KR20190042215A - Secondary Battery Pouch-Type Case Having Gas Discharge Port - Google Patents

Abstract

The present invention relates to a secondary battery pouch-type battery case which stores an electrode assembly and is sealed by heat fusion. The battery case comprises: an upper case and a lower case which have at least one electrode assembly storage unit formed therein; a sealing unit formed on an outer periphery of the electrode assembly storage unit; and a venting unit located on an adjacent unit inside the sealing unit of the battery case. The venting unit is configured with a structure including an exhaust unit connected to the inside and the outside of the battery case and a cover unit covering an outside surface of the exhaust unit.

Description

(Secondary Battery Pouch-Type Case Having Gas Discharge Port)

The present invention relates to a pouch-type case for a secondary battery including a gas outlet, and more particularly, to a pouch-shaped battery case for housing an electrode assembly, in which a venting part is located in an inner portion adjacent to a sealing part of the battery case, And a lid portion covering the outer side surface of the exhaust portion.

The rechargeable secondary battery is a high-capacity high-capacity battery including an electric vehicle (EV), a hybrid electric vehicle (HEV), and a plug-in hybrid electric vehicle (Plug-In HEV), which are proposed alternatives to conventional gasoline and diesel vehicles. Is attracting attention as a power source of the transportation means required.

The secondary battery can be classified into a cylindrical shape, a square shape, and a pouch type according to the shape. Among them, a pouch type which can be stacked with a high degree of integration, has a high energy density per weight, and is inexpensive and easy to deform is attracting much attention. The pouch-shaped battery cell means a battery cell having a battery case made of a laminate sheet, and an electrode assembly is built in the battery case.

In general, one of the main tasks of pouch-type batteries with a flexible shell is to improve safety. Lithium secondary batteries cause explosion of the battery due to high temperature and high pressure inside the battery, which can be caused by an abnormal condition of the battery, such as internal short circuit, overcharging exceeding the allowable current and voltage, high temperature, falling, .

Also, as the internal pressure of the battery increases by a certain amount or more due to a large amount of gas generated during the use of the pouch-shaped battery, the sealing part is vented.

Various attempts have been made to improve safety by preventing the sealing portion of the pouch-shaped battery from being bent due to an increase in internal pressure of the battery.

Patent Document 1 discloses a secondary battery having a structure in which a safety film is formed on an electrode tab so that when the temperature or pressure inside the battery rises, the safety film is melted and the sealing of the case is quickly released

However, the secondary battery of Patent Document 1 can prevent explosion or ignition of the battery, but it is a problem that the battery can not be reused.

Patent Document 2 discloses a venting system including a venting device capable of opening and closing a passage so as to discharge gas to the outside of the pouch. Patent Document 2 discloses that the battery can be continuously used while discharging the gas inside the secondary battery. However, the venting device of Patent Document 2 is made up of a gas discharge adjusting portion including a body portion, a stopper member and an elastic member, Which requires an additional complicated member for the user.

Patent Document 3 discloses a secondary battery in which a gas pocket accommodating a gas generated inside the battery is formed as an unfused region in a sealing portion. Since the gas pocket is located inside the sealing portion, the gas generated inside the battery is completely There is a problem that can not be exported.

Therefore, there is a need for a technology that allows the battery to be continuously used by discharging the gas generated during use of the battery to the outside of the battery without using the conventional pouch-type battery as it is and without distorting the appearance of the pouch- Is high.

Korean Patent Publication No. 2012-0103206 Korean Patent Laid-Open Publication No. 2016-0014828 Korean Patent Laid-Open Publication No. 2017-0043926

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art and to solve the technical problems required from the past, and it is an object of the present invention to continuously discharge gas from the inside to the outside of the pouch- And it is an object of the present invention to provide an improved pouch-type case in which gas is continuously discharged but external moisture and the like may not flow into the interior.

