KR20200132361A - Degassing Apparatus and Method for Battery Cell - Google Patents

Abstract

The present invention relates to a battery cell degassing device for discharging gas generated in a battery cell including an electrode assembly, a pouch, and an electrode lead. The battery cell degassing device comprises: a first support member disposed on one surface or both surfaces of an electrode assembly receiving unit of a pouch; and a rolling member pressurizing the pouch to discharge gas. The rolling member is rolled from one side of the pouch where the electrode lead is not located to the other side of the pouch where the electrode lead is located, thereby forcibly moving the gas remaining in the electrode assembly in a direction of the electrode lead.

Description

Degassing Apparatus and Method for Battery Cell}

The present invention relates to a battery cell degassing apparatus and method, and in particular, to a battery cell degassing apparatus and method capable of effectively discharging gas remaining inside an electrode assembly.

In general, a secondary battery refers to a battery capable of charging and discharging unlike a primary battery that cannot be charged, and such a secondary battery is widely used in the field of advanced electronic devices such as phones, notebook computers, and camcorders.

Such a secondary battery includes an electrode assembly in which electrodes and separators are alternately stacked, and a pouch for accommodating the electrode assembly.

And the manufacturing method of the secondary battery includes an electrode manufacturing process for manufacturing an electrode, an electrode assembly manufacturing process for manufacturing an electrode assembly by alternately stacking electrodes and a separator, an electrode lead bonding process for bonding an electrode lead to the electrode assembly, and the electrode lead. Pouch sealing process of completing a secondary battery by accommodating the electrode assembly in a pouch and sealing the rim of the case with the tip of the case drawn out, an activation process of charging and discharging the secondary battery, and charging and discharging the secondary battery And a degassing process of discharging the gas generated in the pouch during the process, and the degassing process moves the gas generated in the electrode assembly receiving part to the gas pocket part by pressurizing the electrode assembly receiving part of the secondary battery. The gas that has moved to the gas pocket is discharged to the outside by making a hole.

Meanwhile, the electrode assembly is divided into a folding type, a jelly roll type, and a stack type according to the winding direction or the stacking direction.

However, the degassing process can effectively discharge the gas generated inside the pouch, but there is a problem in that the gas remaining inside the electrode assembly cannot be effectively discharged.

In particular, the folding type electrode assembly and the jelly roll type electrode assembly have different directions in which gas can be easily discharged, and thus the degassing process cannot effectively discharge the gas remaining in the electrode assembly, and the gas remaining in the electrode assembly is discharged. If this is not possible, the thickness of the electrode assembly may increase or an unreacted area may occur. In addition, since the portion where the gas is collected becomes an unreacted area, precipitation may occur.

Patent Publication No. 10-2013-0044776

The present invention was invented to solve the above problems, and the present invention presses the pouch in a direction toward the electrode lead coupled to the electrode assembly, and thus, the gas remaining in the electrode assembly is transferred to the electrode lead direction and the electrode assembly. The gas can be removed by moving the gas to the open part, and as a result, the gas remaining in the electrode assembly can be effectively discharged. In particular, the purpose of providing a battery cell degassing apparatus and method capable of preventing the occurrence of precipitation by increasing the thickness of the electrode assembly and preventing the occurrence of unreacted, and preventing the formation of unreacted regions inside the electrode assembly. do.

The battery cell degassing apparatus of the present invention for achieving the above object includes an electrode assembly, an electrode assembly receiving portion accommodating the electrode assembly, a gas pocket portion collecting gas generated from the electrode assembly receiving portion, and the electrode For degassing a battery cell including a pouch having a sealing portion for sealing at least a portion of the assembly receiving portion and the gas pocket portion, and an electrode lead connected to the electrode assembly and drawn out through the sealing portion, and accommodating the electrode assembly A first support member having a first support portion disposed on one or both sides of the portion; And a rolling member for discharging the gas generated in the electrode assembly receiving unit to the gas pocket unit by rolling the electrode assembly receiving unit in a state in which the first support unit of the first support member is disposed, wherein the rolling member contains the gas. In order to discharge to the gas pocket part, the gas remaining in the electrode assembly may be forcibly moved in the direction of the electrode lead by rolling from one side of the electrode assembly receiving part where the electrode lead is not located to the other side where the electrode lead is located. have.

The first support member may be formed of a flexible material.

