KR101458259B1 - Pouch type secondary battery and method for manufacturing the same - Google Patents

Abstract

The present invention relates to a pouch type secondary battery and a manufacturing method thereof, and more particularly to an electrode assembly comprising a positive electrode plate, a separator and a negative electrode plate. A sheathing member accommodating the electrode assembly, the sheathing member including a heat-sealable layer, a metal layer, and an insulating layer sequentially formed; A positive electrode tab electrically connected to the positive electrode plate and having a tap film wrapped around the positive electrode plate; A negative electrode tab electrically connected to the negative electrode plate and having a tab film wrapped around the negative electrode plate; And a connection member for electrically connecting the metal layer and the positive electrode tab electrically, and a method of manufacturing the same.
According to the present invention, corrosion and swelling phenomenon of the metal layer can be stably prevented by effectively shorting the metal layer and the positive electrode tab of the pouch exterior member effectively.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pouch type secondary battery,

The present invention relates to a pouch type secondary battery and a method of manufacturing the same, and more particularly, to a pouch type secondary battery characterized by including a connecting member for electrically connecting a metal layer of a pouch exterior member and a positive electrode tab electrically, .

In recent years, lithium secondary batteries, which are chargeable and dischargeable and light in weight and have high energy density and high output density, are widely used as energy sources for wireless mobile devices. In addition, Hybrid Electric Vehicle (HEV), Plug-in Hybrid Electric Vehicle (PHEV), Battery Electric Vehicle (BEV), and Electric Vehicle ), An electric vehicle (EV), and the like. The lithium secondary battery is attracting attention as a power source for such an internal combustion engine replacement vehicle.

The lithium secondary battery is classified into a lithium ion battery using a liquid electrolyte and a lithium polymer battery using a polymer electrolyte depending on the type of electrolyte, and classified into a cylindrical shape, a square shape, or a pouch type according to the shape of the can accommodating the electrode assembly.

Among them, the pouch type is composed of a metal layer (foil) and a multi-layered film composed of a synthetic resin layer coated on the upper and lower surfaces of the metal layer. Thus, It is possible to reduce the weight of the battery and it is possible to change to various forms.

The pouch exterior material is composed of an upper exterior material and a lower exterior material formed by folding a middle portion of a rectangular exterior material with respect to the longitudinal direction of one side. A space portion for accommodating the electrode assembly is formed in the lower outer casing by press working or the like, and an electrode assembly of a jelly-roll type in which a plate-shaped anode, a separator and a cathode are laminated and wound, . When the edge of the periphery of the lower exterior material space is closely contacted with the edge of the upper exterior material corresponding to the edge of the upper exterior material, the sealed pouch type secondary battery is formed.

On the other hand, the positive and negative electrodes of the electrode assembly are formed with electrode tabs (positive electrode tab and negative electrode tab) for electrical connection to the outside, which are derived from the positive electrode plate and the negative electrode plate of the electrode assembly, To the outside of the pouch. The electrode taps are mostly formed of aluminum, copper, or nickel and should have sufficient thickness and dimensions to allow passage of electrical current without significant voltage drop.

Further, in relation to the electrode tab, a specific component may be contained on the surface of the polymer film for enhancing the adhesion between the polymer film (heat-sealable layer) on the inner surface of the casing and the electrode tab, or a separate adhesive tape May be attached to the electrode tab at the portion where the electrode tab and the casing overlap each other.

However, in the manufacture of the pouch type secondary battery, when the temperature and pressure are excessively high when the upper and lower casing materials are brought into contact with each other by thermal fusion, and the time required for thermal fusion is long, the polymer film inside the casing material is pushed or damaged A short may occur between the electrode tab and the metal layer of the casing.

When a short circuit occurs between the electrode tab and the metal layer, there is a high possibility that a discharge occurs between the two electrode tabs through the metal layer to cause an overheating phenomenon, and the yield of the product is lowered due to the insulation failure.

Particularly, when a short circuit occurs between the negative electrode tab and the metal layer of the casing, corrosion occurs through a long time after the metal layer reaches the metal corrosion potential of 1 V or less while moving to the negative potential. In this case, The organic electrolytic solution in the electrode assembly evaporates, or external water or oxygen flows into the electrode assembly, resulting in a swelling phenomenon in which the pressure due to gas generation increases in the casing.

In order to solve such a problem, Patent Documents 10-0891383 and 10-0614353 have been proposed. All of these patents disclose that corrosion of the metal layer is prevented by forcibly connecting the positive electrode tab and the metal layer of the pouch exterior. 2) the thickness of the positive electrode tab film is made thinner than the thickness of the negative electrode tab film; or 3) the thickness of the positive electrode tab is made thicker than the thickness of the negative electrode tab, or 4) Is shorter than that of the negative electrode tab, thereby inducing forced shorting of the positive electrode tab and the metal layer through thermal fusion.

