CN216519762U - Integrated water diversion and outflow device - Google Patents

Abstract

The utility model discloses an integrated water distribution device, and belongs to the technical field of sanitary appliances. The method comprises the following steps: an integrated diverter outlet for directing water flow to a first outlet member and a second outlet member, respectively, comprising: a device body having an introduction flow passage for inflow of water, and a first flow passage for guiding water to a first water outlet member, and a second flow passage for guiding water to a second water outlet member; a first valve element for switching an open state and a closed state of the first flow passage; and a second valve core for switching the open state and the closed state of the second flow passage; wherein, the introduction flow channel has: a first water inlet passage communicated with the first flow passage; and a second water inlet passage communicated with the second flow passage; the first water inlet channel and the second water inlet channel are independent from each other. Separate water supply for the faucet or the cup washer can be realized. And the outlet water of the cup washer can have three outlet states of cold water, hot water and cold-hot mixed water.

Description

Integrated water diversion and outflow device

Technical Field

The utility model belongs to the technical field of sanitary wares, and particularly relates to an integrated water diversion and outflow device.

Background

At present, along with more and more attention paid to food sanitation, cups are more and more meticulously cleaned. In particular to the sanitary appliance industry, the cup washing device is more and more widely applied. There are also many patents relating to cup washers, such as patent No. 2018112269178, which specifically discloses the structure of a cup washer.

However, in practical use, the cup washing device is not used alone when cleaning is involved, and a water purifier faucet may be matched in part of application scenes. The existing water purifier is provided with a faucet and a cup washer which are separately provided with two pipelines; however, in practical use, once the two pipes are used in combination, the two pipes are separated, which increases the complexity of the pipes and increases the installation cost.

SUMMERY OF THE UTILITY MODEL

The object of the present invention is to provide an integrated tap-off water device capable of supplying two pipes simultaneously.

The purpose of the utility model is realized as follows: an integrated water diversion device for respectively guiding water flow to a first water outlet component and a second water outlet component, comprising:

a device body having an introduction flow passage for inflow of water, and a first flow passage for guiding water to a first water outlet member, and a second flow passage for guiding water to a second water outlet member;

a first valve element for switching an open state and a closed state of the first flow passage; and

a second valve element for switching an open state and a closed state of the second flow passage;

wherein the introduction flow path has:

a first water inlet passage communicating with the first flow passage; and

a second water inlet passage communicating with the second flow passage;

the first water inlet channel and the second water inlet channel are independent of each other.

Preferably, the inlet ends of the first water inlet channel and the second water inlet channel are both positioned on the same side of the introducing flow channel.

Preferably, the first water inlet passage has:

the starting pipe part is positioned at the head end of the first water inlet channel and is used for externally connecting a pipeline;

the staggered pipe part is positioned at the tail end of the first water inlet channel and communicated with the first flow channel; and the dislocation pipe parts are respectively arranged with the second water inlet channel from left to right or arranged inside and outside.

Preferably, the second water inlet passage has:

a cold water inlet passage communicating with the second valve spool, and

a hot water inlet passage communicated with the second valve core;

the second valve core controls the flow areas of the cold water inlet channel and the hot water inlet channel through rotation.

Preferably, the second valve spool passes through the cold water inlet passage and the hot water inlet passage simultaneously;

and, the second spool has:

a cold water control hole corresponding to the cold water inlet passage;

a hot water control hole corresponding to the hot water inlet passage;

wherein the cold water control hole and the hot water control hole are vertically arranged.

Preferably, one end of the second valve core is formed with a limit groove;

the lower end of the device body is formed with a limiting hole, a limiting part penetrates through the limiting hole, and at least part of the limiting part extends into the limiting groove and is used for limiting the rotating angle of the second valve core.

Preferably, the first water outlet member is a tap for a water purifier;

the second water outlet member is a cup washer.

Preferably, the cup washer has:

a tray having an outlet through which water flows out of the tray;

and the elastic water outlet device is provided with a plurality of spraying arms, and the spraying arms are used for spraying water in the second flow passage to the object to be cleaned.

Preferably, one end of the device body is provided with a cup washer mounting position, and the upper end of the mounting position is an inclined surface for allowing water to flow out through the outlet;

alternatively, the tray may have a sloped surface at its inner lower end to allow moisture to flow through the outlet.

Preferably, the tray is further provided with a fastener, and the fastener penetrates through the tray and the cup washer mounting position simultaneously.

