KR20190125921A - Apparatus for collecting inner gas in secondary electric cell and method thereof - Google Patents

Abstract

The present invention relates to an apparatus for collecting inner gas in a secondary electric cell and a method thereof and, more specifically, provides an apparatus for collecting inner gas in a secondary electric cell and a method thereof, wherein stability and hermeticity can be more reinforced, and the apparatus can be automated.

Description

Secondary battery generated gas collection device and collection method {APPARATUS FOR COLLECTING INNER GAS IN SECONDARY ELECTRIC CELL AND METHOD THEREOF}

This application is 2018.04.30. Claiming the benefit of priority based on Korean Patent Application No. 10-2018-0049993 filed, all the contents disclosed in the literature of that Korean patent application are incorporated as part of this specification.

The present invention relates to a secondary battery generated gas collection device and a collection method, and more particularly, to a secondary battery generated gas collection device and a collection method that is more stable, airtight, and can be implemented automatically.

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.

In addition, lithium secondary batteries degenerate as a large amount of gas is generated by the decomposition of the electrolyte with repeated charge and discharge progress, this aspect is different depending on the design and use form of the battery. Therefore, it is essential to analyze the gas generated inside the battery and to infer the degradation mechanism of the battery during the development of the battery.

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.

To this end, it is important to develop a technology for collecting gas generated inside a battery. In the conventional gas collecting device, since the jig sealing method is an artificial screw fastening method, there is a difficulty in reducing the reproducibility of the analysis result because the internal pressure variation is not constant.

In addition, in the case of medium and large-sized batteries for automobiles, when the capacity of the battery is tens of Ah or more, outside air flows into the battery holes generated by the punching needles, or when the punching needles penetrate the electrodes in the battery, there is a danger of sudden ignition and explosion of the batteries. .

The present invention has been made to solve the problems and limitations of the prior art described above, and the object of the present invention is to provide a secondary battery generated gas collection device and a collection method that can be more stable, enhanced airtightness, and can be implemented automatically.

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

A jig lower part in which a battery is mounted;

A jig upper part which is detachably coupled to the lower jig and forms together with the jig lower part a jig in which the battery is built;

A punching part provided on an upper part of the jig and forming a groove in the battery; And

A gas collecting part connecting part connecting the gas diffused from the battery to an acceptable gas collecting part at the side of the jig;

An opening / closing air cylinder coupled to an upper surface of the jig and allowing the jig upper portion to reciprocate to be detachable to the lower jig; And

When the jig upper part and the jig lower part are coupled, a sealing air cylinder may be further included to seal the inner space of the jig.

In addition, the secondary battery generating gas collection device according to the present invention further comprises a battery mounting portion on which the battery can be mounted, the battery mounting portion is provided on the upper surface of the lower jig, the position to correspond to the position of the punching portion The step may be formed from the upper surface of the jig lower portion.

In addition, the secondary battery generation gas collection device according to the present invention includes: a vacuum pump connection portion which is provided on the side of the jig lower portion and the vacuum pump can be connected to the jig; And an inert gas injector provided at a side surface of the jig to inject an inert gas into the jig.

In the secondary battery generating gas collection device according to the present invention, the opening and closing air cylinder includes a first cylinder tube and a first piston rod reciprocating in the first cylinder tube, The bottom end may be coupled to an upper surface of the jig upper portion.

Further, in the secondary battery generated gas collection device according to the present invention, the sealing air cylinder includes a second cylinder tube and a second piston rod reciprocating in the second cylinder tube, the device, the first It further comprises a pressing bar coupled to the lowest end of the second piston rod having a shape extending in a direction perpendicular to the direction of movement of the two piston rod, the pressure of the second piston rod is moved downward to press the jig upper portion The pressing bar may be evenly transmitted to the upper jig.

In addition, in the secondary battery generation gas collecting device according to the present invention, the upper surface of the jig upper portion, the jig upper portion and the pressing bar further comprises a spring in contact with each other, the spring is the jig upper portion and the pressing When the bars are in contact with each other may be to be evenly transmitted force to press the upper jig from the pressing bar.

In addition, the secondary battery generating gas collection device according to the present invention: has a shape extending in a direction parallel to the reciprocating direction of the air cylinder for opening and closing and installed in parallel with the air cylinder for opening and closing one end of the upper surface of the jig A jig top opening and closing guide rod fixed to the upper and lower parts; And a bearing to which the jig upper opening and closing guide rod is movable, wherein the jig upper opening and closing guide rod and the bearing are misaligned during the reciprocating movement of the opening and closing air cylinder. It may be to fix the position so as not to.

