CN216043268U - Push-and-pull bathroom door with buffer function - Google Patents

Abstract

The utility model belongs to the technical field of shower rooms, in particular to a sliding bathroom door with buffer function. The inner slide rail groove is matched and connected, so that the sliding glass door can be installed on the beam, and the pulley is provided with a contact hook. When the sliding glass door is close to the door frame at both ends of the beam, the buffer is contacted and compressed through the contact hook, so that the sliding glass door can be decelerated and buffered, which effectively avoids opening and closing the door or some inadvertent The action causes the impact of the sliding glass door to collide with the door frames at both ends of the beam. The structural design is reasonable. The buffer is arranged in the outer installation groove, and the pulley moves in the inner slide groove, thereby reducing the overall size and occupation of the shower room. space and more beautiful.

Description

Push-and-pull bathroom door with buffer function

[ technical field ] A method for producing a semiconductor device

The utility model belongs to the technical field of shower rooms, and particularly relates to a push-pull shower door with a buffering function.

[ background of the utility model ]

Most shower rooms in the market at present use a sliding door mode. In order to reduce the fault rate and improve the safety degree and comfort level of use, the existing shower room is provided with buffers, the buffers are arranged at two ends of a door guide rail, and then when the pulleys of the sliding door slide to the two ends, the sliding door is connected with the buffers, so that the buffering effect is realized. However, the existing shower room with the buffer is not compact and reasonable in structure, and the buffer is generally arranged on the side surface of the guide rail and protrudes out of the guide rail, so that the overall side surface of the shower room is wide in size, wastes materials, occupies a space and is not attractive.

[ Utility model ] content

The utility model provides a push-pull bathroom door with a buffering function, and aims to solve the problems that the existing shower room with a buffer is not compact and unreasonable in structure, the buffer is arranged on the side surface of a guide rail and protrudes out of the guide rail, so that the overall side surface of the shower room is wide in size, materials are wasted, the occupied space position is large, and the shower room is not attractive.

The utility model is realized by the following technical scheme:

the utility model provides a push-and-pull bathroom door with buffer function, includes the crossbeam, locates fixed glass door, slip glass door, buffer on the crossbeam and fixed mounting are in the pulley on the slip glass door, the crossbeam upper surface is equipped with the confession the outer mounting groove of buffer installation, a crossbeam side is equipped with interior slide rail groove, the pulley with interior slide rail groove cooperation is connected, so that slip glass door movable mounting be in on the crossbeam, be equipped with the contact couple on the pulley, contact couple one end stretch into to in the outer mounting groove and along with the slip glass door activity and contact the buffer or break away from the buffer.

When the sliding glass door is close to the buffer, the contact hook moves in the outer mounting groove to contact and push the contact clamping piece, so that the contact clamping piece compresses the buffer component.

According to the push-pull bathroom door with the buffering function, the buffering assembly comprises the buffering damping cylinder and the return spring, and the contact clamping piece is connected with the buffering damping cylinder and the return spring respectively.

The sliding bathroom door with the buffering function comprises a contact part extending to the outer side of the installation shell and a sliding part arranged in the installation shell in a sliding mode, wherein the contact part comprises a first contact and a second contact, a sliding fixing groove for moving the sliding part is arranged on the side wall, parallel to the moving direction of the contact clamping part, of the installation shell, the sliding fixing groove comprises a sliding groove and a fixing groove, the fixing groove is located at the head end of the sliding groove along the deformation energy storage direction of the reset spring and extends towards the opposite direction of the contact part extending out of the outer side of the installation shell, the sliding part comprises a sliding block and a first sliding pin and a second sliding pin which are arranged on two sides of the sliding block in a front-back mode and extend into the sliding fixing groove, and the buffering damping cylinder is hinged with the contact clamping part so that when the second sliding pin slides to the fixing groove, the second contact is rotatably sunk into the mounting housing.