Compared with the prior art, the utility model has the outstanding and beneficial technical effects that:

1. the utility model can independently manage the water outlet devices of the two water outlet components on one device, and can even provide cold water, hot water and cold and hot mixed water for a certain water outlet component. Particularly, the first water outlet component is provided as a faucet for a water purifier, and the second water outlet component is provided as a cup washer, so that independent water supply for the faucet or the cup washer can be realized. And the outlet water of the cup washer can have three outlet states of cold water, hot water and cold-hot mixed water.

2. The utility model has low requirement on water outlet components, can be suitable for various water outlet components, can be combined at will, and is more integrated and more convenient compared with the existing water outlet device.

3. The upper surface of the cup washer is provided with the inclined surface after being installed, and the inclined surface can discharge water from the outlet to prevent water accumulation.

4. The cup washer is connected with the device body through the fastening piece, so that the cup washer can be prevented from rotating.

Drawings

FIG. 1 is one of the integrated tap outlets of a cup washer and water purifier faucet;

FIG. 2 is a second embodiment of the faucet-mounted integral water diversion device for a cup washer and a water purifier;

FIG. 3 is a third embodiment of the integrated water diversion device for the faucet of the cup washing machine and the water purifier;

FIG. 4 is a perspective view of the present invention with the cup washer and the faucet for the water purifier hidden;

FIG. 5 is a bottom view of the device body;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;

FIG. 7 is a sectional view taken in the direction B-B in FIG. 5;

FIG. 8 is a perspective view of the second valve spool;

FIG. 9 is a schematic structural view of the second embodiment;

FIG. 10 is a perspective view of the hidden cup washer of FIG. 9 with its fittings;

FIG. 11 is a side view of the hidden cup washer of FIG. 9 with its fittings;

fig. 12 is a sectional view taken in the direction of C-C in fig. 11.

In the figure: 1-the device body; 2-a first valve core; 3-a second valve core; 4-a cup washer; 5-faucet for water purifier; 6-a limiting part; 7-sealing ring; 11-an introduction flow channel; 12-a first flow channel; 13-a second flow channel; 14-a limiting hole; 15-municipal interface; 17-a mounting location; 21-rotating the handle; 22-a cartridge body; 31-cold water control holes; 32-hot water control hole; 33-a limiting groove; 34-a ring groove; 41-a tray; 42-an outlet; 43-elastic water outlet device; 44-a spray arm;

111-a first water inlet channel; 112-a starting tube portion; 113-offset tube sections; 114-cold water inlet channel; 115-hot water inlet channel.

Detailed Description

The utility model is further described below in terms of specific examples.

In order to solve the technical problems mentioned in the background art, the utility model specifically provides a water outlet device which can respectively and independently manage two water outlet components on one device, and the water outlet device is particularly suitable for one water outlet component which can provide three states of cold water, hot water and cold and hot mixed water, and the other water outlet component is used for directly discharging water, and is particularly suitable for discharging water from a water purifier faucet. But can of course also be used for conventional taps as long as they do not require hot water.

The technical solution of the present invention will be specifically described by the structure of the different integrated water diversion devices.

[ EXAMPLES one ]

As shown in fig. 1, 2 and 3, fig. 1, 2 and 3 are all an integrated tap water device in which a cup washer 4 and a water purifier tap 5 are coupled. Fig. 1, 2 and 3 differ in the design of the faucet 5 for a water purifier.

As can be seen from the three figures, the integrated water diversion device in the embodiment has a device body 1. Meanwhile, referring to fig. 4, fig. 4 is a perspective view of the present embodiment with the cup washer and the faucet for the water purifier hidden. As can be seen from fig. 1 to 4, the apparatus body 1 is generally cylindrical and 7-shaped, and in practical use, is horizontally arranged.

As shown in fig. 1, 2 and 3, a first water outlet member, namely a faucet 5 for a water purifier, is connected to the right side of the device body 1 facing upward, and as can be seen from the above, the shape of the faucet 5 for a water purifier shown in fig. 1, 2 and 3 is different, so that the faucet can be matched according to actual application scenarios and user preferences. It is of course noted that in this embodiment, the first water outlet member may be other water outlet devices besides the water purifier tap 5, such as a conventional water tap and even a cup washer.

