CN215761112U - Shower room mute door closing buffer - Google Patents

Abstract

The utility model discloses a mute door closing buffer of a shower room, which comprises a sliding block and a buffer mechanism, wherein the sliding block is arranged on a door body, the buffer mechanism is arranged on a door frame, and the door body and the door frame are connected with the buffer mechanism through the sliding block; the sliding block is provided with a pulley piece and a connecting rod, the pulley piece is connected with the sliding block through the connecting rod, and the pulley piece moves along the door frame; the buffer mechanism comprises an installation shell, and a buffer assembly and a connecting block which are arranged in the installation shell, wherein the connecting block is movable relative to the installation shell, one end of the connecting block is connected with the buffer assembly, and the other end of the connecting block is exposed in the installation shell and connected with the connecting rod. The door has the advantage of buffering the door closing without influencing the sliding of the door body.

Description

Shower room mute door closing buffer

Technical Field

The utility model relates to the technical field of door body equipment, in particular to a mute door closing buffer for a shower room.

Background

At present, the movable glass door is more and more applied in a shower room due to the convenience. However, the existing movable glass door is usually opened and closed in a manner of sliding along the door frame, if the force is too large, the movable glass door can be quickly closed and collide with the door frame, and the phenomenon not only can cause great noise, but also can cause the movable glass door to be broken due to impact, thereby affecting the safety of users.

Further, although a part of the existing door bodies adopt a mode of buffering through the damper assembly, the moving distance of the moving glass door is limited by the mode, and even the moving glass door cannot slide along the door frame may be caused. And, the attenuator subassembly is generally installed in the track of door frame, need install the attenuator subassembly earlier during the installation and install the track again, when leading to the retooling, technical staff need remove the track earlier afterwards take out the damping subassembly from the track side again, and installation, maintenance are all inconvenient.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a mute door closing buffer for a shower room, which can buffer door closing on the premise of not influencing the sliding of a door body.

In order to solve the technical problem, the utility model provides a mute door closing buffer of a shower room, which comprises a sliding block and a buffer mechanism, wherein the sliding block is arranged on a door body, the buffer mechanism is arranged on a door frame,

the door body and the door frame are connected with the buffer mechanism through the sliding block;

the sliding block is provided with a pulley piece and a connecting rod, the pulley piece is connected with the sliding block through the connecting rod, and the pulley piece moves along the door frame;

the buffer mechanism comprises an installation shell, and a buffer assembly and a connecting block which are arranged in the installation shell, wherein the connecting block is movable relative to the installation shell, one end of the connecting block is connected with the buffer assembly, and the other end of the connecting block is exposed in the installation shell and connected with the connecting rod.

Preferably, the sliding block is provided with a first mounting hole and a second mounting hole, the first mounting hole is located above the second mounting hole, the pulley piece is provided with a mounting channel, and the connecting rod sequentially penetrates through the first mounting hole, the mounting channel and the second mounting hole.

Preferably, a clamping groove is formed in the sliding block and is installed on the door body.

Preferably, a first clamping groove is formed in the connecting block, and the connecting rod is exposed out of the second mounting hole and is mounted in the first clamping groove;

the first clamping groove is formed in the edge of the connecting block, so that the connecting rod and the first clamping groove are detachably connected.

Preferably, the buffering assembly comprises a damper and a buffering spring, the connecting block further comprises a second clamping groove and a third clamping groove, a pull rod of the damper is installed in the second clamping groove, and one end of the buffering spring is installed in the third clamping groove.

Preferably, a containing groove is formed in the mounting shell, and the damper is mounted in the containing groove;

an opening is formed in the accommodating groove and aligned with the connecting block, and a pull rod of the damper is connected with the second clamping groove through the opening.

Preferably, a fourth clamping groove is further formed in the mounting shell, and the other end of the buffer spring is mounted in the fourth clamping groove.

Preferably, an L-shaped long hole is formed in the mounting shell, a first sliding column and a second sliding column are arranged on the connecting block, and the first sliding column and the second sliding column are mounted in the L-shaped long hole and move along the length direction of the L-shaped long hole.

Preferably, the L-shaped long hole comprises a long section and a short section, and the long section is communicated with the short section;

when the second sliding column is positioned in the short strip section, the first sliding column is positioned in the long strip section, so that the first clamping groove is obliquely arranged, and the connecting rod is separated from the first clamping groove.

