a cartridge housing mounting mechanism comprising:
- a fixing mechanism comprising: a fixing seat; a rotating member disposed on the fixing seat and rotatable relative to the fixing seat, the rotating member having a first engaging portion;
- a cartridge receiving mechanism having a second engaging portion matching the first engaging portion, the second engaging portion of the cartridge receiving mechanism being capable of being loaded into the rotation In the first engaging portion of the piece.
- a water purifying device comprising the cartridge housing mounting mechanism of any of the above.
- the filter element assembly replacement structure allows the user to operate only on the filter element assembly, and the base remains fixed without the need to operate the base, thereby facilitating the user's one-hand operation of the filter element assembly, which is very convenient.
- the operation part of the filter element assembly is used to detach the filter element assembly from the base, the space required for moving the base by the removal of the filter element assembly can be reduced while the base is fixed, and the installation flexibility is better.
- the base of the filter element replacement structure is fixed, and only the filter element assembly needs to be operated, so that the water purifier can be placed laterally, that is, the length direction of the filter element assembly is parallel to the horizontal direction, which not only has higher Installation flexibility and user-friendliness.
- FIG. 1 is a schematic view showing a replacement structure of a filter element assembly provided in an embodiment of the present invention
- Figure 2 is a schematic structural view of a force receiving member of Figure 1;
- Figure 3 is a schematic view showing the structure of another force receiving member and a pushing member of Figure 1;
- Figure 4 is a schematic view of Figure 3 with a cover
- Figure 5 is a partial cross-sectional view showing the cartridge assembly of Figure 1 inserted into the base;
- Figure 6 is a partial cross-sectional view showing the cartridge assembly of Figure 1 inserted into the base;
- Figure 7 is a schematic view of the base of Figure 1;
- FIG. 8 is a schematic structural view of another filter element replacement structure provided in an embodiment of the present invention.
- Figure 9 is a partial cross-sectional view showing the cartridge assembly of Figure 8 inserted into the base;
- Figure 10 is a partial cross-sectional view showing the cartridge assembly of Figure 8 inserted into the base;
- Figure 11 is a schematic view of the base of Figure 8.
- Figure 12 is a schematic view of the knob of Figure 8.
- Figure 13 is a schematic structural view of the support cylinder of Figure 8.
- Figure 14 is a schematic structural view of the support cylinder of Figure 8.
- Figure 15 is a schematic structural view of the filter element assembly of Figure 8.
- Figure 16 is a partial enlarged view of Figure 15;
- FIG. 17 is a schematic structural view of a filter element assembly and an unlocking member provided in an embodiment of the present invention.
- Figure 18 is a partial enlarged view of Figure 17;
- Figure 19 is another schematic view of Figure 17;
- Figure 20 is a partial enlarged view of Figure 19;
- Figure 21 is another schematic view of Figure 17;
- Figure 22 is a schematic structural view of the unlocking member of Figure 17;
- Figure 23 is a plan view of Figure 22;
- Figure 24 is a front elevational view of Figure 22;
- Figure 25 is an enlarged view of the card of Figure 22;
- Figure 26 is an internal schematic view of Figure 22
- Figure 27 is a schematic structural view of the filter element assembly of Figure 17;
- FIG. 28 is a schematic diagram of another filter element replacement structure provided in an embodiment of the present invention.
- Figure 29 is a schematic view of the filter element assembly of Figure 28;
- Figure 30 is a schematic view showing the push portion of Figure 28 in a release position
- Figure 31 is a schematic view showing the pushing portion of Figure 28 in a pushing position
- FIG. 32 is a schematic structural view of a filter housing mounting mechanism before installation according to an embodiment of the present invention.
- FIG. 33 is a schematic view of the cartridge housing mounting mechanism in a first position according to an embodiment of the present invention.
- Figure 34 is a schematic view showing the filter housing mounting mechanism in the second position in the embodiment of the present invention.
- 35 is a schematic exploded view of a filter core receiving mechanism according to an embodiment of the present invention.
- Figure 36 is a schematic structural view of a joint member according to an embodiment of the present invention.
- FIG. 37 is a schematic cross-sectional view showing the first flow path unit of the joint member and the second flow path unit of the rotating mechanism in an open state according to an embodiment of the present invention.
- the cartridge assembly replacement structure includes: a filter cartridge assembly 200; the filter cartridge assembly 200 is provided with an operation portion capable of being externally biased; and a fixed base 100 for mounting the filter cartridge An assembly 200; a locking mechanism having a locking position for mounting the cartridge assembly 200 on the base 100, and a release position for allowing the cartridge assembly 200 to be disengaged from the base 100; The locking mechanism is actuated to the release position when externally applied.
- the base 100 is mounted for the filter element assembly 200 and is stationary. During the installation of the filter element, the base 100 can be kept stationary, and the user can complete the removal of the filter element only through the action of the filter element.
- the cartridge assembly replacement structure can form a (partial) water purifier housing. Wherein, the base 100 is fixed relative to the water purification housing.
- the locking mechanism can be located on the base 100 or on the cartridge assembly 200. In a possible embodiment, the locking mechanism is located on the cartridge assembly 200.
- the filter element assembly 200 is biased by the operating portion such that the locking mechanism is moved from the locked position to the released position, and the cartridge assembly 200 can be detached from the base 100.
- the locking mechanism is located on the base 100, and the filter assembly 200 is biased by the operating portion such that the locking mechanism is moved from the locked position to the released position, and the cartridge assembly 200 can be removed from the base. 100 off.
- the locking mechanism may have a reset element (not shown) that applies a biasing force to the locking mechanism to reset to the locked position.
- the reset element By virtue of the reset element, the locking mechanism can be switched between the locked position and the released position. After the cartridge assembly 200 is disengaged from the base 100, the locking mechanism can be reset to the locked position by the reset element.
- the reset element may comprise a resilient element such as a spring.
- the filter element assembly replacement structure may further include an unlocking mechanism.
- the unlocking mechanism can open the locking mechanism when the cartridge assembly 200 is inserted into the base 100.
- the process of opening the locking mechanism by the unlocking mechanism may refer to the process of moving the locking mechanism from the locking position to the releasing position, and the opened maximum position (also referred to as the second releasing position) may be the same as or different from the releasing position ( For example, if the opening diameter is larger or smaller than the release position, it is only necessary to enable the filter element assembly 200 to complete the insertion locking.
- the opening process of the locking mechanism can also be different from the moving process of the locking mechanism from the locking position to the releasing position.
- the opening process of the locking mechanism by the unlocking mechanism can be a push-to-open process in the insertion direction (similar to a hinge swing).
- the movement of the locked position to the release position may be a radial translational movement.
- the unlocking mechanism may be disposed on the filter mechanism or on the base 100. By providing the unlocking structure, the locking mechanism can be actuated to open when the cartridge assembly 200 is inserted into the base 100.
- the filter element assembly 200 can be mounted on the base 100 by operating the filter element assembly 200 by using an unlocking mechanism, and the installation of the filter element assembly 200 is very convenient.
- the filter element assembly 200 of the present embodiment has an operation portion for the user to apply force.
- the user can unlock the release mechanism of the operation unit of the filter element assembly 200, so that the filter element assembly 200 can be detached from the base 100.
- the filter element assembly 200 can be pulled out of the base 100.
- the operation portion may be a part of the filter element assembly 200 that is biased by the user, or may be disposed on the force-receiving member of the filter element assembly 200 for the user to apply force.
- the operating portion moves with the cartridge assembly 200 during the process of replacing the cartridge assembly 200.
- the filter element assembly replacement structure allows the user to operate only the filter element assembly 200, and the base unit 100 remains fixed without the need to operate the base 100, thereby facilitating the user's one-hand operation on the filter element assembly 200, which is very convenient. Meanwhile, when the filter unit 200 is detached from the susceptor 100 by the operation portion of the filter element assembly 200, the space required for moving the susceptor 100 by the detachment of the filter element assembly 200 can be reduced, and the space required for the detachment of the filter element assembly 200 can be reduced. Good installation flexibility.
- the base 100 of the filter element replacement structure is fixed, and only the filter element assembly 200 needs to be operated, so that the water purifier can be placed laterally, that is, the length direction of the filter element assembly 200 is parallel to the horizontal direction, not only It has higher installation flexibility and is more convenient for users to operate.
- the filter element assembly 200 has an insertion end 1 for insertion into the base 100 and an operating end 2 facing away from the insertion end 1.
- the operating portion is located on the operating end 2 for user operation.
- the operation portion may be provided with a structure that is easy for the user to apply force.
- the cartridge assembly 200 is generally cylindrical in configuration.
- the insertion end 1 of the cartridge assembly 200 can be inserted into the base 100.
- the base 100 may be provided with an insertion hole 15 into which the insertion end 1 is inserted.
- sealing measures can be provided in the insertion end 1 and the insertion hole 15 to prevent fluid leakage and to avoid poor water production.
- the insertion end 1 has a flow path that opens into the interior of the filter element assembly 200 and cooperates with the flow path 7 in the base 100 to perform filtration of the incoming water.
- the locking mechanism includes a snap-fit assembly 6 disposed on the base 100 to clamp the insertion end 1.
- the snap assembly 6 includes at least one clamping member distributed in a circumferential direction. Wherein the at least one of the clamping members moves radially outward from the locking position to the release position. At least one of the clamping members moves radially inwardly from the release position to the locked position.
- the locking mechanism is mounted inside the base 100, and the clamping member includes a clamping plate disposed in the base 100.
- the plurality of clamping plates are configured to form an engaging opening and constitute a partial insertion hole 15. Wherein, the plurality of clamping plates are movable in the radial direction.
- a spring is provided in the base 100 to apply a biasing force to the plurality of clamping plates to move to the locking position, so that the clamping plate is held in the locked position when there is no external force.
- the locking mechanism can also be other mechanisms, such as an insertion structure, a flip structure, and the like. Only the locking mechanism can realize the locking position and the release position switching by the action, and the action of the locking mechanism is not limited to the radial movement, and may also be a rotation, an insertion, a deformation or the like.
- the insertion end 1 is provided with a blocking portion 12 that cooperates with the engaging assembly 6.
- the blocking portion 12 is blocked by the snap-fit assembly 6 when the snap-fit assembly 6 is in the locked position such that the filter cartridge assembly 200 cannot be disengaged from the base 100.
- the side wall of the insertion end 1 is provided with a convex ring structure 14
- the blocking portion 12 may be an end surface of the convex ring structure 14 near the operation end 2 .
- the engaging component 6 is formed with an engaging opening through which the insertion end 1 passes.
- the blocking portion 12 is located on a side of the engaging opening away from the operating end 2 and cannot pass through the engaging opening.
- the engaging component 6 is in the release position, the blocking portion 12 can pass through the engaging opening.
- the side of the engaging component 6 away from the operating end 2 has a fitting surface (not labeled) that can be attached to the blocking portion 12 .
- the insertion end 1 of the filter element assembly 200 is restricted from being unplugged from the insertion hole 15 of the base 100, and the locking of the filter element assembly 200 is achieved.
- the filter element assembly replacement structure may also be provided with an unlocking mechanism.
- the unlocking mechanism can move the at least one clamping member radially outward when the filter cartridge assembly 200 is inserted into the base 100, so that the blocking portion 12 of the filter cartridge assembly 200 passes through the engaging opening. . After the blocking portion 12 passes the engaging opening, the snap-fit assembly 6 is reset to the locked position to lock the cartridge assembly 200.
- the unlocking mechanism includes a first end of the insertion end 1 on a side of the blocking portion 12 away from the operating end 2 and/or a side of the engaging component 6 adjacent to the operating end 2 Bevel 31.
- the blocking portion 12 of the filter element assembly 200 relies on the first inclined surface 31 to open the engaging assembly 6 to pass through the engaging opening.
- the size of the engaging opening to be unlocked by the unlocking structure may be the same as or different from the size of the engaging opening when the position is released.
- the first inclined surface 31 is disposed on the engaging component 6; the first inclined surface 31 causes the cross-sectional area of the engaging opening to gradually decrease along the direction in which the filter element assembly 200 is inserted into the base 100.
- the insertion end 1 and the engaging assembly 6 are each provided with a first inclined surface 31.
- the first inclined surface 31 of the insertion end 1 is disposed on the convex ring structure 14 and is located on a side of the blocking portion 12 away from the operation end 2.
- the filter element replacement structure may further be provided with an opening mechanism that cooperates with the operating portion.
- the operation portion is actuated by driving the opening mechanism when externally biased to move the locking mechanism from the locked position to the release position.
- the opening mechanism transmits the force received by the operating portion, thereby opening the locking mechanism.
- the opening mechanism can be part of the cartridge assembly 200, such as the embodiment illustrated in Figures 8-16; the opening mechanism can also be a component disposed outside of the cartridge assembly 200, such as the embodiment illustrated in Figures 1-7.
- the opening mechanism operates by the operation of the locking mechanism, and the base 100 is fixed during the driving process. With the opening mechanism, the locking mechanism is driven to the release position by applying force to the operating portion of the cartridge assembly 200 without actuating the base 100. In this embodiment, the opening mechanism can transmit the force received by the operating portion, and the position of the locking mechanism can be switched to the release position.
- the opening mechanism drives the locking mechanism by itself, wherein the opening mechanism operates in a plurality of ways.
- the opening mechanism can drive the locking mechanism by moving along the length direction of the cartridge assembly 200, or can drive the locking mechanism by rotation.
- the opening mechanism can also achieve a drive locking mechanism by other movements, such as: the opening mechanism has two mating elements, the positional switching of the locking mechanism is achieved by the separation or engagement of the two elements, and the like.
- the opening portion rotates when the operating portion is externally biased, and the opening mechanism moves from the locking position to the releasing position by rotationally driving the locking mechanism.
- the opening mechanism can be disposed on the cartridge assembly 200 to follow the filter cartridge assembly 200 for movement. In such a configuration, the user only needs to apply force to the operating portion to rotate the filter element assembly 200, thereby opening the locking mechanism to the release position, completing the removal of the filter element assembly 200, and the operation is simple.
- the opening mechanism can rotate with the filter cartridge assembly 200.
- the opening mechanism includes a support portion 30 that protrudes in the radial direction on the filter element assembly 200.
- the operating portion enables the filter cartridge assembly 200 to rotate the support portion 30 about an axis parallel to the longitudinal direction of the cartridge assembly 200; the support portion 30 rotates the snap assembly 6 from the locked position Prolonged in the radial direction to the release position.
- the insertion end 1 is evenly distributed with two or more of the support portions 30 in the circumferential direction.
- the support portion 30 and the engagement assembly 6 are in the same axial position. on.
- the outer diameter of the support portion 30 may be larger than the outer diameter of the blocking portion 12 or smaller than the outer diameter of the blocking portion 12 .
- the side of the blocking portion 12 near the operating end 2 is provided with an annular groove structure 28, and the supporting portion 30 is disposed in the annular groove structure 28, and the supporting portion 30 a support protrusion that protrudes radially outward, the two support protrusions are evenly arranged in the circumferential direction, and an outer diameter of the support portion 30 (support protrusion) is equal to an outer diameter of the blocking portion 12 (of course
- the outer diameter of the support portion 30 (support protrusion) and the outer diameter of the blocking portion 12 may also be unequal.
- the engaging assembly 6 is formed with an engaging opening (not labeled).
- the edge of the engaging opening has a first portion and a second portion that are different in distance from the axis. The distance of the first portion from the axis is greater than the distance of the second portion from the axis.
- the distance from the first portion to the axis is L1, the distance from the second portion to the axis is L2, and the distance from the outer edge of the support portion 30 to the axis is L3; wherein, L1 ⁇ L3 >L2.
- a distance between the first portion and the axis is a maximum distance between an edge of the engaging opening and the axis;
- a distance of the second portion at the axis is an edge of the engaging opening and the a minimum distance of the axis, a distance of the engaging opening from the first portion to the second portion to the axis, and a distance from the second portion to the first portion and the axis The distance gradually increases.
- the abutting position of two adjacent clamping members forms the first portion; the intermediate position of the clamping member forms the second portion.
- the engaging openings formed by the two engaging members have an elliptical shape.
- the base 100 is further provided with a push-out structure.
- the push-out structure pushes the filter element assembly 200 away from the filter element assembly 200 in the direction of the base 100.
- the base 100 has an insertion opening for inserting the filter element assembly 200;
- the push-out structure includes an arcuate protrusion 19 disposed on a side of the base 100 having an insertion opening.
- the curved protrusion 19 is located on a surface of the base 100 provided with an insertion opening.
- the height of the curved protrusion 19 protruding from the surface of the base 100 gradually increases in a direction in which the support portion 30 rotates from the first portion to the second portion.
- the position of the curved protrusion 19 may be smaller than the outer diameter of the filter element assembly 200.
- the annular surface of the filter element assembly 200 facing away from the operating end may be provided with a raised portion 29 (a ribbed structure in Fig. 16) that cooperates with the curved projection 19.
- the filter element assembly 200 is formed with an annular surface around the insertion end 1.
- the annular surface of the cartridge assembly 200 conforms to the surface of the base 100.
- the convex portion 29 of the filter element assembly 200 is located at the lowest point of the curved protrusion 19 (the position where the surface of the base 100 is not protruded), and the rotating filter element assembly 200 drives the convex portion 29 to rotate about the axis.
- the raised portion 29 is in contact with the curved projection 19 facing away from the elongated upper end surface of the base 100 and supported by the curved projection 19.
- the arcuate projections 19 progressively urge the projections 29 away from the cartridge assembly 200 in the direction of the base 100, causing the cartridge assembly 200 to progressively engage the base.
- the seat 100 is detached.
- the push-out structure is not limited to the above-mentioned arc-shaped protrusion 19, and may be a guide rail that gradually moves away from the base 100 along the rotation direction of the first portion to the second portion, and the push-out structure may also be disposed on the filter element assembly 200.
- the push-out structure converts the rotation of the cartridge assembly 200 into a force that moves the cartridge assembly 200 away from the base 100 in an axial direction, pushing the cartridge assembly 200 out of the base 100.
- the operating portion includes a knob 20 that is fixed to the operating end 2.
- the filter cartridge assembly 200 is rotated by the knob 20.
- the knob 20 has a flat structure and is perpendicular to the end surface of the operating end 2.
- the operation portion may be in the form of a handle or the like. Considering that the operation portion has a plurality of implementation manners, it is only required to be able to drive the filter element assembly 200 to rotate, and the present application is not limited thereto.
- the support portion 30 and the mating engagement assembly 6 are provided.
- the cartridge assembly 200 When the cartridge assembly 200 is inserted into the base 100, the cartridge assembly 200 can be inserted into the base 100 along the direction in which the support portion 30 is aligned with the first portion of the engagement opening.
- the filter cartridge assembly 200 radially expands the snap-fit assembly 6 under the action of the first ramp 31 (unlocking mechanism) such that the blocking portion 12 passes through the snap-in opening, and then the snap-fit assembly 6 is reset to the locked position to lock the cartridge assembly 200.
- the support portion 30 does not affect the blocking portion 12 through the engaging assembly 6, nor does it disengage the engaging assembly 6, and the engaging assembly 6 and the supporting portion 30 are located at the same axial position.
- the outer edge of the support portion 30 may meet the edge of the engagement opening (which may also be referred to as an inner surface, an inner edge).
- the user can apply the force of pushing the filter element assembly 200 along the length of the filter element assembly 200 to the filter element assembly 200 through the operating portion, by virtue of the action of the first inclined surface 31.
- the snap-fit assembly 6 is urged in the radial direction to radially expand the snap-in opening such that the blocking portion 12 passes through the snap-fit assembly 6.
- the locking mechanism locks the filter element assembly 200, so the support portion 30 needs to be positioned at the first portion of the snap-fit assembly 6.
- the base 100 may also be provided with a guiding structure.
- the guiding structure can guide the support portion 30 to the first portion when the filter element assembly 200 is inserted into the base 100.
- the supporting portion 30 can be guided to the supporting portion 30 along the longitudinal direction of the cartridge assembly 200 (which can also be regarded as the axial direction), and the first portion can be aligned, and the blocking portion 12 can be passed through the card by applying a force to the operating portion.
- the support portion 30 is radially aligned with the first portion.
- the filter element assembly 200 can be located at a predetermined position during installation, and the locking assembly 6 can be unlocked to the release position by rotating the filter element assembly 200 through the operating portion. The operation is very convenient, and the user does not need to manually position the filter element assembly 200. Fast.
- the guiding structure includes a first guide rail 21.
- the filter element assembly 200 is provided with a guide protrusion 26 that moves along the first guide rail 21.
- the guide projection 26 moves along the first rail 21 and the support portion 30 is guided to the first portion.
- the guide structure further includes a second guide rail 22 for moving the guide projection 26, and a communication rail 23.
- the communication rail 23 communicates the first rail 21 with the second rail 22 .
- the support portion 30 expands the engaging assembly 6 from the locked position to the release position.
- the guide protrusion 26 moves along the communication rail 23 when the filter element assembly 200 moves out of the base 100.
- the second rail 22 extends linearly along the length direction of the cartridge assembly 200; the first rail 21 extends in a curved direction along the longitudinal direction of the cartridge assembly 200; and the communication rail 23 extends in the circumferential direction.
- the guiding structure comprises two sets of guide rails, and a first inlet and outlet 24 and a second inlet and outlet.
- the first inlet and outlet port 24 and the second inlet and outlet are used for the guide protrusions 26 to enter and exit the guide rail group.
- the guide projections 26 can be removed from the guiding structure, so that the filter element assembly 200 is completely removed for easy replacement.
- the first rail 21 in one rail group and the second rail 22 in the other rail group are in communication with the first inlet and outlet 24.
- the second rail 22 in the set of rails and the first rail 21 in the other set of rails are in communication with the second inlet and outlet.
- the two sets of guide rails can be symmetrically distributed, and two guide protrusions 26 can be correspondingly arranged in the circumferential direction of the filter element assembly 200, respectively corresponding to the first inlet and outlet 24 and the second inlet and outlet.
- the first rail 21 and the second rail 22 may not share the same inlet and outlet.
- the first rail 21, the second rail 22, and the communication rail 23 may be an elongated through hole structure or a groove structure 28 that provides a moving track.
- the base 100 is further provided with a support cylinder 300.
- the support cylinder 300 is sleeved on the filter assembly 200 when the filter assembly 200 is mounted on the base 100.
- the filter element assembly 200 is external.
- the guiding structure is disposed on the support cylinder 300.
- the first rail 21, the second rail 22, and the communication rail 23 each penetrate the support cylinder 300 in the radial direction.
- the first rail 21, the second rail 22, and the communication rail 23 may also be in the form of grooves.
- the cartridge assembly 200 has a cylindrical body 27 and an insertion end 1.
- a knob 20 of a flat structure forming an operation portion is provided on an end surface of the filter element assembly 200 facing away from one end of the insertion end 1.
- the cartridge assembly 200 can be rotated about the axis parallel to the longitudinal direction of the cartridge assembly 200 by the knob 20.
- the base 100 is provided with an insertion hole 15 through which the insertion end 1 enters, and an insertion opening is formed on the outer surface of the base 100.
- a support cylinder 300 is also fixedly coupled to the base 100. When the filter cartridge assembly 200 is mounted on the base 100, the support cylinder 300 encloses the cartridge assembly 200.
- the support cylinder 300 can support the filter element assembly 200 to prevent all the weight of the filter element assembly 200 from being taken up by the insertion end 1 and the insertion hole 15 at the same time, while avoiding long-term exposure of the filter element assembly 200 to be dusty.
- a guiding structure for inserting or withdrawing the filter element assembly 200 is also provided on the support cylinder 300.
- the guiding structure comprises two rail sets and a first inlet and outlet 24 and a second inlet and outlet.
- Each of the rail sets includes a first rail 21, a second rail 22, and a guide rail 23 that connects the first rail 21 and the second rail 22.
- the first guide rail 21 extends circumferentially along the longitudinal direction of the support cylinder 300
- the second guide rail 22 extends linearly along the longitudinal direction of the support cylinder 300.
- the first rail 21 in one rail group and the second rail 22 in the other rail group communicate with the first inlet and outlet 24;
- the second rail 22 in the rail group is
- the first rails 21 of the other rail group are all in communication with the second inlet and outlet.
- a communication section 25 is further disposed between the first rail 21 and the second rail 22 and the first inlet and outlet 24, and the communication section 25 also extends in a straight line, and is away from the first inlet and outlet 24 along the connecting section 25 at the filter element assembly 200.
- the connecting section 25 is arranged to guide the filter element assembly 200 into the first guide rail 21 during movement.
- the base 100 and the support cylinder 300 may be connected to each other or indirectly, and the present application is not limited thereto.
- the base 100 and the support cylinder 300 can participate in forming an outer casing of the water purifier.
- the outer diameter of the insertion end 1 is smaller than the outer diameter of the cylindrical body 27 of the filter cartridge assembly 200.
- the insertion end 1 is provided with a convex ring structure 14, and a side of the convex ring structure 14 adjacent to the operation end 2 is provided with a blocking surface (blocking portion 12), and a supporting protrusion (support portion 30) is provided.
- the outer diameter of the support protrusion is equal to the outer diameter of the collar structure 14.
- the support projections are evenly distributed in the circumferential direction by two, so that the snap-fit assembly 6 can be opened to the release position by rotating 90 degrees.
- a side of the collar structure 14 facing away from the operating end 2 is provided with a first bevel 31.
- the base 100 has a base housing, and the engaging opening is disposed on the base housing.
- the engaging assembly 6 is mounted inside the base housing and forms an engaging opening on the inner side of the insertion opening (the insertion opening and the engaging opening are both Insert a part of the hole 15).
- the snap-fit assembly 6 has two opposite clamping plates, each of which is provided with a curved edge forming an edge of the engaging opening. The abutting portions of the two clamping plates form two first portions and are in one-to-one correspondence with the two supporting protrusions. After the support protrusion is rotated by 90 degrees, the two support protrusions are respectively aligned with the intermediate positions of the two clamping plates, and the two clamping plates are pushed radially outward to the release position.
- the base 100 is internally provided with an elastic member that applies a movement toward the locking position of the two clamping plates.
- the edge of the engaging opening is also the first inclined surface 31 so as to cooperate with the first inclined surface 31 of the convex ring structure 14 so as to be pushed away and passed by the convex ring structure 14.
- the filter element assembly 200 When the user needs to remove the filter element assembly 200 from the base 100 (or the water purifier housing), the filter element assembly 200 is first rotated by the knob 20, and the guide protrusion 26 on the filter element assembly 200 is rotated 90 degrees around the communication rail 23 to the first One end of the two guide rails 22, the wall connecting the ends of the guide rails 23, can prevent the guide projections 26 from continuing to move in the circumferential direction, reminding the user that the filter cartridge assembly 200 can be pulled out at this time. During rotation of the cartridge assembly 200, the support projection is rotated from the first portion to the second portion to disengage the snap assembly 6 from the locked position to the released position.
- the filter element assembly 200 is automatically moved outward (extracting direction) by a certain distance with the rotation, thereby reducing the user's force.
- the user pulls the filter element assembly 200 outward, and the two guide projections 26 move along the second guide rail 22 until they are removed from the first inlet and outlet 24 and the second inlet and outlet.
- the two guiding protrusions 26 are introduced into the guiding structure from the first inlet and outlet 24 and the second inlet and outlet, and continue.
- the filter element assembly 200 is pushed and guided by the communication section 25 into the first rail 21 until the two support projections are axially aligned with the two first portions.
- the filter cartridge assembly 200 is then pushed toward the base 100 by the knob 20, and the insertion end 1 of the cartridge assembly 200 is opened and passed by the first ramp 31, and is reset to the lock after the blocking portion 12 passes the rear latching assembly 6.
- the position locks the insertion end 1 and the two support portions 30 are radially aligned with the two first portions to complete the installation of the filter element assembly 200.
- the opening portion moves the opening mechanism along the longitudinal direction of the cartridge assembly 200 when externally applied by the operating portion.
- the opening mechanism moves the locking mechanism from the locked position to the release position by moving along the length of the cartridge assembly 200.
- the opening mechanism can be movably mounted to the base 100 or can be detachably mounted with the filter cartridge assembly 200.
- the opening mechanism can also include a plurality of detachable components, a portion of which is mounted to the base 100 and another portion of which is mounted to the filter assembly 200.
- the operating portion is provided with a rotatably-forced member 3.
- the opening mechanism includes a distracting member 4 that cooperates with the force receiving member 3.
- the expansion member 4 is movable in the direction in which the filter element assembly 200 is inserted into the base 100 when the force receiving member 3 is biased, and the snap assembly 6 is extended from the locked position to the release position. .
- the force receiving member 3 can also move the filter element assembly 200 away from the base 100 when the force receiving member 3 is rotated. Specifically, after the expansion member 4 moves along the length direction of the filter element assembly 200 to open the engagement assembly 6 to the release position, the expansion member 4 can be restrained by the base 100 and cannot continue to move toward the base 100 in the direction of the filter element assembly 200. At this time, the force receiving member 3 can continue to rotate, and the expansion member 4 applies an opposite force to the force receiving member 3 or the filter element assembly 200 to move against the filter element assembly 200 in a direction away from the base 100.
- the extending member 4 is provided with a distracting portion near one end of the base 100; the engaging assembly 6 is provided with an acting portion that can cooperate with the distracting portion.
- the expansion portion and/or the action portion are provided with a second slope 13 .
- the second bevel 13 causes the distraction member 4 to radially expand the snap-fit assembly 6 from the locked position to the release position as the filter cartridge assembly 200 is inserted into the base 100.
- the force receiving member 3 is rotated about a rotation axis perpendicular to the longitudinal direction of the filter element assembly 200.
- the force receiving member 3 has a first rotational position and a second rotational position along its rotational direction.
- the expansion member 4 is pushed to move in the direction in which the filter cartridge assembly 200 is inserted into the base 100.
- the force receiving member 3 includes a handle. To facilitate the user's gripping operation, the handle is gradually erected at an end of the filter element assembly 200 away from the insertion end 1 when the handle is rotated from the first rotational position to the second rotational position.
- the force receiving member 3 has a semicircular shape, and both ends are rotatably coupled to the operating end 2. It should be noted that the force receiving member 3 of the present application is not limited thereto, and the force receiving member 3 may have other shapes, such as a straight rod shape, a polygonal line shape, a partial curved shape, and the like.
- the force receiving member 3 In order to move the expansion member 4 in the direction of the base 100 by the force receiving member 3, in the embodiment shown in Fig. 2, the force receiving member 3 has a pushing surface 8 which rotates together about the rotation axis.
- the force receiving member 3 When the force receiving member 3 is rotated from the first rotational position to the second rotational position, the distance between the contact portion of the pushing surface 8 and the distracting member 4 and the rotational axis gradually increases.
- the pushing surface 8 is located at both ends of the force receiving member 3, and the pushing surface 8 may be a curved surface structure.
- the force receiving member 3 in this embodiment has a simple structure, and is rotated by the pivoting shaft 9 (the pivot axis 9 is perpendicular to the longitudinal direction of the cartridge assembly 200, that is, the axis perpendicular to the axis, the pivot axis 9 provides the rotation axis).
- the pushing surface 8 can push the expansion member 4 to move along the length of the filter element assembly 200.
- the opening mechanism further includes a pushing member 10 disposed at the operating end 2.
- a pushing member 10 disposed at the operating end 2.
- the pusher 10 is moved radially outward.
- the spreader 4 is moved in the direction in which the cartridge assembly 200 is inserted into the base 100.
- a shielding cover 18 may be provided on the operating end 2 to block the pushing member 10.
- the force receiving member 3 is further provided with a pushing rod 16 connecting the two ends thereof.
- the operating end 2 is provided with two pushing members 10, and when the force receiving member 3 is rotated from the first rotating position to the second rotating position, the pushing rod 16 directly pushes a pushing member 10 radially outward, and correspondingly, the pushing At the same time, the piece 10 pushes the other pushing member 10 to push in the opposite direction (schematically, for example, the two pushing members 10 simultaneously mesh with a fixed gear, by which the two pushing members 10 move in opposite directions in the radial direction. ).
- the pushing member 10 is provided with a third inclined surface 11 at a radially outer end. When the pusher 10 moves radially outward, the extension member 4 is pushed by the third inclined surface 11 to move in the direction in which the filter cartridge assembly 200 is inserted into the base 100.
- the distracting member 4 includes a cylindrical structure that is mounted on the base 100 and can be sleeved outside the filter element assembly 200.
- the expansion portion is disposed at an end of the cylindrical structure near the base 100.
- the barrel structure is movable relative to the base 100 along the length of the cartridge assembly 200. That is, the expansion member 4 is movably supported (indirectly or directly) on the base 100.
- Two ends of the cylindrical structure adjacent to the base 100 are circumferentially provided with two or more insertion projections 5, and the second inclined surface 13 is provided on the insertion projection 5.
- the base housing is provided with a plurality of rectangular openings 17, the action portion of the clamping plate (also a convex structure, and the convex structure at the position indicated by reference numeral 6 in FIG.
- the raised structure is part of the clamping plate) located in the rectangular opening 17 and is likewise provided with a second bevel 13.
- the distracting member 4 drives the insertion protrusion 5 to move toward the base 100, and the distracting portion cooperates with the acting portion to axially extend the distracting member 4
- the motion changes into a radial movement of the clamping plate causing the snap-fit assembly 6 to move to the release position.
- the base 100 is further provided with a support cylinder 300.
- the support cylinder 300 is sleeved outside the filter element assembly 200 when the filter element assembly 200 is mounted on the base 100.
- the cylinder structure is sleeved between the support cylinder 300 and the filter element assembly 200.
- the expansion member 4 is movably mounted on the support cylinder 300.
- the cartridge assembly 200 has a cylindrical body 27 and an insertion end 1.
- the end face of the filter element assembly 200 facing away from the operating end 2 of the insertion end 1 is provided with a rotatable semi-circular handle.
- the pilling cylinder (the struts 4) can be pushed along the length of the cartridge assembly 200 by erecting the handle on the end face of the operating end 2.
- the expansion cylinder is movably supported in the support cylinder 300, and the base 100 is provided with an insertion hole 15 for the insertion end 1 to enter, and an insertion opening is formed on the outer surface of the base 100.
- a support cylinder 300 is also fixedly coupled to the base 100. When the filter cartridge assembly 200 is mounted on the base 100, the support cylinder 300 encloses the cartridge assembly 200.