A second support member disposed on the electrode lead drawn out from the sealing portion and protecting the electrode lead from deformation may be further included.

The second support member is provided in a pair so as to be provided on both surfaces of the electrode lead, and the second support member of the pair is disposed on the surface of the electrode lead, and the other side is the sealing from which the electrode lead is drawn out. Can be placed on the surface of the negative.

The first support member may further include a reinforcing part to be disposed on an upper surface of the second support member, and the reinforcing part may remove a step difference between the first support part and the second support member.

The second support member may be formed of a transparent or translucent synthetic resin having rigidity.

A pair of second support members provided on both surfaces of the electrode lead may be coupled to each other through a first fixing means.

The first fixing means includes a first coupling groove provided in one second support member of a pair of second support members, and a first coupling provided in the other second support member and coupled to the first coupling groove May contain projections.

The first fixing means may include a hinge portion for hinge-connecting one end of the pair of second support members corresponding to each other so as to be rotatable.

It may further include a second fixing means for detachably coupling the first support member and the second support member.

The second fixing means may include a second coupling groove formed in the first support member, and a second coupling protrusion formed in the second support member and coupled to the second coupling groove.

On the other hand, the battery cell degassing method of the present invention includes at least an electrode assembly, an electrode assembly receiving portion accommodating the electrode assembly, a gas pocket portion collecting gas generated from the electrode assembly accommodating portion, and the electrode assembly receiving portion and the gas pocket portion. A battery cell preparation step (S10) of preparing a battery cell including a pouch having a sealing part for sealing a part, and an electrode lead connected to the electrode assembly and drawn out through the sealing part; A second support member disposing step (S20) of disposing a second support member on both surfaces of the electrode lead; A first support member disposing step (S30) of disposing a first support part of the first support member on one or both surfaces of the electrode assembly receiving part; And a rolling member to pressurize the first support part of the first support member to discharge the gas generated in the electrode assembly receiving part to the gas pocket part, the rolling member at one side of the electrode assembly receiving part where the electrode lead is not located. It may include a gas discharge step (S40) of forcibly moving the gas remaining inside the electrode assembly in the direction of the electrode lead by rolling in the other direction in which the electrode lead is located.

In the second support member arranging step (S20), a second support member may be prepared in which one side is disposed on the surface of the electrode lead and the other side is disposed on the surface of the sealing portion from which the electrode lead is drawn out.

The second support member arranging step (S20) further includes a fixing process of fixing the second support members disposed on both surfaces of the electrode lead, and the fixing process comprises a second of one of the pair of second support members. A pair of second support members may be fixed by coupling a first coupling protrusion provided in the other second support member to a first coupling groove provided in the support member.

The first support member disposing step (S30) is disposed on the upper surface of the second support member to remove a step between the second support member disposed on the electrode lead and the first support part disposed on the electrode assembly receiving part. A first support member further including a reinforcing part may be prepared.

The battery cell degassing device of the present invention is characterized in that it includes a rolling member that rolls from one side of the electrode assembly accommodating portion where the electrode lead is not located to the other side where the electrode lead is located, and due to this feature, the inside of the electrode assembly The located gas can be easily discharged. In other words, the electrode assembly portion in which the electrode lead is located is in an open state, and thus remains inside the electrode assembly as the electrode lead is rolled from one side of the electrode assembly receiving portion where the electrode lead is not located to the other side through the rolling member. Existing gas can be easily discharged. As a result, it is possible to increase the thickness of the electrode assembly and prevent the occurrence of unreacted regions, and it is possible to prevent the occurrence of precipitation in the unreacted regions inside the electrode assembly.

In particular, the battery cell degassing device of the present invention is characterized in that it includes a first support member disposed in the electrode assembly receiving portion, and due to this feature, the entire rolled portion of the electrode assembly receiving portion rolled by the rolling member is uniform. Accordingly, the gas generated in the electrode assembly receiving portion and the gas remaining in the electrode assembly can be effectively discharged.

In addition, in the battery cell degassing device of the present invention, the first support member is formed of a flexible material, and due to such characteristics, it is possible to stably press the electrode assembly receiving portion disposed on the first support member. As a result, it is possible to effectively discharge the gas generated inside the electrode assembly receiving portion and the gas located inside the electrode assembly. In particular, it is possible to prevent the electrode assembly accommodating portion from being damaged or the occurrence of marks by the first support member.

