KR100303842B1 - Li-ion polymer battery - Google Patents

Abstract

Disclosed is a lithium ion polymer battery capable of effectively preventing leakage of an electrolyte solution. The disclosed lithium ion polymer battery includes a battery cell having a structure in which a positive electrode, a negative electrode, and a separator are electrically connected to a positive electrode terminal and a negative electrode terminal for guiding an internally generated current to the outside, and a part of the positive electrode terminal and the negative electrode terminal. The battery cell, the positive electrode terminal and the negative electrode terminal are sealed while being exposed to the outside, and an inner surface thereof is formed of a PEAA layer, which is a heat-adhesive material, and is sequentially coated with a PEAA / PE / Al / Ny layer; It characterized in that it comprises a case or pouch.

Description

Li-ion polymer battery

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lithium ion polymer battery, and more particularly, to a lithium ion polymer battery having a sealing structure capable of enhancing the adhesion of an interface to prevent leakage of an electrolyte solution.

As portable wireless device products such as video cameras, portable telephones, portable PCs, and electric bicycles, electric vehicles, and electric tools have become lighter and more functional, batteries used as driving power have increased in importance. Research is being done.

In particular, the lithium secondary battery that can be charged and discharged has three times higher energy density per unit weight and can be charged faster than conventional lead-acid batteries, nickel-cadmium batteries, nickel-hydrogen batteries, and nickel-zinc batteries. Development is underway.

Lithium secondary batteries may be classified into lithium metal batteries using a liquid electrolyte, lithium ion batteries, and lithium ion polymer batteries using a polymer solid electrolyte according to electrolyte types.

Lithium ion polymer batteries can be classified into fully solid lithium ion polymer batteries containing no organic electrolyte solution and lithium ion polymer batteries using gel polymer electrolyte containing organic electrolyte solution, depending on the type of polymer solid electrolyte.

However, in the case of the all solid lithium ion polymer battery, there is no problem of leakage of the organic electrolyte, but in the case of the lithium ion polymer battery, the problem of leakage of the organic electrolyte may occur.

For example, in the case of a general secondary battery, a metal can is used as an exterior material of the battery, and some primary batteries such as lithium batteries and lithium polymer secondary batteries use a multilayer film pouch composed of aluminum foil and various types of polymer films. Can be. In the case of using a multilayer film pouch, the weight of the battery is considerably reduced compared to the use of a metal can, but it is difficult to maintain complete sealing with the outside of the battery. In addition, there is a problem in that the polymer layer of the multilayer membrane pouch is separated by the penetration of the electrolyte when the battery is stored for a long time.

And there is a problem that the pouch is damaged when the external shock is applied, there is a sealing portion, the battery volume increases.

1 is an exploded perspective view schematically showing the structure of a conventional lithium ion polymer battery.

Referring to the accompanying drawings, although not shown in detail, the lithium ion polymer battery has a structure in which a positive electrode plate, a negative electrode plate, and a separator in which an organic electrolyte is impregnated with an electrode active material filled in a grid are stacked. A battery cell 11 is provided.

In addition, a positive electrode tab (not shown) is formed at one side of the positive electrode plate, a negative electrode tab (not shown) is formed at one side of the negative electrode plate, and the positive electrode tab and the negative electrode tab are arranged side by side at a predetermined interval. The tabs are connected to the external circuit by being connected to the positive lead 14 and the negative lead 15.

The above-described battery cell 11, the positive electrode lead 14, and the negative electrode lead 15 are sealed by an insulating case 16 having a cover or sealed by a pouch (not shown) or the like. The insulating case 16 generally has a pouch form or a case form in which heat-adhesive materials are laminated on the upper and lower surfaces of the aluminum thin film, and the heat-adhesive materials are bonded to each other to seal the inside thereof. In addition, a portion of the positive electrode lead 14 and the negative electrode lead 15 is sealed by the insulating case 16 in an exposed state to the outside for electrical connection between the battery cell 11 and the outside.

In more detail, the process of sealing the battery cell 11 to the insulating case 16 is performed as follows.

First, only a portion of the positive lead 14 and the negative lead 15 is exposed to the outside of the insulating case 16. In this state, the cover of the insulating case 16 is covered. After that, heat and adhesive materials of the insulating case 16 are applied by applying pressure and heat to seal the battery.

