An overhauling platform for lithium battery breaking system

By designing a maintenance platform for the lithium battery crushing system, and utilizing components such as maintenance rails, housing mounting bases, and hydraulic cylinders, the problem of difficult crusher disassembly was solved, enabling convenient disassembly and replacement of the crusher and improving maintenance efficiency.

CN224443237UActive Publication Date: 2026-07-03ENERPAT JIANGSU ENVIRONMENTAL PROTECTION IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ENERPAT JIANGSU ENVIRONMENTAL PROTECTION IND CO LTD
Filing Date
2025-06-18
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The disassembly and maintenance of the crusher in the lithium battery crushing system are difficult, making replacement inconvenient.

Method used

A maintenance platform for a lithium battery crushing system was designed, including a maintenance track, a housing mounting base, a maintenance slide bar, a single-acting jack, and a hydraulic cylinder. Through the synergistic action of these components, the crusher and the buffer chamber can be separated and moved, simplifying the disassembly process of the crusher.

Benefits of technology

It enables convenient disassembly and replacement of the crusher, improving maintenance efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to a maintenance platform for a lithium battery crushing system. The maintenance platform includes a maintenance track, a housing mounting base, a maintenance slide bar, and several single-acting jacks. The maintenance track is mounted on a steel frame structure. The housing mounting base is mounted on the maintenance track, supports it, and connects to the crusher. The maintenance slide bar is mounted on the maintenance track and is located in front of the housing mounting base, connected to it via several hydraulic cylinders. Each single-acting jack is mounted on the steel frame structure, supports it, and connects to a buffer chamber. The buffer chamber is supported on the crusher and connected to the crushing chamber. When the connection between the buffer chamber and the crusher is released, the single-acting jacks work together to lift the buffer chamber, separating it from the crusher. The hydraulic cylinders drive the housing mounting base forward along the maintenance track, pulling out the crusher. The design is reasonable, the structure is simple, disassembling the crusher is easy, and the replacement and maintenance of the crusher are convenient.
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Description

Technical Field

[0001] This utility model relates to crushing technology, specifically to a maintenance platform for a lithium battery crushing system. Background Technology

[0002] The lithium battery crushing system includes a steel frame structure, a crusher mounted on the steel frame structure, and a buffer chamber. The buffer chamber is supported on the crusher and connected to it. Its overall structural design makes it difficult to disassemble the crusher, which is not conducive to the replacement and maintenance of the crusher. Utility Model Content

[0003] In view of the above problems, this utility model proposes a maintenance platform for a lithium battery crushing system.

[0004] The technical solution of this utility model:

[0005] A maintenance platform for a lithium battery crushing system includes a maintenance track, a housing mounting base, a maintenance slide bar, and several single-acting jacks. The maintenance track is mounted on a steel frame structure. The housing mounting base is mounted on the maintenance track, supports it, and is connected to a crusher. The maintenance slide bar is mounted on the maintenance track and is located in front of the housing mounting base, connected to the housing mounting base via several hydraulic cylinders. Each single-acting jack is mounted on the steel frame structure, supports it, and is connected to a buffer chamber. The buffer chamber is supported on the crusher and connected to the crushing chamber. When the connection between the buffer chamber and the crusher is released, each single-acting jack lifts the buffer chamber to separate it from the crusher. Each hydraulic cylinder drives the housing mounting base to move forward along the maintenance track, pulling out the crusher.

[0006] Further improvements to the above technical solution include a box mounting base supported on a maintenance track, providing sufficient support for the crusher. The maintenance platform also includes a caster assembly, which is mounted on the box mounting base and consists of casters and adjusting bolts. When each hydraulic cylinder drives the box mounting base to move forward along the maintenance track, the adjusting bolts lift the box mounting base. The casters further reduce friction between the box mounting base and the maintenance track, making the forward movement of the box mounting base along the maintenance track smoother.

[0007] Considering the size and weight of the crusher, it is difficult to pull the crusher out in one go. The design is to pull it out in multiple (3) steps. The above technical solution is further improved by fixing the maintenance slide bar and the maintenance track with bolts. Loosen the bolts, each hydraulic cylinder (extends) drives the maintenance slide bar to move forward a section along the maintenance track, fix the bolts, each hydraulic cylinder (retracts) drives the housing mounting seat to move forward a section along the maintenance track, and pull out a section of the crusher; repeat this process multiple times to pull out the crusher.

[0008] A further improvement to the above technical solution is that the enclosure mounting base has a limit block, which cooperates with the maintenance track to form an anti-deviation limit for the enclosure mounting base, preventing it from deviating during movement.

