CN211623048U - Buffer, sliding door and shower room with sliding door - Google Patents

Abstract

The utility model relates to a shower room field specifically discloses a buffer, door and shower room of sliding door slide. The buffer comprises a main body, wherein the main body comprises a guide part and a buffer part, the guide part is provided with a sliding groove and a guide groove, and the guide groove comprises a guide section and a clamping section; the guide section and the sliding groove of the guide groove are arranged in parallel along the length direction of the main body, one end of the clamping section is communicated with the guide section, and the other end of the clamping section extends towards one side of the main body; the buffer piece is provided with a sliding block and a guide block corresponding to the guide groove; one side of the buffer piece is provided with an insertion port, and the direction of the insertion port is opposite to the extending direction of the clamping section; the distance between the guide block and the buffering part is larger than that between the slide block and the buffering part. Through setting up above-mentioned buffer, can effectually avoid the sliding door to take place the striking with curb girder or wall, improve the performance of sliding door.

Description

Buffer, sliding door and shower room with sliding door

Technical Field

The utility model relates to a shower room field, concretely relates to buffer, door and the shower room of door that slides.

Background

The sliding door is a common door form, and has the advantages of convenience in opening and closing, small occupied space and the like. The existing sliding door generally comprises a top beam and a door plate, wherein the door plate is connected with the top beam in a sliding manner. The existing sliding door has the advantages that when the sliding door is used, if the sliding door is pushed and pulled at an excessively high speed, the side beam of the door panel or the wall surface is impacted, noise is generated, the structure of the sliding door can be damaged after frequent impact, the normal use of the sliding door is influenced, and the whole door panel can be separated from the top beam in serious cases.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a buffer, door and the shower room of sliding door slide, effectual sliding door and curb girder or the wall emergence striking of avoiding takes place, improves sliding door's performance.

In order to solve the technical problem, the utility model provides a technical scheme as follows: a buffer comprises a main body, wherein the main body comprises a guide part and a buffer part which are sequentially arranged along the length direction, the guide part is provided with a sliding groove and a guide groove, and the guide groove comprises a guide section and a clamping section; the guide section and the sliding groove of the guide groove are arranged in parallel along the length direction of the main body, one end of the clamping section is communicated with the guide section, and the other end of the clamping section extends towards one side of the main body; the buffer part is provided with a sliding block and a guide block corresponding to the guide groove, and the buffer part is connected with the main body in a sliding manner through the sliding block and the sliding groove; one side of the buffer piece is provided with an insertion port, and the direction of the insertion port is opposite to the extending direction of the clamping section; the damping device comprises a damping part, a buffer block, a buffer part, a free end and a return spring, wherein one end of the return spring is connected with the buffer part, the other end of the return spring is connected with the buffer block, the fixed end of the damping part is connected with the buffer part, and the free end of the damping part is connected with the buffer block; the distance between the guide block and the buffering part is larger than that between the slide block and the buffering part.

When the buffer piece is used, the inserting port on the buffer piece corresponds to the external stop block. Under initial state, the guide block is located the direction section, and in outside dog inserted the socket, the dog slided along the length direction of buffer, drives the bolster simultaneously and slides, and the dog separates with the buffer block until the guide block slips into the chucking section. In gliding in-process, because the interface is located one side of bolster, the bolster is gliding in, under the effect of dog impetus, receives backward moment of flexure all the time, until sliding to the chucking section, gets into the chucking section smoothly under the effect of moment of flexure, and then gets into locking state. During dog reverse motion, at first with the lateral wall contact of interface, order about the guide block and reply to the guide section in from the chucking section, then under the effect of the drive power of dog and/or reset spring elasticity, the bolster resets with the dog is synchronous. In the whole movement process, the damper works all the time, the sliding speed of the buffer piece is reduced, and the collision is avoided.

Preferably, the guide section of the guide groove is used as a sliding groove, and the sliding block and the guide block are arranged in the guide groove, so that the structure is simplified, and the production cost is reduced.

Preferably, a chamfer or a fillet is arranged on the side wall of the socket far away from the direction of the buffering part, so that the stop block can be smoothly released after the buffering part moves to the releasing position.

Preferably, the socket penetrates through the whole buffer piece along the height direction of the sliding block, so that a stop block on the sliding door can be conveniently inserted, and the use convenience is improved.

Preferably, in the movement process of the buffer piece, the return spring is always positioned on one side of the sliding block, which is far away from the socket. After the guide block on the buffer piece moves to the guide section, the buffer block is in a locking state, and the buffer piece can be ensured to be in the locking state by the tension of the spring on the buffer piece, so that the mistaken unlocking is avoided.

A sliding door comprises a top beam and a door panel, wherein the door panel is positioned on one side of the top beam, a mounting groove is formed in the top or the bottom of the top beam, at least one buffer is arranged in the mounting groove, and an insertion port on the buffer is arranged towards the door panel; the door plate is provided with a stop block which is inserted into the mounting groove and corresponds to the interface.