In addition, in the secondary battery generated gas collection device according to the present invention, the punching portion: a main body reciprocating in the receiving groove of the lower jig; A rod connected to the body; A guide that guides the reciprocating motion of the rod and acts as a stopper to limit the lateral movement of the body; And it may include a punching tip connected to the body.

In addition, in the secondary battery generation gas collecting device according to the present invention, the punching portion may be coupled between the punching head and the jig upper portion, the punching tip is the inside of the jig due to the pressure difference during operation of the vacuum pump It may further include a punching guard (guard) to hold down to go to.

In addition, the secondary battery generating gas collection device according to the present invention, by detecting that the body or the object is in the jig can be added to the safety sensor to prevent the jig upper part to move.

In addition, the method for collecting the gas generated from the secondary battery in the secondary battery generating gas collecting device:

Mounting the battery under a jig;

Moving the upper part of the jig by an opening / closing air cylinder and coupling the lower part of the jig;

Pressing the upper jig by a sealing air cylinder to seal a jig internal space formed between the upper jig and the lower jig;

Forming a vacuum space inside the jig sealed between the top of the jig and the bottom of the jig;

Operating the punching unit; And

The method may include collecting the gas diffused from the battery into a gas collecting unit connected to the jig.

In addition, the method for collecting the gas generated from the secondary battery in the secondary battery generating gas collecting device:

Injecting an inert gas into the jig when the gas diffused from the battery is completed; And

The jig upper portion may be moved by the opening / closing air cylinder to release the coupling between the jig lower portion and the jig upper portion.

According to the present invention, in collecting the gas generated in the secondary battery, it is possible to collect the gas more safely while increasing the reproducibility (that is, the sampling homogeneity) of the analysis result of the collected gas, and to automate the gas collection process. There is an advantage that can be performed efficiently.

In addition, according to the present invention, the punching tip can be accommodated by the receiving groove as well as the movement distance is limited depending on the rigidity of the spring and the length of the spring can be prevented from being damaged by the action of excessive force.

In addition, according to the present invention, a space for accommodating the battery can be formed in the jig lower part and the jig upper part, and the airtightness can be improved while simplifying the manufacturing process of the gas collecting device.

1 is a perspective view of a secondary battery generated gas collecting device according to the present invention.
2, 3, 4, 5a and 5b respectively show the main parts of the secondary battery generated gas collecting device according to FIG.
6 is a block diagram showing a secondary battery generated gas collection method 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 perspective view of a secondary battery generated gas collecting device 1 according to the present invention, and FIGS. 2 to 5b illustrate respective main parts of the secondary battery generated gas collecting device 1 according to the present invention.

1 and 2, the secondary battery generating gas collecting device 1 according to the present invention is connected to the gas collecting pipe connecting portion 140 of the secondary battery generating gas collecting device 1 for gas analysis inside the secondary battery. The gas is collected by the connected gas collecting tube 2, and the gas collected in the gas collecting tube 2 is later delivered to a gas analyzer (not shown) for analysis. Conventionally, a jig and a gas collecting part (manifold) were provided, respectively, and two equipments were used together. However, in the present invention, since the function of the manifold can be performed in the jig, it can be used without a manifold. In other words, the gas collecting tube 2 is directly connected to the jig of the secondary battery generating gas collecting device 1 without a manifold, thereby improving the difficulty of reducing the reproducibility of the analysis result because the gas flow path is blocked by the manifold. In some cases, the present invention is not limited to the above description, and the secondary battery generating gas collecting device 1 may be directly connected to the gas analyzing device.

The gas collecting pipe 2 is connected to a preset position of the secondary battery generating gas collecting device 1, and is connected to the vacuum pump connection unit 150 of the secondary battery generating gas collecting device 1 through a vacuum pump (not shown). After forming the inside of the jig of the secondary battery generated gas collecting device (1) equipped with a secondary battery in a vacuum state, the secondary battery is drilled through a punching unit (not shown) to collect gas from the secondary battery generated gas collecting device (1). Gas is collected by (2).

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.

The secondary battery generating gas collecting device 1 includes an inert gas injecting unit 160 for injecting an inert gas after collecting the secondary battery generating gas. Accordingly, after the secondary battery generation gas is collected, sudden ignition or explosion due to the inflow of the atmosphere into the battery can be prevented. Examples of the inert gas that can be injected through the inert gas injection unit 160 include Ar and N ₂ .