According to an aspect of the present invention, there is provided a pouch-type battery case for an electrode assembly for a secondary battery, the electrode case having an electrode assembly storing part formed on at least one of the upper case and the lower case, And a venting part is disposed on an inner side adjacent to a sealing part of the battery case, and the venting part is provided with an exhaust part communicating with the inside and the outside of the battery case, And a lid part covering the outer surface of the exhaust part.

The upper case and the lower case may be formed with recesses capable of accommodating the electrode assembly, and the outer periphery of the upper case and the lower case may be positioned to face each other after the electrode assembly is housed in the recess. And can be sealed.

In a pouch-type battery, not only an abnormal use state but also a gas including carbon dioxide is generated by a reaction between an electrode active material and an electrolyte even in a normal use process. When the pressure inside the cell increases due to such a gas, venting occurs at the outer periphery of the heat sealed cell case, and the explosion of the battery may occur due to the high pressure resistance.

According to the present invention, a sealing portion is formed on the outer periphery of the electrode assembly receiving portion, a venting portion may be formed in the spacing space between the sealing portion and the electrode assembly, and the venting portion may communicate the inside and the outside of the battery case And the lid part covers the outer side surface of the exhaust part. The lid part may be configured such that one side is opened when the swelling phenomenon occurs, and the lid part is opened and the internal gas is discharged through the exhaust part.

In the case of the pouch-type battery case according to the present invention, a sealing part formed by thermally welding the upper case and the lower case is formed on the outer periphery of the electrode assembly receiving part, and the venting part is positioned in the vicinity of the sealing part, Can be discharged to the outside of the battery.

The position of the venting portion is not particularly limited to the vicinity of the sealing portion, and may be formed in the battery case facing the upper and lower surfaces of the electrode assembly and the side surfaces of the electrode assembly.

However, in general, the electrode tab and the electrode lead connecting portion are portions where an overcurrent flows due to an abnormal operation of the battery, in particular, a portion where current is concentrated, and heat is severely generated. Therefore, the amount of generated gas may be particularly large in the electrode tab and the electrode lead connecting portion where a high-temperature exothermic phenomenon can easily occur. Since the electrode tab and the electrode lead connecting portion are portions where a gap is formed in the electrode assembly receiving portion, . Therefore, it is preferable that the venting portion is formed in the vicinity of the outer periphery where the electrode tab and the electrode lead connecting portion are located, considering the purpose of rapidly discharging the gas inside the battery.

The size of the venting portion is not particularly limited as long as the venting portion includes a vent portion having a structure communicating the inside and the outside of the battery case and a cover portion covering the outer side surface of the vent portion. The ventilation part may be formed in a plurality of ventilation parts having a small size in consideration of the size of the battery case and the position of the ventilation part, One can be placed around.

When the pressure inside the battery case increases due to the gas generated in the battery case by appropriately selecting the position, the size, the number and the shape of the venting portion, the pressure is concentrated to the venting portion, Gas can be discharged, thereby preventing electrical short-circuiting or explosion due to excessive deformation, so that the safety of the pouch-shaped battery can be improved.

In the exhaust unit, it is preferable that the gas molecules are permeable but the electrolyte is not permeable. The exhaust unit may be a gas separation membrane.

The gas separation membrane may be made of a porous material having a plurality of through holes. For example, the gas separation membrane may be made of a material containing zeolite or a polymer membrane structure.

It is preferable that the exhaust part has a structure in which the inside and the outside of the battery case communicate with each other and does not cause the deformation of the overall size and shape of the battery. For example, the exhaust part may be formed in a through- . If the gas separation membrane is weaker in strength than the surrounding pouch type case, it is preferable that a support portion is provided on the outer peripheral surface of the through-hole and the gas separation membrane is mounted thereon.

In one specific example, at least one through-hole is drilled between the sealing portion and the electrode assembly in the battery case, and the exhaust portion may be formed to be joined to the upper and / or lower portions of the through-hole so as to cover the through-hole.

The exhaust part may be bonded to the inside of the battery case by ultrasonic welding or may be bonded to the outside of the battery case.

On the other hand, the through hole may have a smaller area than the exhaust part. For example, the area of the through hole may be 90% to 100% of the exhaust area.