The insulating case 16 or the multilayer film pouch used in the conventional lithium ion polymer battery is sequentially a polyethylene layer (PE / Polyethylene Layer, 17) aluminum layer (AL / Aluminum Layer, 18), a polyethylene terephthalate layer ( PET / Polyethylene Terephthalate Layer (19) is composed of a multi-layered film structure. The disadvantage of this configuration is that the interface between each layer, for example, the interface between the aluminum layer 18 and the polyethylene layer 17, that is, the aluminum layer 18 and The adhesive strength of the bonding surface between the polyester layer 17 is weak, there is a disadvantage that the electrolyte penetrates when the battery is used for a long time, the bonding surface falls. In addition, since the strength of the insulating case 16 or the pouch is weak, there is a problem that is damaged when an external shock is applied.

In addition, there is a sealing portion, there is a problem that the battery volume is increased by the sealing portion.

The present invention is to solve the problem that the polymer layer of the multilayer film pouch is separated by the penetration of the electrolyte when the lithium ion polymer battery is used for a long time and the pouch is damaged when the external impact is applied, or there is a portion of the sealing volume of the battery The present invention relates to the construction of a new multilayer film pouch and a battery packaging to solve the problem of increasing size.

1 is a schematic perspective view of a conventional lithium ion polymer battery.

2 is a schematic perspective view of a lithium ion polymer battery according to an embodiment of the present invention.

3 is a schematic cross-sectional view of a multilayer film that is a feature of a lithium ion polymer battery according to another embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

11 Battery cell 14 Anode lead

15 ... Negative lead 16, 26 ... Insulated case

17.PE/Polyethylene Layer

18.AL/Aluminum Layer

19.Polyethylene Terephthalate Layer (PET / Polyethylene Terephthalate Layer)

21.PEAA / Polyethylene-co-acrylic acid layer

24 ... Ny / Nylon layer

A battery cell having a structure in which a positive electrode, a negative electrode, and a separator are electrically connected to a positive electrode terminal and a negative electrode terminal for guiding internally generated current to the outside, and a portion of the positive electrode terminal and the negative electrode terminal are exposed to the outside. The battery cell is sealed with a positive electrode terminal and a negative electrode terminal, and an inner surface thereof is formed of a PEAA layer, which is a heat-adhesive material, and is sequentially formed of a polyethylene-co-acrylic acid (PEAA) layer and a polyethylene (PE / polyethylene) layer. And an insulating case or pouch coated with a multilayer film of an aluminum (Al / Aluminum) layer and a nylon (Ny / Nylon) layer (hereinafter referred to as a 'PEAA / PE / Al / Ny layer'). It is done.

In the present invention, the multilayer film is formed of a PEAA layer whose inner surface is a heat-adhesive material, and subsequently, a polystyrene acrylic acid copolymer layer, a polyethylene layer, a nylon layer, an aluminum layer, a nylon layer (hereinafter 'PEAA / PE / Ny / Al / Ny layer 'will be referred to).

Hereinafter, a lithium ion polymer battery according to an exemplary embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

2 schematically illustrates a structure of a lithium ion polymer battery according to an embodiment of the present invention.

Referring to the drawings, a lithium ion polymer battery according to an embodiment of the present invention is not shown in detail, but a lithium ion polymer battery has one of two positive electrode plates filled with an electrode active material in a grid. A negative electrode plate is inserted, and a battery cell 11 having a structure in which a separator is inserted between a positive electrode and a negative electrode is provided. The separator is made of a porous material in which many ultra-fine pores form a network, and the inside of the pore includes an organic electrolyte impregnated when the separator is injected into the electrolyte.

In addition, although not shown in detail in the drawings, the positive electrode tab and the negative electrode tab are formed on one side of the positive electrode plate and the negative electrode plate constituting the battery cell 11, the positive electrode tab and the negative electrode tab are arranged side by side at regular intervals. Each of the tabs is connected to an external circuit by being connected to the positive lead 14 and the negative lead 15.

The above-described battery cell 11 and the positive electrode lead 14 and the negative electrode lead 15 are sealed by an insulating case 26 having a cover or sealed by a sealing means such as a pouch (not shown). For this sealing operation, as shown in the drawing, the anode lead 14 and the cathode lead 15 are aligned in the vertical direction, and each tab has a plurality of tabs that are thicker, so that only the lead is drawn out to the outside. It is bent and aligned in the form of a ruler. The sealing means typically has a pouch form or a case form in which a heat-adhesive material is stacked on the upper and lower surfaces of the aluminum thin film. It seals the inside by allowing them to bond together.

In addition, at this time, a portion of the positive electrode lead 14 and the negative electrode lead 15 is exposed to the outside of the insulating case 26 or the pouch for the electrical connection between the battery cell 11 and the outside, the insulating property Sealed by case 26 or pouch.

