CN115813136A

CN115813136A - Sliding rail structure capable of being repeatedly and circularly restored based on law of physics

Info

Publication number: CN115813136A
Application number: CN202211088760.3A
Authority: CN
Inventors: 皇甫小青; 李晨; 王燕琴
Original assignee: Hangzhou Sanqi Construction Development Co ltd
Current assignee: Hangzhou Sanqi Construction Development Co ltd
Priority date: 2022-09-07
Filing date: 2022-09-07
Publication date: 2023-03-21
Anticipated expiration: 2042-09-07
Also published as: CN115813136B

Abstract

The invention relates to the technical field of sliding rails, in particular to a sliding rail structure capable of being repeatedly and circularly restored based on a physical law; including track and playback module, the playback module includes sliding assembly, first spliced pole, the connecting block, the haulage rope, cooperation rail and gravity piece, sliding assembly is connected with track and first spliced pole respectively, the one end fixed connection of connecting block and first spliced pole, cooperation rail and track fixed connection, and be located orbital below, be provided with the gravity piece on the cooperation rail, the one end and the first spliced pole fixed connection of haulage rope, the other end of haulage rope runs through the gravity piece, fix the drawer through the connecting block, the pulling drawer, drive sliding assembly and haulage rope remove, haulage rope pulling gravity piece, use behind the drawer, release the drawer, under the gravity of gravity piece, the haulage rope stimulates first spliced pole, until the drawer is closed, obtain carrying out automatic playback to the connecting block, avoid the ability of homing to weaken, the effect of improvement structural stability.

Description

Sliding rail structure capable of being repeatedly and circularly restored based on physical law

Technical Field

The invention relates to the technical field of sliding rails, in particular to a sliding rail structure capable of being repeatedly and circularly restored based on a physical law.

Background

At present, when the drawer is reset, a spring is arranged on the drawer, and the tail end is automatically reset through the spring. However, after the spring is used for a long time, the elasticity of the spring is weakened, so that the resetting fitting degree is not enough, the resetting capability is weakened, and the structural stability is reduced.

Disclosure of Invention

The invention aims to provide a slide rail structure capable of being repeatedly and circularly reset based on a physical law, and solves the problems that the reset attaching degree is not enough and the resetting capability is weakened due to weakened reset elasticity, so that the structural stability is reduced.

In order to achieve the purpose, the sliding rail structure capable of being repeatedly and circularly restored based on the physical law comprises a rail and a restoring module;

the homing module comprises a sliding assembly, a first connecting column, a connecting block, a traction rope, a matching rail and a gravity block, wherein the sliding assembly is connected with the rail and the first connecting column respectively, the connecting block is fixedly connected with one end of the first connecting column, the matching rail is fixedly connected with the rail and positioned below the rail, the gravity block is arranged on the matching rail, one end of the traction rope is fixedly connected with the first connecting column, and the other end of the traction rope penetrates through the gravity block.

The homing module further comprises a fixed L block, a pushing spring and a pushing block, the fixed L block is fixedly connected with the track, and two ends of the pushing spring are respectively fixedly connected with the fixed L block and the pushing block.

The homing module further comprises a sleeve and a moving rod, the sleeve is fixedly connected with the fixed L block, one end of the moving rod is connected with the sleeve in a sliding mode, and the other end of the moving rod is fixedly connected with the pushing block.

The sliding assembly comprises a first ball and a first ball, the first ball is fixedly connected with the first connecting column and is located at one end, far away from the first connecting column, of the connecting block, the first ball is connected with the first ball in a rotating mode, and the first ball is arranged in the track in a sliding mode.

The sliding rail structure capable of being repeatedly and circularly restored based on the law of physics further comprises auxiliary components, and the auxiliary components are respectively connected with the gravity block and the matching rail.

Wherein, the auxiliary assembly includes second spliced pole, second ball and second ball, the one end of second spliced pole with gravity piece fixed connection, the second ball with the other end of second spliced pole rotates to be connected, the second ball with the second ball rotates to be connected to slide set up in the cooperation rail.

