CN216043266U - Buffer and shower room door - Google Patents

Abstract

The utility model relates to the technical field of shower rooms, in particular to a buffer, which comprises a buffer shell, wherein an installation seat capable of sliding in an inner cavity of the buffer shell and a contact clamping piece arranged on the installation seat and used for driving the installation seat to slide are arranged in the buffer shell, and a buffer assembly used for limiting the installation seat to slide is arranged between the installation seat and the buffer shell. The utility model also discloses a shower room door which comprises a cross beam, a fixed glass door fixedly arranged on the cross beam and a sliding glass door arranged on the cross beam in a sliding manner, wherein the cross beam is provided with the buffer used for buffering the sliding glass door. The buffer and the shower door provided by the utility model can effectively prevent the shower door from colliding against a side beam of a door plate or a wall surface quickly, so that the structural damage of the shower door caused by frequent collision is effectively avoided, the service life of the shower door is prolonged, and the user experience is improved.

Description

Buffer and shower room door

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of shower rooms, in particular to a buffer and a shower room door.

[ background of the utility model ]

Along with people's improvement of standard of living, modern house is increasingly high to the requirement of bathroom facility, the shower door is generally equipped with the pulley, it slides to easily drive the shower door through the pulley, in order to prevent that the shower door from at the gliding in-process of push-and-pull and wall or door plant curb girder violent striking, current shower door generally sets up the snubber block with wall or door plant curb girder junction, although the snubber block has certain shock attenuation effect, but if the speed of push-and-pull shower door is too fast, the shower door will inevitably bump against door plant curb girder or wall fast, frequent striking causes destruction to the structure of shower door easily, influence the normal use of shower door.

[ Utility model ] content

The utility model aims to provide a buffer and a shower door, and solves the problem that in the prior art, the shower door is easy to collide with a side beam of a door panel or a wall surface to damage the structure of the shower door.

In order to solve the above problems, the present invention provides the following technical solutions:

the utility model provides a buffer, includes the buffer casing, be equipped with in the buffer casing and can be at the gliding mount pad of buffer casing inner chamber to and locate and be used for driving the gliding contact fastener of mount pad on the mount pad, the mount pad with be equipped with between the buffer casing and be used for restricting the gliding buffering subassembly of mount pad.

As above the buffer, the buffering subassembly includes piston cylinder, piston rod and reset spring, piston cylinder and buffer casing fixed connection, piston rod one end stretches into in the piston cylinder and the other end and mount pad fixed connection, reset spring sets up and one end along piston rod length direction supports the link at piston rod and mount pad, and the other end supports the outer wall of establishing at the piston cylinder, the contact fastener drives during the mount pad motion, reset spring compression deformation is in order to restrict the mount pad motion.

According to the buffer, the contact clamping piece is arranged at one end of the mounting seat, the piston rod is fixedly arranged at one end, far away from the contact clamping piece, of the mounting seat, and when the contact clamping piece moves towards the direction far away from the piston cylinder to drive the mounting seat to move, the reset spring compresses and deforms to limit the movement of the mounting seat.

As above, the buffer, the contact fastener includes first contact, second contact, locates tentacle draw-in groove between first contact and the second contact and with mount pad articulated fastener articulated portion, be equipped with the gliding contact spout of confession contact fastener on the buffer casing, be equipped with on the contact spout lateral wall along the first guide rail of buffer casing depth direction extension and along the second guide rail of buffer casing length direction extension, first guide rail is located and is close to in the contact spout the one end of piston cylinder and with second guide rail fixed connection, the contact fastener is along keeping away from during the motion of piston cylinder direction, first contact slides to the second guide rail along first guide rail, the contact fastener is along being close to during the motion of piston cylinder direction, first contact slides to first guide rail along the second guide rail.