1 and 2, the secondary battery generating gas collecting device 1 according to the present invention is detachably coupled to a jig lower part 110 in which a battery is mounted, and an upper part of the jig lower part 110. The jig upper portion 120, which forms a space in which the battery is mounted together with the jig lower portion 110, connects the gas diffused from the battery to the gas collecting tube 2 that can be accommodated from the side of the jig lower portion 110. The gas collection pipe connection unit 140, the vacuum pump connection unit 150, and the inert gas injection unit 160 are included. The gas collection pipe connection unit 140, the vacuum pump connection unit 150, and the inert gas injection unit 160 may be opened and closed, respectively, and may include, for example, a valve. In addition, the jig upper portion 120 may be provided with a pressure gauge (not shown) that can measure the pressure inside the jig.

In the secondary battery generating gas collection device 1 according to the present invention, the jig lower portion 110 is coupled to the jig upper portion 120, the battery in the inner space of the jig consisting of the jig lower portion 110 and the jig upper portion 120. I can attach it. The batteries mounted on the secondary battery generated gas collecting device 1 include cylindrical batteries, rectangular batteries, pouch-type batteries, and the like. The lower jig 110 may be mounted on an upper surface of the lower support plate 210.

At this time, the width and length of the jig lower portion 110 may be formed to correspond to the width and length of the jig upper portion 120, but the jig lower portion 110 and the jig upper portion 120 in various sizes in consideration of the size of the battery. It can be implemented by adjusting the shape and size of the. Meanwhile, the jig upper part 120 may be made of engineering plastics such as Teflon and PEEK. The lower jig 110 may be made of a metal material such as SUS to secure stability, and the inner surface of the lower jig 110 may be made of engineering plastics such as Teflon and PEEK. It may be done.

Referring to FIG. 2, the jig lower part 110 includes a battery mounting part 111 provided on an upper surface of the jig lower part 110. Battery mounting part 111 can be placed to designate the location of the battery in the jig, through which it is possible to accurately sample the desired portion of the battery. The battery mounting portion 111 has a stepped shape from the upper surface of the jig lower portion 110 so that the battery is seated on the battery mounting portion 111. That is, the upper surface of the battery mounting portion 111 is formed higher than the upper surface of the jig lower portion 110. In some cases, the upper surface of the battery mounting portion 111 may be formed lower than the upper surface of the jig lower portion 110. The battery mounting part 111 is made of Teflon material so that the battery can be insulated from the secondary battery generating gas collecting device 1.

Referring back to FIG. 1, the jig upper portion 120 and the jig lower portion 110 may be coupled and sealed by the opening and closing air cylinder 310 and the sealing air cylinder 320, respectively. Specifically, referring to FIGS. 1 to 4, the upper jig 120 coupled to the opening / closing air cylinder 310 by the opening / closing air cylinder 310 may reciprocate in one direction. For example, it is possible to move up and down (that is, to move up and down). After raising the upper jig 120 coupled to the opening / closing air cylinder 310 by the opening / closing air cylinder 310, the battery is mounted on the battery mounting part 111 of the lower jig 110. Thereafter, when the jig upper portion 120 coupled to the opening and closing air cylinder 310 is lowered by the opening and closing air cylinder 310, the jig upper portion 120 and the jig lower portion 110 are engaged with each other. At this time, when the upper jig 120 is pressed by the air cylinder 320 for sealing, the jig inner space formed by combining the upper jig 120 and the lower jig 110 is sealed.

A circumference of the upper surface of the jig lower portion 110, which is a coupling surface, and a lower surface of the jig upper portion 120 may include an airtight portion (not shown) for maintaining airtightness. For example, the airtight part may be formed of an O-ring made of rubber material, but is not limited thereto. The airtight part having a predetermined thickness may be formed around the lower surface of the jig upper part 120 and the upper surface of the jig lower part 110. It may be.

The opening and closing air cylinder 310 and the sealing air cylinder 320 are respectively coupled to the upper support plate 220. The upper support plate 220 is spaced apart from the lower support plate 210 on which the jig lower part 110 is mounted so that the jig is mounted between the upper support plate 220 and the lower support plate 210. In addition, the opening and closing air cylinder 310 and the sealing air cylinder 320 are respectively coupled to the upper surface of the jig upper portion (120). As described above, by the opening and closing air cylinder 310, the jig upper portion 120 in the space between the upper support plate 220 and the lower support plate 210 reciprocating (for example, the lifting movement), the jig upper portion When the jig door 120 is coupled to the jig lower part 110 and the jig door is closed, the jig door is opened when the jig upper part 120 is released from the jig lower part 110.