When the area of the through-hole is smaller than 90% based on the area of the exhaust part, there is a problem that the sealing area of the exhaust part becomes large and the thickness of the battery case becomes unnecessarily large. When the area is larger than 100% So that it is difficult to be fixed to the lower part.

A lid part may be provided on the outer side of the exhaust part.

One side of the lid part is joined to the outer adjacent part of the exhaust part, covers the exhaust part in a normal state, and the remaining part except the one side can be opened when the pressure inside the pouch type case increases.

In one specific example, the lid portion can strongly form one side and weakly form the other side by adjusting the width or bonding strength of the portion to be bonded.

When the internal pressure of the pouch-shaped battery case increases due to the gas generated in the pouch-shaped battery case, the pouch-shaped battery case is expanded and deformed, and a portion where the weak connection is formed in the lid- And is separated from the outer adjacent portion. Accordingly, the exhaust portion having the outer surface covered by the cover portion is opened, and the inside and the outside of the battery case are communicated with each other, so that gas existing in the battery case is discharged to the outside of the battery through the exhaust portion.

The lid portion may be bonded by laser, ultrasonic, or heat welding.

In one specific example, the structure of the lid portion is not particularly limited, but may be, for example, a structure including a first polymer layer, a metal layer and a second polymer layer.

Specifically, it is preferable that the lid part and the battery case are easily coupled to each other, and that the first polymer layer is manufactured using a general battery cell manufacturing process without employing an additional process. The first polymer layer has insulation property, The second polymer layer may have a function of maintaining the strength of the lid part, and the second polymer layer may have a structure in which the battery case is easily coupled by heat fusion.

For example, when the same material as that of the battery case of the present invention is used as the lid part, the above conditions can be satisfied, and since no additional member is required, the manufacturing cost can be a reasonable choice.

In another specific example, the lid portion may be welded to the battery case, and the lid portion may have a structure including a metal foil.

On the other hand, the shape of the exhaust part is not particularly limited, except that it has a structure in which the inside and the outside of the battery case are communicated with each other. For example, the shape may be circular, square and polygonal, The position is not particularly limited.

Further, the venting part may be formed on the upper case of the battery case, or may be formed on the lower case, and may be formed on the upper case and the lower case, respectively.

The present invention can also provide a pouch-shaped battery cell including the pouch-shaped battery case, and a battery pack including the pouch-shaped battery cell.

Specifically, the battery pack may be used as a power source for devices requiring high-temperature safety, long cycle characteristics, and high rate characteristics. Examples of such devices include a mobile device, a wearable device A power tool powered by an electric motor; An electric vehicle including an electric vehicle (EV), a hybrid electric vehicle (HEV), a plug-in hybrid electric vehicle (PHEV), and the like; An electric motorcycle including an electric bike (E-bike) and an electric scooter (E-scooter); An electric golf cart; And an energy storage system, but the present invention is not limited thereto.

The structure of these devices and their fabrication methods are well known in the art, and a detailed description thereof will be omitted herein.

As described above, in the pouch-type battery case according to the present invention, the venting portion is located on the inner adjacent portion of the sealing portion formed on the outer periphery of the electrode assembly receiving portion, and the venting portion is provided with a discharge portion And a lid part covering the outer surface of the exhaust part. The lid part prevents the foreign material from flowing into the battery through the exhaust part in a normal operation state of the battery.

In addition, when the battery case expands due to the generation of gas inside the battery, a part of the lid part joined to the exhaust part adjoining part is separated and the exhaust part is opened, so that the gas generated inside the battery can be effectively exhausted through the exhaust part Can be discharged. Therefore, explosion or ignition due to battery cell expansion can be prevented, and a pouch-shaped battery cell with improved safety can be provided. Further, there is an advantage that the battery can be continuously used even if the gas is discharged to the outside through the venting portion in an abnormal state.