According to the push-pull bathroom door with the buffering function, one end of the cross beam is provided with the fixed frame, the fixed glass door is installed on the cross beam and the fixed frame, the other end of the cross beam is provided with the wall sleeve, and the two buffers comprise the first buffer arranged at one end, close to the fixed frame, of the inner slide rail groove and the second buffer arranged at one end, close to the wall sleeve, of the inner slide rail groove; when the door is opened, the sliding glass door drives the contact hook to move towards the direction of the fixed frame to separate from the second buffer and approach to contact the first buffer; when the door is closed, the sliding glass door drives the contact hook to move towards the wall sleeve direction, so that the contact hook is separated from the first buffer and is close to and contacted with the second buffer.

According to the push-pull bathroom door with the buffering function, the edge of one side of the sliding glass door, which is far away from the fixed glass door, is provided with the first water-retaining rubber strip, and one side of the first water-retaining rubber strip, which is far away from the fixed glass door, is provided with the inclined page edge which extends along the direction far away from the sliding glass door and is obliquely arranged back to the fixed glass door.

According to the push-pull bathroom door with the buffering function, the edge of one side, close to the fixed glass door, of the sliding glass door is provided with the second water retaining adhesive tape, and one side, close to the fixed glass door, of the second water retaining adhesive tape is provided with the first parallel margin.

According to the push-pull bathroom door with the buffering function, the edge of one side, close to the sliding glass door, of the fixed glass door is provided with the third water-retaining adhesive tape, and one side, close to the sliding glass door, of the third water-retaining adhesive tape is provided with the second parallel margin.

The push-pull bathroom door with the buffering function is characterized in that the first parallel margin is perpendicular to the fixed glass door, and the second parallel margin is perpendicular to the sliding glass door.

The push-pull bathroom door with the buffering function is provided with at least two pulleys.

Compared with the prior art, the utility model has the following advantages:

the utility model provides a push-pull bathroom door with a buffering function, wherein an outer mounting groove for mounting a buffer is arranged on the upper surface of a cross beam, an inner sliding rail groove is arranged on one side surface of the cross beam, a pulley is matched and connected with the inner sliding rail groove so as to ensure that a sliding glass door is movably mounted on the cross beam, a contact hook is arranged on the pulley, one end of the contact hook extends into the outer mounting groove and contacts with or separates from the buffer along with the movement of the sliding glass door, when the sliding glass door is close to door frames at two ends of the cross beam, the buffer is contacted and compressed through the contact hook so as to ensure that the sliding glass door is subjected to speed reduction and buffering, the damage caused by the impact force of the sliding glass door colliding with the door frames at two ends of the cross beam due to door opening and closing or some careless actions is effectively avoided, in addition, the structural design of the application is reasonable, the buffer is arranged in the outer mounting groove on the upper surface of the cross beam, and the pulley moves in the inner sliding rail groove on the side surface of the cross beam, thereby reducing the overall size and the occupied space of the shower room and being more beautiful.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic cross-sectional view of A-A of FIG. 3;

FIG. 5 is a partial enlarged view of a in FIG. 3;

FIG. 6 is a partial enlarged view of b in FIG. 3;

FIG. 7 is a schematic structural view of a first water-retaining rubber strip, a second water-retaining rubber strip and a third water-retaining rubber strip of the present invention;

FIG. 8 is a schematic diagram of a buffer according to the present invention;

FIG. 9 is an exploded view of a buffer according to the present invention.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, 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 utility model and are not intended to limit the utility model.

When embodiments of the present invention refer to the ordinal numbers "first", "second", etc., it should be understood that the words are used for distinguishing between them unless the context clearly dictates otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In a specific embodiment, as shown in fig. 1 to 9, the sliding bathroom door with a buffering function includes a cross beam 1, a fixed glass door 2, a sliding glass door 4, a buffer 3, and a pulley 5 fixedly mounted on the sliding glass door 4, wherein an outer mounting groove 8 for mounting the buffer 3 is provided on an upper surface of the cross beam 1, an inner sliding rail groove 9 is provided on one side surface of the cross beam 1, the pulley 5 is connected with the inner sliding rail groove 9 in a matching manner, so that the sliding glass door 4 is movably mounted on the cross beam 1, a contact hook 10 is provided on the pulley 5, and one end of the contact hook 10 extends into the outer mounting groove 8 and contacts with the buffer 3 or is separated from the buffer 3 along with the movement of the sliding glass door 4. When sliding glass door 4 is close to the door frame at crossbeam 1 both ends, through contact couple 10 contact and compression buffer 3, so that sliding glass door 4 obtains the buffering of slowing down, the effectual impact that has avoided switch door or some careless actions to make sliding glass door 4 collides the damage that causes at crossbeam 1 both ends door frame, and this application structural design is reasonable, locate buffer 3 in the outer mounting groove 8 of crossbeam 1 upper surface, pulley 5 moves about in the interior slide rail groove 9 of crossbeam 1 side surface, thereby the holistic size and occupation space of shower room have been reduced, and more pleasing to the eye.

