KR102217442B1 - Cap assembly for secondary battery - Google Patents

Abstract

The present invention relates to a cap assembly for a secondary battery, comprising: a terminal portion protruding upward, a coupling portion formed on an outer peripheral surface of the terminal portion and coupled to an opening of a can, and a connection portion extending from the terminal portion to connect the coupling portion and the terminal portion. And a reinforcing portion formed with a reinforcing groove protruding downward from the coupling portion and opening to an upper portion between the connection portion and the coupling portion, and gas on the inner wall of the connection portion and the reinforcing portion to be connected to each other A discharge hole may be formed.

Description

Cap assembly for secondary battery {CAP ASSEMBLY FOR SECONDARY BATTERY}

The present invention relates to a cap assembly for a secondary battery, and in particular, to a cap assembly for a secondary battery including a top cap for easy gas emission.

In general, a secondary battery refers to a battery capable of charging and discharging unlike a primary battery that cannot be charged, and such a secondary battery is widely used in the field of advanced electronic devices such as phones, notebook computers, and camcorders.

Meanwhile, secondary batteries are classified into cylindrical secondary batteries, prismatic secondary batteries, and pouch-type secondary batteries according to the shape of the battery case.

Patent registration number 10-0958649

The cylindrical secondary battery includes an electrode assembly, a can in which the electrode assembly is accommodated, and a cap assembly mounted in an opening of the can, wherein the cap assembly has a top cap at the top, and the top cap has the inside of the can A gas discharge hole for discharging the gas generated from the outside is formed.

However, in the cylindrical secondary battery described above, when an impact is applied to the top cap of the cap assembly, the gas discharge hole is blocked while the top cap is pressed flat, so that the gas generated inside the can is not discharged to the outside, and explosion or ignition occurs. There was a problem.

The present invention was invented to solve the above problems, and an object of the present invention is to prevent clogging of the gas discharge hole formed in the top cap even when the top cap is pressed flat, and to prevent explosion or ignition. It is to provide a battery cap assembly.

A cap assembly for a secondary battery according to an embodiment of the present invention for achieving the above object includes a terminal portion protruding upward, a coupling portion formed on the outer peripheral surface of the terminal portion and coupled to an opening of the can, the coupling portion and the terminal portion And a top cap having a connection portion extending from the terminal portion for connection, and a reinforcing portion protruding downward from the coupling portion and having a reinforcing groove open to an upper portion is formed between the connection portion and the coupling portion, and are interconnected. A gas discharge hole may be formed in the inner wall of the connection part and the reinforcement part.

The gas discharge hole may be formed from an uppermost end of the connection part to a lowermost end of an inner wall of the reinforcement part.

The interconnecting part and the inner wall of the reinforcing part may be connected in a vertical plane.

The gas discharge hole may secure an upward open space while penetrating the outer surface of the terminal part.

The gas discharge hole may secure an open space in a downward direction while penetrating the bottom surface of the reinforcing groove.

At least two gas discharge holes may be formed on inner walls of the interconnecting part and the reinforcing part.

When the reinforcement part is cut in the vertical direction, it may have a'U'-shaped cross-sectional shape.

A reinforcing rib may be formed in the reinforcing groove.

The thickness of the top cap may be 0.4mm to 0.8mm.

The safety vent provided under the top cap, the CID provided under the safety vent, the CID gasket provided between the safety vent and the CID, and the top cap, the safety vent, the CID gasket and the main surface of the CID A gasket for sealing the opening of the can may be further included, and a bent portion having a'U' cross-sectional shape may be formed on an outer circumferential surface of the safety vent corresponding to the reinforcing portion so as to be in close contact with the reinforcing portion.

The present invention has the following effects.

First: The cap assembly of the present invention forms a reinforcement part on the top cap, and extends the gas discharge hole to the inside of the reinforcement part, so that even if the top cap is pressed flat by an external impact, through the gas discharge hole formed in the reinforcement part, The generated gas can be effectively discharged, thereby preventing explosion or ignition.

