RU2574999C2 - Door set for shower with continuous control - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: door set for shower with a possibility of continuous adjustment is offered which contains the static frame structure, the mobile frame structure and, at least, two adjusting assemblies located between the static frame structure and the mobile frame structure. Each of adjusting assemblies contains the adjusting device and the fixing device for fixing of the adjusting device. The adjusting device contains the adjusting element and the bearing element for support of the adjusting element, the adjusting element has smooth lateral surfaces located outside.

EFFECT: fixing device according to the present invention is implemented with a possibility of fixing of the adjusting element in any position along lateral surfaces of the adjusting element so that to provide the possibility of continuous adjustment of relative distance between the static and mobile frame structures.

10 cl, 19 dwg

Description

Technical field

[0001] The present invention relates to a shower door and, in particular, to a control unit used in a shower door, which allows continuous control in order to increase the accuracy of regulation.

State of the art

[0002] Doors used to limit shower enclosures are often set against wall surfaces, and the doors thus installed are held as vertical as possible. However, the surfaces of the walls of buildings are often not strictly vertical, but, for example, are tilted at an angle outward / inward. Therefore, when installing the doors all the way along the wall surface, unobstructed opening or closing of the doors can be difficult. Therefore, it is necessary to adjust the distance between the upper / lower end of the door and the surface of the wall to keep the door in a vertical position.

[0003] To provide such regulation, a door unit typically comprises a fixed frame structure that is to be attached to a wall surface, and a movable frame structure that is attached to a door panel, such as a glass door panel. The fixed frame structure is first attached to the wall surface, and then the movable frame structure is moved towards the fixed frame structure, and the distances between the upper and lower ends of the movable frame structure and the fixed frame structure are adjusted to ensure the vertical position of the movable frame structure, as well as, accordingly, the vertical position of the door panel. At the last stage, the fixed and movable frame structures are connected to each other by drilling holes in them and using fasteners.

[0004] However, on the one hand, the drilling process requires the joint efforts of at least two people and takes a lot of time. On the other hand, drilling can cause irreversible damage to the surfaces of frame structures (usually made of aluminum materials), which is undesirable for consumers.

[0005] To solve these problems, a solution is proposed that excludes drilling by providing the door unit with adjustment units. However, the adjustment of the relative distance is usually provided by changing the interactions between the teeth so that the minimum regulation depends on the space between adjacent teeth. If necessary, more precise regulation of conventional solutions will not be enough. Moreover, these solutions require the formation of teeth on various components, which leads to increased complexity and manufacturing costs.

Disclosure of invention

[0006] An object of the present invention is to provide a shower door unit that does not require drilling during installation and allows continuous adjustment between a fixed frame structure and a movable frame structure.

[0007] In one embodiment of the invention, a shower door unit with continuous adjustment is provided comprising a fixed frame structure, a movable frame structure, and at least two adjustment units located between the fixed frame structure and the movable frame structure, each of the adjustment units comprising an adjustment device and a locking device for fixing the adjustment device, wherein the adjustment device comprises an adjustment element NT and a supporting element for supporting the adjusting element, and the adjusting element has smooth side surfaces located outside.

[0008] In one embodiment of the invention, the adjustment element comprises end surfaces and a slit hole extending from one of the end surfaces toward the other, and the supporting element comprises connecting protrusions and a supporting frame structure connected to the connecting protrusions.

[0009] In one embodiment of the invention, the carrier element also comprises a front blocking plate connected to the free end of the carrier frame structure to prevent the adjustment element from engaging with the carrier element.

[0010] In one embodiment, the length of the adjusting element is equal to or less than the length of the hole.

[0011] In one embodiment of the invention, the locking device comprises a locking element and a guiding device, the interaction of which ensures the fixing of the adjusting element.

[0012] In one embodiment of the invention, the locking element has an upper fixing portion and a lower fixing portion, the upper and lower fixing portions each having a first through hole and a second through hole communicating with the first through hole, the size of the first through hole is larger than the size of the end surface of the corresponding adjustment device or equal to it, the size of the second through hole is smaller than the size of the end surface of the corresponding adjustment device, top The lower fixing section also contains an upper fixing section and a drive protrusion passing through the upper fixing section, the lower fixing section also contains a lower fixing section and a fastening element configured to pass through the lower fixing section.