- the support cylinder 300 can support the filter element assembly 200 to prevent all the weight of the filter element assembly 200 from being taken up by the insertion end 1 and the insertion hole 15 at the same time, while avoiding long-term exposure of the filter element assembly 200 to be dusty. Both the support cylinder 300 and the expansion cylinder can guide the insertion or removal of the filter element assembly 200, so that the insertion end 1 is aligned with the insertion opening of the base 100 during installation.
- the outer diameter of the insertion end 1 of the cartridge assembly 200 is smaller than the outer diameter of the cylindrical body 27 of the cartridge assembly 200.
- the insertion end 1 is provided with a convex ring structure 14, and a side of the convex ring structure 14 adjacent to the operation end 2 is provided with a blocking surface (blocking portion 12).
- a side of the collar structure 14 facing away from the operating end 2 is provided with a first bevel 31.
- the base 100 has a base housing, and the engaging opening is disposed on the base housing.
- the engaging assembly 6 is mounted inside the base housing and forms an engaging opening on the inner side of the insertion opening (the insertion opening and the engaging opening are both Insert a part of the hole 15).
- the snap-fit assembly 6 has two opposing clamping plates (one of the clamping members), each of which is provided with a curved edge forming an edge of the engaging opening. The abutting portions of the two clamping plates form two first portions and are in one-to-one correspondence with the two supporting protrusions.
- An elastic member that applies a movement toward the locking position to the two clamping plates is provided inside the base 100.
- the edge of the engaging opening is also the first inclined surface 31 so as to cooperate with the first inclined surface 31 of the convex ring structure 14 so as to be pushed away and passed by the convex ring structure 14.
- the base housing is provided with a rectangular opening 17 into which the active portion of the clamping plate projects and cooperates with the insertion projection 5 of the end of the expansion cylinder. Due to the presence of the elastic member, when the filter element assembly 200 has been mounted on the base 100 or is not mounted in the state of the base 100 (ie, the snap-fit assembly 6 is in the locked position), the clamping plate will be moved away from the base by the first inclined surface 31. The direction of the seat 100 pushes the distraction member 4 so that the distraction member 4 is reset.
- the handle When the user needs to detach the cartridge assembly 200 from the base 100 (or the water purifier housing), the handle is first erected at the operating end 2 by a rotary handle. As the handle is erected, the push surface 8 of the handle pushes the expansion cylinder toward the base 100. The expansion cylinder moves the clamping plate in the radial direction by the second inclined surface 13 to open the engagement opening to the release position. The handle continues to be erected, and the end of the insertion protrusion 5 is pushed against the limit (such as the clamping plate or the limit portion on the base 100) and cannot continue to move toward the base 100. Under the reaction force, the filter element assembly 200 is automatically moved outward (extracting direction) by a certain distance as the handle rotates to reduce the user's force. Finally, the user can pull out the filter element assembly 200 outwardly, and the filter element assembly 200 does not need to be rotated during the pulling out process.
- the limit such as the clamping plate or the limit portion on the base 100
- the filter cartridge assembly 200 When the user needs to mount the (new) cartridge assembly 200 to the base 100 (or the water purifier housing), the filter cartridge assembly 200 is fed into the expansion cylinder by a handle or by directly holding the cylindrical barrel of the cartridge assembly 200. The inside of the cylinder 300 is supported. Then, the filter cartridge assembly 200 is continued to be pushed toward the base 100. The insertion end 1 of the cartridge assembly 200 is opened and passed by the first inclined surface 31, and is reset to the locked position after the blocking portion 12 passes the rear engaging assembly 6. The insertion end 1 is locked to complete the installation work of the filter element assembly 200.
- the pushing surface 8 of the handle can also directly push the support cylinder to move toward the base 100, and the engaging component 6 is removed from the second inclined surface 13
- the locking position is driven to the release position, ensuring that the blocking portion 12 of the insertion end 1 passes through the engagement opening.
- the force receiving member 3 and the expansion member 4 in this embodiment can also function as an unlocking mechanism, and it is not necessary to provide the first slope 31 in the above embodiment.
- a filter cartridge assembly replacement structure is provided in the embodiment of the present application, comprising: a filter cartridge assembly 200, a base 100 for mounting the filter cartridge assembly 200, and a lock for locking the filter cartridge assembly 200 on the base 100 A mechanism, an unlocking member 40 for opening the locking mechanism.
- the filter element assembly 200 is provided with a force receiving member 3 for receiving a force applied by a user.
- the force receiving member 3 has a first position and a second position by an action.
- FIGS. 17 and 19 FIG. 17 is a schematic view showing a state in which the force receiving member 3 is attached to the susceptor 100 when it is in the first position.
- FIG. 19 is a schematic view showing a state in which the filter element assembly 200 is inserted into the base 100 when the force receiving member 3 is in the second position.
- the unlocking member 40 can be pushed to open the locking mechanism.
- the filter element assembly 200 can be inserted into the base 100 in a state where the force receiving member 3 is in the second position until being locked by the locking mechanism.
- the force receiving member 3 has a first position and a second position through the action, and the action form may be rotation, translation, or even flipping.
- the force applied by the force receiving member 3 may be a turning force or a helium pressure.
- the force receiving member 3 is rotatable about an axis of rotation.
- the force receiving member 3 in order to facilitate the operation of the user, can be rotated around a pivoting shaft 9, and the first position can be the first rotational position in the above embodiment, and the second position can be in the above embodiment. The second rotational position.
- the base 100 is mounted for the cartridge assembly 200.
- the susceptor 100 can be moved or operated.
- the base 100 can be actuated during the unlocking mechanism.
- the base 100 preferably remains stationary in this embodiment.
- the locking mechanism can be located on the base 100 or on the filter element assembly 200, which is not limited in this application.
- the base 100 and the locking mechanism can refer to the base 100 and the locking mechanism in the above embodiments, which are not described in this embodiment.
- the unlocking member 40 can unlock the locking mechanism.
- the unlocking member 40 has a different unlocking structure depending on the locking form of the locking mechanism.
- the unlocking member 40 can refer to the distracting member in the above embodiment.
- the unlocking member 40 can be further configured to cooperate with the force receiving member 3 to maintain the convenience of the user to install and remove the filter element assembly 200.
- the filter element assembly replacement structure provided in this embodiment is provided with the force receiving member 3, which is convenient for the user to operate the filter element assembly 200 through the force receiving member 3.
- the user can apply force to the force receiving member 3 to move it from the first position to the second position, which is convenient for disassembly.
- the filter element assembly 200 can be inserted into the base 100 in a state where the force receiving member 3 is in the second position until being locked by the locking mechanism, so that even if the force receiving member 3 is in the first In the two-position state, the user can still mount the filter element assembly 200 to the base 100 without changing the state of the force receiving member 3, which is convenient for the user to operate.
- the force receiving member 3 is provided with a pushing portion 50.
- the pushing portion 50 can push the unlocking member 40 to form an unlocking action, thereby unlocking the locking mechanism.
- the pushing portion 50 in the rotation from the first position to the second position, the pushing portion 50 is pushed to move along the length direction of the cartridge assembly 200, so that the unlocking member 40 is moved toward the base 100, inserted into the locking mechanism, and locked. The organization unlocked to open.
- the unlocking member 40 is provided with a receiving surface 61 that cooperates with the pushing portion 50.
- the receiving surface 61 can be a flat surface.
- the pushing portion 50 is engaged with the receiving surface 61 to push the unlocking member 40.
- the receiving surface 61 is located at one end of the unlocking member 40 away from the base 100.
- the pushing portion 50 is in contact with the receiving surface 61 when the first position is moved to the second position, thereby pushing the unlocking member 40 to open the locking mechanism.
- the filter element assembly 200 is At least a portion of the pushing portion 50 can be moved from one side of the receiving surface 61 to the other side of the receiving surface 61 when the base 100 is inserted.
- the locking mechanism can be smoothly unlocked, and the filter element assembly 200 can be unloaded from the base 100.
- part of the pushing portion 50 can be removed from between the unlocking member 40 and the filter element assembly 200.
- the pushing portion 50 may be entirely located on the upper side of the receiving surface 61 and not in contact with the receiving surface 61.
- the pushing portion 50 When the force receiving member 3 is in the first position, the pushing portion 50 is located outside the unlocking member 40. The pushing portion 50 is not in contact with the receiving surface 61. When the force receiving member 3 is gradually moved from the first position to the second position, the pushing portion 50 gradually contacts the receiving surface 61, and gradually pushes the unlocking member 40 toward the base 100, thereby unlocking and unlocking the locking mechanism.
- the end portion 51 of the pushing portion 50 may be inserted between the unlocking member 40 and the filter element assembly 200, and the unlocking member 40 is for the pushing portion 50. Movement does not create an obstacle.
- the user can operate the filter element assembly 200 with the force receiving member 3 in the second position, which is convenient for the user to operate until the filter element assembly 200 is completely mounted on the base 100 without the user having to remove the filter element assembly 200 from the second position during the installation process. Change to the first location. Then, the user can move the force receiving member 3 from the second position to the first position, so that the pushing portion 50 is removed from the unlocking member 40 and the filter element assembly 200, so as to facilitate the subsequent removal of the filter element assembly 200 from the base 100. .
- the force component When the user needs to take out the filter element assembly 200, the force component is urged from the first position to the second position, and the pushing portion 50 is in contact with the receiving surface 61. As the force-bearing component gradually approaches the second position, the pusher 50 progressively pushes the unlocking member 40 toward the base 100 through the receiving surface 61 until the locking mechanism is unlocked. Finally, the user removes the filter element assembly 200 from the base 100 by the force receiving member 3 located at the second position to complete the removal of the filter element assembly 200.
- the filter element replacement structure may further include a plunge structure.
- the cutting-in structure is configured to cause the pushing portion 50 to cut into contact with the receiving surface 61 when the force receiving member 3 is rotated from the first position to the second position. By cutting into the structure, it is possible to prevent the pushing portion 50 from entering between the unlocking member 40 and the filter element assembly 200 when it is rotated to the second position, and cannot contact the receiving surface 61, thereby ensuring successful unlocking.
- the cutting structure may include a blocking wall 62 disposed at an end of the unlocking member 40 away from the base 100.
- the receiving surface 61 is located outside the blocking wall 62.
- One end of the barrier wall 62 in the circumferential direction is a cut-in end 63 whose outer diameter does not exceed the inner diameter of the pushing portion 50.
- the pushing portion 50 is located on the side of the blocking wall 62 away from the base 100.
- the pushing portion 50 is positioned above the barrier wall 62.
- the pushing portion 50 When the force receiving member 3 is rotated from the second position to the second position, the pushing portion 50 first comes into contact with the cutting end 63, and the one end of the blocking wall 62 in the circumferential direction has an outer diameter that does not exceed the inner diameter of the pushing portion 50. The end 63 is cut so that the pushing portion 50 is cut along the outside of the cutting end 63 to avoid cutting into the inside of the blocking wall 62. As the force receiving member 3 gradually approaches the second position, the pushing portion 50 gradually comes into contact with the receiving surface 61 to push the unlocking member 40.
- the receiving surface 61 and the barrier wall 62 form a stepped structure.
- the receiving surface 61 is located outside the blocking wall 62 and extends in the same direction as the blocking wall 62.
- the extension length of the barrier wall 62 may be the same as the extension length of the receiving surface 61.
- the receiving surface 61 can be substantially a curved surface.
- the blocking wall 62 can also have a substantially arc-shaped structure.
- the barrier wall 62 also has a spacer 64. At least a portion of the push portion 50 can extend between the spacer portion 64 and the filter cartridge assembly 200.
- the inner diameter of the incision end 63 gradually increases as it extends toward the spacer portion 64.
- the gap distance between the spacer 64 and the cartridge assembly 200 is greater than the gap distance between the incision end 63 and the cartridge assembly 200, so that the pushing portion 50 can be inserted into the spacer when moving toward the base 100 in the second position. 64 is between the filter element assembly 200.
- the force receiving member 3 includes a handle rotatably mounted to the filter element assembly 200.
- the handle can be a semi-circular handle.
- the handle is gradually erected when rotated from the first position to the second position.
- One end of the handle is respectively provided with one pushing portion 50.
- the cylinder 41 is provided with two corresponding receiving faces 61 and a blocking wall 62.
- the pushing portion 50 includes a pushing surface 8 disposed on the force receiving member 3 to rotate about an axis of rotation.
- the pushing surface 8 is a curved surface, in particular a curved surface, so that the pushing surface 8 can push the unlocking member 40 toward the base 100 when the pushing portion 50 is rotated about the pivoting shaft 9.
- the distance between the contact portion of the pushing surface 8 and the receiving surface 61 and the rotation axis gradually increases.
- the outer diameter of the end portion 51 of the pushing portion 50 is smaller than the outer diameter of the other portion.
- the end portion 51 of the pushing portion 50 is made smaller in thickness.
- the end portion 51 of the pushing portion 50 may also be an inner buckle structure that is curved toward the inner side.
- An end of the unlocking member 40 away from the base 100 is provided with an elastic structure.
- the elastic structure is elastically movable in a radial direction near an end of the force receiving member 3.
- the receiving surface 61 and the cutting structure are disposed at an end of the elastic structure adjacent to the force receiving member 3.
- the elastic structure when the pushing portion 50 is inserted between the filter element assembly 200 and the elastic structure, the longer the portion into which the pushing portion 50 is inserted, the elastic structure can be expanded outward in the radial direction, thereby facilitating the insertion of the pushing portion 50, Avoiding the formation of a barrier to the pusher 50 facilitates the user to mount the cartridge assembly 200 in place.
- the pushing portion 50 is moved to the second position, and the pushing portion 50 is gradually cut into the upper side of the receiving surface 61 (the side away from the base 100) through the cutting end 63.
- the elastic structure can be contracted radially inward, so that the pushing portion 50 can smoothly match the receiving surface 61, and the unlocking member 40 is gradually pushed to open the locking mechanism.
- the unlocking member 40 includes a cylinder 41 mounted on the base 100 and sleeved outside the filter cartridge assembly 200 (refer to the structure of the cylinder 41 in the above embodiment).
- the elastic structure includes a card 60 disposed on the barrel 41.
- the cylinder 41 is provided with two corresponding cards 60.
- the card plate 60 is provided with a gap 45 between the two sides in the circumferential direction and the cylindrical body 41.
- the spacing gap 45 has an opening portion away from the end of the base 100.
- the circumferential width gradually decreases as the opening portion extends toward the base 100.
- the card board 60 can be fixedly connected to one end of the cylinder body 41 away from the base 100.
- the card board 60 and the barrel 41 are integrally formed.
- At least a portion of the card 60 has a thickness greater than a wall thickness of the barrel 41. Further, the card board 60 is provided with a connecting portion close to the base 100 and a carrying portion away from the base 100. The width of the connecting portion in the circumferential direction is smaller than the width of the bearing portion in the circumferential direction. The receiving surface 61 and the blocking wall 62 are located at the upper end of the carrying portion.
- the filter element replacement structure may further be provided with a guiding structure.
- the guiding structure is used for the pushing portion 50 and the spacing portion 64 to be aligned along the direction of the filter element assembly 200. By providing the guiding structure, the user does not need to align the pushing portion 50 with the spacing portion 64 of the card board 60 when the filter element assembly 200 is installed, which is convenient for the user to operate.
- the side wall of the filter element assembly 200 is provided with a guiding protrusion 201.
- the guide projection 201 is preferably a cylindrical projection, although other configurations are not limited in this application.
- the number of guiding protrusions 201 is preferably one
- the guide structure includes a guide surface 42 provided on an inner wall of the cylindrical body 41 and a guide through hole 43 penetrating the cylindrical wall of the cylindrical body 41.
- the guide surface 42 extends spirally from an end remote from the base 100 toward an end adjacent to the base 100.
- the guiding surface 42 opens into the guiding through hole 43 near one end of the base 100.
- the guiding surface 42 is configured to receive the guiding protrusion 201 to guide the guiding protrusion 201 into the guiding through hole 43.
- the guide through hole 43 extends along the length direction of the cartridge assembly 200.
- the lower end of the guide surface 42 leads to the through hole 43.
- the guide through holes 43 have portions on both sides of the guide surface 42.
- An observation hole may be provided in the cylinder 41 to observe whether or not the guide projection 201 is placed on the guide surface 42.
- the guide projection 201 moves along the guide surface 42 until it enters the guide passage under the action of the user's thrust.
- the push portion 50 is aligned with the spacer portion 64. Continuing to push the cartridge assembly 200, the pusher 50 is inserted between the card 60 and the cartridge assembly 200 until the locking mechanism locks the insertion end 1 of the cartridge assembly 200 for installation.
- the filter element assembly 200 is installed.
- the distance between the receiving surface 61 and the lower end of the guiding surface 42 (near the end of the base 100) is smaller than the pushing portion 50 is located at the second force receiving member 3 The distance from the guide projection 201 in the positional state.
- the inner wall of the cylinder 41 is provided with at least one guiding surface 42, and the angle of the guiding surface 42 spirally extends is an integral multiple of 180 degrees. As shown in FIG. 26, two guide faces 42 extending at an angle of 180 degrees are symmetrically disposed on the inner wall of the cylindrical body 41. Therefore, the user does not need to pay attention to the position of the guiding protrusion 201, and the user only needs to insert the filter element assembly 200 into the base 100, which is very convenient for the user to operate.
- the guide surface 42 may also be a guide surface 42 having an extension angle of 360.
- one of the bases 100 may be moved away from the base 100, and one of the bases 100 may be moved toward the base 100, or may be regarded as moving downward.
- the "up and down” direction may correspond to the orientation of the reader as shown in FIG. 17 or FIG. 19, but is not limited by the actual placement state.
- the embodiments of the present application are not limited to the above embodiments.
- at least part of it can also be moved outside the receiving surface 61 to the side of the receiving surface 61 close to the base 100.
- the pusher 50 can be allowed to squeeze the unlocking member 40 toward the cartridge assembly 200 as it moves (also understood to be radially compressed).
- the plunge structure is arranged opposite to that of the embodiment shown in Fig. 25, wherein the receiving surface 61 is located inside the blocking wall 62 and the spacing portion 64 is smaller relative to the inner diameter of the incision end 63.
- the force receiving member 3 is provided with a pushing portion 50 for pushing the unlocking member 40.
- the pushing portion 50 has a switchable push position and a release position. When the pushing portion 50 is in the release position, the force receiving member 3 does not interfere with the unlocking member 40. When the pushing portion 50 is in the release position, the pushing portion 50 can push the unlocking member 40 to open the locking mechanism.
- the filter element assembly 200 can be inserted into the base 100 in a state where the force receiving member 3 is located at any position between the first position and the second position until being locked by the locking mechanism.
- the user can install the filter element assembly 200 in place without paying attention to the position of the force receiving member 3, which is convenient for the user to install.
- the pushing portion 50 when the pushing portion 50 is in the release position, it does not rotate together with the force receiving member 3.
- the pushing portion 50 rotates together with the force receiving member 3 in the pushing position.
- the user can apply the pushing portion 50 from the first position to the second position after the pushing member 50 is switched from the releasing position to the pushing position when the force receiving member 3 is in the first position, thereby moving the filter element assembly 200 from the first position.
- the base 100 is removed.
- the pushing portion 50 is switched between the push position and the release position by the radial movement.
- the inner diameter of the pushing portion 50 at the releasing position is larger than the inner diameter of the pushing portion. That is, the radial gap width between the pushing portion 50 and the cartridge assembly 200 when the pushing portion 50 is in the release position is greater than the radial gap width between the pushing portion 50 and the cartridge assembly 200 when the pushing portion 50 is in the pushing position.
- the pushing portion 50 is attached to both ends of the handle.
- the pushing portion 50 is rotatably mounted on the pivot shaft 9.
- the force receiving member 3 can drive the pushing portion 50 to rotate about a rotation axis.
- the pusher 50 is movable along the axis of rotation to switch between the push position and the release position.
- the pushing portion 50 has an insertion portion 54 having a inserted portion 55 (such as a loop sleeve as shown in FIGS. 30 and 31) sleeved on the pivot shaft 9, and the inserted portion 55 can be An insertion hole is provided, and the insertion portion 54 may be an insertion protrusion that can be inserted into the insertion hole.
- the pushing portion 50 is in the releasing position, the insertion portion 54 moves outward along the pivot shaft 9 and is removed from the insertion hole of the inserted portion 55.
- the rotation linkage between the handle and the pushing portion 50 cannot be achieved, and the pushing portion 50 does not follow the handle. Turn.
- the pushing portion 50 is pushed radially inward, and the insertion portion 54 of the pushing portion 50 is inserted into the inserted portion 55, and the handle and the pushing portion 50 are interlocked, and the handle can drive the pushing portion 50 to rotate. In this manner, the handle is rotated to the second position, the locking mechanism is unlocked, and the filter cartridge assembly 200 is removed.
- the cartridge assembly replacing structure may further be provided with an elastic member 70 that applies an elastic force to the pushing portion 50 to move toward the release position.
- the elastic member 70 includes a spring that is sleeved on the pivot shaft 9. The elastic member 70 can ensure that the pushing portion 50 is in the release position when the filter element assembly 200 is not required to be unlocked, thereby avoiding the erroneous unlocking of the filter element assembly 200.
- a water purifier is further provided in the embodiment of the present invention, comprising: the filter element assembly replacing structure according to any one of the embodiments or the embodiments.
- the water purifier may have a plurality of filter cartridge assemblies 200.
- the base 100 of the cartridge assembly replacement structure may form a water purifier housing.
- the support cylinder 300 may also be part of the water purifier housing.
- the water purifier housing is provided with a plurality of bases 100, and the plurality of bases 100 may be a unitary structure, and each of the bases 100 is correspondingly mounted with a filter element assembly 200.
- the water purifier housing is provided with a plurality of receiving slots; each receiving slot corresponds to an insertion hole 15 leading to a base 100.
- the plurality of filter cartridge assemblies 200 can be mounted in the receiving slots in one-to-one correspondence and inserted into the corresponding bases 100.
- FIG. 32 is a schematic structural view of the filter cartridge mounting mechanism before installation according to the embodiment of the present invention, as shown in FIG.
- the filter housing mounting mechanism may include a fixing mechanism 1 including a fixing base 11 , a rotating member 12 disposed on the fixing base 11 and rotatable relative to the fixing base 11 , and the rotating member 12 having the first engaging portion Portion 121; cartridge loading mechanism 2, the cartridge receiving mechanism 2 has a second engaging portion 21 that matches the first engaging portion 121, and the second engaging portion 21 of the cartridge receiving mechanism 2 can be loaded into the rotating member In the first engaging portion 121 of 12.
- the filter cartridge mounting mechanism in the present application is provided with a rotating member 12 on the fixing base 11 which is rotatable relative to the fixed seat 11.
- the second filter cartridge receiving mechanism 2 having the filter element is provided.
- the engaging portion 21 is inserted into the first engaging portion 121 of the rotating member 12, the second engaging portion 21 is engaged with the first engaging portion 121, and the filter receiving mechanism 2 is rotated to enable the filter element to be loaded.
- the mechanism 2 drives the rotating member 12 to rotate, thereby rotating the filter receiving mechanism 2 to a preset working position.
- the filter-carrying mechanism 2 When the filter-carrying mechanism 2 needs to be replaced, the filter-carrying mechanism 2 is rotated in the opposite direction, and the filter-carrying mechanism 2 drives the rotating member 12 to rotate, so that the filter-carrying mechanism 2 is rotated to the first engaging portion 121 and the second card. The position where the joint portion 21 can be separated, and then the second engaging portion 21 of the filter element receiving mechanism 2 is detached from the first engaging portion 121 of the rotating member 12, thus completing the disassembling operation of the filter element receiving mechanism 2, and finally By repeating the process of installing the filter-carrying mechanism 2, the new filter-carrying mechanism 2 can be mounted in the fixing mechanism 1.
- the filter cartridge mounting mechanism in the present application realizes the relative rotation between the cartridge receiving mechanism 2 and the fixing base 11 by the rotating member 12 which can rotate itself. Therefore, when the cartridge receiving mechanism 2 is installed, the user only The second engaging portion 21 of the filter-carrying mechanism 2 can be mounted in the first engaging portion 121 of the rotating member 12, and then the filter-carrying mechanism 2 can naturally occur with the fixed seat 11 under the action of the self-weight and the rotating member 12. Relative rotation. Compared with other existing detachable filter cartridge housing 22 mounting mechanisms, the user does not need to accurately mount the filter cartridge mounting mechanism 2 into the sliding rail on the fixed seat 11 during installation, so that the cartridge loading mechanism 2 Rotate by sliding the track.
- the cartridge housing mounting mechanism may include a fixing mechanism 1 and a cartridge receiving mechanism 2.
- the fixing mechanism 1 is used for loading the filter-carrying mechanism 2
- the filter-carrying mechanism 2 may include a fixing base 11, a rotating member 12 disposed on the fixing base 11 and rotatable relative to the fixed seat 11.
- the fixing base 11 can include a body 114 and a limiting member 115 connected to the body 114.
- the rotating member 12 is disposed on the body 114, and the limiting member 115 is used for resisting the rotating member 12 to limit the rotating member 12, thereby preventing The rotating member 12 is disengaged from the fixed seat 11 while being able to rotate the rotating member 12 on the fixed seat 11.
- a first engaging portion 121 is formed on the rotating member 12, and the first engaging portion 121 is engaged with the second engaging portion 21 of the filter receiving mechanism 2, so that the rotating member 12 and the filter receiving mechanism 2 are The transmission can take place.
- the cartridge receiving mechanism 2 may have a second engaging portion 21 matching the first engaging portion 121, and the second engaging portion 21 of the cartridge receiving mechanism 2 can be loaded into the rotating member 12.
- the cartridge receiving mechanism 2 may include a housing 22 for receiving the filter cartridge and a rotating mechanism 23 disposed on the housing 22, and the rotating mechanism 23 is shared with the housing 22.
- the second engaging portion 21 is formed.
- the second engaging portion 21 formed by the rotating mechanism 23 and the housing 22 can be engaged with the first engaging portion 121 and can rotate relative to the first engaging portion 121 around the fixed seat 11.
- the cartridge receiving mechanism 2 may include: a housing 22 for receiving the filter cartridge and a rotating mechanism 23 disposed on the housing 22, the rotating mechanism 23 separately forming the second engaging portion 21, the shell
- the body 22 can be connected to the rotating mechanism 23 by plugging or other connection to achieve the fixation between the two, and can not be easily separated.
- the second engaging portion 21 formed on the rotating mechanism 23 can be combined with the second engaging portion 21
- a latching portion 121 is relatively rotated about the fixed base 11.
- the cartridge receiving mechanism 2 may include: a housing 22 for receiving the filter cartridge and a rotating mechanism 23 disposed on the housing 22, and the second engaging portion 21 is separately formed on the housing 22, The rotating mechanism 23 is connected to the housing 22 by plugging or other connection to achieve the fixing therebetween.
- the second engaging portion 21 formed on the housing 22 can be coupled to the first engaging portion 121. Relative rotation occurs around the mount 11.
- the rotating mechanism 23 since the rotating mechanism 23 is fixedly coupled to the housing 22, when one of the components is rotated, the other member can be rotated.
- the fixing base 11 has a receiving portion 13 on which the rotating member 12 is mounted.
- the receiving portion 13 may be formed on the body 114 of the fixing base 11 or may be formed on the limiting member 115 of the fixing base 11. In other possible manners, the body 114 of the fixing seat 11 and the limiting member 115 can jointly form the receiving portion 13.
- the rotating member 12 is disposed in the accommodating portion 13.
- the rotating member 12 can disperse the weight of the filter receiving mechanism 2 to
- the lower portion of the accommodating portion 13 of the lower fixing base 11 of the rotating member 12 is configured to prevent cracking or breakage of a portion of the fixing base 11 due to the concentrated force from receiving the weight of the entire filter-carrying mechanism 2.
- the receiving portion 13 has a notch 131.
- the second engaging portion 21 can be removed from the first engaging portion 121 of the rotating member 12 or inserted into the first engaging portion 121 of the rotating member 12 through the notch 131, so that the fixing mechanism 1 is fixed. Separated from or installed with the filter holder mechanism 2.
- the first engaging portion 121 can extend in a straight line direction, and the second engaging portion 21 also extends in a linear direction.
- the second engaging portion 21 of the cartridge receiving mechanism 2 is along a straight line. The direction is inserted into the first engaging portion 121 of the rotating member 12.
- the filter-carrying mechanism 2 Since the filter-carrying mechanism 2 has a filter element and water, the weight thereof is relatively large, and the user is laborious in the process of disassembling and installing the filter-carrying mechanism 2, in the embodiment, the user can directly adopt the filter-carrying mechanism 2
- the second engaging portion 21 inserts or pulls out the first engaging portion 121 of the rotating member 12 in a linear direction, thereby greatly simplifying the installation or disassembly process of the filter receiving mechanism 2, and improving the user's disassembly and installation of the filter receiving mechanism 2.
- the first engaging portion 121 can be a sliding slot. When the second engaging portion 21 is engaged with the sliding slot, the second engaging portion 21 can rotate the rotating member 12 through the sliding slot when the rotating mechanism 23 rotates.
- the second engaging portion 21 of the cartridge receiving mechanism 2 can insert or pull out the first engaging portion 121 of the rotating member 12 in the horizontal direction.
- the user can more easily insert or remove the filter-carrying mechanism 2 in the horizontal direction from the fixing mechanism 1 during the process of installing or removing the filter-carrying mechanism 2, in the process, the user It is not necessary to lift or lower the filter receiving mechanism 2, and it is not necessary to consider the angle of lifting or lowering the filter receiving mechanism 2.
- FIG. 33 is a schematic view of the cartridge housing mounting mechanism in a first position according to an embodiment of the present invention
- FIG. 34 is a schematic view showing the cartridge housing mounting mechanism in a second position according to an embodiment of the present invention, as shown in FIGS. 33 and 34.
- the filter housing mounting mechanism has at least two positions. As shown in FIG. 32, when the cartridge receiving mechanism 2 is rotated to the first position relative to the fixing mechanism 1, the first engaging portion 121 faces the notch 131, and the second engaging portion 21 can be inserted into the first engaging portion 121. As shown in FIG.
- the fixing base 11 further has a limiting portion 113.
- the partial rotating member 12 is located in the limiting portion 113, so that the rotating member 12 rotates within a preset range.
- the upper end of the limiting portion 113 limits the rotating member 12 against the side of the rotating member 12 to prevent further rotation thereof, thereby The rotating member 12 is held in the first position.
- the lower end of the limiting portion 113 limits the rotating member 12 against the other side of the rotating member 12 to prevent further rotation thereof, thereby causing the rotating member 12 remains in the second position.
- the limiting member 115 has a third guiding portion 1151.
- the third guiding portion 1151 can abut the second engaging portion 21 to slide the second engaging portion 21 into the first engaging portion 121.
- the second engaging portion 21 of the cartridge receiving mechanism 2 and the third guiding portion on the limiting member 115 can be used.
- 1151 is abutted, under the guiding action of the third guiding portion 1151, the filter-carrying mechanism 2 can directly slide into the first engaging portion 121 of the rotating member 12 against the third guiding portion 1151, or directly from the rotating member 12
- the stopper 115 is slid out along the third guiding portion 1151 in the one engaging portion 121.
- the filter-carrying mechanism 2 can be easily loaded and unloaded, and on the other hand, it bears a part of the weight of the filter-carrying mechanism 2. Thereby, the effort required by the user to hold the filter cartridge mechanism 2 is alleviated.
- the fixing base 11 has a waterway interface 112.
- the cartridge housing 22 mounting mechanism further includes: a connector member 24 that can be inserted into the waterway interface 112.
- the joint member 24 gradually compresses the water passage interface 112.
- the second engaging portion 21 of the cartridge receiving mechanism 2 is mounted to the first engaging portion 121 of the rotating member 12 while the joint member 24 is inserted into the water passage 112. in.
- the fixing base 11 may have a first guiding portion 111.
- One end of the second engaging portion 21 can abut against the first guiding portion 111 and slide along the first guiding portion 111.
- the second engaging portion 21 slides along the first guiding portion 111 to make the level between the cartridge receiving mechanism 2 and the fixing mechanism 1 horizontal.
- the spacing in the direction changes so that the joint member 24 gradually compresses the water passage interface 112.
- the second engaging portion 21 may have a second guiding portion 211 that changes the spacing between the cartridge receiving mechanism 2 and the fixing mechanism 1 in the horizontal direction.
- the first guiding portion 111 may have an arc shape.
- the distance from the center of the rotating member 12 is smaller than that in the first position.
- the two guiding portions 211 abut against the distance from the center of the rotating member 12 at the position of the first guiding portion 111. In the above manner, the sealing property between the joint member 24 and the water passage interface 112 in the second position is effectively ensured, and the occurrence of water leakage between the two is prevented.
- the fixing base 11 may further have a fourth guiding portion 116.
- the filter receiving mechanism 2 has a fifth guiding portion 221 which can abut against the fourth guiding portion 116.
- the fifth guiding portion 221 slides along the fourth guiding portion 116 to move the cartridge receiving mechanism 2 away from the fixing mechanism 1, thereby gradually pulling the joint member 24 from the waterway interface 112. Out.
- the fourth guiding portion 116 may include a side wall that is inclined downward toward the fixing seat 11
- the fifth guiding portion 221 may include one or more upper end surfaces of the housing 22 when the cartridge receiving mechanism 2 is opposite to the fixing mechanism 1
- FIG. 35 is a schematic exploded view of the cartridge receiving mechanism 2 in the embodiment of the present invention.
- the joint member 24 is coupled to the rotating mechanism 23.
- the rotating mechanism 23 may include a first portion and a second portion, and the joint member 24 is A portion and the second portion are interposed therebetween, and one side of the joint member 24 is inserted into the first portion, and the other side of the joint member 24 is inserted into the second portion, so that the rotating mechanism 23 can be rotated about the joint member 24.
- the rotation mechanism 23 has a second flow path unit 231 that can communicate with the first flow path unit 241.
- the water path in the second flow path unit 231 matches the water path in the first flow path unit 241, and the water path in the second flow path unit 231 may be disposed in the first portion or in the second portion, the second flow path
- the water path in unit 231 may also be partially disposed in the first portion and partially disposed in the second portion.
