KR101296937B1 - Secondary battery - Google Patents

Abstract

The secondary battery of the present invention simplifies the work process by unifying a tape for preventing the lifting of the conductive tabs disposed along one side of the bare cell and a tape for bonding the core pack to the outer case with a single adhesive member. This saves you time and money.

Description

Secondary Battery {SECONDARY BATTERY}

1 is a perspective view of a conventional rectangular secondary battery,

2 is a perspective view of a rectangular secondary battery according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: secondary battery 100: bare cell

110: can 130: electrode terminal

200: protective circuit board 300: conductive tab

400: insulating member 700: immersion paper

800: PTC element 900: double-sided adhesive member

The present invention relates to a secondary battery, and more particularly, a tape for preventing the lifting of conductive tabs disposed along one side of a bare cell, and a tape for bonding the core pack and the outer case to a single adhesive member. By doing so, it relates to a secondary battery that simplifies the work process and reduces the time and cost of work.

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.

1 is a perspective view of a conventional rectangular secondary battery.

The secondary battery 1 includes a core pack having a bare cell 100 and a protection circuit board 200, and an outer case (not shown) for accommodating the core pack.

The bare cell 100 includes an electrode assembly, a can housing the electrode assembly, and a cap assembly coupled to an open upper portion of the can.

The protection circuit board 200 is a substrate on which a protection circuit is formed to protect the battery from overcharge or over discharge during charging and discharging. The protective circuit board 200 may be electrically connected to two electrodes of the bare cell 100 through the lead plate 210.

Referring to the drawing, an electrode terminal 130 having a different polarity from the can 110 protrudes from the bottom of the bare cell 100. One end of the conductive tab 300 is welded to the electrode terminal 130, and continues to the top surface of the bare cell 100 along a narrow side surface of the can 110. The conductive tab 300 may be formed integrally, but usually several pieces of conductive members are welded to form one conductive tab 300.

A positive temperature coefficient device (PTC) 800 may be inserted between the conductive tabs 300. The PTC device 800 serves to prevent the battery from rupturing by blocking the flow of current when the voltage of the battery rises rapidly due to a high temperature rise of the battery or excessive charge / discharge.

An insulating member 400 is interposed between the conductive tab 300 and the narrow side surface of the can 110 to prevent a short circuit between the conductive tab 300 and the can 110.

The immersion paper 700 is attached to the wide side of the can 110 to determine whether the battery is exposed to moisture.

Meanwhile, in order to prevent the conductive tab 300 from being lifted from the narrow side of the can 110, a first adhesive member 500 such as a scotch tape is attached to the outer surface of the conductive tab 300 and the side of the can 110. To fix the conductive tab 300.

In addition, a second adhesive member 600 such as a double-sided tape is attached to the wide side surfaces of both sides of the can 110 to bond the core pack and the outer case (not shown).

As such, in the related art, since the first adhesive member 500 and the second adhesive member 600 exist separately and play a separate role, it takes time and cost as much as performing a separate process.

In addition, in the case of the second adhesive member 600, as shown in FIG. 1, a process such as punching according to the size of the bare cell 100 must be preceded, and thus there is a problem that additional time and cost are required.

The present invention is to solve the problems as described above, unified the tape to prevent the lifting of the conductive tab disposed along one side of the bare cell, the tape for bonding the core pack and the outer case with a single adhesive member The aim is to simplify the work process and reduce the time and cost of work.

According to an aspect of the present invention, there is provided a secondary battery comprising:

Installed through an electrode assembly, a can housing the electrode assembly, a cap plate coupled to an open upper portion of the can, and a gasket located on an outer surface of the cap plate to be insulated from the cap plate, and the terminal hole formed in the cap plate. A bare cell comprising a cap assembly having an electrode terminal; A conductive tab bonded to the electrode terminal and disposed along one outer surface of the can to a lower surface of the can opposite the electrode terminal; An insulating member positioned between the bare cell and the conductive tab; And a double-sided adhesive member having both sides adhesively attached to the outer surface of the conductive tab and the outer surface of the can in a direction crossing the conductive tab.

Here, the can may have a substantially rectangular parallelepiped shape.

In this case, the double-sided adhesive member is preferably attached to at least three sides of the can.

