CN111916598A

CN111916598A - Damping and buffering device for storage battery

Info

Publication number: CN111916598A
Application number: CN202010666719.4A
Authority: CN
Inventors: 王小娟
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-13
Filing date: 2020-07-13
Publication date: 2020-11-10

Abstract

The invention relates to a damping and buffering device for a storage battery, which comprises a box body, a cover plate, a clamping mechanism and a damping mechanism, wherein the damping mechanism comprises a sliding rod and a damping assembly, the clamping mechanism comprises a lantern ring, a limiting rod, a pushing rod, a connecting rod, a first connecting rod, a second connecting rod, a clamping plate and a moving assembly, the damping and buffering device for the storage battery realizes primary damping on the storage battery through the damping mechanism, realizes upper and lower limiting on the storage battery through an abutting mechanism and a bearing plate, realizes left and right limiting on the storage battery through the clamping mechanism, realizes secondary damping on the storage battery through a second spring, can slowly recover when the storage battery is vibrated through the buffering mechanism arranged in a rubber ball, ensures that the storage battery recovers more stably, and drives a sliding block to move through the dead weight of the storage battery so that the clamping plate realizes clamping on the storage battery, thereby preventing the internal short circuit of the storage battery caused by excessive vibration and improving the usability of the storage battery.

Description

Damping and buffering device for storage battery

Technical Field

The invention particularly relates to a damping and buffering device for a storage battery.

Background

The device for converting chemical energy into electric energy is called a chemical battery, generally called a battery for short, and after discharging, can regenerate internal active substances in a charging mode to store the electric energy into chemical energy; when discharge is required, chemical energy is converted into electrical energy again, and such batteries are called Storage batteries (also called secondary batteries), which are electrochemical devices that store chemical energy and discharge electrical energy when necessary.

In recent years, vicious accidents caused by explosion of the storage battery also occur more than once, generally, the storage battery is subjected to normal internal short circuit due to vibration, and explosion caused by abnormal discharge of a large amount of gas generated in the storage battery and over discharge of the storage battery due to short circuit of an external circuit of the storage battery caused by overcharge.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, a damping and buffering device for a storage battery is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a damping and buffering device for a storage battery comprises a box body, a cover plate, a clamping mechanism and a damping mechanism, wherein the box body is vertically arranged, the cover plate is arranged above the box body, one end of the cover plate is hinged with the box body, a bolt is arranged at the other end of the cover plate, a threaded hole matched with the bolt is formed in one end, close to the cover plate, of the box body, the bolt is in threaded connection with the threaded hole, the cover plate is fixedly connected with the box body through the bolt, and the clamping mechanism and the damping mechanism are both arranged in the box body;

the damping mechanism comprises a sliding rod and two damping assemblies, the sliding rod is horizontally arranged in the box body, two ends of the sliding rod are respectively connected with two sides in the box body, the two damping assemblies are arranged on the sliding rod, each damping assembly comprises a sliding block, a first supporting rod, a second supporting rod, a first spring and a bearing plate, the number of the sliding blocks is two, the two sliding blocks are sleeved on the sliding rod, the sliding blocks are connected with the sliding rod in a sliding manner, the bearing plate is arranged above the sliding blocks, the first supporting rod and the second supporting rod are arranged between the sliding blocks and the bearing plate, the first supporting rod and the second supporting rod are hinged, the hinged parts of the first supporting rod and the second supporting rod are connected with the bearing plate, one ends of the first supporting rod and the second supporting rod, which are far away from the bearing plate, are respectively hinged with the two sliding blocks, the bearing plate is parallel to the sliding rod, the first spring is sleeved on the sliding rod, the first spring is positioned between the two sliding blocks, and two ends of the first spring are respectively connected with the two sliding blocks;

