KR101590395B1 - Gas extraction system of medium and large secondary battery - Google Patents

Abstract

The present invention relates to a system for extracting a gas of a medium and large secondary battery, which moves to a location where a medium and large secondary battery is positioned in consideration of inconvenience of movement of the medium and large secondary battery, receives the medium and large secondary battery in a jig thereof, forms a vacuum state, punches one side of the medium and large secondary battery to allow the gas to flow out, and analyzes and extracts a gas component, without collision between a positive (+) electrode and a negative (-) electrode or a short. In the present invention, a movable system (10-1) for extracting a gas of a medium and large secondary battery comprises a case unit (100) provided to be movable to extract the gas at the location where the medium and large secondary battery (20) is positioned; a medium and large jig unit (300) including a jig frame (310) slidably installed in the case unit (100) and a jig cover (320) covering the jig frame (310) by using a cylinder (230) to form a vacuum state; and a transfer unit (200) causing the jig cover (320), on which a battery hitting member (330) is installed, to be lifted and lowered by the cylinder (230) operated according to a switching operation performed by a user.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gas extraction system,

The present invention relates to a middle- or large-sized secondary cell gas extraction system, and more particularly, to a system for extracting a gas component of a middle- or large-sized secondary cell, (+) And (+) are used to analyze the gas component by moving the outgoing gas to the outside by punching one side of the secondary battery by forming a middle- or large- And a middle- or large-sized rechargeable battery gas extraction system for extracting a cathode (-) without impact or shot.

Generally, as technology development and demand for mobile devices and electric vehicles increase, the demand for secondary batteries as energy sources is rapidly increasing.

In the case of manufacturing a three-dimensional battery module having a hexahedral structure as a unit cell, a square type or a pouch type battery and a cylindrical battery having a high capacity to volume ratio are widely used.

Conventionally, a nickel-cadmium battery or a hydrogen ion battery is mainly used as a secondary battery, but recently, a lithium-ion battery and a lithium-polymer battery having high energy density have been widely used.

However, such a secondary battery has a risk of ignition or explosion due to various factors such as falling, short-circuit due to an external shock, overcharging, and so on.

Therefore, various tests such as a drop impact test, a residual impact test, and a stress test have been conducted after manufacturing a battery cell to confirm the safety, mechanical or physical safety of the secondary battery to be developed.

The drop test drops the battery in the direction of the electrode terminal and tests whether the electrode terminal is short-circuited and the battery cell is damaged when the battery is hit on the ground. The battery is rotated at high speed through the drum test device, However, since the above tests are performed independently, the time and cost are increased, and it is difficult to analyze and manage the history due to the measurement data of each measurement data and the gas inside the battery cell have.

The present invention relates to an apparatus for measuring deformation of a battery cell by measuring deformation of the battery cell. More particularly, the present invention relates to a test apparatus capable of performing measurement more efficiently and precisely, This is a necessity.

<References>

Application No. 10-2009-0036889 Failure test equipment for secondary battery

Application No. 10-1999-0030502 Leak inspection apparatus of secondary battery and manufacturing method of secondary battery using the same

In order to solve the above problems, it is an object of the present invention to carry out a gas analysis and a safety evaluation of a secondary battery by extracting gas without impact or shot by punching one side with a middle- or large-

In addition, in the case of a middle- or large-sized secondary battery, the movement of the middle- or large-sized secondary battery can be made to move, thereby moving the extraction system without moving the middle- or large-sized secondary battery.

Also, it is intended to perform a vacuum, air / nitrogen injection operation for extraction through a control unit, control for cleaning the inside of the extraction apparatus after extraction, and operation according to the sensor.

It is also intended to provide a combination of vacuum, standard gas supply, calibration, and cleaning in one system.

Further, it is intended to extract gas by extracting a small amount of gas into a syringe tube tube and making the gas to be sealed without leakage.

In order to accomplish the above object, the present invention provides a middle- or large-sized secondary battery gas extracting system (10) for extracting a gas formed in a middle- or large- The mobile medium-large gas extraction system 10-1 includes a case 100 that is movable to extract gas at a location where the middle- or large-sized secondary battery 20 is located; A jig frame 310 which is seated on the case part 100 so as to be slidable and a middle or large jig part which is provided to close the jig frame 310 with the jig lid 320 using a cylinder 230, 300); And a transfer unit 200 provided to move up and down the jig lid 320 provided with the battery striking member 330 by the cylinder 230 operated according to a switch operation of the user.

