KR20120064171A - Battery case and pouch type secondary battery - Google Patents

Abstract

PURPOSE: A battery case and a pouch type secondary battery are provided to rapidly operate a current interrupt device by drastically diminishing adhesive force of a connecting part between an upper case and a lower case upon abnormal behavior of cell. CONSTITUTION: A battery case(100) comprises an upper case(110) equipped with an upper coupling part(111), a lower case(120) equipped with a bottom coupling part(121) which combines with the upper coupling part, and an adhesive element which is spread between the upper coupling part and the bottom coupling part. The adhesive element is silicone-modified epoxy resin. An adhesive element injection hole(112) is formed in one of the upper coupling part and the bottom coupling part. Coupling protrusions(122) are projected from one of the upper coupling part and the bottom coupling part.

Description

Battery case and pouch type secondary battery {Battery case and Pouch type secondary battery}

The present invention relates to a battery case and a secondary battery capable of operating a CID (Current Breaker) according to expansion of a cell more quickly when a high temperature occurs due to an abnormal behavior of the battery cell.

In general, a battery is capable of supplying electrical energy including a cathode or a positive electrode and an anode or a negative electrode separated from each other by a separator and an electrolyte that enables ion transfer between the two electrodes. will be.

These batteries are classified into primary batteries (general cells) that are discarded after use and secondary batteries that can be reused through charging.

Recently, compact and lightweight electric / electronic devices such as cellular phones, notebook computers, camcorders, etc. are actively developed and produced. These portable electric / electronic devices have built-in battery packs so that they can be operated even in a place where no separate power source is provided. The built-in battery pack includes at least one battery therein for outputting a predetermined level of voltage for driving the portable electric / electronic device for a period of time.

In consideration of economic aspects, the battery pack has recently adopted a secondary battery capable of charging and discharging. Representative secondary batteries include lithium secondary batteries such as nickel-cadmium (Ni-Cd) batteries, nickel-hydrogen (Ni-MH) batteries, lithium (Li) batteries, and lithium ion (Li-ion) batteries.

In particular, the lithium secondary battery has an operating voltage of 3.6 V, which is three times higher than that of a nickel-cadmium battery or a nickel-hydrogen battery, which is widely used as a power source for portable electronic equipment, and is rapidly expanding in terms of high energy density per unit weight. to be.

The lithium secondary battery has a structure including an electrode assembly including a positive electrode plate coated with a positive electrode active material, a negative electrode plate coated with a negative electrode active material, and a separator positioned between the positive electrode plate and the negative electrode plate. . At this time, lithium oxide is mainly used as a positive electrode active material, and a carbon material is used as a negative electrode active material. Generally, a battery using a liquid electrolyte is referred to as a lithium ion battery, and a battery using a polymer electrolyte is referred to as a lithium polymer battery, which is classified as a liquid electrolyte cell and a polymer electrolyte cell, depending on the type of the electrolyte. Moreover, although a lithium secondary battery is manufactured in various shapes, typical shapes include cylindrical shape, square shape, and pouch type.

Typically, the pouch type secondary battery of the secondary battery is composed of a multilayer film of the pouch outer material is usually a metal foil layer and a synthetic resin layer covering it, when using this can significantly reduce the weight of the battery than a cylindrical or square secondary battery using a metal can Therefore, the weight reduction of the secondary battery has been developed toward the pouch type secondary battery.

However, the pouch type secondary battery generates a swelling phenomenon in which the pouch sheath is expanded due to gas generation during repeated charging, thereby causing deformation of the electrode assembly. When the deformation of the electrode assembly is severe, there is a problem in that a short occurs between the cathode electrode plate and the anode electrode plate of the electrode assembly.

Accordingly, the secondary battery is provided with safety devices such as a PTC element, a thermal fuse, and a protective circuit module (PCM) and other battery accessories.

The safety devices are connected to the positive and negative terminals of the unit cell by a conductor structure called a lead, and when the voltage of the battery rises rapidly due to the high temperature of the battery or excessive charge / discharge, the current is interrupted. To prevent danger.

However, these safety devices remain in danger of malfunction when a circuit problem occurs. Moreover, the existing battery case is firmly fixed even if a swelling phenomenon occurs while receiving the electrode assembly due to the fastening force of the fastening part. Doing so will interfere with CID (Current Breaker) operation.

The present invention is to solve this problem, the fastening portion of the battery case surrounding the battery cell to enable a rapid reduction of the CID operation by the adhesive force is rapidly reduced at high temperatures.

In order to solve the above problems, the present invention provides an upper case provided with an upper fastening portion; A lower case coupled to the upper case and having a lower fastening portion coupled to an upper fastening portion; A battery case including an adhesive member applied between the upper fastening portion and the lower fastening portion is provided.