the two clamping mechanisms are respectively arranged at two sides of the damping mechanism, each clamping mechanism comprises a sleeve ring, a limiting rod, a push rod, a connecting rod, a first connecting rod, a second connecting rod, a clamping plate and a moving assembly, the sleeve ring is sleeved on the sliding rod and is in sliding connection with the sliding rod, the sleeve ring is fixedly connected with the sliding block, the first connecting rod and the second connecting rod are horizontally arranged above the sliding rod, the clamping plate is arranged at one side of the second connecting rod, one end of the second connecting rod is hinged with the first connecting rod, the other end of the second connecting rod is hinged with the clamping plate, a torsional spring is arranged at the hinged part of the first connecting rod and the second connecting rod, the limiting rod is horizontally arranged between the sliding rod and the first connecting rod and is connected with the inner wall of the box body, a strip-shaped through hole is arranged on the limiting rod, and the push rod is positioned in the strip-shaped through hole, the push rod is connected with the strip-shaped through hole in a sliding manner, the push rod is vertically arranged on the sleeve ring, one end, far away from the sleeve ring, of the push rod is abutted against one end, far away from the second connecting rod, of the first connecting rod, one end, far away from the sleeve ring, of the push rod is located between the first connecting rod and the second connecting rod, the connecting rod is arranged between the first connecting rod and the inner wall of the box body, a vertical rectangular chute is arranged on the inner wall of the box body, one end of the connecting rod is located in the rectangular chute, the other end of the connecting rod is connected with a hinge joint of the first connecting rod and the second connecting rod, the connecting rod is connected with the rectangular chute in a sliding manner, the number of the moving assemblies is two, the two moving assemblies are respectively arranged on the upper side and the lower side of the connecting rod, each moving assembly, the second spring is arranged between the limiting block and the connecting rod, one end of the second spring is connected with the limiting block, and the other end of the second spring is connected with the connecting rod;

the utility model discloses a mechanism for supporting, including apron, support plate and apron, be equipped with on the apron and lean on the mechanism, lean on the mechanism to be located the box, lean on the mechanism including supporting backup plate and third spring, support the backup plate setting in the below of apron, the third spring has two, and two third springs set up respectively in the both sides of supporting the backup plate, the third spring is located and supports between backup plate and the apron, the one end and the cover connection of third spring, the other end of third spring with support to lean on the board to be connected, support backup plate and bearing plate are just to setting up.

In order to increase the contact area, a plurality of semicircular rubber balls are arranged on the bearing plate, and the rubber balls are uniformly arranged on the bearing plate.

For better shock absorption, the rubber ball is arranged in a hollow mode.

In order to reply, be equipped with buffer gear in the rubber ball, buffer gear includes rubber column and shell fragment, the vertical setting of rubber column is on the bearing plate, the one end that the bearing plate was kept away from to the rubber column supports with the top of the inner circle of rubber ball and leans on, the shell fragment has two, and two shell fragments set up respectively in the both sides of rubber column, and two shell fragments are just to setting up, the shell fragment is the arc, the centre of a circle of shell fragment is located the rubber column.

And a plurality of through holes are formed in the rubber ball for buffering.

For better recovery, a torsional spring is arranged at the hinged position of the first supporting rod and the second supporting rod.

For better clamping, a torsion spring is arranged at the hinged part of the clamping plate and the second connecting rod.

For limiting, the cross section of the rectangular sliding groove is in a dovetail shape.

For better movement, a connecting block is arranged in the rectangular sliding groove, and the connecting rod is connected with the rectangular sliding groove in a sliding mode through the connecting block.

In order to prevent sparks from occurring during movement, the first connecting rod is made of wood.

The damping and buffering device for the storage battery has the advantages that primary damping of the storage battery is achieved through the damping mechanism, the storage battery is limited vertically through the abutting mechanism and the bearing plate, the storage battery is limited horizontally through the clamping mechanism, secondary damping of the storage battery is achieved through the second spring, the storage battery can be restored slowly when being vibrated through the buffering mechanism arranged in the rubber ball, the storage battery is enabled to be more stable to be restored, the sliding block is driven to move through the self weight of the storage battery, the sliding block drives the lantern ring to move, the lantern ring drives the push rod to move, the push rod drives the first connecting rod and the second connecting rod to move, the storage battery is clamped through the clamping plate, internal short circuit of the storage battery due to excessive vibration is prevented, and the use usability of the storage battery is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of a shock-absorbing buffer device for a secondary battery according to the present invention;

FIG. 2 is a schematic structural view of a shock-absorbing mechanism of the shock-absorbing buffer device for a secondary battery of the present invention;