In addition, the double-sided adhesive member is preferably attached to the area corresponding to 1/5 to 1/2 of the wide side of the can.

In addition, the PTC element is inserted into the conductive tab, it is preferable to be located in a portion that does not overlap the double-sided adhesive member.

In addition, the immersion paper is attached to the wide side of the can, it is preferable not to overlap with the double-sided adhesive member or attached on the double-sided adhesive member.

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

2 is a perspective view of a rectangular secondary battery according to an embodiment of the present invention.

The secondary battery 10 includes a core pack including a bare cell 100 and a protection circuit board 200, and an outer case (not shown) for accommodating the core pack.

The bare cell 100 includes an electrode assembly, a can housing the electrode assembly, and a cap assembly coupled to an open upper portion of the can.

The electrode assembly is wound in the order of the positive electrode, the separator, and the negative electrode, 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. Thus, it is also possible for the can itself to serve as a terminal.

The cap assembly includes a cap plate coupled to an upper portion of the can, an electrode terminal installed through a terminal hole formed in the cap plate while a gasket is disposed on an outer surface thereof, an insulating plate installed on a lower surface of the cap plate, and the insulation. It is installed on the lower surface of the plate includes a terminal plate that is energized with the electrode terminal.

The positive electrode tab is electrically connected to the cap plate and the can, and the negative electrode tab is electrically connected to the electrode terminal through the terminal plate. However, the positive electrode and the negative electrode may be designed with different polarities.

In FIG. 2, the bare cell 100 is illustrated in an upside down state.

The protection circuit board 200 is formed by forming a protection circuit on a panel made of resin. The protection circuit is a circuit for protecting the battery from overcharging or overdischarging during charging and discharging, and is electrically connected to the connecting terminal. This connection terminal is electrically connected to two electrodes of the bare cell 100 through the lead plate 210.

Referring to FIG. 2, a secondary battery according to an exemplary embodiment of the present invention is bonded to the bare cell 100, the electrode terminal 130 of the bare cell 100, and is fitted with the electrode terminal 130. An insulating member positioned between the bare cell 100 and the conductive tab 300 disposed along one outer surface of the can 110 to the lower surface (the upper surface in the drawing) of the can 110 sided with each other. 400, and an outer surface of the conductive tab 300 and an outer surface of the can 110 may include an adhesive double-sided adhesive member 900 having both sides adhered to each other in a direction crossing the conductive tab 300.

In this embodiment, the can 110 has a substantially rectangular parallelepiped shape, but the content of the present invention is not limited thereto.

The conductive tab 300 is preferably disposed along a narrow side of the can 110, because when the conductive tab 300 is formed on the wide side of the can 110, interference with the inner surface of the outer case occurs. An insulating member 400 is interposed between the conductive tab 300 and the narrow side surface of the can 110 to prevent a short circuit between the conductive tab 300 and the can 110.

Conventionally, since the tape for preventing the conductive tab 300 from being lifted from one side of the can 110 and the tape for bonding the core pack and the outer case (not shown) separately exist to perform a separate role. In this embodiment, the two tapes are replaced by one double-sided adhesive member 900 in the present invention.

In addition, since the double-sided adhesive member 900 does not require a special shape, a machining process such as punching does not have to be preceded, thereby further reducing work time and cost.

The double-sided adhesive member 900 is preferably attached to at least three sides of the can (110). That is, it is preferable to attach at one time from the wide side of one side of the can 110 to the opposite wide side through the narrow side of the can in which the conductive tab 300 is located. This is because the double-sided adhesive member 900 not only serves as an adhesive member for preventing the conductive tab 300 from lifting on the narrow side of the can 110, but also as an adhesive member for bonding the core pack and the outer case. Because it is done at the same time.

In addition, the double-sided adhesive member 900 is preferably attached to the area corresponding to 1/5 to 1/2 of the wide side of the can (110). When the double-sided adhesive member 900 is attached to an area smaller than 1/5 of the wide side of the can 110, the double-sided adhesive member 900 may not serve as an adhesive member between the core pack and the outer case. In addition, when the double-sided adhesive member 900 is attached to an area larger than 1/2 of the wide side surface of the can 110, it is not suitable for increasing the material cost, and overlaps with the component of the PTC element 800 or the like as described below. This may be a problem.

