KR100788592B1 - Secondary battery - Google Patents

Abstract

The secondary battery of the present invention is an electrode assembly; A can containing the electrode assembly; And a cap plate coupled to an open upper portion of the can and having at least a portion of a cross section formed with an angled terminal hole, an electrode terminal installed through the terminal hole, and positioned on an outer surface of the electrode terminal, wherein the cap forms the terminal hole. And a cap assembly including a gasket in close contact with an inner wall of the plate, a terminal plate coupled to the lower end of the electrode terminal, and an insulating plate installed between the cap plate and the terminal plate.

Therefore, the electrode terminal is not rotated when the electrode terminal is rotated and pressed in the process of assembling the cap assembly, thereby preventing the rotation of the insulation plate or the terminal plate inserted in the electrode terminal. Short circuit between inner walls can be prevented.

Description

Secondary Battery {SECONDARY BATTERY}

1 is an exploded perspective view illustrating a secondary battery according to an embodiment of the present invention;

2 is a cross-sectional view of the cap assembly of the secondary battery shown in FIG.

3A to 3C are each a perspective view of an electrode terminal of the cap assembly shown in FIG. 2, a perspective view of a gasket, a cross-sectional view of the cap assembly,

4A to 4C are perspective views of electrode terminals, a perspective view of a gasket, and a cross-sectional view of a cap assembly of a cap assembly of a secondary battery according to another exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: secondary battery 11: can

12: electrode assembly 100: cap assembly

110, 110 ': Cap plate 111: Terminal hole

120, 120 ': Gasket 122, 122': Headrest

124, 124 ': Pin cover portion 130, 130': Electrode terminal

132, 132 ': Head 134, 134': Pin

140: insulation plate 150: terminal plate

The present invention relates to a secondary battery, and more particularly, to a structure of an electrode terminal and a gasket for preventing the rotation of the electrode terminal when the end of the electrode terminal in the compression process of the assembly of the cap assembly.

In general, a secondary battery refers to a battery that can be charged and discharged, unlike a primary battery that cannot be charged, and is widely used in the field of advanced electronic devices such as a cellular phone, a notebook computer, a camcorder, and the like. In particular, lithium secondary batteries have an operating voltage of 3.6V, which is three times higher than nickel-cadmium batteries or nickel-hydrogen batteries, which are widely used as electronic equipment power sources, and are rapidly increasing in terms of high energy density per unit weight.

Such lithium secondary batteries mainly use lithium-based oxides as positive electrode active materials and carbon materials as negative electrode active materials. Moreover, although lithium secondary batteries are manufactured in various shapes, typical shapes include cylindrical shape, square shape, and pouch type.

Among these, the rectangular secondary battery includes an electrode assembly, a can containing the electrode assembly, and a cap assembly coupled to the can.

In the electrode assembly, a positive electrode and a negative electrode and a separator interposed between these two electrodes are wound, and the positive and negative electrode tabs are drawn out from the positive and negative electrodes, respectively.

The can is a metal container having a substantially rectangular parallelepiped shape in a rectangular secondary battery, and is formed by a processing method such as deep drawing.

The cap assembly includes a cap plate coupled to an upper portion of the can, an electrode terminal provided through a terminal hole, and a gasket for insulating the cap plate on an outer surface thereof, an insulating plate installed on a lower surface of the cap plate, It is provided on the bottom surface of the insulating plate and comprises a terminal plate that is energized with the electrode terminal.

The negative electrode of the electrode assembly is electrically connected to the electrode terminal through the negative electrode tab and the terminal plate, and the positive electrode is electrically connected to the cap plate or the can through the positive electrode tab. Of course, it is also possible to design by changing the polarity of the battery.

However, the conventional cap assembly has the following problems.

Looking at the process of assembling the cap assembly, the electrode terminal is inserted into the terminal through-hole formed in the cap plate and the holes formed in the insulating plate and the terminal plate in order, and then the end of the electrode terminal inserted in the terminal plate is pressed, but the end of the electrode terminal The spinning tool is brought into contact with and the spinning tool is pressed while rotating.

In the process of rotationally compressing the end of the electrode terminal, the electrode terminal can be rotated, and thus the insulation plate or the terminal plate fitted to the electrode terminal can also be rotated together. Therefore, there is a risk that a short circuit occurs between the cap plate and the terminal plate or a short circuit occurs between the terminal plate and the inner wall of the can.

The present invention is to solve the above problems, by preventing the electrode terminal from rotating when the end of the electrode terminal in the process of assembling the cap assembly by the short circuit between the cap plate and the terminal plate or the terminal plate and the inner wall of the can The purpose is to prevent.