The case unit 100 includes a main body case 110 having a rectangular shape such that the middle and large jig 300 is embedded therein and a main body case 110 supporting and fixing the case unit 100 to the lower end surface of the main body case 110. [ And a slide member 120 slidably mounted on the inner bottom surface of the main body case 110 so that the middle and large jig members 300 can slide.

In addition, the battery striking member 330 is provided at the center of the upper surface of the jig lid 320.

The battery striking member 330 may include a striking cylinder 340 that can strik the middle- or large-sized secondary battery 20 through air pressure, and a striking groove formed in the striking cylinder 340 And a pneumatic port 350 connected to the striking cylinder 340 on the upper surface of the battery striking member 330 to operate the striking cylinder 340. [ .

The transfer unit 200 includes a cylinder housing 220 having a cylinder 230 built in the center of the upper surface of the main body case 110 so that the jig lid 320 is lifted and lowered, A cylinder drive guide 240 is mounted on the cylinder housing 220 so as to move upward and downward about the cylinder housing 220 by operating the cylinder 230. The cylinder drive guide 240 is formed to be movable upward and downward and supports the cylinder housing 220 And a cylinder fixing panel (210).

The stopper 250 and the stopper 250 are provided so that the jig lid 320 is not lowered to completely close the jig die 310 when the cylinder drive guide 240 is lifted up and down on the cylinder drive guide 240, 250), and an opening / closing sensor (260) provided to inform the user of a sound or light when the cylinder drive guide (240) is completely lowered.

A gasket groove 370 is formed around the upper surface of the jig frame 310 so as to block a minute gap to maintain a vacuum state inside when the jig frame 310 and the jig lid 320 are coupled, And a gasket (380) is provided in the gasket groove (370) to block the gas.

The middle- or large-sized jig 300 includes a gas extracting unit 400 for extracting gas generated in the middle- or large-sized secondary battery 20 on the lower side of the lower jig 300, A gas extracting pipe 410 detachably installed to extract the gas And further comprising:

A vacuum and air pipe 420 is provided to form a vacuum inside the middle and large jig 300 in a direction perpendicular to the gas extraction pipe 410 and to clean and zero the inside after gas extraction, And a vacuum sensor 430 provided for vacuuming the middle- or large-sized jig 300 in the other direction of the vacuum and air pipe 420.

A control valve 440 is provided to the user to control the valve according to the vacuum or air cleaning or gas extraction from one side of the gas extraction pipe 410, one side of the air and the vacuum tube 420, one side of the vacuum sensor 430, And further comprising:

The control unit 500 is provided on the front side of the cylinder housing 220 to control the cylinder 230 of the transfer unit 200, the striking cylinder 340 of the middle and large jig 300, The control unit 500 includes a display panel 550 having a control panel 510 and provided to display a vacuum state and a gas extraction amount on the front surface of the control panel 510 .

The control panel 510 includes a striking switch 520 for operating the striking cylinder 340 of the middle or large jig 300 in the direction of one side of the display 550 formed on the front side, Down switch 530 for moving up and down the jig cover 320 for covering the middle and large jig 300 on the front surface of the control panel 510 in one direction.

The patch-type gas extraction system (10-2) of the middle- or large-sized secondary cell gas extraction system (10) for extracting the gas formed in the middle- or large- A main body case 600M formed of an upper plate and a lower plate for gas extraction of the patch type secondary battery 30 and having a fixing shaft at a corner; A patch type jig 600M-1 having a patch type secondary battery 30 built in the main body case 600M; An opening / closing cylinder 600M-2 provided to move up and down the jig lid to the upper surface of the main body case 600M; A cylinder housing 600M-3 is provided for fixing the opening and closing cylinder 600M-2 and is provided with a lifting / lowering mechanism 600M-3 which is installed to move up and down by the opening / closing cylinder 600M-2 about the cylinder housing 600M- Guide 600M-4; And a striking pin 600M-9 provided at one side of the upper surface of the jig lid of the patch type jig 600M-1 for striking the patch type secondary battery 30 to form a groove on one side of the patch type secondary battery 30 And a striking member (600M-8).

