WO2019083276A1 - Component for measuring pressure change in pouch-type battery, and method for measuring pressure change in pouch-type battery by using same - Google Patents

Abstract

The present invention relates to a component for measuring a pressure change in a pouch-type battery, and a method for measuring a pressure change in a pouch-type battery by using the same and, particularly, to: a component connectable to pressure gauge by being mounted in a pouch-type battery for measuring a pressure change in the pouch-type battery; and a method for measuring a pressure change in a pouch-type battery by using the same.

Description

Part for measurement of pressure change of pouch type battery and measurement method of pressure change of pouch type battery using the same

This application is a continuation-in- Korean Patent Application 10-2017-0140207 and 2018.10.23. Korean Patent Application No. 10-2018-0126758, which is incorporated herein by reference in its entirety, all of which are incorporated herein by reference.

The present invention relates to a component for measuring the pressure change of a pouch-type battery, and a method of measuring a pressure change of the pouch-type battery using the same. More specifically, the present invention relates to a pouch- Lt; / RTI >

Generally, in order to measure a pressure change of a battery, a battery is put in a box of a certain size so that the inside of the box is evacuated, then the pouch surface of the battery is pierced to check the pressure change and the internal gas is collected and measured. This method is a method of collecting the internal gas in a vacuum state, so that all of the dissolved gas is also vaporized, so that it is difficult to know the pressure change inside the battery. As the inside of the box is in a vacuum state, There is a problem.

As a method different from the prior art, parts for measurement of pressure change of the pouch-shaped battery are mounted in the initial cell assembly process of the pouch type battery, and evaluation of characteristics of the battery cell such as life, It is required to develop a method that can measure the pressure change inside the battery cell while progressing, and it is required to develop a method of measuring the pressure change and collecting samples for gas analysis.

Parts for measuring the pressure change of the pouch-type battery according to the present invention include:

A tube-shaped connection pipe positioned above the casing of the pouch type battery and being a passage through which the pouch type battery and the pressure gauge can be directly or indirectly connected;

A first fixing part of a tubular shape connected to a lower end of the connection pipe toward the pouch type battery and positioned on a casing of the pouch type battery, the upper end of the first fixing part being closed, The first fixing part having an opening and a lower end of the first fixing part opened;

And a second fixing part connected to the first fixing part and positioned inside the pouch-shaped battery under the casing of the pouch type battery, wherein the upper end of the second fixing part is clogged, The second fixing portion having a shape in which a connected portion is opened and a lower end portion of the second fixing portion is opened; And

A third fixing part having a shape that surrounds an upper end and a side surface of the first fixing part, the upper surface of the third fixing part includes the third fixing part including an opening through which the connection pipe can pass,

Wherein a side surface of the inner surface of the third fixing part can be fixedly coupled to a side surface of the outer surface of the first fixing part and a lower end of the third fixing part can be fixed to the side surface of the second fixing part, It is possible to contact the stationary station.

Further, in the component for measuring the pressure change of the pouch-type battery according to the present invention, the connection pipe, the first fixing portion, and the second fixing portion may be integrally formed.

The component for measuring the pressure change of the pouch-type battery according to the present invention may further include a valve coupled to an upper end of the connection pipe toward the pressure gauge, and capable of controlling opening and closing of the connection pipe.

In addition, a part for measuring the pressure change of the pouch-type battery according to the present invention is characterized in that the part for measuring the pressure change of the pouch-type battery can be mounted on the casing of the pouch- have.

The parts for measuring the pressure change of the pouch-type battery according to the present invention include:

A first sealing member capable of being mounted on the inner surface of the third fixing part and being resilient; And

Further comprising a second sealing member that is mountable on the upper end of the second fixing portion and is resilient,

When the third fixing part is coupled to the first fixing part, the first sealing member and the second sealing member can be brought into close contact with each other with the casing of the pouch type battery interposed therebetween.

Further, in the component for measuring the pressure change of the pouch-shaped battery according to the present invention, the first sealing member may conform to the shape of the horizontal section of the inner surface of the third fixing part.