In addition, the battery cell degassing device of the present invention is characterized in that it includes a second support member disposed on the electrode lead taken out from the electrode assembly receiving portion, and due to this feature, it is possible to protect the electrode lead from the rolling member. Accordingly, deformation such as bending or folding of the electrode lead can be prevented.

That is, the rolling member pressurizes to the end of the electrode assembly accommodating part where the electrode lead is located to discharge the gas inside the electrode assembly accommodating part. Can be protected by the member.

In addition, in the battery cell degassing device of the present invention, the second support member is characterized in that it is disposed to the surface of the sealing portion of the pouch from which the electrode lead was drawn out, and due to this characteristic, the electrode lead located in the sealing portion can be protected As a result, it is possible to prevent deformation of the electrode lead located in the sealing part.

In addition, in the battery cell degassing apparatus of the present invention, the second support member is provided in a pair, and the pair of second support members are coupled to each other through a fixing means. The fixing force of the support member can be increased, and as a result, the electrode lead can be more stably protected.

In addition, in the battery cell degassing apparatus of the present invention, the first support member and the second support member are coupled to each other through a coupling groove and a coupling protrusion, and due to this characteristic, the first support member and the second support member The flow of the member can be largely prevented, and as a result, the electrode assembly receiving portion and the electrode lead can be more stably protected.

1 is an exploded perspective view showing a battery cell degassing apparatus according to a first embodiment of the present invention.
Figure 2 is an assembly perspective view showing a battery cell degassing device according to the first embodiment of the present invention.
3 is a cross-sectional view taken along line AA shown in FIG. 2.
Figure 4 is a low-year battery cell degassing apparatus according to the first embodiment of the present invention.
5 is a flow chart showing a battery cell degassing method according to the first embodiment of the present invention.
6 and 7 are partial perspective views showing a battery cell degassing device according to a second embodiment of the present invention, FIG. 6 is a view showing a first example of a first fixing means, and FIG. 7 is a first fixing A diagram showing a second example of means.
8 is a cross-sectional view showing a battery cell degassing apparatus according to a third embodiment of the present invention.
9 is a perspective view showing a battery cell degassing apparatus according to a fourth embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals are assigned to similar parts throughout the specification.

[Battery cell of the present invention]

The battery cell 10 of the present invention is coupled to the electrode assembly 11, the pouch 12 accommodating the electrode assembly 11, and the electrode assembly 11, as shown in FIG. It includes an electrode lead 13 drawn out of the pouch 12.

Here, the pouch 12 includes an electrode assembly accommodating portion 12a for accommodating the electrode assembly 11, a gas pocket 12b for collecting and discharging the gas generated in the electrode assembly accommodating portion 12a, And a sealing portion 12c for sealing at least a portion of the electrode assembly receiving portion 12a and the gas pocket portion 12b.

Meanwhile, the electrode lead 13 is drawn out through the sealing portion 12c. For example, the electrode lead 13 is a sealing part 12c located in the electrode assembly receiving part 12a connected to the gas pocket part 12b, that is, the rear surface of the electrode assembly receiving part 12a as seen in FIG. It is drawn out through the sealing part 12c located at.

The battery cell 10 having such a configuration proceeds with a degassing process for discharging the gas generated by the charging/discharging process, and at this time, the degassing device 100 according to the first embodiment of the present invention is used. .

In particular, the degassing device 100 according to the first embodiment of the present invention can easily discharge not only the gas generated inside the pouch 12 but also the gas remaining inside the electrode assembly 11, and in particular, the electrode lead is deformed. Can be protected from

[Degassing device according to the first embodiment of the present invention]

For example, the degassing device 100 according to the first embodiment of the present invention, as shown in Figs. 1 to 4, by rolling the electrode assembly receiving portion (12a) to the electrode assembly receiving portion (12a) It includes a rolling member 110 for discharging the gas generated in the gas pocket portion (12b).

Rolling member

1 and 2, the rolling member 110 is provided in a pair so as to simultaneously roll the upper and lower surfaces of the electrode assembly receiving portion 12a, and the pair of rolling members 110 is an electrode assembly receiving portion While rolling from one end to the other end of (12a), the gas generated in the electrode assembly receiving part 12a is forcibly moved to the gas pocket part 12c and discharged.