The buffer comprises a first contact, a second contact and a guide rail, wherein the first contact comprises a first contact body and a first sliding block which protrudes out of the surface of the first contact, two ends of the first sliding block are abutted in a contact sliding groove, the second contact comprises a second contact body and a second sliding block which protrudes out of the surface of the second contact body, two ends of the second sliding block are abutted in the contact sliding groove, the first guide rail is arranged between the first sliding block and a clamping piece hinging portion, and the second guide rail is arranged between the first sliding block and the clamping piece hinging portion and between the second sliding block and the clamping piece hinging portion.

According to the buffer, the mounting seat is provided with the fixing block connected with the piston rod, and the fixing block is fixedly connected with the mounting seat.

According to the buffer, the buffer shell comprises a lower shell and an upper shell covered with the lower shell, and a first limiting block and a second limiting block which are used for limiting the movement of the piston cylinder are respectively arranged at two ends of the piston cylinder between the lower shell and the upper shell.

The utility model provides a shower room door, includes the crossbeam, fixes fixed glass door and the slip glass door of locating on the crossbeam that is fixed, be equipped with on the crossbeam and be used for the buffering slip glass door as above the buffer.

As above shower room door, be equipped with the pulley on the slip glass door, be equipped with on the crossbeam and supply the gliding spout of pulley and with the mounting groove of the confession buffer installation of spout intercommunication, be equipped with on the pulley and be used for the contact and connect the tentacle of buffer, tentacle slides along with the pulley to when contacting with the buffer, the buffer drives the slip glass door buffering slides, tentacle slides along with the pulley to when breaking away from the buffer, the buffer is right the buffering is relieved to the slip glass door.

According to the shower room door, the number of the buffers is two, and the two buffers are respectively arranged at the two ends of the cross beam.

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

according to the buffer and the shower door provided by the utility model, when the shower door moves rapidly, the pulley on the shower door contacts the contact clamping piece on the buffer, the contact clamping piece moves along with the pulley to drive the mounting seat to slide in the inner cavity of the buffer shell, and meanwhile, the mounting seat is limited by the buffer component to enable the contact clamping piece to reduce the moving speed so as to buffer the shower door, so that the shower door is effectively prevented from colliding against a side beam or a wall surface of a door plate rapidly, the structural damage of the shower door due to frequent collision is effectively avoided, the service life of the shower door is prolonged, and the user experience is improved.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of a buffer according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a contact card according to an embodiment of the utility model.

Fig. 3 is an exploded view of a buffer according to an embodiment of the present invention.

Fig. 4 is an exploded view of a second buffer according to an embodiment of the present invention.

Fig. 5 is an exploded view of a buffer according to an embodiment of the present invention.

FIG. 6 is a first cross-sectional view of a bumper according to an embodiment of the present invention.

FIG. 7 is a second cross-sectional view of a bumper according to an embodiment of the present invention.

FIG. 8 is a cross-sectional view of a bumper according to an embodiment of the present invention.

Fig. 9 is a schematic structural view of a shower door according to an embodiment of the present invention.

Fig. 10 is an exploded view of a shower door in accordance with an embodiment of the present invention.

Fig. 11 is an enlarged view of a portion a in fig. 10.

Fig. 12 is a schematic structural view of a pulley according to an embodiment of the present invention.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, belong to the scope of the present invention.

Referring to fig. 1 to 12, the present embodiment provides a shower door, which includes a cross beam 1, a fixed glass door 2 fixedly disposed on the cross beam 1, and a sliding glass door 3 slidably disposed on the cross beam 1, wherein a buffer for buffering the sliding glass door 3 is disposed on the cross beam 1. The number of the buffers 8 is two, the two buffers 8 are respectively arranged at two ends of the cross beam 1, and the sliding glass door 3 can form buffering when sliding to any end on the cross beam 1, so that the sliding glass door 3 is more effectively prevented from colliding with a side beam of a wall or a door plate.

Be equipped with pulley 4 on the slip glass door 3, be equipped with on the crossbeam 1 and supply the gliding spout 11 of pulley 4 and with the mounting groove 12 of the confession buffer 8 installation of spout 11 intercommunication, be equipped with on the pulley 4 and be used for the contact and connect the tentacle 41 of buffer 8, tentacle 41 slides along with pulley 4 to when contacting with buffer 8, buffer 8 drives slip glass door 3 buffering slides, tentacle 41 slides along with pulley 4 to when breaking away from buffer 8, buffer 8 is right slip glass door 3 removes the buffering, simple structure, and buffering effect is good.

