KR20200005983A - Apparatus for real-time collecting inner gas in pouch type secondary electric cell while charging and discharging and method thereof - Google Patents

Abstract

Disclosed by the present invention is a secondary battery-generated gas collection device. The secondary battery-generated gas collection device includes: a jig which has a pouch type battery mounted thereon and includes a jig body unit of a rectangular shape of being open at an upper surface and a jig top unit of being detachably coupled to the upper part of the jig body unit and having a vacuum part in a space where the battery is seated with the jig body unit; a punching unit which is provided in the upper part of the jig top unit to form a groove in the battery; a connection unit which is connected to a manifold unit capable of accepting gas diffused from the battery in one side or the other side of the jig body unit; and charging and discharging terminals which are included in one side surface of the jig body unit and enable charging and discharging electricity to charge and discharge the battery as positive and negative terminals of the battery are in contact with the charging and discharging terminals. The present invention is able to measure a pressure change inside the collection device while monitoring the temperature of the surface of a secondary battery.

Description

PAP type secondary battery generated gas real-time collection device and collection method for both charging and discharging

This application was filed on July 9, 2018. Claiming the benefit of priority based on Korean Patent Application No. 10-2018-0079183 filed, all the contents disclosed in the literature of the Korean patent application is included as part of this specification.

The present invention relates to a pouch type secondary battery generating gas collection device and a collecting method for both charging and discharging, more specifically, to form a jig body portion and a jig-top portion to accommodate a pouch type secondary battery, accommodated pouch type secondary A secondary battery generating gas collecting device that collects and analyzes the gas of the secondary battery discharged by puncturing the secondary battery in real time while charging and discharging the battery, and monitors the temperature of the surface of the secondary battery and changes the pressure inside the collecting device. The present invention relates to a secondary battery generating gas collecting device and a collection method thereof.

In general, the secondary battery is a battery that can be repeatedly used through a reverse charging and discharging process that converts chemical energy into electrical energy, and the types thereof include nickel-cadmium (Ni-Cd) batteries and nickel-hydrogen (Ni-MH). ) Batteries, lithium-metal batteries, lithium-ion (Li-ion) batteries and lithium-ion polymer batteries (Li-ion Polymer Battery). Among such secondary batteries, lithium secondary batteries having high energy density and voltage, long cycle life, and low self discharge rate are commercially used and widely used. Lithium secondary batteries include polymer batteries, circular batteries, and square batteries.

However, conventional lithium secondary batteries have a risk of ignition / explosion when exposed to high temperatures. In addition, even when a large current flows within a short time due to overcharge, external short circuit, nail penetration, local crush, or the like, there is a risk of fire / explosion while the battery is heated by IR heat generation. As an example, as a result of the reaction between the electrolyte electrodes, gas is generated to increase the battery internal pressure, and the lithium secondary battery may explode at a predetermined pressure or higher.

Hydrogen, oxygen, nitrogen, carbon monoxide, carbon dioxide, C _n H _2n-2 (n = 2-5), C _n H _2n (n = 2-5), C _n H _{2n + 2} depending on the reaction in the lithium secondary battery Various kinds of gases may be generated, such as hydrocarbons (n = 1-5) and other organic gas species. Internally generated gases, such as carbon dioxide, are reversible to recharge back to their original material, depending on the conditions, but usually remain in the gaseous state in the cell to increase internal pressure and cause swelling to cause the cell to swell. The swelling of the battery is too thick to be mounted on an electronic device designed to be mounted, or it is judged to be defective due to a bulging appearance and loses its value as a product.

Therefore, it is very important to collect and accurately analyze the gas generated in the secondary battery. Various gases are generated during the operation of lithium ion batteries, and information on the composition and content of the generated gases is useful for developing battery materials, optimizing battery manufacturing processes, and identifying causes of battery failure.

Conventional battery generation gas collection device has a very complicated configuration, such as opening and closing cylinders, lifting guides operated by air pressure for gas collection of the pouch-type battery, there is a problem that can be applied only to medium and large secondary batteries .