[0013] In one embodiment, the upper and lower locking portions are integral. In another embodiment, the upper and lower locking portions are detachably connected to each other by means of a connecting element.

[0014] In one embodiment of the invention, the guide device has an upper guide element and a lower guide element. The upper guide element comprises a first guide recess along which the locking element can slide, a support platform for supporting the drive protrusion, a first cavity for receiving one of the at least two adjustment devices and a supporting platform for supporting the upper fixing portion of the fixing element.

[0015] The lower guide element comprises a second guide recess along which the locking element can slide, a second cavity for receiving the other of the at least two adjusting devices, an elastic element for providing elastic force against the lower fixing portion, and a third cavity located lower relative to the second cavity and having an elastic element configured to receive the cavity, a mounting element made with the possibility of passing through the lower section of the fastening and the elastic element attached to the upper wall of the third cavity.

[0016] In one embodiment of the invention, the fixing element also comprises at least one intermediate fixing portion, each of the intermediate fixing portions having a first through hole and a second through hole communicating with the first through hole, the size of the first through hole is larger than the size of the end surface of the corresponding adjustment device or equal to it, the size of the second through hole is smaller than the size of the end surface of the corresponding adjustment stroystva. Accordingly, the guide device also includes at least one intermediate guide element, each of which preferably has the same structure as the upper guide element.

[0017] In one embodiment, the upper fixing portion and the lower fixing portion, and the optional intermediate fixing portion (s) also comprise a third through hole in communication with the first through hole and located symmetrically to the second through hole relative to the first through hole. The size of the third through hole is smaller than the size of the end surface of the corresponding adjusting device. Preferably, the size of the third through hole is equal to the size of the second through hole.

[0018] The locking device in accordance with the present invention is configured to fix the adjusting element in any position along the side surfaces of the adjusting element so as to enable continuous adjustment of the relative distance of the fixed and movable frame structures.

Brief Description of the Drawings

[0019] FIG. 1 depicts an exploded view of an example adjusting device.

[0020] FIG. 2 depicts the adjusting device shown in FIG. 1 in an assembled state.

[0021] FIG. 3 is a schematic view of an assembly of an exemplary adjusting device and an exemplary movable frame structure.

[0022] FIG. 4 is an exploded view of an exemplary locking device in which some parts are not shown for clarity.

[0023] FIG. 5 is a schematic view of an exemplary upper guide member.

[0024] FIG. 6 is a rear view of the upper guide member shown in FIG. 5.

[0025] FIG. 7 is a schematic view of an exemplary lower guide member.

[0026] FIG. 8 depicts the lower guide member shown in FIG. 7, from a different angle.

[0027] FIG. 9 is a schematic view of an exemplary fixed frame structure.

[0028] FIG. 10 depicts another exemplary locking element.

[0029] FIG. 11 is a schematic view of an assembly of an exemplary adjusting device and a fixing device on which the adjusting device is not fixed.

[0030] FIG. 12 is a schematic view of an assembly of an exemplary adjusting device and a fixing device on which the adjusting device is fixed.

[0031] FIG. 13 is a schematic view of an assembly of another exemplary adjusting device and fixing device on which the adjusting device is not fixed.

[0032] FIG. 14 is a schematic view of an assembly of another exemplary adjusting device and a fixing device on which the adjusting device is fixed.

[0033] FIG. 15 is a schematic view of the assembly of another exemplary adjusting device and locking device on which the adjusting device is not fixed.

[0034] FIG. 16 is a schematic view of an assembly of yet another exemplary adjusting device and locking device on which the adjusting device is fixed.

[0035] FIG. 17 depicts another exemplary upper guide member in accordance with the present invention.

[0036] FIG. 18 depicts another exemplary lower guide member in accordance with the present invention.

