CN214957237U - Pressure relief structure of cylindrical lithium battery - Google Patents

Abstract

The utility model provides a pressure relief structure of a cylindrical lithium battery, which comprises a non-closed ring thin layer and a cylindrical lithium battery shell; the non-closed ring thin layer is positioned on the inner side of one end of the cylindrical lithium battery shell, and the geometric circle center of the non-closed ring thin layer is superposed with the geometric circle center of the cylindrical lithium battery shell; the non-closed ring thin layer and the cylindrical lithium battery shell form an integral structure. The non-closed circular ring-shaped thin layer and the cylindrical lithium battery shell are designed integrally, the sealing performance of the lithium battery can be effectively ensured, and the welding firmness, safety and reliability of the cylindrical lithium battery are not influenced; meanwhile, the non-closed annular thin layer is arranged at one end of the cylindrical lithium battery, so that the damage to the adjacent battery can be effectively reduced when the cylindrical lithium battery is subjected to thermal runaway explosion, and the spreading of faults is inhibited.

Description

Pressure relief structure of cylindrical lithium battery

Technical Field

The utility model relates to a cylindrical lithium cell pressure release structure belongs to the explosion-proof technical field of lithium cell.

Background

With the application of lithium batteries in electric vehicles and portable electronic devices, the demand for high-energy-density and high-power lithium batteries is increasingly urgent, and the safety of the lithium batteries becomes a focus of attention. When the lithium cell is under the abuse circumstances such as overdischarge, overcharge and during the short circuit, the inside temperature of lithium cell can rise fast, causes electrolyte decomposition to produce gas, and lithium cell internal pressure sharply rises, does not take under the corresponding measure, and lithium cell trouble can further worsen fast, causes the thermal runaway, and lithium cell explosion, combustion failure.

The lateral wall of cylindrical lithium battery shell is weak area, and the damaged position of battery explosion probably lies in the casing lateral wall position when taking place the thermal runaway condition, and the great amount of high temperature conducting substance that erupts can further cause the damage to neighbouring battery, leads to the trouble to spread.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a cylindrical lithium cell pressure release structure, this cylindrical lithium cell pressure release structure's simple structure, sealing performance are good, explosion-proof pressure easily controls, can show the security performance that improves the lithium cell.

The utility model discloses a following technical scheme can realize.

The utility model provides a pressure relief structure of a cylindrical lithium battery, which comprises a non-closed ring thin layer and a cylindrical lithium battery shell; the non-closed ring thin layer is positioned on the inner side of one end of the cylindrical lithium battery shell, and the geometric circle center of the non-closed ring thin layer is superposed with the geometric circle center of the cylindrical lithium battery shell; the non-closed ring thin layer and the cylindrical lithium battery shell form an integral structure.

The width and the thickness of the non-closed circular ring thin layer can be adjusted.

The diameter and the height of the cylindrical lithium battery shell can be adjusted.

The thickness of the non-closed circular ring thin layer is smaller than that of the cylindrical lithium battery shell.

The beneficial effects of the utility model reside in that: the non-closed circular thin layer and the cylindrical lithium battery shell are designed integrally, so that the sealing performance of the lithium battery can be effectively ensured, and the welding firmness, safety and reliability of the cylindrical lithium battery are not influenced; meanwhile, the non-closed annular thin layer is arranged at one end of the cylindrical lithium battery, so that the damage to the adjacent battery can be effectively reduced when the cylindrical lithium battery is subjected to thermal runaway explosion, and the spreading of faults is inhibited.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

in the figure: 1-non-closed ring thin layer, 2-cylindrical lithium battery shell.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

Example 1

As shown in fig. 1, the pressure relief structure of the cylindrical lithium battery comprises a non-closed circular thin layer 1 and a cylindrical lithium battery shell 2, wherein the material of the non-closed circular thin layer 1 is consistent with that of the cylindrical lithium battery shell 2; the non-closed circular thin layer 1 is positioned on the inner side of one end of the cylindrical lithium battery shell 2, and the geometric center of the non-closed circular thin layer 1 is superposed with that of the cylindrical lithium battery shell 2; the non-closed annular thin layer 1 and the cylindrical lithium battery shell 2 form an integral structure.

Example 2

The protocol of example 1 was followed and:

the width and the thickness of the non-closed circular ring thin layer 1 can be adjusted.

Example 3

The protocol of example 1 was followed and:

the diameter and height of the cylindrical lithium battery case 2 can be adjusted.

Example 4

The protocol of example 1 was followed and:

the thickness of the non-closed circular ring thin layer 1 is smaller than that of the cylindrical lithium battery shell 2, so that high-pressure gas in the lithium battery can burst and release pressure conveniently, and explosion caused by overlarge internal pressure of the battery is avoided.

Example 5

Based on the above embodiment, specifically:

use the utility model discloses a during the cylindrical lithium battery shell of pressure release structure, when cylindrical lithium battery internal pressure was too big, non-closed shape ring thin layer can be broken to inside gas, reaches the pressure release purpose to prevent that internal pressure is too big, still be connected with cylindrical battery case through not closed part after the pressure release structure breaks, prevent to fall into the inside short circuit that causes of lithium cell group.

Claims (4)

1. The utility model provides a cylindrical lithium cell pressure release structure, includes non-closed shape ring thin layer (1) and cylindrical lithium cell casing (2), its characterized in that: the non-closed circular thin layer (1) is positioned on the inner side of one end of the cylindrical lithium battery shell (2), and the geometric circle center of the non-closed circular thin layer (1) is superposed with the geometric circle center of the cylindrical lithium battery shell (2); the non-closed circular ring thin layer (1) and the cylindrical lithium battery shell (2) form an integral structure.

2. The cylindrical lithium battery pressure relief structure of claim 1, wherein: the width and the thickness of the non-closed circular ring thin layer (1) can be adjusted.

3. The cylindrical lithium battery pressure relief structure of claim 1, wherein: the diameter and the height of the cylindrical lithium battery shell (2) can be adjusted.

4. The cylindrical lithium battery pressure relief structure of claim 1, wherein: the thickness of the non-closed circular ring thin layer (1) is smaller than that of the cylindrical lithium battery shell (2).

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