The buffer 8 comprises a buffer shell 81, a mounting seat 82 capable of sliding in the inner cavity of the buffer shell 81 is arranged in the buffer shell 81, a contact clamping piece 83 which is arranged on the mounting seat 82 and used for driving the mounting seat 82 to slide is arranged, and a buffer assembly 84 used for limiting the sliding of the mounting seat 82 is arranged between the mounting seat 82 and the buffer shell 81. When shower door fast move, 8 contact fastener 83 on the pulley 4 contact buffer on the shower door, contact fastener 83 moves along with pulley 4 and drives mount pad 82 and slide at buffer casing 81 inner chamber, thereby simultaneously because mount pad 82 receives the restriction of buffering subassembly 84 and makes contact fastener 83 reduce the translation rate and form the buffering to the shower door, effectively avoid the shower door to bump to door plant curb girder or wall fast, thereby effectively avoid the shower door to lead to structural damage because of frequent striking, be favorable to prolonging the life of shower door, promote user experience.

Further, buffering subassembly 84 includes piston cylinder 841, piston rod 842 and reset spring 843, piston cylinder 841 and buffer casing 81 fixed connection, piston rod 842 one end stretches into in the piston cylinder 841 and the other end and mount pad 82 fixed connection, reset spring 843 sets up and one end supports the link at piston rod 842 and mount pad 82 along piston rod 842 length direction, and the other end supports the outer wall of establishing at piston cylinder 841, contact fastener 83 drives during the motion of mount pad 82, reset spring 843 compression deformation is in order to restrict the motion of mount pad 82. In this embodiment, the reset spring 843 is sleeved outside the piston rod 842, and when the contact clamping piece 83 drives the mounting seat 82 to move, so that the piston rod 842 which is fixedly connected with the mounting seat 82 moves relative to the piston cylinder 841, at this moment, the reset spring 843 is compressed and has potential energy for restoring deformation, and resistance limitation is formed on the movement of the mounting seat 82, so that resistance is formed on the movement of the contact clamping piece 83 to enable the movement speed of the contact clamping piece 83 to slow down to achieve the buffering effect, and the embodiment has a simple structure and is convenient to install.

Preferably, the contact latch 83 is arranged at one end of the mounting seat 82, the piston rod 842 is fixedly arranged at one end of the mounting seat 82 far away from the contact latch 83, and when the contact latch 83 moves towards the direction far away from the piston barrel 841 to drive the mounting seat 82 to move, the return spring 843 is compressed and deformed to limit the movement of the mounting seat 82. The contact clamping piece 83 moves towards the direction close to the piston cylinder 842, the reset spring 843 deforms and recovers, so that preparation is made for next deformation energy storage, the contact clamping piece 83 is ingeniously connected through the mounting seat 82, so that the reset spring 843 is compressed and deformed to limit the movement of the contact clamping piece 83 when the contact clamping piece 83 drives the mounting seat 82 to move, the structure is simple, the reset spring 843 and the contact clamping piece 83 move more stably and smoothly under the guidance of the mounting seat 82, and a good buffering effect is achieved.