[0037] FIG. 19 depicts another exemplary fixed frame structure in accordance with the present invention.

[0038] Elements that are not relevant to the essence of the invention are not shown for the purpose of clarity of illustration of the invention.

The implementation of the invention

[0039] The invention will now be described in more detail with reference to preferred embodiments in combination with the accompanying drawings.

[0040] FIG. 1 shows an exemplary adjusting device comprising an adjusting element 10 and a supporting element 20 for supporting the element 10. The adjusting element 10 has a smooth side surface 104 facing outward while being on the supporting element 20.

[0041] The adjusting element 10 has a slit hole 18 extending from one end surface 102 towards the other end surface 102. In this embodiment, said hole extends to and beyond the other end surface 102 so as to form a slit hole 108 passing through the adjusting element 10. In this case, the length of the adjusting element 10 is equal to the length of the slit hole 18. In another embodiment, the hole 18 may not extend beyond the other end howl surface 102. In this case, the length adjusting member 10 longer than the slot opening 18.

[0042] The supporting member 20 includes connecting protrusions 12 for attachment to the movable frame structure 50 (FIG. 3) and a supporting frame structure 13 connected to the connecting protrusions 12. The supporting frame structure 13 has a shape corresponding to the shape of the slit hole 18 so that to provide the possibility of its introduction into the slit hole 18 and the reception of this hole.

[0043] In this embodiment, the support member 20 also includes a front blocking plate 15 located on the free end of the support frame structure 13 to prevent the adjustment element 10 from interacting with the support frame structure 13. When the adjustment element 10 is positioned on the support frame structure 13, one of the end surfaces 102 is in contact with the front blocking plate 15. In other embodiments, the front blocking plate 15 may be missing to whine.

[0044] FIG. 2 shows the adjusting element 10 and the supporting element 20 in the assembled state. In accordance with the image, when the adjusting element 10 is on the supporting element 20, the two side surfaces 104 of the adjusting element 10, the upper surface 106 and the lower surface (not shown) are facing outward. One of the end surfaces 102 is adjacent to the front blocking plate 15 (if any), and the other end surface 102 is in contact with the supporting element 20. An adjustment device of this type can be performed, for example, by a two-component casting process.

[0045] FIG. 3 illustrates an assembly of a adjusting device with an exemplary movable frame structure 50. The movable frame structure 50 has a receiving groove 51 adapted to receive protrusions 12 so as to enable the entire adjusting device to be attached to the movable frame structure 50 and slide along the groove 51 .

[0046] FIG. 4 shows a locking device in accordance with one exemplary embodiment of the invention. The locking device includes a locking element 30 and guide devices 31, 32, made with the possibility of interaction for fixing the adjusting element 10.

[0047] In this embodiment, the locking element 30 comprises an upper locking portion 35 and a lower locking portion 36, each of the locking sections comprising a first through hole 351, 361 and a second through hole 352, 362 in communication with the first through hole. The size of the first through hole 351, 352 is greater than or equal to the size of the end surface 102 of the adjusting device 10. The size of the second through hole 352, 362 is smaller than the size of the end surface 102. Therefore, the adjusting element 10 located on the carrier 20 is configured to pass through the first through hole 351, 352 and without the possibility of passing through the second through hole 352, 362.

[0048] The locking element 30 also includes an upper fixing portion 354 on the upper fixing portion 35, a lower fixing portion 364 on the lower fixing portion 36, a drive protrusion 40 (FIG. 11) passing through the upper fixing portion 354, and a fastening element 329 (FIG. . 8) passing through the lower fixing portion 364.

[0049] In this embodiment, the upper and lower locking sections 35, 36 are detachably connected by a lever member 33. The detachable connection may be provided by several methods known in the art. In the present embodiment, the lever holes 356, 366 are formed on the upper and lower locking sections 35, 36, respectively, and are attached to the hooks 331, available at both ends of the lever element 33, so as to ensure the connection of the upper and lower locking sections 35, 36 .

[0050] In other embodiments, the upper and lower locking portions 35, 36 are integrally formed as shown in FIG. 10. In this case, the lever member 33 is not necessary.