That is, in the prior art, only the thickness, the length, and the attachment position of the electrode tab and the tap film are changed in the conventional pouch construction without any additional configuration, and the forced short circuit is finally induced through the heat fusion.

However, in this case, there is a probable limit in that the effect of preventing the corrosion of the metal layer is not practically achieved, or sometimes the forced connection between the positive electrode tab and the metal layer is made and sometimes the forced connection is not made. In addition, in the configuration of the positive electrode tab and the negative electrode tab, the thickness of the tab or the tap film is different from each other, and uniform thermal fusion is difficult to be achieved, and the adhesion force is weakened. There is a possibility that the external moisture may flow in or may leak out of the internal electrolyte through the gap generated due to the weakening of the adhesion force.

Therefore, in connection with the pouch type secondary battery, it has been urgently required to develop a connection technology that can more reliably exhibit the function and effect of preventing corrosion of the metal layer by electrically connecting the positive electrode tab and the metal layer.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the conventional art,

The inventors of the present application have repeatedly carried out various experiments and have found that the thickness and length of the positive electrode tab, negative electrode tab, positive electrode tab film and negative electrode tab film in the existing pouch type battery are maintained unchanged, It is possible to more reliably induce forced shorting of the positive electrode tab and the metal layer when the forced connection is performed through the separate connecting member such as a metal wire and thus the stable metal layer corrosion prevention effect can be exhibited.

In order to solve the above problems, in the present invention, An electrode assembly comprising a positive electrode plate, a separator, and a negative electrode plate; A sheathing member accommodating the electrode assembly, the sheathing member including a heat-sealable layer, a metal layer, and an insulating layer sequentially formed; A positive electrode tab electrically connected to the positive electrode plate and having a tap film wrapped around the positive electrode plate; A negative electrode tab electrically connected to the negative electrode plate and having a tab film wrapped around the negative electrode plate; And a connection member for electrically connecting the metal layer and the positive electrode tab electrically.

(A) providing an electrode assembly comprising a positive electrode plate, a separator, and a negative electrode plate; (b) forming a sealing portion and a housing portion after having a casing formed by sequentially laminating a heat-sealable layer, a metal layer, and an insulating layer, and storing the electrode assembly; (c) a positive electrode tab, which is electrically connected to the positive electrode plate and has a tap film wrapped around the positive electrode plate, and a tab film electrically connected to the negative electrode plate, Forming a wrapped negative electrode tab; (d) injecting an electrolytic solution into the accommodated electrode assembly; (e) sealing and sealing the sealing portion of the exterior material; And (f) electrically connecting the metal layer and the positive electrode tab electrically through the connecting member. The present invention also provides a method of manufacturing the pouch type secondary battery.

According to the present invention, corrosion of the metal layer can be effectively prevented by stably forcibly connecting the metal layer and the positive electrode tab through the separate connecting member regardless of thermal fusion in the pouch type secondary battery, The swelling phenomenon in which the pressure is increased can be prevented.

Further, in the constitution of the positive electrode tab and the negative electrode tab, there is no need to make a difference in the thickness or the length of the tab or the tap film, and uniform heat fusion is ensured, so that there is no possibility that the adhesive force is weakened.

In addition, there is an effect that forced connection of the metal layer and the positive electrode tab can be easily performed.

1 is a schematic view of a pouch-type secondary battery according to an embodiment of the present invention and a cross-sectional view enlargedly showing a portion where a metal layer and a positive electrode tab are forcedly connected by a connecting member.

Hereinafter, a pouch type secondary battery according to the present invention and a method of manufacturing the same will be described in detail.

1, the present invention relates to an electrode assembly (not shown) comprising a positive electrode plate, a separator, and a negative electrode plate; A casing (10) accommodating the electrode assembly, the casing (10) having a sealing portion and formed by sequentially laminating a heat seal layer, a metal layer, and an insulation layer; A positive electrode tab (20) electrically connected to the positive electrode plate and having a tap film wrapped around the positive electrode plate; A negative electrode tab (30) electrically connected to the negative plate and having a tap film wrapped around the negative plate; And a connection member (40) for electrically connecting the metal layer and the positive electrode tab electrically.

The positive electrode plate and the negative electrode plate are coated with a positive electrode active material and a negative electrode active material, respectively, to form a positive electrode and a negative electrode. The positive electrode and the negative electrode are electrically insulated from each other between the positive electrode and the negative electrode. A separation membrane is interposed to prevent a short circuit.

