CN118572277A - Lithium-ion energy storage battery to prevent vibration damage to internal batteries and electronic components - Google Patents

Abstract

The present invention relates to the technical field of lithium-ion batteries, and in particular to a lithium-ion energy storage battery for preventing internal batteries and electronic components from being damaged by vibration. The battery comprises a load-bearing mounting plate and an energy storage battery box, wherein load-bearing matching blocks are symmetrically fixedly arranged on both sides of the load-bearing mounting plate, and there are two load-bearing matching blocks on each side, which are respectively located at both ends of the load-bearing mounting plate, a support limit rod is fixedly arranged on the upper end of the load-bearing matching block, and first buffer chambers are symmetrically opened on both sides of the load-bearing matching block, a load-bearing mounting plate is arranged at the lower end of the energy storage battery box, and the energy storage battery box is installed through the load-bearing mounting plate, and during the operation of the vehicle, a first buffer shock-absorbing spring can play a first layer of buffering and shock-absorbing role for the energy storage battery box, thereby improving the overall stability of the energy storage battery box, and at the same time, with the cooperation of the first buffer chamber and the first buffer plug plate, the energy storage battery box can play an auxiliary buffering and shock-absorbing role.

Description

Lithium-ion energy storage battery to prevent vibration damage to internal batteries and electronic components

Technical Field

The present invention relates to the technical field of lithium ion batteries, in particular to a lithium ion energy storage battery which can prevent internal batteries and electronic components from being damaged by vibration.

Background Art

With the development of automobiles, electric cars are becoming more and more popular, and RVs have also appeared in the form of electric cars. The power source of electric cars is batteries. The batteries on RVs are generally lithium-ion energy storage batteries, and in general, lithium-ion energy storage batteries are fixedly installed on the vehicle through battery boxes. For vehicles like RVs, they generally travel long distances and often travel on roads with poor road conditions. This will cause the entire RV to vibrate more, which will in turn cause greater vibrations to the batteries on the RV. The battery box fixedly installed on the vehicle is subjected to greater vibrations for a long time, which will cause greater vibration damage to the internal batteries and its internal electronic components. In severe cases, it may cause damage to the internal batteries and electronic components, and thus cause certain economic losses.

Summary of the invention

The object of the present invention is to provide a lithium-ion energy storage battery that can prevent internal batteries and electronic components from being damaged by vibration, so as to solve the problems raised in the above-mentioned background technology.

To achieve the above object, the present invention provides the following technical solutions:

A lithium-ion energy storage battery that prevents internal batteries and electronic components from being damaged by vibration comprises a load-bearing mounting plate and an energy storage battery box, wherein load-bearing matching blocks are symmetrically fixedly arranged on both sides of the load-bearing mounting plate, and there are two load-bearing matching blocks on each side, which are respectively located at both ends of the load-bearing mounting plate, a support limit rod is fixedly arranged on the upper end of the load-bearing matching block, and a first buffer chamber is symmetrically opened on both sides of the load-bearing matching block, and a support match rail rod is fixedly arranged between the two load-bearing matching blocks on each side, movable mounting grooves are symmetrically opened at both ends of the load-bearing mounting plate, a limited matching rod is fixedly arranged in the movable mounting groove, and matching fixing strips are symmetrically fixedly arranged on the load-bearing mounting plates on both sides of each movable mounting groove, and a locking groove is opened on the matching fixing strip, and the energy storage battery box is installed It is mounted on a load-bearing mounting plate, and first interlocking holes are symmetrically provided at both ends of the upper side of the energy storage battery box, and protruding angle plates are fixedly provided at the four corners of the lower end of the energy storage battery box, and supporting matching holes are provided on the protruding angle plates, and supporting limiting rods are inserted in the supporting matching holes, matching connecting hinge plates are symmetrically fixedly provided on both sides of the energy storage battery box, and auxiliary heat dissipation channels are symmetrically provided on the lower end surface of the energy storage battery box, and matching bearing strips are symmetrically fixedly provided at both ends of the lower side of the energy storage battery box, and a movable bearing rod is fixedly provided between the matching bearing strips, the upper end of the energy storage battery box is covered with a battery box cover plate, and second interlocking holes are symmetrically provided at both ends of the battery box cover plate, and a multi-layer buffering and shock-absorbing mechanism for energy storage batteries is provided on the load-bearing mounting plate and the energy storage battery box.