[0051] In accordance with FIG. 4, the guiding device comprises an upper guiding member 31 and a lower guiding member 32. According to a more detailed view of FIG. 2 and 3, the upper guide member 31 comprises a first guide recess 314 along which the locking member 30 can slide; a supporting platform 313 to support the drive protrusion 40; a first cavity 312 for receiving one of the adjusting elements 10 and a supporting platform 319 for supporting the upper portion 354 of the fixing of the locking element 30.

[0052] In this embodiment, the first guide recess 314 is interrupted between the support platform 313 and the carrier platform 319. In another embodiment, the first guide recess 314 extends continuously as long as the guide elements provide a passage for the drive protrusion to pass through the support platform 313 and adjoining to it.

[0053] In this embodiment, as shown in FIG. 7 and 8, the lower guide member 32 includes a second guide recess 324. The locking member 30 is slidable along the first guide recess 314 and inserted into and slid into the second guide recess 324. The lower guide member 32 also includes a second cavity 322 for receiving another adjusting element 10, an elastic element 321 to provide elastic force in contact with the lower fixing portion 364, and a third cavity 323 located below the second cavity 322 and containing an elastic element 321 located therein. The fastener 329 extends through the lower fixing portion 364 as well as the elastic member 321 and is attached to the upper wall 325 of the third cavity 322. In this embodiment, the elastic member 321 is spring.

[0054] The upper and lower guide elements 31, 32 are attached to the fixed frame structure by suitable methods. In this embodiment, as shown in FIG. 5-8, each of the upper and lower guide elements 31, 32 has lever elements 316, 318 and 326, 328, respectively. A plurality of threaded holes are formed on the underside of the fixed frame structure 60, and the threaded hole 62 is formed in accordance with lever elements, such as lever elements 316, 318, for attaching the guide elements 31, 32 to the space 63 of the fixed frame structure 60 by means of fasteners.

[0055] In another embodiment of the invention in accordance with FIG. 17-19, the upper guide member 31 has an extension 310 in which at least one locking recess 311 is formed. Between the extension 310 and the supporting platform 319, as well as on the supporting platform 313, locking grooves 315 are formed, the locking recess 311 adjacent to the passage of the locking grooves 315. Similarly, the lower guide member 32 has an extension 320 in which at least one fixing recess 327 is formed. A fixing groove 380 is formed on the lower guide element 32 with a fixing recess 327 adjacent to the fix passage the notching groove 380. The fixed frame structure 60 has a guide groove 66 defined by two ribs 65 configured to fit into the fixing grooves 315, 380 in such a way as to allow the upper and lower guide elements 31, 32 to slide along the stationary frame structure 60. When proper arrangement of the guide elements 31, 32, the ribs 65 will be compressed by a tool (such as a screwdriver) in line with the recesses 311, 327 so as to ensure the deformation of the ribs and their reception by the recesses. Then, the sliding of the guide elements 31, 32 will be excluded and their attachment to the fixed frame structure 60 will be ensured.

[0056] The fixed frame structure 60 is adapted to be attached to a suitable surface, such as a wall surface, by suitable methods. In this embodiment, threaded holes 61 are formed on the underside of the frame structure 60 so as to enable the frame structure to be attached to the wall surface by means of fasteners. Other methods for securing attachment are known to those skilled in the art.

[0057] As shown in FIG. 4 and 10, in the present embodiment, the locking element 30 also comprises one or more intermediate locking sections 34, each of which comprises a first through hole 341 and a second through hole 34 communicating with it. The size of the first through hole 341 is greater than or equal to the size of the end surface 102 of the adjusting element 10. The size of the second through hole 342 is smaller than the size of the end surface 102.

[0058] Accordingly, the guide device also comprises one or more intermediate guide element 37, each of which preferably has the same structures as the upper guide element 31.