In addition, the present invention provides an upper case provided with an upper fastening portion; A lower case coupled to the upper case and having a lower fastening portion coupled to an upper fastening portion; An electrode assembly accommodated in the upper case and the lower case; A secondary battery including an adhesive member applied between the upper fastening portion and the lower fastening portion is provided.

The adhesive member is a silicone modified epoxy resin is applied.

It is preferable that an adhesive member injection hole is formed in any one of the upper fastening part and the lower fastening part.

A fastening protrusion may protrude from the other of the upper fastening part and the lower fastening part.

As described above, according to the present invention, when the cell performs normal operation, the battery case remains firmly sealed by the adhesive member. However, when the cell malfunctions, the upper case and the lower case of the battery case are maintained. The adhesive force of the adhesive member being bonded is weakened, and the fastening force between the upper case and the lower case is weakened. Accordingly, by quickly inducing CID operation, it is possible to prevent safety accidents due to battery explosion.

1 is a perspective view schematically showing a secondary battery according to the present invention.
Figure 2 is an exploded perspective view schematically showing a secondary battery according to the present invention.

Hereinafter, a preferred embodiment of the battery case and pouch type secondary battery according to the present invention will be described in detail.

A secondary battery is a battery using an electrochemical reaction generated between an electrolyte and an electrode when a positive electrode and a negative electrode are inserted into an electrolyte material and the positive electrode and the negative electrode are connected to each other. Unlike conventional primary batteries, energy consumed in electrical and electronic products Since the battery can be recharged and recharged by a charger and can be repeatedly used, it is showing rapid growth with wireless electrical and electronic products.

In recent years, there is a high demand for square cells and pouch cells that can be applied to products such as mobile phones with a thin thickness in terms of shape of the battery. The demand for secondary batteries is high.

One of the major research tasks in such secondary batteries is to improve safety. In general, lithium secondary batteries are caused by high temperature and high pressure inside the battery, which may be caused by abnormal operating conditions of the battery, such as internal short, allowable current, state of charge exceeding voltage, exposure to high temperature, dropping, etc. May cause the battery to explode.

Accordingly, the present invention provides a battery case that can ensure the safety of the secondary battery described above. 1 and 2 illustrate a state in which the electrode assembly 200 is accommodated in the battery case 100 according to the present invention, respectively.

According to this, the battery case 100 of the present invention is divided into a lower case 120 that can accommodate the electrode assembly, and an upper case 110 in the form of a cover coupled to the upper side of the lower case 120.

At this time, the upper fastening part 111 and the lower fastening are respectively formed on both side surfaces of the upper case 110 and the lower case 120 so that the upper case 110 and the lower case 120 are sealed in contact with each other during the assembly of the secondary battery. The part 121 is bent in the direction corresponding to each other.

That is, the upper coupling portion 111 of the upper case 110 is bent downward and the lower coupling portion 121 of the lower case 120 is bent upward to wrap the electrode assembly 200 and the upper coupling portion 111 The lower coupling portion 121 is coupled to each other, thereby having a pouch shape as a whole.

On the other hand, the battery case needs to be firmly fastened when the cell performs normal operation. However, when high temperature is generated due to abnormal behavior of the cell, the clamping force of the battery case is rapidly weakened, so that the CID operation can be performed quickly. To this end, in the present invention, the upper case 110 and the lower case by applying an adhesive member 130 that weakens the adhesive force at a high temperature to each fastening portion (111, 121) of the upper case 110 and the lower case 120 Fasten 120. As the high temperature adhesive member, a silicone modified epoxy resin may be applied.

Therefore, the secondary battery according to the present invention maintains a state in which the upper case 110 and the lower case 120 are firmly coupled to each other during normal operation. However, during abnormal cell behavior, the temperature rises rapidly and gas is released to cause swelling. At this time, as the temperature increases, the fastening force between the upper case 110 and the lower case 120 bonded by the silicone-modified epoxy resin is weakened, thereby inducing a CID operation quickly, thereby preventing safety accidents due to battery explosion. It becomes possible.

At this time, when the upper fastening portion 111 and the lower fastening portion 121 are in close contact with each other for the assembly of the upper case 110 and the lower case 120, the upper fastening portion to inject the adhesive member 130 therebetween. In one of the 111 and the lower fastening portion 121, it is preferable that the adhesive member injection hole 112 is formed. Of course, since the upper fastening part 110 and the lower fastening part 120 overlap each other when the battery case 100 is assembled, an adhesive member injection hole should be formed in the fastening part exposed to the outside. In the drawing of this embodiment, the adhesive member injection hole 112 is formed in the upper fastening portion 111.