Also, in the component for measuring the pressure change of the pouch-type battery according to the present invention, the shape of the second sealing member may be the same as the shape of the first sealing member.

Further, in the component for measuring the pressure change of the pouch-shaped battery according to the present invention, the size of the horizontal section of the first fixing section is larger than that of the horizontal section of the connecting section, May be larger than the horizontal cross-sectional dimension of the first fixing part.

In the component for measuring the pressure change of the pouch-type battery according to the present invention, each of the connector, the first fixing portion, and the second fixing portion includes plastic, and the third fixing portion is made of plastic or metal Wherein the first sealing member and the second sealing member may comprise rubber or latex.

The connecting pipe, the first fixing part, and the second fixing part may be made of polyethylene (PE), polypropylene (PP), Teflon (PP) (PE), polypropylene (PP), Teflon, Teflon, and PEEK, and the third fixing portion may include at least one member selected from the group consisting of stainless steel (SUS), aluminum (Al), polyethylene (PE) And a peak (PEEK), wherein the first sealing member and the second sealing member are at least one member selected from the group consisting of rubber, latex, polybutadiene rubber (BR), nitrile butadiene rubber nitrile butadiene rubber (NBR), ethylene-propylene rubber (EPM, EPDM), and silicone rubber (VMQ).

Also, the pouch type battery according to the present invention is equipped with a component for measuring the pressure change of the pouch type battery, wherein the pouch type battery has an opening in the pouch case, and the first fixing part may be positioned through the opening have.

Further, the present invention provides a method for measuring a pressure change of gas generated in a pouch-shaped battery,

A. mounting a component for measuring the pressure change of the pouch-shaped battery according to any one of claims 1 to 5 on the casing of the pouch-shaped battery;

B. Pouring an electrolyte solution into the pouch-shaped battery, integrally forming the upper and lower edges of the casing of the pouch-shaped battery by thermally welding the pouch-shaped battery, activating the pouch-shaped battery, ; And

C. In the middle of the step B or after the step B, a pressure gauge may be connected to the connection part of the part for measuring the pressure change of the pouch type battery to measure the pressure change under the desired experimental conditions.

According to the present invention, by mounting the pressure change measurement part of the pouch type battery in the initial cell assembly process of the pouch type battery, the characteristics of the battery cell such as lifetime and storage are evaluated from the initial stage of forming the battery cell, It is possible to measure the internal pressure change and also to collect the sample for the gas analysis simultaneously with the measurement of the pressure change.

FIG. 1 shows a case where a part for measuring a pressure change of a pouch-shaped battery according to an embodiment of the present invention is mounted on a pouch-shaped battery.

FIGS. 2 and 3 are a perspective view and a front view of a component for measuring a pressure change of the pouch-shaped battery of FIG. 1;

Fig. 4 is an exemplary photograph of a case where a rubber pad is used as a sealing member in a component for measuring the pressure change of the pouch-shaped battery of Fig. 1;

Parts for measuring the pressure change of the pouch-type battery according to the present invention include:

A tube-shaped connection pipe positioned above the casing of the pouch type battery and being a passage through which the pouch type battery and the pressure gauge can be directly or indirectly connected;

A first fixing part of a tubular shape connected to a lower end of the connection pipe toward the pouch type battery and positioned on a casing of the pouch type battery, the upper end of the first fixing part being closed, The first fixing part having an opening and a lower end of the first fixing part opened;

And a second fixing part connected to the first fixing part and positioned inside the pouch-shaped battery under the casing of the pouch type battery, wherein the upper end of the second fixing part is clogged, The second fixing portion having a shape in which a connected portion is opened and a lower end portion of the second fixing portion is opened; And

A third fixing part having a shape that surrounds an upper end and a side surface of the first fixing part, the upper surface of the third fixing part includes the third fixing part including an opening through which the connection pipe can pass,

Wherein a side surface of the inner surface of the third fixing part can be fixedly coupled to a side surface of the outer surface of the first fixing part and a lower end of the third fixing part can be fixed to the side surface of the second fixing part, It is possible to contact the stationary station.