[0059] For the purpose of standardization, each section of the upper fixing sections 35, the lower fixing section 36, and the optional intermediate fixing sections 34 also includes a third through hole 353, 343 or 363 in communication with the first through hole 351, 341, 361 and located symmetrically to the second the through hole 352, 342, 362 with respect to the first through hole 351, 341, 361. The size of the third through hole 353, 343, 363 is smaller than the size of the end surface 102 and is preferably equal to the size of the second through hole. The size of the third through hole 353, 343, 363 is smaller than the size of the end surface 102 and is preferably equal to the size of the second through hole 352, 342, 362.

[0060] In this embodiment, the upper guide member 31 has a stop 317 located between the supporting platform 313 and the supporting platform 319 so that the height of the upper guide member 31 corresponds to the height of the locking member 30.

[0061] In this embodiment, a portion of at least one of the upper and lower frame structures 14, 13 forms a guide for engagement within the sliding groove 11 so as to enable stable reception of the adjusting element 10 by the space 16.

[0062] In other embodiments of the invention, in the absence of a sliding groove 11 on the adjusting element 10, the height of the adjusting element 10 is slightly greater than the height of the hole 17, so as to allow reception of the adjusting element 10 by the space 16 through its flexibility.

[0063] In this embodiment, the length of the adjusting element 10 is equal to the length of the space 16. In other embodiments, the length of the adjusting element 10 is slightly less / greater than the length of the space 16.

[0064] FIG. 11 shows an assembly of one adjusting device, an upper fixing portion 35 and an upper guide member 31. In accordance with the image, the adjusting device passes through a first through hole 351 and into a first cavity 312 of the upper guide element 31. The upper fixing portion 35 is received by the first guide recess 314. Drive the protrusion 40 (in this embodiment, a threaded rod) passes through the upper securing section 354 and the through hole 316 of the carrier platform 319 and then the abutment to the supporting platform 313. In the depicted state, the adjusting device can freely pass through the first through hole 351 and the first cavity 312 so as to allow free adjustment of the position and angle of the movable frame structure 50 relative to the stationary frame structure 60.

[0065] FIG. 12 shows the insertion of the adjusting device into the second through hole 352 in such a way as to secure it. In particular, when determining the position of the movable frame structure 50 relative to the stationary frame structure 60 by rotating the drive protrusion 40, the upper locking portion 35 is moved upward due to the reaction force, since the drive protrusion 40 has one extreme end adjacent to the supporting platform 313, it made without the possibility of moving down. However, the first cavity 312 is made without the possibility of moving upward, and the adjusting device, therefore, will be introduced into the second through hole 352.

[0066] According to the present invention, the adjusting element 10 is usually made of elastic materials, such as rubber, polyurethane or a modified polyurethane, the fixing device is usually made of hard materials, such as specialized plastics, such as polyformaldehyde or nylon 66, or zinc alloy. Therefore, the adjusting element 10 can be inserted into the second through hole 352 by application of force. When introduced into the second through hole 352, the adjusting device will not be able to move relative to the fixed frame structure 60. In this way, a relative position is secured between the movable frame structure 50 and the fixed frame structure 60.

[0067] FIG. 13 and 14 show the assembly of the adjusting device with the intermediate fixing portion 34 and the intermediate guide element 37. The fixing of the adjusting device by the fixing section 34 is similar to that shown in FIG. 11 and 12, except that the intermediate locking portion 34 does not require an additional drive protrusion 40, and its upward movement is provided by the lever member 33 or integral with the upper locking portion 35, in the case of integral formation with it.

[0068] FIG. 15 and 16 depict an assembly of an adjustment device with a lower locking portion 36 and a lower guide member 32. As shown in FIG. 15, the adjustment device is configured to freely pass the first through hole 361 and the second cavity 322 so as to allow free adjustment of the position and angle of the movable frame structure 50 relative to the stationary frame structure 60. In accordance with the image, the elastic element 321 is in free or slightly compressed state. Similarly to the principle shown in FIG. 11 and 12, the adjusting device is fixed by means of the lower locking portion 36, except that the intermediate locking portion 34 does not require an additional drive protrusion 40, and its upward movement is provided by the lever member 33 or integrally with the upper locking portion 35, in the case of whole formation with it. In the locked state, the elastic member 321 is in a compressed state due to the upward movement of the lower fixing portion 36.