The positive electrode plate may be made of a material such as aluminum (Al), and a positive electrode tab protruded by a predetermined length is bonded to one surface of the positive electrode plate. The negative electrode plate may be made of a material such as copper (Cu) or nickel (Ni), and a negative electrode tab protruding at a predetermined length may be bonded to one surface of the negative electrode plate.

The electrode assembly may be of the jelly-roll type, the stack type, the stack & folding type, and the like, but is not limited thereto.

The outer casing 10 is composed of an upper casing member 11 and a lower casing member 12 and the lower casing member 12 is formed with a receiving portion capable of receiving the electrode assembly by press working or the like. The upper and lower casing members are integrally joined to one edge surface and the other surfaces are opened to accommodate the electrode assembly.

Each of the facings 10 is a multi-layered structure in which a heat-sealable layer 12a, a metal layer 12b and an insulating layer 12c are sequentially stacked. Thus, a lower facer material will be described below as an example. Specifically, the exterior member has a heat-sealable layer formed on one side of the metal layer, and an insulating layer on the opposite side of the heat-sealable layer.

The heat-sealable layer 12a is a polymer film having a heat-sealing property and serving as a sealant. The sealant 13, which is a portion where the upper casing and the lower casing are in contact with each other after the electrolyte is injected, . As the material thereof, it is preferable to use a cast polypropylene (CPP), but it is not limited thereto.

The metal layer 12b may be made of aluminum (Al), steel, stainless steel (SS), or the like, as a metal foil for maintaining the mechanical strength and blocking the movement of moisture and gas , But is not limited thereto. Preferably, a lightweight aluminum material is used.

The insulating layer 12c is a polymer film for maintaining insulation from the outside, and polyethylene terephthalate (PET) or nylon may be used as the material thereof, but the present invention is not limited thereto.

The positive electrode tab 20 and the negative electrode tab 30 are electrically connected to the positive electrode plate and the negative electrode plate, respectively, and tab portions are protruded from the positive electrode plate and the negative electrode plate. Specifically, the tap film is provided as an adhesive tape for facilitating sealing, at a portion overlapping with the sealing portion. As the material of the positive electrode tab and the negative electrode tab, aluminum, copper, nickel, or the like may be used, but it is not limited thereto.

On the other hand, in the case where the sealing portion 13 where the upper casing member 11 and the lower casing member 12 are in contact with each other is thermally fused, when an excessive operation such as excessive temperature and pressure, The heat-sealable layer may be pushed or damaged and a short circuit may occur between the electrode tab and the metal layer of the casing. Particularly, when a short circuit occurs between the negative electrode tab and the metal layer, the metal layer moves to the negative electrode potential and corrosion occurs for a long time after reaching the metal corrosion potential of 1 V or less. When the metal layer is corroded, the ability to block the casing may be deteriorated, and the electrolytic solution may evaporate or moisture or oxygen may be introduced into the casing, causing gas to be generated in the casing. As a result, swelling may occur.

Accordingly, the present invention is intended to provide a pouch-type lithium secondary battery in which the metal layer 12b and the positive electrode tab 20 are forcibly connected to each other so that the metal layer has a potential of 1V or more to prevent corrosion and swelling of the metal layer . More specifically, a separate additional connecting member 40 such as a metal wire (for example, a stapler) is introduced instead of a method of changing the thickness, length, material, etc. of the pouch- 12b and the positive electrode tab 20 in the case of a pouch type lithium secondary battery.

That is, in the heat fusion process, in order to prevent short circuit between the positive electrode tab and the negative electrode tab, each of the positive electrode tab and the negative electrode tab is wrapped with a tap film of uniform thickness, length and material so as to ensure stable thermal fusion with no difference in adhesive force, The forced connection of the tab is implemented through a separate connection member. As a result, according to the present invention, it is possible to effectively prevent corrosion and swelling of the metal layer without fear of incomplete fusion bonding of the sealing portion due to the difference in fusion point due to imbalance in thickness or the like.

The connection member may be a conductive metal wire connecting the metal layer and the positive electrode tab.

As the material of the conductive metal wire, a metal layer such as aluminum and a cathode tab may be electrically connected to each other and may be used without any particular limitation as long as they do not cause side reactions other than electrical connection. Preferably, a material selected from the group consisting of aluminum, copper, nickel and a selective alloy thereof is used.

There are various methods for electrically connecting the metal layer and the positive electrode tab through the conductive metal wire, but it is preferable to use a stapler that is easy to use and easy to obtain as a general purpose product.