- FIG. 36 is a schematic structural view of a joint member according to an embodiment of the present invention.
- the joint member 24 has a cut portion 242 on both sides thereof, and the rotation mechanism 23 moves between the cutter portion 242 and the cutter portion 242 during the rotation.
- 37 is a schematic cross-sectional view showing the first flow path unit 241 of the joint member 24 and the second flow path unit 231 of the rotating mechanism 23 in an open state, as shown in FIG. 37, when the filter core receiving mechanism 2 is relatively fixed.
- the cutting portion 242 When the mechanism 1 is rotated to the first position, the cutting portion 242 is in an open state between the first flow path unit 241 and the second flow path unit 231; when the filter holding mechanism 2 is rotated relative to the fixed mechanism 1 to the second position, the cutting is performed The portion 242 is in a communication state between the first flow path unit 241 and the second flow path unit 231.
- the rotating mechanism 23 has a through hole 232.
- the number of the through holes 232 can be determined according to the number of water passages, wherein the small through holes 232 can be bored in the large through holes 232. In this way, a plurality of water paths can be formed in the rotating member 12.
- the through hole 232 of the rotating mechanism 23 communicates with the first flow path unit 241 on the joint member 24.
- the left and right sides of the joint member 24 may have a plurality of cut portions 242, which may be determined according to the number of water passages.
- the cutting portion 242 extends into the through hole 232, and the water passages in the second flow path unit 231 are respectively connected to the different through holes 232.
- the cutting portion 242 When the filter receiving mechanism 2 is rotated to the first position relative to the fixing mechanism 1, the cutting portion 242 will be The ends of the second flow path unit 231 are blocked to disconnect the water path in the second flow path unit 231 from the different through holes 232, thereby breaking the first flow path unit 241 and the second flow path unit 231; When the cartridge holding mechanism 2 is rotated to the second position with respect to the fixing mechanism 1, the cutting portion 242 is offset from the end of the second flow path unit 231 to communicate between the first flow path unit 241 and the second flow path unit 231. When the user needs to install the filter-carrying mechanism 2, the filter-carrying mechanism 2 is loaded into the fixing mechanism 1 and rotated to the second position.
- the second flow path unit 231 automatically changes from the disconnected state to the connected state, thereby enabling the cartridge receiving mechanism 2 to receive the raw water and discharge the corresponding pure water and waste water.
- the filter-carrying mechanism 2 is rotated to the first position and taken out, and during the rotation, the first flow path unit 241 in the joint member 24 and the second flow path of the rotating mechanism 23 are rotated.
- the unit 231 is automatically switched from the connected state to the open state, thereby preventing water leakage or overflow in the filter receiving mechanism 2.
- a water purifying device comprising any of the above described filter cartridge housing mounting mechanisms.
- the water purifying device realizes the relative rotation between the filter core receiving mechanism 2 and the fixing base 11 by the rotating member 12 which can rotate by itself. Therefore, when the filter core receiving mechanism 2 is installed, the user only installs the filter cartridge receiving mechanism 2
- the second engaging portion 21 can be mounted in the first engaging portion 121 of the rotating member 12, and then the filter receiving mechanism 2 can naturally rotate relative to the fixed seat 11 under the action of the self-weight and the rotating member 12.
- the user does not need to accurately mount the filter-carrying mechanism 2 to the sliding rail on the fixed seat 11 when installing the filter-carrying mechanism 2, so that the filter-carrying mechanism 2 slides. Rotate by the track.
- any numerical value recited herein includes all values of the lower and upper values in increments of one unit from the lower limit to the upper limit, and at least two unit intervals between any lower value and any higher value. Just fine. For example, if the number of components or process variables (eg, temperature, pressure, time, etc.) is stated to be from 1 to 90, preferably from 20 to 80, more preferably from 30 to 70, the purpose is to illustrate Values such as 15 to 85, 22 to 68, 43 to 51, 30 to 32 are also explicitly recited in the specification. For values less than 1, one unit is appropriately considered to be 0.0001, 0.001, 0.01, 0.1. These are merely examples that are intended to be expressly stated, and all possible combinations of numerical values recited between the minimum and maximum values are considered to be explicitly described in this specification in a similar manner.
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Abstract
A filter core assembly replacement structure, a filter core housing mounting mechanism, a water filter, and a water purifying device. The filter core assembly replacement structure comprises: a filter core assembly (200) provided with an operation portion capable of being applied a force externally; a fixed base (100) for mounting the filter core assembly (200); and a locking mechanism having a locking position where the filter core assembly (200) is assembled on the base (100), and a release position where the filter core assembly (200) is allowed to separate from the base (100), the operation portion enabling the locking mechanism to move to the release position when being applied a force externally. The filter core assembly replacement structure, the filter core housing mounting mechanism, the water filter, and the water purifying device can make it convenient for a user to replace the filter core assembly (200) of the water filter.
Description
交叉参考相关引用Cross reference related reference
本申请要求2018年4月10日递交的申请号为201810315636.3、201820507587.9申请名称为“滤芯组件更换结构及其净水器”,2018年4月27日递交的申请号为201810392749.3、201820618779.7申请名称为“滤芯壳体安装机构及净水装置”,2019年3月13日递交的申请号为201920319810.1、201910188354.6申请名称为“滤芯组件更换结构及其净水器”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。This application claims the application number of 201101815636.3, 201820507587.9 submitted on April 10, 2018 as "filter element replacement structure and water purifier". The application number submitted on April 27, 2018 is 201810392749.3, 201820618779.7. The filter cartridge mounting mechanism and the water purifying device", the application number of the application No. 201920319810.1, 201101188354.6, filed on March 13, 2019, the priority of the Chinese Patent Application entitled "Cell Filter Assembly Replacement Structure and Water Purifier", the entire contents thereof This is incorporated herein by reference.
本申请涉及净水器领域,尤其涉及一种滤芯组件更换结构及其净水器。The present application relates to the field of water purifiers, and in particular to a filter element replacement structure and a water purifier thereof.
本发明涉及水处理技术领域,特别涉及一种滤芯壳体安装机构及净水装置。The invention relates to the technical field of water treatment, in particular to a filter housing mounting mechanism and a water purifying device.
随着人们日益增强的健康意识,以及人们收入水平的提高,越来越多人注重生活饮用水的健康问题。因为水是维持生命和新陈代谢必不可少的物质,饮用水水质的优劣直接关系到人体的健康程度。据世界卫生组织的调查,人类疾病80%与水有关,水质不良可引起多种疾病。长期以来,人们一直认为自来水是安全卫生的。With the growing awareness of health and the rising income levels, more and more people are paying attention to the health of drinking water. Because water is essential for life and metabolism, the quality of drinking water is directly related to the health of the human body. According to a survey by the World Health Organization, 80% of human diseases are related to water, and poor water quality can cause a variety of diseases. For a long time, people have always believed that tap water is safe and hygienic.
但是,因为水污染的日益加重,自来水屡屡受到影响,使人们对自来水的安全性提出质疑。伴随着水资源污染的隐患,催生了一批批以净化水质为目的的新型设备—净水器,并且在短时间内得到快速发展。毫无悬念,在今后的更长时间内,净水器必定成为每家每户不可缺少的饮水设备。目前市场上净水器大多采用物理过滤,主要的过滤级别分为PP棉、活性炭、RO膜等;其中,通过PP棉过滤泥、沙铁锈等,通过活性炭吸收余氯、改善口感等,通过RO膜过滤纯水。However, because of the increasing water pollution, tap water has been repeatedly affected, making people question the safety of tap water. Along with the hidden dangers of water pollution, a batch of new equipment, water purifiers, aimed at purifying water quality has been produced, and has been rapidly developed in a short period of time. There is no suspense, in the future, the water purifier must become an indispensable drinking water device for every household. At present, most of the water purifiers on the market use physical filtration. The main filtration grades are divided into PP cotton, activated carbon, RO membrane, etc. Among them, PP cotton filter mud, sand iron rust, etc., absorb residual chlorine through activated carbon, improve the taste, etc., through RO Membrane filtered pure water.
由于净水器产品主要以物理过滤为主,这就决定了滤芯在使用一段时间后,由于杂质的附着积累,导致滤芯由于堵塞失效,因此需要对净水器滤芯定期拆装更换。Since the water purifier products are mainly based on physical filtration, this determines that after the filter element is used for a period of time, the filter element is clogging due to the accumulation of impurities, so the water purifier filter element needs to be periodically disassembled and replaced.
但是,现有净水器滤芯更换操作复杂,比较费力,一般需要专业人员进行操作,给用户带来很多不便,且增加了更换滤芯的成本。However, the existing water purifier filter replacement operation is complicated and laborious, and generally requires professional operation, which brings a lot of inconvenience to the user and increases the cost of replacing the filter element.
发明内容Summary of the invention
有鉴于现有技术的上述问题,本申请的目的是提供一种滤芯组件更换结构、滤芯壳体安装机构及净水器、净水装置,以能够方便用户更换净水器的滤芯组件。In view of the above problems of the prior art, the object of the present application is to provide a filter element assembly replacement structure, a filter cartridge housing mounting mechanism, a water purifier, and a water purifying device, so as to facilitate the user to replace the filter element assembly of the water purifier.
本发明的方案如下:The solution of the invention is as follows:
一种滤芯组件更换结构,包括:A filter element replacement structure includes:
滤芯组件;所述滤芯组件上设有能被外部施力的操作部;a filter element assembly; the filter element assembly is provided with an operation portion capable of being externally biased;
固定不动的基座,其用于安装所述滤芯组件;a stationary base for mounting the filter element assembly;
锁定机构;所述锁定机构具有使所述滤芯组件装配在所述基座上的锁定位置、以及允许所述滤芯组件脱离所述基座的释放位置;所述操作部被外部施力时使所述锁定机构动作至所述释放位置。a locking mechanism having a locking position for fitting the cartridge assembly to the base and a release position for allowing the cartridge assembly to be disengaged from the base; the operating portion is biased by an external force The locking mechanism is actuated to the release position.
一种滤芯组件更换结构,包括:滤芯组件、用于安装所述滤芯组件的基座、用于将所述滤芯组件锁定在所述基座上的锁定机构、用于打开所述锁定机构的解锁件;其中,A cartridge assembly replacement structure comprising: a cartridge assembly, a base for mounting the cartridge assembly, a locking mechanism for locking the cartridge assembly to the base, and an unlocking for opening the locking mechanism Piece;
所述滤芯组件设有用于接受用户施力的受力件;所述受力件通过动作具有第一位置和第二位置;The filter element assembly is provided with a force receiving member for receiving a force applied by a user; the force receiving member has a first position and a second position by the action;
所述受力件由第一位置向第二位置动作时能够推动所述解锁件打开所述锁定机构;所述滤芯组件在所述受力件位于第二位置的状态下能向所述基座插入直至被所述锁定机构锁定。When the force receiving member is moved from the first position to the second position, the unlocking member can be pushed to open the locking mechanism; and the filter element assembly can be moved to the base when the force receiving member is in the second position Insert until locked by the locking mechanism.
一种净水器,包括:如上任一所述的滤芯组件更换结构。A water purifier comprising: the filter element assembly replacement structure according to any of the above.
一种滤芯壳体安装机构,所述滤芯壳体安装机构包括:A cartridge housing mounting mechanism, the cartridge housing mounting mechanism comprising:
固定机构,所述固定机构包括固定座、设置在所述固定座上并能相对所述固定座相转动的转动件,所述转动件上具有第一卡合部;a fixing mechanism, comprising: a fixing seat; a rotating member disposed on the fixing seat and rotatable relative to the fixing seat, the rotating member having a first engaging portion;
滤芯承装机构,所述滤芯承装机构具有与所述第一卡合部相匹配的第二卡合部,所述滤芯承装机构的所述第二卡合部能够装入至所述转动件的第一卡合部中。a cartridge receiving mechanism having a second engaging portion matching the first engaging portion, the second engaging portion of the cartridge receiving mechanism being capable of being loaded into the rotation In the first engaging portion of the piece.
一种净水装置,所述净水装置包括如上任一所述的滤芯壳体安装机构。A water purifying device comprising the cartridge housing mounting mechanism of any of the above.
本发明中滤芯组件更换结构使得用户仅需对滤芯组件进行操作,同时基座保持固定不动,无需对基座操作,进而利于用户单手对滤芯组件操作,十分便捷。同时,利用滤芯组件的操作部从基座拆卸滤芯组件时,在基座固定不动的情况下,也可以减少因拆卸滤芯组件需要移动基座所需的空间,具有更好地安装灵活性。In the present invention, the filter element assembly replacement structure allows the user to operate only on the filter element assembly, and the base remains fixed without the need to operate the base, thereby facilitating the user's one-hand operation of the filter element assembly, which is very convenient. At the same time, when the operation part of the filter element assembly is used to detach the filter element assembly from the base, the space required for moving the base by the removal of the filter element assembly can be reduced while the base is fixed, and the installation flexibility is better.
另外,本发明中滤芯组件更换结构的基座固定不动,仅需对滤芯组件进行操作,也使得净水器可以横向放置,也即滤芯组件的长度方向与水平方向平行,不仅具有更高的 安装灵活性,也比较方便用户操作。In addition, in the present invention, the base of the filter element replacement structure is fixed, and only the filter element assembly needs to be operated, so that the water purifier can be placed laterally, that is, the length direction of the filter element assembly is parallel to the horizontal direction, which not only has higher Installation flexibility and user-friendliness.
参照后文的说明和附图,详细公开了本发明的特定实施方式,指明了本发明的原理可以被采用的方式。应该理解,本发明的实施方式在范围上并不因而受到限制。在所附权利要求的精神和条款的范围内,本发明的实施方式包括许多改变、修改和等同。Specific embodiments of the present invention are disclosed in detail with reference to the following description and the drawings, in which <RTIgt; It should be understood that the embodiments of the invention are not limited in scope. The embodiments of the present invention include many variations, modifications, and equivalents within the scope of the appended claims.
针对一种实施方式描述和/或示出的特征可以以相同或类似的方式在一个或更多个其它实施方式中使用,与其它实施方式中的特征相组合,或替代其它实施方式中的特征。Features described and/or illustrated with respect to one embodiment may be used in one or more other embodiments in the same or similar manner, in combination with, or in place of, features in other embodiments. .
应该强调,术语“包括/包含”在本文使用时指特征、整件、步骤或组件的存在,但并不排除一个或更多个其它特征、整件、步骤或组件的存在或附加。It should be emphasized that the term "comprising" or "comprises" or "comprising" or "comprising" or "comprising" or "comprising" or "comprises"
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域技术人员来讲,在不付出创造性劳动性的前提下,还可以根据这些附图获得其他的附图。In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and those skilled in the art can obtain other drawings according to the drawings without any inventive labor.
图1是本发明实施方式中提供的一种滤芯组件更换结构示意图;1 is a schematic view showing a replacement structure of a filter element assembly provided in an embodiment of the present invention;
图2是图1中一种受力件的结构示意图;Figure 2 is a schematic structural view of a force receiving member of Figure 1;
图3是图1中另一种受力件及推动件结构示意图;Figure 3 is a schematic view showing the structure of another force receiving member and a pushing member of Figure 1;
图4是图3带有遮挡盖的示意图;Figure 4 is a schematic view of Figure 3 with a cover;
图5是图1的滤芯组件插入基座的部分剖面示意图;Figure 5 is a partial cross-sectional view showing the cartridge assembly of Figure 1 inserted into the base;
图6是图1中滤芯组件插入基座的部分剖面示意图;Figure 6 is a partial cross-sectional view showing the cartridge assembly of Figure 1 inserted into the base;
图7是图1中基座示意图;Figure 7 is a schematic view of the base of Figure 1;
图8是本发明实施方式中提供的另一种滤芯组件更换结构结构示意图;8 is a schematic structural view of another filter element replacement structure provided in an embodiment of the present invention;
图9是图8的滤芯组件插入基座的部分剖面示意图;Figure 9 is a partial cross-sectional view showing the cartridge assembly of Figure 8 inserted into the base;
图10是图8的滤芯组件插入基座的部分剖面示意图;Figure 10 is a partial cross-sectional view showing the cartridge assembly of Figure 8 inserted into the base;
图11是图8的基座示意图;Figure 11 is a schematic view of the base of Figure 8;
图12是图8的旋钮示意图;Figure 12 is a schematic view of the knob of Figure 8;
图13是图8的支撑筒体结构示意图;Figure 13 is a schematic structural view of the support cylinder of Figure 8;
图14是图8的支撑筒体结构示意图;Figure 14 is a schematic structural view of the support cylinder of Figure 8;
图15是图8的滤芯组件结构示意图;Figure 15 is a schematic structural view of the filter element assembly of Figure 8;
图16是图15的部分放大图;Figure 16 is a partial enlarged view of Figure 15;
图17是本发明实施方式中提供的一种滤芯组件和解锁件结构示意图;17 is a schematic structural view of a filter element assembly and an unlocking member provided in an embodiment of the present invention;
图18是图17的部分放大图;Figure 18 is a partial enlarged view of Figure 17;
图19是图17的另一示意图;Figure 19 is another schematic view of Figure 17;
图20是图19的部分放大图;Figure 20 is a partial enlarged view of Figure 19;
图21是图17的另一示意图;Figure 21 is another schematic view of Figure 17;
图22是图17的解锁件结构示意图;Figure 22 is a schematic structural view of the unlocking member of Figure 17;
图23是图22的俯视图;Figure 23 is a plan view of Figure 22;
图24是图22的正视图;Figure 24 is a front elevational view of Figure 22;
图25是图22的卡板的放大图;Figure 25 is an enlarged view of the card of Figure 22;
图26是图22的内部示意图;Figure 26 is an internal schematic view of Figure 22;
图27是图17的滤芯组件的结构示意图;Figure 27 is a schematic structural view of the filter element assembly of Figure 17;
图28是本发明实施方式中提供的另一种滤芯组件更换结构示意图;28 is a schematic diagram of another filter element replacement structure provided in an embodiment of the present invention;
图29是图28的滤芯组件示意图;Figure 29 is a schematic view of the filter element assembly of Figure 28;
图30是图28的推动部位于释放位置示意图;Figure 30 is a schematic view showing the push portion of Figure 28 in a release position;
图31是图28的推动部位于推动位置示意图;Figure 31 is a schematic view showing the pushing portion of Figure 28 in a pushing position;
图32为本发明实施例中滤芯壳体安装机构处于安装前的结构示意图;32 is a schematic structural view of a filter housing mounting mechanism before installation according to an embodiment of the present invention;
图33为本发明实施例中滤芯壳体安装机构处于第一位置时的示意图;33 is a schematic view of the cartridge housing mounting mechanism in a first position according to an embodiment of the present invention;
图34为本发明实施例中滤芯壳体安装机构处于第二位置时的示意图;Figure 34 is a schematic view showing the filter housing mounting mechanism in the second position in the embodiment of the present invention;
图35为本发明实施例中滤芯承装机构的爆炸示意图;35 is a schematic exploded view of a filter core receiving mechanism according to an embodiment of the present invention;
图36为本发明实施例中接头件的结构示意图;Figure 36 is a schematic structural view of a joint member according to an embodiment of the present invention;
图37为本发明实施例中接头件的第一流道单元与转动机构的第二流道单元处于断开状态的剖面示意图。37 is a schematic cross-sectional view showing the first flow path unit of the joint member and the second flow path unit of the rotating mechanism in an open state according to an embodiment of the present invention.
为了使本技术领域的人员更好地理解本发明中的技术方案,下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动的前提下所获得的所有其他实施例,都应当属于本发明保护的范围。In order to make those skilled in the art better understand the technical solutions in the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described in conjunction with the accompanying drawings in the embodiments of the present invention. The embodiments are only a part of the embodiments of the invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts shall fall within the scope of the present invention.
需要说明的是,当元件被称为“设置于”另一个元件,它可以直接在另一个元件上或者也可以存在居中的另一个元件。当一个元件被认为是“连接”另一个元件,它可以 是直接连接到另一个元件或者可能同时存在居中另一个元件。本文所使用的术语“垂直的”、“水平的”、“左”、“右”以及类似的表述只是为了说明的目的,并不表示是唯一的实施方式。It is to be noted that when an element is referred to as being "in" another element, it may be directly on the other element or the other element may be present. When an element is considered to be "connected" to another element, it can be directly connected to the other element or. The terms "vertical", "horizontal", "left", "right", and the like, as used herein, are for the purpose of illustration and are not intended to be the only embodiment.
除非另有定义,本文所使用的所有的技术和科学术语与属于本发明的技术领域的技术人员通常理解的含义相同。本文中在本发明的说明书中所使用的术语只是为了描述具体的实施方式的目的,不是旨在于限制本发明。本文所使用的术语“和/或”包括一个或多个相关的所列项目的任意的和所有的组合。All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. The terminology used in the description of the present invention is for the purpose of describing particular embodiments and is not intended to limit the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.
参阅图1至图16。本申请实施方式中提供的滤芯组件更换结构,包括:滤芯组件200;所述滤芯组件200上设有能被外部施力的操作部;固定不动的基座100,其用于安装所述滤芯组件200;锁定机构;所述锁定机构具有使所述滤芯组件200装配在所述基座100上的锁定位置、以及允许所述滤芯组件200脱离所述基座100的释放位置;所述操作部被外部施力时使所述锁定机构动作至所述释放位置。See Figures 1 through 16. The cartridge assembly replacement structure provided in the embodiment of the present application includes: a filter cartridge assembly 200; the filter cartridge assembly 200 is provided with an operation portion capable of being externally biased; and a fixed base 100 for mounting the filter cartridge An assembly 200; a locking mechanism having a locking position for mounting the cartridge assembly 200 on the base 100, and a release position for allowing the cartridge assembly 200 to be disengaged from the base 100; The locking mechanism is actuated to the release position when externally applied.
在本实施方式中,基座100供滤芯组件200安装,并固定不动。在滤芯安装过程中,该基座100可以保持不动,用户仅通过滤芯动作完成滤芯的拆卸。在一实施例中,该滤芯组件更换结构可以形成(部分)净水器外壳。其中,该基座100相对于净水外壳固定不动。In the present embodiment, the base 100 is mounted for the filter element assembly 200 and is stationary. During the installation of the filter element, the base 100 can be kept stationary, and the user can complete the removal of the filter element only through the action of the filter element. In an embodiment, the cartridge assembly replacement structure can form a (partial) water purifier housing. Wherein, the base 100 is fixed relative to the water purification housing.
锁定机构可以位于基座100上,也可以为滤芯组件200上。在可行的实施例中,锁定机构位于滤芯组件200上。通过操作部对滤芯组件200施力,使得锁定机构从锁定位置动作至释放位置,进而滤芯组件200可以从基座100上脱离。在图1至图16所示的实施例中,锁定机构位于基座100上,通过操作部对滤芯组件200施力,使得锁定机构从锁定位置动作至释放位置,进而滤芯组件200可以从基座100上脱离。The locking mechanism can be located on the base 100 or on the cartridge assembly 200. In a possible embodiment, the locking mechanism is located on the cartridge assembly 200. The filter element assembly 200 is biased by the operating portion such that the locking mechanism is moved from the locked position to the released position, and the cartridge assembly 200 can be detached from the base 100. In the embodiment shown in FIGS. 1 to 16, the locking mechanism is located on the base 100, and the filter assembly 200 is biased by the operating portion such that the locking mechanism is moved from the locked position to the released position, and the cartridge assembly 200 can be removed from the base. 100 off.
在本实施方式中,锁定机构可以具有复位元件(未示出),该复位元件向锁定机构施加复位至锁定位置的偏压力。依靠该复位元件,锁定机构可以在锁定位置与释放位置之间相互切换。在滤芯组件200脱离基座100后,锁定机构可以通过复位元件复位至锁定位置。具体的,复位元件可以为包括弹性元件,比如弹簧。In the present embodiment, the locking mechanism may have a reset element (not shown) that applies a biasing force to the locking mechanism to reset to the locked position. By virtue of the reset element, the locking mechanism can be switched between the locked position and the released position. After the cartridge assembly 200 is disengaged from the base 100, the locking mechanism can be reset to the locked position by the reset element. In particular, the reset element may comprise a resilient element such as a spring.
为方便用户安装滤芯组件200,在一个较佳的实施例中,该滤芯组件更换结构还可以包括解锁机构。所述解锁机构能在所述滤芯组件200插入所述基座100时打开所述锁定机构。In order to facilitate the user to install the filter element assembly 200, in a preferred embodiment, the filter element assembly replacement structure may further include an unlocking mechanism. The unlocking mechanism can open the locking mechanism when the cartridge assembly 200 is inserted into the base 100.
通过解锁机构将锁定机构打开的过程,可以参考锁定机构由锁定位置向释放位置移动的过程,所打开的最大位置(也可以称为第二释放位置)与上述释放位置可以相同, 也可以不同(比如:开口直径大于或小于所述释放位置,只需能使滤芯组件200完成插入锁定即可)。The process of opening the locking mechanism by the unlocking mechanism may refer to the process of moving the locking mechanism from the locking position to the releasing position, and the opened maximum position (also referred to as the second releasing position) may be the same as or different from the releasing position ( For example, if the opening diameter is larger or smaller than the release position, it is only necessary to enable the filter element assembly 200 to complete the insertion locking.
当然,锁定机构的打开过程也可以与锁定机构由锁定位置向释放位置移动过程不同,比如,锁定机构被解锁机构打开过程可以为沿插入方向的推开复位过程(类似于合页摆动),而锁定位置向释放位置的移动可以为径向平移运动。Of course, the opening process of the locking mechanism can also be different from the moving process of the locking mechanism from the locking position to the releasing position. For example, the opening process of the locking mechanism by the unlocking mechanism can be a push-to-open process in the insertion direction (similar to a hinge swing). The movement of the locked position to the release position may be a radial translational movement.
解锁机构可以设置于滤芯机构,也可以设置于基座100上。通过设有解锁结构,可以在滤芯组件200插入基座100时,将锁定机构动作打开。通过操作滤芯组件200利用解锁机构即可将滤芯组件200安装于基座100上,完成滤芯组件200的安装,十分便利。The unlocking mechanism may be disposed on the filter mechanism or on the base 100. By providing the unlocking structure, the locking mechanism can be actuated to open when the cartridge assembly 200 is inserted into the base 100. The filter element assembly 200 can be mounted on the base 100 by operating the filter element assembly 200 by using an unlocking mechanism, and the installation of the filter element assembly 200 is very convenient.
本实施方式中的滤芯组件200具有供用户施力的操作部,用户对滤芯组件200的操作部即可实现锁定机构的解锁释放,使得滤芯组件200可从基座100脱离,此时用户只需将滤芯组件200拔出基座100即可。操作部可以为滤芯组件200上的供用户施力的某一部位,也可以设置于滤芯组件200的供用户施力的受力部件。操作部在更换滤芯组件200的过程中与滤芯组件200一同运动。The filter element assembly 200 of the present embodiment has an operation portion for the user to apply force. The user can unlock the release mechanism of the operation unit of the filter element assembly 200, so that the filter element assembly 200 can be detached from the base 100. The filter element assembly 200 can be pulled out of the base 100. The operation portion may be a part of the filter element assembly 200 that is biased by the user, or may be disposed on the force-receiving member of the filter element assembly 200 for the user to apply force. The operating portion moves with the cartridge assembly 200 during the process of replacing the cartridge assembly 200.
本实施方式中滤芯组件更换结构使得用户仅需对滤芯组件200进行操作,同时基座100保持固定不动,无需对基座100操作,进而利于用户单手对滤芯组件200操作,十分便捷。同时,利用滤芯组件200的操作部从基座100拆卸滤芯组件200时,在基座100固定不动的情况下,也可以减少因拆卸滤芯组件200需要移动基座100所需的空间,具有更好地安装灵活性。In the embodiment, the filter element assembly replacement structure allows the user to operate only the filter element assembly 200, and the base unit 100 remains fixed without the need to operate the base 100, thereby facilitating the user's one-hand operation on the filter element assembly 200, which is very convenient. Meanwhile, when the filter unit 200 is detached from the susceptor 100 by the operation portion of the filter element assembly 200, the space required for moving the susceptor 100 by the detachment of the filter element assembly 200 can be reduced, and the space required for the detachment of the filter element assembly 200 can be reduced. Good installation flexibility.
另外,本实施方式中滤芯组件更换结构的基座100固定不动,仅需对滤芯组件200进行操作,也使得净水器可以横向放置,也即滤芯组件200的长度方向与水平方向平行,不仅具有更高的安装灵活性,也比较方便用户操作。In addition, in the embodiment, the base 100 of the filter element replacement structure is fixed, and only the filter element assembly 200 needs to be operated, so that the water purifier can be placed laterally, that is, the length direction of the filter element assembly 200 is parallel to the horizontal direction, not only It has higher installation flexibility and is more convenient for users to operate.
所述滤芯组件200具有用于插入所述基座100的插入端1、以及背对所述插入端1的操作端2。为便于用户操作,所述操作部位于所述操作端2上。操作部可以设有便于用户施力的结构。The filter element assembly 200 has an insertion end 1 for insertion into the base 100 and an operating end 2 facing away from the insertion end 1. The operating portion is located on the operating end 2 for user operation. The operation portion may be provided with a structure that is easy for the user to apply force.
在实施方式中,滤芯组件200整体为圆柱形结构。滤芯组件200的插入端1可以插入基座100中。相应的,基座100上可以设有供插入端1所插入的插入孔15。同时,插入端1与插入孔15中可以设有密封措施,以防止流体泄漏、以及避免制水效果不佳。插入端1具有通入所述滤芯组件200内部的流道,并与基座100内的流道7相配合连通,从而进行来水的过滤。In an embodiment, the cartridge assembly 200 is generally cylindrical in configuration. The insertion end 1 of the cartridge assembly 200 can be inserted into the base 100. Correspondingly, the base 100 may be provided with an insertion hole 15 into which the insertion end 1 is inserted. At the same time, sealing measures can be provided in the insertion end 1 and the insertion hole 15 to prevent fluid leakage and to avoid poor water production. The insertion end 1 has a flow path that opens into the interior of the filter element assembly 200 and cooperates with the flow path 7 in the base 100 to perform filtration of the incoming water.
在一个实施例中,所述锁定机构包括设置于所述基座100上能将所述插入端1卡紧 的卡合组件6。所述卡合组件6包括沿周向分布的至少一个卡紧件。其中,所述卡合组件6从所述锁定位置至所述释放位置时,至少一个所述卡紧件沿径向向外运动。所述卡合组件6从所述释放位置至所述锁定位置时,至少一个所述卡紧件沿径向向内运动。In one embodiment, the locking mechanism includes a snap-fit assembly 6 disposed on the base 100 to clamp the insertion end 1. The snap assembly 6 includes at least one clamping member distributed in a circumferential direction. Wherein the at least one of the clamping members moves radially outward from the locking position to the release position. At least one of the clamping members moves radially inwardly from the release position to the locked position.
锁定机构安装于基座100内部,卡紧件包括设置于基座100内的卡紧板。多个卡紧板围构形成卡合口,并构成部分插入孔15。其中,多个卡紧板沿径向可以移动。基座100内设有弹簧对多个卡紧板施加向锁定位置移动的偏压力,使得卡紧板在没有外力时保持在锁定位置。The locking mechanism is mounted inside the base 100, and the clamping member includes a clamping plate disposed in the base 100. The plurality of clamping plates are configured to form an engaging opening and constitute a partial insertion hole 15. Wherein, the plurality of clamping plates are movable in the radial direction. A spring is provided in the base 100 to apply a biasing force to the plurality of clamping plates to move to the locking position, so that the clamping plate is held in the locked position when there is no external force.
当然,锁定机构还可以为其他机构,比如插入结构、翻转结构等等。只需锁定机构能够通过动作实现锁定位置和释放位置切换即可,锁定机构的动作不限于径向移动,也可以为转动、插入、形变等方式。Of course, the locking mechanism can also be other mechanisms, such as an insertion structure, a flip structure, and the like. Only the locking mechanism can realize the locking position and the release position switching by the action, and the action of the locking mechanism is not limited to the radial movement, and may also be a rotation, an insertion, a deformation or the like.
在本实施方式中,所述插入端1设有与所述卡合组件6配合的阻挡部12。所述阻挡部12在所述卡合组件6位于锁定位置时被所述卡合组件6阻挡,以使所述滤芯组件200无法脱离所述基座100。其中,如图15、图16所示,所述插入端1的侧壁上设有凸环结构14,阻挡部12可以为所述凸环结构14靠近操作端2的端面。In the present embodiment, the insertion end 1 is provided with a blocking portion 12 that cooperates with the engaging assembly 6. The blocking portion 12 is blocked by the snap-fit assembly 6 when the snap-fit assembly 6 is in the locked position such that the filter cartridge assembly 200 cannot be disengaged from the base 100. As shown in FIG. 15 and FIG. 16 , the side wall of the insertion end 1 is provided with a convex ring structure 14 , and the blocking portion 12 may be an end surface of the convex ring structure 14 near the operation end 2 .
具体的,所述卡合组件6形成有供所述插入端1穿过的卡合口。所述卡合组件6位于锁定位置时,所述阻挡部12位于所述卡合口远离所述操作端2的一侧且无法通过所述卡合口。所述卡合组件6位于释放位置时,所述阻挡部12可通过所述卡合口。Specifically, the engaging component 6 is formed with an engaging opening through which the insertion end 1 passes. When the engaging component 6 is in the locking position, the blocking portion 12 is located on a side of the engaging opening away from the operating end 2 and cannot pass through the engaging opening. When the engaging component 6 is in the release position, the blocking portion 12 can pass through the engaging opening.
如图9所示,在滤芯组件200安装于基座100上时,所述卡合组件6远离所述操作端2的一侧具有可以与阻挡部12相贴合的贴合表面(未标示),通过该贴合表面与阻挡部12相配合,限制滤芯组件200的插入端1无法从基座100的插入孔15拔出,实现滤芯组件200的锁定。As shown in FIG. 9 , when the filter element assembly 200 is mounted on the base 100 , the side of the engaging component 6 away from the operating end 2 has a fitting surface (not labeled) that can be attached to the blocking portion 12 . By engaging the sealing surface with the blocking portion 12, the insertion end 1 of the filter element assembly 200 is restricted from being unplugged from the insertion hole 15 of the base 100, and the locking of the filter element assembly 200 is achieved.