Because the whole overall arrangement of above-mentioned buffer and the structure of buffer among them, the whole thickness of buffer is thinner to adopt the form that the side set up, and accomodate the decoration with the mounting groove, the back timber thickness of sliding door changes lessly behind the installation buffer, under the prerequisite of guaranteeing performance, and whole aesthetic property is fine.

Preferably, two buffers are arranged in the mounting groove, and buffer parts of the two buffers are arranged oppositely and respectively correspond to the two limit positions of the left and right movement of the door panel.

Preferably, the door plate is provided with at least two limiting blocks, the two limiting blocks are inserted into the mounting groove, one limiting block is used as a stop block, and the whole structure is simplified.

Preferably, the top beam is provided with a limit groove, and the limit groove and the mounting groove are arranged in parallel; the door plate is provided with at least two limiting blocks corresponding to the limiting grooves, and the stop block and one of the limiting blocks are integrally arranged, so that the integral structure is simplified.

A shower room with a sliding door comprises a front plate, wherein the front plate comprises a bottom guide rail and the sliding door, and the door plate is connected with the bottom guide rail in a sliding mode.

Drawings

FIG. 1 is a schematic structural diagram of an initial state of a buffer according to the present embodiment;

FIG. 2 is a schematic structural diagram illustrating a locking state of the damper according to the present embodiment;

FIG. 3 is a schematic structural diagram of a main body of the buffer of the present embodiment;

FIG. 4 is a schematic structural diagram of a buffer member in the buffer of the present embodiment;

FIG. 5 is a schematic view of the connection structure between the buffer of the present embodiment in the initial state and the damper and the return spring;

FIG. 6 is a schematic view of the connection between the damper and the return spring in the locked state of the buffering member of the present embodiment;

FIG. 7 is a schematic structural view of the sliding door of the present embodiment;

fig. 8 is a partial enlarged view of a portion a in fig. 7.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Examples

As shown in fig. 1 to 3, a buffer 10 comprises a main body, wherein the main body comprises a guide part 11 and a buffer part 12 which are sequentially arranged along the length direction, the guide part 11 is provided with a sliding groove 15 and a guide groove, and the guide groove comprises a guide section 14 and a clamping section 13. The guide section 14 and the sliding groove 15 of the guide groove are arranged in parallel along the length direction of the main body, one end of the clamping section 13 is communicated with the guide section 14, and the other end of the clamping section extends to one side of the main body. In this embodiment, the guide section 14 of the guide groove is used as the sliding groove 15, and the sliding block 23 and the guide block 22 are both arranged in the guide groove, so that the structure can be simplified, and the production cost can be reduced.

As shown in fig. 1, 2 and 4, the buffer device further comprises a buffer member 2, a sliding block 23 and a guide block 22 corresponding to the guide groove are arranged on the buffer member 2, and the buffer member 2 is connected with the main body in a sliding manner through the sliding block 23 and the sliding groove 15. One side of the buffer member 2 is provided with an insertion opening 21, and the direction of the insertion opening 21 is opposite to the extending direction of the clamping section 13. The inserting port 21 penetrates through the whole buffer part 2 along the height direction of the sliding block 23, so that the stop block 61 on the sliding door can be conveniently inserted, and the use convenience is improved. The side wall of the socket 21 far away from the direction of the buffer part 12 is provided with a chamfer 24 or a fillet, so that the stop block 61 can be smoothly released after the buffer part 2 moves to the release position.

As shown in fig. 1, 2, 5 and 6, the damping device further comprises a damper 3 and a return spring 4, wherein one end of the return spring 4 is connected with the buffer part 12, the other end of the return spring is connected with the buffer block, the fixed end of the damper 3 is connected with the buffer part 12, and the free end of the damper is connected with the buffer block; the distance between the guide block 22 and the buffer part 12 is greater than the distance between the slide block 23 and the buffer part 12. During the movement of the buffer element 2, the restoring spring 4 is always located on the side of the slider 23 remote from the socket 21. After the guide block 22 on the buffer member 2 moves to the guide section 14, the buffer block is in a locked state, and the tension of the spring on the buffer member 2 can ensure that the buffer member 2 is in the locked state, so that the mistaken unlocking is avoided.

In use, the socket 21 of the buffer 2 corresponds to the external stop 61. As shown in fig. 1 and 5, in the initial state, the guide block 22 is located in the guide section 14, the external stopper 61 is inserted into the insertion opening 21, the stopper 61 slides along the length direction of the buffer 10, and simultaneously drives the buffer member 2 to slide until the guide block 22 slides into the clamping section 13, and the stopper 61 is separated from the buffer block, that is, the state shown in fig. 2 and 6. In the sliding process, because the socket 21 is located on one side of the buffer member 2, when the buffer member 2 slides, the backward bending moment is always applied to the buffer member under the pushing force of the stop block 61 until the buffer member slides to the clamping section 13, and the buffer member smoothly enters the clamping section 13 under the action of the bending moment, so that the buffer member enters the locking state. When the stop block 61 moves reversely, the stop block is firstly contacted with the side wall of the insertion port 21, the guide block 22 is driven to return to the guide section 14 from the clamping section 13, and then the buffer part 2 and the stop block 61 are synchronously reset under the action of the driving force of the stop block 61 and/or the elastic force of the reset spring 4. In the whole movement process, the damper 3 works all the time, the sliding speed of the buffer part 2 is reduced, and the collision is avoided.