Secondary battery according to the present invention for achieving this object,

Electrode assembly; A can containing the electrode assembly; And a cap plate coupled to an open upper portion of the can and having at least a portion of a cross section formed with an angled terminal hole, an electrode terminal installed through the terminal hole, and positioned on an outer surface of the electrode terminal, wherein the cap forms the terminal hole. And a cap assembly including a gasket in close contact with an inner wall of the plate, a terminal plate coupled to the lower end of the electrode terminal, and an insulating plate installed between the cap plate and the terminal plate.

Here, the electrode terminal may include a pin portion penetrating through the terminal hole and a head portion formed integrally with the upper end of the pin portion.

In this case, the gasket may include a pin cover portion wrapped around the pin portion and an angled cross section of the outer wall, and a head support portion supporting the head portion.

The cross section of the outer wall of the pin cover portion of the gasket may have a rectangular shape.

In addition, the cross section of the pin portion of the electrode terminal may be circular, elliptical or rectangular.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of a secondary battery according to the present invention.

1 is an exploded perspective view illustrating a rechargeable battery according to an exemplary embodiment of the present invention.

Referring to the drawings, the secondary battery includes an electrode assembly 12, a can 11 accommodating the electrode assembly 12, and a cap assembly 100 coupled to the can 11.

The electrode assembly 12 typically forms a wide plate shape of the positive electrode 13 and the negative electrode 15 to increase the capacitance, and then interposes a separator 14 between the positive electrode 13 and the negative electrode 15 to insulate them from each other. It is then laminated, rolled up into a vortex to form a so-called 'Jelly Roll'. The negative electrode 15 and the positive electrode 13 may be formed by coating carbon as the negative electrode active material and lithium cobalt as the positive electrode active material, respectively, on a current collector made of copper and aluminum foil. The separator 14 is made of polyethylene, polypropylene, or a copolymer of polyethylene and polypropylene. Separator 14 is formed to be wider than the positive electrode 13 and the negative electrode 15 is advantageous to prevent short circuit between the electrode plates. In the electrode assembly 12, positive and negative electrode tabs 16 and 17 connected to each electrode are drawn out. An insulating tape 18 is wound around the positive and negative electrode tabs 16 and 17 to prevent a short circuit between the electrode plates 13 and 15 at the boundary portion drawn out of the electrode assembly 12.

The can 11 is a metal container having a substantially rectangular parallelepiped shape in a rectangular secondary battery as shown, and formed by a processing method such as deep drawing. It is therefore possible for the can itself to act as a terminal. As the material for forming the can, aluminum or aluminum alloy, which is a lightweight conductive metal, is preferable. The can 11 becomes a container of the electrode assembly 12 and the electrolyte solution, and the upper part opened to the electrode assembly 12 is sealed by the cap assembly 100.

The cap assembly 100 includes a cap plate 110, a gasket 120, an electrode terminal 130, an insulating plate 140, and a terminal plate 150. The cap plate 110 has a terminal through hole 111 formed therein, and the electrode terminal 130 penetrates through the terminal through hole 111 with the gasket 120 positioned on the outer surface thereof to insulate the cap plate 110. Is installed. An insulating plate 140 is provided on the lower surface of the cap plate 110, and a terminal plate 150 is provided on the lower surface of the insulating plate 140.

The lower end of the electrode terminal 130 is coupled to the terminal plate 150. To this end, the electrode terminal 130 is inserted into the terminal through-hole 111 formed in the cap plate 110, the hole formed in the insulating plate 140 and the terminal plate 150, and then the electrode terminal inserted into the terminal plate 150 ( While pressing the end of 130, the spinning tool is brought into contact with the tip of the electrode terminal 130, and the spinning tool is pressed while rotating.

If the electrode terminal 130 is rotated in the process of pressing the end of the electrode terminal 130, the insulating plate 140 or the terminal plate 150 may also be rotated together. Accordingly, there is a risk that a short circuit occurs between the cap plate 110 and the terminal plate 150 or the inner wall of the terminal plate 150 and the can 11. A structure for preventing rotation of the electrode terminal 130 will be described later. Let's do it.

The negative electrode 15 of the electrode assembly 12 is electrically connected to the electrode terminal 130 through the negative electrode tab 17 and the terminal plate 150. In the case of the positive electrode 13 of the electrode assembly 12, the positive electrode tab 16 is welded to the cap plate 110 or the can 11. An insulating case 190 may be further installed below the terminal plate 150. On the other hand, the battery may be designed by changing the polarity.

Vent 116 is formed on one side of the cap plate 110, the event 116 serves to ensure the safety of the battery by releasing the internal gas when the internal pressure of the battery increases due to overcharging. The vent 116 is formed to be thinner than other portions of the cap assembly 110, and when the internal pressure increases, the vent 116 is first broken to release the internal gas.

An electrolyte injection hole 112 for injecting an electrolyte into the can 11 is formed at the other side of the cap plate 110, and a sealing unit 160 for sealing the electrolyte injection hole 112 after electrolyte injection is provided. Is formed.