In addition, the prior art has a problem that it is difficult to apply to a battery in which swelling occurs because the internal space of the jig body is narrow because the handle has to be rotated in order to pierce the secondary battery.

In the analysis of the gas generated inside the battery during charging and discharging of the lithium ion battery, a cell charged or discharged at a constant voltage is placed in a closed space and the gas is collected and analyzed. Since it is difficult to observe changes in gas composition during discharging, in order to understand this, the gas is collected and analyzed after charging or discharging a plurality of batteries at different voltages, which not only wastes cost but also causes deviation between the batteries. There may be a problem such as.

Accordingly, there is a need for a method of providing a device that can collect and analyze a gas generated during charging or discharging of a pouch-type battery in real time among a single cell.

In addition, for a more accurate analysis, there is a need for a method for providing a device that can analyze the gas generated in the battery in real time while measuring the surface temperature of the battery and the pressure inside the jig in which the battery is mounted.

The present invention has been made to solve the above-described problems of the prior art, it is possible to collect and analyze the gas of the secondary battery discharged by punching holes in the secondary battery in real time while charging and discharging the pouch type secondary battery contained in the jig. As a secondary battery generating gas collecting device to provide a secondary battery generating gas collecting device and a collecting method that can measure the pressure change in the collecting device while monitoring the temperature of the surface of the secondary battery.

In order to solve the above problems, the secondary battery generating gas collection device according to the present invention:

As a jig to which a pouch type battery is mounted:

A rectangular jig body portion having an open top surface;

The jig detachably coupled to an upper part of the jig body part and including a jig top part which forms a vacuum in a space in which the battery is mounted together with the jig body part;

A punching part forming a groove in the battery at an upper portion of the jig top part;

A connection part connecting one side or the other side of the jig body part to a manifold part, a collection tube, or a gas analyzer that accommodates the gas diffused from the battery; And

Charge and discharge terminals provided on one side of the jig body portion, wherein each of the positive and negative terminals of the battery contacts each of the charge and discharge terminals, thereby causing the charge and discharge terminal to charge and discharge the battery. ;

It may include.

In addition, the secondary battery generating gas collection device according to the present invention further includes a thermocouple capable of measuring the surface temperature of the battery, the thermocouple is provided under the jig body portion, one end of the thermocouple is the battery The surface of the jig body may be exposed to be in contact with the bottom surface of the battery so that the temperature of the surface may be measured.

In addition, in the secondary battery generating gas collection device according to the present invention, a thermocouple support spring is provided under the thermocouple, one end of the thermocouple may be in contact with the lower surface of the battery by the thermocouple support spring.

In addition, the secondary battery generated gas collection device according to the present invention: the opening and closing which can be connected to the connection portion to open or close the connection between the jig and the manifold, the collection pipe, or the gas analyzer valve; And a pressure gauge for measuring the pressure inside the jig; It may further include.

In addition, in the secondary battery generating gas collection device according to the present invention, the pressure gauge may be connected between the connecting portion and the on-off valve.

In addition, in the secondary battery generating gas collection device according to the present invention, the inside of the jig may be made of a heat insulating material.

In addition, in the secondary battery generating gas collecting device according to the present invention, grooves are provided at one end portion protruding into the jig of the charge and discharge terminals, respectively, and the positive and negative terminals of the battery may be inserted into the grooves.

The terminal of the battery inserted into the groove and the charge and discharge terminal of the jig may be in close contact with a small screw.

In addition, the secondary battery generated gas collection method according to the present invention:

Mounting a pouch-type battery in a jig;

Connecting and coupling a manifold part, a collection tube, or a gas analyzer to a connection part of the jig body part;

Forming a vacuum inside the jig;

Connecting a charge / discharge device to a charge / discharge terminal;

Operating a punching portion; And

Collecting gas diffused from the cell;

It may include.

In addition, in the secondary battery generation gas collection method according to the present invention, the step of collecting the gas diffused from the battery includes the step of collecting the gas diffused from the battery while charging and discharging the battery through the charge and discharge terminals. Can be.

