A cushioning and shock absorbing mounting support for a lithium battery pack

By designing a slider that works in conjunction with the support and limiting components, the problem of cumbersome operation of existing lithium battery pack installation supports has been solved, enabling quick disassembly and stable fixation of lithium battery packs and improving installation and maintenance efficiency.

CN224458314UActive Publication Date: 2026-07-03TIANJIN ANSHI ENERGY TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TIANJIN ANSHI ENERGY TECH CO LTD
Filing Date
2025-06-10
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing lithium battery pack shock absorber mounting brackets use bolt connections, which are cumbersome to operate and inconvenient for disassembling and assembling lithium battery packs, affecting maintenance efficiency.

Method used

A buffer and shock-absorbing mounting bracket is designed, which includes a support, a support block, bolts, a lithium battery pack, a shock absorber, a base, a slider, and a limiting component. The lithium battery pack can be quickly installed and removed by the cooperation of the slider and the limiting component, and the lithium battery pack can be fixed by the rebound force of the spring.

Benefits of technology

It enables convenient and quick assembly and disassembly of lithium battery packs, improves installation and maintenance efficiency, and ensures stable fixation and heat dissipation performance of battery packs.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of lithium battery pack installation technology, and more particularly to a buffer and shock-absorbing mounting bracket for lithium battery packs. This utility model provides a buffer and shock-absorbing mounting bracket for lithium battery packs that allows for convenient and quick assembly and disassembly, improving the efficiency of lithium battery pack installation and maintenance. A buffer and shock-absorbing mounting bracket for lithium battery packs includes support blocks, bolts, and a base. Two support blocks are connected to the front and rear sides of the base, and bolts are engaged on each support block. This utility model works by pushing the lithium battery pack into the bracket, then releasing the stop blocks. The spring returns, causing the connecting blocks to reset and block the lithium battery pack, thus fixing it to the bracket. When it is necessary to remove the lithium battery pack, the stop blocks are pushed apart, and the lithium battery pack is removed from the bracket. This achieves the effect of convenient and quick assembly and disassembly of lithium battery packs, improving the efficiency of lithium battery pack installation and maintenance.
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Description

Technical Field

[0001] This utility model relates to the field of lithium battery pack installation technology, and in particular to a buffer and shock absorption mounting bracket for lithium battery packs. Background Technology

[0002] Lithium-ion battery pack shock absorber mounts are components specifically designed to protect battery packs from physical shocks, vibrations, and other mechanical stresses. In applications such as electric vehicles, electric bicycles, and drones, where devices may experience varying degrees of vibration and impact, shock absorber mounts are crucial for extending battery life and improving safety and reliability.

[0003] However, existing lithium battery pack shock absorption mounting brackets typically use bolt connections to install lithium battery packs, which is cumbersome to operate and makes it inconvenient to remove the lithium battery pack when it needs inspection and maintenance.

[0004] Therefore, a shock-absorbing mounting bracket for lithium battery packs has been developed that allows for convenient and quick disassembly and assembly, improving the efficiency of lithium battery pack installation and maintenance. Utility Model Content

[0005] To overcome the shortcomings of existing lithium battery pack shock absorption mounting brackets, which typically use bolt connections for installation, making the process cumbersome and hindering the removal of the lithium battery pack during maintenance, this invention provides a lithium battery pack shock absorption mounting bracket that allows for convenient and quick assembly and disassembly, thereby improving the efficiency of lithium battery pack installation and maintenance.

[0006] The technical solution of this utility model is: a buffer and shock-absorbing mounting bracket for a lithium battery pack, comprising a bracket, support blocks, bolts, a lithium battery pack, shock absorbers, a base, sliders, and limiting components. Two support blocks are connected to the front and rear sides of the base, and bolts are snapped onto each support block. Multiple shock absorbers are connected to the upper side of the base, and the bracket is connected between the upper sides of the shock absorbers. Slide grooves are opened on the inner sides of the front and rear parts of the bracket. A lithium battery pack is placed inside the bracket. Two sliders are connected to the front and rear sides of the lithium battery pack, and the sliders are snapped onto the bracket through the slide grooves. The bracket is provided with limiting components that can limit the movement of the lithium battery pack.

[0007] Furthermore, the front and rear parts of the support are hollowed out.

[0008] Furthermore, it also includes a wiring conduit, which is connected to the upper right rear side of the support.

[0009] Furthermore, the limiting component includes a stop block, a connecting block, and an elastic element. The upper and lower left sides of the support are slidably connected to the stop block, and the front and rear sides of the stop block are connected to the connecting block. The connecting blocks are slidably connected to the support, and the connecting blocks are connected to the support by an elastic element.

[0010] Furthermore, the elastic element is a spring.

[0011] Furthermore, it also includes anti-slip mats, with anti-slip mats attached to the left side of each block.

[0012] This utility model has the following advantages: By pushing the lithium battery pack into the support and then releasing the stop block, the spring returns, causing the connecting block to reset and block the lithium battery pack, thus fixing the lithium battery pack on the support. When it is necessary to remove the lithium battery pack, the stop blocks are pushed away from each other, and then the lithium battery pack is removed from the support. This achieves the effect of convenient and quick disassembly and assembly of the lithium battery pack, improving the efficiency of lithium battery pack installation and maintenance. Attached Figure Description

[0013] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0014] Figure 2 This is a three-dimensional structural diagram of the present invention.

[0015] Figure 3 This is a schematic diagram of the structure of the spring and other components of this utility model.

[0016] Figure 4 This is a structural schematic diagram of the shock absorber and other components of this utility model.