FIG. 3 is a schematic view of a connection structure of a first link, a second link, a clamping plate and a push rod of the shock-absorbing buffer device for a secondary battery according to the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 2;

in the figure: 1. the novel rubber ball bearing comprises a box body, a cover plate, a sliding rod, a sliding block, a first supporting rod, a second supporting rod, a first spring, a bearing plate, a lantern ring, a limiting rod, a pushing rod, a connecting rod, a first connecting rod, a second connecting rod, a clamping plate, a second spring, a limiting block, a supporting plate, a third spring, a rubber ball, a rubber column and a spring plate, wherein the cover plate is 2, the sliding rod is 3, the sliding block is 4, the first supporting rod is 5, the second supporting rod is 6, the first connecting rod is 7, the.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-4, a shock absorption and buffering device for a storage battery comprises a box body 1, a cover plate 2, a clamping mechanism and a shock absorption mechanism, wherein the box body 1 is vertically arranged, the cover plate 2 is arranged above the box body 1, one end of the cover plate 2 is hinged to the box body 1, the other end of the cover plate 2 is provided with a bolt, one end of the box body 1, which is close to the cover plate 2, is provided with a threaded hole matched with the bolt, the bolt is in threaded connection with the threaded hole, the cover plate 2 is fixedly connected with the box body 1 through the bolt, and the clamping mechanism and the shock absorption mechanism are both arranged in the box body;

the damping mechanism comprises a sliding rod 3 and two damping components, the sliding rod 3 is horizontally arranged in a box body 1, two ends of the sliding rod 3 are respectively connected with two sides inside the box body 1, the two damping components are arranged on the sliding rod 3, each damping component comprises a sliding block 4, a first supporting rod 5, a second supporting rod 6, a first spring 7 and a bearing plate 8, the number of the sliding blocks 4 is two, the two sliding blocks 4 are sleeved on the sliding rod 3, the sliding blocks 4 are in sliding connection with the sliding rod 3, the bearing plate 8 is arranged above the sliding blocks 4, the first supporting rod 5 and the second supporting rod 6 are arranged between the sliding blocks 4 and the bearing plate 8, the first supporting rod 5 is hinged with the second supporting rod 6, the hinged part of the first supporting rod 5 and the second supporting rod 6 is connected with the bearing plate 8, one ends of the first supporting rod 5 and the second supporting rod 6, which are far away from the bearing plate 8, are respectively hinged with the two sliding blocks 4, the bearing plate 8 is parallel to the sliding rod 3, the first spring 7 is sleeved on the sliding rod 3, the first spring 7 is positioned between the two sliding blocks, and two ends of the first spring 7 are respectively connected with the two sliding blocks 4;

the two clamping mechanisms are respectively arranged at two sides of the damping mechanism, each clamping mechanism comprises a lantern ring 9, a limiting rod 10, a push rod 11, a connecting rod 12, a first connecting rod 13, a second connecting rod 14, a clamping plate 15 and a moving assembly, the lantern ring 9 is sleeved on the sliding rod 3, the lantern ring 9 is in sliding connection with the sliding rod 3, the lantern ring 9 is fixedly connected with the sliding block 4, the first connecting rod 13 and the second connecting rod 14 are horizontally arranged above the sliding rod 3, the clamping plate 15 is arranged at one side of the second connecting rod 14, one end of the second connecting rod 14 is hinged to the first connecting rod 13, the other end of the second connecting rod 14 is hinged to the clamping plate 15, a torsion spring is arranged at the hinged position of the first connecting rod 13 and the second connecting rod 14, the limiting rod 10 is horizontally arranged between the sliding rod 3 and the first connecting rod 13, and the limiting rod 10 is connected with the inner wall of the box body 1, the limiting rod 10 is provided with a strip-shaped through hole, the push rod 11 is positioned in the strip-shaped through hole, the push rod 11 is connected with the strip-shaped through hole in a sliding manner, the push rod 11 is vertically arranged on the sleeve ring 9, one end, away from the sleeve ring 9, of the push rod 11 is abutted against one end, away from the second connecting rod 14, of the first connecting rod 13, one end, away from the sleeve ring 9, of the push rod 11 is positioned between the first connecting rod 13 and the second connecting rod 14, the connecting rod 12 is arranged between the first connecting rod 13 and the inner wall of the box body 1, the inner wall of the box body 1 is provided with a vertical rectangular sliding groove, one end of the connecting rod 12 is positioned in the rectangular sliding groove, the other end of the connecting rod 12 is connected with the hinging part of the first connecting rod 13 and the second connecting rod 14, the connecting rod 12 is connected with the rectangular sliding groove, the moving assembly comprises a second spring 16 and a limiting block 17, the limiting block 17 is arranged below the connecting rod 12, the limiting block 17 is connected with the inner wall of the interior of the box body 1, the second spring 16 is arranged between the limiting block 17 and the connecting rod 12, one end of the second spring 16 is connected with the limiting block 17, and the other end of the second spring 16 is connected with the connecting rod 12;