Second: In the cap assembly of the present invention, the gas discharge hole can maximize the area of the gas discharge hole by extending to the bottom surface of the reinforcing part.

Third: In the cap assembly of the present invention, the gas discharge hole penetrates the terminal part of the top cap and secures an upwardly open space, thereby discharging the gas generated in the can to the upper direction of the top cap, thereby increasing the gas discharge power. have.

Fourth: In the cap assembly of the present invention, the gas discharge hole penetrates the bottom surface of the reinforcement part of the top cap and secures an open space in the downward direction, so that the gas generated inside the can can be discharged to the downward direction of the top cap. Can increase.

Fifth: In the cap assembly of the present invention, at least two gas discharge holes are formed between the connection part and the reinforcement part of the top cap, so that even if one part of the top cap is pressed flat, gas is discharged through the gas discharge hole in the other part. can do.

Sixth: In the cap assembly of the present invention, the top cap may prevent the reinforcement part from being pressed by an external impact by forming a reinforcing rib inside the reinforcement part, thereby preventing the gas discharge hole formed in the reinforcement part from being blocked.

1 is an exploded perspective view showing a cap assembly for a secondary battery according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of the cap assembly of Figure 1;
3 is a partially cut-away perspective view showing a top cap of the cap assembly for a secondary battery according to an embodiment of the present invention.
Figure 4 is a cross-sectional view of Figure 3;
5 is a plan view showing a cap assembly for a secondary battery according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals are assigned to similar parts throughout the specification.

As shown in FIG. 1, the secondary battery according to an embodiment of the present invention includes an electrode assembly (not shown), an electrolyte solution (not shown), and a can in which the electrode assembly and the electrolyte solution are accommodated, and an opening opened to the top is formed ( 10), and a cap assembly 100 mounted on the opening of the can 10.

The electrode assembly has a structure in which a plurality of electrodes and a plurality of separators are alternately stacked. Here, the plurality of electrodes are a positive electrode and a negative electrode, and a positive electrode tab is provided on the positive electrode, and the positive electrode tab is electrically connected to the cap assembly 100. In addition, a negative electrode tab is provided on the negative electrode, and the negative electrode tab is electrically connected to the bottom surface of the can 10.

The can 10 has a cylindrical shape, and an opening for accommodating the electrode assembly is formed on the upper surface.

As shown in FIGS. 1 and 2, the cap assembly 100 includes a top cap 110 provided at the top of the opening of the can 20, a safety vent 120 provided under the top cap 110, The CID 140 provided under the safety vent 120, the CID gasket 130 provided between the CID 140 and the safety vent 120, and the top cap 110, the safety vent 120, and the CID gasket (130) and a gasket 150 that surrounds the main surface of the CID 140 and seals the opening of the can 10.

In addition, the top cap 110 includes a terminal portion 111 protruding upward, a coupling portion 112 formed along the lower outer circumferential surface of the terminal portion 111 and coupled to the opening of the can 10, and the coupling portion 112 and the terminal portion. In order to connect 111, a connection part 113 extending from the terminal part 111 is formed.

Here, a gas discharge hole 115 for discharging the gas generated in the can 10 to the outside is formed in the connection part 113 of the top cap 110.

The secondary battery according to an embodiment of the present invention having such a configuration is manufactured by accommodating the electrode assembly in the can 10 and then mounting the cap assembly 100 in the opening of the can 10. On the other hand, when the secondary battery according to an embodiment of the present invention is used as an energy source or during the charging and discharging process, gas is generated in the can 10 due to the mutual reaction of the electrode assembly and the electrolyte, which is generated inside the can 10. The gas may be discharged to the outside through the gas discharge hole 115 of the top cap 110 to prevent explosion or fire.

