KR20090079020A - Laminate sheet for secondary battery package and secondary battery employed with the same - Google Patents

Abstract

A laminated sheet for a secondary battery package, and a secondary battery containing the laminated sheet are provided to reduce weight and thickness, to lower the manufacturing cost and to improve the stability to explosion and firing. A laminated sheet(100) for a secondary battery package comprises a barrier layer(120) which comprises a base film, and an aluminum deposited film layer evaporated on at least one surface of the base film; an outer covering layer(110) which is coated on the aluminum deposited film layer of the barrier layer and is based on a polymer resin; and an inner sealant layer(130) which is coated below the base film of the barrier layer and is based on a melt-welding polymer resin.

Description

Laminate sheet for secondary battery package and secondary battery comprising the same {Laminate Sheet for Secondary Battery Package and Secondary Battery Employed with the Same}

The present invention relates to a laminate sheet for a secondary battery package and a secondary battery including the same, and more particularly, a lighter, thinner, and cheaper secondary battery can be manufactured, and moreover, when a gas is generated by abnormal internal reaction. The present invention relates to a laminate sheet for a secondary battery package, and a secondary battery including the same, which are easily discharged to improve safety for additional ignition and explosion.

In general, as the development and demand for mobile devices increases, the demand for secondary batteries as energy sources is rapidly increasing, and many studies have been conducted on lithium secondary batteries with high energy density and discharge voltage among such secondary batteries. It is commercially used and widely used.

Lithium secondary batteries are largely classified into cylindrical batteries, square batteries, pouch-type batteries, and the like according to their appearance, and may be classified into lithium ion batteries, lithium ion polymer batteries, lithium polymer batteries, and the like depending on the type of electrolyte.

Due to the recent trend toward the miniaturization of mobile devices, there is an increasing demand for thinner rectangular batteries and pouch-type batteries. In particular, for pouch-type batteries that are easy to deform, low in manufacturing cost and light in weight. Interest is high. Such a pouch type battery is a battery in which an electrode assembly having a cathode / separation membrane / cathode structure is built in a battery case in which a laminate sheet including a resin layer and a metal layer is formed in a pouch type.

FIG. 1 schematically shows the cross-sectional structure of a conventional laminate sheet generally used in pouch-type batteries. Referring to FIG. 1, the laminate sheet 10 includes an outermost outer coating layer 11 that forms an outermost shell, a barrier layer 12, an adhesive layer 14, and a seal that prevents gas and moisture from flowing into the battery. It consists of an inner sealant layer 13.

Since the outer coating layer 11 serves to protect the battery from the outside, excellent tensile strength and weather resistance to the thickness are required, and ONy (stretched nylon film) is frequently used. The barrier layer 12 serves to prevent gas, moisture, and the like from flowing into the battery, and mainly aluminum (Al) is used. The inner sealant layer 13 is thermally fused to each other by an applied heat and pressure in a state in which the electrode assembly is embedded, and serves to provide a sealability, and mainly consists of CPP (non-stretched polypropylene film). The adhesive layer 14 serves to complement the low adhesion of the CPP inner sealant layer 13 to the barrier layer 12.

Various attempts have been made to further reduce thickness or increase barrier properties in the battery case sheet having the multilayer laminate structure. For example, Japanese Patent Application Laid-Open No. 2004-0327039 forms an outer coating layer made of a biaxially stretched polyethylene terephthalate film or a biaxially stretched nylon film on a barrier layer made of aluminum. By further improving the strength and resistance, techniques have been proposed to reduce the overall thickness of the sheet.

In addition, although not a sheet for a battery case, Japanese Patent Application Laid-Open No. 2004-0327039 is a packaging material for an electronic component case, and includes chitosans and Ti, Hf, Mo, W, Se, Ce, Fe, Cu, Zn inside or outside the aluminum layer. , V and trivalent Cr have been proposed to improve the gas barrier properties by forming a film with a background treatment agent containing a metal compound containing at least one metal selected from the group consisting of.

In this manner, all of the conventional laminate sheets used for battery cases or electronic component cases use aluminum as a barrier layer. Aluminum is preferred as a barrier layer material because of its excellent barrier property and ductility to gas.

However, laminate sheets used for battery cases are expensive, heavy, and have limitations in reducing thickness. In addition, when gas is generated through an abnormal reaction inside the battery, the pressure inside the battery increases due to the strength of aluminum, and the explosion force increases when the gas is ignited by an internal short.

Meanwhile, as the demand for secondary batteries, which are thinner, lighter, and safer, is increasing, there is a high demand for the development of new secondary battery packaging materials.

The present invention has been made to solve the above problems and to solve the technical problems that have been requested from the past, the object of the present invention is to produce a lightweight, thin, cheap secondary battery, and also to abnormal internal reaction The present invention provides a laminate sheet for a secondary battery package and a secondary battery including the same, which are more easily discharged when gas is generated, thereby improving safety against further ignition and explosion.

