KR100284030B1 - Structure of positive electrode terminal of lithium ion battery - Google Patents

Abstract

The present invention relates to a cathode terminal mounting structure of a lithium ion battery.

The present invention provides a battery cap assembled to an upper case of a rectangular lithium ion battery and sealing the inside thereof, the battery cap being formed at one side of the battery cap and having an upper end portion having a smaller inner diameter than the lower end portion, thereby having an end portion and being stepwise. A guide insertion hole widening; A tapered anode terminal whose diameter gradually decreases; A terminal insertion hole for inserting the positive terminal is formed at one side, and a boss is formed along the edge of the terminal insertion hole to be inserted into the guide insertion hole of the battery cap, and hooks are formed at both ends of the boss, respectively, to catch the tip. A jaw is fixed to the upper edge surface of the guide insertion hole, and is in close contact with the lower surface of the battery cap to insulate the positive electrode terminal and the battery cap; And a sealing ring positioned between the boss tip of the positive electrode terminal guide and the end of the guide insertion hole to maintain airtightness.

Therefore, according to the present invention, there is no need to separately provide an insulating material for insulating the battery cap, and the heat treatment process or the riveting process is omitted in the assembly process of the positive electrode terminal, thereby improving the manufacturability through a simple assembly process Savings and productivity can be achieved.

Description

Structure of positive electrode terminal of lithium ion battery

The present invention relates to a lithium ion secondary battery, and more particularly, to a mounting structure of a positive electrode terminal in a square lithium ion battery.

Lithium-ion batteries are the next-generation batteries mainly used for power supply of portable electronic products such as mobile phones, notebook computers, camcorders, etc., and have a long lifespan compared to manganese or mercury batteries.

Figure 1 shows a typical rectangular lithium ion battery, a case (Case: 1) has a built-in jelly roll (Jelly roll: 2) for generating a power, after the insulating material (Insulator: 5) is inserted into the upper side The battery cap 6 is assembled so as to seal the case 1. Jelly roll (2) is provided with a cathode tap (Cathode tap 3) and an anode tap (Anode tap 4), respectively, the cathode tab (3) is connected to the positive terminal (8) of the battery cap (6) The anode tab 4 is in contact with the inner surface of the case 1 so that the entire case 1 forms a negative electrode terminal.

Lithium-ion batteries increase the temperature and pressure inside the battery due to short or overcharging. If this condition continues, the battery may explode. To prevent this, the battery cap 6 that seals the case 1 has a safety valve to prevent explosion of the battery by automatically breaking when the inside of the battery reaches a predetermined pressure to discharge the gas inside the battery. vent valve: 11) installed.

2 (a) and (2b) show a structure for assembling a positive electrode terminal of a conventional lithium ion battery. An electrolyte injection hole (10) for injecting an electrolyte is formed at one side of the battery cap 6, and a positive electrode terminal 8 is assembled to the battery cap 6 using glass molding 9 so as to maintain insulation and airtightness.

The glass molding 9 is formed by forming a ceramic fiber powder having excellent heat resistance at high temperature, excellent electrical insulation, and chemical safety through a first heat treatment process, and then forming a molded body and an anode terminal 8. ) Is inserted into the anode terminal insertion hole (7) and then fixed by secondary heat treatment.

Fig. 3 (a) and (b) show an anode terminal assembly structure using a gasket 9 'for insulation and airtightness. Here, the anode terminal 8' is fitted to the gasket 9 'and then assembled. The battery cap 6 'is inserted into the positive terminal insertion hole 7' and fixed by a riveting process.

According to the existing manufacturing method, an insulating material 5 for insulating the battery cap 6 is provided separately in the manufacturing process of the lithium ion battery, and the glass molding 9 in the assembling process of the positive electrode terminals 8 and 8 '. In the case of using a heat treatment process or a gasket 9 'to form a riveting process, the overall work load is increased and the process is complicated, the cost is increased and there is a disadvantage of inhibiting the productivity improvement.

The present invention is to solve the conventional problems as described above, the glass molding or gasket for maintaining the insulation and airtight of the positive electrode terminal, and the insulating material is integrated, the assembly structure of the positive electrode terminal guide for assembling the positive electrode terminal to the battery cap The purpose of the present invention is to provide a positive electrode terminal installation structure of a lithium ion battery, which is simple to manufacture and assemble and enables cost reduction.

The present invention for achieving the above object, in the battery cap is assembled on the upper case of the rectangular lithium-ion battery to seal the inside, formed on one side of the battery cap, the upper end has a smaller inner diameter than the lower end A guide insertion hole having an end portion and widening stepwise; A tapered anode terminal whose diameter gradually decreases; A terminal insertion hole for inserting the positive terminal is formed at one side, and a boss is formed along the edge of the terminal insertion hole, and is inserted into the guide insertion hole of the battery cap, and hooks are provided at both ends of the boss. A positive electrode terminal guide formed to be secured to the upper edge surface of the guide insertion hole so that the locking step of the front end is in close contact with the lower surface of the battery cap to insulate the positive electrode terminal and the battery cap; And a sealing ring positioned between the boss tip of the positive electrode terminal guide and the end of the guide insertion hole to maintain airtightness.

According to the present invention, the positive electrode terminal guide is manufactured to be integrated with the positive electrode terminal through injection molding, etc., and the assembly is inserted into the guide insertion hole of the battery cap like a sealing ring, thereby simplifying the assembly process that is conventionally performed in several steps. It is possible to improve the manufacturability.