Here, the rolling member 110 is one side of the electrode assembly receiving portion 12a where the electrode lead 13 is not located in order to discharge the gas remaining in the electrode assembly 11 to the gas pocket portion 12b. Rolled from (the right side of the electrode assembly receiving part as seen in FIG. 1) to the other side where the electrode lead 13 is located (the left side of the electrode assembly receiving part as seen in FIG. 1) (that is, in the direction of arrow F in FIG. 1), Accordingly, the gas remaining in the electrode assembly 11 can be forcibly discharged toward the electrode lead 13.

That is, the electrode assembly 11 can be classified into a folding type, a jelly roll type, and a stack type, and the folding type and jelly roll type are open in the longitudinal direction to which the electrode leads 13 are coupled, and are sealed in the width direction. It has a structure to be Accordingly, when the folding-type and jelly-roll electrode assemblies are rolled in the width direction, gas remaining inside the electrode assembly cannot be effectively discharged.

Therefore, in the degassing device 100 according to the first embodiment of the present invention, the electrode assembly 11 in the direction in which the electrode leads 13 are coupled through the rolling member 110, and in the longitudinal direction of the electrode leads, referring to FIG. ) Is rolled, and thus the gas remaining in the electrode assembly 11 can be effectively discharged.

First support member

On the other hand, the degassing device 100 according to the first embodiment of the present invention includes a first support member 120 having a first support portion 120a disposed on one or both sides of the electrode assembly receiving portion 12a. Includes.

That is, the first support member 120 protects the electrode assembly receiving portion while uniformly rolling the surface of the electrode assembly receiving portion rolled by the rolling member, and the electrode assembly receiving portion 12a or the pouch 12 It has a corresponding size and includes a first support portion 120a disposed in close contact with one or both sides of the electrode assembly receiving portion 12a on which the rolling member 110 is rolled.

Accordingly, the degassing device 100 according to the first embodiment of the present invention rolls the electrode assembly receiving portion 12a through the first support portion 120a of the first support member 120, and thus the rolling member By (110) it is possible to prevent the electrode assembly accommodating portion (12a) from being damaged or from forming a mark.

Here, the first support member 120 is formed of a flexible material, and accordingly, the first support member 120 is easily deformed by the rolling member 110, and the electrode assembly pressed by the rolling member 110 The pressurized portion of the receiving portion 12a can be uniformly pressurized, and as a result, the gas generated in the electrode assembly receiving portion 12a can be discharged more stably.

Second support member

On the other hand, the degassing device 100 according to the first embodiment of the present invention further includes a second support member 130 for protecting the electrode lead 13 by a rolling member.

The second support member 130 is disposed on the electrode lead 13 drawn out from the sealing part 12c, as shown in FIGS. 2 and 3, and is provided with the electrode lead 13 by the rolling member 110. When) is pressed, deformation such as bending or folding can be prevented.

That is, referring to FIG. 2, in order to discharge the gas generated in the electrode assembly receiving part 12a to the end, the rolling member 110 must move to the sealing part 12c or the electrode lead 13 where the electrode lead 13 is located. In this case, the electrode lead 13 may be bent or folded by the rolling member 110 and may be deformed. In order to solve such a problem, the degassing device 100 according to the first embodiment of the present invention includes a second support member 130, and the second support member has a pressing force of the rolling member 110 at the electrode lead. It is possible to block the transmission to (13), as a result of which the deformation of the electrode lead (13) can be prevented.

Here, the second support member 130 is provided in a pair so as to be provided on both surfaces of the electrode lead 13, respectively, and one side of the pair of second support members 130 is on the surface of the electrode lead 13 And the other side is disposed on the surface of the sealing portion 12c from which the electrode lead 13 is drawn out. Accordingly, the entire electrode lead 13 can be stably protected, and in particular, the electrode lead 13 located in the sealing portion 12c can be protected.

That is, the sealing part 12c where the electrode lead 13 is located protrudes more outward than other parts, and accordingly, when the rolling member rolls the sealing part 12c, the sealing part 12c where the electrode lead 13 is located ) Is rolled first and deformation occurs. In order to prevent this, the second support member 130 is arranged to be covered up to the sealing portion 12c where the electrode lead 13 is located, and accordingly, the electrode lead 13 located in the sealing portion 12c can be stably protected. have.

On the other hand, the second support member 130 is formed of transparent or translucent and rigid synthetic resin, and accordingly, the position of the electrode lead 13 on which the second support member 130 is disposed can be easily identified, and as a result The electrode lead 13 can be more effectively protected. That is, it can be identified whether the second support member 130 effectively protects the electrode lead 13.