In addition, in the secondary battery generated gas collection method according to the present invention,

The collecting of the diffused gas may include at least one of measuring a surface temperature of the battery through a thermocouple and measuring an internal pressure of the jig through a pressure gauge.

According to the present invention, charging and discharging can be facilitated in collecting and analyzing gas generated in a pouch-type battery in real time.

In addition, since the gas generated in the battery can be analyzed in real time while measuring the surface temperature of the battery and measuring the pressure inside the jig in which the battery is mounted, the internal generated gas of the pouch type secondary battery can be analyzed more precisely.

In addition, in collecting and analyzing the gas generated in the pouch-type battery in real time, the thermal behavior of the battery can be studied together by measuring the temperature of the surface of the battery, and the total amount of gas generated through the pressure gauge can be more easily known. There is an advantage.

1 is a conceptual view illustrating a state in which a charge / discharge combined pouch type secondary battery generating gas collecting device according to the present invention is connected to a manifold part.
Figure 2a is a cross-sectional view of the combined charge and discharge pouch type secondary battery generated gas collecting device according to the present invention.
2B is a plan view of a combined charge / discharge pouch type secondary battery generating gas collecting device according to the present invention.
3 illustrates a charge / discharge terminal of a secondary battery generated gas collecting device according to the present invention.
4 is a schematic view of a pouch type secondary battery according to the present invention.
5 illustrates a case where a charge / discharge device, a temperature monitoring device, and a pressure monitoring device are connected to a secondary battery generated gas collecting device according to the present invention.
Figure 6 is a block diagram showing a gas collection method for charging and discharging combined use pouch type secondary battery according to the present invention.

The terms or words used in this specification and claims are not to be limited to the ordinary or dictionary meanings, and the principle that the inventor may appropriately define the concept of terms in order to best describe the invention of his own. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram illustrating a state in which a secondary battery generating gas collecting device according to the present invention is connected to a manifold part.

Referring to FIG. 1, the secondary battery generating gas collecting device 100 according to the present invention collects gas through the secondary battery generating gas collecting device 100 for gas analysis inside the secondary battery, and the manifold part 10. ) Is collected in the collection pipe 13 connected to the analysis and connected to the gas analysis device (not shown). Alternatively, the gas collected by the secondary battery generating gas collecting device 100 may be analyzed by directly connecting the gas analyzing device to the manifold part 10. Alternatively, the gas collected by the secondary battery generated gas collecting device 100 may be analyzed by directly connecting the gas analyzer to the secondary battery generated gas collecting device 100 without passing through the manifold part 10.

The vacuum pump 11 is connected to a predetermined position of the secondary battery generating gas collecting device 100 or the manifold portion 10 to form a secondary battery generating gas collecting device 100 equipped with a secondary battery in a vacuum state. . Thereafter, the gas is collected through a secondary battery through a punching unit, and the gas is analyzed through a gas analyzer.

The gas analyzer is analyzed by a mass spectrometer or chromatography, but is not limited thereto, and other analyzers or methods may be used to increase the accuracy or precision of gas analysis.

2A is a cross-sectional view of the secondary battery generating gas collecting device according to the present invention as viewed from the front, and FIG. 2B is a cross-sectional view of the secondary battery generating gas collecting device according to the present invention as viewed from the top. 3 illustrates a charge / discharge terminal of a secondary battery generated gas collecting device according to the present invention.

2A and 2B, the secondary battery generating gas collecting device 100 according to the present invention includes a jig body part 110 having a rectangular parallelepiped shape in which a pouch-type battery 200 is mounted; A jig top portion 120 detachably coupled to an upper portion of the jig body portion 110 and forming a vacuum in a space in which the battery 200 is mounted together with the jig body portion 110; A punching part 130 forming a groove in the battery 200 at an upper portion of the jig top part 120; A connection part 140 provided on one side of the jig body part 110 and connecting the gas diffused from the battery 200 to an acceptable manifold part 10; Charge-discharge terminals 150 that may be in contact with an electrode of the battery 200 and electrically connected to the battery 200 to charge / discharge the battery 200; A thermocouple (160) capable of measuring the surface temperature of the cell (200); It includes a pressure gauge 180 provided in the connecting portion 140 and capable of measuring the pressure inside the jig.

