KR100542186B1 - Secondary battery - Google Patents

Abstract

The present invention relates to a rectangular secondary battery that realizes a slimmer battery by disposing a positive temperature coefficient (PTC) element inside the cap assembly to prevent an increase in the internal pressure of the battery. An electrode assembly including a positive electrode plate and a negative electrode plate laminated therein, the electrode assembly including a positive electrode lead fixed to the positive electrode plate and a negative electrode lead fixed to the positive electrode plate, accommodated inside the can with an electrolyte solution moistened, and a cap plate fixed to an opening of the can. And a cap assembly to seal the can, wherein the cap assembly forms a receiving portion on one surface of the cap plate opposite the electrode assembly to form a PTC element on a current flow from the electrode assembly to the cap plate. And embedded in the receiving portion of the cap plate next to the PTC element. Stage are arranged so as to surround the positive electrode terminal plate is fixed with a positive electrode in the receiving portion of the cap plate terminal plate provides a secondary battery including an insulating member to prevent contact of the cap plate and the positive electrode terminal plate.

Secondary Battery, Square Battery, Can, Electrode Assembly, Cap Assembly, PTC, Cap Plate

Description

Secondary Battery {SECONDARY BATTERY}

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

2 is a cross-sectional view of a rechargeable battery according to an exemplary embodiment of the present invention.

3 is a partially enlarged view of FIG. 1.

4 is an exploded perspective view of a rechargeable battery according to the prior art.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a secondary battery, and more particularly, to a rectangular secondary battery that realizes slimming of a battery by disposing a positive temperature coefficient (PTC) element that prevents an increase in the internal pressure of the battery.

In general, secondary batteries are rechargeable and non-rechargeable batteries, and typically include nickel-hydrogen batteries, lithium batteries, and lithium ion batteries, which are manufactured in the form of battery packs, such as cellular phones, notebook computers, and camcorders. It is widely used as an energy source of portable electronic devices such as.

In particular, the lithium secondary battery, which is a type of secondary battery, has a high operating voltage and high energy density per unit weight, and thus is more suitable for the field of portable electronic devices. Among the lithium secondary batteries, a lithium polymer battery using a polymer electrolyte has flexibility and is relatively free in shape. In light of its light weight, it can be said to be advantageous for slimmer and lighter portable electronic devices.

Such secondary batteries are classified into squares, cylinders, and pouches according to their shapes, and FIG. 4 shows an example of a square secondary battery according to the prior art.

As shown in the drawing, the rectangular secondary battery is wound in a jelly-roll form after the positive electrode 5 and the negative electrode 7 are laminated through a can 1 of a metal material having a substantially rectangular parallelepiped shape and a separator 3. The electrode assembly 9 accommodated inside the can 1 in a state where the electrolyte solution is moistened, the cap assembly 11 sealing the upper opening 1a of the can 1, and the one side of the can 1 are provided. PTC element 13 is included.

The PTC element 13 is electrically connected to the outer bottom surface 1b of the can 1 serving as the positive electrode terminal by the first lead 15, and provided with a negative terminal provided in the cap assembly 11. 17) and the second lead 19 are electrically connected to constitute a safety device of the battery. As a result, in the case of an external short circuit of the battery, an internal short circuit caused by a mechanical shock, or an overcharge / discharge discharge, the PTC element 13 cuts off the current when the voltage of the battery rises to prevent the battery from rupturing.

However, in the rectangular secondary battery having the above-described configuration, since the PTC element 13 is disposed outside the can 1, the external dimensions of the secondary battery are determined by the PTC element 13 and the first and second leads 15 and 19. Increasingly, the battery has a disadvantage of not meeting the trend of slimming and miniaturization.

In addition, in the rectangular secondary battery having the above-described configuration, the first and second leads 15 and 19 welded to the PTC element 13 may fall off from the PTC element 13, thereby degrading the safety of the battery, and thus the electrode assembly 9. ), The can 1 and the cap assembly 11 are integrally assembled, and there is a disadvantage in that productivity is reduced due to the duplex process in which the PTC element 13 is to be welded.