The connecting member may be a liquid metal coated on the metal layer and the positive electrode tab. At this time, the liquid metal can be any metal that can be paste or clay. However, metals classified as harmful environmental substances are not available, and gold and platinum are relatively inexpensive because they are relatively expensive. In this regard, it is preferable to use a paste of silver (Ag), copper (Cu) or the like which has excellent electrical conductivity as the liquid metal.

The connection member may be a conductive metal electrically fused to the metal layer and the positive electrode tab. Preferably, the fusion bonding is performed by welding.

Preferably, the conductive metal is selected from the group consisting of aluminum, copper, nickel, and alloys thereof.

In addition, a metal tape may be used as the connecting member.

According to another aspect of the present invention, there is provided a method of manufacturing a pouch type secondary battery including the following steps.

That is, a method of manufacturing a pouch type secondary battery of the present invention comprises the steps of: (a) providing an electrode assembly comprising a positive electrode plate, a separator, and a negative electrode plate; (b) forming a sealing portion and a housing portion after having a casing formed by sequentially laminating a heat-sealable layer, a metal layer, and an insulating layer, and storing the electrode assembly; (c) a positive electrode tab, which is electrically connected to the positive electrode plate and has a tap film wrapped around the positive electrode plate, and a tab film electrically connected to the negative electrode plate, Forming a wrapped negative electrode tab; (d) injecting an electrolytic solution into the accommodated electrode assembly; (e) sealing and sealing the sealing portion of the exterior material; And (f) electrically connecting the metal layer and the positive electrode tab electrically through the connecting member.

The steps (a) to (e) may be performed according to a method commonly used in the art in the manufacture of a pouch-type secondary battery, and the method thereof is not particularly limited.

The step (f) is a step of electrically connecting the metal layer and the positive electrode tab through the connecting members described above.

The method may further include the step of providing a protection circuit board capable of preventing a safety accident caused by an abnormal operation such as overheating, overcharging, overdischarge, or the like of the battery. The protection circuit board may include various protection circuits, safety elements such as a PTC element and a thermistor on a printed circuit board, and may be electrically connected to the pouch type secondary battery.

In addition, a metal case for protecting the external appearance of the pouch type secondary battery may be provided on the side surface, and upper and lower cases may be further provided on the upper and lower sides.

Example

The pouch type secondary battery was manufactured as follows.

Manufacture of anode

92 wt% of LiCoO ₂ as a positive electrode active material, 4 wt% of carbon black as a conductive material, and 4 wt% of PVDF as a binder were added to N-methyl-2-pyrrolidone (NMP) as a solvent to prepare a positive electrode mixture slurry. The positive electrode mixture slurry was applied to an aluminum (Al) thin film having a thickness of 20 m as a positive electrode plate and dried to prepare a positive electrode, followed by roll pressing.

Cathode manufacturing

96% by weight of carbon powder, 3% by weight of carbon black as a conductive material and 1% by weight of polyvinylidene fluoride (PVdF) as a binder were added to N-methyl-2-pyrrolidone (NMP) Slurry. The negative electrode mixture slurry was applied to a copper (Cu) thin film having a thickness of 10 mu m as an anode plate and dried to prepare a negative electrode, followed by roll pressing.

Manufacture of pouch type secondary battery

An electrode assembly was manufactured by stacking a polyethylene separator between a cathode and a cathode fabricated by the above method in a stacking manner.

After the positive electrode tab (Al) and the negative electrode tab (Al) are led out from the positive electrode plate and the negative electrode plate, respectively, the positive electrode tab and the negative electrode tab are formed so as to include all the portions where the positive electrode tab and the negative electrode tab overlap with the sealing portion. Material and an adhesive tap film of the same thickness.

An aluminum foil metal foil layer was formed on the heat-sealable layer (thickness: 40 mu m) made of CPP material, and then an insulating layer made of nylon was laminated on the aluminum foil metal foil layer to prepare a pouch outer cover material. The manufactured pouch exterior member was bent to form an upper exterior member and a lower exterior member, and then an electrode assembly receiving portion was formed by press working on the lower exterior member.

Accommodating the electrode assembly is manufactured in the compartment to the next, an electrolyte (ethylene carbonate (EC) / propylene carbonate (PC) / diethyl carbonate (DEC) = 30/20/50% by weight of lithium hexafluoro phosphate flow (LiPF ₆ ) 1 mole) was injected.

After the upper and lower casing materials were brought into contact with each other, a sealing portion was thermally fused to form a seal.