The opening / closing air cylinder 310 and the sealing air cylinder 320 are connected to a driving device (not shown), such as an external air cylinder, a hydraulic cylinder, or a driving motor, respectively, so as to reciprocate the jig upper part 120 (eg, For example, lifting movement).

Specifically, FIG. 3 shows the main part of the opening / closing air cylinder 310, and FIG. 4 shows the main part of the sealing air cylinder 320.

Referring to FIG. 3, the opening and closing air cylinder 310 includes a first cylinder tube 312 and a first piston rod 314. The first cylinder tube 312 is coupled to the upper support plate 220, the lowest end of the first piston rod 314 is fixed to the upper surface of the jig upper portion (120). The upper jig 120 fixed to the lowermost end of the first piston rod 314 is connected to the upper jig 120 according to the reciprocating motion (for example, the lifting motion) of the first piston rod 314 of the opening / closing air cylinder 310. The jig is opened and closed while reciprocating (for example, lifting and lowering). Accordingly, the opening and closing of the jig, which has been manually operated in the past, has been changed to automatic operation using the air cylinder 310 for opening and closing to enhance safety and convenience.

3, the secondary battery generating gas collecting device 1 has a shape extending in a direction parallel to the reciprocating direction of the opening and closing air cylinder 310 and installed in parallel with the opening and closing air cylinder 310. The jig upper opening guide rod (330) may be further included. One end of the jig upper opening guide rod 330 is fixed to the upper surface of the jig upper portion 120 of FIG. The upper support plate 220 is provided with a bearing 330a to which the jig upper opening guide rod 330 can move. The jig upper opening guide rod 330 and the bearing 330a serves to fix the position of the jig lower portion 110 and the jig upper portion 120 so that the position of the jig lower portion 110 and the jig upper portion 120 does not change during the reciprocating movement of the air cylinder 310 for opening and closing. do. Thereby, the sealing efficiency of a jig can be improved.

Referring to FIG. 4, the sealing air cylinder 320 includes a second cylinder tube 322, a second piston rod 324, and a pressing bar 325. The second cylinder tube 322 is coupled to the upper support plate 220. The lowest end of the second piston rod 324 is engaged with the pressing bar 325. The lowest end of the second piston rod 324 may be coupled to the pressing bar 325 through a fastening portion (for example, a nut). The pressing bar 325 is a bar having a shape extending in a direction perpendicular to the direction of movement of the second piston rod 324. Accordingly, the pressure of the second piston rod 324 of the hermetic air cylinder 320 is moved downward to press the upper jig 120 to be evenly transmitted to the upper jig 120 through the pressing bar 325, and the jig The upper 120 and the lower jig 110 may be more tightly coupled.

In addition, the upper surface of the jig upper portion 120, the jig upper portion 120 and the pressing bar 325 is provided with the spring 326, the portion in contact with each other. Accordingly, when the jig upper portion 120 and the pressing bar 325 contact each other, the force for pressing the jig upper portion 120 from the pressing bar 325 may be more evenly transmitted.

In such a pressurization method using the air cylinder 320 and the spring 326 according to the present invention can always seal the jig uniformly with the same force (necessary minimum pressure, for example, 40kg / cm ² ).

On the other hand, in the specification of the present invention, the opening and closing air cylinder 310 is provided on the left and right sides of the upper surface of the jig upper portion 120 (two in total), respectively, and the air cylinder 320 for sealing is three each on the left and right sides. Although one embodiment is provided around the opening / closing air cylinder 310 (total six), the present invention is not limited thereto, and the number and position of the opening / closing air cylinder 310 are reciprocated by the jig upper part 120. Various adjustments can be made within one range to allow movement (eg, lifting movement). In addition, the number and position of the air cylinder 320 for sealing may also be variously adjusted within a range such that the upper jig 120 is hermetically coupled to the lower jig 110 by pressing the upper jig 120.

According to the present invention, when providing a space in which the battery is accommodated in the jig upper portion 120 and the jig lower portion 110, it is possible to automate the coupling and disengagement of the jig upper portion 120 and the jig lower portion 110, The upper jig 120 may be more tightly coupled to the lower jig 110. That is, while the manufacturing process of the gas collecting device can be simplified, the airtightness can be improved.

On the other hand, the secondary battery generation gas collecting device 1 may include a safety sensor (not shown) to detect the body or an object when the jig upper portion 120 does not move for the user's safety by covering the body or object. have. The safety sensor may be mounted at or near the height of the upper surface of the jig lower portion 110. For example, the pillar 230 supporting the upper support plate 220 and the lower support plate 210 may be mounted at a portion corresponding to the height of the upper surface of the lower jig 110. For example, the safety sensor may be a heat sensor, a laser sensor, a beam sensor, but the present invention is not limited thereto. The sensor may be applied to the present invention as long as the sensor detects the presence or absence of an obstacle between the pillars 230. .