be equipped with on the apron 2 and lean on the mechanism, it is located box 1 to lean on the mechanism, lean on the mechanism including supporting backup plate 18 and third spring 19, support backup plate 18 and set up the below at apron 2, third spring 19 has two, and two third springs 19 set up respectively in the both sides that support backup plate 18, third spring 19 is located and supports between backup plate 18 and the apron 2, third spring 19's one end and apron 2 are connected, third spring 19's the other end with support and lean on board 18 to be connected, support backup plate 18 and bearing plate 8 just to setting up.

In order to increase the contact area, a plurality of semicircular rubber balls 20 are arranged on the bearing plate 8, and the rubber balls 20 are uniformly arranged on the bearing plate 8.

For better shock absorption, the rubber ball 20 is hollow.

In order to reply, be equipped with buffer gear in the rubber ball 20, buffer gear includes rubber column 21 and shell fragment 22, the vertical setting of rubber column 21 is on bearing plate 8, the one end that bearing plate 8 was kept away from to rubber column 21 supports with the top of the inner circle of rubber ball 20 and leans on, shell fragment 22 has two, and two shell fragments 22 set up the both sides at rubber column 21 respectively, and two shell fragments 22 are just to setting up, shell fragment 22 is the arc, the centre of a circle of shell fragment 22 is located rubber column 21.

For buffering, a plurality of through holes are formed on the rubber ball 20.

For better recovery, a torsion spring is arranged at the hinged part of the first support rod 5 and the second support rod 6.

For better clamping, a torsion spring is arranged at the hinged joint of the clamping plate 15 and the second connecting rod 14.

For better movement, a connecting block is arranged in the rectangular sliding groove, and the connecting rod 12 is connected with the rectangular sliding groove in a sliding mode through the connecting block.

In order to prevent sparks during movement, the first link 13 is made of wood.

When the automobile runs on a bumpy road, the automobile vibrates to cause the internal storage battery to vibrate, the storage battery is stressed and descends, so that the bearing plate 8 is stressed to move, the bearing plate 8 drives the first supporting rod 5 and the second supporting rod 6 to move, the first supporting rod 5 and the second supporting rod 6 move to drive the sliding block 4 to move, so that the sliding block 4 moves on the sliding rod 3, the first spring 7 is in a stretching state, the sliding block 4 moves to drive the lantern ring 9 to move due to the fact that the lantern ring 9 is fixedly connected with the sliding block 4, the lantern ring 9 drives the push rod 11 to move, so that the push rod 11 slides on the limiting rod 10, the limiting rod 10 is used for limiting the push rod 11, the push rod 11 is prevented from being bent due to overlarge stress, then the push rod 11 drives the first connecting rod 13 to move, the first connecting rod 13 drives the second connecting rod 14 to move, and the second connecting rod 14 drives the clamping plate 15 to move, thereby realizing the clamping of the storage battery.

Simultaneously when the battery atress descends, make rubber ball 20 atress warp, thereby increase and the atress area of battery bottom, thereby slow down the vibrations of battery, and here rubber ball 20 is cavity setting again, here not only can practice thrift rubber ball 20's use cost, can also make the better shock attenuation of battery, then rubber ball 20 atress warp, make rubber column 21 atress crooked, make the shell fragment 22 atress crooked simultaneously, at this moment the inside pressure of rubber ball 20 will flow through the through-hole, thereby reduce the inside pressure of rubber ball 20, thereby slow down the speed that the battery replied, prevent to respond to the restoring force too big and lead to the inside damage of battery, the practicality of using is improved.