In addition, a municipal interface 15 for externally connecting a pipeline is arranged at a position downwards on the left side of the device body 1, the municipal interface 15 is used for externally connecting municipal tap water, and in the embodiment, hot and cold water is realized, so that the interface is connected with hot water in actual use.

Further, as shown in fig. 1, 2 and 3, a second water discharging member, that is, the cup washer 4 in this embodiment, is connected to the left upper end of the apparatus body 1. In this embodiment, the first water outlet member is a faucet 5 for a water purifier, and the second water outlet member is a cup washer 4, although other combinations are possible in practical use, and are described in other embodiments below.

Meanwhile, as can be seen from fig. 1, 2 and 3, a first valve spool 2 for switching the open state and the closed state of the first flow passage 12 is installed at the right side of the apparatus body 1. A second spool 3 for switching the open state and the closed state of the second flow passage 13 is installed on the left side of the apparatus body 1.

Therefore, the present embodiment is intended to achieve the following technical effects: the water flow is respectively guided to the first water outlet component and the second water outlet component through the integrated water diversion and outflow device, and then the switching of the water outflow state and the closing state of the first water outlet component and the second water outlet component is respectively and independently controlled by the first valve core 2 and the second valve core 3.

The specific implementation principle is as follows: as shown in fig. 4, the apparatus body 1 has an introduction flow passage 11 for inflow of water, a first flow passage 12 for guiding water to the first water outlet member, and a second flow passage 13 for guiding water to the second water outlet member.

Also, as can be seen from fig. 4, there are two hole sites at the installation positions corresponding to the first and second water outlet members, respectively. In practical use, the first water outlet member and the second water outlet member are installed on the two hole sites.

Referring to fig. 5, fig. 5 is a bottom view of the apparatus body 1, and the bottom of the apparatus body 1 can be seen.

As can be seen from fig. 5, the device body 1 has a plane at the end of the inlet channel 11 to block the inlet channel 11, and there are three holes in the plane, wherein the two larger holes are the hot water inlet channel 115 and the cold water inlet channel 114. For convenience of description, the hole located on the left side in fig. 5 is defined as a hot water inlet passage 115, and the hole located on the right side is defined as a cold water inlet passage 114. Meanwhile, the hot water inlet channel 115 and the cold water inlet channel 114 are both communicated with the second flow channel 13. The second water inlet passage thus includes a hot water inlet passage 115 and a cold water inlet passage 114. That is, in the present embodiment, the second water inlet passage communicates with the second flow passage 13.

Referring again to fig. 6, fig. 6 is a cross-sectional view taken along line a-a of fig. 5, from which it can be seen that a hot water inlet channel 115 and a cold water inlet channel 114 are provided in the inlet channel 11, the hot water inlet channel 115 and the cold water inlet channel extending all the way up and eventually converging into one chamber.

Before being converged into one chamber, the second valve spool 3 is inserted into the device body 1 from outside to inside, and penetrates through the hot water inlet passage 115 and the cold water inlet passage 114.

Referring also to fig. 8, fig. 8 is a perspective view of the second spool 3; as can be seen from the two figures, the second water inlet channel has:

a cold water inlet passage 114 communicating with the second valve spool 3, and

a hot water inlet passage 115 communicating with the second valve spool 3;

wherein the second valve core 3 controls the flow areas of the cold water inlet passage 114 and the hot water inlet passage 115 by rotation.

Specifically, this is achieved by passing the second valve element 3 through both the cold water inlet passage 114 and the hot water inlet passage 115;

the second spool 3 includes:

a cold water control hole 31 corresponding to the cold water inlet passage 114;

a hot water control hole 32 corresponding to the hot water inlet passage 115;

wherein the cold water control hole 31 and the hot water control hole 32 are vertically arranged.

The corresponding meaning of the above means that the cold water control hole 31 can be rotated to be positioned at different angles. And the different angles can realize the three states of full opening, full closing and partial opening between the cold water inlet channel 114. Similarly, three different states can be realized between the hot water control hole 32 and the hot water inlet channel 115 by switching the rotation angle of the hot water control hole 32.

The full opening means that as shown in fig. 6, the cold water control hole 31 and the cold water inlet passage 114 are in a full opening state, and the flow rate of the cold water reaches the maximum; accordingly, as shown in fig. 6, the flow rate of the hot water is minimized by the completely closed state between the hot water control hole 32 and the hot water inlet passage 115.