Preferably, the multi-layer buffer shock-absorbing mechanism of the energy storage battery includes a first buffer shock-absorbing spring, a movable matching connecting rod, a movable buffer connecting block, a buffer matching sealing plate, a buffer interlocking plate and a movable interlocking plate. The first buffer shock-absorbing spring is sleeved on the supporting limit rod, and the first buffer shock-absorbing spring is located on the lower side of the protruding angle plate.

Preferably, two ends of the mating hinge plate are symmetrically hinged with movable mating connecting rods, and the lower end of the movable mating connecting rod is hinged with a movable buffer connecting block.

Preferably, a sliding mating socket is provided on the movable buffer connecting block, a supporting mating rail rod is inserted into the sliding mating socket, and a connecting mating rod and a protruding mating connecting frame are fixedly provided on the upper end of the movable buffer connecting block, and the protruding mating connecting frame is hinged to the lower end of the movable mating connecting rod.

Preferably, matching support side plates are symmetrically fixed on both sides of the movable buffer connecting block, load-bearing matching rods are fixed on the matching support side plates, a first buffer plug plate is fixed on the load-bearing matching rod, and the first buffer plug plate is inserted in the first buffer chamber.

Preferably, two buffer fitting sealing plates are symmetrically arranged at the lower end of the energy storage battery box, and the buffer fitting sealing plates cover the auxiliary heat dissipation channel, and connecting fitting strips are symmetrically fixed at both ends of the buffer fitting sealing plates, and connecting fitting holes are opened on the connecting fitting strips, and connecting fitting rods are inserted in the connecting fitting holes.

Preferably, a movable matching socket is provided on the buffer matching sealing plate, a movable bearing rod is inserted into the movable matching socket, and a second buffer shock-absorbing spring is sleeved on the movable bearing rod.

Preferably, there are two buffer interlock plates, which are symmetrically installed at both ends of the load-bearing mounting plate, and the lower end of the buffer interlock plate is inserted in the movable mounting groove, and a supporting sliding hole is opened at the lower end of the buffer interlock plate, and a limiting matching rod is inserted in the supporting sliding hole, and elastic clips are symmetrically fixed on both sides of the lower end of the buffer interlock plate, and a locking clip block is fixed on the elastic clip.

Preferably, a movable matching channel is provided at the upper end of the buffer interlock plate, a matching inner supporting rod is fixedly arranged in the movable matching channel, and a supporting strip is fixedly arranged at the upper end of the buffer interlock plate, a buffer matching column is fixedly arranged on the supporting strip, a second buffer chamber is provided on the buffer matching column, and a movable interlock plate is installed at the upper end of the buffer interlock plate.

Preferably, an upper interlocking plug plate is fixedly provided on the upper end of the movable interlocking plate, a lower interlocking plug plate is fixedly provided on the movable interlocking plate on the lower side of the upper interlocking plug plate, and a matching plug-in connecting plate is fixedly provided on the lower end of the movable interlocking plate, the matching plug-in connecting plate is plugged into the movable matching channel, and a matching plug-in connecting hole is provided on the matching plug-in connecting plate, a matching inner supporting rod is plugged into the matching plug-in connecting hole, a third buffer shock-absorbing spring is sleeved on the matching inner supporting rod, a load-bearing matching plug rod is fixedly provided on the end of the matching plug-in connecting plate away from the movable interlocking plate, a second buffer plug plate is fixedly provided on the upper end of the load-bearing matching plug rod, and the second buffer plug plate is plugged into the second buffer chamber.

Compared with the prior art, the invention has the following advantages:

1. A load-bearing mounting plate is provided at the lower end of the energy storage battery box, and the energy storage battery box is installed through the load-bearing mounting plate. During the operation of the vehicle, the first buffer shock-absorbing spring can play the role of the first layer of buffering and shock-absorbing for the energy storage battery box, thereby improving the overall stability of the energy storage battery box. At the same time, with the cooperation of the first buffer chamber and the first buffer plug plate, the energy storage battery box can play an auxiliary buffering and shock-absorbing role.