承接上文描述,为方便用户在基座100上安装滤芯组件200,该滤芯组件更换结构还可以设有解锁机构。其中,所述解锁机构能在所述滤芯组件200向所述基座100插入时使至少一个卡紧件沿径向向外运动,进而使得所述滤芯组件200的阻挡部12通过所述卡合口。在阻挡部12通过所述卡合口后,所述卡合组件6复位至锁定位置,将所述滤芯组件200锁定。In order to facilitate the user to install the filter element assembly 200 on the base 100, the filter element assembly replacement structure may also be provided with an unlocking mechanism. The unlocking mechanism can move the at least one clamping member radially outward when the filter cartridge assembly 200 is inserted into the base 100, so that the blocking portion 12 of the filter cartridge assembly 200 passes through the engaging opening. . After the blocking portion 12 passes the engaging opening, the snap-fit assembly 6 is reset to the locked position to lock the cartridge assembly 200.
其中,所述解锁机构包括所述插入端1在所述阻挡部12远离所述操作端2的一侧和/或所述卡合组件6靠近所述操作端2的一侧设有的第一斜面31。所述滤芯组件200向所述基座100插入时,所述滤芯组件200的所述阻挡部12依靠所述第一斜面31将所述卡合组件6撑开至通过所述卡合口。The unlocking mechanism includes a first end of the insertion end 1 on a side of the blocking portion 12 away from the operating end 2 and/or a side of the engaging component 6 adjacent to the operating end 2 Bevel 31. When the filter element assembly 200 is inserted into the base 100, the blocking portion 12 of the filter element assembly 200 relies on the first inclined surface 31 to open the engaging assembly 6 to pass through the engaging opening.
在本实施方式中,所述卡合口被解锁结构撑开的大小可以与释放位置时的卡合口大小相同,也可以不同。其中,所述第一斜面31设于所述卡合组件6上;所述第一斜面31使得所述卡合口的横截面积沿所述滤芯组件200插入所述基座100方向逐渐减小。In this embodiment, the size of the engaging opening to be unlocked by the unlocking structure may be the same as or different from the size of the engaging opening when the position is released. The first inclined surface 31 is disposed on the engaging component 6; the first inclined surface 31 causes the cross-sectional area of the engaging opening to gradually decrease along the direction in which the filter element assembly 200 is inserted into the base 100.
如图9所示的实施例,插入端1以及卡合组件6上均设有第一斜面31。插入端1的第一斜面31设置于凸环结构14上,并位于阻挡部12远离操作端2的一侧。In the embodiment shown in FIG. 9, the insertion end 1 and the engaging assembly 6 are each provided with a first inclined surface 31. The first inclined surface 31 of the insertion end 1 is disposed on the convex ring structure 14 and is located on a side of the blocking portion 12 away from the operation end 2.
在实施方式中,该滤芯组件更换结构还可以设有与所述操作部配合的打开机构。所述操作部被外部施力时通过驱动所述打开机构动作,以使所述锁定机构由所述锁定位置动作至所述释放位置。其中,打开机构将操作部所受到的作用力传递,以此将锁定机构打开。打开机构可以为滤芯组件200的一部分,比如图8至图16所示的实施例;打开机构也可以为滤芯组件200之外设置的部件,比如图1至图7所示的实施例。In an embodiment, the filter element replacement structure may further be provided with an opening mechanism that cooperates with the operating portion. The operation portion is actuated by driving the opening mechanism when externally biased to move the locking mechanism from the locked position to the release position. Among them, the opening mechanism transmits the force received by the operating portion, thereby opening the locking mechanism. The opening mechanism can be part of the cartridge assembly 200, such as the embodiment illustrated in Figures 8-16; the opening mechanism can also be a component disposed outside of the cartridge assembly 200, such as the embodiment illustrated in Figures 1-7.
本实施方式中,打开机构通过动作驱动锁定机构动作,在驱动过程中,基座100固定不动。利用打开机构,通过对滤芯组件200的操作部施力且并不带动基座100动作,将锁定机构驱动至释放位置。在该实施方式中,打开机构可以将操作部受到的作用力传递,实现锁定机构的位置切换至释放位置。In the present embodiment, the opening mechanism operates by the operation of the locking mechanism, and the base 100 is fixed during the driving process. With the opening mechanism, the locking mechanism is driven to the release position by applying force to the operating portion of the cartridge assembly 200 without actuating the base 100. In this embodiment, the opening mechanism can transmit the force received by the operating portion, and the position of the locking mechanism can be switched to the release position.
其中,打开机构通过自身动作驱动锁定机构动作,其中,打开机构动作的方式具有多种,例如,打开机构可以通过沿滤芯组件200的长度方向运动驱动锁定机构,也可以通过转动驱动锁定机构。当然,在可能的实施例中,打开机构还可以通过其他运动实现驱动锁定机构,比如:打开机构具有相配合的两个元件,通过两个元件的分离或接合实现锁定机构的位置切换等等。Wherein, the opening mechanism drives the locking mechanism by itself, wherein the opening mechanism operates in a plurality of ways. For example, the opening mechanism can drive the locking mechanism by moving along the length direction of the cartridge assembly 200, or can drive the locking mechanism by rotation. Of course, in a possible embodiment, the opening mechanism can also achieve a drive locking mechanism by other movements, such as: the opening mechanism has two mating elements, the positional switching of the locking mechanism is achieved by the separation or engagement of the two elements, and the like.
在如图8至图16所示的具体的实施例。所述操作部被外部施力时使所述打开机构转动,所述打开机构通过转动驱动所述锁定机构由所述锁定位置动作至所述释放位置。在该实施例中,打开机构可以设置于滤芯组件200上,跟随滤芯组件200一同运动。在如此结构下,用户只需对操作部施力使滤芯组件200转动,即可将锁定机构打开至释放位置,完成滤芯组件200的拆卸,操作简单。In the specific embodiment shown in Figures 8-16. The opening portion rotates when the operating portion is externally biased, and the opening mechanism moves from the locking position to the releasing position by rotationally driving the locking mechanism. In this embodiment, the opening mechanism can be disposed on the cartridge assembly 200 to follow the filter cartridge assembly 200 for movement. In such a configuration, the user only needs to apply force to the operating portion to rotate the filter element assembly 200, thereby opening the locking mechanism to the release position, completing the removal of the filter element assembly 200, and the operation is simple.
在该实施例中,打开机构可以随滤芯组件200一同转动。具体的,所述打开机构包括所述滤芯组件200上沿径向凸出的支撑部30。所述操作部能使所述滤芯组件200带动所述支撑部30绕与所述滤芯组件200长度方向平行的轴线转动;所述支撑部30通过转动将所述卡合组件6由所述锁定位置沿径向撑开至所述释放位置。In this embodiment, the opening mechanism can rotate with the filter cartridge assembly 200. Specifically, the opening mechanism includes a support portion 30 that protrudes in the radial direction on the filter element assembly 200. The operating portion enables the filter cartridge assembly 200 to rotate the support portion 30 about an axis parallel to the longitudinal direction of the cartridge assembly 200; the support portion 30 rotates the snap assembly 6 from the locked position Prolonged in the radial direction to the release position.
所述插入端1沿周向均匀分布有两个或多个所述支撑部30。为便于支撑部30在转动时将卡合组件6沿径向支撑至释放位置,所述滤芯组件200被所述锁定机构锁定时所 述支撑部30与所述卡合组件6位于同一轴向位置上。The insertion end 1 is evenly distributed with two or more of the support portions 30 in the circumferential direction. In order to facilitate the support portion 30 to radially support the snap assembly 6 to the release position when the rotation of the filter assembly 200 is locked by the locking mechanism, the support portion 30 and the engagement assembly 6 are in the same axial position. on.
其中,支撑部30的外径可以大于阻挡部12的外径,也可以小于阻挡部12的外径。当然,也可以如图16所示的实施例中,所述阻挡部12靠近操作端2的一侧设有环形凹槽结构28,支撑部30设置于该环形凹槽结构28中,支撑部30包括沿径向向外凸出的支撑凸起,两个支撑凸起沿周向均匀排布,所述支撑部30(支撑凸起)的外径与所述阻挡部12的外径相等(当然,在有的实施例中所述支撑部30(支撑凸起)的外径与所述阻挡部12的外径也可以不等)。The outer diameter of the support portion 30 may be larger than the outer diameter of the blocking portion 12 or smaller than the outer diameter of the blocking portion 12 . Of course, in the embodiment shown in FIG. 16, the side of the blocking portion 12 near the operating end 2 is provided with an annular groove structure 28, and the supporting portion 30 is disposed in the annular groove structure 28, and the supporting portion 30 a support protrusion that protrudes radially outward, the two support protrusions are evenly arranged in the circumferential direction, and an outer diameter of the support portion 30 (support protrusion) is equal to an outer diameter of the blocking portion 12 (of course In some embodiments, the outer diameter of the support portion 30 (support protrusion) and the outer diameter of the blocking portion 12 may also be unequal.
进一步地,所述卡合组件6形成有卡合口(未标示)。所述卡合口的边缘具有与所述轴线距离不同的第一部位和第二部位。所述第一部位距离所述轴线的距离大于所述第二部位距离所述轴线的距离。所述支撑部30沿径向与所述第一部位对齐时不撑开所述卡合组件6至所述释放位置;所述支撑部30转动至沿径向与所述第二部位对齐时将所述卡合组件6撑开至所述释放位置。卡合口通过距离轴线不同的第一部位和第二部位于支撑部30相接触,从而被支撑部30在第二部位时沿径向撑开。Further, the engaging assembly 6 is formed with an engaging opening (not labeled). The edge of the engaging opening has a first portion and a second portion that are different in distance from the axis. The distance of the first portion from the axis is greater than the distance of the second portion from the axis. When the support portion 30 is aligned with the first portion in the radial direction, the engaging assembly 6 is not extended to the release position; when the support portion 30 is rotated to be aligned with the second portion in the radial direction, The snap assembly 6 is extended to the release position. The engaging portion is in contact with the first portion and the second portion having different distances from the axis at the supporting portion 30, so that the supporting portion 30 is radially expanded at the second portion.
所述第一部位距离所述轴线的距离为L1,所述第二部位距离所述轴线的距离为L2,所述支撑部30的外缘至所述轴线的距离为L3;其中,L1≥L3>L2。进一步地,所述第一部位与所述轴线的距离为所述卡合口的边缘与所述轴线的最大距离;所述第二部位于所述轴线的距离为所述卡合口的边缘与所述轴线的最小距离、所述卡合口从所述第一部位至所述第二部位与所述轴线的距离逐渐减小,并且,从所述第二部位至所述第一部位与所述轴线的距离逐渐增大。The distance from the first portion to the axis is L1, the distance from the second portion to the axis is L2, and the distance from the outer edge of the support portion 30 to the axis is L3; wherein, L1≥L3 >L2. Further, a distance between the first portion and the axis is a maximum distance between an edge of the engaging opening and the axis; a distance of the second portion at the axis is an edge of the engaging opening and the a minimum distance of the axis, a distance of the engaging opening from the first portion to the second portion to the axis, and a distance from the second portion to the first portion and the axis The distance gradually increases.
具体的实施例中,相邻两个所述卡紧件的对接位置形成所述第一部位;所述卡紧件的中间位置形成所述第二部位。具体的实施例中,在两个卡合件相对接位于锁定位置时,两个卡合件形成的卡合口呈类椭圆形状。In a specific embodiment, the abutting position of two adjacent clamping members forms the first portion; the intermediate position of the clamping member forms the second portion. In a specific embodiment, when the two engaging members are oppositely located in the locking position, the engaging openings formed by the two engaging members have an elliptical shape.
为便于用户将滤芯组件200从基座100中拔出,降低因插入端1与基座100之间密封配合所带来的阻力影响。在一较佳的实施例中,所述基座100还设有推出结构。在所述滤芯组件200带动所述支撑部30由第一部位转动至第二部位时,所述推出结构将所述滤芯组件200沿所述滤芯组件200脱离所述基座100方向推出。In order to facilitate the user to pull the filter element assembly 200 out of the base 100, the influence of the resistance caused by the sealing fit between the insertion end 1 and the base 100 is reduced. In a preferred embodiment, the base 100 is further provided with a push-out structure. When the filter element assembly 200 drives the support portion 30 to rotate from the first portion to the second portion, the push-out structure pushes the filter element assembly 200 away from the filter element assembly 200 in the direction of the base 100.
具体的,所述基座100具有供所述滤芯组件200插入的插入口;所述推出结构包括设置于所述基座100具有插入口一侧的弧形凸起19。具体的,该弧形凸起19位于所述基座100设有插入口的表面。该弧形凸起19凸出所述基座100的表面的高度沿着所述支撑部30从第一部位至第二部位转动的方向逐渐增大。具体的,该弧形凸起19所在位置 可以小于所述滤芯组件200的外径。滤芯组件200的背对操作端的环形表面上可以设有与所述弧形凸起19相配合的凸起部29(图16中为筋状结构)。滤芯组件200在插入端1的周围形成有环形表面。Specifically, the base 100 has an insertion opening for inserting the filter element assembly 200; the push-out structure includes an arcuate protrusion 19 disposed on a side of the base 100 having an insertion opening. Specifically, the curved protrusion 19 is located on a surface of the base 100 provided with an insertion opening. The height of the curved protrusion 19 protruding from the surface of the base 100 gradually increases in a direction in which the support portion 30 rotates from the first portion to the second portion. Specifically, the position of the curved protrusion 19 may be smaller than the outer diameter of the filter element assembly 200. The annular surface of the filter element assembly 200 facing away from the operating end may be provided with a raised portion 29 (a ribbed structure in Fig. 16) that cooperates with the curved projection 19. The filter element assembly 200 is formed with an annular surface around the insertion end 1.
在滤芯组件200安装于基座100上时,滤芯组件200的环形表面与基座100的所述表面相贴合。此时,滤芯组件200的凸起部29位于弧形凸起19的最低处(未凸出所述基座100的表面的位置),转动滤芯组件200带动所述凸起部29绕轴线转动,凸起部29与弧形凸起19背离所述基座100的长条状的上端面相接触,并被弧形凸起19支撑。随着滤芯组件200沿轴线继续转动,弧形凸起19逐步将凸起部29沿所述滤芯组件200脱离所述基座100方向将所述凸起部29推动,使得滤芯组件200逐步与基座100脱离。When the cartridge assembly 200 is mounted on the base 100, the annular surface of the cartridge assembly 200 conforms to the surface of the base 100. At this time, the convex portion 29 of the filter element assembly 200 is located at the lowest point of the curved protrusion 19 (the position where the surface of the base 100 is not protruded), and the rotating filter element assembly 200 drives the convex portion 29 to rotate about the axis. The raised portion 29 is in contact with the curved projection 19 facing away from the elongated upper end surface of the base 100 and supported by the curved projection 19. As the cartridge assembly 200 continues to rotate along the axis, the arcuate projections 19 progressively urge the projections 29 away from the cartridge assembly 200 in the direction of the base 100, causing the cartridge assembly 200 to progressively engage the base. The seat 100 is detached.
当然,推出结构并不局限于上述弧形凸起19形式,还可以为沿第一部位至第二部位转动方向逐渐远离基座100的导轨等等,推出结构还可以设置于滤芯组件200上,推出结构将滤芯组件200的转动转化为使滤芯组件200沿轴向远离基座100的作用力,将滤芯组件200推出所述基座100。Of course, the push-out structure is not limited to the above-mentioned arc-shaped protrusion 19, and may be a guide rail that gradually moves away from the base 100 along the rotation direction of the first portion to the second portion, and the push-out structure may also be disposed on the filter element assembly 200. The push-out structure converts the rotation of the cartridge assembly 200 into a force that moves the cartridge assembly 200 away from the base 100 in an axial direction, pushing the cartridge assembly 200 out of the base 100.
在本实施方式中,所述操作部包括固定于所述操作端2的旋钮20。通过所述旋钮20带动所述滤芯组件200转动。其中,该旋钮20为扁平结构,并且与所述操作端2的端面垂直。在其他实施例中,该操作部还可以为把手等样式,考虑到该操作部的实现方式具有多种,只需能够带动滤芯组件200转动即可,本申请并不作其他限制。In the present embodiment, the operating portion includes a knob 20 that is fixed to the operating end 2. The filter cartridge assembly 200 is rotated by the knob 20. The knob 20 has a flat structure and is perpendicular to the end surface of the operating end 2. In other embodiments, the operation portion may be in the form of a handle or the like. Considering that the operation portion has a plurality of implementation manners, it is only required to be able to drive the filter element assembly 200 to rotate, and the present application is not limited thereto.
承接上述实施例,通过设有支撑部30以及相配合的卡合组件6。在将滤芯组件200插入安装至基座100时,滤芯组件200可以沿着支撑部30与卡合口的第一部位对齐方向向基座100插入。滤芯组件200在第一斜面31(解锁机构)的作用下将卡合组件6沿径向撑开使阻挡部12通过卡合口,然后卡合组件6复位至锁定位置将滤芯组件200锁定。此时,支撑部30不会对阻挡部12通过卡合组件6形成影响,也不会撑开卡合组件6,并且卡合组件6与支撑部30位于同一轴向位置。支撑部30的外缘可以与卡合口的边缘(也可以称为内表面、内缘)相接处。In the above embodiment, the support portion 30 and the mating engagement assembly 6 are provided. When the cartridge assembly 200 is inserted into the base 100, the cartridge assembly 200 can be inserted into the base 100 along the direction in which the support portion 30 is aligned with the first portion of the engagement opening. The filter cartridge assembly 200 radially expands the snap-fit assembly 6 under the action of the first ramp 31 (unlocking mechanism) such that the blocking portion 12 passes through the snap-in opening, and then the snap-fit assembly 6 is reset to the locked position to lock the cartridge assembly 200. At this time, the support portion 30 does not affect the blocking portion 12 through the engaging assembly 6, nor does it disengage the engaging assembly 6, and the engaging assembly 6 and the supporting portion 30 are located at the same axial position. The outer edge of the support portion 30 may meet the edge of the engagement opening (which may also be referred to as an inner surface, an inner edge).
在插入端1与卡合组件6接触时,由于复位元件的存在,用户可以通过操作部向滤芯组件200施加沿滤芯组件200长度方向推动滤芯组件200的作用力,依靠第一斜面31的作用将卡合组件6沿径向推动,进而将卡合口径向扩大,使得阻挡部12通过卡合组件6。When the insertion end 1 is in contact with the engaging assembly 6, due to the presence of the resetting element, the user can apply the force of pushing the filter element assembly 200 along the length of the filter element assembly 200 to the filter element assembly 200 through the operating portion, by virtue of the action of the first inclined surface 31. The snap-fit assembly 6 is urged in the radial direction to radially expand the snap-in opening such that the blocking portion 12 passes through the snap-fit assembly 6.
为方便用户安装滤芯组件200时锁定机构将滤芯组件200锁定,因此需要将支撑部30定位于卡合组件6的第一部位。基于此考虑,所述基座100还可以设有导向结构。所 述导向结构能在所述滤芯组件200向所述基座100插入时将所述支撑部30导向至所述第一部位。In order to facilitate the user to install the filter element assembly 200, the locking mechanism locks the filter element assembly 200, so the support portion 30 needs to be positioned at the first portion of the snap-fit assembly 6. Based on this consideration, the base 100 may also be provided with a guiding structure. The guiding structure can guide the support portion 30 to the first portion when the filter element assembly 200 is inserted into the base 100.
通过该导向结构,可以将支撑部30导向至支撑部30沿滤芯组件200的长度方向(也可以视为上述轴线方向)与第一部位相对齐,通过对操作部施力将阻挡部12通过卡合口,滤芯组件200被卡合组件6锁定(也即滤芯组件200处于安装于基座100的状态)时,支撑部30与第一部位沿径向对齐。如此,滤芯组件200可以在安装时位于预定位置,通过操作部转动滤芯组件200即可实现卡合组件6解锁至释放位置,操作十分方便,也无需用户手动定位滤芯组件200位置,安装拆卸均十分快捷。Through the guiding structure, the supporting portion 30 can be guided to the supporting portion 30 along the longitudinal direction of the cartridge assembly 200 (which can also be regarded as the axial direction), and the first portion can be aligned, and the blocking portion 12 can be passed through the card by applying a force to the operating portion. In conjunction with the cartridge assembly 200 being locked by the snap-fit assembly 6 (ie, the cartridge assembly 200 is in a state of being mounted to the base 100), the support portion 30 is radially aligned with the first portion. In this way, the filter element assembly 200 can be located at a predetermined position during installation, and the locking assembly 6 can be unlocked to the release position by rotating the filter element assembly 200 through the operating portion. The operation is very convenient, and the user does not need to manually position the filter element assembly 200. Fast.
具体的,所述导向结构包括第一导轨21。所述滤芯组件200上设有沿所述第一导轨21运动的导向凸起26。所述滤芯组件200向所述基座100插入时,所述导向凸起26沿所述第一导轨21运动并且所述支撑部30被导向至所述第一部位。Specifically, the guiding structure includes a first guide rail 21. The filter element assembly 200 is provided with a guide protrusion 26 that moves along the first guide rail 21. When the cartridge assembly 200 is inserted into the base 100, the guide projection 26 moves along the first rail 21 and the support portion 30 is guided to the first portion.
另外,为了方便用户拆卸滤芯组件200时获知支撑部30已与第二部位对齐,将卡合组件6撑开至释放位置,避免用户因旋转不到位或旋转过度而无法将滤芯组件200拔出。所述导向结构还包括用于所述导向凸起26运动的第二导轨22、以及连通导轨23。In addition, in order to facilitate the user to disassemble the filter element assembly 200, it is known that the support portion 30 has been aligned with the second portion, and the engaging assembly 6 is extended to the release position to prevent the user from pulling out the filter element assembly 200 due to insufficient rotation or excessive rotation. The guide structure further includes a second guide rail 22 for moving the guide projection 26, and a communication rail 23.
其中,所述连通导轨23将所述第一导轨21与所述第二导轨22连通。所述导向凸起26沿所述连通导轨23运动时,所述支撑部30将所述卡合组件6由锁定位置撑开至所述释放位置。所述滤芯组件200脱离所述基座100运动时,所述导向凸起26沿所述连通导轨23运动。进一步的,所述第二导轨22沿所述滤芯组件200长度方向直线延伸;所述第一导轨21沿所述滤芯组件200长度方向弯曲延伸;所述连通导轨23沿周向延伸。The communication rail 23 communicates the first rail 21 with the second rail 22 . When the guide protrusion 26 moves along the communication rail 23, the support portion 30 expands the engaging assembly 6 from the locked position to the release position. The guide protrusion 26 moves along the communication rail 23 when the filter element assembly 200 moves out of the base 100. Further, the second rail 22 extends linearly along the length direction of the cartridge assembly 200; the first rail 21 extends in a curved direction along the longitudinal direction of the cartridge assembly 200; and the communication rail 23 extends in the circumferential direction.
如图13、图14所示,一个所述第一导轨21、一个所述第二导轨22、以及一个将该第一导轨21和该第二导轨22连通导轨23形成一个导轨组。所述导向结构包括两个导轨组、以及第一进出口24、第二进出口。所述第一进出口24、第二进出口用于所述导向凸起26进出所述导轨组。通过第一进出口24、第二进出口,导向凸起26可以从导向结构中移出,从而使得滤芯组件200完全移出,以便于更换。As shown in FIGS. 13 and 14, one of the first rails 21, one of the second rails 22, and one of the first rails 21 and the second rails 22 communicate with each other to form a rail group. The guiding structure comprises two sets of guide rails, and a first inlet and outlet 24 and a second inlet and outlet. The first inlet and outlet port 24 and the second inlet and outlet are used for the guide protrusions 26 to enter and exit the guide rail group. Through the first inlet and outlet 24, the second inlet and outlet, the guide projections 26 can be removed from the guiding structure, so that the filter element assembly 200 is completely removed for easy replacement.
其中,一个导轨组中的第一导轨21和另一导轨组中的第二导轨22与所述第一进出口24相连通。该导轨组中的第二导轨22与另一导轨组中的第一导轨21均与所述第二进出口相通。两个导轨组可以对称分布,在滤芯组件200的周向可以相应设有两个导向凸起26,分别对应进出所述第一进出口24、所述第二进出口。在其他实施例中,第一导轨21和第二导轨22也可以不共用同一进出口。The first rail 21 in one rail group and the second rail 22 in the other rail group are in communication with the first inlet and outlet 24. The second rail 22 in the set of rails and the first rail 21 in the other set of rails are in communication with the second inlet and outlet. The two sets of guide rails can be symmetrically distributed, and two guide protrusions 26 can be correspondingly arranged in the circumferential direction of the filter element assembly 200, respectively corresponding to the first inlet and outlet 24 and the second inlet and outlet. In other embodiments, the first rail 21 and the second rail 22 may not share the same inlet and outlet.
第一导轨21、第二导轨22、连通导轨23可以为长条形状的通孔结构,也可以为提 供移动轨迹的凹槽结构28。如图13至图14所示的实施例中,所述基座100上还设有支撑筒体300;所述支撑筒体300在所述滤芯组件200安装于所述基座100时套设于所述滤芯组件200外。所述导向结构设置于该支撑筒体300上。所述第一导轨21、第二导轨22、以及连通导轨23均将支撑筒体300沿径向贯通。当然,所述第一导轨21、第二导轨22、以及连通导轨23也可以均为凹槽的形式。The first rail 21, the second rail 22, and the communication rail 23 may be an elongated through hole structure or a groove structure 28 that provides a moving track. In the embodiment shown in FIG. 13 to FIG. 14 , the base 100 is further provided with a support cylinder 300. The support cylinder 300 is sleeved on the filter assembly 200 when the filter assembly 200 is mounted on the base 100. The filter element assembly 200 is external. The guiding structure is disposed on the support cylinder 300. The first rail 21, the second rail 22, and the communication rail 23 each penetrate the support cylinder 300 in the radial direction. Of course, the first rail 21, the second rail 22, and the communication rail 23 may also be in the form of grooves.
下面详细描述本申请中图8至图16中所示的实施例,以便更好地理解本申请。The embodiments shown in Figures 8 through 16 of the present application are described in detail below for a better understanding of the present application.
如图15所示。滤芯组件200具有圆柱形主体27、以及插入端1。滤芯组件200背对插入端1的一端的端面上设有形成操作部的扁平结构的旋钮20。通过该旋钮20可以将滤芯组件200围绕与滤芯组件200长度方向平行的轴线转动。As shown in Figure 15. The cartridge assembly 200 has a cylindrical body 27 and an insertion end 1. A knob 20 of a flat structure forming an operation portion is provided on an end surface of the filter element assembly 200 facing away from one end of the insertion end 1. The cartridge assembly 200 can be rotated about the axis parallel to the longitudinal direction of the cartridge assembly 200 by the knob 20.
基座100上设有供插入端1进入的插入孔15,并在基座100的外表面上形成插入口。基座100上还固定连接有支撑筒体300。滤芯组件200安装插入基座100上时,该支撑筒体300将滤芯组件200套设包围。支撑筒体300可以对滤芯组件200进行支撑,以避免滤芯组件200的所有重量被插入端1与插入孔15接合处承担,同时,避免滤芯组件200长期暴露而布满灰尘。The base 100 is provided with an insertion hole 15 through which the insertion end 1 enters, and an insertion opening is formed on the outer surface of the base 100. A support cylinder 300 is also fixedly coupled to the base 100. When the filter cartridge assembly 200 is mounted on the base 100, the support cylinder 300 encloses the cartridge assembly 200. The support cylinder 300 can support the filter element assembly 200 to prevent all the weight of the filter element assembly 200 from being taken up by the insertion end 1 and the insertion hole 15 at the same time, while avoiding long-term exposure of the filter element assembly 200 to be dusty.
支撑筒体300上还设有为滤芯组件200的插入或拔出导向的导向结构。其中,所述导向结构包括两个导轨组以及第一进出口24、第二进出口。每个导轨组包括一个所述第一导轨21、一个所述第二导轨22、以及一个将该第一导轨21和该第二导轨22连通导轨23。第一导轨21沿着支撑筒体300长度方向周向延伸,第二导轨22沿着支撑筒体300长度方向直线延伸。A guiding structure for inserting or withdrawing the filter element assembly 200 is also provided on the support cylinder 300. Wherein, the guiding structure comprises two rail sets and a first inlet and outlet 24 and a second inlet and outlet. Each of the rail sets includes a first rail 21, a second rail 22, and a guide rail 23 that connects the first rail 21 and the second rail 22. The first guide rail 21 extends circumferentially along the longitudinal direction of the support cylinder 300, and the second guide rail 22 extends linearly along the longitudinal direction of the support cylinder 300.
如图13、图14所示,一个导轨组中的第一导轨21和另一导轨组中的第二导轨22与所述第一进出口24相连通;该导轨组中的第二导轨22与另一导轨组中的第一导轨21均与所述第二进出口相通。第一导轨21和第二导轨22与第一进出口24之间还设有连通段25,该连通段25同样沿直线延伸,并且在滤芯组件200沿着该连通段25远离第一进出口24运动时,该连通段25被设置为将滤芯组件200向第一导轨21内导向。基座100以及所述支撑筒体300可以相互连接,也可以间接连接,本申请并不作限制。基座100以及支撑筒体300可以参与形成净水器的外壳。As shown in FIG. 13 and FIG. 14, the first rail 21 in one rail group and the second rail 22 in the other rail group communicate with the first inlet and outlet 24; the second rail 22 in the rail group is The first rails 21 of the other rail group are all in communication with the second inlet and outlet. A communication section 25 is further disposed between the first rail 21 and the second rail 22 and the first inlet and outlet 24, and the communication section 25 also extends in a straight line, and is away from the first inlet and outlet 24 along the connecting section 25 at the filter element assembly 200. The connecting section 25 is arranged to guide the filter element assembly 200 into the first guide rail 21 during movement. The base 100 and the support cylinder 300 may be connected to each other or indirectly, and the present application is not limited thereto. The base 100 and the support cylinder 300 can participate in forming an outer casing of the water purifier.
插入端1的外径小于滤芯组件200的圆柱形主体27的外径。插入端1上设有凸环结构14,凸环结构14靠近所述操作端2的一侧设有阻挡面(阻挡部12),并且设有支撑凸起(支撑部30)。该支撑凸起的外径与凸环结构14的外径相等。支撑凸起沿周向均匀分布有两个,从而通过旋转90度即可将卡合组件6撑开至释放位置。凸环结构14背 对操作端2的一侧设有第一斜面31。The outer diameter of the insertion end 1 is smaller than the outer diameter of the cylindrical body 27 of the filter cartridge assembly 200. The insertion end 1 is provided with a convex ring structure 14, and a side of the convex ring structure 14 adjacent to the operation end 2 is provided with a blocking surface (blocking portion 12), and a supporting protrusion (support portion 30) is provided. The outer diameter of the support protrusion is equal to the outer diameter of the collar structure 14. The support projections are evenly distributed in the circumferential direction by two, so that the snap-fit assembly 6 can be opened to the release position by rotating 90 degrees. A side of the collar structure 14 facing away from the operating end 2 is provided with a first bevel 31.
基座100具有基座壳体,卡合口设置于基座壳体上,卡合组件6被安装于基座壳体的内部,并形成位于插入口内侧的卡合口(插入口、卡合口均为插入孔15的某一部分)。卡合组件6具有两个相对接的卡紧板,每个卡紧板上设有形成卡合口边缘的弧形边缘。两个卡紧板的对接部位形成两个第一部位,并与两个支撑凸起一一对应。当支撑凸起被转动90度后,两个支撑凸起与两个卡紧板的中间位置分别对齐,将两个卡紧板沿径向向外推动至释放位置。基座100内部设有对两个卡紧板施加朝向锁定位置移动的弹性件。卡合口的边缘同样为第一斜面31,从而与所述凸环结构14的第一斜面31相配合,以便于被凸环结构14推开并通过。The base 100 has a base housing, and the engaging opening is disposed on the base housing. The engaging assembly 6 is mounted inside the base housing and forms an engaging opening on the inner side of the insertion opening (the insertion opening and the engaging opening are both Insert a part of the hole 15). The snap-fit assembly 6 has two opposite clamping plates, each of which is provided with a curved edge forming an edge of the engaging opening. The abutting portions of the two clamping plates form two first portions and are in one-to-one correspondence with the two supporting protrusions. After the support protrusion is rotated by 90 degrees, the two support protrusions are respectively aligned with the intermediate positions of the two clamping plates, and the two clamping plates are pushed radially outward to the release position. The base 100 is internally provided with an elastic member that applies a movement toward the locking position of the two clamping plates. The edge of the engaging opening is also the first inclined surface 31 so as to cooperate with the first inclined surface 31 of the convex ring structure 14 so as to be pushed away and passed by the convex ring structure 14.
用户在需要将滤芯组件200从基座100(或净水器外壳)上拆卸时,先通过旋钮20旋动滤芯组件200,滤芯组件200上的导向凸起26围绕连通导轨23转动90度至第二导轨22的一端,连通导轨23的端部的壁可以阻止导向凸起26继续沿周向移动,提醒用户此时可以将滤芯组件200拔出。在旋动滤芯组件200的过程中,支撑凸起从第一部位转动至第二部位将卡合组件6从锁定位置撑开至释放位置。同时,在弧形凸起19作用下,滤芯组件200随着旋转自动向外(拔出方向)移出一定距离,降低用户施力。用户将滤芯组件200向外拔出,两个导向凸起26沿着第二导轨22运动直至从第一进出口24、第二进出口移出。When the user needs to remove the filter element assembly 200 from the base 100 (or the water purifier housing), the filter element assembly 200 is first rotated by the knob 20, and the guide protrusion 26 on the filter element assembly 200 is rotated 90 degrees around the communication rail 23 to the first One end of the two guide rails 22, the wall connecting the ends of the guide rails 23, can prevent the guide projections 26 from continuing to move in the circumferential direction, reminding the user that the filter cartridge assembly 200 can be pulled out at this time. During rotation of the cartridge assembly 200, the support projection is rotated from the first portion to the second portion to disengage the snap assembly 6 from the locked position to the released position. At the same time, under the action of the curved protrusions 19, the filter element assembly 200 is automatically moved outward (extracting direction) by a certain distance with the rotation, thereby reducing the user's force. The user pulls the filter element assembly 200 outward, and the two guide projections 26 move along the second guide rail 22 until they are removed from the first inlet and outlet 24 and the second inlet and outlet.