The abutting plate 18 abuts against the upper portion of the storage battery at the moment, the third spring 19 is in a compressed state at the moment, the upper and lower limiting of the storage battery is achieved through the restoring force of the third spring 19 and the first spring 7, meanwhile, the clamping plate 15 better abuts against the storage battery through the restoring force of the torsion spring arranged at the hinged position of the first connecting rod 13 and the second connecting rod 14, and therefore the left and right limiting of the storage battery is achieved.

Here, because the connecting rod 12 is slidably connected with the rectangular sliding groove, the clamping plate 15 will also move along with the battery when the vibration amplitude of the battery is too large, and then the restoring force of the second spring 16 is used to reset the connecting rod 12, i.e. the battery.

Compared with the prior art, the damping and buffering device for the storage battery realizes primary damping of the storage battery through the damping mechanism, the upper limit and the lower limit of the storage battery are realized through the abutting mechanism and the bearing plate 8, the left limit and the right limit of the storage battery are realized through the clamping mechanism, meanwhile, secondary shock absorption of the storage battery is realized through the second spring 16, and when the storage battery is vibrated through the buffer mechanism arranged in the rubber ball 20, the slow recovery can be realized, so that the recovery of the storage battery is more stable, the sliding block 4 is driven to move by the self weight of the storage battery, the sliding block 4 drives the lantern ring 9 to move, the lantern ring 9 drives the push rod 11 to move, the push rod 11 drives the first connecting rod 13 and the second connecting rod 14 to move, thereby, the clamping plate 15 realizes the clamping of the storage battery, thereby preventing the storage battery from causing internal short circuit due to excessive vibration and improving the usability of the storage battery.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The damping and buffering device for the storage battery is characterized by comprising a box body (1), a cover plate (2), a clamping mechanism and a damping mechanism, wherein the box body (1) is vertically arranged, the cover plate (2) is arranged above the box body (1), one end of the cover plate (2) is hinged to the box body (1), a bolt is arranged at the other end of the cover plate (2), a threaded hole matched with the bolt is formed in one end, close to the cover plate (2), of the box body (1), the bolt is in threaded connection with the threaded hole, the cover plate (2) is fixedly connected with the box body (1) through the bolt, and the clamping mechanism and the damping mechanism are both arranged in the box body (1);

the damping mechanism comprises a sliding rod (3) and two damping assemblies, wherein the sliding rod (3) is horizontally arranged in a box body (1), two ends of the sliding rod (3) are respectively connected with two sides of the interior of the box body (1), the two damping assemblies are arranged on the sliding rod (3), each damping assembly comprises a sliding block (4), a first supporting rod (5), a second supporting rod (6), two first springs (7) and a bearing plate (8), the sliding blocks (4) are arranged in two numbers, the two sliding blocks (4) are all sleeved on the sliding rod (3), the sliding blocks (4) are in sliding connection with the sliding rod (3), the bearing plates (8) are arranged above the sliding blocks (4), the first supporting rod (5) and the second supporting rod (6) are arranged between the sliding blocks (4) and the bearing plates (8), the first supporting rod (5) is hinged to the second supporting rod (6), the hinged part of the first support rod (5) and the second support rod (6) is connected with a bearing plate (8), one ends, far away from the bearing plate (8), of the first support rod (5) and the second support rod (6) are hinged with two sliding blocks (4) respectively, the bearing plate (8) is parallel to the sliding rod (3), the first spring (7) is sleeved on the sliding rod (3), the first spring (7) is located between the two sliding blocks, and two ends of the first spring (7) are connected with the two sliding blocks (4) respectively;