2. During the movement of the movable buffer connecting block, it will drive the buffer matching sealing plate to move. As the buffer matching sealing plate moves, it will no longer completely cover the auxiliary heat dissipation channel, so that the auxiliary heat dissipation channel is in an open state, which can assist in the heat dissipation of the interior of the energy storage battery box. As the buffer matching sealing plate moves, it will compress or stretch the second buffer shock-absorbing spring, and then under the action of the second buffer shock-absorbing spring, it can play a second layer of buffering and shock-absorbing role for the energy storage battery box.

3. In addition, when sealing the energy storage battery box, the battery box cover is covered on the energy storage battery box, and then the buffer interlocking plate is pushed to insert the upper interlocking plug plate into the second interlocking hole, and the lower interlocking plug plate into the first interlocking hole, so as to realize the fixed connection between the energy storage battery box and the battery box cover, and realize the automatic locking of the buffer interlocking plate, so as to facilitate the installation and removal of the battery box cover. At the same time, with the cooperation of the second buffer chamber and the second buffer plug plate and the action of the third buffer shock absorption, the third layer of buffer shock absorption can be played for the energy storage battery box, so as to fully ensure the stability of the energy storage battery box and prevent the batteries and electronic components inside from being damaged by vibration.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of the assembly of the load-bearing mounting plate and the energy storage battery box.

FIG. 2 is an enlarged schematic diagram of point A in FIG. 1 .

FIG. 3 is an enlarged schematic diagram of point B in FIG. 1 .

FIG. 4 is a schematic diagram of the assembly of the energy storage battery box.

FIG5 is a schematic diagram of the structure of the energy storage battery box.

FIG. 6 is a schematic structural diagram of a load-bearing mounting plate.

FIG. 7 is a schematic diagram of the structure of the movable buffer connecting block.

FIG8 is a schematic diagram of the structure of the buffer matching sealing plate.

FIG. 9 is a schematic diagram of the assembly of the buffer interlocking plate from a first perspective.

FIG. 10 is a schematic diagram of the buffer interlocking plate assembly from a second viewing angle.

In the figure: 1. load-bearing mounting plate; 11. load-bearing matching block; 12. support limit rod; 13. first buffer chamber; 14. support matching rail rod; 15. movable mounting groove; 16. limit matching rod; 17. matching fixing strip; 18. locking groove; 2. energy storage battery box; 21. first interlocking hole; 22. protruding angle plate; 23. support matching hole; 24. matching connecting hinge plate; 25. auxiliary heat dissipation channel; 26. matching load-bearing strip; 27. movable load-bearing rod; 3. battery box cover; 31. second interlocking hole; 4. first buffer shock-absorbing spring; 5. movable matching connecting rod; 6. movable buffer connecting block; 61. sliding matching jack; 62. connecting matching rod; 63. protruding matching connecting frame; 64 , matching support side plate; 65, load-bearing matching rod; 66, first buffer plug plate; 7, buffer matching sealing plate; 71, connecting matching strip; 72, connecting matching hole; 73, moving matching socket; 74, second buffer shock-absorbing spring; 8, buffer interlocking plate; 81, supporting sliding hole; 82, elastic card strip; 83, locking card block; 84, moving matching channel; 85, matching inner supporting rod; 86, supporting load strip; 87, buffer matching column; 88, second buffer chamber; 9, movable interlocking plate; 91, upper interlocking plug plate; 92, lower interlocking plug plate; 93, matching plug-in connecting plate; 94, plug-in matching connecting hole; 941, third buffer shock-absorbing spring; 95, load-bearing matching plug rod; 96, second buffer plug plate.