Further, the contact latch 83 includes a first contact 831, a second contact 832, a tentacle slot 833 disposed between the first contact 831 and the second contact 832, and a latch hinge 834 hinged to the mounting seat 82, the buffer housing 81 is provided with a contact sliding groove 811 for the contact latch 83 to slide, the side wall of the contact sliding groove 811 is provided with a first guide 812 extending along the depth direction of the buffer housing 81 and a second guide 813 extending along the length direction of the buffer housing 81, the first guide 812 is disposed at one end of the contact sliding groove 811 near the piston 841 and is fixedly connected to the second guide 813, when the contact latch 83 moves in a direction away from the plunger 841, the first contact 831 slides along the first rail 812 to the second rail 813, when the contact latch 83 moves in a direction approaching the piston 841, the first contact 831 slides along the second rail 813 to the first rail 812. When the first contact 831 is located on the first guide rail 812 and the second contact 832 is located on the second guide rail 813, the opening of the tentacle slot 833 is inclined to be ready for being connected with the tentacle 41 on the pulley 4, when the pulley 4 slides to the state that the tentacle 41 enters the tentacle slot 833, the tentacle 41 contacts the second contact 832 and pushes the second contact 832 to move, and meanwhile, the first contact 831 is driven to slide from the first guide rail 812 to the second guide rail 813, and when the first contact 831 and the second contact 832 both move on the second guide rail 813, the opening of the tentacle slot 833 is perpendicular to the buffer shell 81, so that the tentacle 41 is stably clamped in the tentacle slot 833; when the pulley 4 drives the tentacle 41 to move reversely, the tentacle 41 contacts and pushes the first contact 831 to move, and simultaneously drives the second contact 832 to move, and when the first contact 831 slides from the second guide rail 813 to the first guide rail 812, the opening of the tentacle slot 833 inclines so that the tentacle 41 is separated from the tentacle slot 833 and is ready for the next connection with the tentacle 41.

Further, the first contact 831 includes a first contact body 8311 and a first slider 8312 protruding from a surface of the first contact 831 and having two ends abutting against the contact sliding groove 811, the second contact 832 includes a second contact body 8321 and a second slider 8322 protruding from a surface of the second contact body 8321 and having two ends abutting against the contact sliding groove 811, the first guide 812 is disposed between the first slider 8312 and the clamping piece hinge 834, and the second guide 813 is disposed between the first slider 8312 and the clamping piece hinge 834 and between the second slider 8322 and the clamping piece hinge 834. The first slider 8312 and the second slider 8322 cooperate with the first guide 812 and the second guide 813 to make the first contact 831 and the second contact 832 slide more smoothly in the contact sliding groove 811.

Further, a fixing block 821 connected with the piston rod 842 is arranged on the mounting seat 82, and the fixing block 821 is fixedly connected with the mounting seat 82. Fixed block 821 can be dismantled and connect on mount pad 82, and the installation is more convenient.

Further, the damper housing 81 includes a lower housing 814 and an upper housing 815 covering the lower housing 814, and a first stopper 816 and a second stopper 817 for limiting the movement of the piston cylinder 841 are respectively disposed between the lower housing 814 and the upper housing 815 and at two ends of the piston cylinder 841. In this embodiment, the first stopper 816, the second stopper 817 and the upper housing 815 are integrally formed, and are connected to the lower housing 814 through bolts during installation, so that the installation is convenient, the limiting effect is good, and the movement of the piston cylinder 841 can be effectively limited.

According to the buffer and the shower door provided by the utility model, when the shower door moves rapidly, the pulley on the shower door contacts the contact clamping piece on the buffer, the contact clamping piece moves along with the pulley to drive the mounting seat to slide in the inner cavity of the buffer shell, and meanwhile, the mounting seat is limited by the buffer component to enable the contact clamping piece to reduce the moving speed so as to buffer the shower door, so that the shower door is effectively prevented from colliding against a side beam or a wall surface of a door plate rapidly, the structural damage of the shower door due to frequent collision is effectively avoided, the service life of the shower door is prolonged, and the user experience is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A damper comprising a damper housing (81), characterized in that: be equipped with in buffer casing (81) and can be in the gliding mount pad (82) of buffer casing (81) inner chamber to and locate and be used for driving gliding contact fastener (83) of mount pad (82) on mount pad (82), be equipped with between mount pad (82) and buffer casing (81) and be used for restricting gliding buffering subassembly (84) of mount pad (82), buffering subassembly (84) include piston cylinder (841), piston rod (842) and reset spring (843), piston cylinder (841) and buffer casing (81) fixed connection, piston rod (842) one end stretches into in piston cylinder (841) and the other end and mount pad (82) fixed connection, reset spring (843) set up and one end supports the link at piston rod (842) and mount pad (82) along piston rod (842) length direction, and the other end supports the outer wall of establishing at piston cylinder (841), when the contact clamping piece (83) drives the mounting seat (82) to move, the reset spring (843) compresses and deforms to limit the movement of the mounting seat (82).