Further, in the component for measuring the pressure change of the pouch-type battery according to the present invention, the connection pipe, the first fixing portion, and the second fixing portion may be integrally formed.

The component for measuring the pressure change of the pouch-type battery according to the present invention may further include a valve coupled to an upper end of the connection pipe toward the pressure gauge, and capable of controlling opening and closing of the connection pipe.

In addition, a part for measuring the pressure change of the pouch-type battery according to the present invention is characterized in that the part for measuring the pressure change of the pouch-type battery can be mounted on the casing of the pouch- have.

The parts for measuring the pressure change of the pouch-type battery according to the present invention include:

A first sealing member capable of being mounted on the inner surface of the third fixing part and being resilient; And

Further comprising a second sealing member that is mountable on the upper end of the second fixing portion and is resilient,

When the third fixing part is coupled to the first fixing part, the first sealing member and the second sealing member can be brought into close contact with each other with the casing of the pouch type battery interposed therebetween.

Further, in the component for measuring the pressure change of the pouch-shaped battery according to the present invention, the first sealing member may conform to the shape of the horizontal section of the inner surface of the third fixing part.

Also, in the component for measuring the pressure change of the pouch-type battery according to the present invention, the shape of the second sealing member may be the same as the shape of the first sealing member.

Further, in the component for measuring the pressure change of the pouch-shaped battery according to the present invention, the size of the horizontal section of the first fixing section is larger than that of the horizontal section of the connecting section, May be larger than the horizontal cross-sectional dimension of the first fixing part.

In the component for measuring the pressure change of the pouch-type battery according to the present invention, each of the connector, the first fixing portion, and the second fixing portion includes plastic, and the third fixing portion is made of plastic or metal Wherein the first sealing member and the second sealing member may comprise rubber or latex.

The connecting pipe, the first fixing part, and the second fixing part may be made of polyethylene (PE), polypropylene (PP), Teflon (PP) (PE), polypropylene (PP), Teflon, Teflon, and PEEK, and the third fixing portion may include at least one member selected from the group consisting of stainless steel (SUS), aluminum (Al), polyethylene (PE) And a peak (PEEK), wherein the first sealing member and the second sealing member are at least one member selected from the group consisting of rubber, latex, polybutadiene rubber (BR), nitrile butadiene rubber nitrile butadiene rubber (NBR), ethylene-propylene rubber (EPM, EPDM), and silicone rubber (VMQ).

Also, the pouch type battery according to the present invention is equipped with a component for measuring the pressure change of the pouch type battery, wherein the pouch type battery has an opening in the pouch case, and the first fixing part may be positioned through the opening have.

Further, the present invention provides a method for measuring a pressure change of gas generated in a pouch-shaped battery,

A. mounting a component for measuring the pressure change of the pouch-shaped battery according to any one of claims 1 to 5 on the casing of the pouch-shaped battery;

B. Pouring an electrolyte solution into the pouch-shaped battery, integrally forming the upper and lower edges of the casing of the pouch-shaped battery by thermally welding the pouch-shaped battery, activating the pouch-shaped battery, ; And

C. In the middle of the step B or after the step B, a pressure gauge may be connected to the connection part of the part for measuring the pressure change of the pouch type battery to measure the pressure change under the desired experimental conditions.

Hereinafter, a component for measuring a pressure change of a pouch-type battery according to an embodiment of the present invention and a method for measuring a pressure change of a pouch-shaped battery using the component will be described in detail. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown may be exaggerated or reduced have.

FIG. 1 shows a case where a component 100 for measuring a pressure change of a pouch-shaped battery according to an embodiment of the present invention is mounted on a pouch-shaped battery 200. 2 and 3 are a perspective view and a front view of the component 100 for pressure change measurement of the pouch-shaped battery of FIG.