DETAILED DESCRIPTION

The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

Please refer to Figures 1 to 10, the present invention provides a technical solution:

A lithium-ion energy storage battery for preventing internal batteries and electronic components from being damaged by vibration comprises a load-bearing mounting plate 1 and an energy storage battery box 2, wherein load-bearing matching blocks 11 are symmetrically fixedly arranged on both sides of the load-bearing mounting plate 1, and there are two load-bearing matching blocks 11 on each side, which are respectively located at both ends of the load-bearing mounting plate 1, and a support limit rod 12 is fixedly arranged on the upper end of the load-bearing matching block 11, and a first buffer chamber 13 is symmetrically provided on both sides of the load-bearing matching block 11, and a support match rail rod 14 is fixedly arranged between the two load-bearing matching blocks 11 on each side, and movable mounting grooves 15 are symmetrically provided at both ends of the load-bearing mounting plate 1, and a limit match rod 16 is fixedly arranged in the movable mounting groove 15, and matching fixing strips 17 are symmetrically fixedly arranged on the load-bearing mounting plate 1 on both sides of each movable mounting groove 15, and a locking groove 18 is provided on the matching fixing strip 17, and the energy storage battery box 2 is installed on the load-bearing mounting plate 1, and the first interlocking holes 21 are symmetrically opened at both ends of the upper side of the energy storage battery box 2, and protruding angle plates 22 are fixedly arranged at the four corners of the lower end of the energy storage battery box 2, and the protruding angle plates 22 are opened with supporting matching holes 23, and the supporting matching holes 23 are inserted with supporting limiting rods 12, and the two sides of the energy storage battery box 2 are symmetrically fixed with matching connecting hinge plates 24, and the lower end surface of the energy storage battery box 2 is symmetrically opened with auxiliary heat dissipation channels 25, and the lower two ends of the energy storage battery box 2 are symmetrically fixed with matching bearing strips 26, and a movable bearing rod 27 is fixedly arranged between the matching bearing strips 26, the upper end of the energy storage battery box 2 is covered with a battery box cover plate 3, and the two ends of the battery box cover plate 3 are symmetrically opened with second interlocking holes 31, and the load-bearing mounting plate 1 and the energy storage battery box 2 are provided with a multi-layer buffer shock absorbing mechanism for energy storage batteries.

The multi-layer buffering and shock absorbing mechanism of the energy storage battery includes a first buffering and shock absorbing spring 4, a movable matching connecting rod 5, a movable buffer connecting block 6, a buffer matching sealing plate 7, a buffer interlocking plate 8 and a movable interlocking plate 9. The first buffering and shock absorbing spring 4 is sleeved on the supporting limit rod 12, and the first buffering and shock absorbing spring 4 is located on the lower side of the protruding angle plate 22, and the two ends of the first buffering and shock absorbing spring 4 are respectively welded on the protruding angle plate 22 and the load-bearing matching block 11.

The two ends of the hinged plate 24 are symmetrically hinged with movable matching connecting rods 5 , and the lower end of the movable matching connecting rod 5 is hinged with a movable buffer connecting block 6 .

A sliding fit socket 61 is provided on the movable buffer connecting block 6, and a supporting fit rail rod 14 is inserted into the sliding fit socket 61. A connecting fit rod 62 and a protruding fit connecting frame 63 are fixedly provided on the upper end of the movable buffer connecting block 6. The protruding fit connecting frame 63 is hinged to the lower end of the movable fit connecting rod 5.

The movable buffer connecting block 6 is symmetrically fixed with matching support side plates 64 on both sides, and a load-bearing matching rod 65 is fixedly provided on the matching support side plates 64. A first buffer plug plate 66 is fixedly provided on the load-bearing matching rod 65. The first buffer plug plate 66 is inserted in the first buffer chamber 13, and the diameter of the first buffer plug plate 66 is equal to the inner diameter of the first buffer chamber 13.

Two buffer mating sealing plates 7 are symmetrically arranged at the lower end of the energy storage battery box 2. The buffer mating sealing plates 7 cover the auxiliary heat dissipation channel 25, and connecting mating strips 71 are symmetrically fixed at both ends of the buffer mating sealing plates 7. The connecting mating strips 71 are provided with connecting mating holes 72, and the connecting mating holes 72 are inserted with connecting mating rods 62.