The water flowing out of the second water outlet component at the moment is the cold water. Therefore, the second valve spool 3 can be rotated to realize three states of hot water and warm water, and certainly, the valve can be in a state of not discharging water.

Therefore, in the present embodiment, the cold water control hole 31 and the hot water control hole 32 are disposed perpendicular to each other, so that the second valve body 3 rotates to one side to be hot water, rotates to the other side to be cold water, rotates between two angles to be warm water, and then rotates to be closed. Therefore, the effect caused by the rotation of the second valve core 3 becomes clear, the operation logic is further simplified, and the use is convenient.

Referring to fig. 8 again, a limit groove 33 is formed at one end of the second valve core 3; meanwhile, referring to fig. 6, a limiting hole 14 is formed at the lower end of the device body 1, a limiting member 6 penetrates through the limiting hole 14, and the limiting member 6 at least partially extends into the limiting groove 33 to limit the rotation angle of the second valve element 3, so that the phenomenon that the temperature of the discharged water is inconsistent with the expectation of a user due to excessive rotation, particularly the situation that the discharged water is scalded due to accidental rotation to the angle of the discharged water, is avoided.

In the present embodiment, the limiting member 6 generally selects a fastening member to achieve the corresponding technical effect. Meanwhile, in order to increase the sealing performance between the second valve core 3 and the hot water inlet passage 115 and the cold water inlet passage 114, as shown in fig. 6, the second valve core 3 further has a plurality of annular grooves 34, and the annular grooves 34 are provided with sealing rings 7. As shown in fig. 8, the ring grooves 34 are disposed on the left side of the cold water control hole 31 and the hot water control hole 32, respectively.

Referring additionally to fig. 7, fig. 7 is a sectional view taken in the direction of B-B in fig. 5. Specifically, the cutting direction is along the line of the circles of the circular holes projected in fig. 6 of the cold water inlet passage 114 and the first water inlet passage 111.

Therefore, it can be seen first that the inlet channel 11 has:

a first water inlet passage 111 communicating with the first flow passage 12; and

the first water inlet passage 111 and the second water inlet passage are independent of each other. That is, the first water inlet passage 111 is independent from the hot water inlet passage 115 and the cold water inlet passage 114, respectively. The advantage of this design is that a separate water inlet channel can be designed for the first water outlet member. It is particularly suitable for application scenarios when the first water outlet member is a tap 5 for a water purifier. At this time, the faucet 5 for the water purifier needs a separate pipeline to communicate with the water purifier, and there is no requirement for hot water.

Therefore, referring to fig. 5 again, the inlet ends of the first water inlet channel 111 and the second water inlet channel are located on the same side of the introducing channel 11. Therefore, the pipelines can be conveniently arranged, otherwise, the pipelines are messy after being plugged with corresponding water pipes.

As further shown in particular in fig. 7, the first water inlet channel 111 has:

a starting pipe part 112 located at the head end of the first water inlet channel 111 for externally connecting a pipeline;

a displacement pipe portion 113 which is located at the end of the first water inlet passage 111 and communicates with the first flow passage 12; and the dislocation pipe part 113 is respectively arranged with the second water inlet passage in the left and right direction or in the inside and outside.

As shown in FIG. 7, the junction between the initial pipe portion 112 and the offset pipe portion 113 is formed with a bend, so that the communication between the initial pipe portion 112 and the offset pipe portion 113 can be realized, and the second water supply passage can be offset.

In the present embodiment, the offset is arranged in the left-right direction. That is, the misalignment is achieved by the left-right arrangement. In addition, the dislocation can be realized by the form of arranging the sleeves inside and outside. The purpose of achieving the offset is to achieve the independence between the first water inlet channel 111 and the second water inlet channel and to enable the first water inlet channel 111 to communicate with the first flow channel 12.

The second outlet member, i.e. the cup washing machine, will be described in detail. As can be seen from fig. 1, 2 and 3, the cup washer 4 has:

a tray 41 having an outlet 42 through which water flows out of the tray 41;

and a flexible water outlet device 43 having a plurality of spray arms 44, wherein the spray arms 44 are used for spraying water in the second flow channel 13 to the object to be cleaned.

In addition, as can be seen from fig. 4, the left upper end surface of the device body 1 is provided with a threaded hole, and one end of the device body 1 is provided with a cup washer mounting position 17, namely the position of the threaded hole, of the cup washer mounting position 17. Also in this embodiment, the upper end of the mounting position is an inclined surface for allowing the moisture in the tray 41 to flow out through the outlet 42.