Here, when a strong impact is applied to the cap assembly 100 for a secondary battery, the gas discharge hole 115 formed in the top cap 110 is blocked while the top cap 110 of the cap assembly 100 is pressed flat in the lower direction. There was a problem that explosion or ignition occurs while the gas generated inside the can 10 is not discharged to the outside.

To prevent this, the secondary battery according to an embodiment of the present invention prevents the gas discharge hole formed in the top cap 110 from being completely blocked even if the top cap 110 of the cap assembly 100 is pressed, thereby preventing explosion or ignition. prevent.

That is, the top cap 110 is provided between the connection part 113 and the coupling part 112, as shown in FIGS. 3 and 4, protrudes downward from the coupling part 112, and opens upward. It includes a reinforcing portion 114 formed with (114a). Here, the lowermost end of the connection part 113 and the inner wall surface of the reinforcing part 114 are interconnected, and a gas discharge hole 115 is formed on the inner wall surface of the interconnecting part 113 and the reinforcing part 114.

In more detail, the top cap 110 further forms a reinforcing portion 114 with a reinforcing groove 114a protruding downward and open to an upper portion, and the gas discharge hole 115 formed in the connection portion 113 is It extends to the inner wall surface of the reinforcing groove (114a) of the reinforcing portion (114). Accordingly, when the top cap 110 is pressed flat, the gas discharge hole 115 formed in the reinforcing part 114 remains open even if the gas discharge hole 115 formed in the connection part 113 is blocked, and the can 10 The gas inside can be discharged to the outside.

That is, it is possible to prevent the gas discharge hole formed in the top cap 110 from being completely blocked by the gas discharge hole 115 formed in the reinforcing part 114, thereby preventing explosion or fire.

On the other hand, the gas discharge hole 115 may extend from the uppermost end of the connection part 113 to the lowermost end of the inner wall of the reinforcing part 114, and in detail, it may extend to the lowermost end of the inner wall surface of the reinforcing groove 114a. The area of the discharge hole 115 can be secured as much as possible, and in particular, the gas inside the can 10 can be discharged more stably by securing the maximum area of the gas discharge hole 115 formed in the reinforcing part 114 .

Meanwhile, the inner wall surfaces of the interconnection 113 and the reinforcement 114 may be connected to the same vertical surface, and thus the gas discharge hole 115 may be more easily formed.

Meanwhile, as shown in FIG. 4, the gas discharge hole 115 may secure an upward open space A while penetrating the outer surface of the terminal part 111, thereby allowing gas inside the can 10 The gas discharge hole 115 can be discharged both in the lateral direction and in the upward direction.

On the other hand, the gas discharge hole 115 can secure a downward open space (B) while penetrating the bottom surface (bottom as seen in FIG. 4) of the reinforcing part 114, thereby allowing the gas inside the can 10 The gas discharge hole 115 can be discharged both in the lateral direction and downward.

On the other hand, the gas discharge hole 115 can secure both an upward and downward open space while simultaneously penetrating the outer surface of the terminal part 111 and the bottom surface of the reinforcing groove 114a, and thus the inside of the can 10 Gas can be simultaneously discharged through the gas discharge hole 115 in the upper and lower directions together with the lateral direction.

On the other hand, the reinforcing part 114 may have a vertically bent'C' cross-sectional shape. That is, the reinforcing part 114 has a vertically bent'C'-shaped cross-sectional shape, and it is possible to increase support and strength, and in particular, the terminal part 111 of the top cap 110 is flatly pressed and transmitted by an external object. By stably supporting the applied load, the gas discharge hole 115 formed in the reinforcing part 114 can be prevented from being blocked.

On the other hand, the gas discharge hole 115 may be formed at least two or more, preferably three at equal intervals on the inner wall surface of the interconnection 113 and the reinforcing part 114 to be connected to each other, thereby discharging any one gas Even if the hole 115 is blocked, the gas inside the can may be discharged to the outside through the remaining gas discharge hole 115.