1 is a plan view of a pouch type battery according to one embodiment.
2 is a vertical cross-sectional view of a portion of a pouch-shaped battery according to one embodiment.
3 is a vertical cross-sectional view of a portion of a pouch-shaped battery according to another embodiment.
4 is a vertical sectional view of a part of a pouch-shaped case according to one embodiment.
Fig. 5 schematically shows a vertical sectional view showing a state in which the lid of the upper case of Fig. 4 is opened by the gas pressure.
6 is a vertical sectional view of a part of a pouch-shaped case according to another embodiment.
7 is a vertical sectional view showing a state in which the lid of the upper case of Fig. 6 is opened by the gas pressure.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings. Throughout the specification, when a part is connected to another part, it includes not only a case where it is directly connected but also a case where the other part is indirectly connected with another part in between. In addition, the inclusion of an element does not exclude other elements, but may include other elements, unless specifically stated otherwise.

The present invention will be described in detail with reference to the drawings.

1 schematically shows a plan view of a pouch type battery according to one embodiment.

1, a pouch-type battery 100 includes a battery 100 having a positive electrode tab 101 protruded in different directions, and a recess 111 formed therein for receiving the electrode assembly 120 having the negative electrode tab 103 attached thereto. And the negative electrode lead 104 connected to the positive electrode lead 102 and the negative electrode tab 103 connected to the positive electrode tab 101 extends to the outside of the battery case. It is obvious to a person skilled in the art that the electrode tab and the lead can protrude in the same direction or in different directions, and a detailed description thereof will be omitted.

The battery case has a planar left sealing portion 131, a right sealing portion 132, an upper sealing portion 133 and a lower sealing portion 134 formed thereon, and the upper sealing portion 133 and the electrode assembly 120 And a venting part 140 is formed between the lower sealing part 134 and the electrode assembly 120. The venting parts 140 are disposed to be spaced apart from each other. However, the venting portions 140 may have a larger number of venting portions, and the size and spacing of venting portions may be selectively applied.

Considering that the heat is most severely generated at the portion where the electrode tabs 101 and 103 and the electrode leads 102 and 104 are connected and the amount of gas is large and the gas is concentrated at the corresponding portion, The electrode tab may be formed on the upper case corresponding to the upper surface of the electrode tab and the electrode lead coupling portion and / or on the lower case corresponding to the lower surface of the electrode tab and the electrode lead coupling portion.

However, unlike FIG. 1, the venting portion may be formed in the vicinity of at least one sealing portion of the left sealing portion 131 and the right sealing portion 132, or may be disposed in the vicinity of all the sealing portions, to be.

FIG. 2 schematically shows a vertical cross-sectional view of a part of a pouch-shaped battery according to an embodiment, and FIG. 3 schematically shows a vertical cross-sectional view of a part of a pouch-shaped battery according to another embodiment.

2 and 3, an electrode assembly 120 having a structure in which a separator is interposed between an anode and a cathode is housed in a battery case 110 composed of an upper case 110a and a lower case 110b, The upper case 110a and the lower case 110b are sealed by heat fusion to form a sealing part 130. As shown in FIG.

The venting part 140 is located on the side wall of the electrode assembly receiving part and may be formed in the vicinity of the sealing parts 133 and 134 in the direction in which the electrode lead protrudes as shown in FIG. May be formed in the vicinity of the sealing portions 131 and 132 in the direction in which they are not projected.

2, the venting part 140 may be formed only in the upper case 110a and may be formed in the upper case 110a and the lower case 110b, respectively, as shown in FIG. 3 .

4 is a vertical cross-sectional view of a pouch-shaped battery case 200 according to one embodiment, and FIG. 5 is a cross-sectional view illustrating a state in which the lid portion 232 of the upper case 210 of FIG. And a vertical cross-sectional view schematically.

4 and 5, the battery case 200 includes an upper case 210 and a lower case 220, and the upper case 210 and the lower case 220 have the same structure, An outer coating layer 201, a metal barrier layer 202 and an inner adhesive layer 203 are sequentially stacked from the outside to the inside and between the outer covering layer 201 and the metal barrier layer 202, Between the barrier layer 202 and the internal adhesive layer 203, an adhesive layer 204 for improving the adhesion between the barrier layer 202 and the internal adhesive layer 203 is interposed.

