KR970031009A - Lithium Battery with Heat Dissipation Net - Google Patents

Abstract

The present invention is to provide a lithium battery with a heat dissipation net that can reduce the output power of the spark by passing through the heat dissipation means before the gas and spark generated by the expansion of the electrolyte is ejected to the outside of the vent hole of the cap The purpose is. The present invention is characterized in that in the conventional lithium battery, a mesh-type heat dissipation network is provided between the ring plate and the rupture disk to cool the flame ejected by the expansion of the electrolyte in the case and reduce the explosive force. do. In addition, in order to improve the cooling effect of the flame, a hole type heat sink having a plurality of holes may be further disposed between the mesh structure and the heat sink.

Accordingly, when the electrolyte in the case expands due to heat and impact to rupture the rupture disk and the flame is ejected, the height of the flame that rises out of the vent hole of the cap is reduced, and the pressure is reduced even when an explosion occurs. As a result, the explosion force is reduced, thereby improving the safety of the lithium battery.

Description

Lithium Battery with Heat Dissipation Net

Since this is an open matter, no full text was included.

1 is an exploded perspective view of a conventional lithium battery,

4 is a partial cross-sectional view of a lithium battery according to an embodiment of the present invention, (a) is a cross-sectional view of the upper end of the lithium battery, (b) is a plan view of a mesh-type heat dissipation network,

5 is a partial cross-sectional view of a lithium battery according to another embodiment of the present invention, (a) is a top cross-sectional view of the lithium battery, and (b) is a plan view of a hole-type heat sink.

Claims (3)

Rupture disk 33 is ruptured by a pressure equal to or more than a predetermined threshold, and acts as a buffer, is covered on the upper surface of the rupture disk 33, ring plate 32 having a central opening, the rupture disk 33 And the ring plate 32 to the inside and the cover 30 having a central through hole 31, disposed on the upper surface of the cover 30, the PTC element 20 having a structure of the central through hole 21, The cap 10 is disposed on the upper surface of the PTC element 20, serves as a contact point of the anode, and has a cap 10 having a central vent hole 11, an opening 62 formed at an upper end thereof, and a protrusion 63 inside the upper wall part 63. Is formed and the positive electrode plate and the negative electrode plate are spirally wound through the case 60 and the separator plate in which the electrolyte 70 is filled, and the pole plate group 50 accommodated below the protruding portion 63 in the case 60. Fixing and holding the rupture disk 33, the ring plate 32, the cover 30, the PTC element 20 and the cap 10 In the lithium battery having a gasket 40 installed on the inner protrusion of the case 60 to seal the inside of the case 60, when the rupture disk 33 ruptures due to the expansion of the electrolyte in the case 60 , Lithium battery equipped with a heat dissipation net 100, characterized in that it comprises a heat dissipation net to cool the flame ejected to the outside of the vent hole 11 of the cap 10 and reduce the explosive force. The heat dissipation net according to claim 1, wherein the heat dissipation net 100 is a heat dissipation net 100 of a mesh structure disposed between the ring plate 32 and the bursting disc 33. Lithium battery. According to claim 2, In order to improve the cooling effect of the spark generated during the expansion of the electrolyte in the case 60, a plurality of holes between the heat dissipation net 100 and the ring plate 32 of the mesh structure Lithium battery equipped with a heat sink, characterized in that it further comprises a hole-shaped heat sink (100A) having a (hole). ※ Note: The disclosure is based on the initial application.