Specifically, the buffer 3 comprises a mounting shell 31, a contact clamping piece 32 and a buffer component 33 connected with the contact clamping piece 32 are arranged in the mounting shell 31, and when the sliding glass door 4 is close to the buffer 3, the contact hook 10 moves in the outer mounting groove 8 to contact and push the contact clamping piece 32, so that the contact clamping piece 32 compresses the buffer component 33.

Preferably, the buffer assembly 33 includes a buffer damping cylinder 331 and a return spring 332, and the contact latch 32 is connected to the buffer damping cylinder 331 and the return spring 332, respectively. When the contact latch 10 touches and pushes the contact latch 32 to move, the contact latch 32 compresses the buffer damping cylinder 331 and the return spring 332 to perform a buffering function, and when the contact latch 10 is separated from the contact latch 32, the contact latch 32 is returned to a state before the buffer 3 is compressed by the return spring 332.

Preferably, the contact latch 32 includes a contact portion 321 extending to the outside of the mounting housing 31 and a sliding portion 322 slidably disposed in the mounting housing 31, the contact portion 321 includes a first contact 321a and a second contact 321b, a sliding fixing groove 11 for moving the sliding portion 322 is disposed on a side wall of the mounting housing 31 parallel to the direction in which the contact latch 32 moves, the sliding fixing groove 11 includes a sliding groove 111 and a fixing groove 112, the fixing groove 112 is located at the head end of the sliding groove 111 along the direction in which the return spring 332 is deformed to store energy, and extends in the opposite direction to the direction in which the contact portion 321 extends to the outside of the mounting housing 31, the sliding portion 322 includes a sliding block 322a and a first sliding pin 322b and a second sliding pin 322c disposed at both sides of the sliding block 322a and extending into the sliding fixing groove 11, the damping cylinder 331 is hinged to the contact latch 32, so that the second contact point 321b is rotatably sunk into the mounting case 31 when the second sliding pin 322c is slid to the fixing groove 112. When the sliding glass door 4 approaches the buffer 3, the contact hook 10 moves in the outer mounting groove 8 to contact and push the first contact 321a, the first contact 321a drives the sliding part 322 to slide in the sliding fixing groove 11 and compress the buffer damping cylinder 331 and the return spring 332, and the contact hook 10 is located between the first contact 321a and the second contact 321 b; when the sliding glass door 4 is far away from the buffer 3, the contact hook 10 moves in the outer mounting groove 8 to contact and push the second contact 321b until the second sliding pin 322c slides into the fixing groove 112, the second contact is sunk into the mounting housing 31, the contact hook 10 is separated from the second contact 321b, at this time, the buffer damping cylinder 331 and the return spring 332 are in a normal state, and therefore the second sliding pin 322c remains in the fixing groove 112, i.e., the second contact is sunk into the mounting housing 31, so that when the sliding glass door 4 approaches the buffer 3 again, the contact hook 10 firstly contacts the first contact 321 a.

Furthermore, one end of the beam 1 is provided with a fixed frame 6, the fixed glass door 2 is installed on the beam 1 and the fixed frame 6, the other end of the beam 1 is provided with a wall sleeve 7, and the number of the buffers 3 is two, and the two buffers comprise a first buffer arranged at one end of the inner slide rail groove 9 close to the fixed frame 6 and a second buffer arranged at one end of the inner slide rail groove 9 close to the wall sleeve 7; when the door is opened, the sliding glass door 4 drives the contact point hook 10 to move towards the direction of the fixed frame 6 to be separated from the second buffer and approach to contact with the first buffer, and the sliding glass door 4 is decelerated and buffered by the first buffer; when the door is closed, the sliding glass door 4 drives the contact hook 10 to move towards the wall sleeve 7 to be separated from the first buffer and approach to contact the second buffer, and the sliding glass door 4 is decelerated and buffered by the second buffer.