the two clamping mechanisms are respectively arranged on two sides of the damping mechanism and comprise a sleeve ring (9), a limiting rod (10), a push rod (11), a connecting rod (12), a first connecting rod (13), a second connecting rod (14), a clamping plate (15) and a moving assembly, the sleeve ring (9) is sleeved on the sliding rod (3), the sleeve ring (9) is connected with the sliding rod (3) in a sliding manner, the sleeve ring (9) is fixedly connected with the sliding block (4), the first connecting rod (13) and the second connecting rod (14) are horizontally arranged above the sliding rod (3), the clamping plate (15) is arranged on one side of the second connecting rod (14), one end of the second connecting rod (14) is hinged with the first connecting rod (13), the other end of the second connecting rod (14) is hinged with the clamping plate (15), and a torsion spring is arranged at the hinged position of the first connecting rod (13) and the second connecting rod (14), the limiting rod (10) is horizontally arranged between the sliding rod (3) and the first connecting rod (13), the limiting rod (10) is connected with the inner wall of the box body (1), a strip-shaped through hole is formed in the limiting rod (10), the push rod (11) is located in the strip-shaped through hole, the push rod (11) is connected with the strip-shaped through hole in a sliding mode, the push rod (11) is vertically arranged on the sleeve ring (9), one end, away from the sleeve ring (9), of the push rod (11) is abutted to one end, away from the second connecting rod (14), of the first connecting rod (13), one end, away from the sleeve ring (9), of the push rod (11) is located between the first connecting rod (13) and the second connecting rod (14), the connecting rod (12) is arranged between the inner walls of the first connecting rod (13) and the box body (1), a vertical rectangular sliding groove is formed in the inner wall of the box body (1), and one end of the connecting rod (12) is, the other end of the connecting rod (12) is connected with a hinged part of a first connecting rod (13) and a second connecting rod (14), the connecting rod (12) is connected with the rectangular sliding groove in a sliding mode, the number of the moving assemblies is two, the two moving assemblies are arranged on the upper side and the lower side of the connecting rod (12) respectively, each moving assembly comprises a second spring (16) and a limiting block (17), each limiting block (17) is arranged below the connecting rod (12), each limiting block (17) is connected with the inner wall inside the box body (1), each second spring (16) is arranged between each limiting block (17) and the connecting rod (12), one end of each second spring (16) is connected with each limiting block (17), and the other end of each second spring (16) is connected with the connecting rod (12);

be equipped with on apron (2) and lean on the mechanism, it is located box (1) to lean on the mechanism, lean on the mechanism including supporting backup plate (18) and third spring (19), support backup plate (18) and set up the below at apron (2), third spring (19) have two, and two third springs (19) set up respectively in the both sides of supporting backup plate (18), third spring (19) are located to support between backup plate (18) and the apron (2), the one end and the apron (2) of third spring (19) are connected, the other end of third spring (19) with support backup plate (18) and be connected, it is just setting up to support backup plate (18) and bearing plate (8).

2. The shock-absorbing buffering device for the secondary battery as claimed in claim 1, wherein a plurality of semicircular rubber balls (20) are provided on the bearing plate (8), and each rubber ball (20) is uniformly provided on the bearing plate (8).

3. A shock-absorbing buffer device for secondary batteries according to claim 2, characterized in that said rubber ball (20) is hollow.

4. The shock absorption and buffering device for the storage battery according to claim 3, wherein a buffering mechanism is arranged in the rubber ball (20), the buffering mechanism comprises rubber columns (21) and elastic pieces (22), the rubber columns (21) are vertically arranged on the bearing plate (8), one ends, far away from the bearing plate (8), of the rubber columns (21) abut against the top of the inner ring of the rubber ball (20), the number of the elastic pieces (22) is two, the two elastic pieces (22) are respectively arranged on two sides of the rubber columns (21), the two elastic pieces (22) are oppositely arranged, the elastic pieces (22) are arc-shaped, and the circle center of each elastic piece (22) is located on the rubber column (21).

5. A shock-absorbing buffer device for secondary battery as claimed in claim 3, wherein said rubber ball (20) is provided with a plurality of through holes.

6. The shock-absorbing buffer device for the storage battery as claimed in claim 1, wherein a torsion spring is provided at the hinge joint of the first strut (5) and the second strut (6).

7. The shock-absorbing buffering device for a secondary battery as claimed in claim 1, wherein a torsion spring is provided at the hinge of the clamping plate (15) and the second link (14).

8. The shock-absorbing buffer device for secondary battery as claimed in claim 1, wherein the rectangular chute has a dovetail shape in cross section.

9. The shock-absorbing buffering device for the secondary battery as claimed in claim 1, wherein a connecting block is provided in the rectangular sliding groove, and the connecting rod (12) is slidably connected to the rectangular sliding groove through the connecting block.

10. The shock-absorbing buffer device for storage battery as claimed in claim 1, wherein the first link (13) is made of wood.