Therefore, the present invention is to solve the above problems, the object of the present invention is to reduce the external dimensions of the secondary battery to realize a slimmer and smaller battery, and to ensure the safety of the battery by preventing the PTC element is electrically separated from the battery In addition, to provide a rectangular secondary battery that can improve the productivity by simplifying the assembly process.

In order to achieve the above object, the present invention,
A rectangular can having an opening, and a positive electrode plate and a negative electrode plate are laminated via a separator plate, and the positive electrode lead is fixed to the positive electrode plate and the negative electrode lead is fixed to the positive electrode plate. A cap assembly having an electrode assembly and a cap plate fixed to an opening of the can to seal the can, wherein the cap assembly forms a receiving portion on one surface of the cap plate opposite the electrode assembly to form a cap from the electrode assembly. An anode terminal plate on which a PTC element is disposed on a current flow leading to the plate, which is embedded in the receiving portion of the cap plate next to the PTC element and at which one end of the positive electrode lead is fixed, and in the receiving portion of the cap plate; Is arranged to surround the positive terminal plate in order to prevent contact between the cap plate and the positive terminal plate Provided is a secondary battery including an insulating member.

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The cap assembly may further include a negative electrode terminal inserted into a terminal through hole formed in a cap plate through an insulating gasket, a negative terminal plate positioned at a lower end of the negative electrode terminal, and having one end of the positive electrode fixed therebetween, between the cap plate and the negative terminal plate. And an insulation case disposed between the electrode plate and the cap assembly and having through holes for passing the positive electrode lead and the negative electrode lead.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of a rectangular secondary battery according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the rectangular secondary battery according to an embodiment of the present invention.

As shown in the drawing, the rectangular secondary battery is wound in a jelly-roll form after the positive electrode 6 and the negative electrode 8 are laminated through the can 2 and the separator 4 having a substantially rectangular parallelepiped shape. An electrode assembly 10 accommodated inside the can 2 in a state in which the electrolyte solution is moistened, and a cap assembly 12 sealing the upper opening 2a of the can 2, wherein one of the cap assemblies 12 is provided. The cap plate 14, which is a component, incorporates a PTC element 16 therein.

The can 2 may form an opening 2a having one surface open to receive the electrode assembly 10 through the opening 2a, and may be made of metal so that the can 2 itself may serve as a terminal. . In the present embodiment, the material of the can 2 is made of aluminum or an aluminum alloy, and the case of the can 2 is electrically connected to the positive electrode plate 6 of the electrode assembly 10 and functions as an anode terminal.

On the other hand, a safety vent 18 molded thinner than other portions of the can 2 may be formed on the bottom surface of the can 2. The safety vent 18 serves to increase safety of the battery by breaking the safety vent 18 preferentially over other parts when the internal pressure increases due to battery overcharging or the like.

The positive electrode lead 20 is welded to the positive electrode plate 6, which is a part of the electrode assembly 10, and the positive electrode lead 20 protrudes above the electrode assembly 10. The negative electrode lead 22 is also welded to the negative electrode plate 8, which is a part of the electrode assembly 10, and the negative electrode lead 22 also protrudes above the electrode assembly 10.

The cap assembly 12 includes a PTC element 16 on one surface facing the electrode assembly 10 and includes a cap plate 14 and an insulating gasket 24 having a terminal through hole 14a having a predetermined size in the center thereof. The negative electrode terminal 26 inserted and inserted into the terminal through hole 14a of the cap plate 14 through the negative electrode terminal plate 28, which is located below the negative electrode terminal 26, the cap plate 14 and the negative terminal plate An insulating plate 30 positioned between the 28 and an insulating case 32 provided between the electrode assembly 10 and the cap assembly 12 to electrically insulate the two members.