On the other hand, the second support member 130 may be formed of a synthetic resin having rigidity that is not deformed by an external force, thereby preventing the second support member 130 from being deformed by the rolling member 110 As a result, it is possible to stably protect the electrode leads 13 disposed between the pair of support members 130.

Reinforcement

On the other hand, in the degassing device 100 according to the first embodiment of the present invention, the first support member 120 further includes a reinforcing part 121 disposed on the upper surface of the second support member 130, The reinforcing part 121 can remove the step difference between the first support part 120a and the second support member 130, and accordingly, the rolling member from the first support part 120a to the reinforcing part 121 It can be moved stably.

Here, the first support portion 120a and the reinforcement portion 121 have the same thickness or the same horizontal surface so that a step is not formed between the first support portion 120a and the reinforcement portion 121.

On the other hand, in the present embodiment, the first support portion 120a and the reinforcing portion 121 are provided to be separated, but in the third and fourth embodiments described later, the first support portion 120a and the reinforcing portion 121 are integrally formed. It could be.

Accordingly, the degassing device 100 according to the first embodiment of the present invention can effectively discharge the gas remaining inside the pouch and the electrode assembly, increase the thickness of the electrode assembly and prevent the occurrence of unreacted areas, It is possible to prevent the occurrence of precipitation in unreacted areas inside the electrode assembly.

Hereinafter, a degassing method using the degassing apparatus according to the first embodiment of the present invention will be described.

[Degassing method according to the first embodiment of the present invention]

The degassing method according to the first embodiment of the present invention is a battery cell preparation step (S10), a second support member disposition step (S20), a first support member disposition step (S30), as shown in FIG. , And a gas discharge step (S40).

Battery cell preparation step

In the battery cell preparation step (S10), referring to FIG. 1, a battery cell 10 including an electrode assembly 11, a pouch 12, and an electrode lead 13 is prepared. Here, the pouch 12 includes an electrode assembly receiving portion 12a accommodating the electrode assembly 11, a gas pocket portion 12b collecting and discharging the gas generated from the electrode assembly receiving portion 12a, and the electrode assembly A sealing portion 12c for sealing at least a portion of the receiving portion 12a and the gas pocket portion 12b is provided. In addition, the tip of the electrode lead 13 is drawn out of the pouch 12 through the sealing portion 12c.

Second support member arrangement step

In the second support member arranging step (S20), a pair of second support members 130 are prepared, and the pair of second support members 130 are removed from the electrode lead 13 drawn out from the sealing part 12c. Place each on both surfaces.

At this time, the second support member 130 is disposed so as to be covered up to the sealing portion 12c from which the electrode lead 13 is drawn, referring to FIG. 3, and in particular, the second support member 130 disposed on the sealing portion 12c. The end of is supported on the sidewall of the electrode assembly receiving part 12a to which the sealing part 12c is connected to increase the support force of the second support member 130, thereby preventing the second support member 130 from flowing.

Meanwhile, the second support member 130 is made of a transparent or translucent material, and accordingly, the position of the electrode lead 13 positioned between the pair of second support members 130 can be easily identified.

Step of placing the first support member

In the first support member arranging step (S30), the first support portion 120a of the first support member 120 is disposed in the electrode assembly receiving portion 12a of the pouch 12. At this time, the first support member 120 further arranges the reinforcing part 121 on the upper surface of the second support member 130, and accordingly, a step difference between the second support member 130 and the first support part 120a It can be prevented from forming.

Gas discharge stage

In the gas discharging step (S40), a pair of rolling members 110 are disposed to correspond to both sides of the electrode assembly receiving part 12a, and the first support member 120 disposed in the electrode assembly receiving part 12a Roll. Then, as the electrode assembly accommodating portion 12a is rolled together with the first support member 120, gas generated in the electrode assembly accommodating portion 12a may be discharged to the gas pocket portion 12b. At this time, the rolling member 110 is rolled from one side of the electrode assembly receiving portion 12a where the electrode lead 13 is not located to the other side where the electrode lead 13 is located, and accordingly, the electrode assembly 11 ) The gas remaining inside may be forcibly moved in the direction of the electrode lead 13.