Wherein, the auxiliary component still includes the triangle fender bracket, the triangle fender bracket with track fixed connection, just the gravity piece set up in the inside of triangle fender bracket.

According to the sliding rail structure capable of being repeatedly and circularly reset based on the law of physics, the drawer is fixed by the connecting block, the drawer is pulled to drive the sliding assembly and the traction rope to move, the traction rope pulls the gravity block, the drawer is released after the drawer is used, and the traction rope pulls the first connecting column under the gravity of the gravity block until the drawer is closed, so that the connecting block is automatically reset, the reset capability is prevented from being weakened, and the structural stability is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is an overall configuration diagram of the first embodiment of the present invention.

Fig. 2 is an overall structural front view of the first embodiment of the present invention.

Fig. 3 is an enlarged view of a portion of the structure of fig. 2 according to the present invention.

Fig. 4 is a structural internal sectional view of a rail according to a first embodiment of the present invention.

Fig. 5 is an overall structural front view of the second embodiment of the present invention.

Fig. 6 is a structural internal sectional view of a rail according to a second embodiment of the present invention.

Fig. 7 is an overall configuration diagram of the third embodiment of the present invention.

Fig. 8 is a structural internal sectional view of a gravity block of a third embodiment of the present invention.

Fig. 9 is an enlarged view of a portion of the structure of fig. 8B according to the present invention.

101-rail, 102-first ball, 103-first ball, 104-first connecting column, 105-connecting block, 106-traction rope, 107-matching rail, 108-gravity block, 109-fixed L block, 110-pushing spring, 111-pushing block, 112-sleeve, 113-moving rod, 201-second connecting column, 202-second ball, 203-second ball, 204-triangular protective frame, 301-penetrating column, 302-baffle, 303-inclined block, 304-supporting spring, 305-outer cylinder, 306-inner rod, 307-bundle ring, 308-arc ring, 309-penetrating groove and 310-installation cavity.

Detailed Description

The first embodiment is:

referring to fig. 1 to 4, fig. 1 is a schematic structural diagram of the whole of the first embodiment, fig. 2 is a front structural view of the whole of the first embodiment, fig. 3 is an enlarged view of a partial structure at a of fig. 2, and fig. 4 is a cross-sectional view of the inside of the structure of the track of the first embodiment.

The invention provides a slide rail structure capable of being repeatedly and circularly restored based on a physics law, which comprises a rail 101 and a restoring module;

the homing module comprises a sliding assembly, a first connecting column 104, a connecting block 105, a traction rope 106, a matching rail 107, a gravity block 108, a fixed L block 109, a pushing spring 110, a pushing block 111, a sleeve 112 and a moving rod 113, wherein the sliding assembly comprises a first ball 102 and a first ball 103;

to this embodiment, the sliding assembly respectively with the track 101 with first spliced pole 104 is connected, connecting block 105 with the one end fixed connection of first spliced pole 104, cooperation rail 107 with track 101 fixed connection, and be located the below of track 101, be provided with on the cooperation rail 107 gravity piece 108, the one end of haulage rope 106 with first spliced pole 104 fixed connection, the other end of haulage rope 106 runs through gravity piece 108, the fixed drawer of connecting block 105, the pulling drawer drives sliding assembly with haulage rope 106 removes, haulage rope 106 stimulates gravity piece 108 uses the drawer, releases the drawer under the gravity of gravity piece 108, haulage rope 106 is right first spliced pole 104 stimulates until the drawer is closed, obtains right connecting block 105 carries out the automatic homing, avoids homing ability to weaken, improves structural stability's effect.

Wherein, fixed L piece 109 with track 101 fixed connection, the both ends that promote spring 110 respectively with fixed L piece 109 with promote piece 111 fixed connection, when opening the drawer, press the drawer, the drawer extrusion promote piece 111, this moment promote spring 110 compression to have the resilience force, loosen promote piece 111 back promote under the resilience force of spring 110, promote piece 111 and promote the drawer and remove, thereby make and produce the gap between drawer and the table body, personnel's accessible gap opens the drawer.