[0017] Figure 5 This is a structural schematic diagram of the slider and other components of this utility model.

[0018] The component names and serial numbers in the figure are as follows: 1_support, 2_connecting pipe, 3_support block, 4_bolt, 5_stop block, 6_slide groove, 7_lithium battery pack, 8_anti-slip pad, 9_connecting block, 10_spring, 11_shock absorber, 12_base, 13_slider. Detailed Implementation

[0019] The preferred technical solution of this utility model will be described in detail below with reference to the accompanying drawings.

[0020] A shock-absorbing mounting bracket for lithium battery packs, such as Figures 1-5As shown, the device includes a support 1, a connecting pipe 2, a support block 3, bolts 4, a lithium battery pack 7, shock absorbers 11, a base 12, sliders 13, and a limiting component. The base 12 has two support blocks 3 connected to its front and rear sides, and bolts 4 are fastened to each support block 3. Four shock absorbers 11 are connected to the upper side of the base 12, and the support 1 is connected between the upper sides of the shock absorbers 11. The support 1 has open front and rear sections for heat dissipation. The connecting pipe 2 is connected to the upper right rear section of the support 1. Sliding grooves 6 are formed on the inner sides of both the front and rear sections of the support 1. The lithium battery pack 7 is placed inside the support 1. Two sliders 13 are connected to the front and rear sides of the lithium battery pack 7, and the sliders 13 are engaged with the support 1 through the sliding grooves 6. A limiting component is provided on the support 1.

[0021] like Figure 1 and Figure 3 As shown, the limiting component includes a stop block 5, an anti-slip pad 8, a connecting block 9, and an elastic element. The stop block 5 is slidably connected to the left side of both the upper and lower parts of the support 1. The anti-slip pad 8 is connected to the left side of the stop block 5. The connecting block 9 is connected to both the front and rear sides of the stop block 5. The connecting block 9 is slidably connected to the support 1. An elastic element, which is a spring 10, is connected between the connecting block 9 and the support 1.

[0022] When using this utility model, firstly, the support block 3 is installed in the area where the lithium battery pack 7 is used by the bolt 4, and then the base 12 is fixed in the area where the lithium battery pack 7 is used. Then, the anti-slip pad 8 pushes the stop blocks 5 away from each other, the connecting block 9 moves, and the spring 10 is compressed and contracted. Subsequently, the lithium battery pack 7 is pushed into the support 1, so that the slider 13 is engaged in the slide groove 6. Then, the stop block 5 is released, the spring 10 rebounds, so that the connecting block 9 and the stop block 5 move closer to each other and reset, blocking the lithium battery pack 7 and preventing it from moving. The lithium battery pack 7 is fixed on the support 1 and connected to the cable through the conduit 2. The support 1 has open front and rear sections to facilitate heat dissipation of the lithium battery pack 7. The shock absorber 11 buffers and dampens the support 1 to prevent vibration of the support 1 from affecting the normal operation of the lithium battery pack 7. When the lithium battery pack 7 needs to be removed, the stop blocks 5 are pushed away from each other, and the slider 13 moves to the left along the slide groove 6 to remove the lithium battery pack 7 from the support 1. This allows for convenient and quick disassembly and assembly of the lithium battery pack 7, improving the efficiency of installation and maintenance.

[0023] The present application has been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of the present application. The description of the above embodiments is only for the purpose of helping to understand the method and core ideas of the present application. At the same time, for those skilled in the art, there will be changes in the specific implementation methods and application scope based on the ideas of the present application. Therefore, the content of this specification should not be construed as a limitation of the present application.

Claims

1. A cushioning and shock absorbing mounting support for a lithium battery pack, characterized by, It includes a support (1), a support block (3), a bolt (4), a lithium battery pack (7), a shock absorber (11), a base (12), a slider (13), and a limiting component. The base (12) is connected to two left and right support blocks (3) on both the front and rear sides. Each support block (3) is secured with a bolt (4). Multiple shock absorbers (11) are connected to the upper side of the base (12). The support (1) is connected between the upper sides of the shock absorbers (11). The support (1) has a sliding groove (6) on both the front and rear inner sides. The lithium battery pack (7) is placed inside the support (1). The lithium battery pack (7) is connected to two left and right sliders (13) on both the front and rear sides. The sliders (13) are engaged with the support (1) through the sliding grooves (6). The support (1) is provided with a limiting component that can limit the lithium battery pack (7).

2. A cushioning and shock absorbing mounting support for a lithium battery pack according to claim 1, characterized in that, The support (1) has two hollowed-out parts at the front and back.

3. A cushioning and shock absorbing mounting support for a lithium battery pack according to claim 1, wherein It also includes a wiring pipe (2), and the upper right rear part of the support (1) is connected to the wiring pipe (2).

4. A cushioning and shock absorbing mounting support for a lithium battery pack according to claim 1, wherein, The limiting component includes a stop block (5), a connecting block (9) and an elastic element. The left side of the upper and lower parts of the support (1) are slidably connected to the stop block (5), and the front and rear sides of the stop block (5) are connected to the connecting block (9). The connecting block (9) is slidably connected to the support (1), and the connecting block (9) is connected to the support (1) with an elastic element.

5. A cushioning and shock absorbing mounting support for a lithium battery pack according to claim 4, wherein, The elastic element is a spring (10).

6. A cushioning and shock absorbing mounting support for a lithium battery pack according to claim 4, wherein It also includes anti-slip mats (8), and anti-slip mats (8) are connected to the left side of the block (5).