The object is, as a barrier layer, a barrier layer composed of a base film and an aluminum deposition film layer deposited on at least one side of the base film, and applied on the aluminum deposition film layer of the barrier layer, and composed of a polymer resin It is achieved by a laminate sheet for a secondary battery package comprising an outer coating layer and an inner sealant layer applied under the base film of the barrier layer and constructed based on the fused polymer resin.

Here, the polymer resin of the outer coating layer is characterized in that the polyethylene terephthalate (PET) or stretched nylon.

In addition, the adhesive polymer resin of the inner sealant layer is characterized in that the non-stretched polypropylene film.

In addition, the adhesive layer is further included between the base film of the barrier layer and the inner sealant layer.

In addition, the outer coating layer has a thickness of 5 to 100 µm, the barrier layer has a thickness of 5 to 300 µm, and the thickness of the inner sealant layer is 10 to 50 µm.

The above object is also achieved by a secondary battery packaging material produced using the laminate sheet for secondary battery package.

The object is also achieved by a secondary battery produced using the secondary battery packaging material.

Here, the secondary battery uses the secondary battery packaging material manufactured by using the laminate sheet for secondary battery package, the electrode assembly is embedded, a lithium ion polymer battery in which the lithium salt-containing electrolyte is impregnated in a gel form It is achieved by the laminate sheet for secondary battery packages characterized by the above-mentioned.

According to the present invention, a lighter, thinner and cheaper secondary battery can be manufactured by using a barrier layer composed of a base film and an aluminum deposition film layer deposited on at least one side of the base film as a barrier layer. In addition, it is more easily discharged when a gas is generated by abnormal internal reactions, and thus has an effect of improving safety against further ignition and explosion.

Hereinafter, the present invention will be described in detail with reference to embodiments and drawings of the present invention. These examples are only presented by way of example only to more specifically explain the present invention, it will be apparent to those skilled in the art that the scope of the present invention is not limited by these examples. will be.

After various experiments and in-depth studies, the inventors of the present invention have a barrier layer in a laminate sheet, which is a secondary battery packaging material, comprising a base film in conventional aluminum and an aluminum deposition film layer deposited on at least one side of the base film. In the case of changing to a barrier layer, it was confirmed that light and thin, the improvement of safety at the time of gas generation inside a battery can be ensured, and the present invention was completed.

The laminate sheet for a secondary battery package according to the present invention is applied as a barrier layer on a barrier layer comprising a base film and an aluminum deposition film layer deposited on at least one side of the base film, and the aluminum deposition film layer of the barrier layer. An outer coating layer composed of a polymer resin and an inner sealant layer applied under the base film of the barrier layer and composed of an adhesive polymer resin are included.

Since the laminate sheet for secondary battery package according to the present invention includes an aluminum deposition film layer in the barrier layer, it is thinner and lighter than a conventional laminate sheet for secondary battery package, and can effectively discharge abnormally generated gas from inside the battery. Can be improved.

The barrier film may be a low density polyethylene (LDPE), high density polyethylene (HDPE), polypropylene (PP), polystyrene (PS), stretched nylon (ONY), polyethylene terephthalate (PET) film, In particular, polyethylene terephthalate and stretched nylon can be preferably used. In addition, an aluminum deposition film layer is laminated on at least one surface of the base film of the barrier layer.

Since the outer coating layer should have excellent resistance from the external environment, it is necessary to have a predetermined tensile strength and weather resistance. In such aspect, polyethylene terephthalate (PET) or stretched nylon may be preferably used as the polymer resin of the outer coating layer.

As the polymer resin of the inner sealant layer, a polyolefin-based resin having heat sealability (heat adhesion), low hygroscopicity to suppress the invasion of the electrolyte solution, and which is not expanded or eroded by the electrolyte solution is preferably used. And more preferably, an unstretched polypropylene film (CPP).

In addition, the laminate sheet for secondary battery package according to the present invention is that the thickness of the outer coating layer is 5 to 100 ㎛, the thickness of the barrier layer is 5 to 300 ㎛, the thickness of the inner sealant layer is 10 to 50 ㎛ desirable. If the thicknesses are too thin, it is difficult to expect the blocking function and the strength improvement of the material, on the contrary, too thick is not preferable because of the poor workability and causing an increase in the thickness of the sheet.

In addition, the laminate sheet for a secondary battery package according to the present invention may further include an adhesive layer between the base film of the barrier layer and the inner sealant layer to improve adhesion and blocking properties. Examples of the material of the adhesive layer include a urethane-based material, an acryl-based material, a composition containing a thermoplastic elastomer, and the like, but are not limited thereto.

The laminate sheet for a secondary battery package according to the present invention may be manufactured in various ways. For example, the films constituting the layers may be sequentially laminated and then bonded to each other, and dry lamination or extrusion lamination methods may be used as such an adhesion method. . The dry lamination method is a method in which the two materials are bonded to each other by a temperature and pressure higher than room temperature using a heating roll after drying by interposing an adhesive between one material and the other material. In addition, the extrusion lamination method is a method of interposing the two materials by a constant pressure at room temperature using a pressing roll after the adhesive is interposed between the one material and the other material.