2. The buffer of claim 1, wherein: contact fastener (83) are located the one end of mount pad (82), piston rod (842) are fixed and are located the one end of keeping away from contact fastener (83) on mount pad (82), when contact fastener (83) move and drive mount pad (82) motion towards keeping away from piston cylinder (841) direction, reset spring (843) compression deformation is in order to restrict mount pad (82) motion.

3. The buffer of claim 2, wherein: the contact clamping piece (83) comprises a first contact (831), a second contact (832), a tentacle clamping groove (833) arranged between the first contact (831) and the second contact (832), and a clamping piece hinging portion (834) hinged with the mounting seat (82), wherein a contact sliding groove (811) for the contact clamping piece (83) to slide is arranged on the buffer shell (81), a first guide rail (812) extending along the depth direction of the buffer shell (81) and a second guide rail (813) extending along the length direction of the buffer shell (81) are arranged on the side wall of the contact sliding groove (811), the first guide rail (812) is arranged in the contact sliding groove (811) and close to one end of the piston cylinder (841) and is fixedly connected with the second guide rail (813), and when the contact clamping piece (83) moves along the direction far away from the piston cylinder (841), the first contact (831) slides to the second guide rail (813) along the first guide rail (812), when the contact clamping piece (83) moves in the direction of approaching the piston cylinder (841), the first contact (831) slides to the first guide rail (812) along the second guide rail (813).

4. The buffer of claim 3, wherein: the first contact (831) comprises a first contact body (8311) and a first sliding block (8312) protruding out of the surface of the first contact (831) and two ends of the first sliding block are abutted in the contact sliding groove (811), the second contact (832) comprises a second contact body (8321) and a second sliding block (8322) protruding out of the surface of the second contact body (8321) and two ends of the second sliding block are abutted in the contact sliding groove (811), the first guide rail (812) is arranged between the first sliding block (8312) and the clamping piece hinging portion (834), and the second guide rail (813) is arranged between the first sliding block (8312) and the clamping piece hinging portion (834) and between the second sliding block (8322) and the clamping piece hinging portion (834).

5. The buffer of claim 1, wherein: and a fixing block (821) connected with the piston rod (842) is arranged on the mounting seat (82), and the fixing block (821) is fixedly connected with the mounting seat (82).

6. The buffer of claim 1, wherein: the buffer shell (81) comprises a lower shell (814) and an upper shell (815) covered with the lower shell (814), wherein a first limiting block (816) and a second limiting block (817) used for limiting the movement of the piston cylinder (841) are respectively arranged at two ends of the piston cylinder (841) between the lower shell (814) and the upper shell (815).

7. The utility model provides a shower room door, includes crossbeam (1), fixed glass door (2) and the slip glass door (3) of locating on crossbeam (1) that fixed locate on crossbeam (1), its characterized in that: the cross member (1) is provided with a damper (8) according to any one of claims 1 to 6 for damping the sliding glass door (3).

8. The shower door of claim 7, wherein: be equipped with pulley (4) on slip glass door (3), be equipped with on crossbeam (1) supply the gliding spout (11) of pulley (4) and with mounting groove (12) of confession buffer (8) installation of spout (11) intercommunication, be equipped with on pulley (4) and be used for the contact and connect buffer (8) tentacle (41), tentacle (41) slide along with pulley (4) to when contacting with buffer (8), buffer (8) drive slip glass door (3) buffering, tentacle (41) slide along with pulley (4) to when breaking away from buffer (8), buffer (8) are right slip glass door (3) unblock.

9. The shower door of claim 7, wherein: the number of the buffers (8) is two, and the two buffers (8) are respectively arranged at two ends of the cross beam (1).

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