In addition, a double-sided tape or the like may be used as the double-sided adhesive member 900.

Continuing the drawing, a PTC element 800 is inserted into and connected to the conductive tab 300, and the PTC element 800 is positioned at a portion which does not overlap the double-sided adhesive member 900. The PTC device 800 prevents the battery from rupturing by blocking the flow of current when the voltage of the battery rises rapidly due to a high temperature rise of the battery or excessive charge / discharge. The PTC element 800 has a configuration in which a PTC body portion is interposed between the first conductive portion and the second conductive portion. The PTC body portion is prepared by dispersing conductive particles in a crystalline polymer, and the flow of current is controlled by stretching of the crystalline polymer. Therefore, in order not to disturb the expansion and contraction of the PTC main body, it is preferable that the PTC element 800 is located at a portion which does not overlap the double-sided adhesive member 900.

In addition, the immersion paper 700 is attached to the wide side of the can 110, it is preferable not to overlap with the double-sided adhesive member 900 or to be attached on the double-sided adhesive member 900. The immersion paper 700 is a component that can determine whether the battery has been exposed to moisture. If the double-sided adhesive member 900 is attached to the immersion paper 700, because the double-sided adhesive member 900 prevents the immersion paper 700 in contact with the water.

Referring to the drawings, the connection terminal of the protective circuit board 200 is electrically connected to the conductive tab 300 and the can 110 through the lead plate 210, respectively. The protective circuit board 200 is located below (upward in the drawing) the can 110 opposite the cap assembly (or electrode terminal). However, the content of the present invention is not limited thereto.

The bare cell 100, the insulating member 400, the conductive tab 300, the double-sided adhesive member 900, and the protective circuit board 200 may be entirely accommodated by an external case (not shown), The inner surface is attached to the outer surface of the double-sided adhesive member 900.

According to the secondary battery according to the present invention, the work process by unifying the tape to prevent the lifting of the conductive tab disposed along one side of the bare cell, and the tape for bonding the core pack and the outer case with a single adhesive member, To simplify and save time and money.

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 (11)

Installed through an electrode assembly, a can housing the electrode assembly, a cap plate coupled to an open upper portion of the can, and a gasket located on an outer surface of the cap plate to be insulated from the cap plate, and the terminal hole formed in the cap plate. A bare cell comprising a cap assembly having an electrode terminal; A conductive tab bonded to the electrode terminal and disposed along one outer surface of the can to a lower surface of the can opposite the electrode terminal; An insulating member positioned between the bare cell and the conductive tab; And The outer surface of the conductive tab and the outer surface of the can includes a double-sided adhesive member having both sides adhesively attached at once in the direction crossing the conductive tab, The double-sided adhesive member is attached along at least three sides of the can, the secondary battery characterized in that it is formed to surround the conductive tab from the outside. The method of claim 1, The can is a secondary battery characterized in that the rectangular parallelepiped shape. delete The method of claim 2, The double-sided adhesive member is attached to an area corresponding to 1/5 to 1/2 of the wide side of the can. The method of claim 2, The secondary battery of claim 2, wherein a PTC element is inserted into and connected to the conductive tab, except for a portion overlapping the double-sided adhesive member of the conductive tab. The method of claim 2, The conductive tab is a secondary battery, characterized in that disposed along the narrow side of the can. The method of claim 2, The secondary battery is attached to the wide side of the can, the secondary battery, characterized in that attached to the portion or the double-sided adhesive member except the portion overlapping with the double-sided adhesive member of the can. The method of claim 1, And a protective circuit board having two terminals electrically connected to the conductive tab and the can, respectively. 9. The method of claim 8, The protective circuit board is a secondary battery, characterized in that located below the can opposite the cap assembly. 9. The method of claim 8, And the outer case housing all of the bare cells, the insulating member, the conductive tab, the double-sided adhesive member, and the protective circuit board, and an inner surface thereof is attached to an outer surface of the double-sided adhesive member. The method according to any one of claims 1, 2 and 4 to 10, The double-sided adhesive member is a secondary battery, characterized in that the double-sided tape.

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