The jig body part 110 is formed in a rectangular parallelepiped shape, and the upper surface of the jig body part 110 is to be seated inside the space formed by the jig body part 110, and the upper part of the jig body part 110 is jig. It is combined with the top portion 120 to form a jig. In this case, the width and length of the jig body part 110 may be formed to correspond to the width and length of the jig top part 120, but the jig body part 110 may be formed in various sizes in consideration of the size of the pouch-type battery 200. ) And the jig top portion 120 can of course be adjusted.

The jig may be made of a metal material, for example, made of a material such as stainless steel (SUS), aluminum (Al), titanium (Ti), or an alloy thereof, and the film may be formed through anodizing for insulation. It can also be formed and used. Alternatively, it may be made of a material of industrial plastic.

However, the inner surface A of the jig inner space (that is, the space where the jig body part 110 and the jig top part 120 are coupled to mount the battery 200 therein) may be made of a heat insulating material. have. Bakelite may be used as the heat insulating material, or an inorganic heat insulating material such as pearlite or silica, or an organic heat insulating material such as polyurethane foam or bakelite may be used.

The jig top portion 120 and the jig body portion 110 may be fixed by a fastening device 122 such as nuts and bolts, and the upper surface of the jig body portion 110, which is a mating surface, and the bottom surface of the jig top portion 120. An airtight part 121 is formed to maintain airtightness when coupled with the jig body part 110.

The airtight part 121 may have airtightness by being combined with the airtight part coupling groove 111 formed on the top surface of the jig body part 110. In addition, the airtight portion coupling groove 111 is not formed, the airtight portion 121 having a predetermined thickness is formed on the bottom surface of the jig top portion 120 or the top surface of the jig body portion 110 and through the fastening device 122. It is of course possible to further improve the airtightness by fastening the jig body part 110 and the jig top part 120.

Punching unit 130, the main body 136 to reciprocate in the receiving groove 123 of the jig top portion 120; A rod 132 connected to the main body 136; A guide 134 which guides the reciprocating motion of the rod 132 and acts as a stopper for limiting the lateral movement of the main body 136; And a punching tip 139 connected to the body 136.

The rod 132 is connected to the punching head 131, and by pressing the punching head 131, as the rod 132 and the main body 136 move, the punching tip 139 forms a groove in the cell 200. The gas is blown out.

The punching part 130 is fixed to the upper side of the jig top part 120 by the punching part fixing pin 138.

The main body 136 is formed so that the diameter of the portion connected to the rod 132 is larger than the portion connected to the punching tip 139, when the punching tip 139 connected to the main body 136 reciprocates back to the secondary battery The inner diameter of the main body 136 is stopped by the guide 134 smaller than the outer diameter of the main body 136 so that the main body and the rod do not protrude out of the generated gas collecting device.

An airtight portion 135 is formed on the outer circumferential surface of the main body 136 to improve airtightness, and the airtight portion 135 may be formed of, for example, an O-ring made of rubber material, but is not limited thereto.

The punching unit 130 is formed on an outer circumferential surface of the main body 136, and further includes a spring 137 that elastically supports the main body 136.

The spring 137 restricts the moving distance of the punching tip 139 according to a predetermined stiffness (spring constant) and a predetermined length, and thus the punching tip 139 has a limited moving distance to move to 2 mm, for example. However, if the short circuit of the battery 200 does not occur, it is not limited thereto.

Thus, the punching tip 139 may move to the maximum by the maximum compression distance of the spring 137 from the guide 134. Referring to FIG. 4, the punching tip 139 punches a punching position 270 which is a portion where the positive and negative terminals 230a and 230b of the pouch-type battery 200 are not formed.