[0069] If you need to change the relative position between the movable frame structure 50 and the stationary frame structure 60, by rotating the drive protrusion 40 in the opposite direction, the entire locking device is moved downward along the first and second guide recesses 314, 324 due to the elastic force of the elastic element 321 so that the adjustment device is released from the second through hole 352, 342, 362 and returned back to the first through hole 351, 341, 361, while the possibility of free movement of the adjusting device is new.

[0070] It should be understood that various exemplary embodiments are described with reference to the accompanying drawings, in which only some exemplary embodiments are shown. However, the present invention can be implemented in many other forms, and should not be construed as limited only by the exemplary embodiments of the invention set forth in this description.

Claims (10)

1. The door block for the shower with continuous adjustment, containing a fixed frame structure, a movable frame structure and at least two adjustment nodes located between the fixed frame structure and a movable frame structure, each of the adjustment nodes contains an adjustment device and a fixing device for fixing the adjustment device, characterized in that the adjusting device comprises an adjusting element and a supporting element for supporting the adjusting element enta, and the adjusting element has smooth side surfaces facing outward. 2. The door shower unit according to claim 1, characterized in that the adjusting element comprises end surfaces and a slit hole extending from one of the end surfaces towards the other, the bearing element comprising connecting protrusions and a supporting frame structure connected to the connecting protrusions . 3. The door shower unit according to claim 1, characterized in that the supporting element also comprises a front blocking plate connected to the free end of the supporting frame structure. 4. The door shower unit according to claim 2, characterized in that the supporting frame structure has a shape corresponding to the shape of the hole. 5. The door shower unit according to claim 1, characterized in that the fixing device comprises a fixing element and a guide device, the interaction of which ensures the fixing of the adjusting element. 6. The shower door unit according to claim 5, characterized in that the fixing element has an upper fixing section and a lower fixing section, the upper and lower fixing sections each containing a first through hole the size of which is larger than or equal to the size of the end surface of the corresponding adjustment device and a second through hole, the size of which is smaller than the size of the end surface of the corresponding adjusting device and which communicates with the first through hole, and the upper fixing th section also comprises an upper fixing portion and a drive projection extending through the upper fixing portion, and the lower fixing portion also comprises a lower fixing portion and a fastening member extending through the lower fixing portion. 7. The door shower unit according to claim 6, characterized in that the upper and lower locking sections are integral at the same time or the upper and lower locking sections are detachably connected to each other by means of a connecting element. 8. The shower door unit according to claim 5, characterized in that the guide device comprising an upper guide element and a lower guide element, the upper guide element comprises a first guide recess along which a locking element, a support platform can slide to support the drive protrusion, a first cavity for receiving one of the at least two adjusting devices and a supporting platform for supporting the upper fixing portion of the fixing element, and the lower guide element contains a second an appreciable recess through which the locking element can slide, a second cavity for receiving the other of the at least two adjusting devices, an elastic element for providing elastic force when pressed against the lower fixing portion, and a third cavity located lower relative to the second cavity and having an elastic element located in it, and the fastener passes through the lower portion of the fastening and the elastic element and carries out the attachment to the upper wall of the third cavity. 9. The shower door unit according to claim 6, characterized in that the fixing element also comprises at least one intermediate fixing section, each of the intermediate fixing sections comprising a first through hole and a second through hole communicating with the first through hole, wherein the size the first through hole is larger than the size of the end surface of the corresponding adjusting device or equal to it, and the size of the second through hole is smaller than the size of the end surface of the corresponding control leveling device, and accordingly the guide device also contains at least one intermediate guide element, each of which has the same structure as the upper guide element. 10. The door shower unit according to claim 6, characterized in that each section from among the upper fixing section and the lower fixing section also contains a third through hole in communication with the first through hole and located symmetrically to the second through hole relative to the first through hole, wherein the size the third through hole is smaller than the size of the end surface of the corresponding adjusting device.

Images