A movable mating socket 73 is provided on the buffer mating sealing plate 7, in which a movable load-bearing rod 27 is inserted, and a second buffer shock-absorbing spring 74 is sleeved on the movable load-bearing rod 27, and two ends of the second buffer shock-absorbing spring 74 are respectively welded to the mating load-bearing strip 26 and the buffer mating sealing plate 7.

There are two buffer interlocking plates 8, which are symmetrically installed at both ends of the load-bearing mounting plate 1, and the lower end of the buffer interlocking plate 8 is inserted in the movable mounting groove 15, and a supporting sliding hole 81 is opened at the lower end of the buffer interlocking plate 8, and a limited matching rod 16 is inserted in the supporting sliding hole 81. Elastic clips 82 are symmetrically fixed on both sides of the lower end of the buffer interlocking plate 8, and a locking card block 83 is fixed on the elastic clip strip 82. When the locking card block 83 contacts the inner end surface of the matching fixing strip 17, the elastic clip strip 82 is in an extruded state. When the buffer interlocking plate 8 is in a fixed state, the locking card block 83 is inserted in the locking groove 18.

A movable matching channel 84 is provided at the upper end of the buffer interlock plate 8, in which a matching inner supporting rod 85 is fixedly arranged, and a supporting strip 86 is fixedly arranged at the upper end of the buffer interlock plate 8, on which a buffer matching column 87 is fixedly arranged, and a second buffer chamber 88 is provided on the buffer matching column 87, and a movable interlock plate 9 is installed at the upper end of the buffer interlock plate 8.

An upper interlocking plug plate 91 is fixedly provided at the upper end of the movable interlocking plate 9, a lower interlocking plug plate 92 is fixedly provided on the movable interlocking plate 9 at the lower side of the upper interlocking plug plate 91, and a matching plug-in connecting plate 93 is fixedly provided at the lower end of the movable interlocking plate 9, the matching plug-in connecting plate 93 is plugged into the movable matching channel 84, and a plug-in matching connecting hole 94 is provided on the matching plug-in connecting plate 93, a matching inner bearing rod 85 is plugged into the plug-in matching connecting hole 94, and a third buffer shock absorbing device is sleeved on the matching inner bearing rod 85 Spring 941, and the two ends of the third buffer shock-absorbing spring 941 are respectively welded on the inner bottom surface of the movable matching channel 84 and the matching plug-in connecting plate 93, and a load-bearing matching plug rod 95 is fixedly provided on the end of the matching plug-in connecting plate 93 away from the movable interlocking plate 9, and a second buffer plug plate 96 is fixedly provided on the upper end of the load-bearing matching plug rod 95. The second buffer plug plate 96 is plugged into the second buffer chamber 88, and the diameter of the second buffer plug plate 96 is equal to the inner diameter of the second buffer chamber 88.