The opening and closing cylinder 600M-2 is operated by air pressure and has a connecting member 600M-5 connected to the jig cover of the patch-type jig 600M-1 below the elevation guide 600M-4, And a sealing gasket 600M-6 formed to surround the upper surface of the jig frame of the patch-type jig 600M-1 and to hold the gas or vacuum state of the groove in a closed state. do.

The apparatus further includes a gas extraction port 600M-7 provided to extract the gas of the patch-type secondary battery 30 to one side of the lower end of the patch type jig 600M-1.

The present invention has the following effects.

First, by inserting a middle- or large-sized secondary battery in a jig and punching one side thereof, it is possible to extract gas without collision or short-circuit, thereby facilitating gas analysis and safety evaluation of the secondary battery.

Second, in the case of a middle- or large-sized secondary battery, the gas extraction system of the middle- or large-sized secondary battery can be moved because the movement is complicated, thereby providing an operator convenience by moving the extraction system without moving the middle- or large-

Third, the vacuum, air / nitrogen injection for extracting through the control unit and the control for cleaning the interior of the extraction unit after extraction are respectively provided through the sensors to provide convenience of the operator and to supply vacuum, standard gas supply, It is possible to increase the accuracy of gas extraction by increasing the extraction rate of the gas extraction.

Fourth, the gas extracted by a small amount of gas is sealed through the syringe tube after being extracted without leakage.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a mobile medium / large-sized gas extraction system for a medium / large-sized secondary cell gas extraction system according to the present invention. FIG.
2 is a cross-sectional view of a mobile medium-and-large gas extraction system for a medium- to large-sized secondary cell gas extraction system of the present invention.
3 is an operational state diagram of a mobile medium-and-large-sized gas extraction system for a medium- to large-sized secondary cell gas extraction system according to the present invention.
4 is a perspective view of a patch-type gas extraction system for a middle- or large-sized secondary cell gas extraction system of the present invention.
5 is a cross-sectional view of a patch type gas extraction system for a medium- to large-sized secondary battery gas extraction system of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a cross-sectional view of FIG. 1, FIG. 3 is an operational state view of FIG. 1, and FIG. 4 is a sectional view of a middle- or large-sized gas extraction system according to the present invention. 5 is a perspective view of a patch type gas extraction system for a secondary cell gas extraction system, and FIG. 5 is a cross-sectional view of FIG.

The middle- or large-sized secondary battery gas extraction system 10 of the present invention is a system for extracting gas by moving the extraction system to a place where a middle- or large-sized secondary battery 20 or patch type secondary battery 30, Technology, the middle- or large-sized secondary cell gas extraction system 10 of the present invention comprises a movable medium-large gas extraction system 10-1 or a patch-type gas extraction system 10-2.

As shown in the drawings, the present invention relates to a middle- or large-sized secondary battery gas extraction system 10 for extracting a gas formed in a middle- or large-sized secondary battery 10-1, which is difficult to move, The extraction system 10 is composed of a movable medium-large gas extraction system 10-1 or a patch-type gas extraction system 10-2 and selects gas extraction according to the medium- or large-sized secondary battery 20 or the patch- .

The mobile medium and large gas extraction system 10-1 is provided with a case part 100 so as to be movable for gas extraction in a place where the middle- or large-sized secondary battery 20 is located, And a middle or large jig 300 is provided for closing the jig frame 310 with the jig lid 320 using a pneumatic cylinder 230 to form a vacuum.

In addition, a transfer unit 200 for smoothly moving up and down the jig lid 320 provided with the battery striking member 330 is provided by the cylinder 230 operated according to the user's switch control, .

The case 100 includes a main body case 110 coupled to each of the panels in a rectangular shape so that the middle and large jig 300 is housed therein. And a plurality of case fixing plates 130 for supporting or fixing the case fixing plates 130.

In addition, the slide member 120 is provided on the inner bottom surface of the main body case 110 so that the middle- or large-sized jig 300 can slide on the bottom surface of the main body case 110. In addition, .