In addition, the upper surface of the space in which the battery 200 of the jig body portion 110 is mounted may further include a receiving groove 112 (see FIG. 2B) in which the punching tip 139 may be accommodated. Thus, according to the present invention, the punching tip 139 penetrates a part of the battery 200 to facilitate the ejection of gas, while the punching tip 139 passes through the battery 200 and then receives the receiving groove 112. The damage can be prevented by. The punching tip 139 may be used by processing SUS, steel wire (piano wire), or the like, and may be used by processing tungsten in a needle shape.

According to the present invention, the punching tip 139 is limited by the movement distance according to the rigidity of the spring 137 and the length of the spring 137 can be accommodated by the receiving groove 112, due to the action of excessive force Breakage can be prevented.

The diameter of the end of the punching tip 139 may be formed smaller than the thickness of the cover of the battery 200. That is, when punching a hole in the battery 200, the thickness of the punching tip 139 may be formed within 1 mm smaller than the thickness of the battery cover to prevent a short circuit, but is not limited thereto. Therefore, according to the present invention, it is possible to prevent a short (short circuit) of the battery and to quickly collect gas by operating the punching unit with one touch.

In addition, the jig may further include charge and discharge terminals 150. The positive and negative terminals 230 of the battery 200 contact the charge / discharge terminals 150 to allow the charge / discharge device 310 (see FIG. 5) to charge / discharge the battery 200. When the pouch-type battery 200 is mounted in a space in which the battery of the jig body part 110 is mounted, the positive and negative terminals 230 of the pouch-type battery 200 move to one side of the jig body part 110. Is headed. Accordingly, the charge / discharge terminals 150 may be provided on one side of the jig body part 110, for example. In addition, the charge and discharge terminals 150 are provided to penetrate through one side of the jig body part 110 so that one end of each of the charge and discharge terminals 150 is exposed to the inside of the jig so that the positive electrode of the pouch-type battery 200 is formed. And the cathode terminals 230, and the other ends of the charge / discharge terminals 150 may be connected to the charge / discharge device 310 outside the jig.

2A and 3, since the charge / discharge terminals 150 are not spring-loaded, the positive and negative terminals 230 of the battery 200 are mounted when the pouch-type battery 200 is mounted inside the jig. The battery 200 must be mounted to contact the charge / discharge terminals 150 protruding into the jig. In this case, referring to the front view of the charge / discharge terminal 150 of FIG. 3, the terminal of the charge / discharge terminal 150 protruding into the jig has a groove, so that the terminal of the battery 200 may be accommodated. Referring to the top view of the charge / discharge terminal 150 of FIG. 3, when the terminal of the battery 200 is received at the end of the charge / discharge terminal 150, the small screw 151 is turned to the terminal of the battery 200. In close contact with each other, the terminal of the battery 200 is fixed to the charge / discharge terminal 150 while allowing electrical connection to be made.

The charge / discharge terminal 150 may be made of a metal having high electrical conductivity. For example, the charge / discharge terminal 150 may be made of gold, silver, platinum, rhodium, or the like, or may be formed on a surface of a metal material such as SUS by plating or the like. It can also be produced in a smaller way. Meanwhile, the charge / discharge terminal 150 may be surrounded by the insulation unit 152 to insulate a portion where the charge / discharge terminal 150 and the jig body unit 110 contact each other, and the insulation unit 152 may be used for industrial purposes. It may be made of a plastic material, in order to prevent the outside air flows between the charging and discharging terminal 150 and the jig, it may further include a sealing member 153 for sealing the inside of the jig. The sealing member 152 may be, for example, an O-ring or the like. The charging and discharging device 310 is electrically connected to the positive and negative terminals 230 of the battery 200 to drive the charging and discharging of the battery 200. The charging and discharging device includes a power supply unit, a load unit, and a switching circuit, and the power supply unit adjusts a voltage and / or a current to charge the battery 200, and applies it to the battery 200, and the load unit is charged in the battery 200. The energy is discharged, and the power supply unit and the load unit may be electrically connected to the battery 200 by a switching circuit.