The tray 41 is also provided with fasteners which pass through both the tray 41 and the cup washer mounting location 17, i.e. through the threaded holes.

As shown in fig. 1, 2 and 3, the right side of the device body 1 further has a first valve core 2, and in fig. 6, the first valve core 2 mainly includes a rotating handle 21 located at the outer side and a valve core main body 22 disposed in the first flow passage 12, and the rotating handle 21 can drive the valve core main body 22 to rotate, so as to open or close the first flow passage 12, and further control the opening or closing of the first water outlet member.

In the present embodiment, since the first water outlet member is located at the upper end of the device body 1, the water inlet of the cartridge main body 22 is located on the left end face of the cartridge main body 22, and the water outlet is located at the outer edge of the cartridge main body 22. The valve body 22 may be a quick-opening valve, as long as the opening and closing of the flow passage can be controlled.

The working principle of the first embodiment is explained in detail as follows:

first, the introduction flow passage 11 at the lower end of the device body 1 is connected to a cold water pipe and a hot water pipe, respectively, and the cold water pipe and the hot water pipe are connected to a cold water inlet passage 114 and a hot water inlet passage 115, respectively. So that the cold water is introduced into the cold water inlet passage 114 from the cold water pipe, respectively, and the hot water is introduced into the hot water inlet passage 115 from the hot water pipe, respectively.

Then, after the hot water inlet channel 115 and the cold water inlet channel 114 pass through the cold water control hole 31 and the hot water control hole 32 on the second valve core 3, the cold water, the hot water or the warm water can be discharged from the cup washer correspondingly.

Accordingly, in actual use, the water outlet pipe of the water purifier is connected to the first water inlet passage 111 at the introduction flow passage 11. Then, the water passes through the initial pipe portion 112 and the offset pipe portion 113 in this order, and finally, the tap for a channel water purifier. And the first valve core 2 is used for controlling the opening and closing of the tap for the water purifier. The two water outlet components are provided with independent flow channels, can be respectively and independently controlled, and are more convenient and flexible.

[ DEFORMATION EXAMPLE I ]

In the first embodiment, the water drainage performance is increased by arranging the slope on the mounting position 17 of the cup washer. In this embodiment, it is difficult to form the inclined surface on the inner lower end surface of the tray 41 so that the moisture can flow through the outlet 42, which is suitable for the case that the tray 41 is a plastic member.

[ DEFORMATION EXAMPLE II ]

Compared with the first embodiment, the present embodiment has the following differences:

the first water outlet component is a cup washer 4;

the second water outlet member is a tap 5 for a water purifier.

The design has the advantage that the faucet 5 for the water purifier can also discharge hot water to control the temperature of the discharged water. It can also be shown that the first outlet member and the second outlet member of the utility model are replaceable. It is even possible that both water outlet members are cup washers 4 or that both water outlet members are water purifier taps 5.

[ example two ]

In the first embodiment, there are two water outlet members, but in the present embodiment, there is only one water outlet member, and this water outlet member is the second water outlet member, that is, the cup washer. As shown in fig. 9-12, it discloses a water outlet device with a cup washing device.

As can be seen from fig. 9, compared with the first embodiment, the device body 1 in this embodiment is removed from the first water outlet member and the remaining portion of the device body corresponding to the first flow passage 12. Correspondingly turning to fig. 10, fig. 10 is a perspective view of the cup cleaner and its accessories as hidden in fig. 9; correspondingly, the structure diagram of the second embodiment can be more clearly defined by comparing with fig. 4.

Turning to FIG. 11, FIG. 11 is a side view of the cup cleaner of FIG. 9 after the cup cleaner and its fittings have been concealed; fig. 12 is a sectional view taken in the direction of C-C in fig. 11. As can be seen from the disclosure of fig. 6, the present embodiment also has a cold water inlet channel 114 and a hot water inlet channel 115. There is then rotation of the second valve spool 3 to switch the states of the cold water inlet passage 114 and the hot water inlet passage 115.

Therefore, the cup washer can be in four states of being completely closed, discharging hot water, discharging cold water and discharging warm water. Therefore, the application scenes generated by the cup washing device can be further enriched. Of course, in practice, the cup washing device can be used for a faucet or other water outlet components besides a cup washing device.