用户在需要将(新的)滤芯组件200安装至基座100(或净水器外壳)上时,将两个导向凸起26从第一进出口24、第二进出口进入导向结构中,继续推动滤芯组件200并被连通段25导向至第一导轨21中直至两个支撑凸起与两个第一部位沿轴向对齐。然后通过旋钮20继续向基座100方向推动滤芯组件200,滤芯组件200的插入端1通过第一斜面31将卡合组件6撑开并通过,在阻挡部12通过后卡合组件6复位至锁定位置将插入端1锁定,两个支撑部30与两个第一部位沿径向对齐,完成滤芯组件200的安装工作。When the user needs to mount the (new) filter element assembly 200 to the base 100 (or the water purifier housing), the two guiding protrusions 26 are introduced into the guiding structure from the first inlet and outlet 24 and the second inlet and outlet, and continue. The filter element assembly 200 is pushed and guided by the communication section 25 into the first rail 21 until the two support projections are axially aligned with the two first portions. The filter cartridge assembly 200 is then pushed toward the base 100 by the knob 20, and the insertion end 1 of the cartridge assembly 200 is opened and passed by the first ramp 31, and is reset to the lock after the blocking portion 12 passes the rear latching assembly 6. The position locks the insertion end 1 and the two support portions 30 are radially aligned with the two first portions to complete the installation of the filter element assembly 200.
参阅图1至图7所示的实施例。所述操作部被外部施力时使所述打开机构沿所述滤芯组件200长度方向运动。所述打开机构通过沿所述滤芯组件200长度方向运动使所述锁定机构由所述锁定位置动作至所述释放位置。Refer to the embodiment shown in Figures 1-7. The opening portion moves the opening mechanism along the longitudinal direction of the cartridge assembly 200 when externally applied by the operating portion. The opening mechanism moves the locking mechanism from the locked position to the release position by moving along the length of the cartridge assembly 200.
在该实施例中,打开机构可以可移动地安装于基座100上,也可以随滤芯组件200一同被拆卸安装。当然,打开机构也可以包括多个可分离拆卸的组件,部分数量的组件安装于基座100上,另一部分数量的组件安装于滤芯组件200上。In this embodiment, the opening mechanism can be movably mounted to the base 100 or can be detachably mounted with the filter cartridge assembly 200. Of course, the opening mechanism can also include a plurality of detachable components, a portion of which is mounted to the base 100 and another portion of which is mounted to the filter assembly 200.
具体的,所述操作部设有可转动地受力件3。所述打开机构包括与所述受力件3相配合的撑开件4。所述撑开件4能在所述受力件3被施力转动时沿所述滤芯组件200插入所述基座100方向运动,并将所述卡合组件6由锁定位置撑开至释放位置。Specifically, the operating portion is provided with a rotatably-forced member 3. The opening mechanism includes a distracting member 4 that cooperates with the force receiving member 3. The expansion member 4 is movable in the direction in which the filter element assembly 200 is inserted into the base 100 when the force receiving member 3 is biased, and the snap assembly 6 is extended from the locked position to the release position. .
为减少滤芯组件200与基座100之间密封措施所形成的阻力影响,所述受力件3被施力转动时还能使所述滤芯组件200远离所述基座100方向运动。具体的,撑开件4沿滤芯组件200长度方向移动将卡合组件6打开至释放位置后,撑开件4可以被基座100限位无法继续沿滤芯组件200方向向基座100移动。此时,受力件3可以继续转动,撑开件4向受力件3或滤芯组件200施加相反的作用力,顶抵滤芯组件200沿远离基座100的方向移动。In order to reduce the influence of the resistance formed by the sealing means between the filter element assembly 200 and the base 100, the force receiving member 3 can also move the filter element assembly 200 away from the base 100 when the force receiving member 3 is rotated. Specifically, after the expansion member 4 moves along the length direction of the filter element assembly 200 to open the engagement assembly 6 to the release position, the expansion member 4 can be restrained by the base 100 and cannot continue to move toward the base 100 in the direction of the filter element assembly 200. At this time, the force receiving member 3 can continue to rotate, and the expansion member 4 applies an opposite force to the force receiving member 3 or the filter element assembly 200 to move against the filter element assembly 200 in a direction away from the base 100.
所述撑开件4靠近所述基座100的一端设有撑开部;所述卡合组件6设有能与所述撑开部相配合的作用部。其中,所述撑开部和/或所述作用部设有第二斜面13。所述第二斜面13使得所述撑开件4沿所述滤芯组件200插入所述基座100方向运动时将所述卡合组件6由锁定位置沿径向撑开至释放位置。The extending member 4 is provided with a distracting portion near one end of the base 100; the engaging assembly 6 is provided with an acting portion that can cooperate with the distracting portion. The expansion portion and/or the action portion are provided with a second slope 13 . The second bevel 13 causes the distraction member 4 to radially expand the snap-fit assembly 6 from the locked position to the release position as the filter cartridge assembly 200 is inserted into the base 100.
所述受力件3围绕一垂直于所述滤芯组件200长度方向的转动轴线转动。所述受力件3沿其转动方向具有第一转动位置和第二转动位置。所述受力件3由第一转动位置向所述第二转动位置转动时推动所述撑开件4沿所述滤芯组件200插入所述基座100方向运动。The force receiving member 3 is rotated about a rotation axis perpendicular to the longitudinal direction of the filter element assembly 200. The force receiving member 3 has a first rotational position and a second rotational position along its rotational direction. When the force receiving member 3 is rotated from the first rotational position to the second rotational position, the expansion member 4 is pushed to move in the direction in which the filter cartridge assembly 200 is inserted into the base 100.
其中,所述受力件3包括把手。为便于用户握持操作,所述把手由第一转动位置向所述第二转动位置转动时在所述滤芯组件200远离所述插入端1的一端逐渐竖起。图2至图4所示的实施例中,该受力件3为半圆形状,两端可转动地连接于操作端2上。需要说明的是,本申请的受力件3并不受限于此,受力件3也可以为其他形状,比如直杆形状、折线形状、部分弧形等等。Wherein, the force receiving member 3 includes a handle. To facilitate the user's gripping operation, the handle is gradually erected at an end of the filter element assembly 200 away from the insertion end 1 when the handle is rotated from the first rotational position to the second rotational position. In the embodiment shown in FIGS. 2 to 4, the force receiving member 3 has a semicircular shape, and both ends are rotatably coupled to the operating end 2. It should be noted that the force receiving member 3 of the present application is not limited thereto, and the force receiving member 3 may have other shapes, such as a straight rod shape, a polygonal line shape, a partial curved shape, and the like.
为通过受力件3即可推动撑开件4向基座100方向移动,在如图2所示的实施例中,所述受力件3具有绕所述转动轴线一同转动的推动面8。在所述受力件3由第一转动位置向所述第二转动位置转动时,所述推动面8与所述撑开件4的接触部位与所述转动轴线的距离逐渐增大。In order to move the expansion member 4 in the direction of the base 100 by the force receiving member 3, in the embodiment shown in Fig. 2, the force receiving member 3 has a pushing surface 8 which rotates together about the rotation axis. When the force receiving member 3 is rotated from the first rotational position to the second rotational position, the distance between the contact portion of the pushing surface 8 and the distracting member 4 and the rotational axis gradually increases.
请继续参阅图2,推动面8位于受力件3的两端,该推动面8可以为弧面结构。该实施例中的受力件3结构简单,通过在受力件3设置一同绕转动轴线(与滤芯组件200的长度方向垂直,也即与上述轴线垂直,枢转轴9提供所述转动轴线)转动的推动面8即可推动撑开件4沿滤芯组件200的长度方向移动。Referring to FIG. 2, the pushing surface 8 is located at both ends of the force receiving member 3, and the pushing surface 8 may be a curved surface structure. The force receiving member 3 in this embodiment has a simple structure, and is rotated by the pivoting shaft 9 (the pivot axis 9 is perpendicular to the longitudinal direction of the cartridge assembly 200, that is, the axis perpendicular to the axis, the pivot axis 9 provides the rotation axis). The pushing surface 8 can push the expansion member 4 to move along the length of the filter element assembly 200.
如图3、图4所示的在另一实施例中,所述打开机构还包括设置于所述操作端2的推动件10。所述受力件3由第一转动位置向所述第二转动位置转动时使所述推动件10沿径向向外移动。所述推动件10沿径向向外移动时使所述撑开件4沿所述滤芯组件200插入所述基座100方向移动。为避免推动件10裸露,在操作端2上还可以设有遮挡盖18将推动件10遮挡。In another embodiment, as shown in FIGS. 3 and 4, the opening mechanism further includes a pushing member 10 disposed at the operating end 2. When the force receiving member 3 is rotated from the first rotational position to the second rotational position, the pusher 10 is moved radially outward. When the pusher 10 is moved radially outward, the spreader 4 is moved in the direction in which the cartridge assembly 200 is inserted into the base 100. In order to prevent the pushing member 10 from being exposed, a shielding cover 18 may be provided on the operating end 2 to block the pushing member 10.
其中,所述受力件3还设有将其两端连接的推动杆16。操作端2设有两个推动件10,当受力件3从第一转动位置向第二转动位置转动时,推动杆16直接将一个推动件10沿径向向外推动,相应的,该推动件10同时会推动另一推动件10沿相反的方向推动(示意性质地举例为两个推动件10同时与一固定齿轮啮合,通过该固定齿轮,两个推动件10沿径向的相反方向移动)。具体的,所述推动件10沿径向的外端设有第三斜面11。所述推动件10沿径向向外移动时通过所述第三斜面11推动所述撑开件4沿所述滤芯组件200插入所述基座100方向移动。Wherein, the force receiving member 3 is further provided with a pushing rod 16 connecting the two ends thereof. The operating end 2 is provided with two pushing members 10, and when the force receiving member 3 is rotated from the first rotating position to the second rotating position, the pushing rod 16 directly pushes a pushing member 10 radially outward, and correspondingly, the pushing At the same time, the piece 10 pushes the other pushing member 10 to push in the opposite direction (schematically, for example, the two pushing members 10 simultaneously mesh with a fixed gear, by which the two pushing members 10 move in opposite directions in the radial direction. ). Specifically, the pushing member 10 is provided with a third inclined surface 11 at a radially outer end. When the pusher 10 moves radially outward, the extension member 4 is pushed by the third inclined surface 11 to move in the direction in which the filter cartridge assembly 200 is inserted into the base 100.
所述撑开件4件包括安装于所述基座100上且可套设于滤芯组件200外的筒体结构。所述撑开部设置于所述筒体结构靠近所述基座100一端。该筒体结构相对于基座100可以沿滤芯组件200的长度方向移动。也即,撑开件4可移动地(间接或直接)被支撑于基座100上。筒体结构靠近基座100的一端沿周向设有两个或更多个插入凸起5,第二斜面13设置于该插入凸起5上。The distracting member 4 includes a cylindrical structure that is mounted on the base 100 and can be sleeved outside the filter element assembly 200. The expansion portion is disposed at an end of the cylindrical structure near the base 100. The barrel structure is movable relative to the base 100 along the length of the cartridge assembly 200. That is, the expansion member 4 is movably supported (indirectly or directly) on the base 100. Two ends of the cylindrical structure adjacent to the base 100 are circumferentially provided with two or more insertion projections 5, and the second inclined surface 13 is provided on the insertion projection 5.
在该实施例中,如图7所示,基座壳体上设有多个矩形开口17,卡紧板的作用部(同样为凸起结构,图7中标号6所指位置的凸起结构,该凸起结构为卡紧板的一部分)位于矩形开口17中并同样设有第二斜面13。在撑开件4的筒体结构的上端被受力件3推动时,撑开件4带动插入凸起5向基座100移动,撑开部与作用部相配合将撑开件4沿轴向的运动转变为卡紧板沿径向的运动,使得卡合组件6移动至释放位置。In this embodiment, as shown in FIG. 7, the base housing is provided with a plurality of rectangular openings 17, the action portion of the clamping plate (also a convex structure, and the convex structure at the position indicated by reference numeral 6 in FIG. The raised structure is part of the clamping plate) located in the rectangular opening 17 and is likewise provided with a second bevel 13. When the upper end of the tubular structure of the distracting member 4 is pushed by the force receiving member 3, the distracting member 4 drives the insertion protrusion 5 to move toward the base 100, and the distracting portion cooperates with the acting portion to axially extend the distracting member 4 The motion changes into a radial movement of the clamping plate causing the snap-fit assembly 6 to move to the release position.
在该实施例中,所述基座100上还设有支撑筒体300。所述支撑筒体300在所述滤芯组件200安装于所述基座100时套设于所述滤芯组件200外。上述筒体结构套设于支撑筒体300与滤芯组件200之间。其中,撑开件4可移动地安装于支撑筒体300上。In this embodiment, the base 100 is further provided with a support cylinder 300. The support cylinder 300 is sleeved outside the filter element assembly 200 when the filter element assembly 200 is mounted on the base 100. The cylinder structure is sleeved between the support cylinder 300 and the filter element assembly 200. The expansion member 4 is movably mounted on the support cylinder 300.
下面详细描述本申请中图1至图7所示的实施例,以便更好地理解本申请。The embodiments shown in Figures 1 through 7 of the present application are described in detail below for a better understanding of the present application.
滤芯组件200具有圆柱形主体27、以及插入端1。滤芯组件200背对插入端1的操作端2的端面上设有可转动的半圆形把手。通过将该把手在操作端2的端面上竖起可将撑开筒(撑开件4)沿着滤芯组件200的长度方向推动。The cartridge assembly 200 has a cylindrical body 27 and an insertion end 1. The end face of the filter element assembly 200 facing away from the operating end 2 of the insertion end 1 is provided with a rotatable semi-circular handle. The pilling cylinder (the struts 4) can be pushed along the length of the cartridge assembly 200 by erecting the handle on the end face of the operating end 2.
撑开筒可移动地支撑于支撑筒体300中,基座100上设有供插入端1进入的插入孔 15,并在基座100的外表面上形成插入口。基座100上还固定连接有支撑筒体300。滤芯组件200安装插入基座100上时,该支撑筒体300将滤芯组件200套设包围。支撑筒体300可以对滤芯组件200进行支撑,以避免滤芯组件200的所有重量被插入端1与插入孔15接合处承担,同时,避免滤芯组件200长期暴露而布满灰尘。支撑筒体300以及撑开筒均可以为滤芯组件200的插入或移出进行导向,便于在安装时插入端1对准基座100的插入口。The expansion cylinder is movably supported in the support cylinder 300, and the base 100 is provided with an insertion hole 15 for the insertion end 1 to enter, and an insertion opening is formed on the outer surface of the base 100. A support cylinder 300 is also fixedly coupled to the base 100. When the filter cartridge assembly 200 is mounted on the base 100, the support cylinder 300 encloses the cartridge assembly 200. The support cylinder 300 can support the filter element assembly 200 to prevent all the weight of the filter element assembly 200 from being taken up by the insertion end 1 and the insertion hole 15 at the same time, while avoiding long-term exposure of the filter element assembly 200 to be dusty. Both the support cylinder 300 and the expansion cylinder can guide the insertion or removal of the filter element assembly 200, so that the insertion end 1 is aligned with the insertion opening of the base 100 during installation.
滤芯组件200的插入端1的外径小于滤芯组件200的圆柱形主体27的外径。插入端1上设有凸环结构14,凸环结构14靠近所述操作端2的一侧设有阻挡面(阻挡部12)。凸环结构14背对操作端2的一侧设有第一斜面31。The outer diameter of the insertion end 1 of the cartridge assembly 200 is smaller than the outer diameter of the cylindrical body 27 of the cartridge assembly 200. The insertion end 1 is provided with a convex ring structure 14, and a side of the convex ring structure 14 adjacent to the operation end 2 is provided with a blocking surface (blocking portion 12). A side of the collar structure 14 facing away from the operating end 2 is provided with a first bevel 31.
基座100具有基座壳体,卡合口设置于基座壳体上,卡合组件6被安装于基座壳体的内部,并形成位于插入口内侧的卡合口(插入口、卡合口均为插入孔15的某一部分)。卡合组件6具有两个相对接的卡紧板(卡紧件的一种),每个卡紧板上设有形成卡合口边缘的弧形边缘。两个卡紧板的对接部位形成两个第一部位,并与两个支撑凸起一一对应。The base 100 has a base housing, and the engaging opening is disposed on the base housing. The engaging assembly 6 is mounted inside the base housing and forms an engaging opening on the inner side of the insertion opening (the insertion opening and the engaging opening are both Insert a part of the hole 15). The snap-fit assembly 6 has two opposing clamping plates (one of the clamping members), each of which is provided with a curved edge forming an edge of the engaging opening. The abutting portions of the two clamping plates form two first portions and are in one-to-one correspondence with the two supporting protrusions.
在基座100内部设有对两个卡紧板施加朝向锁定位置移动的弹性件。卡合口的边缘同样为第一斜面31,从而与所述凸环结构14的第一斜面31相配合,以便于被凸环结构14推开并通过。基座壳体上设有矩形开口17,卡紧板的作用部伸入该矩形开口17中并与撑开筒端部的插入凸起5相配合。由于弹性件的存在,在滤芯组件200已安装在基座100上或未安装在基座100状态(也即卡合组件6位于锁定位置)时,卡紧板会通过第一斜面31向远离基座100的方向推动撑开件4,使得撑开件4复位。An elastic member that applies a movement toward the locking position to the two clamping plates is provided inside the base 100. The edge of the engaging opening is also the first inclined surface 31 so as to cooperate with the first inclined surface 31 of the convex ring structure 14 so as to be pushed away and passed by the convex ring structure 14. The base housing is provided with a rectangular opening 17 into which the active portion of the clamping plate projects and cooperates with the insertion projection 5 of the end of the expansion cylinder. Due to the presence of the elastic member, when the filter element assembly 200 has been mounted on the base 100 or is not mounted in the state of the base 100 (ie, the snap-fit assembly 6 is in the locked position), the clamping plate will be moved away from the base by the first inclined surface 31. The direction of the seat 100 pushes the distraction member 4 so that the distraction member 4 is reset.
用户在需要将滤芯组件200从基座100(或净水器外壳)上拆卸时,先通过旋动把手将把手在操作端2竖起。随着把手的竖起,把手的推动面8将撑开筒向基座100推动。撑开筒在第二斜面13的作用下使卡紧板沿径向移动将卡合口打开至释放位置。把手继续竖起,插入凸起5的端部被顶抵限位(比如卡紧板上、或基座100上的限位部)无法继续向基座100移动,此时,在撑开筒的反作用力下滤芯组件200随着把手旋转自动向外(拔出方向)移出一定距离,以降低用户施力。最后,用户将滤芯组件200向外拔出即可,拔出过程中滤芯组件200无需转动。When the user needs to detach the cartridge assembly 200 from the base 100 (or the water purifier housing), the handle is first erected at the operating end 2 by a rotary handle. As the handle is erected, the push surface 8 of the handle pushes the expansion cylinder toward the base 100. The expansion cylinder moves the clamping plate in the radial direction by the second inclined surface 13 to open the engagement opening to the release position. The handle continues to be erected, and the end of the insertion protrusion 5 is pushed against the limit (such as the clamping plate or the limit portion on the base 100) and cannot continue to move toward the base 100. Under the reaction force, the filter element assembly 200 is automatically moved outward (extracting direction) by a certain distance as the handle rotates to reduce the user's force. Finally, the user can pull out the filter element assembly 200 outwardly, and the filter element assembly 200 does not need to be rotated during the pulling out process.
用户在需要将(新的)滤芯组件200安装至基座100(或净水器外壳)上时,利用把手或直接手握滤芯组件200的圆柱状筒体将滤芯组件200送入撑开筒以及支撑筒体300内。然后,继续向基座100方向推动滤芯组件200,滤芯组件200的插入端1通过第一 斜面31将卡合组件6撑开并通过,在阻挡部12通过后卡合组件6复位至锁定位置将插入端1锁定,完成滤芯组件200的安装工作。When the user needs to mount the (new) cartridge assembly 200 to the base 100 (or the water purifier housing), the filter cartridge assembly 200 is fed into the expansion cylinder by a handle or by directly holding the cylindrical barrel of the cartridge assembly 200. The inside of the cylinder 300 is supported. Then, the filter cartridge assembly 200 is continued to be pushed toward the base 100. The insertion end 1 of the cartridge assembly 200 is opened and passed by the first inclined surface 31, and is reset to the locked position after the blocking portion 12 passes the rear engaging assembly 6. The insertion end 1 is locked to complete the installation work of the filter element assembly 200.
当然,在插入过程中,把手为竖起状态(位于第二转动位置)时,把手的推动面8也可以直接推动支撑筒向基座100移动,并依靠第二斜面13将卡合组件6从锁定位置驱动至释放位置,保证插入端1的阻挡部12通过卡合口。进而,该实施例中的受力件3以及撑开件4也可以作为解锁机构,并且可以不必设置上述实施例中的第一斜面31。Of course, during the insertion process, when the handle is in the upright state (in the second rotational position), the pushing surface 8 of the handle can also directly push the support cylinder to move toward the base 100, and the engaging component 6 is removed from the second inclined surface 13 The locking position is driven to the release position, ensuring that the blocking portion 12 of the insertion end 1 passes through the engagement opening. Further, the force receiving member 3 and the expansion member 4 in this embodiment can also function as an unlocking mechanism, and it is not necessary to provide the first slope 31 in the above embodiment.
请参阅图17至图27。本申请实施例中提供一种滤芯组件更换结构,包括:滤芯组件200、用于安装所述滤芯组件200的基座100、用于将所述滤芯组件200锁定在所述基座100上的锁定机构、用于打开所述锁定机构的解锁件40。Please refer to Figure 17 to Figure 27. A filter cartridge assembly replacement structure is provided in the embodiment of the present application, comprising: a filter cartridge assembly 200, a base 100 for mounting the filter cartridge assembly 200, and a lock for locking the filter cartridge assembly 200 on the base 100 A mechanism, an unlocking member 40 for opening the locking mechanism.
其中,所述滤芯组件200设有用于接受用户施力的受力件3。所述受力件3通过动作具有第一位置和第二位置。如图17、图19所示,图17为受力件3位于第一位置时安装于基座100的状态示意图。图19为受力件3位于第二位置时滤芯组件200向基座100插入的状态示意图。Wherein, the filter element assembly 200 is provided with a force receiving member 3 for receiving a force applied by a user. The force receiving member 3 has a first position and a second position by an action. As shown in FIGS. 17 and 19, FIG. 17 is a schematic view showing a state in which the force receiving member 3 is attached to the susceptor 100 when it is in the first position. FIG. 19 is a schematic view showing a state in which the filter element assembly 200 is inserted into the base 100 when the force receiving member 3 is in the second position.
所述受力件3由第一位置向第二位置动作时能够推动所述解锁件40打开所述锁定机构。所述滤芯组件200在所述受力件3位于第二位置的状态下能向所述基座100插入直至被所述锁定机构锁定。When the force receiving member 3 is moved from the first position to the second position, the unlocking member 40 can be pushed to open the locking mechanism. The filter element assembly 200 can be inserted into the base 100 in a state where the force receiving member 3 is in the second position until being locked by the locking mechanism.
受力件3通过动作具有第一位置和第二位置,其动作形式可以为转动、平移、甚至为翻转。其中,受力件3所接受的施力可以为翻转力也可以为摁压力。优选的,该受力件3可以绕一转动轴线转动。具体的,在本实施例中,为方便用户操作,受力件3可以围绕一枢转轴9转动,第一位置可以为上述实施例中的第一转动位置,第二位置可以为上述实施例中的第二转动位置。The force receiving member 3 has a first position and a second position through the action, and the action form may be rotation, translation, or even flipping. The force applied by the force receiving member 3 may be a turning force or a helium pressure. Preferably, the force receiving member 3 is rotatable about an axis of rotation. Specifically, in the embodiment, in order to facilitate the operation of the user, the force receiving member 3 can be rotated around a pivoting shaft 9, and the first position can be the first rotational position in the above embodiment, and the second position can be in the above embodiment. The second rotational position.
在本实施例中,基座100供滤芯组件200安装。该基座100可以不动,也可以动作。例如,在进行解锁锁定机构的过程中,基座100可以动作。当然,在该实施例中基座100优选的保持固定不动。In the present embodiment, the base 100 is mounted for the cartridge assembly 200. The susceptor 100 can be moved or operated. For example, the base 100 can be actuated during the unlocking mechanism. Of course, the base 100 preferably remains stationary in this embodiment.
锁定机构可以位于基座100上,也可以位于滤芯组件200上,本申请并不作限制。在本实施例中,基座100、锁定机构可以参考上述实施例中的基座100、以及锁定机构,本实施例中不再赘述。The locking mechanism can be located on the base 100 or on the filter element assembly 200, which is not limited in this application. In this embodiment, the base 100 and the locking mechanism can refer to the base 100 and the locking mechanism in the above embodiments, which are not described in this embodiment.
解锁件40可以将锁定机构解锁。依靠锁定机构锁定形式的不同,解锁件40具有不同的解锁结构。其中,解锁件40可以参考上述实施例中的撑开件。当然,解锁件40也可以更进一步的结构,以便配合受力件3,维持用户安装和拆卸滤芯组件200的便捷性。The unlocking member 40 can unlock the locking mechanism. The unlocking member 40 has a different unlocking structure depending on the locking form of the locking mechanism. The unlocking member 40 can refer to the distracting member in the above embodiment. Of course, the unlocking member 40 can be further configured to cooperate with the force receiving member 3 to maintain the convenience of the user to install and remove the filter element assembly 200.
本实施例所提供的滤芯组件更换结构通过设有受力件3,方便用户通过受力件3对滤芯组件200操作,十分方便。在拆卸滤芯组件200时,用户对受力件3施力将其从第一位置动作至第二位置即可,拆卸方便。在安装滤芯组件200时,所述滤芯组件200在所述受力件3位于第二位置的状态下能向所述基座100插入直至被所述锁定机构锁定,从而即使受力件3在第二位置状态下,用户依然可以无需改变受力件3的状态,将滤芯组件200安装至基座100上,方便用户操作。The filter element assembly replacement structure provided in this embodiment is provided with the force receiving member 3, which is convenient for the user to operate the filter element assembly 200 through the force receiving member 3. When the filter element assembly 200 is disassembled, the user can apply force to the force receiving member 3 to move it from the first position to the second position, which is convenient for disassembly. When the filter element assembly 200 is installed, the filter element assembly 200 can be inserted into the base 100 in a state where the force receiving member 3 is in the second position until being locked by the locking mechanism, so that even if the force receiving member 3 is in the first In the two-position state, the user can still mount the filter element assembly 200 to the base 100 without changing the state of the force receiving member 3, which is convenient for the user to operate.
所述受力件3设有推动部50。在受力件3从第一位置向第二位置移动过程中,推动部50能够推动解锁件40形成解锁动作,从而将锁定机构解锁打开。在本实施例中,推动部50在从第一位置向第二位置转动中,推动解锁件40沿滤芯组件200长度方向移动,使解锁件40朝向基座100移动,插入锁定机构中,将锁定机构解锁打开。The force receiving member 3 is provided with a pushing portion 50. During the movement of the force receiving member 3 from the first position to the second position, the pushing portion 50 can push the unlocking member 40 to form an unlocking action, thereby unlocking the locking mechanism. In this embodiment, in the rotation from the first position to the second position, the pushing portion 50 is pushed to move along the length direction of the cartridge assembly 200, so that the unlocking member 40 is moved toward the base 100, inserted into the locking mechanism, and locked. The organization unlocked to open.
具体的,所述解锁件40设有与所述推动部50相配合的承接面61。其中,承接面61可以为平面。推动部50通过与承接面61相配合,从而将解锁件40推动。承接面61位于解锁件40远离基座100的一端。Specifically, the unlocking member 40 is provided with a receiving surface 61 that cooperates with the pushing portion 50. The receiving surface 61 can be a flat surface. The pushing portion 50 is engaged with the receiving surface 61 to push the unlocking member 40. The receiving surface 61 is located at one end of the unlocking member 40 away from the base 100.
所述推动部50由第一位置向第二位置动作时与所述承接面61相接触,从而推动所述解锁件40将所述锁定机构打开。其中,为避免受力件3在第二位置时受力件3与解锁件40发生干涉或者干涉过度,所述受力件3在位于第二位置的情况下,所述滤芯组件200向所述基座100插入时至少部分所述推动部50能从所述承接面61的一侧移动至所述承接面61的另一侧。The pushing portion 50 is in contact with the receiving surface 61 when the first position is moved to the second position, thereby pushing the unlocking member 40 to open the locking mechanism. Wherein, in order to avoid interference or excessive interference between the force receiving member 3 and the unlocking member 40 when the force receiving member 3 is in the second position, the force receiving member 3 is in the second position, the filter element assembly 200 is At least a portion of the pushing portion 50 can be moved from one side of the receiving surface 61 to the other side of the receiving surface 61 when the base 100 is inserted.
如图19、图20所示。所述受力件3在位于第二位置的情况下,所述滤芯组件200向所述基座100插入时至少部分所述推动部50能伸入所述解锁件40和所述滤芯组件200之间。至少部分推动部50伸入至解锁件40与滤芯组件200之间时,允许推动部50随着移动将解锁件40径向撑开。As shown in Figure 19 and Figure 20. When the force receiving member 3 is in the second position, at least a portion of the pushing portion 50 can protrude into the unlocking member 40 and the filter element assembly 200 when the filter element assembly 200 is inserted into the base 100 between. When at least a portion of the pusher 50 extends between the unlocking member 40 and the cartridge assembly 200, the pusher 50 is allowed to radially expand the unlocking member 40 as it moves.
为保证推动部50与承接面61相接触受力,能够顺利将锁定机构解锁,方便滤芯组件200从基座100上卸载。所述受力件3由第二位置向第一位置转动时,部分所述推动部50能从所述解锁件40和所述滤芯组件200之间移出。其中,受力件3位于第一位置时,推动部50可以整体位于承接面61的上侧,不与承接面61上接触。In order to ensure that the pushing portion 50 is in contact with the receiving surface 61, the locking mechanism can be smoothly unlocked, and the filter element assembly 200 can be unloaded from the base 100. When the force receiving member 3 is rotated from the second position to the first position, part of the pushing portion 50 can be removed from between the unlocking member 40 and the filter element assembly 200. Wherein, when the force receiving member 3 is in the first position, the pushing portion 50 may be entirely located on the upper side of the receiving surface 61 and not in contact with the receiving surface 61.
在受力件3位于第一位置时,推动部50位于解锁件40外。推动部50不与承接面61相接触。在受力件3从第一位置逐步向第二位置移动时,推动部50逐步与承接面61相接触,逐步将解锁件40向着基座100推动,进而将锁定机构解锁打开。When the force receiving member 3 is in the first position, the pushing portion 50 is located outside the unlocking member 40. The pushing portion 50 is not in contact with the receiving surface 61. When the force receiving member 3 is gradually moved from the first position to the second position, the pushing portion 50 gradually contacts the receiving surface 61, and gradually pushes the unlocking member 40 toward the base 100, thereby unlocking and unlocking the locking mechanism.
如图17、图18所示。当受力件3处于未插入到基座100状态,并且,位于第二位 置时,推动部50的端部51可以插入到解锁件40和滤芯组件200之间,解锁件40对于推动部50的移动不会形成阻碍。从而用户可以在受力件3位于第二位置的情况下操作滤芯组件200,方便用户操作,直至滤芯组件200完全安装在基座100上,无需用户在安装过程中将滤芯组件200从第二位置变更到第一位置。然后,用户可以将受力件3从第二位置施力移动至第一位置,使得推动部50从解锁件40与滤芯组件200之间移出,方便后续将滤芯组件200从基座100上拆卸取出。As shown in Figure 17 and Figure 18. When the force receiving member 3 is in a state of not being inserted into the base 100, and is located in the second position, the end portion 51 of the pushing portion 50 may be inserted between the unlocking member 40 and the filter element assembly 200, and the unlocking member 40 is for the pushing portion 50. Movement does not create an obstacle. Thereby, the user can operate the filter element assembly 200 with the force receiving member 3 in the second position, which is convenient for the user to operate until the filter element assembly 200 is completely mounted on the base 100 without the user having to remove the filter element assembly 200 from the second position during the installation process. Change to the first location. Then, the user can move the force receiving member 3 from the second position to the first position, so that the pushing portion 50 is removed from the unlocking member 40 and the filter element assembly 200, so as to facilitate the subsequent removal of the filter element assembly 200 from the base 100. .
用户在需要取出滤芯组件200时,将受力组件从第一位置施力动作至第二位置,推动部50与承接面61相接触。随着受力组件逐步接近第二位置,推动部50通过承接面61逐步将解锁件40朝向基座100推动,直至将锁定机构解锁。最后用户通过位于第二位置的受力件3将滤芯组件200从基座100拔出即可完成滤芯组件200的拆卸。When the user needs to take out the filter element assembly 200, the force component is urged from the first position to the second position, and the pushing portion 50 is in contact with the receiving surface 61. As the force-bearing component gradually approaches the second position, the pusher 50 progressively pushes the unlocking member 40 toward the base 100 through the receiving surface 61 until the locking mechanism is unlocked. Finally, the user removes the filter element assembly 200 from the base 100 by the force receiving member 3 located at the second position to complete the removal of the filter element assembly 200.
请继续参阅图17至图25。在本实施例中,该滤芯组件更换结构还可以包括切入结构。所述切入结构用于所述受力件3由第一位置向第二位置转动时使推动部50切入与所述承接面61相接触。通过切入结构,可以避免推动部50向第二位置转动时再次进入解锁件40与滤芯组件200之间而无法与承接面61接触,保证解锁成功。Please continue to refer to Figures 17 through 25. In this embodiment, the filter element replacement structure may further include a plunge structure. The cutting-in structure is configured to cause the pushing portion 50 to cut into contact with the receiving surface 61 when the force receiving member 3 is rotated from the first position to the second position. By cutting into the structure, it is possible to prevent the pushing portion 50 from entering between the unlocking member 40 and the filter element assembly 200 when it is rotated to the second position, and cannot contact the receiving surface 61, thereby ensuring successful unlocking.