[0009] The advantages of this utility model are that it has a reasonable design, simple structure, easy disassembly of the crusher, and convenient replacement and maintenance of the crusher. Attached Figure Description

[0010] Figure 1 This is a schematic diagram of a lithium battery crushing system.

[0011] Figure 2 This is a schematic diagram of the maintenance platform structure.

[0012] The diagram shows: 1. Steel frame structure; 2. Maintenance platform; 2-1. Maintenance track; 2-2. Box mounting base; 2-3. Maintenance slide bar; 2-4. Single-acting jack; 2-5. Hydraulic cylinder; 2-6. Caster assembly; 2-6-1. Adjusting bolt; 2-6-2. Bolt; 2-7. Limit block; 2-8. Crusher; 3. Buffer chamber. Detailed Implementation

[0013] like Figure 1-2 As shown:

[0014] A lithium battery crushing system includes a steel frame structure 1, a maintenance platform 2, a crusher 3, and a buffer chamber 4;

[0015] The maintenance platform 2 includes a maintenance track 2-1, a housing mounting base 2-2, a maintenance slide bar 2-3, and several single-acting jacks 2-4. The maintenance track 2-1 is installed on the steel frame structure 1. The housing mounting base 2-2 is installed on the maintenance track, supports it, and is connected to the crusher 3. The maintenance slide bar 2-3 is installed on the maintenance track 2-1. The maintenance slide bar 2-3 is located in front of the housing mounting base 2-1 and is connected to the housing mounting base 2-2 by several hydraulic cylinders 2-5. Each single-acting jack 2-4 is installed on the steel frame structure 1, supports it, and is connected to the buffer chamber. 4. The buffer chamber 4 is supported on the crusher 3 and connected to the crushing chamber 3; the box mounting base 2-2 is supported on the maintenance rail 2-1. The maintenance platform 2 also includes a caster assembly 2-6, which is installed on the box mounting base 2-2 and consists of casters 2-6-1 and adjusting bolts 2-6-2; the maintenance slide bar 2-3 is fixed to the maintenance rail 2-1 by bolts 2-7; the box mounting base 2-2 has a limit block 2-8, which cooperates with the maintenance rail 2-1 to form an anti-deviation limit for the box mounting base 2-2.

[0016] Loosen the connection between the buffer chamber 4 and the crusher 3. Each single-acting jack 2-4 lifts the buffer chamber 4 to separate it from the crusher 3. Adjust the mounting base 2-2 of the housing by adjusting the bolts 2-6-2. Loosen the bolts 2-7. Each hydraulic cylinder 2-5 (extends) drives the maintenance slide bar 2-3 to move forward a section along the maintenance track 2-1. Fix the bolts 2-7. Each hydraulic cylinder 2-5 (retracts) drives the mounting base 2-2 of the housing to move forward a section along the maintenance track 2-1, pulling out the crusher 3. Repeat this process several times to pull out the crusher 3.

[0017] The above embodiments are only for illustrating the technical concept and features of the utility model, and are intended to enable those skilled in the art to understand the content of the utility model and implement it accordingly. They should not be construed as limiting the scope of protection of the utility model. All equivalent changes or modifications made in accordance with the spirit and essence of the utility model should be covered within the scope of protection of the utility model.

Claims

1. An access platform for a lithium battery breaking system, characterized in that, The maintenance platform includes a maintenance track, a housing mounting base, a maintenance slide bar, and several single-acting jacks. The maintenance track is installed on a steel frame structure. The housing mounting base is installed on the maintenance track, supports it, and is connected to the crusher. The maintenance slide bar is installed on the maintenance track and is located in front of the housing mounting base, connected to the housing mounting base by several hydraulic cylinders. Each single-acting jack is installed on the steel frame structure, supports it, and is connected to the buffer chamber. The buffer chamber is supported on the crusher and connected to the crushing chamber. Loosen the connection between the buffer chamber and the crusher. Each single-acting jack lifts the buffer chamber together to separate it from the crusher. Each hydraulic cylinder drives the housing mounting base to move forward along the maintenance track and pull out the crusher.

2. The maintenance platform for a lithium battery crushing system according to claim 1, characterized in that, The housing mounting base is supported on the maintenance track. The maintenance platform also includes a caster assembly, which is mounted on the housing mounting base and consists of casters and adjusting bolts. When each hydraulic cylinder drives the housing mounting base to move forward along the maintenance track, the housing mounting base is lifted up by adjusting the bolts.

3. The maintenance platform for lithium battery breaking system of claim 1, wherein, The maintenance slide bar is bolted to the maintenance track.

4. The maintenance platform for lithium battery breaking system of claim 1, wherein, The housing mounting base has a limit block, which cooperates with the maintenance track to form an anti-deviation limit for the housing mounting base.