The upper case 210 is provided with a penetration part 240 to penetrate the outer side and the inner side of the upper case between the sealing part and the electrode assembly and the penetration part 240 is formed in the inner adhesive layer 203 of the upper case 210 And an outer cover layer 201 of the upper case 210 is formed with a lid part 231. [

The exhaust part 232 may be a gas separation membrane made of a porous material having a plurality of through holes, for example, a material containing zeolite or a polymer membrane structure.

The lid portion 231 may be a structure including a first polymer layer, a metal layer, and a second polymer layer, or may be a structure including a metal foil.

The lid part 231 may be bonded to the outer covering layer 201 of the upper case 210 by laser, ultrasonic, or thermal fusion.

At this time, when the gas is generated due to the decomposition of the electrolyte inside the battery case 200 by weakly bonding one side of the lid part 231 by adjusting the bonding conditions, As shown in Fig. 5, the lid part 231 is opened, and the gas is exhausted through the exhaust part 232. As shown in Fig.

6 is a vertical cross-sectional view of a pouch-shaped battery case 300 according to one embodiment, and Fig. 7 is a sectional view showing a state in which the lid portion 332 of the upper case 310 of Fig. 6 is opened by the gas pressure And a vertical cross-sectional view schematically.

6, the upper case 310 is formed with a penetrating portion (not shown) so as to penetrate the outer side and the inner side of the upper case 310 and the ventilating portion 332 is formed in the inner hollow of the penetrating portion, A lid portion 331 is formed on the outer side of the base portion 332.

The lid portion 331 may be a structure including a first polymer layer, a metal layer, and a second polymer layer, or may be a structure including a metal foil.

In addition, the lid part may be bonded to the outside of the exhaust part 332 by laser, ultrasonic, or thermal fusion.

At this time, when the gas is generated due to the decomposition of the electrolyte inside the battery case 300 by weakly bonding one side of the lid part 331 by adjusting the bonding condition, So that the lid portion 331 is opened to discharge the gas as shown in Fig.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Pouch type battery
101: positive tab
102: positive lead
103: Negative electrode tab
104: cathode lead
110: Battery case
111: electrode assembly receiving recess
120: electrode assembly
131: Left sealing part
132: Right side sealing part
133: Upper sealing part
134: Lower sealing part
140: Venting part
200, 300: Pouch type battery case
110a, 210 and 310: upper case
110b, 220, 320:
201, 301: outer coating layer
202, 302: metal barrier layer
203, 303: internal adhesive layer
204, 304: adhesive layer
231, 331:
232, 332:
240:

Claims (7)

A pouch-shaped battery case for a secondary battery in which an electrode assembly is housed and sealed by heat sealing,
Wherein the battery case includes an upper case and a lower case in which at least one electrode assembly accommodating portion is formed,
A sealing portion is formed on an outer periphery of the electrode assembly receiving portion,
Wherein the venting portion is located on the inner side adjacent to the sealing portion of the battery case,
Wherein the venting portion includes an exhaust portion communicating the inside and the outside of the battery case, and a lid portion covering the outside of the exhaust portion. The method according to claim 1,
Wherein the exhaust unit comprises a gas separation membrane. The exhaust gas purifying apparatus according to claim 1, wherein one side of the lid part is joined to an outside adjacent part of the exhaust part, and covers the exhaust part in a normal state, and when the pressure inside the pouch type case increases, And the gas inside the pouch-shaped case is discharged through the pouch-shaped case. The pouch-shaped battery case according to claim 3, wherein the bonding is performed by laser, ultrasonic, or heat fusion. The pouch-shaped battery case according to claim 1, wherein the lid portion includes a first polymer layer, a metal layer, and a second polymer layer. The pouch type battery case according to claim 1, wherein the lid portion includes a metal foil. A pouch-shaped battery cell comprising the pouch-shaped battery case according to any one of claims 1 to 6.

Images