The cap plate 14 is a metal plate having a size and shape corresponding to the opening 2a of the can 2, and is welded to the opening 2a of the can 2 to seal the can 2, and the insulating case ( 32, first and second through holes 32a and 32b are formed to pass the positive lead 20 and the negative lead 22.

For reference, in the drawing, reference numeral 14b denotes an electrolyte injection hole, and reference numeral 34 denotes a plug that seals the electrolyte injection hole 14b.

3 is an enlarged partial view of FIG. 1 showing an enlarged view of a PTC element, wherein the cap plate 14 forms a receiving portion 14c having an arbitrary area formed of a kind of grooves on one surface opposite the electrode assembly 10, The PTC element 16 is placed in the receiving portion 14c, and the positive electrode terminal plate 38 surrounded by the insulating member 36 is placed on the PTC element 16 so that the PTC element 16 and the positive electrode terminal plate 38 are positioned. ) Is housed inside the cap plate 14.

The positive electrode lead 20 protruding upward from the electrode assembly 10 is welded to the positive electrode terminal plate 36 through the first through hole 32a of the insulating case 32 to form the positive electrode plate 6 and the cap plate 14. ) And the can 2 are electrically connected to each other, and the negative lead 22 protruding upward from the electrode assembly 10 is connected to the negative terminal plate 28 through the second through hole 32b of the insulating case 32. It is welded to electrically connect the negative electrode plate 8 and the negative electrode terminal 26.

As described above, the PTC element 16 and the anode terminal plate 36 surrounded by the insulating member 38 are positioned inside the cap plate 14, and one end of the anode lead 20 is fixed to the anode terminal plate 36. The current generated in the positive electrode plate 6 is transferred to the cap plate 14 and the can 2 via the PTC element 16.

In this case, the insulating member 38 prevents contact between the cap plate 14 and the positive electrode terminal plate 36 to block direct current flow between the positive electrode terminal plate 36 and the cap plate 14. As such, the PTC element 16 in this embodiment is located on the current flow from the anode lead 20 to the cap plate 14.

Therefore, according to the above-described configuration, the PTC element 16 incorporated in the cap plate 14 when the secondary battery causes an internal short circuit due to an external short circuit or a mechanical shock or overcharges and discharges and the temperature of the battery rises rapidly. Prevents rupture of the battery by blocking current flow.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to

Thus, according to the present invention, since the PTC element is located inside the cap assembly, it is possible to reduce the external dimensions of the secondary battery, thereby realizing slimming and miniaturization of the battery. In addition, since the PTC device located inside the cap assembly may not be dropped from the battery, the safety of the battery may be increased.

Claims (6)

A rectangular can having an opening; An electrode assembly having a positive electrode plate and a negative electrode plate laminated through a separator and accommodated in the can with an electrolyte solution therein, and having a positive electrode lead fixed to the positive electrode plate and a negative electrode lead fixed to the negative electrode plate; A cap assembly having a cap plate fixed to an opening of the can to seal the can; The cap assembly, Forming a receiving portion on one surface of the cap plate opposite to the electrode assembly to place a PTC element on a current flow from the electrode assembly to the cap plate, Next to the PTC element, the positive electrode terminal plate, which is embedded in the accommodating part of the cap plate and fixed to one end of the positive electrode lead, is disposed to surround the positive electrode terminal plate in the accommodating part of the cap plate, so that the contact between the cap plate and the positive terminal plate is performed. Secondary battery comprising an insulating member to prevent. delete delete The method of claim 1, The cap assembly includes a negative electrode terminal inserted into a terminal through-hole formed in the cap plate through an insulating gasket, a negative electrode terminal plate positioned at a lower end of the negative electrode terminal and fixed to one end of the positive electrode lead, a cap plate and a negative electrode The secondary battery further comprises an insulating case disposed between the terminal plate and the electrode assembly and the cap assembly, and an insulating case having through holes for passing the positive electrode lead and the negative electrode lead. The method of claim 1, The secondary battery of the can is made of aluminum or aluminum alloy. The method of claim 1, The can of the secondary battery further comprises a safety vent.

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