As described above, the insulating case 26 or the pouch is formed of a multilayer film, and the multilayer film is formed of a polyethylene-co-acrylic acid layer (PEAA) 21 having an inner surface thereof as a heat-adhesive material. It is sequentially formed on the polyethylene layer (PE / Polyethylene layer, 17), aluminum layer (Al / Aluminum layer, 18), nylon layer (Ny / Nylon layer, 24).

Here, the aluminum layer 18 prevents penetration of moisture, air, and the like into the battery, serves as a base material for maintaining the strength of the multilayer film, and the polyethylene 17 layer has thermal adhesiveness and insulation. By electrically shielding the battery cell 11, the polystyrene acrylic acid copolymer layer 21 and the aluminum layer 18 to be fused to each other, the nylon layer 24 has a predetermined hardness, ductility and insulation therein Protect the floor.

In addition, each interface between the layers by using a strong adhesive to improve the adhesive strength and tensile strength, etc. by the separation of each layer of the multilayer membrane due to the electrolyte infiltration after a long time, due to separation, detachment phenomenon, dropping, etc. It is desirable to prevent the insulating case 26 or pouch from being damaged due to the impact. At this time, the adhesive is preferably an adhesive containing a urethane-based resins.

In addition, as another feature of the present invention, when inserted into the outer packaging container (not shown) in the sealed state with the insulating case 26 or pouch as described above, although not shown, the edge of the heat-adhesive material is bonded to each other By folding the sealing part and inserting it into the outer packaging container, shrinking and packing the volume, it has the effect of light and small and short, and also increases the reliability and completeness of the battery by reducing the flow space inside the outer packaging container.

In addition, the positive lead 14 and the negative lead 15 exposed to the outside of the insulating case 26 or the pouch are welded to the inner exposed portion of the terminal unit which is installed in the outer packaging container and electrically connected to the outside. In this case, the material of the outer packaging container is preferably selected from any one of polyethylene, polypropylene, nylon and the like.

3 is a cross-sectional view schematically showing a multilayer film as a feature of a lithium ion polymer battery according to another embodiment of the present invention. Here, the same reference numerals as in the above-described drawings indicate the same components.

Referring to the drawings, an insulating case or pouch of a lithium ion polymer battery according to another embodiment of the present invention is formed of a multilayer film 36, and an inner surface of the multilayer film 36 is a polyethylene acrylic acid copolymer layer (a heat-adhesive material) 21) and a polystyrene layer 17, a nylon layer 24, an aluminum layer 18, a nylon layer 24 sequentially formed thereon.

Each interface between the layers is preferably a strong urethane adhesive to prevent the desorption between the layers. Other configurations are the same as in the embodiment of the present invention, so detailed description thereof will be omitted.

As described above, the lithium ion polymer battery according to the present invention enhances its strength and bonding property, thereby preventing the pouch from being damaged when an external impact is applied and the problem that the bonding surface or each layer of the polymer layer of the multilayer film pouch is separated. In addition, it has the effect of preventing the leakage of the electrolyte solution to increase the safety of the battery, and the effect of extending the life of the light and shortening effect to reduce the volume by folding the sealing portion and the effect of increasing the commercialization of the battery.

The present invention has been described with reference to one embodiment shown in the accompanying drawings, which is illustrative, and those skilled in the art will understand that various modifications and equivalent embodiments are possible. . Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (3)

A battery cell having a structure in which a positive electrode, a negative electrode, and a separator are electrically connected to a positive electrode terminal and a negative electrode terminal for guiding an internally generated current; And A part of the positive electrode terminal and the negative electrode terminal are exposed to the outside, and the battery cell, the positive electrode terminal and the negative electrode terminal are sealed, and an inner surface is formed of a PEAA layer of a heat-adhesive material, and is sequentially PEAA / PE / Al / Ny. An insulating case or pouch coated with a multi-layered film in a layer; Lithium ion polymer battery comprising a. A battery cell having a structure in which a positive electrode, a negative electrode, and a separator are electrically connected to a positive electrode terminal and a negative electrode terminal for guiding an internally generated current; And A portion of the positive electrode terminal and the negative electrode terminal are exposed to the outside, and the battery cell, the positive electrode terminal and the negative electrode terminal are sealed, and an inner surface is formed of a PEAA layer of a heat-adhesive material, and is sequentially PEAA / PE / Ny / Al. An insulating case or pouch coated by forming a multilayer film with a / Ny layer. The method according to claim 1 or 2, The interface between each layer constituting the multi-layer film further comprises applying a urethane adhesive.