In addition, a fastening protrusion inserted into and coupled to the adhesive member injection hole may protrude from the fastening portion located inside the upper and lower fastening portions. In the drawing of this embodiment, the fastening protrusion 122 is formed in the lower fastening portion 121. Therefore, the upper fastening portion and the lower fastening portion can maintain a more firm coupling state by coupling between the fastening protrusion and the injection hole as well as the adhesive member.

In addition, the present invention provides a secondary battery including the battery case as described above.

1 and 2, the pouch type secondary battery of the present invention includes an electrode assembly 200 having a positive electrode, a negative electrode, and a separator, and a battery case 100 surrounding the electrode assembly.

The positive electrode is a part of the positive electrode active material coated on the positive electrode current collector, the positive electrode current collector is usually formed to a thickness of 3 to 500 ㎛. Such a positive electrode current collector is not particularly limited as long as it has high conductivity without causing chemical change in the battery. For example, the positive electrode current collector may be formed on the surface of stainless steel, aluminum, nickel, titanium, calcined carbon, or aluminum or stainless steel. The surface-treated with carbon, nickel, titanium, silver, etc. can be used. The positive electrode current collector may increase the adhesion of the positive electrode active material by forming minute unevenness on its surface, and may be in various forms such as film, sheet, foil, net, porous body, foam, and nonwoven fabric.

The negative electrode is manufactured by coating and drying a negative electrode active material on the negative electrode current collector, and the negative electrode current collector is usually made of a thickness of 3 to 500 ㎛. Such a negative electrode current collector is not particularly limited so long as it has conductivity without causing chemical change in the battery. For example, the negative electrode current collector may be formed on the surface of copper, stainless steel, aluminum, nickel, titanium, calcined carbon, copper, or stainless steel. Surface-treated with carbon, nickel, titanium, silver and the like, aluminum-cadmium alloy and the like can be used. The negative electrode current collector may also form fine irregularities on its surface to increase the adhesion of the negative electrode active material.

The battery case 100 is divided into a lower case 120 capable of accommodating an electrode assembly and an upper case 110 having a cover shape coupled to an upper side of the lower case, and the upper case 110 and the lower case 120. The upper fastening portion 111 and the lower fastening portion 121 are bent at the side surfaces thereof, respectively, and the configuration thereof is substantially the same as described above, and thus detailed description thereof will be omitted.

Meanwhile, an electrode lead (anode lead and cathode lead) 210 electrically connected to the electrode assembly 200 protrudes a predetermined amount to the outside of the battery case 100.

That is, the two electrode leads are electrically connected to the electrode tabs extending from each electrode plate of the electrode assembly by welding or the like, and part of the electrode leads are exposed to the outside of the battery case.

The positive lead and the negative lead may be located side by side in the same direction in the battery case, or may be located in opposite directions as shown in the drawing.

According to the secondary battery configured as described above, when the cell performs normal operation, the battery case remains firmly sealed by the adhesive member, but when the cell malfunctions, the upper case and the lower case of the battery case are adhered to each other. The adhesive force of the adhesive member is weakened and the fastening force between the upper case and the lower case is weakened. Accordingly, by quickly inducing CID operation, it is possible to prevent safety accidents due to battery explosion.

100; Battery case
110; Upper case
111; Upper part
112; Adhesive member injection hole
120; Lower case
121; Lower part
122; Lower part
200; Electrode Assembly
210; Electrode Lead

Claims (8)

An upper case having an upper fastening part;
A lower case coupled to the upper case and having a lower fastening portion coupled to an upper fastening portion;
A battery case comprising an adhesive member applied between the upper fastening portion and the lower fastening portion.
The method of claim 1,
The adhesive member is a battery case, characterized in that the silicone modified epoxy resin.
The method of claim 1,
Battery case, characterized in that the adhesive member injection hole is formed in any one of the upper fastening portion and the lower fastening portion.
The method of claim 3,
The battery case, characterized in that the fastening protrusion protrudes from the other of the upper fastening portion and the lower fastening portion.
An upper case having an upper fastening part;
A lower case coupled to the upper case and having a lower fastening portion coupled to an upper fastening portion;
An electrode assembly accommodated in the upper case and the lower case;
A pouch type secondary battery comprising an adhesive member applied between the upper fastening portion and the lower fastening portion.
The method of claim 5,
The adhesive member is a pouch type secondary battery, characterized in that the silicone modified epoxy resin.
The method of claim 5,
Pouch type secondary battery, characterized in that the adhesive member injection hole is formed in any one of the upper fastening portion and the lower fastening portion.
The method of claim 7, wherein
A pouch type secondary battery, characterized in that a fastening protrusion protrudes from the other of the upper fastening portion and the lower fastening portion.

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