Meanwhile, the top cap 110 may have a thickness of 0.4mm to 0.8mm. In this case, a phenomenon in which the top cap 110 is pressed flat by an external impact can be significantly prevented. In addition, when the thickness is 0.7 mm, the corresponding effect may have a maximum value.

Meanwhile, as shown in FIG. 5, the secondary battery according to an embodiment of the present invention may further include a reinforcing rib 116 to prevent deformation of the reinforcing part 114. That is, the reinforcing rib 116 is provided in the reinforcing groove 114a, and both ends thereof are connected to the inner wall surface and the outer wall surface of the reinforcing portion 114, respectively. Accordingly, the reinforcing rib 116 reinforces the strength so that the reinforcing portion 114 is not deformed, so that the gas discharge hole 115 formed in the reinforcing portion 114 can be significantly prevented from being blocked.

Meanwhile, in the secondary battery according to an embodiment of the present invention, as the reinforcing portion 114 protrudes from the top cap 110, a problem may occur in the coupling between the top cap 110 and the safety vent 120.

In order to prevent this, the secondary battery according to an embodiment of the present invention has a bent portion 121 bent in a'C' cross-sectional shape on the outer peripheral surface of the safety vent 120 so that the reinforcing portion 114 is inserted into the top cap 110. ), it is possible to increase the coupling between the top cap 110 and the safety vent 120.

Therefore, the secondary battery according to an embodiment of the present invention forms the reinforcing part 114 on the top cap 110 and extends the gas discharge hole 115 to the inside of the reinforcement part 114 to prevent the Even if an object collides, the problem of clogging the gas discharge hole 115 can be prevented.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and various embodiments derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention.

10: can
100: cap assembly
110: top cap
111: terminal
112: coupling portion
113: connection
114: reinforcement part
114a: reinforcement groove
115: gas discharge hole
120: safety vent
130: CID
140: sub plate
150: gasket

Claims (10)

Cap assembly for a secondary battery comprising a terminal portion protruding upward, a coupling portion formed on the outer circumference of the terminal portion and coupled to an opening of the can, and a top cap having a connection portion extending from the terminal portion to connect the coupling portion and the terminal portion as,
A reinforcing part protruding downward from the coupling part and having a reinforcing groove open upward is formed between the connection part and the coupling part,
A gas discharge hole is formed in the inner wall of the interconnecting part and the reinforcing part,
The gas discharge hole is formed from the uppermost end of the connection part to the lowermost end of the inner wall of the reinforcement part,
The interconnecting part and the inner wall of the reinforcing part are connected in a vertical plane,
The safety vent provided under the top cap, the CID provided under the safety vent, the sub-plate provided under the CID, and the top cap, the safety vent, the CID and the main surface of the sub-plate, and the opening of the can Further comprising a gasket sealing the,
A cap assembly for a secondary battery in which a'U'-shaped bent portion is formed on an outer circumferential surface of the safety vent corresponding to the reinforcing portion to be in close contact with the reinforcing portion. delete delete The method according to claim 1,
The gas discharge hole is a cap assembly for a secondary battery to secure an upward open space while penetrating the outer surface of the terminal part. The method according to claim 1,
The gas discharge hole is a cap assembly for a secondary battery to secure an open space in a downward direction while penetrating the bottom surface of the reinforcing groove. The method according to claim 1,
At least two gas discharge holes are formed on inner walls of the interconnecting portion and the reinforcing portion of the secondary battery cap assembly. The method according to claim 1,
The reinforcing part is a cap assembly for a secondary battery having a'U'-shaped cross-sectional shape when cut in a vertical direction. The method according to claim 1,
A cap assembly for a secondary battery in which a reinforcing rib is formed in the reinforcing groove. The method according to claim 1,
The cap assembly for a secondary battery, characterized in that the thickness of the top cap is 0.4mm ~ 0.8mm. delete

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