Secondly, the sleeve 112 is fixedly connected with the fixed L-shaped block 109, one end of the moving rod 113 is slidably connected with the sleeve 112, the other end of the moving rod 113 is fixedly connected with the pushing block 111, the moving rod 113 slides in the sleeve 112, and the moving rod 113 is matched with the sleeve 112, so that the stability of the pushing spring 110 is improved.

Meanwhile, the first ball 102 is fixedly connected with the first connecting column 104 and is located at one end of the first connecting column 104 far away from the connecting block 105, the first ball 103 is rotatably connected with the first ball 102, the first ball 103 is slidably arranged in the track 101, the first connecting column 104 is connected with the first ball 102 and the first connecting column 104, a drawer is pulled, and the first ball 102 and the first ball 103 move in the track 101 to drive the traction rope 106 to move.

The connecting block 105 is connected with a drawer, the first connecting column 104 is connected with the first ball 102 and the first connecting column 104, the drawer is pulled, the first ball 102 and the first ball 103 move in the track 101 to drive the traction rope 106 to move, the traction rope 106 pulls the gravity block 108, after the drawer is used, the drawer is released, and under the gravity of the gravity block 108, the traction rope 106 pulls the first connecting column 104 until the drawer is closed; fixed L piece 109 is connected promote spring 110, when opening the drawer, presses the drawer, and the drawer extrusion promotes piece 111, this moment promote spring 110 compression to have the resilience force, loosen promote behind piece 111 promote under spring 110's the resilience force, it promotes the drawer removal to promote piece 111 to make and produce the gap between drawer and the table body, the drawer is opened in personnel's accessible gap, carriage release lever 113 is in slide in sleeve 112, carriage release lever 113 with sleeve 112 cooperatees, improves promote spring 110's stability, it is right to obtain connecting block 105 carries out automatic homing, avoids homing ability to weaken, improves structural stability's effect.

The second embodiment is:

on the basis of the first embodiment, please refer to fig. 5 and fig. 6, wherein fig. 5 is an overall structural front view of the second embodiment, and fig. 6 is a structural internal sectional view of the track of the second embodiment.

The invention provides a sliding rail structure capable of being repeatedly and circularly restored based on a physics law, which further comprises an auxiliary component, wherein the auxiliary component comprises a second connecting column 201, a second ball 202, a second ball 203 and a triangular protection frame 204;

to this embodiment, the one end of second spliced pole 201 with gravity piece 108 fixed connection, second ball 202 with the other end of second spliced pole 201 rotates to be connected, second ball 203 with second ball 202 rotates to be connected to slide set up in the cooperation rail 107, second spliced pole 201 is connected gravity piece 108 with second ball 202 the in-process that gravity piece 108 removed, second ball 202 with second ball 203 is in move in the cooperation rail 107, improve the stability of structure.

Wherein, triangle fender bracket 204 with track 101 fixed connection, just gravity piece 108 set up in the inside of triangle fender bracket 204, gravity piece 108 with cooperation rail 107 is all in the triangle fender bracket 204, avoid personnel in the in-process that uses the drawer, the contact removes gravity piece 108 to lead to the injury.

The second spliced pole 201 is connected gravity piece 108 with second ball 202 gravity piece 108 removes the in-process, second ball 202 with second ball 203 is in move in the cooperation rail 107, improves the stability of structure, gravity piece 108 with cooperation rail 107 is all in the triangle fender bracket 204, avoid personnel in the in-process of using the drawer, the contact is removed gravity piece 108 to lead to the injury.

The third embodiment is:

on the basis of the first embodiment, please refer to fig. 7 to 9, wherein fig. 7 is a schematic overall structural diagram of the third embodiment, fig. 8 is a sectional view of the interior of the gravity block of the third embodiment, and fig. 9 is an enlarged view of a portion of the structure at B of fig. 8.