As shown in the figure, the jig lid 320 is provided on the upper side of the jig 310 inside the case 100, and the jig lid 320 is moved up and down by the transfer unit 200 And is opened and closed.

A battery striking member 330 is provided at the center of the upper surface of the jig cover 320 to strike the middle- or large-sized secondary battery 20, and a middle- or large-sized secondary battery 20 is inserted into the battery striking member 330 through air pressure. And a battery striking pin 360 is provided so as to form a striking groove in the direction of one battery of the striking cylinder 340.

A pneumatic port 350 is formed in the striking cylinder 340 on the upper surface of the battery striking member 330 to operate the striking cylinder 340 so that the striking cylinder 340 It works.

The transfer unit 200 includes a cylinder housing 220 in which a cylinder 230 is installed so that a jig lid 320 is lifted and lowered at the center of an upper surface of the body case 110. The cylinder housing 220 is fixed to the cylinder housing 220, The cylinder 230 is operated to move the cylinder drive guide 240 upward and downward about the cylinder housing 220.

Further, the cylinder drive guide 240 is formed to be movable up and down, and a cylinder fixing panel 210 supporting the cylinder housing 220 is provided.

The stopper 250 is provided so that the jig die 310 of the jig lid 320 is completely closed when the cylinder drive guide 240 ascends and descends to the upper side of the cylinder drive guide 240 and is not further lowered, 250), and an opening / closing sensor (260) is provided to inform the user of a sound or light when the cylinder drive guide (240) is completely lowered.

A gasket groove 370 is formed around the upper surface of the jig frame 310 so as to block a minute gap to maintain a vacuum state inside when the jig frame 310 and the jig lid 320 are coupled, And the gasket groove 370 is provided with a hermetically sealed gasket 380 to block the gas.

As shown in FIGS. 1 and 2, a gas extraction unit 400 is provided at one side of the lower end of the middle-sized jig 300 to extract gas generated in the middle- or large-sized secondary battery 20, (400) is provided with a gas extracting pipe (410) so as to be removable for extracting gas.

In addition, the middle / large-sized jig 300 is provided in a direction perpendicular to the gas extraction pipe 410 to form a vacuum state, and after the gas is extracted, And a vacuum and air pipe 420 for two operations.

In addition, a vacuum sensor 430 is provided for vacuuming the middle- or large-sized jig 300 in the other direction of the vacuum and air pipe 420.

According to each situation of the gas extraction pipe 410 of the gas extraction part 400 of the present invention, one side of the air and the vacuum tube 420, one side of the vacuum sensor 430, A control valve 440 is provided so that the control valve 440 can be controlled through the valve.

As shown in the drawing, in order to control the cylinder 230 of the transfer part 200 of the present invention, the striking cylinder 340 of the middle and large jig 300, and a vacuum pump (not shown) And the control unit 500 is provided in the front direction of the display unit 220.

The control unit 500 includes a control panel 510 and a display 550 to display a vacuum state and a gas extraction amount to the front of the control panel 510. The control panel 510 The striking switch 520 is provided to operate the striking cylinder 340 of the middle or large-sized jig 300 in the direction of one side of the display 550 formed on the front surface of the display unit.

Accordingly, the movable medium-and-large gas extraction system 10-1 automatically blows the gas through the cylinder 230, which is formed by air pressure, through the control unit 500 by hitting the middle- or large-sized secondary battery 20.

As shown in FIG. 3 to FIG. 4, the patch type gas extraction system 10-2 for the middle- or large-sized secondary battery gas extraction system 10 of the present invention is provided with the patch type gas extraction system 10-2 The main body case 600M is formed of an upper plate and a lower plate and is provided with a plurality of fixing shafts at its corners.

Also, a patch type jig 600M-1 is provided in the main body case 600M so that the patch type secondary battery 30 is embedded therein, and a pad for insulation is provided in the patch type jig 600M-1.

An opening and closing cylinder 600M-2 is provided to move the jig lid up and down on the upper surface of the main body case 600M. A cylinder housing 600M-3 is provided to fix the opening and closing cylinder 600M- And a lifting / lowering guide 600M-4 is provided so as to move up and down by the opening / closing cylinder 600M-2 about the cylinder housing 600M-3.