The present invention also provides a secondary battery packaging material manufactured using the laminate sheet for secondary battery package as described above. The secondary battery packaging material according to the present invention may have various forms, and preferably, may include a form in which the electrode assembly is formed in a pouch form. Representative examples of the secondary battery include a lithium secondary battery, and among them, a lithium ion polymer in which an electrode assembly is embedded in a packaging material consisting of a laminate sheet for secondary battery package and a lithium salt-containing electrolyte is impregnated therein. Secondary batteries are preferred.

Since the detailed structure of the lithium ion polymer battery, a method of manufacturing the same, and the like are known in the art, a detailed description thereof will be omitted herein.

Hereinafter, the present invention will be described in more detail with reference to the drawings of embodiments according to the present invention, but the scope of the present invention is not limited thereto.

FIG. 2 is a schematic view of a cross-sectional structure of a laminate sheet according to an embodiment of the present invention. Referring to these drawings, the laminate sheet 100 includes an outer coating layer 110 as an outermost layer and a heat sealable inner sealant. A barrier layer 120 including a base film as a barrier layer and an aluminum deposition film layer deposited on at least one surface of the base film is stacked between the layers 130. That is, the outer coating layer 110, the barrier layer 120 made of the aluminum deposition film layer and the base film, and the inner sealant layer 130 are laminated in order from the outside.

Since the outer coating layer 110 forms an outer surface of the secondary battery packaging material, tensile strength and weather resistance that can stably protect the electrode assembly (not shown) against the external environment are required, and polyethylene terephthalate (PET) or The outer coating layer 110 made of stretched nylon (ONy) can satisfy this requirement.

The barrier layer 120 blocks gas, moisture, and the like including air, and has a structure in which an aluminum deposition film layer is laminated on at least one surface of the base film.

Since the inner sealant layer 130 contacts the lithium-containing electrolyte in the battery, resistance to the inner sealant layer 130 is required. At the same time, since the inner sealant layer 130 is thermally fused at the time of battery manufacturing, the material of the sealant layer 130 is preferably made of an unstretched polypropylene film (CPP) having both electrolyte resistance and heat sealability. .

Meanwhile, referring to FIG. 3, which is a schematic cross-sectional view of a laminate sheet according to another exemplary embodiment of the present disclosure, a laminate sheet for a secondary battery package may include a barrier layer 120 disposed between an outer coating layer 110 and an inner sealant layer 130. ), There is a barrier layer 120 formed of a base film and an aluminum deposition film layer deposited on at least one side of the base film, and an adhesive layer (B) between the base film of the barrier layer 120 and the inner sealant layer 130. 140 has a stacked structure. That is, the outer coating layer 110, the barrier layer 120, the adhesive layer 140, and the inner sealant layer 130 are laminated in the order from the outside.

Although the embodiments of the present invention have been described above with reference to the drawings, those skilled in the art will be able to perform various applications and modifications within the scope of the present invention based on the above contents.

1 is a schematic cross-sectional view of a laminate sheet for a conventional secondary battery package.

Figure 2 is a schematic cross-sectional view of a laminate sheet according to an embodiment of the present invention.

3 is a schematic cross-sectional view of a laminate sheet according to another embodiment of the present invention.

<Brief description of symbols for the main parts of the drawings>

10: laminate sheet 11: outer coating layer

12: aluminum (barrier layer) 13: inner sealant layer

14: adhesive layer 100: laminate sheet

110: outer coating layer

120: aluminum deposition film layer and base film (barrier layer)

130: inner sealant layer 140: adhesive layer

Claims (8)

In the laminate sheet for secondary battery package, A barrier layer comprising: a barrier layer comprising a base film and an aluminum deposition film layer deposited on at least one side of the base film; An outer coating layer coated on the aluminum deposition film layer of the barrier layer and configured based on a polymer resin; A laminate sheet for a secondary battery package, which is coated under the base film of the barrier layer and comprises an inner sealant layer configured based on the fused polymer resin. The method of claim 1, The polymer resin of the outer coating layer is polyethylene terephthalate (PET) or stretched nylon, characterized in that the laminate sheet for secondary battery package. The method of claim 1, The fusion polymer resin of the inner sealant layer is a non-stretched polypropylene film, laminate sheet for secondary battery package. The method of claim 1, The laminate sheet for a secondary battery package, characterized in that an adhesive layer is further included between the base film of the barrier layer and the inner sealant layer. The method of claim 1, The thickness of the outer coating layer is 5 to 100㎛, the thickness of the barrier layer is 5 to 300㎛, the thickness of the inner sealant layer, characterized in that the laminate sheet for secondary battery package. A secondary battery packaging material, characterized in that produced using the laminate sheet for secondary battery package according to any one of claims 1 to 5. A secondary battery comprising a laminate sheet for a secondary battery package, which is manufactured using the secondary battery packaging material according to claim 6.  The method of claim 7, wherein the secondary battery uses the secondary battery packaging material manufactured by using the laminate sheet for secondary battery package, the electrode assembly is embedded, the lithium salt-containing electrolyte is impregnated in a gel form It is a lithium ion polymer battery, The secondary battery containing the laminate sheet for secondary battery packages.

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