In addition, a first water retaining rubber strip 12 is arranged on the edge of one side of the sliding glass door 4, which is far away from the fixed glass door 2, and an inclined margin 13 which extends along the direction far away from the sliding glass door 4 and is back to the fixed glass door 2 and is obliquely arranged is arranged on one side of the first water retaining rubber strip 12, which is far away from the fixed glass door 2. The first water-retaining rubber strip 12 and the inclined margin 13 can effectively prevent water from splashing outwards.

Further, a second water-retaining rubber strip 14 is arranged on the edge of one side of the sliding glass door 4 close to the fixed glass door 2, and a first parallel margin 15 is arranged on one side of the second water-retaining rubber strip 14 close to the fixed glass door 2. Can shelter from the gap between the fixed glass door 2 and the sliding glass door 4, and has the function of resilience type water retaining.

Specifically, a third water-retaining rubber strip 16 is arranged on the edge of one side of the fixed glass door 2 close to the sliding glass door 4, and a second parallel margin 17 is arranged on one side of the third water-retaining rubber strip 16 close to the sliding glass door 4, so that a gap between the fixed glass door 2 and the sliding glass door 4 can be shielded, and the door has a resilience water-retaining function. More specifically, the first parallel margin 15 is perpendicular to the fixed glass door 2 and the second parallel margin 17 is perpendicular to the sliding glass door 4, enhancing the overall waterproof performance.

Further, the pulleys 5 are provided with at least two, preferably two, and the two pulleys 5 are horizontally fixed at two ends of the top of the sliding glass door 4, so that the use stability is ensured.

The utility model relates to a push-pull bathroom door with a buffering function, wherein the upper surface of a cross beam is provided with an outer mounting groove for mounting a buffer, one side surface of the cross beam is provided with an inner sliding rail groove, a pulley is matched and connected with the inner sliding rail groove so as to ensure that a sliding glass door is movably mounted on the cross beam, the pulley is provided with a contact hook, one end of the contact hook extends into the outer mounting groove and contacts with or separates from the buffer along with the movement of the sliding glass door, when the sliding glass door is close to door frames at two ends of the cross beam, the contact hook is contacted with and compresses the buffer so as to ensure that the sliding glass door is subjected to speed reduction and buffering, the damage caused by the impact force of the sliding glass door colliding with the door frames at two ends of the cross beam due to door opening and closing or some careless actions is effectively avoided, in addition, the structural design of the application is reasonable, the buffer is arranged in the outer mounting groove at the upper surface of the cross beam, and the pulley moves in the inner sliding rail groove at the side surface of the cross beam, thereby reducing the overall size and the occupied space of the shower room and being more beautiful.

The above description is provided for one embodiment of the present invention, and the embodiments of the present invention are not limited to these descriptions, and the present invention is not limited to the above nomenclature and the English nomenclature since the trade nomenclature is different. Similar or identical methods, structures and the like as those of the present invention or several technical deductions or substitutions made on the premise of the conception of the present invention should be considered as the protection scope of the present invention.

Claims (10)

1. A push-pull bathroom door with a buffering function comprises a cross beam (1), a fixed glass door (2) arranged on the cross beam (1), a sliding glass door (4), a buffer (3) and a pulley (5) fixedly arranged on the sliding glass door (4), it is characterized in that the upper surface of the beam (1) is provided with an outer mounting groove (8) for mounting the buffer (3), an inner slide rail groove (9) is arranged on one side surface of the cross beam (1), the pulley (5) is connected with the inner slide rail groove (9) in a matching way, so that the sliding glass door (4) is movably arranged on the cross beam (1), be equipped with contact couple (10) on pulley (5), contact couple (10) one end stretch into to in outer mounting groove (8) and along with sliding glass door (4) activity and contact buffer (3) or break away from buffer (3).