The implementation of the utility model has the following beneficial effects:

according to the utility model, the door body and the door frame are connected with the buffer mechanism through the sliding block, so that the sliding block drives the door body to slide along the door frame, and the door opening and closing effect is realized; and in the process of opening and closing the door, the buffer mechanism is dragged by the sliding block, so that potential energy is accumulated when the door is opened, and the potential energy is released when the door is closed, so that the function of buffering the door closing is realized.

The sliding block is provided with a pulley piece and a connecting rod, the pulley piece is connected with the sliding block through the connecting rod, and the pulley piece moves along the door frame to realize the function that the door body slides along the door frame.

On the other hand, the buffer mechanism comprises a mounting shell, and a buffer component and a connecting block which are arranged in the mounting shell, wherein the connecting block is movable relative to the mounting shell, one end of the connecting block is connected with the buffer component, and the other end of the connecting block is exposed out of the mounting shell and is connected with the connecting rod, so that the sliding block can drive the connecting block to move, and when the door is opened, the sliding block drives the connecting block to move and stretches the buffer component, so that the buffer component stores potential energy; when closing the door, the sliding block drive connecting block reverse movement for buffer assembly release potential energy and with connecting block looks butt, with the translation rate that slows down the connecting block, realize the buffering and close the door.

Drawings

FIG. 1 is a structural diagram of a mute door closing buffer of a shower room according to the present invention;

FIG. 2 is a structural view of the shower room silent door closing buffer shown in FIG. 1 at another angle;

FIG. 3 is a structural view of the damper mechanism shown in FIG. 1;

FIG. 4 is a coupling structure diagram of the buffering assembly and the connection block shown in FIG. 3;

FIG. 5 is a combined structure view of the mute door closing buffer, the door body and the door frame of the shower room of the present invention;

fig. 6 is a partial structural view at a shown in fig. 5.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the utility model is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the utility model.

With reference to fig. 1 to 6, the utility model provides a shower room mute door closing buffer, which comprises a sliding block 2 and a buffer mechanism 3, wherein the sliding block 2 is installed on a door body 11, and the buffer mechanism 3 is installed on a door frame 12. Wherein, the door frame 12 is provided with a track 121.

According to the utility model, the door body 11 and the door frame 12 are connected with the buffer mechanism 3 through the sliding block 2, so that the sliding block 2 drives the door body 11 to slide along the door frame 12, and the door opening and closing effect is realized; and in the process of opening and closing the door, the buffer mechanism 3 is dragged by the sliding block 2 to accumulate potential energy when the door is opened and release the potential energy when the door is closed so as to realize the function of buffering the door closing.

Specifically, with reference to fig. 1, fig. 2, fig. 5 and fig. 6, a pulley member 21 and a connecting rod 22 are arranged on the sliding block 2, the pulley member 21 is connected to the sliding block 2 through the connecting rod 22, and the pulley member 21 moves along the track 121 of the door frame 12, so as to realize the function that the door body 11 slides along the door frame 12. Further, a first mounting hole 24 and a second mounting hole 25 are formed in the sliding block 2, the first mounting hole 24 is located above the second mounting hole 25, a mounting channel 211 is formed in the pulley member 21, and the connecting rod 22 sequentially penetrates through the first mounting hole 24, the mounting channel 211 and the second mounting hole 25 from top to bottom, so that the pulley member 21 can drive the sliding block 2 to move along the track 121 of the door frame 12. And, a clamping groove 23 is arranged in the sliding block 2, and the clamping groove 23 is installed on the door body 11, so that the sliding block 2 can drive the door body 11 to move together.