In addition, the jig may further include a thermocouple 160. The surface temperature of the battery 200 mounted in the jig may be measured through the thermocouple 160. The thermocouple 160 may be provided at a lower portion of the jig body part 110, for example. In addition, the thermocouple 160 may be provided through the lower portion of the jig body part 110, for example. One end of the thermocouple 160 is exposed to the inside of the jig so that the temperature of the surface of the battery 200 can be measured, and more specifically, for example, a space in which the battery 200 of the jig body part 110 is mounted. The upper surface of the (eg, the upper surface of the bottom of the jig body portion 110, see Figure 2a and 2b) may be in contact with the lower surface of the battery 200. Meanwhile, one end of the thermocouple 160 may protrude into the jig to contact the bottom surface of the battery 200. At this time, the thermocouple 160 is supported by the thermocouple support spring 161 provided below the thermocouple, and the thermocouple 160 of the thermocouple 160 to the upper surface of the bottom of the jig body portion 110 by the thermocouple support spring 161. One end is raised, and even when the battery 200 is mounted on the bottom of the jig body part 110, one end of the thermocouple 160 may be in contact with the battery 200 by the force of the thermocouple support spring 161. Can be.

In addition, when the thermocouple support spring 161 is not provided when the cell 200 is punched by the punching unit 130, one end of the thermocouple 160 may be smaller than the upper surface of the bottom surface of the jig body unit 110. Since the position of the height 200, the battery 200 is bent or lifted from the bottom may not be accurate punching. However, according to the present invention, by the thermocouple 160 is supported by the thermocouple support spring 161, the battery 200 can be mounted flat on the bottom of the jig body portion 110, the punching portion 130 To increase the accuracy of punching.

The other end of the thermocouple 160 may be connected to a temperature monitoring device 320 outside the jig (eg, a temperature digital indicator including a display unit capable of displaying the measured temperature, see FIG. 5).

Referring to FIG. 2B, the jig further includes a connecting portion 140 connecting the gas diffused from the battery 200 to an acceptable manifold portion 10 or a collecting tube or a gas analyzer (not shown). The connection part 140 may be provided on one side of the jig body part 110, for example. The opening and closing valve 170 is connected to the connection unit 140 to open or close the connection of the jig and the manifold part 10 to the opening and closing valve 170.

In addition, the pressure gauge 180 may be further connected to the connection unit 140. The pressure gauge 180 may be connected between the connection part 140 and the on / off valve 170, for example.

In addition, the pressure gauge 180 may be connected to a pressure monitoring device 330 (eg, a pressure digital indicator including a display capable of displaying the measured pressure, see FIG. 5). The above-described temperature monitoring device 320 and the pressure monitoring device 330 may be integrated into one unit to monitor temperature and pressure, respectively, or may be monitored by a display of a user's computer as shown in FIG. 5. Various modifications and changes can be made.

Referring to FIG. 4 of the pouch type battery 200, the pouch type battery 200 according to the present invention includes a cell accommodating part 210, a cell 220 including a positive electrode, a separator, and a negative electrode, a positive electrode terminal, and a negative electrode terminal. 230, a sealing part 240 and 260 sealing part of the terminal 230 and an end of the battery 200, and an end b of the one sealing part 240 and one end of the cell 220. It includes a cross-sectional change portion 250 formed in a tapered shape between (a).

A portion where the positive and negative terminals 230 of the cross-sectional change part 250 are not formed becomes a punching position 270 in which the punching tip 139 of the punching part 130 invades.

6 is a block diagram showing a secondary battery generated gas collection method according to the present invention.

Referring to FIG. 6, the method for collecting secondary battery generated gas according to the present invention includes mounting a pouch-type battery 200 to a jig (S100); Connecting and coupling the manifold unit 10, the collection tube 13, or a gas analyzer (not shown) to the connection unit 140 of the jig body unit 110 (S200); Forming a jig in a vacuum (S300); Connecting a charge / discharge device to the charge / discharge terminal 130 (S400); Operating the punching unit 130 (S500); And collecting the gas diffused from the battery 200 (S600).

Collecting gas diffused from the battery 200 (S600) includes collecting gas diffused from the battery 200 while charging and discharging the battery 200 through charge / discharge terminals 130. . Accordingly, gas generated during charging or discharging of the pouch-type battery can be collected and analyzed in real time.