2. The sliding bathroom door with buffering function according to claim 1, wherein the buffer (3) comprises a mounting housing (31), a contact latch (32) and a buffering component (33) connected with the contact latch (32) are arranged in the mounting housing (31), when the sliding glass door (4) approaches the buffer (3), the contact hook (10) moves in the outer mounting groove (8) to contact and push the contact latch (32), so that the contact latch (32) compresses the buffering component (33).

3. The sliding bathroom door with buffering function according to claim 2, wherein the buffering assembly (33) comprises a buffering damping cylinder (331) and a return spring (332), and the contact latch (32) is connected with the buffering damping cylinder (331) and the return spring (332), respectively.

4. The sliding bathroom door with buffering function according to claim 3, wherein the contact latch (32) comprises a contact portion (321) extended to the outside of the installation housing (31) and a sliding portion (322) slidably disposed in the installation housing (31), the contact portion (321) comprises a first contact (321a) and a second contact (321b), a sliding fixing groove (11) for moving the sliding portion (322) is provided on a sidewall of the installation housing (31) parallel to the direction in which the contact latch (32) moves, the sliding fixing groove (11) comprises a sliding groove (111) and a fixing groove (112), the fixing groove (112) is located at the head end of the sliding groove (111) along the direction in which the return spring (332) is deformed to store energy, and extends in the opposite direction in which the contact portion (321) protrudes outside of the installation housing (31), the sliding part (322) comprises a sliding block (322a), a first sliding pin (322b) and a second sliding pin (322c), wherein the first sliding pin (322b) and the second sliding pin (322c) are arranged on two sides of the sliding block (322a) in a front-back mode and extend into the sliding fixing groove (11), the buffering damping cylinder (331) is hinged to the contact clamping piece (32), so that when the second sliding pin (322c) slides to the fixing groove (112), the second contact (321b) is sunk into the mounting shell (31) in a rotating mode.

5. The push-pull bathroom door with the buffering function as claimed in claim 1, wherein a fixed frame (6) is provided at one end of the beam (1), the fixed glass door (2) is mounted on the beam (1) and the fixed frame (6), a wall sleeve (7) is provided at the other end of the beam (1), and two buffers (3) are provided, including a first buffer provided at one end of the inner slide rail groove (9) close to the fixed frame (6) and a second buffer provided at one end of the inner slide rail groove (9) close to the wall sleeve (7); when the door is opened, the sliding glass door (4) drives the contact point hook (10) to move towards the fixed frame (6) to be separated from the second buffer and to be close to and contact with the first buffer; when the door is closed, the sliding glass door (4) drives the contact hook (10) to move towards the wall sleeve (7) to separate from the first buffer and approach to contact the second buffer.

6. The push-pull bathroom door with a buffering function according to claim 1, characterized in that a side edge of the sliding glass door (4) far away from the fixed glass door (2) is provided with a first water-retaining rubber strip (12), and a side of the first water-retaining rubber strip (12) far away from the fixed glass door (2) is provided with an inclined margin (13) extending in a direction far away from the sliding glass door (4) and obliquely arranged opposite to the fixed glass door (2).

7. Sliding shower door with damping function according to claim 1, characterised in that the sliding glass door (4) is provided with a second water-retaining strip (14) at its side edge close to the fixed glass door (2), the second water-retaining strip (14) being provided with a first parallel margin (15) at its side close to the fixed glass door (2).

8. Sliding shower door with damping function according to claim 7, characterised in that the fixed glass door (2) is provided with a third water-retaining strip (16) at its side edge close to the sliding glass door (4), and the third water-retaining strip (16) is provided with a second parallel margin (17) at its side close to the sliding glass door (4).

9. Sliding shower door with damping function according to claim 8, characterised in that the first parallel margin (15) is perpendicular to the fixed glass door (2) and the second parallel margin (17) is perpendicular to the sliding glass door (4).

10. Sliding shower door with damping function according to claim 1, characterised in that the pulleys (5) are provided in at least two.

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