First, Fig. 1 shows a component 100 for measurement of pressure change of a pouch-shaped battery mounted in a pouch-shaped battery 200. As shown in Fig. The component 100 for measuring the pressure change of the pouch-shaped battery can be mounted on the exterior member of the pouch-shaped battery 200, for example, from the initial cell assembly process of the pouch-shaped battery 200. 1, a part 100 for measuring the pressure change of the pouch-shaped battery may be mounted on the upper surface of the casing of the pouch-shaped battery 200, In the case where the size of the pouch-shaped battery 200 is small, or when it is difficult to install the component 100 for measuring the pressure change of the pouch-type battery in the initial assembling step of the pouch-shaped battery 200, ) Gas pocket, and so on.

A pressure gauge (not shown) for measuring the pressure change of the pouch-shaped battery may be directly or indirectly connected to the component 100 for measuring the pressure change of the pouch-shaped battery mounted on the casing of the pouch- Conventionally, as a method of inserting a battery into a box and piercing the battery to diffuse gas into the box to collect it, the accuracy of the pressure measurement is lowered. Moreover, since the electrolyte of the battery is vaporized into a box in a vacuum state, There was a problem of lowering. However, in the present invention, by adopting a novel method of mounting the component 100 for measuring the pressure change of the pouch-shaped battery to the casing of the pouch-shaped battery 200, the gas generated from the pouch- So that the pressure of the gas generated in the battery 200 can be accurately measured. Also, by using the component 100 for measuring the pressure change of the pouch-shaped battery, sample collection for analyzing the gas generated in the battery 200 is facilitated.

Fig. 2 shows some components of the component 100 for pressure change measurement of the pouch-shaped battery according to Fig. The component 100 for measuring the pressure change of the pouch-shaped battery includes a connection pipe 110 which is a passage through which the pouch-shaped battery 200 and the pressure gauge can be connected. The connection pipe 110 is located on the casing of the pouch-shaped battery 200 and has a tubular shape having a predetermined length. Accordingly, a tube or tube (not shown) capable of transmitting the gas generated from the pouch-shaped battery 200 to the pressure gauge can be mounted on the connection tube 110. Alternatively, the pressure gauge may be directly connected to the coupling pipe 110. The length of the connecting pipe 110 is set to be as short as possible within a range where the pipe or tube (not shown) capable of transferring the gas to the pressure gauge can be easily attached to the connecting pipe 110 in order to reduce the dead volume. . For example, from 0.1 cm to 5 cm, or from 0.5 cm to 3 cm, and the total height of the component 100 for measuring the pressure change of the pouch-type battery (i.e., the first fixing part 120, The total length including the portion 130 and the connecting portion 130 and the valve 160) may be, for example, 1 cm to 10 cm, or 1.5 cm to 5 cm.

One end of the connection pipe 110 facing the pressure gauge may further include a valve 160 for controlling opening and closing of the connection pipe 110. The valve 160 may be a valve capable of on / off, that is, capable of opening and closing the connection pipe 110, and may be a ball valve, a butterfly valve, a gate valve, a diaphragm valve, Valve. The first fixing part 120 is connected to the other end of the connection pipe 110 facing the pouch-shaped battery 200.

The first fixing part 120 is integrally formed with the connection pipe 110 and is positioned on the casing of the pouch-shaped battery 200. The first fixing part 120 may be, as one embodiment, a tubular shape having a circular horizontal section as shown in Fig. The upper surface of the first fixing part 120 is closed but the part connected to the connection pipe 110 is opened. The size of the horizontal section of the first fixing part 120 may be greater than the size of the horizontal section of the coupling tube 110. The first fixing part 120 is coupled to the third fixing part 140 (see FIG. 3) to prevent the component 100 for measuring the pressure change of the pouch-type battery from being detached from the pouch- have. The third fixing part 140 may be in the form of a cap which covers the upper surface and the side surface of the first fixing part 120 and the connecting pipe 110 is formed on the upper surface of the third fixing part 140 And may include an opening that can be penetrated. The side surface of the outer surface of the first fixing part 120 is in the shape of male thread and the side surface of the inner surface of the third fixing part 140 is in the form of a female screw, Shape and the female thread shape of the third fixing part 140 can be engaged with each other. Alternatively, the female screw shape of the first fixing portion 120 and the male screw shape of the third fixing portion 140 can be engaged with each other while being engaged with each other. Alternatively, protrusions and recesses may be provided on the side surfaces of the outer surface of the first fixing portion 120 and the inner surface of the third fixing portion 140, respectively, so that the protrusions and the recesses may be engaged with each other And the method of coupling the first fixing part 120 and the third fixing part 140 are not limited to those described above, and various modifications and changes are possible.