As shown in the drawing, the opening / closing cylinder 600M-2 is operated by air pressure and is connected to the jig cover of the patch-type jig 600M-1 below the elevation guide 600M-4. -5, a groove is formed around the upper surface of the jig frame of the patch-type jig 600M-1, and a sealing gasket 600M-6 is inserted to maintain the gas or vacuum state in the groove .

In addition, a gas extraction port 600M-7 is provided to extract the gas of the patch-type secondary battery 30 to one side of the lower end of the patch type jig 600M-1, And a striking member 600M-8 for hitting the patch-type secondary battery 30 on one side.

Therefore, the gas extracting unit 400 used in the mobile medium-and-large gas extraction system 10-1 is detachably attached to the gas extraction port 600M-7.

In addition, a striking pin 600M-9 is provided below the striking member 600M-8 to form a groove on one side of the patch-type secondary battery 30 below the striking member 600M-8.

Therefore, when the user strikes the striking member 600M-8, the striking pin 600M-9 forms a groove on one side of the patch-type secondary battery 30.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Medium and large-sized rechargeable battery gas extraction system
10-1: Movable medium and large gas extraction system 10-2: Patch type gas extraction system
20: medium and large-sized secondary battery 30: patch type secondary battery
100: Case part 110: Body case
120: slide member 130: case fixing plate
200: feeder 210: cylinder fixing panel
220: cylinder housing 230: cylinder
240: Cylinder drive guide 250: Stopper
260: Opening / closing sensor
300: medium or large jig 310: jig frame
320: jig cover 330: battery striking member
340: Striking cylinder 350: Pneumatic port
360: Battery striking pin 370: Gasket groove
380: Sealed gasket
400: gas extracting part 410: gas extracting tube
420: air and vacuum tube 430: vacuum sensor
440: Regulating valve
500: control unit 510: control panel
520: Striking switch 530: Up / down switch
550: Display
600M: main body case 600M-1: patch type jig
600M-2: opening and closing cylinder 600M-3: cylinder housing
600M-4: ascending / descending guide 600M-5: connecting member
600M-6: Closed gasket 600M-7: Gas extraction port
600M-8: Striking member 600M-9: Striking pin

Claims (15)