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

This specification includes any features disclosed in the appended claims, abstract and drawings, which are, unless expressly stated otherwise, replaceable with other equivalent or similarly purposed alternative features. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

In the description of the present invention, it is to be understood that the terms "one end", "the other end", "outside", "upper", "inside", "horizontal", "coaxial", "central", "end", "length", "outer end", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

Further, in the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

The use of terms such as "upper," "above," "lower," "below," and the like in describing relative spatial positions herein is for the purpose of facilitating description to describe one element or feature's relationship to another element or feature as illustrated in the figures. The spatially relative positional terms may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "below" can encompass both an orientation of above and below. The device may be otherwise oriented 90 degrees or at other orientations and the spatially relative descriptors used herein interpreted accordingly.

In the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "sleeved," "connected," "penetrating," "plugged," and the like are to be construed broadly, e.g., as a fixed connection, a detachable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Therefore, the above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: equivalent changes made according to the structure, shape and principle of the utility model shall be covered by the protection scope of the utility model.

Claims (10)

1. The utility model provides an effluent device is divided to integral type, for direct rivers respectively to first play water component and second play water component, it is including:

a device body (1) having an introduction flow passage (11) for inflow of water, and a first flow passage (12) for introducing water to a first water outlet member, and a second flow passage (13) for introducing water to a second water outlet member;

a first valve element (2) for switching between an open state and a closed state of the first flow passage (12); and

a second valve element (3) for switching between an open state and a closed state of the second flow passage (13);

wherein the introduction flow channel (11) has:

a first water inlet passage (111) communicating with the first flow passage (12); and

a second water inlet passage communicating with the second flow passage (13);

the first water inlet channel (111) and the second water inlet channel are independent of each other.

2. The integrated tapping device according to claim 1, characterized in that the inlet ends of the first and second water inlet channels (111, 11) are both located on the same side of the inlet flow channel.

3. The integrated split-flow water outlet device according to claim 1 or 2, wherein said first water inlet channel (111) has:

a starting pipe part (112) which is positioned at the head end of the first water inlet channel (111) and is used for externally connecting a pipeline;

a displacement pipe part (113) which is positioned at the end of the first water inlet channel (111) and communicated with the first flow channel (12); and the dislocation pipe part (113) is respectively arranged with the second water inlet channel in the left and right direction or arranged inside and outside.

4. The integrated split outlet water device as claimed in claim 1, wherein the second water inlet channel has:

a cold water inlet passage (114) communicating with the second valve element (3), and

a hot water inlet passage (115) communicating with the second valve body (3);

the second valve core (3) controls the flow areas of the cold water inlet channel (114) and the hot water inlet channel (115) through rotation.

5. The integrated tap water device according to claim 4, characterized in that said second valve cartridge (3) passes through both said cold water inlet channel (114) and hot water inlet channel (115);

and the second spool (3) has:

a cold water control hole (31) corresponding to the cold water inlet passage (114);

a hot water control hole (32) corresponding to the hot water inlet passage (115);

wherein the cold water control hole (31) and the hot water control hole (32) are arranged perpendicular to each other.

6. The integrated split water device as claimed in claim 1, 4 or 5, wherein one end of said second spool (3) is formed with a restriction groove (33);

the device is characterized in that a limiting hole (14) is formed in the lower end of the device body (1), a limiting piece (6) penetrates through the limiting hole (14), and at least part of the limiting piece (6) extends into the limiting groove (33) and is used for limiting the rotating angle of the second valve core (3).

7. The integrated tap water device according to claim 1, wherein said first water outlet member is a tap (5) for a water purifier;

the second water outlet component is a cup washer (4).

8. The integrated diverter drain according to claim 7, wherein the cup washer (4) has:

a tray (41) having an outlet (42) through which water flows out of the tray (41);

and the elastic water outlet device (43) is provided with a plurality of spraying arms (44), and the spraying arms (44) are used for spraying water in the second flow passage (13) to the object to be cleaned.

9. The integrated water diversion apparatus according to claim 8, wherein said apparatus body (1) has a cup washer mounting position (17) at one end, the upper end of the mounting position (17) is an inclined surface for allowing water to flow out through said outlet (42);

alternatively, the inner lower end surface of the tray (41) is provided with a slope so that the moisture can flow through the outlet (42).

10. The integrated water diversion apparatus of claim 8 or 9, wherein a fastener is further provided on said tray (41), and said fastener passes through said tray (41) and said cup washer mounting location (17) simultaneously.

Images