The energy storage battery box 2 is installed by the load-bearing mounting plate 1. After installation, the battery box cover 3 is covered on the energy storage battery box 2, and then the buffer interlocking plate 8 is pushed so that the locking card block 83 reaches the locking groove 18. In this way, under the action of the elastic card strip 82, the locking card block 83 is inserted into the locking groove 18 to achieve the fixation of the buffer interlocking plate 8. At this time, the upper interlocking plug plate 91 is inserted into the second interlocking hole 31, and the lower interlocking plug plate 92 is inserted into the first interlocking hole 21. In this way, a fixed connection between the energy storage battery box 2 and the battery box cover 3 is achieved. When the energy storage battery box 2 moves under the action of vehicle vibration, at this time, the first buffer interlocking plug plate 92 is inserted into the second interlocking hole 31. The shock spring 4 will play the role of the first layer of buffering and shock absorption for the energy storage battery box 2, and when the energy storage battery box 2 moves downward, the movable matching connecting rod 5 will push the movable buffer connecting block 6 to move in the direction close to the load-bearing matching block 11, so that the gas in the first buffer chamber 13 will be squeezed under the action of the first buffer plug plate 66, so that the energy storage battery box 2 can be provided with an auxiliary buffer under the action of the gas. In addition, as the movable buffer connecting block 6 moves, it will drive the buffer matching sealing plate 7 to move, so that the buffer matching sealing plate 7 will be misaligned with the auxiliary heat dissipation channel 25, so that the auxiliary heat dissipation channel 25 can be made to be dislocated. In the open state, the auxiliary heat dissipation channel 25 can be used to assist the heat dissipation of the interior of the energy storage battery box 2. At the same time, as the buffer matching sealing plate 7 moves, the second buffer shock-absorbing spring 74 will be deformed, so that the second buffer shock-absorbing spring 74 will play a second layer of buffering and shock-absorbing role for the energy storage battery box 2. Moreover, when the energy storage battery box 2 moves, the third buffer shock-absorbing spring 941 will be deformed, and the movable interlocking plate 9 will be driven to move up and down. In this way, the gas in the second buffer chamber 88 will be squeezed or negative pressure will be formed in the second buffer chamber 88 under the action of the second buffer plug plate 96, thereby With the cooperation of the third buffer shock-absorbing spring 941, the second buffer chamber 88 and the second buffer plug plate 96, the energy storage battery box 2 plays the role of a third layer of buffering and shock absorption. In addition, when the energy storage battery box 2 moves upward, it will drive the movable buffer connecting block 6 to move away from the load-bearing matching block 11, and then under the action of the first buffer plug plate 66, a negative pressure will be formed in the first buffer chamber 13, and then under the action of the negative pressure, a pulling force will be generated on the first buffer plug plate 66, which can also play an auxiliary buffering role. Under the action of multi-layer buffering and shock absorption, the stability of the energy storage battery box 2 can be fully guaranteed, thereby ensuring that the internal batteries and electronic components will not be damaged by vibration.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and variations may be made to the embodiments without departing from the principles and spirit of the present invention, and that the scope of the present invention is defined by the appended claims and their equivalents.

Claims (10)

1. Avoid inside battery and electronic components impaired lithium ion energy storage battery of vibrations, including bearing mounting panel (1) and energy storage battery box (2), its characterized in that: the two sides of the bearing mounting plate (1) are symmetrically and fixedly provided with bearing matching blocks (11), the two bearing matching blocks (11) at each side are respectively positioned at two ends of the bearing mounting plate (1), the upper end of the bearing matching block (11) is fixedly provided with a supporting limit rod (12), the two sides of the bearing matching block (11) are symmetrically provided with a first buffer chamber (13), the two bearing matching blocks (11) at each side are fixedly provided with a supporting matching rail rod (14), the two ends of the bearing mounting plate (1) are symmetrically provided with movable mounting grooves (15), the movable mounting grooves (15) are fixedly provided with limit matching rods (16), and the bearing mounting plates (1) at two sides of each movable mounting groove (15) are symmetrically and fixedly provided with a matching fixing strip (17), the matching fixing strips (17) are provided with locking grooves (18), the energy storage battery box (2) is mounted on the bearing mounting plates (1), the two ends of the upper side of the energy storage battery box (2) are symmetrically provided with first interlocking holes (21), the four corners of the lower end of the energy storage battery box (2) are respectively and fixedly provided with a protruding corner plate (22), the protruding corner plates (22) are provided with supporting matching holes (23), the supporting matching holes (23) are internally spliced with supporting limiting rods (12), the energy storage battery box (2) is characterized in that a matched connection hinge plate (24) is fixedly arranged on two sides of the energy storage battery box (2) in a symmetrical manner, auxiliary heat dissipation channels (25) are symmetrically formed in the lower end face of the energy storage battery box (2), matched bearing bars (26) are symmetrically and fixedly arranged at two ends of the lower side of the energy storage battery box (2), movable bearing bars (27) are fixedly arranged between the matched bearing bars (26), a battery box cover plate (3) is covered at the upper end of the energy storage battery box (2), second interlocking holes (31) are symmetrically formed in two ends of the battery box cover plate (3), and energy storage battery multilayer buffering and damping mechanisms are arranged on the bearing mounting plate (1) and the energy storage battery box (2).

2. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 1, wherein: the multi-layer buffering and damping mechanism of the energy storage battery comprises a first buffering and damping spring (4), a movable fit connecting rod (5), a movable buffering and damping block (6), a buffering and damping plate (7), a buffering and damping plate (8) and a movable interlocking plate (9), wherein the first buffering and damping spring (4) is sleeved on a supporting limiting rod (12), and the first buffering and damping spring (4) is located at the lower side of a protruding angle plate (22).

3. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 2, wherein: two ends of the matched connection hinge plate (24) are symmetrically hinged with movable matched connecting rods (5), and the lower ends of the movable matched connecting rods (5) are hinged with movable buffer connecting blocks (6).

4. A lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 3, wherein: the movable buffer connecting block (6) is provided with a sliding fit jack (61), a support fit rail rod (14) is inserted into the sliding fit jack (61), the upper end of the movable buffer connecting block (6) is fixedly provided with a connection fit rod (62) and a protruding fit connecting frame (63), and the protruding fit connecting frame (63) is hinged to the lower end of the movable fit connecting rod (5).

5. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 4, wherein: the two sides of the movable buffer connecting block (6) are symmetrically and fixedly provided with a matched support side plate (64), a bearing and matching rod (65) is fixedly arranged on the matched support side plate (64), a first buffer plug plate (66) is fixedly arranged on the bearing and matching rod (65), and the first buffer plug plate (66) is inserted into the first buffer cavity (13).

6. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 5, wherein: the lower extreme symmetry of energy storage battery case (2) is provided with two buffering cooperation shrouding (7), buffering cooperation shrouding (7) cover on supplementary heat dissipation passageway (25), and the both ends symmetry of buffering cooperation shrouding (7) is fixed and is provided with connection cooperation strip (71), connection cooperation hole (72) have been seted up on connection cooperation strip (71), connect and peg graft in cooperation hole (72) and have connection cooperation pole (62).

7. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 6, wherein: the buffer fit sealing plate (7) is provided with a movable fit jack (73), a movable bearing rod (27) is inserted into the movable fit jack (73), and a second buffer damping spring (74) is sleeved on the movable bearing rod (27).

8. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 7, wherein: the buffer interlocking plate (8) is two, symmetrically installs in the both ends that bear mounting panel (1), and the lower extreme of buffer interlocking plate (8) is pegged graft in removing mounting groove (15), and support sliding hole (81) have been seted up to the lower extreme of buffer interlocking plate (8), peg graft in supporting sliding hole (81) have spacing cooperation pole (16), the lower extreme bilateral symmetry of buffer interlocking plate (8) is fixed and is provided with elasticity card strip (82), fixedly on elasticity card strip (82) be provided with locking fixture block (83).

9. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 8, wherein: the upper end of buffering interlocking board (8) has seted up and has moved cooperation passageway (84), the fixed interior carrier bar (85) that are provided with of cooperation in moving cooperation passageway (84), and the fixed support carrier bar (86) that is provided with in upper end of buffering interlocking board (8), the fixed buffering cooperation post (87) that is provided with on support carrier bar (86), second buffering cavity (88) have been seted up on buffering cooperation post (87), movable interlocking board (9) are installed to the upper end of buffering interlocking board (8).

10. The lithium ion energy storage battery for preventing vibration damage of internal battery and electronic components according to claim 9, wherein: the upper end of movable interlocking board (9) is fixed and is provided with interlocking picture peg (91), the fixed lower interlocking picture peg (92) that is provided with on the movable interlocking board (9) of upper interlocking picture peg (91) downside, and the fixed cooperation of being provided with of lower extreme of movable interlocking board (9) inserts link plate (93), cooperation is inserted link plate (93) and is pegged graft in moving fit passageway (84), and has seted up grafting cooperation even hole (94) on cooperation is inserted link plate (93), peg graft in cooperation even hole (94) have in socket bar (85), socket bar (941) have been cup jointed in the cooperation on socket bar (85), the fixed bearing cooperation inserted bar (95) that is provided with in one end of keeping away from movable interlocking board (9) on cooperation is inserted link plate (93), the fixed second buffering inserted bar (96) that is provided with in the upper end of bearing cooperation inserted bar (95), second buffering inserted bar (96) peg graft in second buffering cavity (88).