A mobile medium / large-sized gas extraction system (10-1) for a middle- or large-sized secondary battery gas extraction system (10) for extracting a gas formed in a middle- or large-
The mobile medium and large gas extraction system (10-1)
A case part 100 provided to be movable for gas extraction at a location where the middle- or large-sized secondary battery 20 is located;
A jig frame 310 which is seated on the case part 100 so as to be slidable and a middle or large jig part which is provided to close the jig frame 310 with the jig lid 320 using a cylinder 230, 300); And
And a transfer unit (200) provided to move up and down the jig lid (320) provided with the battery striking member (330) by the cylinder (230) operated according to a switch operation of the user. Battery cell gas extraction system.
The method according to claim 1,
The case 100 includes a main body case 110 formed in a rectangular shape so as to house the middle and large jig 300 therein and a case 100 fixedly attached to a lower end surface of the main body case 110 And a slide member (120) slidably mounted on the bottom surface of the main body case (110) so that the middle and large jig (300) can slide on the bottom surface of the main body case Gas extraction system.
The method according to claim 1,
Wherein the battery striking member (330) is provided at the center of the upper surface of the jig lid (320).
The method according to claim 1,
The battery striking member 330 may include a striking cylinder 340 that is capable of striking the middle- or large-sized secondary battery 20 through air pressure therein, and a striking cylinder 340, And a pneumatic port 350 connected to the striking cylinder 340 on the upper surface of the battery striking member 330 to operate the striking cylinder 340. [ Medium and large rechargeable battery gas extraction system.
The method according to claim 1,
The conveyance unit 200 includes a cylinder housing 220 having a cylinder 230 built therein so that the jig lid 320 is lifted up and down at the center of the upper surface of the body case 110 and a cylinder fixed to the cylinder housing 220 A cylinder drive guide 240 that is driven to move upward and downward about a cylinder housing 220 by operating the cylinder drive unit 230 and a cylinder drive guide 240 that is movable upward and downward and supports the cylinder housing 220, And a fixed panel (210).
6. The method of claim 5,
The stopper 250 and the stopper 250 are provided so that the jig lid 320 is not lowered to completely close the jig die 310 when the cylinder drive guide 240 ascends and descends to the upper side of the cylinder drive guide 240, And an opening / closing sensor (260) provided on the lower surface of the cylinder drive guide (240) for informing the user of sound or light when the cylinder drive guide (240) is fully lowered.
The method according to claim 1,
A gasket groove 370 is formed around the upper surface of the jig frame 310 so as to block a minute gap to maintain a vacuum state inside when the jig frame 310 and the jig lid 320 are coupled, And a hermetic gasket (380) provided to cut off the gas in the groove (370).
The method according to claim 1,
The middle- or large-sized jig 300 includes a gas extracting unit 400 for extracting gas generated in the middle- or large-sized secondary battery 20 on a lower side of the lower jig 300. The gas extracting unit 400 extracts gas A gas extracting pipe 410 which is detachably attached to Wherein the gas extraction system further comprises:
9. The method of claim 8,
A vacuum and air pipe 420 for forming a vacuum inside the middle and large jig 300 in a direction perpendicular to the gas extraction pipe 410 and for cleaning and zeroing the inside after gas extraction, And a vacuum sensor (430) provided for the vacuum of the middle- or large-sized jig (300) in the other direction of the air pipe (420).
10. The method of claim 9,
A control valve 440 is provided to one side of the gas extracting pipe 410, one side of the air and the vacuum pipe 420 and the other side of the vacuum sensor 430 so that the user can adjust the valve according to vacuum or air cleaning or gas extraction. Wherein the gas extraction system comprises:
11. The method according to any one of claims 1 to 10,
A control unit 500 provided on the front side of the cylinder housing 220 for controlling the cylinder 230 of the transfer unit 200, the striking cylinder 340 of the middle and large jig 300, The control unit 500 includes a display panel 550 having a control panel 510 and a display 550 for displaying a vacuum state and a gas extraction amount on the front surface of the control panel 510. [ Battery gas extraction system.
12. The method of claim 11,
The control panel 510 includes a striking switch 520 for operating the striking cylinder 340 of the middle or large jig 300 in the direction of one side of the display 550 formed on the front side, Further comprising a lifting / lowering switch (530) for lifting / lowering the jig lid (320) for covering the middle / large jig (300) on the front surface of the control panel (510) system.
A patch-type gas extraction system (10-2) of a middle- or large-sized secondary battery gas extraction system (10) for extracting a gas formed in a middle- or large-
The patch type gas extraction system 10-2 includes a main body case 600M formed of an upper plate and a lower plate for gas extraction of the patch type secondary battery 30 and having a fixing shaft at an edge thereof;
A patch type jig 600M-1 having a patch type secondary battery 30 built in the main body case 600M;
An opening / closing cylinder 600M-2 provided to move up and down the jig lid to the upper surface of the main body case 600M;
A cylinder housing 600M-3 is provided for fixing the opening and closing cylinder 600M-2 and is provided with a lifting / lowering mechanism 600M-3 which is installed to move up and down by the opening / closing cylinder 600M-2 about the cylinder housing 600M- Guide 600M-4; And
And a striking pin 600M-9 provided at one side of the upper surface of the jig lid of the patch type jig 600M-1 for striking the patch type secondary battery 30 to form a groove on one side of the patch type secondary battery 30 And a striking member (600M-8) for supplying the gas to the striking member.
14. The method of claim 13,
The opening and closing cylinder 600M-2 is operated by air pressure and has a connecting member 600M-5 which is connected to the jig cover of the patch type jig 600M-1 below the elevating guide 600M-4, And a sealing gasket (600M-6) provided with a groove around the upper surface of the fixture of the patch type jig (600M-1) and provided to hermetically hold the gas or the vacuum state in the groove. Secondary cell gas extraction system.
15. The method according to any one of claims 13 to 14,
Further comprising a gas extraction port (600M-7) provided to extract the gas of the patch-type secondary battery (30) to one side of the lower end of the patch type jig (600M-1).

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