具体的,所述切入结构可以包括设置于所述解锁件40远离所述基座100的一端的阻挡壁62。所述承接面61位于所述阻挡壁62的外侧。所述阻挡壁62沿周向的一端为外径不超过所述推动部50的内径的切入端63。受力件3位于第一位置时,推动部50位于阻挡壁62远离基座100的一侧。在读者面对图17、图18时,推动部50位于阻挡壁62的上方。Specifically, the cutting structure may include a blocking wall 62 disposed at an end of the unlocking member 40 away from the base 100. The receiving surface 61 is located outside the blocking wall 62. One end of the barrier wall 62 in the circumferential direction is a cut-in end 63 whose outer diameter does not exceed the inner diameter of the pushing portion 50. When the force receiving member 3 is in the first position, the pushing portion 50 is located on the side of the blocking wall 62 away from the base 100. When the reader faces FIGS. 17 and 18, the pushing portion 50 is positioned above the barrier wall 62.
在受力件3从第二位置向第二位置转动时,推动部50首先与切入端63相接触,所述阻挡壁62沿周向的一端为外径不超过所述推动部50的内径的切入端63,从而推动部50会沿切入端63的外侧切入,避免切入到阻挡壁62内部。随着受力件3逐步接近第二位置,推动部50逐步与承接面61相贴合接触,推动解锁件40。When the force receiving member 3 is rotated from the second position to the second position, the pushing portion 50 first comes into contact with the cutting end 63, and the one end of the blocking wall 62 in the circumferential direction has an outer diameter that does not exceed the inner diameter of the pushing portion 50. The end 63 is cut so that the pushing portion 50 is cut along the outside of the cutting end 63 to avoid cutting into the inside of the blocking wall 62. As the force receiving member 3 gradually approaches the second position, the pushing portion 50 gradually comes into contact with the receiving surface 61 to push the unlocking member 40.
如图25所示。承接面61和阻挡壁62形成台阶结构。承接面61位于阻挡壁62的外侧,与阻挡壁62同向延伸。阻挡壁62的延伸长度可以与承接面61的延伸长度相同。其中,承接面61可以大致为弧形面,相应的,阻挡壁62也可以大致为弧形结构。As shown in Figure 25. The receiving surface 61 and the barrier wall 62 form a stepped structure. The receiving surface 61 is located outside the blocking wall 62 and extends in the same direction as the blocking wall 62. The extension length of the barrier wall 62 may be the same as the extension length of the receiving surface 61. The receiving surface 61 can be substantially a curved surface. Correspondingly, the blocking wall 62 can also have a substantially arc-shaped structure.
如图25所示。所述阻挡壁62还具有间隔部64。至少部分所述推动部50能伸入所述间隔部64和所述滤芯组件200之间。所述切入端63向所述间隔部64延伸时内径逐渐增大。间隔部64与滤芯组件200之间的间隙距离大于切入端63与滤芯组件200之间的间隙距离,从而推动部50在位于第二位置的情况下可以在朝向基座100移动时插入到间 隔部64和滤芯组件200之间。As shown in Figure 25. The barrier wall 62 also has a spacer 64. At least a portion of the push portion 50 can extend between the spacer portion 64 and the filter cartridge assembly 200. The inner diameter of the incision end 63 gradually increases as it extends toward the spacer portion 64. The gap distance between the spacer 64 and the cartridge assembly 200 is greater than the gap distance between the incision end 63 and the cartridge assembly 200, so that the pushing portion 50 can be inserted into the spacer when moving toward the base 100 in the second position. 64 is between the filter element assembly 200.
在本实施例中,所述受力件3包括可转动地安装于所述滤芯组件200上的把手。为方便用户握持,把手可以为半圆形把手。所述把手由第一位置向第二位置转动时逐渐竖起。所述把手的两端分别设有一个所述推动部50。筒体41设有相对应的两个承接面61以及阻挡壁62。In the present embodiment, the force receiving member 3 includes a handle rotatably mounted to the filter element assembly 200. For the convenience of the user, the handle can be a semi-circular handle. The handle is gradually erected when rotated from the first position to the second position. One end of the handle is respectively provided with one pushing portion 50. The cylinder 41 is provided with two corresponding receiving faces 61 and a blocking wall 62.
所述推动部50包括设置于所述受力件3上围绕一转动轴线转动的推动面8。该推动面8为曲面,具体为弧形面,从而推动部50在围绕枢转轴9转动时,推动面8可以推动解锁件40朝向基座100移动。The pushing portion 50 includes a pushing surface 8 disposed on the force receiving member 3 to rotate about an axis of rotation. The pushing surface 8 is a curved surface, in particular a curved surface, so that the pushing surface 8 can push the unlocking member 40 toward the base 100 when the pushing portion 50 is rotated about the pivoting shaft 9.
在所述受力件3由第一位置向第二位置转动时,所述推动面8与所述承接面61的接触部位与所述转动轴线的距离逐渐增大。为便于推动部50插入到间隔部64的内侧,推动部50的端部51的外径相对于其他部位的外径小。如图21所示,推动部50的端部51厚度更小。当然,在其他实施例中推动部50的端部51也可以为朝向内侧弯曲的内扣结构。如此,在安装滤芯组件200时,只需推动部50的端部51插入到间隔部64的内侧,继续朝向基座100推动滤芯组件200即可。When the force receiving member 3 is rotated from the first position to the second position, the distance between the contact portion of the pushing surface 8 and the receiving surface 61 and the rotation axis gradually increases. In order to facilitate insertion of the pushing portion 50 into the inner side of the partition portion 64, the outer diameter of the end portion 51 of the pushing portion 50 is smaller than the outer diameter of the other portion. As shown in Fig. 21, the end portion 51 of the pushing portion 50 is made smaller in thickness. Of course, in other embodiments, the end portion 51 of the pushing portion 50 may also be an inner buckle structure that is curved toward the inner side. As such, when the cartridge assembly 200 is installed, only the end portion 51 of the pushing portion 50 is inserted into the inside of the spacer portion 64, and the cartridge assembly 200 is continuously pushed toward the base 100.
考虑到在安装拆卸滤芯组件200过程中避免解锁件40对推动部50过度干涉,方便用户安装滤芯组件200。所述解锁件40远离所述基座100的一端设有弹性结构。所述弹性结构靠近所述受力件3的一端能沿径向弹性动作。所述承接面61和所述切入结构设置于所述弹性结构靠近受力件3的一端。It is convenient for the user to install the filter element assembly 200 in consideration of avoiding excessive interference of the unlocking member 40 with the pushing portion 50 during the installation and removal of the filter element assembly 200. An end of the unlocking member 40 away from the base 100 is provided with an elastic structure. The elastic structure is elastically movable in a radial direction near an end of the force receiving member 3. The receiving surface 61 and the cutting structure are disposed at an end of the elastic structure adjacent to the force receiving member 3.
通过该弹性结构,推动部50在插入到滤芯组件200和弹性结构之间时,随着推动部50插入的部分越长,弹性结构可以沿径向向外扩张,从而便于推动部50的插入,避免对推动部50形成阻挡,方便用户将滤芯组件200安装到位。而在拆卸滤芯组件200时,推动部50向第二位置移动,推动部50通过切入端63逐步切入至承接面61的上方(远离基座100的一侧)。此时弹性结构可以沿径向向内收缩,从而推动部50可以顺利与承接面61匹配接触,逐步推动解锁件40将锁定机构打开。With the elastic structure, when the pushing portion 50 is inserted between the filter element assembly 200 and the elastic structure, the longer the portion into which the pushing portion 50 is inserted, the elastic structure can be expanded outward in the radial direction, thereby facilitating the insertion of the pushing portion 50, Avoiding the formation of a barrier to the pusher 50 facilitates the user to mount the cartridge assembly 200 in place. When the cartridge assembly 200 is disassembled, the pushing portion 50 is moved to the second position, and the pushing portion 50 is gradually cut into the upper side of the receiving surface 61 (the side away from the base 100) through the cutting end 63. At this time, the elastic structure can be contracted radially inward, so that the pushing portion 50 can smoothly match the receiving surface 61, and the unlocking member 40 is gradually pushed to open the locking mechanism.
所述解锁件40包括安装于所述基座100上且可套设于所述滤芯组件200外的筒体41(可以参考上述实施例中的筒体41结构)。所述弹性结构包括设置于所述筒体41上的卡板60。为与半圆形把手上的两个推动部50相对应,所述筒体41上设有相对应的两个所述卡板60。The unlocking member 40 includes a cylinder 41 mounted on the base 100 and sleeved outside the filter cartridge assembly 200 (refer to the structure of the cylinder 41 in the above embodiment). The elastic structure includes a card 60 disposed on the barrel 41. Corresponding to the two pushing portions 50 on the semicircular handle, the cylinder 41 is provided with two corresponding cards 60.
所述卡板60沿周向的两侧和所述筒体41之间设有间隔间隙45。为避免干涉推动部50围绕枢转轴9转动,所述间隔间隙45远离所述基座100的一端具有开口部。所述开 口部向所述基座100延伸时周向宽度逐渐减小。其中,卡板60可以固定连接于筒体41远离基座100的一端。优选的,所述卡板60和所述筒体41为一体成型。The card plate 60 is provided with a gap 45 between the two sides in the circumferential direction and the cylindrical body 41. In order to prevent the interference pushing portion 50 from rotating about the pivot shaft 9, the spacing gap 45 has an opening portion away from the end of the base 100. The circumferential width gradually decreases as the opening portion extends toward the base 100. The card board 60 can be fixedly connected to one end of the cylinder body 41 away from the base 100. Preferably, the card board 60 and the barrel 41 are integrally formed.
为具有较佳的弹性复位能力以及提供相应的承接面61。至少部分所述卡板60的厚度大于所述筒体41的壁厚。进一步地,所述卡板60设有靠近所述基座100的连接部和远离所述基座100的承载部。所述连接部沿周向的宽度小于所述承载部沿周向的宽度。其中,承接面61以及阻挡壁62位于承载部的上端。In order to have a better elastic resetting capability and to provide a corresponding receiving surface 61. At least a portion of the card 60 has a thickness greater than a wall thickness of the barrel 41. Further, the card board 60 is provided with a connecting portion close to the base 100 and a carrying portion away from the base 100. The width of the connecting portion in the circumferential direction is smaller than the width of the bearing portion in the circumferential direction. The receiving surface 61 and the blocking wall 62 are located at the upper end of the carrying portion.
在本实施例中,该滤芯组件更换结构还可以设有导向结构。所述导向结构用于所述推动部50与所述间隔部64沿所述滤芯组件200方向相对齐。通过设有导向结构,无需用户在安装滤芯组件200时将推动部50与卡板60的间隔部64相对齐,方便用户操作。In this embodiment, the filter element replacement structure may further be provided with a guiding structure. The guiding structure is used for the pushing portion 50 and the spacing portion 64 to be aligned along the direction of the filter element assembly 200. By providing the guiding structure, the user does not need to align the pushing portion 50 with the spacing portion 64 of the card board 60 when the filter element assembly 200 is installed, which is convenient for the user to operate.
为便于对滤芯组件200导向,所述滤芯组件200的侧壁上设有导向凸起201。该导向凸起201优选为圆柱形凸起,当然其他结构本申请并不限制。导向凸起201的数量优选为一个In order to facilitate guiding of the filter element assembly 200, the side wall of the filter element assembly 200 is provided with a guiding protrusion 201. The guide projection 201 is preferably a cylindrical projection, although other configurations are not limited in this application. The number of guiding protrusions 201 is preferably one
所述导向结构包括设置于所述筒体41内壁的导向面42以及将所述筒体41的筒壁贯通的导向通孔43。所述导向面42从远离所述基座100的一端向靠近所述基座100的一端螺旋延伸。所述导向面42靠近所述基座100的一端通入所述导向通孔43。所述导向面42用于承接所述导向凸起201以将所述导向凸起201导入所述导向通孔43。所述导向通孔43沿所述滤芯组件200的长度方向延伸。The guide structure includes a guide surface 42 provided on an inner wall of the cylindrical body 41 and a guide through hole 43 penetrating the cylindrical wall of the cylindrical body 41. The guide surface 42 extends spirally from an end remote from the base 100 toward an end adjacent to the base 100. The guiding surface 42 opens into the guiding through hole 43 near one end of the base 100. The guiding surface 42 is configured to receive the guiding protrusion 201 to guide the guiding protrusion 201 into the guiding through hole 43. The guide through hole 43 extends along the length direction of the cartridge assembly 200.
导向面42的下端(靠近基座100的一端)通向导向通孔43。导向通孔43具有位于导向面42的两侧的部分。筒体41上可以设有观察孔,以观察导向凸起201是否放置于导向面42上。当导向凸起201放置于导向面42上时,在用户的推力作用下,导向凸起201会沿着导向面42移动直至进入导向通道中。导向凸起201进入导向通道时,推动部50与间隔部64处于对齐状态。继续推动滤芯组件200,推动部50会插入到卡板60和滤芯组件200之间直至锁定机构将滤芯组件200的插入端1锁定,安装完成。The lower end of the guide surface 42 (near the end of the base 100) leads to the through hole 43. The guide through holes 43 have portions on both sides of the guide surface 42. An observation hole may be provided in the cylinder 41 to observe whether or not the guide projection 201 is placed on the guide surface 42. When the guide projection 201 is placed on the guide surface 42, the guide projection 201 moves along the guide surface 42 until it enters the guide passage under the action of the user's thrust. When the guide projection 201 enters the guide passage, the push portion 50 is aligned with the spacer portion 64. Continuing to push the cartridge assembly 200, the pusher 50 is inserted between the card 60 and the cartridge assembly 200 until the locking mechanism locks the insertion end 1 of the cartridge assembly 200 for installation.
为保证导向凸起201在进入导向通道后滤芯组件200还能继续朝向基座100移动,保证滤芯组件200安装完成。沿所述滤芯组件200长度方向,所述承接面61与所述导向面42的下端(靠近所述基座100的一端)的距离小于所述推动部50在所述受力件3位于第二位置状态下与所述导向凸起201的距离。In order to ensure that the filter element assembly 200 can continue to move toward the base 100 after entering the guide channel 201, the filter element assembly 200 is installed. Along the longitudinal direction of the filter element assembly 200, the distance between the receiving surface 61 and the lower end of the guiding surface 42 (near the end of the base 100) is smaller than the pushing portion 50 is located at the second force receiving member 3 The distance from the guide projection 201 in the positional state.
其中,所述筒体41内壁设有至少一个所述导向面42,所述导向面42螺旋延伸的角度为180度的整数倍。如图26所示,两个延伸角度为180度的导向面42相对称地设置于筒体41的内壁上。如此用户无需关注导向凸起201的位置,用户只需将滤芯组件200 向基座100插入即可,十分方便用户操作。当然,在其他实施例中,导向面42也可以为延伸角度为360的导向面42。The inner wall of the cylinder 41 is provided with at least one guiding surface 42, and the angle of the guiding surface 42 spirally extends is an integral multiple of 180 degrees. As shown in FIG. 26, two guide faces 42 extending at an angle of 180 degrees are symmetrically disposed on the inner wall of the cylindrical body 41. Therefore, the user does not need to pay attention to the position of the guiding protrusion 201, and the user only needs to insert the filter element assembly 200 into the base 100, which is very convenient for the user to operate. Of course, in other embodiments, the guide surface 42 may also be a guide surface 42 having an extension angle of 360.
需要说明的是,在本申请实施例中,可以以远离基座100的一个为上,以靠近基座100的一个为下,相应的,朝向基座100移动,也可以视为向下移动,该“上下”方向可以与读者面对图17或图19所示的方位相对应,但并不受实际的放置状态所限制。It should be noted that, in the embodiment of the present application, one of the bases 100 may be moved away from the base 100, and one of the bases 100 may be moved toward the base 100, or may be regarded as moving downward. The "up and down" direction may correspond to the orientation of the reader as shown in FIG. 17 or FIG. 19, but is not limited by the actual placement state.
当然,本申请实施例并不以上述实施例为限制。在另外的实施例中,至少部分还可以在承接面61的外侧移动至承接面61靠近基座100的一侧。在该实施例中,可以允许推动部50随着移动将解锁件40向着滤芯组件200挤压(也可以理解为径向压缩)。相应的,切入结构与图25所示实施例中的相反布置,其中,承接面61位于阻挡壁62的内侧,间隔部64相对于切入端63的内径更小。Of course, the embodiments of the present application are not limited to the above embodiments. In a further embodiment, at least part of it can also be moved outside the receiving surface 61 to the side of the receiving surface 61 close to the base 100. In this embodiment, the pusher 50 can be allowed to squeeze the unlocking member 40 toward the cartridge assembly 200 as it moves (also understood to be radially compressed). Correspondingly, the plunge structure is arranged opposite to that of the embodiment shown in Fig. 25, wherein the receiving surface 61 is located inside the blocking wall 62 and the spacing portion 64 is smaller relative to the inner diameter of the incision end 63.
请参阅图28至图31。在另一个实施例中,所述受力件3设有用于推动所述解锁件40的推动部50。所述推动部50具有可切换的推动位置和释放位置。所述推动部50位于所述释放位置时,所述受力件3与所述解锁件40不发生干涉。所述推动部50位于所述释放位置时,所述推动部50能推动所述解锁件40将所述锁定机构打开。Please refer to Figure 28 to Figure 31. In another embodiment, the force receiving member 3 is provided with a pushing portion 50 for pushing the unlocking member 40. The pushing portion 50 has a switchable push position and a release position. When the pushing portion 50 is in the release position, the force receiving member 3 does not interfere with the unlocking member 40. When the pushing portion 50 is in the release position, the pushing portion 50 can push the unlocking member 40 to open the locking mechanism.
进一步的,所述滤芯组件200在所述受力件3位于第一位置至第二位置之间的任意位置的状态下能向所述基座100插入直至被所述锁定机构锁定。如此用户无需注意受力件3的位置即可将滤芯组件200安装到位,方便用户安装。Further, the filter element assembly 200 can be inserted into the base 100 in a state where the force receiving member 3 is located at any position between the first position and the second position until being locked by the locking mechanism. Thus, the user can install the filter element assembly 200 in place without paying attention to the position of the force receiving member 3, which is convenient for the user to install.
进一步地,推动部50位于释放位置时,并不随受力件3一同转动。推动部50在推动位置时随受力件3一同转动。用户可以在受力件3位于第一位置时,将推动部50从释放位置切换至推动位置后,再将推动部50从第一位置施力动作至第二位置,借此将滤芯组件200从基座100上取下。Further, when the pushing portion 50 is in the release position, it does not rotate together with the force receiving member 3. The pushing portion 50 rotates together with the force receiving member 3 in the pushing position. The user can apply the pushing portion 50 from the first position to the second position after the pushing member 50 is switched from the releasing position to the pushing position when the force receiving member 3 is in the first position, thereby moving the filter element assembly 200 from the first position. The base 100 is removed.
在本实施例中,推动部50通过径向移动在推动位置和释放位置之间切换。其中,推动部50位于释放位置的内径大于位于推动位置的内径。也即,推动部50位于释放位置时推动部50与滤芯组件200之间的径向间隙宽度大于推动部50位于推动位置时推动部50与滤芯组件200之间的径向间隙宽度。从而,在滤芯组件200插入到基座100时,推动部50位于释放位置的情况下,无论受力件3位于第一位置抑或第二位置,甚至第一位置和第二位置之间的任意位置均不会影响滤芯组件200插入基座100直至被锁定机构锁定。In the present embodiment, the pushing portion 50 is switched between the push position and the release position by the radial movement. Wherein, the inner diameter of the pushing portion 50 at the releasing position is larger than the inner diameter of the pushing portion. That is, the radial gap width between the pushing portion 50 and the cartridge assembly 200 when the pushing portion 50 is in the release position is greater than the radial gap width between the pushing portion 50 and the cartridge assembly 200 when the pushing portion 50 is in the pushing position. Thus, when the cartridge assembly 200 is inserted into the base 100, the pusher 50 is in the release position, regardless of whether the force member 3 is in the first position or the second position, or even anywhere between the first position and the second position. Neither affects the insertion of the cartridge assembly 200 into the base 100 until it is locked by the locking mechanism.
推动部50安装于把手的两端。其中,推动部50可转动地安装于枢转轴9上。推动部50位于推动位置时,所述受力件3能带动所述推动部50围绕一转动轴线转动。所述 推动部50能沿所述转动轴线移动以在所述推动位置和所述释放位置之间切换。The pushing portion 50 is attached to both ends of the handle. The pushing portion 50 is rotatably mounted on the pivot shaft 9. When the pushing portion 50 is in the pushing position, the force receiving member 3 can drive the pushing portion 50 to rotate about a rotation axis. The pusher 50 is movable along the axis of rotation to switch between the push position and the release position.
在一个可行的实施例中,推动部50具有插入部54,把手具有套设于枢转轴9上的被插入部55(如图30、图31所示的环套),被插入部55上可以设有插入孔,插入部54可以为能够插入所述插入孔的插入凸起。推动部50位于释放位置时,插入部54沿枢转轴9向外运动,从被插入部55的插入孔中移出,如此,把手和推动部50之间无法实现转动联动,推动部50不跟随把手转动。沿径向向内推动推动部50,将推动部50的插入部54插入被插入部55中,把手和推动部50实现联动,把手可以带动推动部50转动。如此,再将把手将第一位置转动至第二位置,将锁定机构解锁,取下滤芯组件200。In a possible embodiment, the pushing portion 50 has an insertion portion 54 having a inserted portion 55 (such as a loop sleeve as shown in FIGS. 30 and 31) sleeved on the pivot shaft 9, and the inserted portion 55 can be An insertion hole is provided, and the insertion portion 54 may be an insertion protrusion that can be inserted into the insertion hole. When the pushing portion 50 is in the releasing position, the insertion portion 54 moves outward along the pivot shaft 9 and is removed from the insertion hole of the inserted portion 55. Thus, the rotation linkage between the handle and the pushing portion 50 cannot be achieved, and the pushing portion 50 does not follow the handle. Turn. The pushing portion 50 is pushed radially inward, and the insertion portion 54 of the pushing portion 50 is inserted into the inserted portion 55, and the handle and the pushing portion 50 are interlocked, and the handle can drive the pushing portion 50 to rotate. In this manner, the handle is rotated to the second position, the locking mechanism is unlocked, and the filter cartridge assembly 200 is removed.
为简化用户操作,该滤芯组件更换结构还可以设有向所述推动部50施加朝向所述释放位置移动的弹性作用力的弹性件70。该弹性件70包括套设于枢转轴9上的弹簧。通过弹性件70可以保证推动部50在无需将滤芯组件200解锁时处于释放位置,避免滤芯组件200的误解锁。In order to simplify the user's operation, the cartridge assembly replacing structure may further be provided with an elastic member 70 that applies an elastic force to the pushing portion 50 to move toward the release position. The elastic member 70 includes a spring that is sleeved on the pivot shaft 9. The elastic member 70 can ensure that the pushing portion 50 is in the release position when the filter element assembly 200 is not required to be unlocked, thereby avoiding the erroneous unlocking of the filter element assembly 200.
参阅图1至图31。本发明实施方式中还提供一种净水器,包括:如上任一实施例或实施方式所述的滤芯组件更换结构。具体的,该净水器中可以具有多个滤芯组件200。滤芯组件更换结构的基座100可以形成净水器外壳,当然,上述支撑筒体300也可以为净水器外壳的一部分。See Figure 1 through Figure 31. A water purifier is further provided in the embodiment of the present invention, comprising: the filter element assembly replacing structure according to any one of the embodiments or the embodiments. Specifically, the water purifier may have a plurality of filter cartridge assemblies 200. The base 100 of the cartridge assembly replacement structure may form a water purifier housing. Of course, the support cylinder 300 may also be part of the water purifier housing.
在其他实施例中,净水器外壳设有多个基座100,多个基座100可以为一体结构,每个基座100对应安装一个滤芯组件200。净水器外壳上设有多个容纳槽;每个容纳槽对应通向一个基座100的插入孔15。多个滤芯组件200可以一一对应安装于容纳槽中,并插入在相应的基座100上。In other embodiments, the water purifier housing is provided with a plurality of bases 100, and the plurality of bases 100 may be a unitary structure, and each of the bases 100 is correspondingly mounted with a filter element assembly 200. The water purifier housing is provided with a plurality of receiving slots; each receiving slot corresponds to an insertion hole 15 leading to a base 100. The plurality of filter cartridge assemblies 200 can be mounted in the receiving slots in one-to-one correspondence and inserted into the corresponding bases 100.
为了能够提高滤芯承装机构更换的便捷性,在本申请中提出了一种滤芯壳体安装机构,图32为本发明实施例中滤芯壳体安装机构处于安装前的结构示意图,如图32所示,滤芯壳体安装机构可以包括:固定机构1,固定机构1包括固定座11、设置在固定座11上并能相对固定座11相转动的转动件12,转动件12上具有第一卡合部121;滤芯承装机构2,滤芯承装机构2具有与第一卡合部121相匹配的第二卡合部21,滤芯承装机构2的第二卡合部21能够装入至转动件12的第一卡合部121中。In order to improve the convenience of replacement of the filter-carrying mechanism, a filter cartridge mounting mechanism is proposed in the present application. FIG. 32 is a schematic structural view of the filter cartridge mounting mechanism before installation according to the embodiment of the present invention, as shown in FIG. The filter housing mounting mechanism may include a fixing mechanism 1 including a fixing base 11 , a rotating member 12 disposed on the fixing base 11 and rotatable relative to the fixing base 11 , and the rotating member 12 having the first engaging portion Portion 121; cartridge loading mechanism 2, the cartridge receiving mechanism 2 has a second engaging portion 21 that matches the first engaging portion 121, and the second engaging portion 21 of the cartridge receiving mechanism 2 can be loaded into the rotating member In the first engaging portion 121 of 12.
本申请中的滤芯壳体安装机构在固定座11上设置了能够相对固定座11相转动的转动件12,当需要安装滤芯承装机构2时,将具有滤芯的滤芯承装机构2的第二卡合部21 装入转动件12的第一卡合部121中,第二卡合部21与第一卡合部121两者相卡合,再转动滤芯承装机构2便可以使滤芯承装机构2带动转动件12转动,从而让滤芯承装机构2转动至预设的工作的位置。当需要更换滤芯承装机构2时,将滤芯承装机构2反方向转动,滤芯承装机构2带动转动件12转动,从而让滤芯承装机构2转动至第一卡合部121与第二卡合部21能分离的位置,再将滤芯承装机构2的第二卡合部21从转动件12的第一卡合部121上脱离,如此便完成了滤芯承装机构2的拆卸操作,最后重复安装滤芯承装机构2的过程,便可以将新的滤芯承装机构2安装入固定机构1。The filter cartridge mounting mechanism in the present application is provided with a rotating member 12 on the fixing base 11 which is rotatable relative to the fixed seat 11. When the filter receiving mechanism 2 needs to be installed, the second filter cartridge receiving mechanism 2 having the filter element is provided. The engaging portion 21 is inserted into the first engaging portion 121 of the rotating member 12, the second engaging portion 21 is engaged with the first engaging portion 121, and the filter receiving mechanism 2 is rotated to enable the filter element to be loaded. The mechanism 2 drives the rotating member 12 to rotate, thereby rotating the filter receiving mechanism 2 to a preset working position. When the filter-carrying mechanism 2 needs to be replaced, the filter-carrying mechanism 2 is rotated in the opposite direction, and the filter-carrying mechanism 2 drives the rotating member 12 to rotate, so that the filter-carrying mechanism 2 is rotated to the first engaging portion 121 and the second card. The position where the joint portion 21 can be separated, and then the second engaging portion 21 of the filter element receiving mechanism 2 is detached from the first engaging portion 121 of the rotating member 12, thus completing the disassembling operation of the filter element receiving mechanism 2, and finally By repeating the process of installing the filter-carrying mechanism 2, the new filter-carrying mechanism 2 can be mounted in the fixing mechanism 1.
本申请中的滤芯壳体安装机构通过本身能够发生转动的转动件12从而实现了滤芯承装机构2与固定座11之间的相对转动,因此,当滤芯承装机构2安装时,用户只将滤芯承装机构2的第二卡合部21安装至转动件12的第一卡合部121中便可,随后滤芯承装机构2自然能够在自重和转动件12的作用下与固定座11发生相对转动。与现有的其它可拆卸的滤芯壳体22安装机构相比,用户在安装时不需要将滤芯承装机构2准确的安装至固定座11上的滑动轨道中,从而使滤芯承装机构2随着滑动轨道而转动。The filter cartridge mounting mechanism in the present application realizes the relative rotation between the cartridge receiving mechanism 2 and the fixing base 11 by the rotating member 12 which can rotate itself. Therefore, when the cartridge receiving mechanism 2 is installed, the user only The second engaging portion 21 of the filter-carrying mechanism 2 can be mounted in the first engaging portion 121 of the rotating member 12, and then the filter-carrying mechanism 2 can naturally occur with the fixed seat 11 under the action of the self-weight and the rotating member 12. Relative rotation. Compared with other existing detachable filter cartridge housing 22 mounting mechanisms, the user does not need to accurately mount the filter cartridge mounting mechanism 2 into the sliding rail on the fixed seat 11 during installation, so that the cartridge loading mechanism 2 Rotate by sliding the track.
为了能够更好的理解本申请中的滤芯壳体安装机构,下面将对其做进一步解释和说明。如图32所示,滤芯壳体安装机构可以包括:固定机构1和滤芯承装机构2。其中,固定机构1用于装载滤芯承装机构2,滤芯承装机构2可以包括固定座11、设置在固定座11上并能相对固定座11相转动的转动件12。固定座11可以包括本体114和连接在本体114上的限位件115,转动件12设置在本体114上,限位件115用于抵住转动件12以对转动件12进行限位,从而防止转动件12脱离固定座11,同时又能够使得转动件12能够在固定座11上转动。在转动件12上开设有第一卡合部121,第一卡合部121用于与滤芯承装机构2的第二卡合部21相卡合,从而使得转动件12和滤芯承装机构2能够发生传动。In order to better understand the cartridge housing mounting mechanism of the present application, it will be further explained and explained below. As shown in FIG. 32, the cartridge housing mounting mechanism may include a fixing mechanism 1 and a cartridge receiving mechanism 2. The fixing mechanism 1 is used for loading the filter-carrying mechanism 2, and the filter-carrying mechanism 2 may include a fixing base 11, a rotating member 12 disposed on the fixing base 11 and rotatable relative to the fixed seat 11. The fixing base 11 can include a body 114 and a limiting member 115 connected to the body 114. The rotating member 12 is disposed on the body 114, and the limiting member 115 is used for resisting the rotating member 12 to limit the rotating member 12, thereby preventing The rotating member 12 is disengaged from the fixed seat 11 while being able to rotate the rotating member 12 on the fixed seat 11. A first engaging portion 121 is formed on the rotating member 12, and the first engaging portion 121 is engaged with the second engaging portion 21 of the filter receiving mechanism 2, so that the rotating member 12 and the filter receiving mechanism 2 are The transmission can take place.
如图32所示,滤芯承装机构2上可以具有与第一卡合部121相匹配的第二卡合部21,滤芯承装机构2的第二卡合部21能够装入至转动件12的第一卡合部121中。在一种实施方式中,如图32所示,滤芯承装机构2可以包括:用于承装滤芯的壳体22和设置在壳体22上的转动机构23,转动机构23与壳体22共同形成第二卡合部21。转动机构23与壳体22形成的第二卡合部21能与第一卡合部121相卡合,并且能与第一卡合部121绕固定座11发生相对转动。在另一种实施方式中,滤芯承装机构2可以包括:用于承装滤芯的壳体22和设置在壳体22上的转动机构23,转动机构23单独形成第二卡合部21,壳体22则可以通过插接或其它连接方式与转动机构23连接在一起以实现两者之 间的固定,不会轻易分离,如此,转动机构23上形成的第二卡合部21便能够与第一卡合部121绕固定座11发生相对转动。在又一种实施方式中,滤芯承装机构2可以包括:用于承装滤芯的壳体22和设置在壳体22上的转动机构23,壳体22上单独形成第二卡合部21,转动机构23则通过插接或其它连接方式与壳体22连接在一起以实现两者之间的固定,如此,壳体22上形成的第二卡合部21便能够与第一卡合部121绕固定座11发生相对转动。在上述两者实施方式中,由于转动机构23与壳体22连接在固定连接在一起,在其中一个部件转动时,能够带动另外一个部件也发生转动。As shown in FIG. 32, the cartridge receiving mechanism 2 may have a second engaging portion 21 matching the first engaging portion 121, and the second engaging portion 21 of the cartridge receiving mechanism 2 can be loaded into the rotating member 12. In the first engaging portion 121. In one embodiment, as shown in FIG. 32, the cartridge receiving mechanism 2 may include a housing 22 for receiving the filter cartridge and a rotating mechanism 23 disposed on the housing 22, and the rotating mechanism 23 is shared with the housing 22. The second engaging portion 21 is formed. The second engaging portion 21 formed by the rotating mechanism 23 and the housing 22 can be engaged with the first engaging portion 121 and can rotate relative to the first engaging portion 121 around the fixed seat 11. In another embodiment, the cartridge receiving mechanism 2 may include: a housing 22 for receiving the filter cartridge and a rotating mechanism 23 disposed on the housing 22, the rotating mechanism 23 separately forming the second engaging portion 21, the shell The body 22 can be connected to the rotating mechanism 23 by plugging or other connection to achieve the fixation between the two, and can not be easily separated. Thus, the second engaging portion 21 formed on the rotating mechanism 23 can be combined with the second engaging portion 21 A latching portion 121 is relatively rotated about the fixed base 11. In still another embodiment, the cartridge receiving mechanism 2 may include: a housing 22 for receiving the filter cartridge and a rotating mechanism 23 disposed on the housing 22, and the second engaging portion 21 is separately formed on the housing 22, The rotating mechanism 23 is connected to the housing 22 by plugging or other connection to achieve the fixing therebetween. Thus, the second engaging portion 21 formed on the housing 22 can be coupled to the first engaging portion 121. Relative rotation occurs around the mount 11. In both of the above embodiments, since the rotating mechanism 23 is fixedly coupled to the housing 22, when one of the components is rotated, the other member can be rotated.