A connection pipe 110 is integrally formed at an upper side of the first fixing part 120 and a second fixing part 130 is integrally formed at a lower side of the first fixing part 120 . The second fixing part 130 may be, in one embodiment, a tubular shape having a circular horizontal section as shown in Fig. The upper surface of the second fixing portion 130 is closed but the portion connected to the first fixing portion 120 is open. The second fixing part 130 is located under the casing of the pouch type battery 200, that is, inside the pouch type battery 200. An opening is formed in the casing of the pouch-shaped battery 200 so as to substantially conform to the shape of the horizontal section of the first fixing part 120, and then the connection pipe 110, The first fixing part 120 and the second fixing part 130 are integrally formed and attached to the opening of the casing of the pouch type battery 200 so that the connection pipe 110 and the first fixing part 120 The second fixing part 130 is located below the casing of the pouch type battery 200 (that is, below the pouch type battery 200) (The inner side of the frame). The size of the horizontal section of the second fixing part 130 may be larger than the size of the horizontal section of the first fixing part 120. When the third fixing part 140 is coupled to the first fixing part 120, the lower end of the third fixing part 140 is fixed to the second fixing part 130 by the outer covering material of the pouch- It is possible to prevent the component 100 for measuring the pressure change of the pouch-shaped battery from being detached from the pouch-shaped battery 200.

The inner surface of the third fixing part 140 may have a shape such as a pad shape (see FIG. 4), a ring shape The first sealing member 150a having the elasticity of the first sealing member 150a can be mounted. A second sealing member 150b having the same or similar shape as that of the first sealing member 150a and having elasticity can be mounted on the upper surface of the second fixing portion 130, The first sealing member 150a and the second sealing member 150b are connected to the exterior member of the pouch type battery 200 when the sealing member 140 is coupled to the first fixing member 120 and the second fixing member 130, So that the gas generated in the pouch-shaped battery 200 can be prevented from leaking to the outside. Also, it is possible to prevent the casing of the pouch-shaped battery 200 from being torn due to the friction with the third fixing part 140 or the second fixing part 130. [

The connecting pipe 110, the first fixing part 120 and the second fixing part 130 are respectively made of a plastic material so as not to be short-circuited to the electrode surface of the pouch- , And the like, and may be at least one member selected from the group consisting of plastics such as polyethylene (PE), polypropylene (PP), Teflon, and PEEK. Since the material of the third fixing part 140 is located outside the pouch-shaped battery 200, it may be made of plastic or metal. For example, at least one of metals such as stainless steel (SUS) and aluminum (Al) and plastics such as polyethylene (PE), polypropylene (PP), Teflon, and PEEK have. The materials of the first sealing member 150a and the second sealing member 150b may be made of a material having elasticity such as rubber, latex or the like and not dissolving in the electrolytic solution component. For example, rubber, latex, polybutadiene rubber (BR), nitrile butadiene rubber (NBR), ethylene-propylene rubber (EPM), silicone rubber (VMQ) ≪ / RTI >

 FIG. 3 is a perspective view illustrating a part 100 of a pouch-type battery according to the present invention, in which the third fixing part 140 is coupled to the first fixing part 120 and the second fixing part 130 Respectively. 3, when the component 100 for measuring the pressure change of the pouch-type battery is mounted on the pouch-type battery 200 as shown in FIG. 1, the pouch- The outer casing of the pouch-shaped battery 200 may be positioned between the lower end of the first fixing part 130 and the upper surface of the second fixing part 130.

FIG. 4 shows an exemplary photograph of a rubber pad used as the first and second sealing members 150a and 150b in the component for measuring the pressure change of the pouch-shaped battery of FIG.