The invention provides a slide rail structure capable of being repeatedly and circularly restored based on a law of physics, which further comprises a connecting component, wherein the connecting component comprises a penetrating column 301, a baffle 302, an inclined block 303, a holding spring 304, an outer cylinder 305, an inner rod 306, a binding ring 307 and an arc ring 308;

for the present embodiment, the connecting assembly is disposed on the gravity block 108, and the connecting assembly is used for connecting the gravity block 108 and the pulling rope 106.

The gravity block 108 is provided with a through groove 309 and an installation cavity 310, the traction rope 106 penetrates through the through groove 309, the through column 301 is fixedly connected with the traction rope 106, the push spring 110 is arranged in the through groove 309, two ends of the holding spring 304 are respectively fixedly connected with the gravity block 108 and the baffle plate 302, the inclined block 303 is fixedly connected with the baffle plate 302, the outer cylinder 305 is fixedly connected with the gravity block 108, one end of the inner rod 306 is fixedly connected with the baffle plate 302, the other end of the inner rod 306 is slidably connected with the outer cylinder 305, when the gravity block 108 is installed, the through column 301 on the traction rope 106 penetrates through the through groove 309, the through column 301 contacts with an arc surface of the inclined block 303 to press the inclined block 303, so that the inclined block 303 and the baffle plate 302 move into the installation cavity 310, at the time, the holding spring 304 is compressed and has force until the through column 301 is far away from the baffle plate 302, and the holding spring back block 108 can block the gravity block 302 under the gravity force of the baffle plate 106.

Secondly, the collar 307 is fixedly connected with the gravity block 108, the arc ring 308 is fixedly connected with the collar 307, the traction rope 106 sequentially penetrates through the arc ring 308 and the collar 307, and the traction rope 106 contacts with the arc surface of the arc ring 308, so that friction on the traction rope 106 is reduced.

When the gravity block 108 is installed, the through column 301 on the traction rope 106 penetrates through the through groove 309, the through column 301 contacts the arc surface of the inclined block 303 to press the inclined block 303, so that the inclined block 303 and the baffle plate 302 move in the installation cavity 310, at this time, the holding spring 304 is compressed and has resilience until the through column 301 is far away from the baffle plate 302, the baffle plate 302 blocks the gravity block 108 under the resilience of the holding spring 304, the traction rope 106 can be used for restraining the gravity block 108 under the blocking of the baffle plate 302, and the traction rope 106 contacts the arc surface of the arc ring 308 to reduce friction on the traction rope 106.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A slide rail structure capable of being repeatedly and circularly restored based on a physical law comprises a rail and is characterized in that,

the device also comprises a homing module;

2. The slide rail structure capable of being repeatedly and circularly restored based on the law of physics as claimed in claim 1,

the homing module further comprises a fixed L block, a pushing spring and a pushing block, the fixed L block is fixedly connected with the track, and two ends of the pushing spring are fixedly connected with the fixed L block and the pushing block respectively.

3. The slide rail structure capable of being repeatedly and circularly restored based on the law of physics as claimed in claim 2,

the homing module further comprises a sleeve and a moving rod, the sleeve is fixedly connected with the fixed L-shaped block, one end of the moving rod is slidably connected with the sleeve, and the other end of the moving rod is fixedly connected with the pushing block.

4. The slide rail structure capable of being repeatedly and circularly restored based on the law of physics as claimed in claim 1,

5. The slide rail structure capable of being repeatedly and circularly restored based on the law of physics as claimed in claim 1,

but based on physics law recycle homing's slide rail structure still includes auxiliary assembly, auxiliary assembly respectively with the gravity piece with the cooperation rail is connected.

6. The slide rail structure capable of being repeatedly and circularly restored based on the law of physics as claimed in claim 5,

the auxiliary assembly comprises a second connecting column, a second ball and a second ball, one end of the second connecting column is fixedly connected with the gravity block, the second ball is connected with the other end of the second connecting column in a rotating mode, and the second ball is connected with the second ball in a rotating mode and slides in the matching rail.

7. The slide rail structure capable of being repeatedly and circularly restored based on the law of physics as claimed in claim 6,

the auxiliary assembly further comprises a triangular protection frame, the triangular protection frame is fixedly connected with the track, and the gravity block is arranged in the triangular protection frame.