The structure for preventing the rotation of the electrode terminal 130 in the process of rotationally pressing the end of the electrode terminal 130 in more detail as follows.

2 to 3C, a cap assembly 100 of a secondary battery according to an embodiment of the present invention is coupled to an open upper portion of a can (not shown), and a cap having at least some cross-sectional angled terminal holes formed therein. Plate 110, the electrode terminal 130 is installed through the terminal through the hole, the gasket 120 is located on the outer surface of the electrode terminal 130, and in close contact with the inner wall of the cap plate 110 forming the terminal through The terminal plate 150 is coupled to the lower end of the electrode terminal 130, and the insulating plate 140 is installed between the cap plate 110 and the terminal plate 150.

Referring to FIG. 3A, the electrode terminal 130 includes a pin part 134 penetrating through the terminal hole and a head part 132 integrally formed at an upper end of the pin part 134.

Referring to FIG. 3B, the gasket 120 surrounds the pin portion 134 of the electrode terminal, but has a cross section of the outer wall having an angled pin cover portion 124, and a head support portion 122 supporting the head 132 of the electrode terminal. Consists of including.

At this time, the cross section of the outer wall of the pin cover portion 124 of the gasket is rectangular. However, the content of the present invention is not limited thereto.

In addition, the cross section of the pin part 134 of an electrode terminal is circular. However, the content of the present invention is not limited thereto.

Therefore, when spinning the end of the electrode terminal 130 for the manufacture of the cap assembly 100, by making the outer surface of the gasket 120 in contact with the terminal through the angle, the electrode terminal 130 and the gasket 120 ) Can be prevented from rotating.

On the other hand, the secondary battery according to another embodiment of the present invention comprises an electrode assembly, a can containing the electrode assembly, and a cap assembly coupled to an open upper portion of the can, the configuration of the cap assembly described above Like the embodiment, the cap plate, the electrode terminal, the gasket, the terminal plate, and the insulating plate. However, differences from the above-described embodiment are as follows.

Referring to FIG. 4A, the electrode terminal 130 ′ has a rectangular parallelepiped pin portion 134 ′ penetrating through a terminal hole formed in a cap plate, and a head portion 132 ′ integrally formed at an upper end of the pin portion 134 ′. Consists of including.

Referring to FIG. 4B, the gasket 120 ′ surrounds the pin portion 134 ′ of the electrode terminal, and a cross section of the outer wall supports the angled pin cover portion 124 ′ and the head 132 ′ of the electrode terminal. It comprises a portion 122 '. Here, the shape of the hole through which the pin part 134 'of an electrode terminal penetrates is rectangular parallelepiped.

At this time, the cross section of the outer wall of the pin cover portion 124 'of the gasket is a rectangle. However, the content of the present invention is not limited thereto.

In addition, the cross section of the pin part 134 'of an electrode terminal is square. However, the content of the present invention is not limited thereto, and may have a shape such as an ellipse.

Therefore, when spinning the end of the electrode terminal 130 'for the manufacture of the cap assembly, the outer surface of the gasket 120' in contact with the terminal through-hole formed in the cap plate is angled, thereby the electrode terminal 130 'and It is possible to prevent the assembly of the gasket 120 'to rotate.

The secondary battery according to the present invention prevents the rotation of the insulating plate or the terminal plate inserted in the electrode terminal does not rotate when the electrode terminal is rotated by pressing the electrode terminal in the process of assembling the cap assembly by angled the outer surface of the gasket Short circuit between the cap plate and the terminal plate or between the terminal plate and the inner wall of the can can be prevented.

Although the present invention has been described with reference to the illustrated embodiments, it is merely exemplary, and the present invention may encompass various modifications and equivalent other embodiments that can be made by those skilled in the art. Will understand.

Claims (5)

Electrode assembly; A can containing the electrode assembly; And a cap plate coupled to an open upper portion of the can and having at least a portion of a cross section formed with an angled terminal hole, an electrode terminal installed through the terminal hole, and positioned on an outer surface of the electrode terminal, wherein the cap forms the terminal hole. A cap assembly including a gasket adhered to an inner wall of a plate, a terminal plate coupled to a lower end of the electrode terminal, and an insulating plate disposed between the cap plate and the terminal plate, The electrode terminal includes a pin portion penetrating through the terminal through hole, a head portion formed integrally on the upper end of the pin portion, the gasket surrounds the pin portion, the cross section of the outer wall is an angled pin cover portion, and the head restraint supporting the head portion Secondary battery characterized in that it comprises a portion. delete delete The method of claim 1, Secondary battery, characterized in that the cross section of the outer wall of the pin cover portion of the gasket is rectangular. The method of claim 1, The cross section of the pin portion of the electrode terminal is a secondary battery, characterized in that the circular, oval or square.

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