Hereinafter, a method of measuring a pressure change of a gas generated in the pouch-shaped battery 200 using the component 100 for measuring the pressure change of the pouch-shaped battery according to an embodiment of the present invention will be described.

First, a component 100 for measuring the pressure change of the pouch-shaped battery is attached to the casing of the pouch-shaped battery 200 (step 1). 1, a part 100 for measuring the pressure change of the pouch-shaped battery may be mounted on the upper surface of the casing of the pouch-shaped battery 200, When the size of the pouch type battery 200 is small or when it is difficult to install the component 100 for measuring the pressure change of the pouch type battery in the initial assembly stage of the pouch type battery 200, That is, the position of the component 100 for measuring the pressure change of the pouch-shaped battery may be located on the upper surface of the pouch-shaped battery 200, but is not limited to that shown in FIG. 1, And it can be installed in the gas pocket of the battery.

Then, an electrolyte is injected into the open portion of the gas pocket of the pouch-shaped battery 200 equipped with the component 100 for measuring the pressure change of the pouch-shaped battery, The pouch-shaped battery 200 having the desired characteristics is manufactured (Step 2). In addition, when the pouch-shaped battery is driven, the pouch- And wait for a predetermined time to wet the electrolyte solution. Then, a voltage is slowly applied to form a passage through which lithium (Li) ions are transferred from the anode to the cathode. In summary, in step 2, a pouch-shaped battery 200 is manufactured in which a component 100 for pressure change measurement of a pouch-shaped battery is mounted by a conventional method of manufacturing a pouch-shaped battery.

In the middle of step 2 or after step 2, a pressure gauge is connected to the connection part 110 of the part 100 for measurement of the pressure change of the pouch type battery to measure the pressure change under the desired experimental conditions (step 3). That is, not only the gas generated inside the pouch-shaped battery 200 after the activation of the pouch-shaped battery 200 in Step 2 is collected through the component 100 for measuring the pressure change to measure the pressure change , During the activation of the pouch-shaped battery 200 in step 2, the gas generated during activation of the pouch-shaped battery 200 can be captured through the component 100 for pressure change measurement to measure the pressure change. The desired experimental conditions are, for example, 45 ° C, 60 ° C and 85 ° C in a state where the SOC (state of charge) is 100%.

Example

First, Table 1 shows the change in the pressure of the pouch-shaped battery 200 using the component 100 for measuring the pressure change of the pouch-shaped battery according to FIG. 1 at a temperature of 60 占 폚 and a state of 4.25 V SOC 100% And the total internal pressure in the cell measured during the storage period is calculated.

In Table 1, the gas (CO, CO ₂ , and other gas) generated in the battery is measured using the component 100 for measuring the pressure change of the pouch-type battery. In the case of the vapor pressure of the electrolyte, The vapor pressure was measured by diffusing the electrolyte of the same composition used in the battery in a certain space similar to the conventional technique, and then the values were summed to calculate the total internal pressure in the cell.

As a comparative example, cells of the same sample were placed in a jig and diffused into a diffusion space as described above in the prior art for measurement of pressure change of a pouch-type battery, and pressure change was measured by a pressure sensor under the same conditions. The total internal pressure was about 1.5 bar.

The following Table 2 shows the results of measurement of the pressure change of the pouch-shaped battery 200 using the component 100 for measuring the pressure change of the pouch- The total internal pressure value and the total internal pressure value when the pressure change of the pouch-shaped battery 200 is measured according to the method of the comparative example under the same conditions.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. In addition, the scope of the present invention is indicated by the following claims rather than the above detailed description. Also, all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

[Description of Symbols]

100: Parts for measurement of pressure change of pouch type battery

110:

120: first fixing unit

130: second fixing unit

140: third fixing unit

150a: first sealing member

150b: second sealing member

160: Valve

200: Pouch type battery

Claims (12)

1. 1. A component for measuring a pressure change of a pouch-type battery, comprising:

   A tube-shaped connection pipe positioned above the casing of the pouch type battery and being a passage through which the pouch type battery and the pressure gauge can be directly or indirectly connected;