As shown in fig. 7 and 8, the sliding door comprises a top beam 5 and a door panel 6, wherein the door panel 6 is located at one side of the top beam 5, an installation groove 51 is arranged at the top or bottom of the top beam 5, at least one buffer 10 is arranged in the installation groove 51, and the insertion interface 21 on the buffer 2 is arranged towards the door panel 6; the door panel 6 is provided with a stop block 61 which is inserted into the mounting groove 51 and corresponds to the interface 21.

In fig. 7, two dampers 10 are disposed in the mounting groove 51 as an example, wherein the damping portions 12 of the two dampers 10 are disposed opposite to each other and respectively correspond to two extreme positions of the left and right movement of the door panel 6.

Due to the overall layout of the buffer 10 and the structure of the middle buffer 2, the overall thickness of the buffer 10 is small, the side face is arranged, the mounting groove 51 is used for accommodating and decorating, the thickness change of the top beam 5 of the sliding door after the buffer 10 is mounted is small, and the overall aesthetic property is good on the premise of ensuring the use performance.

As a specific embodiment, the door panel 6 is provided with at least two limiting blocks 62, the two limiting blocks 62 are inserted into the mounting groove 51, and one of the limiting blocks 62 is used as the stop 61, so that the overall structure is simplified.

As another specific embodiment, a limiting groove is arranged on the top beam 5, and the limiting groove and the mounting groove 51 are arranged in parallel; the door plate 6 is provided with at least two limiting blocks 62 corresponding to the limiting grooves, and the stop block 61 and one of the limiting blocks 62 are integrally arranged, so that the integral structure is simplified.

A shower room with a sliding door comprises a front plate 7, wherein the front plate 7 comprises a bottom guide rail and the sliding door, and a door plate 6 is connected with the bottom guide rail in a sliding mode.

In summary, the above description is only a preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (10)

1. A buffer, characterized by: the clamping device comprises a main body, wherein the main body comprises a guide part and a buffer part which are sequentially arranged along the length direction, the guide part is provided with a sliding groove and a guide groove, and the guide groove comprises a guide section and a clamping section; the guide section and the sliding groove of the guide groove are arranged in parallel along the length direction of the main body, one end of the clamping section is communicated with the guide section, and the other end of the clamping section extends towards one side of the main body;

the buffer part is provided with a sliding block and a guide block corresponding to the guide groove, and the buffer part is connected with the main body in a sliding manner through the sliding block and the sliding groove;

one side of the buffer piece is provided with an insertion port, and the direction of the insertion port is opposite to the extending direction of the clamping section;

the damping device comprises a damping part, a buffer block, a buffer part, a free end and a return spring, wherein one end of the return spring is connected with the buffer part, the other end of the return spring is connected with the buffer block, the fixed end of the damping part is connected with the buffer part, and the free end of the damping part is connected with the buffer block; the distance between the guide block and the buffering part is larger than that between the slide block and the buffering part.

2. The buffer of claim 1, wherein: the guide section of the guide groove is used as a sliding groove at the same time.

3. The buffer of claim 1, wherein: and a chamfer or a fillet is arranged on the side wall of the socket far away from the direction of the buffer part.

4. The buffer of claim 1, wherein: the interface run through whole bolster along the direction of height of slider.

5. The buffer according to any one of claims 1-4, wherein: in the motion process of the buffer piece, the reset spring is always positioned on one side of the sliding block, which is far away from the interface.

6. The utility model provides a door slides, includes back timber and door plant, the door plant be located one side of back timber, its characterized in that: the top or the bottom of the top beam is provided with a mounting groove, at least one buffer as claimed in any one of claims 1 to 5 is arranged in the mounting groove, and the insertion port on the buffer piece is arranged towards the door panel; the door plate is provided with a stop block which is inserted into the mounting groove and corresponds to the interface.

7. The sliding door of claim 6 wherein: the mounting groove in be equipped with two buffers, and two the buffer portion of buffer sets up relatively.

8. The sliding door according to claim 6 or 7, wherein: the door plate is provided with at least two limiting blocks, the two limiting blocks are inserted into the mounting groove, and one limiting block is used as a stop block.

9. The sliding door according to claim 6 or 7, wherein: the top beam is provided with a limit groove, and the limit groove and the mounting groove are arranged in parallel; the door plate is provided with at least two limiting blocks corresponding to the limiting grooves, and the stop block is integrally arranged with one of the limiting blocks.

10. A shower room with a sliding door comprises a front plate and is characterized in that: the front plate comprises a bottom guide rail, and the sliding door as claimed in any one of claims 6 to 9, wherein the door plate is slidably connected with the bottom guide rail.

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