In particular, the rolling member 110 moves to the reinforcing portion 121 of the first support member 120, thereby discharging the gas remaining to the other end of the electrode assembly receiving portion 12a to the gas pocket portion 12b. I can. At this time, the second support member 130 is disposed between the rolling member 110 and the electrode lead 13, thereby preventing deformation such as bending or folding of the electrode lead 13 by the rolling member 110. have.

Moreover, the rolling member 110 moves in the direction of the electrode lead 13 and moves at the same time, so that the gas remaining inside the electrode assembly 11 can be easily discharged.

Therefore, the degassing method according to the first embodiment of the present invention can effectively discharge the gas generated in the pouch and the gas remaining in the electrode assembly.

Hereinafter, in describing another embodiment of the present invention, the same component numbers are used for components having the same functions as those of the above-described embodiment, and redundant descriptions are omitted.

[Degassing device according to the second embodiment of the present invention]

The degassing device 100 according to the second embodiment of the present invention is a pair of second support members 130 provided on both surfaces of the electrode lead 13, respectively, as shown in FIGS. 6 and 7. ), but the pair of support members 130 are coupled to each other through the first fixing means, and thus, the fixing force of the pair of support members 130 can be increased.

That is, a pair of second support members 130 disposed on both surfaces of the electrode lead 13 may be changed in different directions due to an external impact, and a part of the electrode lead 13 may be exposed to the outside. have.

In order to prevent this, the degassing device 100 according to the second embodiment of the present invention is coupled to each other through a first fixing means for a pair of second support members 130, thereby supporting a pair of second support members. The fixing force of the member 130 can be increased, and as a result, the electrode lead 13 can be more stably protected.

As a first example, as shown in FIG. 6, the first fixing means includes a first coupling groove 131 provided in one second support member 130 of a pair of second support members 130, It includes a first coupling protrusion 132 provided in the other second support member 130 and coupled to the first coupling groove 131. That is, the pair of second support members 130 can increase the fixing force through the coupling of the first coupling groove 131 and the first coupling protrusion 132, and in particular, the pair of second support members 130 They can be easily combined or easily separated, resulting in increased ease of use.

As a second example, the first fixing means includes a hinge portion 133 that hingesly hinges one end of a pair of second support members 130 corresponding to each other, as shown in FIG. 7, and the hinge The branch portion 133 can increase the connection force and the fixing force of the pair of support members 130, and particularly has a loss prevention effect.

In particular, the pair of second support members 130 including the hinge portion 133 further includes a first coupling groove 131 and a first coupling protrusion 132 coupled to each other, and thus a pair of second support members 130 The bonding force of the support member 130 can be greatly increased.

[Degassing device according to the third embodiment of the present invention]

The degassing device 100 according to the third embodiment of the present invention, as shown in FIG. 8, is a second fixing unit that detachably couples the first support member 120 and the second support member 130 Includes means.

That is, the second fixing means is for increasing the fixing force of the first support member 120 and the second support member 130 disposed to each other, and the second coupling groove 122 formed in the first support member 120 And, a second coupling protrusion 134 formed in the second support member 130 and coupled to the second coupling groove 122.

Therefore, the degassing device 100 according to the third embodiment of the present invention can greatly increase the fixing force of the mutually disposed first support member 120 and the second support member 130, and accordingly, the rolling member 110 ) Can greatly prevent the first support member 120 from moving.

[Degassing device according to the fourth embodiment of the present invention]

In the degassing device 100 according to the fourth embodiment of the present invention, as shown in FIG. 9, the first support member 120 and the second support member 130 have a first The unevenness 120a and 130a are formed in the width direction of the support member 120 and the second support member 130, that is, in a direction orthogonal to the direction in which the rolling member 110 moves.

That is, the unevenness (120a) is formed on the surface of the first support member 120, the unevenness (130a) supported by the unevenness (120a) of the first support member (120) on the surface of the second support member (130) Is formed.

Accordingly, in the degassing device 100 according to the fourth embodiment of the present invention, when the rolling member 110 moves, the second support member 130 receives a moving force in a direction opposite to the movement of the rolling member 110 , Since the first support member 120 and the second support member 130 are supported by the irregularities 120a and 130a, it is possible to prevent the second support member 130 from being pushed and moved.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and various embodiments derived from the meaning and scope of the claims and their equivalent concepts are possible.

