KR102519026B1 - Capacity-increasing lithium battery cover plate with extreme shoulder height - Google Patents

Abstract

An extreme shoulder height capacity increasing lithium battery cover plate comprising a cover plate main body having two electrode through-holes, two electrode platens insulated and connected to the two electrode through-holes, and a lower insulating pad formed on the cover plate It is connected to the lower surface of the main body, and the two electrode connectors located below the lower insulation pad electrically contact the two electrode platens through corresponding electrode through-holes, respectively, and the lower edge of each electrode through-hole is recessed and bent inward. A part is provided, and the height position of the bottom edge part is lower than the position of the bottom surface of the cover plate main body, forming an electrode platen recessed mounting space. The present invention has a reasonable structure and can realize submerged mounting of the electrode platen under the premise that the thickness of the electrode platen is not thinned by using the submerged design of the bottom of the electrode through-hole, that is, the surface of the electrode platen and the main body of the cover plate. By reducing or maintaining the height difference of the upper surface, the effective space capacity of the battery may be increased by further increasing the height of the battery housing when the overall height of the battery is determined.

Description

Capacity-increasing lithium battery cover plate with extreme shoulder height}

The present invention relates to a lithium battery component, and more particularly to a cover plate of a lithium battery.

The housing space of a high-capacity lithium battery must be used as efficiently as possible. The cover plate of the corresponding part can be assembled on the cover plate after designing electrode parts such as an electrode platen, a sealing gasket, and an insulating ring so as to occupy less space in the lower housing. However, the surface of the electrode platen arranged in this way is significantly higher than the upper surface of the cover plate main body. Many lithium batteries have a clear limitation on shoulder height, or there is a specification limit on the total height from the bottom of the lithium battery housing to the surface of the electrode platen. is prevented from further increasing, and is disadvantageous to a more sufficient development of the usable space of the battery housing.

In response to the shortcomings of the prior art, the present invention provides an extreme shoulder height capacity increasing lithium battery cover plate, which has a reasonable structure and can increase the height of the battery housing.

The present invention includes a cover plate main body in which two electrode through-holes are formed, two electrode platens are insulated and connected to the two electrode through-holes, a lower insulation pad is connected to the lower surface of the cover plate main body, and a lower insulation pad is connected to the lower surface of the cover plate main body. The two electrode connectors located at the bottom of the pad electrically contact the two electrode platens through corresponding electrode through-holes, and a bottom edge portion that is recessed and bent inward is installed at the bottom of each electrode through-hole, and the height of the bottom edge portion is installed. is lower than the bottom position of the cover plate main body, forming an electrode platen recessed mounting space.

Furthermore, the electrode through-holes have upper flanges, the electrode platens placed in the respective electrode through-holes are all covered with sealing gaskets, the outer circumference of the electrode platens is covered with an insulating ring, and the upper flanges of the electrode through-holes are bent inward. The insulating ring is pressed and brought into contact to form an electrode sealing structure.

Furthermore, wave-patterned grooves are formed on the bottom surface of the electrode platen and the surface of the bottom edge of the electrode penetration hole where it is sealed by contacting with the sealing gasket to form a sealing reinforcement structure.

The present invention has a reasonable structure and can realize the submerged installation of the electrode platen under the premise that the thickness of the electrode platen is not thinned by using the submerged design of the bottom of the electrode through-hole, that is, the surface of the electrode platen and the upper part of the main body of the cover plate. By reducing or maintaining the same height difference between the surfaces, the effective space capacity of the battery may be increased by further increasing the height of the battery housing when the overall height of the battery is determined.

The present invention will be further explained in conjunction with the figures and examples below.

1 is a main schematic diagram of an embodiment.
2 is a stereoscopic exploded schematic diagram of an embodiment.
FIG. 3 is an enlarged schematic view of a local section AA of FIG. 1 .
Fig. 4 is a partially enlarged schematic view of the cover plate main body in a state where the upper flange is not bent inward;
5 is an enlarged schematic diagram of a BB section of FIG. 4;
Fig. 6 is a schematic bottom view of the positive electrode platen in Fig. 2;
7 is a schematic diagram of another state of the electrode connector.