   A first fixing part of a tubular shape connected to a lower end of the connection pipe toward the pouch type battery and positioned on a casing of the pouch type battery, the upper end of the first fixing part being closed, The first fixing part having an opening and a lower end of the first fixing part opened;

   And a second fixing part connected to the first fixing part and disposed inside the pouch-shaped battery under the casing of the pouch type battery, wherein the upper end of the second fixing part is closed but connected to the first fixing part The second fixing part having a shape in which a part is opened and a lower end of the second fixing part is opened; And

   A third fixing part having a shape that surrounds an upper end and a side surface of the first fixing part, the upper surface of the third fixing part includes the third fixing part including an opening through which the connection pipe can pass,

   Wherein a side surface of the inner surface of the third fixing part can be fixedly coupled to a side surface of the outer surface of the first fixing part and a lower end of the third fixing part can be fixed to the side surface of the second fixing part, Part for measuring the pressure change of a pouch type battery which can contact the fixed part.
2. The method according to claim 1,

   Wherein the connection pipe, the first fixing portion, and the second fixing portion are integrally formed.
3. The method according to claim 1,

   Further comprising: a valve coupled to an upper end portion of the connection pipe facing the pressure gauge, the valve being capable of controlling the opening and closing of the connection pipe.
4. The method according to claim 1,

   The part for measuring the pressure change of the pouch-type battery can be mounted on the casing of the pouch-type battery at the initial stage of the manufacture of the pouch-type battery.
5. The method of claim 1,

   A first sealing member capable of being mounted on the inner surface of the third fixing part and being resilient; And

   Further comprising a second sealing member that is mountable on the upper end of the second fixing portion and is resilient,

   Wherein the first sealing member and the second sealing member are brought into close contact with each other with the exterior member of the pouch type battery interposed therebetween when the third fixing member is coupled to the first fixing member. part.
6. 6. The method of claim 5,

   And the first sealing member coincides with the shape of the horizontal cross section of the inner surface of the third fixing part.
7. The method according to claim 6,

   Wherein the shape of the second sealing member is the same as the shape of the first sealing member.
8. The method according to claim 1,

   Wherein the size of the horizontal section of the first fixing section is larger than the size of the horizontal section of the connecting section and the size of the horizontal section of the second fixing section is larger than that of the horizontal section of the first fixing section, Parts for measurement.
9. The method according to claim 1,

   Each of the connector, the first fixing portion, and the second fixing portion includes plastic,

   Wherein the third fixing portion includes plastic or metal,

   Wherein the first sealing member and the second sealing member comprise rubber or latex.
10. 10. The method of claim 9,

    Wherein each of the connector, the first fixing portion and the second fixing portion includes at least one member selected from the group consisting of polyethylene (PE), polypropylene (PP), Teflon, and PEEK,

    Wherein the third fixing portion includes at least one member selected from the group consisting of stainless steel (SUS), aluminum (Al), polyethylene (PE), polypropylene (PP), Teflon, and PEEK,

    The first sealing member and the second sealing member may be formed of rubber, latex, polybutadiene rubber (BR), nitrile butadiene rubber (NBR), ethylene-propylene rubber (EPM, EPDM), and silicone rubber (VMQ). ≪ Desc / Clms Page number 20 >
11. 11. A pouch-type battery having parts for measuring a pressure change of the pouch-type battery according to any one of claims 1 to 10, characterized in that an opening is provided in the pouch exterior material, and the first fixing part penetrates through the opening A pouch type battery.
12. A method for measuring a pressure change of gas generated inside a pouch-shaped battery according to claim 11, comprising:

    A. mounting a component for measurement of pressure change in the pouch-shaped battery according to any one of claims 1 to 10 to a casing of the pouch-shaped battery;

    B. Pouring an electrolyte solution into the pouch-shaped battery, integrally forming the upper and lower edges of the casing of the pouch-shaped battery by thermally welding the pouch-shaped battery, activating the pouch-shaped battery, ; And

    C. In the middle of step B or after step B, a pressure gauge is connected to the connecting part of the part for measuring the pressure change of the pouch type battery to measure the pressure change under the desired experimental conditions. .

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