100: battery cell degassing device
110: rolling member
120: first support member
130: second support member

Claims (15)

A pouch having an electrode assembly, an electrode assembly receiving portion accommodating the electrode assembly, a gas pocket portion collecting gas generated from the electrode assembly receiving portion, and a sealing portion sealing at least a portion of the electrode assembly receiving portion and the gas pocket portion, and A battery cell degassing device for degassing a battery cell including an electrode lead connected to the electrode assembly and drawn out through the sealing part,
A first support member having first support portions disposed on one or both surfaces of the electrode assembly receiving portion; And
And a rolling member for discharging the gas generated in the electrode assembly receiving unit to the gas pocket by rolling the electrode assembly receiving unit while the first support unit of the first support member is disposed,
In order to discharge the gas to the gas pocket, the rolling member rolls from one side of the electrode assembly accommodating part where the electrode lead is not located to the other side where the electrode lead is located, and transfers the gas remaining inside the electrode assembly to the electrode. Battery cell degassing device forcibly moving in the lead direction. The method according to claim 1,
The first support member is a battery cell degassing device formed of a flexible material. The method according to claim 1,
A battery cell degassing device further comprising a second support member disposed on the electrode lead drawn out from the sealing part and protecting the electrode lead from deformation. The method of claim 3,
The second support member is provided in a pair so as to be provided on both surfaces of the electrode lead,
A battery cell degassing device wherein one side of the pair of second support members is disposed on the surface of the electrode lead, and the other side is disposed on the surface of the sealing portion from which the electrode lead is drawn out. The method of claim 3,
The first support member further includes a reinforcing part to be disposed on the upper surface of the second support member,
The battery cell degassing device for removing a step between the reinforcing portion and the first support member and the second support member. The method of claim 3,
The second support member is a battery cell degassing device formed of a transparent or translucent synthetic resin having rigidity. The method of claim 4,
A battery cell degassing device wherein a pair of second support members provided on both surfaces of the electrode lead are coupled to each other through a first fixing means. The method of claim 7,
The first fixing means includes a first coupling groove provided in one second support member of a pair of second support members, and a first coupling provided in the other second support member and coupled to the first coupling groove Battery cell degassing device comprising a projection. The method of claim 7,
The first fixing means is a battery cell degassing device including a hinge portion for hinge-coupled to the one end of the second support member rotatably corresponding to each other. The method of claim 3,
Battery cell degassing device further comprising a second fixing means for detachably coupling the first support member and the second support member. The method of claim 10,
The second fixing means is a battery cell degassing device comprising a second coupling groove formed in the first support member, and a second coupling protrusion formed in the second support member and coupled to the second coupling groove. A pouch having an electrode assembly, an electrode assembly receiving portion accommodating the electrode assembly, a gas pocket portion collecting gas generated from the electrode assembly receiving portion, and a sealing portion sealing at least a part of the electrode assembly receiving portion and the gas pocket portion, and the A battery cell preparation step (S10) of preparing a battery cell including an electrode lead connected to the electrode assembly and drawn out through the sealing part;
A second support member disposing step (S20) of disposing a second support member on both surfaces of the electrode lead;
A first support member disposing step (S30) of disposing the first support part of the first support member on one or both surfaces of the electrode assembly receiving part; And
In order to press the first support part of the first support member with a rolling member to discharge the gas generated in the electrode assembly receiving part to the gas pocket part, the rolling member is provided at one side of the electrode assembly receiving part where the electrode lead is not located. A method of degassing a battery cell comprising a gas discharge step (S40) of forcibly moving the gas remaining in the electrode assembly in the direction of the electrode lead by rolling in the other direction where the electrode lead is located. The method of claim 12,
In the second support member disposing step (S20), one side is disposed on the surface of the electrode lead, the other side is a battery cell degassing method of preparing a second support member disposed on the surface of the sealing portion from which the electrode lead is drawn out. The method of claim 12,
The second support member disposing step (S20) further includes a fixing process of fixing the second support members disposed on both surfaces of the electrode lead,
The fixing process is a pair of second support members by coupling a first coupling protrusion provided in the other second support member to a first coupling groove provided in one second support member of the pair of second support members. Battery cell degassing method to fix the. The method of claim 12,
The first support member disposing step (S30) is disposed on the upper surface of the second support member to remove a step between the second support member disposed on the electrode lead and the first support part disposed on the electrode assembly receiving part. Battery cell degassing method for preparing a first support member further including a reinforcing portion.

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