On the other hand, referring to fig. 1 to 5, in order to ensure that the door 11 can slide along the door frame 12 and achieve buffering door closing, the buffering mechanism 3 includes a mounting shell 31, and a buffering component 33 and a connecting block 32 which are arranged in the mounting shell 31, the connecting block 32 is movable relative to the mounting shell 31, one end of the connecting block 32 is connected to the buffering component 33, and the other end of the connecting block 32 is exposed from the mounting shell 31 and connected to the connecting rod 22, so that the sliding block 2 can drive the connecting block 32 to move, and when the door is opened, the sliding block 2 drives the connecting block 32 to move and stretches the buffering component 33, so that the buffering component 33 stores potential energy; when the door is closed, the sliding block 2 drives the connecting block 32 to move reversely, so that the buffer component 33 releases potential energy and abuts against the connecting block 32 to slow down the moving speed of the connecting block 32, and the buffer door closing is realized. Specifically, in order to further realize the linkage between the sliding block 2 and the buffer mechanism 3, a first clamping groove 321 is provided on the connecting block 32, and the connecting rod 22 is exposed from the second mounting hole 25 and is mounted in the first clamping groove 321, so that the pulley member 21 can drive the connecting block 32 to slide together.

Further, for better realization of the buffering function, the buffering component 33 includes a damper 331 and a buffering spring 332, the connecting block 32 further includes a second clamping groove 322 and a third clamping groove 323, a pull rod of the damper 331 is installed in the second clamping groove 322, and one end of the buffering spring 332 is installed in the third clamping groove 323, so as to realize linkage between the connecting block 32 and the damper 331, the buffering spring 332. Further, a containing groove 311 is formed in the mounting shell 31, and the damper 331 is installed in the containing groove 311, so that the mounting and dismounting of technicians are facilitated. The opening 312 is disposed in the accommodating groove 311, the opening 312 is aligned with the connecting block 32, the pull rod of the damper 331 is connected to the second clamping groove 322 of the connecting block 32 through the opening 312, so that when the connecting block 32 is far away from the damper 331, the pull rod can be stretched to store potential energy, and when the connecting block 32 approaches the damper 331 again, the pull rod is compressed by a force, so that the damper 331 generates a damping force to the connecting block 32 to slow down the moving speed of the connecting block 32. In addition, a fourth clamping groove 313 is further arranged in the mounting shell 31, and the other end of the buffer spring 332 is mounted in the fourth clamping groove 313, so that when the connecting block 32 is far away from the damper 331, the buffer spring 332 can be stretched together, and when the connecting block 32 approaches the damper 331 again, the buffer spring 332 releases the elastic potential energy thereof to reset, and generates a pulling force on the connecting block 32 to drive the connecting block 32 to reset, thereby realizing an automatic buffering door closing function.

The cushion mechanism 3 may be attached to not only the door frame 12 located below the door 11 as shown in fig. 5, but also the door frame 12 located above the door 11 to prevent water from splashing on the door frame 12 located below the door 11 during bathing.

Therefore, the present invention has a function of buffering the door closing while ensuring that the door body 1 can slide along the doorframe 12.

In addition, referring to fig. 1, 3 and 5, in order to avoid the limitation on the opening of the door 11, the first clamping groove 321 is disposed at the edge of the connecting block 32, so that the connecting rod 22 and the first clamping groove 321 are detachably connected, and the sliding block 2 can be separated from the connecting block 32 after moving a certain distance, so that the door 11 can stay within a certain range; when the door 11 is closed, the sliding block 2 is installed into the first clamping groove 321 again to drive the connecting block 32 to abut against the buffer assembly 33.

Specifically, an L-shaped long hole 314 is formed in the mounting shell 31, a first sliding column 324 and a second sliding column 325 are arranged on the connecting block 32, and the first sliding column 324 and the second sliding column 325 are mounted in the L-shaped long hole 314 and move along the length direction thereof to limit the moving distance of the connecting block 32, so that when the sliding block 2 is away from the L-shaped long hole 314, the connecting block 32 cannot move together with the sliding block 2, and the connecting rod 22 can be separated from the first clamping groove 321. Further, the L-shaped long hole 314 includes a long section 315 and a short section 316, the long section 315 is communicated with the short section 316, when the sliding block 2 moves away from the L-shaped long hole 314, the second sliding column 325 moves from the long section 315 into the short section 316, and the first sliding column 324 is located in the long section 315, so that the connecting block 32 becomes inclined toward the moving direction of the sliding block 2, so that the first clamping groove 321 becomes inclined, and the connecting rod 22 is convenient to disengage from the first clamping groove 321; when the sliding block 2 approaches the L-shaped long hole 314 again, the connecting rod 22 is installed in the first clamping groove 321 again, so that the sliding block 2 drives the second sliding column 325 to return from the short segment 316 to the long segment 315. When the sliding block 2 is far away from the L-shaped long hole 314, the second sliding column 325 is located in the short segment 316, and the second sliding column 325 is abutted against the short segment 316 due to the pulling force of the buffer assembly 33 on the connecting block 32, so that the connecting block 32 is always in an inclined state and remains still when the sliding block 2 does not apply force to the connecting block 32 again.