As shown in FIGS. 1 to 5, two electrode through-holes 2 are formed in the cover plate main body 1, and two electrode platens 3 serving as electrodes and negative electrodes have two electrode through-holes ( 2), the lower insulating pad 4 is connected to the lower surface of the cover plate main body 1, and the two electrode connectors 5 located under the lower insulating pad 4 pass through the corresponding electrodes, respectively Each of the two electrode platens 3 is electrically contacted through the hole 2 . At the bottom of each electrode through-hole 2, a bottom edge portion 6 that is submerged and bent inward is provided. Form a settling mounting space.

In this embodiment, the electrode through-holes 2 have upper flanges 7, the electrode platens 3 placed in respective electrode through-holes 2 are all covered with sealing gaskets 8, and the electrode platens ( The outer circumference of 3) is covered with an insulating ring 9, respectively, and the upper flange 7 of the electrode through-hole 2 is bent inward to press and contact the insulating ring 9 to form an electrode sealing structure. As shown in FIG. 6, the lower surface of the electrode platen 3 and the upper surface of the bottom edge portion 6 of the electrode through-hole 2 have grooves in a wavy pattern where they are sealed by contacting the sealing gasket 8. (10) is formed to form a seal reinforcing structure. The presence of the corrugated grooves 10 allows more sufficient and reliable contact with the sealing gasket 8 surface, so that the sealing performance can be further enhanced.

The contour of the outer circumferential wall of the electrode platen 3 is non-circular, such as a multi-tooth shape, and the inner circumferential wall and outer wall contour of the insulating ring 9 and the inner circumferential wall of the electrode through-hole 2 are also non-circular. , matched with each other to form an anti-rotation structure. This anti-rotation structure is highly reliable and does not rotate even when subjected to a strong rotational torque, greatly increasing the safety of use of the lithium battery.

In this embodiment, the outer circumference of the upper flange 7 of the electrode through-hole 2 is covered with the decorative ring 11 on the upper part of the cover plate main body 1, so that the gap is blocked and aesthetically pleasing and dust is prevented. In addition, as shown in FIG. 7, since the electrode connector 5 can use an upright pin-type pull lug structure, it can satisfy the needs of other batteries.

Claims (6)

It includes a cover plate main body having two electrode through-holes, two electrode platens are insulated and connected to the two electrode through-holes, a lower insulating pad is connected to the lower surface of the cover plate main body, and a lower insulating pad is connected to the lower surface of the lower insulating pad. In the lithium battery cover plate, the two electrode connectors are in electrical contact with the two electrode platens through corresponding electrode through-holes, respectively.
At the lower end of each electrode through-hole 2, a bottom edge portion 6 is provided that is recessed and bent inward. A lithium battery cover plate characterized in that it forms a recessed mounting space. According to claim 1,
The electrode through-holes 2 have upper flanges 7, electrode platens 3 placed in respective electrode through-holes 2 are all covered with sealing gaskets 8, and the outer circumference of the electrode platens 3 is The lithium battery cover plate, characterized in that each is covered with an insulating ring (9), and the upper flange (7) of the electrode through-hole (2) is bent inward to press and contact the insulating ring (9) to form an electrode sealing structure. According to claim 2,
Wave-patterned grooves 10 are formed on the lower surface of the electrode platen 3 and the upper surface of the bottom edge portion 6 of the electrode through-hole 2 where it is sealed by contacting the sealing gasket 8, thereby sealing the seal. A lithium battery cover plate characterized in that it forms a reinforcing structure. According to claim 2 or 3,
The contour of the outer circumferential wall of the electrode platen 3 is non-circular, and the inner circumferential wall and outer circumferential wall of the insulating ring 9 and the inner circumferential wall of the electrode penetration hole 2 are also non-circular, matching each other to form an anti-rotation structure. Lithium battery cover plate, characterized in that. According to claim 2 or 3,
A lithium battery cover plate, characterized in that a fastening decorative ring 11 is covered on the upper portion of the cover plate body 1 and on the outer circumference of the upper flange 7 of the electrode through-hole 2. According to claim 4,
A lithium battery cover plate, characterized in that a fastening decorative ring 11 is covered on the outer circumference of the upper flange 7 of the upper portion of the cover plate main body 1 and the electrode through-hole 2.

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