A portion where the upper casing, the positive electrode tab film, the positive electrode tab, the positive electrode tab film and the lower casing are sequentially laminated is connected to a conductive metal wire of aluminum material having a thickness of 0.1 mm to 1.0 mm using a stapler, . At this time, the thickness of the conductive metal wire may be thinner if only the potential can be maintained.

Comparative Example

Comparative Example 1

(Metal connection between the metal layer and the negative electrode tab) with a thickness of 0.1 mm to 1.0 mm by using a stapler, in which the sequentially stacked portions of the upper casing, the negative terminal tab film, the negative terminal tab, the negative terminal tab film, , A pouch-type secondary battery was manufactured in the same manner as in Example.

Comparative Example 2

A pouch-type secondary battery was manufactured in the same manner as in Example except that the metal layer and the electrode tab (positive tab or negative tab) were not subjected to the forced connection treatment.

Experimental Example

The pouch type secondary battery manufactured through the above Examples and Comparative Examples was subjected to a high temperature storage test, and corrosion and corrosion rate of the aluminum metal layer were observed. At this time, the temperature was 60 ° C and the charge SOC was 95 ° C.

As a result, in the embodiment, since the metal layer and the positive electrode tab are effectively connected by force, corrosion of the metal layer does not occur even at a high temperature. However, in the case of Comparative Example 1, the corrosion of the metal layer occurred and the corrosion rate was also fast. In addition, in the case of Comparative Example 2, the corrosion rate was slower than that of Comparative Example 1, but corrosion of the metal layer also occurred.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. The scope of the present invention is defined by the appended claims rather than by the foregoing description and is not intended to limit the scope of the present invention. And the like are to be construed as falling within the scope of the present invention.

10; Exterior material
11; Upper casing
12; Lower casing
12a; The heat-
12b; Metal layer
12c; Insulating layer
13; The sealing portion
20; Bipolar tab
30; Cathode tab
40; Connecting member

Claims (15)

An electrode assembly comprising a positive electrode plate, a separator, and a negative electrode plate;
A sheathing member accommodating the electrode assembly, the sheathing member including a heat-sealable layer, a metal layer, and an insulating layer sequentially formed;
A positive electrode tab electrically connected to the positive electrode plate and having a tap film wrapped around the positive electrode plate;
A negative electrode tab electrically connected to the negative electrode plate and having a tab film wrapped around the negative electrode plate; And
And a connection member for electrically connecting the metal layer and the positive electrode tab electrically,
Wherein the connecting member is a conductive metal wire connecting the metal layer and the positive electrode tab,
Wherein the conductive metal wire is connected to the metal layer and the positive electrode tab by a stapler,
Wherein a portion where the upper casing member, the positive electrode tab film, the positive electrode tab, the positive electrode tab film and the lower casing member are sequentially stacked is connected to a conductive metal wire of aluminum material having a thickness of 0.1 mm to 1.0 mm by using a stapler. . delete delete The method according to claim 1,
Wherein the conductive metal wire is made of a material selected from the group consisting of aluminum, copper, nickel, and an optional alloy thereof. delete delete delete delete delete delete The method according to claim 1,
Wherein the material of the heat-sealable layer is modified polypropylene (CPP).
The method according to claim 1,
Wherein the metal layer is made of aluminum.
The method according to claim 1,
Wherein the insulating layer is made of PET or nylon.
The method according to claim 1,
Wherein the material of the positive electrode tab and the negative electrode tab is aluminum, copper, or nickel.
(a) providing an electrode assembly comprising a positive electrode plate, a separator, and a negative electrode plate;
(b) forming a sealing portion and a housing portion after having a casing formed by sequentially laminating a heat-sealable layer, a metal layer, and an insulating layer, and storing the electrode assembly;
(c) a positive electrode tab, which is electrically connected to the positive electrode plate and has a tap film wrapped around the positive electrode plate, and a tab film electrically connected to the negative electrode plate, Forming a wrapped negative electrode tab;
(d) injecting an electrolytic solution into the accommodated electrode assembly;
(e) sealing and sealing the sealing portion of the exterior material; And
(f) electrically connecting the metal layer and the positive electrode tab electrically through the connecting member,
Wherein the connecting member is a conductive metal wire connecting the metal layer and the positive electrode tab,
Wherein the conductive metal wire is connected to the metal layer and the positive electrode tab by a stapler,
Wherein a portion where the upper casing member, the positive electrode tab film, the positive electrode tab, the positive electrode tab film, and the lower casing member are sequentially stacked is connected by a conductive metal wire of aluminum material having a thickness of 0.1 mm to 1.0 mm by using a stapler. ≪ / RTI >

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