The working principle of the utility model is as follows:

the sliding block 2 is provided with a pulley member 21 and a connecting rod 22, the pulley member 21 is connected with the sliding block 2 through the connecting rod 22, and the pulley member 21 moves along the track 121 of the door frame 12, so as to realize the function that the door body 11 slides along the door frame 12.

The buffer mechanism 3 comprises a mounting shell 31, and a buffer component 33 and a connecting block 32 which are arranged in the mounting shell 31, wherein the connecting block 32 is movable relative to the mounting shell 31, one end of the connecting block 32 is connected with the buffer component 33, the other end of the connecting block 32 is exposed out of the mounting shell 31 and is connected with the connecting rod 22, so that the sliding block 2 can drive the connecting block 32 to move, and when the door is opened, the sliding block 2 drives the connecting block 32 to move and stretches the buffer component 33, so that the buffer component 33 stores potential energy; when the door is closed, the sliding block 2 drives the connecting block 32 to move reversely, so that the buffer component 33 releases potential energy and abuts against the connecting block 32 to slow down the moving speed of the connecting block 32, and the buffer door closing is realized.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the utility model.

Claims (9)

1. A mute door closing buffer of a shower room comprises a sliding block and a buffer mechanism, wherein the sliding block is arranged on a door body, the buffer mechanism is arranged on a door frame, and the mute door closing buffer is characterized in that,

the door body and the door frame are connected with the buffer mechanism through the sliding block;

the sliding block is provided with a pulley piece and a connecting rod, the pulley piece is connected with the sliding block through the connecting rod, and the pulley piece moves along the door frame;

the buffer mechanism comprises an installation shell, and a buffer assembly and a connecting block which are arranged in the installation shell, wherein the connecting block is movable relative to the installation shell, one end of the connecting block is connected with the buffer assembly, and the other end of the connecting block is exposed in the installation shell and connected with the connecting rod.

2. The shower room mute door closing buffer of claim 1, wherein the sliding block is provided with a first mounting hole and a second mounting hole, the first mounting hole is located above the second mounting hole, the pulley member is provided with a mounting channel, and the connecting rod passes through the first mounting hole, the mounting channel and the second mounting hole in sequence.

3. The shower room mute door closing buffer according to claim 1, wherein a slot is arranged in the sliding block, and the slot is mounted on the door body.

4. The shower room mute door closing buffer as claimed in claim 2, wherein a first clamping groove is provided on the connecting block, the connecting rod is exposed from the second mounting hole and is mounted in the first clamping groove;

the first clamping groove is formed in the edge of the connecting block, so that the connecting rod and the first clamping groove are detachably connected.

5. The shower room mute door closing buffer of claim 4, wherein the buffer assembly comprises a damper and a buffer spring, the connecting block further comprises a second clamping groove and a third clamping groove, the pull rod of the damper is installed in the second clamping groove, and one end of the buffer spring is installed in the third clamping groove.

6. The shower room mute door closing buffer of claim 5, wherein a receiving groove is provided in the mounting shell, and the damper is mounted in the receiving groove;

an opening is formed in the accommodating groove and aligned with the connecting block, and a pull rod of the damper is connected with the second clamping groove through the opening.

7. The shower room mute door closing buffer as claimed in claim 6, wherein a fourth clamping groove is further provided in the installation shell, and the other end of the buffer spring is installed in the fourth clamping groove.

8. The shower room mute door closing buffer as claimed in claim 4, wherein an L-shaped slot is provided in the mounting housing, and a first sliding column and a second sliding column are provided on the connecting block, the first sliding column and the second sliding column being installed in the L-shaped slot and moving along the length direction thereof.

9. The shower room silent door closing buffer of claim 8, wherein said L-shaped elongated hole comprises a long section and a short section, said long section and said short section being in communication;

when the second sliding column is positioned in the short strip section, the first sliding column is positioned in the long strip section, so that the first clamping groove is obliquely arranged, and the connecting rod is separated from the first clamping groove.

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