如图32所示,固定座11上具有安装转动件12的容纳部13,该容纳部13可以形成在固定座11的本体114上,也可以形成在固定座11的限位件115上。在其它可行的方式中,固定座11的本体114和限位件115可以共同形成该容纳部13。转动件12设置在容纳部13中,当滤芯承装机构2安装在固定座11中时,由于转动件12的外部轮廓大致呈圆形,因此转动件12能够滤芯承装机构2的重量分散至转动件12下部固定座11的容纳部13的侧壁上,如此,可以避免固定座11某一处因集中受力承受整个滤芯承装机构2的重量而导致开裂或破损。该容纳部13上具有缺口131,第二卡合部21能通过缺口131从转动件12的第一卡合部121内移出或插入转动件12的第一卡合部121,以使固定机构1与滤芯承装机构2相分离或安装在一起。As shown in FIG. 32, the fixing base 11 has a receiving portion 13 on which the rotating member 12 is mounted. The receiving portion 13 may be formed on the body 114 of the fixing base 11 or may be formed on the limiting member 115 of the fixing base 11. In other possible manners, the body 114 of the fixing seat 11 and the limiting member 115 can jointly form the receiving portion 13. The rotating member 12 is disposed in the accommodating portion 13. When the cartridge receiving mechanism 2 is mounted in the fixing base 11, since the outer contour of the rotating member 12 is substantially circular, the rotating member 12 can disperse the weight of the filter receiving mechanism 2 to The lower portion of the accommodating portion 13 of the lower fixing base 11 of the rotating member 12 is configured to prevent cracking or breakage of a portion of the fixing base 11 due to the concentrated force from receiving the weight of the entire filter-carrying mechanism 2. The receiving portion 13 has a notch 131. The second engaging portion 21 can be removed from the first engaging portion 121 of the rotating member 12 or inserted into the first engaging portion 121 of the rotating member 12 through the notch 131, so that the fixing mechanism 1 is fixed. Separated from or installed with the filter holder mechanism 2.
在一种优选的实施方式中,第一卡合部121可以沿直线方向延伸,第二卡合部21则也沿直线方向延伸,如此,滤芯承装机构2的第二卡合部21沿直线方向插入至转动件12的第一卡合部121中。由于滤芯承装机构2中具有滤芯以及水,其重量较大,在用户拆卸和安装滤芯承装机构2的过程中较为费力,在本实施方式中,用户可以直接将滤芯承装机构2的第二卡合部21沿直线方向插入或拔出转动件12的第一卡合部121,如此,大幅简化了滤芯承装机构2安装或拆卸过程,提升了用户拆卸和安装滤芯承装机构2的便捷性。第一卡合部121可以为滑槽,第二卡合部21卡入滑槽时,如此,在转动机构23转动下,第二卡合部21通过滑槽能带动转动件12旋转。In a preferred embodiment, the first engaging portion 121 can extend in a straight line direction, and the second engaging portion 21 also extends in a linear direction. Thus, the second engaging portion 21 of the cartridge receiving mechanism 2 is along a straight line. The direction is inserted into the first engaging portion 121 of the rotating member 12. Since the filter-carrying mechanism 2 has a filter element and water, the weight thereof is relatively large, and the user is laborious in the process of disassembling and installing the filter-carrying mechanism 2, in the embodiment, the user can directly adopt the filter-carrying mechanism 2 The second engaging portion 21 inserts or pulls out the first engaging portion 121 of the rotating member 12 in a linear direction, thereby greatly simplifying the installation or disassembly process of the filter receiving mechanism 2, and improving the user's disassembly and installation of the filter receiving mechanism 2. Convenience. The first engaging portion 121 can be a sliding slot. When the second engaging portion 21 is engaged with the sliding slot, the second engaging portion 21 can rotate the rotating member 12 through the sliding slot when the rotating mechanism 23 rotates.
在一种更为优选的实施方式中,滤芯承装机构2的第二卡合部21可以沿水平方向插入或拔出转动件12的第一卡合部121。通过上述方式,用户在安装或拆卸滤芯承装机构2的过程中可以更为轻松的将滤芯承装机构2沿水平方向装入固定机构1或从固定机构1中取出,在此过程中,用户不需要上提或下降滤芯承装机构2,更不需要考虑上提或下降滤芯承装机构2的角度。In a more preferred embodiment, the second engaging portion 21 of the cartridge receiving mechanism 2 can insert or pull out the first engaging portion 121 of the rotating member 12 in the horizontal direction. In the above manner, the user can more easily insert or remove the filter-carrying mechanism 2 in the horizontal direction from the fixing mechanism 1 during the process of installing or removing the filter-carrying mechanism 2, in the process, the user It is not necessary to lift or lower the filter receiving mechanism 2, and it is not necessary to consider the angle of lifting or lowering the filter receiving mechanism 2.
图33为本发明实施例中滤芯壳体安装机构处于第一位置时的示意图,图34为本发 明实施例中滤芯壳体安装机构处于第二位置时的示意图,如图33和图34所示,滤芯壳体安装机构至少具有两种位置,如图32所示,当滤芯承装机构2相对固定机构1转动至第一位置时,第一卡合部121朝向缺口131,第二卡合部21能够插入第一卡合部121内。如图34所示,当滤芯承装机构2相对固定机构1转动至第二位置时,第一卡合部121偏离缺口131,滤芯承装机构2安装在固定机构1上,滤芯承装机构2无法与固定机构1相脱离。33 is a schematic view of the cartridge housing mounting mechanism in a first position according to an embodiment of the present invention, and FIG. 34 is a schematic view showing the cartridge housing mounting mechanism in a second position according to an embodiment of the present invention, as shown in FIGS. 33 and 34. The filter housing mounting mechanism has at least two positions. As shown in FIG. 32, when the cartridge receiving mechanism 2 is rotated to the first position relative to the fixing mechanism 1, the first engaging portion 121 faces the notch 131, and the second engaging portion 21 can be inserted into the first engaging portion 121. As shown in FIG. 34, when the filter-carrying mechanism 2 is rotated to the second position relative to the fixing mechanism 1, the first engaging portion 121 is offset from the notch 131, and the filter-carrying mechanism 2 is mounted on the fixing mechanism 1, and the filter-carrying mechanism 2 Cannot be separated from the fixed mechanism 1.
如图32所示,固定座11上还具有限位部113,部分转动件12位于限位部113中,从而使得转动件12在预设范围内转动。例如,当滤芯承装机构2相对固定机构1转动至第一位置时,其中限位部113的上端对转动件12进行限位,抵住转动件12的一侧,防止其进一步转动,从而使得转动件12保持在第一位置。当滤芯承装机构2相对固定机构1转动至第二位置时,限位部113的下端对转动件12进行限位,抵住转动件12的另一侧,防止其进一步转动,从而使得转动件12保持在第二位置。As shown in FIG. 32, the fixing base 11 further has a limiting portion 113. The partial rotating member 12 is located in the limiting portion 113, so that the rotating member 12 rotates within a preset range. For example, when the cartridge receiving mechanism 2 is rotated relative to the fixing mechanism 1 to the first position, the upper end of the limiting portion 113 limits the rotating member 12 against the side of the rotating member 12 to prevent further rotation thereof, thereby The rotating member 12 is held in the first position. When the filter-carrying mechanism 2 is rotated relative to the fixing mechanism 1 to the second position, the lower end of the limiting portion 113 limits the rotating member 12 against the other side of the rotating member 12 to prevent further rotation thereof, thereby causing the rotating member 12 remains in the second position.
如图32所示,限位件115上具有第三导向部1151,第三导向部1151能抵住第二卡合部21,以使第二卡合部21滑入第一卡合部121。在本实施方式中,在滤芯承装机构2安装入固定机构1或从固定机构1中取出时,滤芯承装机构2的第二卡合部21可以与限位件115上的第三导向部1151相抵,在第三导向部1151的导向作用下,滤芯承装机构2可以抵着第三导向部1151直接滑入转动件12的第一卡合部121中,或直接从转动件12的第一卡合部121中沿着第三导向部1151滑出限位件115。由于限位件115上的第三导向部1151可以向上支撑住滤芯承装机构2,一方面可以便于滤芯承装机构2装入和取出,另外一方面其承受了滤芯承装机构2的一部分重量,从而减轻了用户的握持滤芯承装机构2所需花费的力气。As shown in FIG. 32, the limiting member 115 has a third guiding portion 1151. The third guiding portion 1151 can abut the second engaging portion 21 to slide the second engaging portion 21 into the first engaging portion 121. In the present embodiment, when the cartridge receiving mechanism 2 is attached to or removed from the fixing mechanism 1 , the second engaging portion 21 of the cartridge receiving mechanism 2 and the third guiding portion on the limiting member 115 can be used. 1151 is abutted, under the guiding action of the third guiding portion 1151, the filter-carrying mechanism 2 can directly slide into the first engaging portion 121 of the rotating member 12 against the third guiding portion 1151, or directly from the rotating member 12 The stopper 115 is slid out along the third guiding portion 1151 in the one engaging portion 121. Since the third guiding portion 1151 on the limiting member 115 can support the filter-carrying mechanism 2 upward, on the one hand, the filter-carrying mechanism 2 can be easily loaded and unloaded, and on the other hand, it bears a part of the weight of the filter-carrying mechanism 2. Thereby, the effort required by the user to hold the filter cartridge mechanism 2 is alleviated.
如图32、图34所示,固定座11上具有水路接口112,滤芯壳体22安装机构还包括:能插入水路接口112的接头件24,当滤芯承装机构2相对固定机构1由第一位置转动至第二位置的过程中,接头件24逐渐压紧水路接口112。滤芯承装机构2安装入固定机构1的过程中,在接头件24插入水路接口112的同时,滤芯承装机构2的第二卡合部21安装入至转动件12的第一卡合部121中。As shown in FIG. 32 and FIG. 34, the fixing base 11 has a waterway interface 112. The cartridge housing 22 mounting mechanism further includes: a connector member 24 that can be inserted into the waterway interface 112. When the cartridge receiving mechanism 2 is opposite to the fixing mechanism 1 by the first During the rotation of the position to the second position, the joint member 24 gradually compresses the water passage interface 112. During the process of installing the filter-carrying mechanism 2 into the fixing mechanism 1, the second engaging portion 21 of the cartridge receiving mechanism 2 is mounted to the first engaging portion 121 of the rotating member 12 while the joint member 24 is inserted into the water passage 112. in.
具体而言,如图32所示,固定座11上可以具有第一导向部111,第二卡合部21的一端能与第一导向部111相抵并沿第一导向部111滑动,当滤芯承装机构2相对于固定机构1在第一位置和第二位置的切换过程中,第二卡合部21沿着第一导向部111滑动以使滤芯承装机构2与固定机构1之间在水平方向上的间距发生改变,从而使接头件24逐 渐压紧水路接口112。在一种实施方式中,第二卡合部21上可以具有使滤芯承装机构2与固定机构1之间在水平方向上的间距发生改变的第二导向部211。在另一种实施方式中,第一导向部111可以呈弧状,在第二位置时第二导向部211抵触第一导向部111处的位置距离转动件12中心的距离小于在第一位置时第二导向部211抵触第一导向部111处的位置距离转动件12中心的距离。通过上述方式,有效保证了在第二位置时接头件24与水路接口112之间密封性,防止两者之间出现漏水情况的发生。Specifically, as shown in FIG. 32, the fixing base 11 may have a first guiding portion 111. One end of the second engaging portion 21 can abut against the first guiding portion 111 and slide along the first guiding portion 111. During the switching of the loading mechanism 2 relative to the fixing mechanism 1 in the first position and the second position, the second engaging portion 21 slides along the first guiding portion 111 to make the level between the cartridge receiving mechanism 2 and the fixing mechanism 1 horizontal. The spacing in the direction changes so that the joint member 24 gradually compresses the water passage interface 112. In an embodiment, the second engaging portion 21 may have a second guiding portion 211 that changes the spacing between the cartridge receiving mechanism 2 and the fixing mechanism 1 in the horizontal direction. In another embodiment, the first guiding portion 111 may have an arc shape. When the second guiding portion 211 abuts the position of the first guiding portion 111 in the second position, the distance from the center of the rotating member 12 is smaller than that in the first position. The two guiding portions 211 abut against the distance from the center of the rotating member 12 at the position of the first guiding portion 111. In the above manner, the sealing property between the joint member 24 and the water passage interface 112 in the second position is effectively ensured, and the occurrence of water leakage between the two is prevented.
如图32所示,固定座11上还可以具有第四导向部116,滤芯承装机构2上具有能与第四导向部116相抵的第五导向部221,当滤芯承装机构2相对于固定机构1在第二位置切换到第一位置时,第五导向部221沿着第四导向部116滑动以使滤芯承装机构2远离固定机构1,从而使接头件24逐渐从水路接口112中拔出。第四导向部116可以包括固定座11上朝斜向下的侧壁,第五导向部221可以包括壳体22的一个或多个上端面,当滤芯承装机构2相对于固定机构1在第二位置切换到第一位置时,固定座11上朝斜向下的侧壁抵住壳体22的上端面,从而使得壳体22的上端面沿着固定座11上朝斜向下的侧壁滑动,滤芯承装机构2远离固定机构1,接头件24从水路接口112中拔出。As shown in FIG. 32, the fixing base 11 may further have a fourth guiding portion 116. The filter receiving mechanism 2 has a fifth guiding portion 221 which can abut against the fourth guiding portion 116. When the filter receiving mechanism 2 is fixed relative to the fixed portion When the mechanism 1 is switched to the first position in the second position, the fifth guiding portion 221 slides along the fourth guiding portion 116 to move the cartridge receiving mechanism 2 away from the fixing mechanism 1, thereby gradually pulling the joint member 24 from the waterway interface 112. Out. The fourth guiding portion 116 may include a side wall that is inclined downward toward the fixing seat 11 , and the fifth guiding portion 221 may include one or more upper end surfaces of the housing 22 when the cartridge receiving mechanism 2 is opposite to the fixing mechanism 1 When the two positions are switched to the first position, the obliquely downward side wall of the fixing seat 11 abuts against the upper end surface of the housing 22, so that the upper end surface of the housing 22 faces the obliquely downward side wall along the fixing base 11. Sliding, the cartridge receiving mechanism 2 is away from the fixing mechanism 1, and the joint member 24 is pulled out from the waterway interface 112.
图35为本发明实施例中滤芯承装机构2的爆炸示意图,如图35所示,接头件24连接在转动机构23上,转动机构23可以包括第一部分和第二部分,接头件24被第一部分和第二部分夹设在中间,并且接头件24的一侧插入第一部分,接头件24的另一侧插入第二部分,如此转动机构23能绕接头件24发生转动。在接头件24内具有第一流道单元241,第一流道单元241中可以包括相独立的纯水水路、原水水路和废水水路。当然的,在采用其它类型的滤芯时,第一流道单元241中的水路个数可以根据选择的滤芯类型进行相应的调整,其可以包括一个或多个进水水路以及一个或多个出水水路,在本申请中并不对第一流道单元的形式做任何限定。转动机构23内具有能与第一流道单元241相连通的第二流道单元231。第二流道单元231中的水路与第一流道单元241中的水路相匹配,第二流道单元231中的水路可以设置在第一部分中,也可以设置在第二部分中,第二流道单元231中的水路还可以部分设置在第一部分中,部分设置在第二部分中。35 is a schematic exploded view of the cartridge receiving mechanism 2 in the embodiment of the present invention. As shown in FIG. 35, the joint member 24 is coupled to the rotating mechanism 23. The rotating mechanism 23 may include a first portion and a second portion, and the joint member 24 is A portion and the second portion are interposed therebetween, and one side of the joint member 24 is inserted into the first portion, and the other side of the joint member 24 is inserted into the second portion, so that the rotating mechanism 23 can be rotated about the joint member 24. There is a first flow path unit 241 in the joint member 24, and the first flow path unit 241 may include independent pure water channels, raw water channels and wastewater water paths. Of course, when other types of filter elements are used, the number of water paths in the first flow path unit 241 can be adjusted according to the selected filter element type, which may include one or more inlet water channels and one or more outlet water channels. The form of the first flow path unit is not limited in this application. The rotation mechanism 23 has a second flow path unit 231 that can communicate with the first flow path unit 241. The water path in the second flow path unit 231 matches the water path in the first flow path unit 241, and the water path in the second flow path unit 231 may be disposed in the first portion or in the second portion, the second flow path The water path in unit 231 may also be partially disposed in the first portion and partially disposed in the second portion.
图36为本发明实施例中接头件的结构示意图,如图36所示,接头件24的两侧上具有切断部242,转动机构23在转动过程中与切断部242之间产生移动。图37为本发明实施例中接头件24的第一流道单元241与转动机构23的第二流道单元231处于断开状态的剖面示意图,如图37所示,当滤芯承装机构2相对固定机构1转动至第一位置时,切断部242使得第一流道单元241与第二流道单元231之间处于断开状态;当滤芯承装 机构2相对固定机构1转动至第二位置时,切断部242使得第一流道单元241与第二流道单元231之间处于连通状态。36 is a schematic structural view of a joint member according to an embodiment of the present invention. As shown in FIG. 36, the joint member 24 has a cut portion 242 on both sides thereof, and the rotation mechanism 23 moves between the cutter portion 242 and the cutter portion 242 during the rotation. 37 is a schematic cross-sectional view showing the first flow path unit 241 of the joint member 24 and the second flow path unit 231 of the rotating mechanism 23 in an open state, as shown in FIG. 37, when the filter core receiving mechanism 2 is relatively fixed. When the mechanism 1 is rotated to the first position, the cutting portion 242 is in an open state between the first flow path unit 241 and the second flow path unit 231; when the filter holding mechanism 2 is rotated relative to the fixed mechanism 1 to the second position, the cutting is performed The portion 242 is in a communication state between the first flow path unit 241 and the second flow path unit 231.
在本实施方式中,如图37所示,转动机构23中具有通孔232,通孔232的数量可以根据水路的数量所决定,其中,小的通孔232可以穿设在大的通孔232中,如此,可以在转动件12中形成多条水路。当接头件24连接在转动机构23中时,转动机构23的通孔232与接头件24上的第一流道单元241相连通。接头件24的左侧和右侧可以具有多个切断部242,切断部242可以根据水路的数量所决定。切断部242伸入通孔232中,第二流道单元231中的水路分别与不同的通孔232相连,当滤芯承装机构2相对固定机构1转动至第一位置时,切断部242将第二流道单元231的端部封堵,以使第二流道单元231中的水路与不同的通孔232之间断开,进而使得第一流道单元241与第二流道单元231之间断开;当滤芯承装机构2相对固定机构1转动至第二位置时,切断部242偏离第二流道单元231的端部以使第一流道单元241与第二流道单元231之间连通。当用户需要安装滤芯承装机构2时,将滤芯承装机构2装入固定机构1并转动至第二位置,在转动的过程中,接头件24内的第一流道单元241与转动机构23的第二流道单元231会自动由断开状态转变成连通状态,从而使得滤芯承装机构2能够接收原水和排出相应的纯水和废水。当用户需要取出滤芯承装机构2时,将滤芯承装机构2转动至第一位置并取出,在转动的过程中,接头件24内的第一流道单元241与转动机构23的第二流道单元231会自动由连通状态转变成断开状态,从而防止滤芯承装机构2中的水泄露或溢出。In the present embodiment, as shown in FIG. 37, the rotating mechanism 23 has a through hole 232. The number of the through holes 232 can be determined according to the number of water passages, wherein the small through holes 232 can be bored in the large through holes 232. In this way, a plurality of water paths can be formed in the rotating member 12. When the joint member 24 is coupled in the rotating mechanism 23, the through hole 232 of the rotating mechanism 23 communicates with the first flow path unit 241 on the joint member 24. The left and right sides of the joint member 24 may have a plurality of cut portions 242, which may be determined according to the number of water passages. The cutting portion 242 extends into the through hole 232, and the water passages in the second flow path unit 231 are respectively connected to the different through holes 232. When the filter receiving mechanism 2 is rotated to the first position relative to the fixing mechanism 1, the cutting portion 242 will be The ends of the second flow path unit 231 are blocked to disconnect the water path in the second flow path unit 231 from the different through holes 232, thereby breaking the first flow path unit 241 and the second flow path unit 231; When the cartridge holding mechanism 2 is rotated to the second position with respect to the fixing mechanism 1, the cutting portion 242 is offset from the end of the second flow path unit 231 to communicate between the first flow path unit 241 and the second flow path unit 231. When the user needs to install the filter-carrying mechanism 2, the filter-carrying mechanism 2 is loaded into the fixing mechanism 1 and rotated to the second position. During the rotation, the first flow path unit 241 and the rotating mechanism 23 in the joint member 24 are rotated. The second flow path unit 231 automatically changes from the disconnected state to the connected state, thereby enabling the cartridge receiving mechanism 2 to receive the raw water and discharge the corresponding pure water and waste water. When the user needs to take out the filter-carrying mechanism 2, the filter-carrying mechanism 2 is rotated to the first position and taken out, and during the rotation, the first flow path unit 241 in the joint member 24 and the second flow path of the rotating mechanism 23 are rotated. The unit 231 is automatically switched from the connected state to the open state, thereby preventing water leakage or overflow in the filter receiving mechanism 2.
在本申请中还提出了一种净水装置,净水装置包括如上述任一滤芯壳体安装机构。该净水装置通过本身能够发生转动的转动件12从而实现了滤芯承装机构2与固定座11之间的相对转动,因此,当滤芯承装机构2安装时,用户只将滤芯承装机构2的第二卡合部21安装至转动件12的第一卡合部121中便可,随后滤芯承装机构2自然能够在自重和转动件12的作用下与固定座11发生相对转动。与现有的净水装置相比,用户在安装滤芯承装机构2时不需要将滤芯承装机构2准确的安装至固定座11上的滑动轨道中,从而使滤芯承装机构2随着滑动轨道而转动。Also provided in the present application is a water purifying device comprising any of the above described filter cartridge housing mounting mechanisms. The water purifying device realizes the relative rotation between the filter core receiving mechanism 2 and the fixing base 11 by the rotating member 12 which can rotate by itself. Therefore, when the filter core receiving mechanism 2 is installed, the user only installs the filter cartridge receiving mechanism 2 The second engaging portion 21 can be mounted in the first engaging portion 121 of the rotating member 12, and then the filter receiving mechanism 2 can naturally rotate relative to the fixed seat 11 under the action of the self-weight and the rotating member 12. Compared with the existing water purifying device, the user does not need to accurately mount the filter-carrying mechanism 2 to the sliding rail on the fixed seat 11 when installing the filter-carrying mechanism 2, so that the filter-carrying mechanism 2 slides. Rotate by the track.
本文引用的任何数字值都包括从下限值到上限值之间以一个单位递增的下值和上值的所有值,在任何下值和任何更高值之间存在至少两个单位的间隔即可。举例来说,如果阐述了一个部件的数量或过程变量(例如温度、压力、时间等)的值是从1到90,优 选从20到80,更优选从30到70,则目的是为了说明该说明书中也明确地列举了诸如15到85、22到68、43到51、30到32等值。对于小于1的值,适当地认为一个单位是0.0001、0.001、0.01、0.1。这些仅仅是想要明确表达的示例,可以认为在最低值和最高值之间列举的数值的所有可能组合都是以类似方式在该说明书明确地阐述了的。Any numerical value recited herein includes all values of the lower and upper values in increments of one unit from the lower limit to the upper limit, and at least two unit intervals between any lower value and any higher value. Just fine. For example, if the number of components or process variables (eg, temperature, pressure, time, etc.) is stated to be from 1 to 90, preferably from 20 to 80, more preferably from 30 to 70, the purpose is to illustrate Values such as 15 to 85, 22 to 68, 43 to 51, 30 to 32 are also explicitly recited in the specification. For values less than 1, one unit is appropriately considered to be 0.0001, 0.001, 0.01, 0.1. These are merely examples that are intended to be expressly stated, and all possible combinations of numerical values recited between the minimum and maximum values are considered to be explicitly described in this specification in a similar manner.
除非另有说明,所有范围都包括端点以及端点之间的所有数字。与范围一起使用的“大约”或“近似”适合于该范围的两个端点。因而,“大约20到30”旨在覆盖“大约20到大约30”,至少包括指明的端点。All ranges include endpoints and all numbers between the endpoints unless otherwise indicated. "About" or "approximately" as used with a range applies to both endpoints of the range. Thus, "about 20 to 30" is intended to cover "about 20 to about 30", including at least the indicated endpoints.
披露的所有文章和参考资料,包括专利申请和出版物,出于各种目的通过援引结合于此。描述组合的术语“基本由…构成”应该包括所确定的元件、成分、部件或步骤以及实质上没有影响该组合的基本新颖特征的其他元件、成分、部件或步骤。使用术语“包含”或“包括”来描述这里的元件、成分、部件或步骤的组合也想到了基本由这些元件、成分、部件或步骤构成的实施方式。这里通过使用术语“可以”,旨在说明“可以”包括的所描述的任何属性都是可选的。All articles and references disclosed, including patent applications and publications, are hereby incorporated by reference for all purposes. The term "consisting essentially of" to describe a combination shall include the identified elements, components, components or steps and other elements, components, components or steps that do not substantially affect the basic novel features of the combination. The use of the terms "comprising" or "comprises" or "comprises" or "comprises" or "comprising" or "comprising" or "comprising" or "comprises" By using the term "may" herein, it is intended to mean that any of the attributes described as "may" are optional.
多个元件、成分、部件或步骤能够由单个集成元件、成分、部件或步骤来提供。另选地,单个集成元件、成分、部件或步骤可以被分成分离的多个元件、成分、部件或步骤。用来描述元件、成分、部件或步骤的公开“一”或“一个”并不说为了排除其他的元件、成分、部件或步骤。Multiple elements, components, components or steps can be provided by a single integrated element, component, component or step. Alternatively, a single integrated component, component, component or step may be divided into separate components, components, components or steps. The use of the <RTI ID=0.0> </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt;
应该理解,以上描述是为了进行图示说明而不是为了进行限制。通过阅读上述描述,在所提供的示例之外的许多实施方式和许多应用对本领域技术人员来说都将是显而易见的。因此,本教导的范围不应该参照上述描述来确定,而是应该参照所附权利要求以及这些权利要求所拥有的等价物的全部范围来确定。出于全面之目的,所有文章和参考包括专利申请和公告的公开都通过参考结合在本文中。在前述权利要求中省略这里公开的主题的任何方面并不是为了放弃该主体内容,也不应该认为发明人没有将该主题考虑为所公开的发明主题的一部分。It is to be understood that the above description is for the purpose of illustration and not limitation. Many embodiments and many applications beyond the examples provided will be apparent to those skilled in the art from this description. Therefore, the scope of the present invention should be determined by the scope of the appended claims The disclosures of all articles and references, including patent applications and publications, are hereby incorporated by reference in its entirety for all purposes. Any aspect of the subject matter disclosed herein is omitted in the preceding claims, and is not intended to be a disclaimer of the subject matter, and the inventor is not considered to be a part of the disclosed inventive subject matter.
Claims (74)
- 一种滤芯组件更换结构,其特征在于,包括:A filter element assembly replacement structure, comprising:滤芯组件;所述滤芯组件上设有能被外部施力的操作部;a filter element assembly; the filter element assembly is provided with an operation portion capable of being externally biased;固定不动的基座,其用于安装所述滤芯组件;a stationary base for mounting the filter element assembly;锁定机构;所述锁定机构具有使所述滤芯组件装配在所述基座上的锁定位置、以及允许所述滤芯组件脱离所述基座的释放位置;所述操作部被外部施力时使所述锁定机构动作至所述释放位置。a locking mechanism having a locking position for fitting the cartridge assembly to the base and a release position for allowing the cartridge assembly to be disengaged from the base; the operating portion is biased by an external force The locking mechanism is actuated to the release position.
- 如权利要求1所述的滤芯组件更换结构,其特征在于:还包括解锁机构;所述解锁机构能在所述滤芯组件插入所述基座时打开所述锁定机构。The cartridge assembly replacement structure of claim 1 further comprising an unlocking mechanism; said unlocking mechanism being operable to open said locking mechanism when said cartridge assembly is inserted into said base.
- 如权利要求2所述的滤芯组件更换结构,其特征在于:还设有与所述操作部配合的打开机构;所述操作部被外部施力时通过驱动所述打开机构动作,The cartridge assembly replacing structure according to claim 2, further comprising: an opening mechanism that cooperates with the operating portion; and the operating portion is actuated by driving the opening mechanism when externally biased所述锁定机构由所述锁定位置动作至所述释放位置。The locking mechanism is actuated from the locked position to the released position.
- 如权利要求3所述的滤芯组件更换结构,其特征在于:所述滤芯组件具有用于插入所述基座的插入端、以及背对所述插入端的操作端;所述操作部位于所述操作端上。A cartridge assembly replacement structure according to claim 3, wherein said cartridge assembly has an insertion end for inserting said base, and an operation end facing away from said insertion end; said operation portion being located in said operation On the end.
- 如权利要求4所述的滤芯组件更换结构,其特征在于:所述锁定机构包括设置于所述基座上能将所述插入端卡紧的卡合组件;所述卡合组件包括沿周向分布的至少一个卡紧件;A cartridge assembly replacement structure according to claim 4, wherein said locking mechanism comprises a snap-fit assembly disposed on said base to clamp said insertion end; said snap-fit assembly including circumferential direction Distributing at least one clamping member;其中,所述卡合组件从所述锁定位置至所述释放位置时,至少一个所述卡紧件沿径向向外运动;所述卡合组件从所述释放位置至所述锁定位置时,至少一个所述卡紧件沿径向向内运动。Wherein the at least one of the clamping members moves radially outwardly from the locked position to the released position; when the engaging assembly is from the release position to the locked position, At least one of the clamping members moves radially inward.
- 如权利要求5所述的滤芯组件更换结构,其特征在于:所述插入端设有与所述卡合组件配合的阻挡部;所述阻挡部在所述卡合组件位于锁定位置时被所述卡合组件阻挡,以使所述滤芯组件无法脱离所述基座。A cartridge assembly replacement structure according to claim 5, wherein said insertion end is provided with a blocking portion that cooperates with said engaging assembly; said blocking portion is said when said engaging member is in a locked position The snap assembly is blocked such that the cartridge assembly cannot be disengaged from the base.
- 如权利要求5或6任一所述的滤芯组件更换结构,其特征在于:所述操作部被外 部施力时使所述打开机构转动,所述打开机构通过转动驱动所述锁定机构由所述锁定位置动作至所述释放位置。A cartridge assembly replacement structure according to any one of claims 5 or 6, wherein said opening portion is rotated when said operating portion is externally biased, and said opening mechanism drives said locking mechanism by rotation The locked position acts to the release position.
- 如权利要求7所述的滤芯组件更换结构,其特征在于:所述打开机构包括所述滤芯组件上沿径向凸出的支撑部;所述操作部能使所述滤芯组件带动所述支撑部绕与所述滤芯组件长度方向平行的轴线转动;所述支撑部通过转动将所述卡合组件由所述锁定位置沿径向撑开至所述释放位置。A cartridge assembly replacement structure according to claim 7, wherein said opening mechanism includes a support portion radially protruding from said filter element assembly; said operation portion enables said filter element assembly to drive said support portion Rotating about an axis parallel to the longitudinal direction of the cartridge assembly; the support portion radially expands the snap assembly from the locked position to the release position by rotation.
- 如权利要求8所述的滤芯组件更换结构,其特征在于:所述插入端沿周向均匀分布有两个或更多个所述支撑部;所述滤芯组件被所述锁定机构锁定时所述支撑部与所述卡合组件位于同一轴向位置上。A cartridge assembly replacement structure according to claim 8, wherein said insertion end is evenly distributed with two or more said support portions in a circumferential direction; said filter element assembly being locked by said locking mechanism The support portion is located at the same axial position as the snap assembly.
- 如权利要求9所述的滤芯组件更换结构,其特征在于:所述卡合组件形成有卡合口;所述卡合口的边缘具有与所述轴线距离不同的第一部位和第二部位;所述第一部位距离所述轴线的距离大于所述第二部位距离所述轴线的距离;所述支撑部沿径向与所述第一部位对齐时不撑开所述卡合组件至所述释放位置;所述支撑部转动至沿径向与所述第二部位对齐时将所述卡合组件撑开至所述释放位置。The cartridge assembly replacement structure according to claim 9, wherein the engaging component is formed with an engaging opening; the edge of the engaging opening has a first portion and a second portion different in distance from the axis; a distance of the first portion from the axis is greater than a distance of the second portion from the axis; the support portion does not open the snap assembly to the release position when aligned with the first portion in a radial direction The support portion is rotated to align the snap assembly to the release position when aligned with the second portion in the radial direction.
- 如权利要求10所述的滤芯组件更换结构,其特征在于:所述第一部位距离所述轴线的距离为L1,所述第二部位距离所述轴线的距离为L2,所述支撑部的外缘至所述轴线的距离为L3;其中,L1≥L3>L2。The cartridge assembly replacement structure according to claim 10, wherein a distance between the first portion and the axis is L1, and a distance from the second portion to the axis is L2, outside the support portion. The distance from the edge to the axis is L3; wherein L1 ≥ L3 > L2.
- 如权利要求11所述的滤芯组件更换结构,其特征在于:相邻两个所述卡紧件的对接位置形成所述第一部位;所述卡紧件的中间位置形成所述第二部位。The cartridge assembly replacement structure according to claim 11, wherein the abutting position of two adjacent clamping members forms the first portion; and the intermediate position of the clamping member forms the second portion.
- 如权利要求10所述的滤芯组件更换结构,其特征在于:所述基座还设有推出结构;在所述滤芯组件带动所述支撑部由第一部位转动至第二部位时,所述推出结构将所述滤芯组件沿所述滤芯组件脱离所述基座方向推出。The cartridge assembly replacement structure according to claim 10, wherein the base is further provided with a pushing structure; and the pushing out is performed when the filter assembly drives the supporting portion to rotate from the first portion to the second portion A structure pushes the cartridge assembly out of the cartridge assembly in a direction away from the base.
- 如权利要求13所述的滤芯组件更换结构,其特征在于:所述基座具有供所述滤芯组件插入的插入口;所述推出结构包括设置于所述基座具有插入口一侧的弧形凸起。A cartridge assembly replacement structure according to claim 13, wherein said base has an insertion opening into which said filter element assembly is inserted; said push-out structure includes an arc disposed on a side of said base having an insertion opening Raised.