In the step of collecting the diffused gas (S600), the gas is diffused into the receiving space formed between the jig body portion 110 and the jig top portion 120 is collected by the manifold portion (10). Collecting the diffused gas (S600) is a step of measuring the temperature of the surface of the cell 200 through the thermocouple 160 (S610) and the pressure inside the jig through the pressure gauge 180 (S620) At least one of the.

The operation (S500) of operating the punching unit 130 may include: pressing the punching head 131 of the punching unit 130; A punching tip 139 of the punching unit 130 is moved by a predetermined distance to form a groove on one side of the battery; And returning the punching tip 139 of the punching part to its original position.

The above-described embodiment is just a preferred embodiment to enable those skilled in the art to which the present invention pertains (hereinafter, referred to as a person skilled in the art) to easily carry out the present invention. Since the present invention is not limited thereto, the scope of the present invention is not limited thereto. Therefore, it will be apparent to those skilled in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention, and it is apparent that parts easily changed by those skilled in the art are included in the scope of the present invention. .

10: manifold
100: secondary battery generation gas collection device
110: jig body part
120: jig top part
130: punching part
140: connection portion
150: charge and discharge terminals
160: thermocouple
170: on-off valve
180: pressure gauge
190: recessed portion
200: battery
310: charge and discharge device
320: temperature monitoring device
330: pressure monitoring device

Claims (10)

As a jig to which a pouch type battery is mounted:
A rectangular jig body portion having an open top surface;
The jig detachably coupled to an upper part of the jig body part and including a jig top part which forms a vacuum in a space in which the battery is mounted together with the jig body part;
A punching part forming a groove in the battery at an upper portion of the jig top part;
A connection part connecting one side or the other side of the jig body part to a manifold part, a collection tube, or a gas analyzer that accommodates the gas diffused from the battery; And
Charge and discharge terminals provided on one side of the jig body portion, wherein each of the positive and negative terminals of the battery contacts each of the charge and discharge terminals to cause a charge and discharge terminal to charge and discharge the battery. ;
Secondary battery generation gas collection device comprising a. The method of claim 1,
Further comprising a thermocouple capable of measuring the surface temperature of the battery,
The thermocouple is provided under the jig body portion, and one end of the thermocouple may be exposed on the lower surface of the jig body portion to be able to measure the temperature of the surface of the battery and be in contact with the lower surface of the battery. Battery generated gas collection device. The method of claim 2,
A thermocouple support spring is provided below the thermocouple, and one end of the thermocouple may be in contact with the lower surface of the battery by the thermocouple support spring. The method of claim 1,
An opening / closing valve connected to the connection part to open or close a connection to the jig and the manifold part, the collection pipe, or the gas analyzer; And
A pressure gauge for measuring the pressure inside the jig;
Further comprising, a secondary battery generation gas collection device. The method of claim 4, wherein
The pressure gauge is connected between the connecting portion and the on-off valve, secondary battery generation gas collecting device. The method of claim 1,
The inside of the jig is made of a heat insulating material, secondary battery generation gas collection device. The method of claim 1,
Grooves are provided at one end portions protruding into the jig of the charge / discharge terminals so that positive and negative terminals of the battery may be inserted into the grooves, respectively.
A secondary battery generated gas collecting device capable of bringing a terminal of a battery inserted into the groove and a charge / discharge terminal of the jig into close contact with each other through a small screw. Mounting a pouch-type battery in a jig;
Connecting and coupling a manifold part, a collection tube, or a gas analyzer to a connection part of the jig body part;
Forming a vacuum inside the jig;
Connecting a charge / discharge device to a charge / discharge terminal;
Operating a punching portion; And
Collecting gas diffused from the cell;
Including, secondary battery generation gas collection method. The method of claim 8,
And collecting the gas diffused from the battery, collecting the gas diffused from the battery while charging and discharging the battery through the charge and discharge terminals. The method of claim 8,
The collecting of the diffused gas may include at least one of measuring a surface temperature of the battery through a thermocouple and measuring an internal pressure of the jig through a pressure gauge.

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