1 is an assembly view showing a conventional general rectangular lithium ion battery,

Figure 2 (a) (b) shows a positive electrode terminal assembly structure of a conventional lithium ion battery, a positive electrode terminal assembly process using glass molding,

Figure 3 (a) (b) shows a positive electrode terminal assembly structure of a conventional lithium ion battery, a cathode terminal assembly process using a gasket,

Figure 4 (a) is a cross-sectional view showing a positive electrode terminal assembly according to the present invention,

Figure 4 (b) is a plan view showing a positive electrode terminal assembly according to the present invention,

5 (a) to 5 (c) is a process diagram of assembling the positive electrode terminal assembly according to the present invention,

6 is a cross-sectional view of the assembly of the positive terminal assembly according to the present invention.

<Explanation of symbols for main parts of drawing>

100; Anode terminal 110; (Anode Terminal) Guide

120; Battery cap 130; Seal ring

Such a characteristic configuration and the effects thereof according to the present invention will be more clearly understood through detailed description of the embodiments with reference to the accompanying drawings.

4 (a) and 4 (b) show the anode terminal assembly according to the present invention.

As shown, the positive electrode terminal guide 110 is formed in the form of a rectangular plate (Plate) formed by injection molding on the peripheral surface of the positive electrode terminal 100, the positive terminal 100 in the terminal insertion hole 111 in the center thereof Insert and fix the).

In addition, a boss 112 protrudes along the upper edge of the terminal insertion hole 111 of the positive electrode terminal guide 110, and a hook 113 for assembling with the battery cap 120 at both ends of the boss 112. ) Is formed. The hook 113 is bent inward when it is assembled with the battery cap 120 and then reopened, and the locking jaw 114 of the tip is caught by the outer surface of the hole into which the hook 113 is inserted, thereby providing a positive terminal guide. It is to function to fix the (110). Therefore, the free space for the hook 113 to be bent between the positive electrode terminal 100 and the hook 113 should be secured, so that the positive electrode terminal 100 of the present invention is a tip portion positioned between both hooks 113. Is configured to have a Taper shape.

5 (a) to 5 (c) illustrate the assembling process of the positive electrode terminal assembly shown in FIGS. 4 (a) and 4 (b), and is assembled on the case (not shown) of the rectangular lithium ion battery. In the battery cap 120 sealing the inside, a guide insertion hole 121 is formed in which the upper end portion has a smaller inner diameter than the lower end portion and has an end portion 122 and is gradually widened. At this time, the inner diameter of the lower end of the guide insertion hole 121 is formed to have the same size as the outer diameter of the boss 112 of the positive electrode terminal guide (110).

As shown in FIG. 5 (a), the anode terminal assembly includes a sealing ring 130 for airtightness at the end 122 of the guide insertion hole 121 with the lower surface of the battery cap 120 facing upward. Position it. 5 (b), the boss 112 formed along the upper edge of the terminal insertion hole 111 of the positive electrode terminal guide 110 is inserted into the lower end of the guide insertion hole 121 of the battery cap 120. The battery cap 120 comes into close contact with the bottom surface (upper surface in the drawing).

At this time, the hook 113 provided at both ends of the boss 112 penetrates through the upper end of the guide insertion hole 121, and as shown in FIG. 5 (c), is bent inward by the inner circumferential surface thereof to open the guide insertion hole 121. It is inserted through, and the locking jaw 114 of the tip of the hook 113 is caught by the outer surface of the edge of the guide insertion hole 121 to be fixed so that the positive electrode terminal guide 110 and the battery cap 120 are not separated. . In FIG. 6, the battery cap 120 and the positive electrode terminal assembly are finally assembled according to the above process.

Accordingly, the positive electrode terminal guide 110 is in close contact with the lower surface of the battery cap 120 to insulate the positive electrode terminal 100 and the battery cap 120, respectively, between the positive electrode terminal guide 110 and the battery cap 120 The airtightness is maintained by the sealing ring 130 positioned between the tip of the boss 113 of the positive electrode terminal guide 110 and the end 122 of the guide insertion hole 121.

As described above, according to the present invention, an insulating material for insulating the battery cap by inserting the integrated positive electrode terminal assembly into the guide insertion hole formed in the battery cap is formed by forming the positive electrode terminal guide through injection molding along the peripheral surface of the positive electrode terminal. It does not need to be separately provided, and the heat treatment process for forming glass molding or the riveting process in the case of using a gasket is omitted in the assembly process of the positive electrode terminal, thereby improving the manufacturability through a simple assembly process, thereby reducing cost and improving productivity. The effect can be obtained.

Claims (1)

In the battery cap is assembled on the upper case of the rectangular lithium ion battery to seal the inside, A guide insertion hole formed at one side of the battery cap and having an upper end portion having a smaller inner diameter than the lower end portion, the guide insertion hole having an end portion and being widened step by step; A tapered anode terminal whose diameter gradually decreases; A terminal insertion hole for inserting the positive terminal is formed at one side, a boss is formed along the edge of the terminal insertion hole so that the boss is inserted into the guide insertion hole of the battery cap, and hooks are provided at both ends of the boss. A positive electrode terminal guide formed to be secured to an upper edge surface of the guide insertion hole to close the lower end of the battery cap to insulate the positive electrode terminal and the battery cap; And a sealing ring positioned between the tip of the boss of the positive electrode terminal guide and the end of the guide insertion hole to maintain airtightness.