- 如权利要求8所述的滤芯组件更换结构,其特征在于:所述操作部包括固定于所述操作端的旋钮;通过所述旋钮带动所述滤芯组件转动。The cartridge assembly replacement structure according to claim 8, wherein the operating portion includes a knob fixed to the operating end; and the filter assembly is rotated by the knob.
- 如权利要求10所述的滤芯组件更换结构,其特征在于:所述基座还设有导向结构;所述导向结构能在所述滤芯组件向所述基座插入时将所述支撑部导向至所述第一部位。A cartridge assembly replacement structure according to claim 10, wherein said base is further provided with a guiding structure; said guiding structure is capable of guiding said support portion when said filter element assembly is inserted into said base The first portion.
- 如权利要求16所述的滤芯组件更换结构,其特征在于:所述导向结构包括第一导轨;所述滤芯组件上设有沿所述第一导轨运动的导向凸起;所述滤芯组件向所述基座插入时,所述导向凸起沿所述第一导轨运动并且所述支撑部被导向至所述第一部位。A cartridge assembly replacement structure according to claim 16, wherein said guide structure comprises a first guide rail; said filter cartridge assembly is provided with a guide projection along said first guide rail; said filter cartridge assembly When the base is inserted, the guide protrusion moves along the first rail and the support portion is guided to the first portion.
- 如权利要求17所述的滤芯组件更换结构,其特征在于:所述导向结构还包括用于所述导向凸起运动的第二导轨、以及连通导轨;所述连通导轨将所述第一导轨与所述第二导轨连通;A cartridge assembly replacement structure according to claim 17, wherein said guide structure further comprises a second rail for moving said guide projection, and a communication rail; said communication rail connecting said first rail with The second rail is in communication;所述导向凸起沿所述连通导轨运动时,所述支撑部将所述卡合组件由锁定位置撑开至所述释放位置;所述滤芯组件脱离所述基座运动时,所述导向凸起沿所述连通导轨运动。When the guiding protrusion moves along the communication rail, the supporting portion expands the engaging assembly from the locking position to the releasing position; when the filter element assembly moves away from the base, the guiding protrusion Starting to move along the communication rail.
- 如权利要求18所述的滤芯组件更换结构,其特征在于:所述第二导轨沿所述滤芯组件长度方向直线延伸;所述第一导轨沿所述滤芯组件长度方向弯曲延伸;所述连通导轨沿周向延伸。The cartridge assembly replacement structure according to claim 18, wherein said second rail extends linearly along a length direction of said cartridge assembly; said first rail extends in a longitudinal direction of said cartridge assembly; said communication rail Extends in the circumferential direction.
- 如权利要求18或19所述的滤芯组件更换结构,其特征在于:一个所述第一导轨、一个所述第二导轨、以及一个将该第一导轨和该第二导轨连通导轨形成一个导轨组;所述导向结构包括两个导轨组、以及第一进出口、第二进出口;所述第一进出口、第二进出口用于所述导向凸起进出所述导轨组;A cartridge assembly replacement structure according to claim 18 or 19, wherein: said first rail, said second rail, and a guide rail formed by connecting said first rail and said second rail communication rail The guiding structure includes two rail sets, and a first inlet and outlet, a second inlet and outlet; the first inlet and outlet, the second inlet and outlet are used for the guiding protrusions to enter and exit the rail group;其中,一个导轨组中的第一导轨和另一导轨组中的第二导轨与所述第一进出口相连通;该导轨组中的第二导轨与另一导轨组中的第一导轨均与所述第二进出口相通。Wherein the first rail in one rail group and the second rail in the other rail group are in communication with the first inlet and outlet; the second rail in the rail group and the first rail in the other rail group are both The second inlet and outlet are in communication.
- 如权利要求5或6所述的滤芯组件更换结构,其特征在于:所述操作部被外部 施力时使所述打开机构沿所述滤芯组件长度方向运动,所述打开机构通过沿所述滤芯组件长度方向运动使所述锁定机构由所述锁定位置动作至所述释放位置。The filter element assembly replacing structure according to claim 5 or 6, wherein the operating portion is moved by an external force to move the opening mechanism along the longitudinal direction of the filter element assembly, and the opening mechanism passes along the filter element Movement of the lengthwise direction of the assembly causes the locking mechanism to act from the locked position to the released position.
- 如权利要求21所述的滤芯组件更换结构,其特征在于:所述操作部设有可转动地受力件;The cartridge assembly replacement structure according to claim 21, wherein the operating portion is provided with a rotatably biased member;所述打开机构包括与所述受力件相配合的撑开件;所述撑开件能在所述受力件被施力转动时沿所述滤芯组件插入所述基座方向运动,并将所述卡合组件由锁定位置撑开至释放位置。The opening mechanism includes a distracting member that cooperates with the force receiving member; the distracting member is movable in a direction in which the filter element assembly is inserted into the base when the force receiving member is biased, and The snap assembly is extended from the locked position to the released position.
- 如权利要求22所述的滤芯组件更换结构,其特征在于:所述受力件被施力转动时还能使所述滤芯组件远离所述基座方向运动。The cartridge assembly replacement structure according to claim 22, wherein said force receiving member is further movable in a direction away from said base when said biasing member is rotated.
- 如权利要求22所述的滤芯组件更换结构,其特征在于:所述撑开件靠近所述基座的一端设有撑开部;所述卡合组件设有能与所述撑开部相配合的作用部;The filter element assembly replacing structure according to claim 22, wherein: the extending member is provided with a distracting portion near one end of the base; and the engaging assembly is configured to cooperate with the distracting portion Role department;所述撑开部和/或所述作用部设有第二斜面;所述第二斜面使得所述撑开件沿所述滤芯组件插入所述基座方向运动时将所述卡合组件由锁定位置沿径向撑开至释放位置。The expansion portion and/or the action portion is provided with a second inclined surface; the second inclined surface causes the expansion member to lock the engagement assembly when the filter element assembly is inserted into the base direction The position is extended radially to the release position.
- 如权利要求22所述的滤芯组件更换结构,其特征在于:所述受力件围绕一垂直于所述滤芯组件长度方向的转动轴线转动;所述受力件沿其转动方向具有第一转动位置和第二转动位置;A filter element assembly replacing structure according to claim 22, wherein said force receiving member rotates about a rotation axis perpendicular to a longitudinal direction of said filter element assembly; said force receiving member has a first rotational position along a rotational direction thereof And a second rotational position;所述受力件由第一转动位置向所述第二转动位置转动时推动所述撑开件沿所述滤芯组件插入所述基座方向运动。The force receiving member pushes the expansion member to move along the direction in which the filter element assembly is inserted into the base when the force receiving member rotates from the first rotational position to the second rotational position.
- 如权利要求25所述的滤芯组件更换结构,其特征在于:所述受力件包括把手;所述把手由第一转动位置向所述第二转动位置转动时在所述滤芯组件远离所述插入端的一端逐渐竖起。A cartridge assembly replacement structure according to claim 25, wherein said force receiving member comprises a handle; said filter cartridge assembly being remote from said insertion when said handle is rotated from said first rotational position to said second rotational position One end of the end is gradually erected.
- 如权利要求25所述的滤芯组件更换结构,其特征在于:所述受力件具有绕所述转动轴线一同转动的推动面;在所述受力件由第一转动位置向所述第二转动位置转动时,所述推动面与所述撑开件的接触部位与所述转动轴线的距离逐渐增大。A filter element assembly replacing structure according to claim 25, wherein said force receiving member has a pushing surface that rotates together with said rotation axis; and said force receiving member is rotated from said first rotational position to said second rotation position When the position is rotated, the distance between the contact portion of the pushing surface and the distracting member and the axis of rotation gradually increases.
- 如权利要求25所述的滤芯组件更换结构,其特征在于:所述打开机构还包括设置于所述操作端的推动件;所述受力件由第一转动位置向所述第二转动位置转动时使所述推动件沿径向向外移动;所述推动件沿径向向外移动时使所述撑开件沿所述滤芯组件插入所述基座方向移动。A cartridge assembly replacement structure according to claim 25, wherein said opening mechanism further comprises a pushing member provided at said operating end; and said force receiving member is rotated from said first rotational position to said second rotational position Moving the pusher member radially outward; moving the pusher member radially outwardly to move the expander member in the direction in which the filter cartridge assembly is inserted into the base.
- 如权利要求28所述的滤芯组件更换结构,其特征在于:所述推动件沿径向的外端设有第三斜面;所述推动件沿径向向外移动时通过所述第三斜面推动所述撑开件沿所述滤芯组件插入所述基座方向移动。A cartridge assembly replacement structure according to claim 28, wherein said pusher member is provided with a third inclined surface at a radially outer end; said pusher member is urged by said third inclined surface when moving radially outward The expansion member moves in a direction in which the filter element assembly is inserted into the base.
- 如权利要求24所述的滤芯组件更换结构,其特征在于:所述撑开件件包括安装于所述基座上且可套设于滤芯组件外的筒体结构;所述撑开部设置于所述筒体结构靠近所述基座一端。The filter element assembly replacement structure according to claim 24, wherein the expansion member comprises a cylindrical structure mounted on the base and sleeved outside the filter element assembly; The barrel structure is adjacent one end of the base.
- 如权利要求1所述的滤芯组件更换结构,其特征在于:所述基座上还设有支撑筒体;所述支撑筒体在所述滤芯组件安装于所述基座时套设于所述滤芯组件外。The cartridge assembly replacement structure according to claim 1, wherein the base is further provided with a support cylinder; the support cylinder is sleeved on the filter cartridge assembly when the filter assembly is mounted on the base Outside the filter element assembly.
- 一种滤芯组件更换结构,其特征在于,包括:滤芯组件、用于安装所述滤芯组件的基座、用于将所述滤芯组件锁定在所述基座上的锁定机构、用于打开所述锁定机构的解锁件;其中,A cartridge assembly replacement structure, comprising: a cartridge assembly, a base for mounting the cartridge assembly, a locking mechanism for locking the cartridge assembly to the base, for opening the An unlocking member of the locking mechanism; wherein所述滤芯组件设有用于接受用户施力的受力件;所述受力件通过动作具有第一位置和第二位置;The filter element assembly is provided with a force receiving member for receiving a force applied by a user; the force receiving member has a first position and a second position by the action;所述受力件由第一位置向第二位置动作时能够推动所述解锁件打开所述锁定机构;所述滤芯组件在所述受力件位于第二位置的状态下能向所述基座插入直至被所述锁定机构锁定。When the force receiving member is moved from the first position to the second position, the unlocking member can be pushed to open the locking mechanism; and the filter element assembly can be moved to the base when the force receiving member is in the second position Insert until locked by the locking mechanism.
- 根据权利要求32所述的滤芯组件更换结构,其特征在于,所述受力件设有推动部;所述解锁件设有与所述推动部相配合的承接面;所述推动部由第一位置向第二位置动作时与所述承接面相接触,从而推动所述解锁件将所述锁定机构打开;The cartridge assembly replacement structure according to claim 32, wherein the force receiving member is provided with a pushing portion; the unlocking member is provided with a receiving surface that cooperates with the pushing portion; the pushing portion is first Positioning with the receiving surface when the position is moved to the second position, thereby pushing the unlocking member to open the locking mechanism;所述受力件在位于第二位置的情况下,所述滤芯组件向所述基座插入时至少部分所述推动部能从所述承接面的一侧移动至所述承接面的另一侧。Where the force receiving member is in the second position, at least part of the pushing portion can be moved from one side of the receiving surface to the other side of the receiving surface when the filter element assembly is inserted into the base .
- 根据权利要求33所述的滤芯组件更换结构,其特征在于,所述受力件在位于第二位置的情况下,所述滤芯组件向所述基座插入时至少部分所述推动部能伸入所述解锁件和所述滤芯组件之间。The filter element assembly replacing structure according to claim 33, wherein at least a portion of the pushing portion can be inserted when the filter element assembly is inserted into the base when the force receiving member is in the second position Between the unlocking member and the filter element assembly.
- 根据权利要求34所述的滤芯组件更换结构,其特征在于,所述受力件由第二位置向第一位置转动时,部分所述推动部能从所述解锁件和所述滤芯组件之间移出。The cartridge assembly replacement structure according to claim 34, wherein a portion of the pushing portion is movable between the unlocking member and the filter cartridge assembly when the force receiving member is rotated from the second position to the first position Move out.
- 根据权利要求34或35所述的滤芯组件更换结构,其特征在于,还包括切入结构;所述切入结构用于所述受力件由第一位置向第二位置转动时使推动部切入与所述承接面相接触。The cartridge assembly replacement structure according to claim 34 or 35, further comprising a plunge structure; wherein the plunge structure is configured to cut the push portion when the force receiving member is rotated from the first position to the second position The bearing surfaces are in contact.
- 根据权利要求36所述的滤芯组件更换结构,其特征在于,所述切入结构包括设置于所述解锁件远离所述基座的一端的阻挡壁;所述承接面位于所述阻挡壁的外侧;所述阻挡壁沿周向的一端为外径不超过所述推动部的内径的切入端。The filter element assembly replacing structure according to claim 36, wherein the cutting structure comprises a blocking wall disposed at an end of the unlocking member away from the base; the receiving surface is located outside the blocking wall; One end of the barrier wall in the circumferential direction is a cut end whose outer diameter does not exceed the inner diameter of the pushing portion.
- 根据权利要求37所述的滤芯组件更换结构,其特征在于,所述阻挡壁还具有间隔部;至少部分所述推动部能伸入所述间隔部和所述滤芯组件之间;所述切入端向所述间隔部延伸时内径逐渐增大。A cartridge assembly replacement structure according to claim 37, wherein said barrier wall further has a spacer; at least a portion of said pushing portion can extend between said spacer and said filter element; said incision end The inner diameter gradually increases as it extends toward the spacer.
- 根据权利要求38所述的滤芯组件更换结构,其特征在于,所述解锁件远离所述基座的一端设有弹性结构;所述弹性结构靠近所述受力件的一端能沿径向弹性动作;所述承接面和所述切入结构设置于所述弹性结构靠近受力件的一端。The cartridge assembly replacement structure according to claim 38, wherein an elastic structure is disposed at an end of the unlocking member away from the base; and the elastic structure is elastically movable in a radial direction near an end of the force receiving member. The receiving surface and the cutting structure are disposed at an end of the elastic structure adjacent to the force receiving member.
- 根据权利要求39所述的滤芯组件更换结构,其特征在于,所述解锁件包括安装于所述基座上且可套设于所述滤芯组件外的筒体;所述弹性结构包括设置于所述筒体上的卡板;所述卡板沿周向的两侧和所述筒体之间设有间隔间隙。The cartridge assembly replacement structure according to claim 39, wherein the unlocking member comprises a cylinder mounted on the base and sleeved outside the filter cartridge assembly; the elastic structure comprises a mounting body a card board on the cylinder; the card board is provided with a gap between the two sides in the circumferential direction and the cylinder body.
- 根据权利要求40所述的滤芯组件更换结构,其特征在于,所述卡板和所述筒体为一体成型。A cartridge assembly replacement structure according to claim 40, wherein said card plate and said barrel are integrally formed.
- 根据权利要求40所述的滤芯组件更换结构,其特征在于,至少部分所述卡板的 厚度大于所述筒体的壁厚。A cartridge assembly replacement structure according to claim 40, wherein at least a portion of said card has a thickness greater than a wall thickness of said barrel.
- 根据权利要求40所述的滤芯组件更换结构,其特征在于,所述卡板设有靠近所述基座的连接部和远离所述基座的承载部;所述连接部沿周向的宽度小于所述承载部沿周向的宽度。The filter element assembly replacing structure according to claim 40, wherein the card board is provided with a connecting portion adjacent to the base and a carrying portion remote from the base; the width of the connecting portion in the circumferential direction is smaller than The width of the bearing portion in the circumferential direction.
- 根据权利要求40-43任一所述的滤芯组件更换结构,其特征在于,所述受力件包括可转动地安装于所述滤芯组件上的把手;所述把手由第一位置向第二位置转动时逐渐竖起;A cartridge assembly replacement structure according to any one of claims 40 to 43 wherein said force receiving member includes a handle rotatably mounted to said cartridge assembly; said handle being from a first position to a second position Gradually erect when turning;所述把手的两端分别设有一个所述推动部,所述筒体上设有相对应的两个所述卡板。Each of the two ends of the handle is respectively provided with one pushing portion, and the cylinder is provided with two corresponding card plates.
- 根据权利要求36所述的滤芯组件更换结构,其特征在于,所述推动部包括设置于所述受力件上围绕一转动轴线转动的推动面;在所述受力件由第一位置向第二位置转动时,所述推动面与所述承接面的接触部位与所述转动轴线的距离逐渐增大。The filter element assembly replacing structure according to claim 36, wherein the pushing portion comprises a pushing surface disposed on the force receiving member about a rotation axis; and the force receiving member is moved from the first position to the first position When the two positions are rotated, the distance between the contact portion of the pushing surface and the receiving surface and the rotation axis gradually increases.
- 根据权利要求45所述的滤芯组件更换结构,其特征在于,至少部分所述推动部的径向厚度沿远离所述转动轴线方向逐渐减小。A cartridge assembly replacement structure according to claim 45, wherein at least a portion of said pushing portion has a radial thickness that gradually decreases in a direction away from said axis of rotation.
- 根据权利要求40所述的滤芯组件更换结构,其特征在于,还设有导向结构;所述导向结构用于所述推动部与所述间隔部沿所述滤芯组件方向相对齐。The cartridge assembly replacement structure according to claim 40, further comprising a guiding structure; wherein the guiding structure is adapted to be aligned with the spacing portion along the direction of the filter cartridge assembly.
- 根据权利要求47所述的滤芯组件更换结构,其特征在于,所述滤芯组件的侧壁上设有导向凸起;The cartridge assembly replacement structure according to claim 47, wherein the filter cartridge assembly is provided with a guide protrusion on a side wall thereof;所述导向结构包括设置于所述筒体内壁的导向面以及将所述筒体的筒壁贯通的导向通孔;所述导向面从远离所述基座的一端向靠近所述基座的一端螺旋延伸;所述导向面靠近所述基座的一端通入所述导向通孔;所述导向面用于承接所述导向凸起以将所述导向凸起导入所述导向通孔;所述导向通孔沿所述滤芯组件的长度方向延伸。The guiding structure includes a guiding surface disposed on the inner wall of the cylinder and a guiding through hole penetrating the cylindrical wall of the cylinder; the guiding surface is from an end away from the base toward an end close to the base a spiral extending; an end of the guiding surface adjacent to the base opens into the guiding through hole; the guiding surface is configured to receive the guiding protrusion to introduce the guiding protrusion into the guiding through hole; The guide through holes extend along the length direction of the filter element assembly.
- 根据权利要求48所述的滤芯组件更换结构,其特征在于,沿所述滤芯组件长度方向,所述承接面与所述导向面的下端的距离小于所述推动部在所述受力件位于第二位 置状态下与所述导向凸起的距离。The cartridge assembly replacement structure according to claim 48, wherein a distance between the receiving surface and a lower end of the guiding surface is smaller than a length of the pushing member at the pushing portion The distance from the guiding projection in the two position state.
- 根据权利要求48所述的滤芯组件更换结构,其特征在于,所述筒体内壁设有至少一个所述导向面,所述导向面螺旋延伸的角度为180度的整数倍。The cartridge assembly replacement structure according to claim 48, wherein the inner wall of the cylinder is provided with at least one of the guide faces, and the angle at which the guide faces are spirally extended is an integral multiple of 180 degrees.
- 根据权利要求33所述的滤芯组件更换结构,其特征在于,所述受力件设有用于推动所述解锁件的推动部;所述推动部具有可切换的推动位置和释放位置;所述推动部位于所述释放位置时,所述受力件与所述解锁件不发生干涉;所述推动部位于所述推动位置时,所述推动部能推动所述解锁件将所述锁定机构打开。A cartridge assembly replacement structure according to claim 33, wherein said force receiving member is provided with a pushing portion for pushing said unlocking member; said pushing portion has a switchable pushing position and a releasing position; said pushing When the portion is in the release position, the force receiving member does not interfere with the unlocking member; when the pushing portion is in the pushing position, the pushing portion can push the unlocking member to open the locking mechanism.
- 根据权利要求51所述的滤芯组件更换结构,其特征在于,所述受力件能带动所述推动部围绕一转动轴线转动;所述推动部能沿所述转动轴线移动以在所述推动位置和所述释放位置之间切换。The filter element assembly replacing structure according to claim 51, wherein said force receiving member is capable of rotating said pushing portion about an axis of rotation; said pushing portion being movable along said axis of rotation to be in said pushing position Switching between the release position and the release position.
- 根据权利要求52所述的滤芯组件更换结构,其特征在于,还设有向所述推动部施加朝向所述释放位置移动的弹性作用力的弹性件。The cartridge assembly replacing structure according to claim 52, further comprising an elastic member that applies an elastic force to the pushing portion to move toward the releasing position.
- 根据权利要求32所述的滤芯组件更换结构,其特征在于,在所述受力件位于第一位置和第二位置之间任意位置时,所述滤芯组件能向所述基座插入直至被所述锁定机构锁定。A cartridge assembly replacement structure according to claim 32, wherein said filter element assembly is insertable into said base until it is placed at any position between said first position and said second position The locking mechanism is locked.
- 一种净水器,其特征在于,包括:如权利要求1-54任一所述的滤芯组件更换结构。A water purifier, comprising: the filter element assembly replacing structure according to any one of claims 1-54.
- 一种滤芯壳体安装机构,其特征在于,所述滤芯壳体安装机构包括:A cartridge housing mounting mechanism, wherein the cartridge housing mounting mechanism comprises:固定机构,所述固定机构包括固定座、设置在所述固定座上并能相对所述固定座相转动的转动件,所述转动件上具有第一卡合部;a fixing mechanism, comprising: a fixing seat; a rotating member disposed on the fixing seat and rotatable relative to the fixing seat, the rotating member having a first engaging portion;滤芯承装机构,所述滤芯承装机构具有与所述第一卡合部相匹配的第二卡合部,所述滤芯承装机构的所述第二卡合部能够装入至所述转动件的第一卡合部中。a cartridge receiving mechanism having a second engaging portion matching the first engaging portion, the second engaging portion of the cartridge receiving mechanism being capable of being loaded into the rotation In the first engaging portion of the piece.
- 根据权利要求56所述的滤芯壳体安装机构,其特征在于,所述第一卡合部沿直 线方向延伸,所述滤芯承装机构的所述第二卡合部沿直线方向插入至所述转动件的第一卡合部中。The cartridge housing mounting mechanism according to claim 56, wherein the first engaging portion extends in a linear direction, and the second engaging portion of the cartridge receiving mechanism is inserted into the linear direction The first engaging portion of the rotating member.
- 根据权利要求56所述的滤芯壳体安装机构,其特征在于,所述滤芯承装机构包括:用于承装滤芯的壳体和设置在所述壳体上的转动机构,所述转动机构与所述壳体共同形成所述第二卡合部。The cartridge housing mounting mechanism according to claim 56, wherein the cartridge receiving mechanism comprises: a housing for receiving the filter cartridge; and a rotating mechanism disposed on the housing, the rotating mechanism and The housings collectively form the second engagement portion.
- 根据权利要求56或58所述的滤芯壳体安装机构,其特征在于,所述滤芯承装机构的所述第二卡合部沿水平方向插入或拔出所述转动件的第一卡合部。The cartridge housing mounting mechanism according to claim 56 or 58, wherein the second engaging portion of the cartridge receiving mechanism inserts or pulls out the first engaging portion of the rotating member in a horizontal direction .
- 根据权利要求56所述的滤芯壳体安装机构,其特征在于,所述固定座上具有安装所述转动件的容纳部,所述容纳部具有缺口,所述第二卡合部能通过所述缺口从所述转动件的所述第一卡合部内移出或插入所述转动件的所述第一卡合部,以使所述固定机构与所述滤芯承装机构相分离或安装在一起。The cartridge housing mounting mechanism according to claim 56, wherein the fixing base has a receiving portion on which the rotating member is mounted, the receiving portion has a notch, and the second engaging portion can pass the The notch is removed from the first engaging portion of the rotating member or inserted into the first engaging portion of the rotating member to separate or mount the fixing mechanism from the filter receiving mechanism.
- 根据权利要求60所述的滤芯壳体安装机构,其特征在于,所述滤芯壳体安装机构至少具有两种位置,当所述滤芯承装机构相对所述固定机构转动至第一位置时,所述第一卡合部朝向所述缺口,所述第二卡合部能够插入所述第一卡合部内;当所述滤芯承装机构相对所述固定机构转动至第二位置时,所述第一卡合部偏离所述缺口,所述滤芯承装机构安装在所述固定机构上。A cartridge housing mounting mechanism according to claim 60, wherein said cartridge housing mounting mechanism has at least two positions, when said cartridge receiving mechanism is rotated relative to said fixing mechanism to a first position, The first engaging portion faces the notch, the second engaging portion can be inserted into the first engaging portion; when the filter receiving mechanism is rotated to the second position relative to the fixing mechanism, the first A snap portion is offset from the notch, and the cartridge receiving mechanism is mounted on the fixing mechanism.
- 根据权利要求61所述的滤芯壳体安装机构,其特征在于,所述固定座上还具有第一导向部,所述第二卡合部的一端能与所述第一导向部相抵并沿所述第一导向部滑动,当所述滤芯承装机构相对于所述固定机构在第一位置和第二位置的切换过程中,所述第二卡合部沿着所述第一导向部滑动以使所述滤芯承装机构与所述固定机构之间在水平方向上的间距发生改变。The filter cartridge housing mounting mechanism according to claim 61, wherein the fixing base further has a first guiding portion, and one end of the second engaging portion can abut the first guiding portion and The first guiding portion slides, the second engaging portion slides along the first guiding portion during the switching of the filter receiving mechanism relative to the fixing mechanism in the first position and the second position The spacing between the filter holder mechanism and the fixing mechanism in the horizontal direction is changed.
- 根据权利要求62所述的滤芯壳体安装机构,其特征在于,所述第二卡合部上具有使所述滤芯承装机构与所述固定机构之间在水平方向上的间距发生改变的第二导向部。The cartridge housing mounting mechanism according to claim 62, wherein the second engaging portion has a first change in a horizontal direction between the cartridge receiving mechanism and the fixing mechanism Two guides.
- 根据权利要求63所述的滤芯壳体安装机构,其特征在于,所述第一导向部呈弧状,在第二位置时第二导向部抵触第一导向部处的位置距离转动件中心的距离小于在第一位置时第二导向部抵触第一导向部处的位置距离转动件中心的距离。The cartridge housing mounting mechanism according to claim 63, wherein the first guiding portion has an arc shape, and in the second position, the position of the second guiding portion against the first guiding portion is smaller than the distance from the center of the rotating member In the first position, the second guiding portion abuts the distance of the position at the first guiding portion from the center of the rotating member.
- 根据权利要求61所述的滤芯壳体安装机构,其特征在于,所述固定座上具有第四导向部,所述滤芯承装机构上具有能与所述第四导向部相抵的第五导向部,当所述滤芯承装机构相对于所述固定机构在第二位置切换到第一位置时,所述第五导向部沿着所述第四导向部滑动以使所述滤芯承装机构远离所述固定机构。The filter cartridge housing mounting mechanism according to claim 61, wherein the fixing base has a fourth guiding portion, and the filter receiving mechanism has a fifth guiding portion that can abut against the fourth guiding portion. When the filter-carrying mechanism is switched to the first position relative to the fixing mechanism at the second position, the fifth guiding portion slides along the fourth guiding portion to move the filter-carrying mechanism away from the Said the fixed mechanism.
- 根据权利要求61所述的滤芯壳体安装机构,其特征在于,所述固定座上具有水路接口,所述滤芯壳体安装机构还包括:能插入所述水路接口的接头件,当所述滤芯承装机构相对所述固定机构由第一位置转动至第二位置的过程中,所述接头件逐渐压紧所述水路接口。The cartridge housing mounting mechanism according to claim 61, wherein the fixing base has a waterway interface, and the cartridge housing mounting mechanism further comprises: a joint member insertable into the waterway interface, when the filter cartridge The joint member gradually presses the water passage interface during the rotation of the receiving mechanism relative to the fixing mechanism from the first position to the second position.
- 根据权利要求66所述的滤芯壳体安装机构,其特征在于,所述滤芯承装机构包括:用于承装滤芯的壳体和设置在所述壳体上的转动机构,所述接头件连接在所述转动机构上,所述转动机构能绕所述接头件发生转动,所述接头件内具有第一流道单元,所述转动机构具有能与所述第一流道单元相连通的第二流道单元。A cartridge housing mounting mechanism according to claim 66, wherein said cartridge receiving mechanism comprises: a housing for receiving the filter cartridge; and a rotating mechanism provided on said housing, said connector member being connected In the rotating mechanism, the rotating mechanism is rotatable about the joint member, the joint member has a first flow path unit therein, and the rotating mechanism has a second flow that can communicate with the first flow path unit Road unit.
- 根据权利要求67所述的滤芯壳体安装机构,其特征在于,所述接头件上具有切断部,所述转动机构在转动过程中与所述切断部之间产生移动,当所述滤芯承装机构相对所述固定机构转动至第一位置时,所述切断部使得所述第一流道单元与所述第二流道单元之间处于断开状态;当所述滤芯承装机构相对所述固定机构转动至第二位置时,所述切断部使得所述第一流道单元与所述第二流道单元之间处于连通状态。The cartridge housing mounting mechanism according to claim 67, wherein said joint member has a cutting portion, and said rotating mechanism moves between said cutting portion during rotation and said filter element is loaded When the mechanism is rotated to the first position relative to the fixing mechanism, the cutting portion is in an open state between the first flow path unit and the second flow path unit; when the filter receiving mechanism is opposite to the fixed The cutting portion is in a communication state between the first flow path unit and the second flow path unit when the mechanism is rotated to the second position.
- 根据权利要求68所述的滤芯壳体安装机构,其特征在于,所述转动机构中具有通孔,所述接头件的切断部伸入所述通孔中,所述第二流道单元与所述通孔相连,当所述滤芯承装机构相对所述固定机构转动至第一位置时,所述切断部将所述第二流道单元的端部封堵;当所述滤芯承装机构相对所述固定机构转动至第二位置时,所述切断部偏离所述第二流道单元的端部以使第一流道单元与所述第二流道单元之间连通。A cartridge housing mounting mechanism according to claim 68, wherein said rotating mechanism has a through hole therein, a cutting portion of said joint member projects into said through hole, said second flow path unit The through holes are connected, and when the filter receiving mechanism is rotated to the first position relative to the fixing mechanism, the cutting portion blocks the end of the second flow path unit; when the filter receiving mechanism is opposite When the fixing mechanism is rotated to the second position, the cutting portion is offset from the end of the second flow path unit to communicate between the first flow path unit and the second flow path unit.
- 根据权利要求58所述的滤芯壳体安装机构,其特征在于,所述第一卡合部为滑槽,所述第二卡合部卡入所述滑槽时,在所述转动机构转动下,所述第二卡合部能带动所述转动件旋转。The cartridge housing mounting mechanism according to claim 58, wherein the first engaging portion is a sliding slot, and when the second engaging portion is engaged in the sliding slot, the rotating mechanism rotates The second engaging portion can drive the rotating member to rotate.
- 根据权利要求56所述的滤芯壳体安装机构,其特征在于,所述固定座包括本体和连接在所述本体上的限位件,所述限位件用于抵住所述转动件。The cartridge housing mounting mechanism according to claim 56, wherein the fixing base comprises a body and a limiting member attached to the body, and the limiting member is for abutting against the rotating member.
- 根据权利要求71所述的滤芯壳体安装机构,其特征在于,所述限位件上具有第三导向部,所述第三导向部能抵住所述第二卡合部,以使所述第二卡合部滑入所述第一卡合部。The cartridge housing mounting mechanism according to claim 71, wherein the limiting member has a third guiding portion, and the third guiding portion can abut the second engaging portion to enable the The two engaging portions slide into the first engaging portion.
- 根据权利要求56所述的滤芯壳体安装机构,其特征在于,所述固定座上还具有限位部,部分所述转动件位于所述限位部中,从而使得所述转动件在预设范围内转动。The filter cartridge housing mounting mechanism according to claim 56, wherein the fixing base further has a limiting portion, and the rotating member is located in the limiting portion, so that the rotating member is preset Rotate within the range.
- 一种净水装置,其特征在于,所述净水装置包括如权利要求56至73中任一所述的滤芯壳体安装机构。A water purifying device, characterized in that the water purifying device comprises the cartridge housing mounting mechanism according to any one of claims 56 to 73.
Applications Claiming Priority (12)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820507587.9U CN208678507U (en) | 2018-04-10 | 2018-04-10 | Element kit replaces structure and its water purifier |
CN201810315636.3 | 2018-04-10 | ||
CN201820507587.9 | 2018-04-10 | ||
CN201810315636.3A CN110354559B (en) | 2018-04-10 | 2018-04-10 | Filter element assembly replacement structure and water purifier thereof |
CN201820618779.7U CN208678546U (en) | 2018-04-27 | 2018-04-27 | Filter element shell installing mechanism and purifier |
CN201820618779.7 | 2018-04-27 | ||
CN201810392749.3 | 2018-04-27 | ||
CN201810392749.3A CN110404322B (en) | 2018-04-27 | 2018-04-27 | Filter core shell mounting mechanism and water purifying device |
CN201910188354.6 | 2019-03-13 | ||
CN201910188354.6A CN111686500A (en) | 2019-03-13 | 2019-03-13 | Filter element assembly replacing structure and water purifier thereof |
CN201920319810.1 | 2019-03-13 | ||
CN201920319810.1U CN210964214U (en) | 2019-03-13 | 2019-03-13 | Filter element assembly replacing structure and water purifier thereof |
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WO2019196862A1 true WO2019196862A1 (en) | 2019-10-17 |
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Application Number | Title | Priority Date | Filing Date |
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PCT/CN2019/082042 WO2019196862A1 (en) | 2018-04-10 | 2019-04-10 | Filter core assembly replacement structure, filter core housing mounting mechanism, water filter, and water purifying device |
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WO (1) | WO2019196862A1 (en) |
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