According to the present invention, the punching portion 130 is provided on the jig upper portion (120). 5A and 5B, specifically, the punching part 130 includes a main body 136 reciprocating in the receiving groove 125 of the jig upper part 120; A rod 132 connected to the main body 136; A punching head 131 connected to the rod 132; 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; It includes a punching tip 139 connected to the body 136.

In addition, the punching unit 130 includes a punching unit guard 130a that may be coupled between the punching head 131 and the jig upper portion 120. For example, as illustrated in FIG. 5B, the punching guard 130a may be coupled between the punching head 131 and the punching housing 133. The punching part guard 130a serves to hold the punching tip 139 so as not to fall into the jig due to the pressure difference when the vacuum pump is operated. Accordingly, it is possible to reduce the risk of fire or explosion caused by the inflow of fresh air by accidentally opening the battery. When the punching portion guard 130a is coupled between the punching head 131 and the jig upper portion 120, the punching portion 131 moves downward (that is, in the direction of the jig upper portion 120). Guard 130a is limited. When the worker wants to form a groove in the battery by pressing the punching head 131, the punching part guard 130a may be removed. The punching portion guard 130a has a shape of, for example, a "C" shape to surround the rod 132 and be inserted between the punching head 131 and the jig upper portion 120 (or the punching portion housing 133). Although it may be possible, the shape of the punching part guard 130a is not limited thereto, and it is sufficient to prevent the punching head 131 from descending toward the jig upper part 120. On the other hand, by pressing the punching head 131, while the rod 132 and the main body 136 is moved, the punching tip 139 ejects the gas while forming a groove in the battery. The punching unit 130 is operated in a one-touch manner (that is, the operator presses the punching head 131 down), so that the punching unit 130 can be punched on top of the battery of the punching unit ( That is, to make a hole).

The punching part 130 may be fixed to the upper part of the jig upper 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 moves for example to move from 1 mm to 5 mm. May be limited but is not limited thereto unless a short circuit occurs in the battery. Thus, the punching tip 139 may move to the maximum by the maximum compression distance of the spring 137 from the guide 134. More specifically, parts of the upper end of the battery other than the terminal are punched out.

According to the present invention, the punching tip 139 may be limited by the movement distance according to the rigidity of the spring and the length of the spring can be prevented from being damaged by the action of excessive force. The diameter of the end of the punching tip 139 may be formed smaller than the thickness of the cover (top cover) of the battery. That is, when the hole is drilled in the battery, the thickness of the punching tip 139 may be, for example, less than the thickness of the battery cover, for example, within 2 mm to prevent short circuit, but the present invention is not limited thereto. It is possible to modify and change according to the type of battery applied to the present invention and various environments in which the present invention is implemented.

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.

On the other hand, the description of the punching unit 130 that operates in the one-touch type corresponds to one embodiment, the present invention is not limited to the above. That is, the rod 132 is made of a screw shape, the portion of the punching unit housing 133 is in contact with the rod 132 has a female screw shape, the punching tip 139 when turning the punching head 131 of the punching unit 130 ) Can be realized by moving the inside of the jig to groove the upper surface of the battery.

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

Referring to FIG. 6, the secondary battery generating gas collection method according to the present invention includes: mounting the battery under a jig (S100); Moving the upper part of the jig by an opening / closing air cylinder and coupling the lower part of the jig (S200);

Pressing the upper jig by a sealing air cylinder to seal a jig inner space formed between the upper jig and the lower jig (S300);

Forming a vacuum space inside the jig sealed between the top of the jig and the bottom of the jig (S400);

Operating the punching unit (S500);

Collecting the gas diffused from the battery to a gas collecting unit connected to the jig (S600);

Injecting an inert gas into the jig when the gas diffused from the battery is completed (S700); And

And moving the upper jig by the opening / closing air cylinder to release the coupling of the lower jig and the upper jig (S800).

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 part 130 is moved by a predetermined distance to form a groove in a portion of the upper end of the battery, for example, except for a terminal; And returning the punching tip 139 of the punching part to its original position.

The above-described embodiment is only 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 obvious that parts easily changed by those skilled in the art are included in the scope of the present invention. .

1: Secondary battery generating gas collection device
2: gas collecting tube
110: jig lower
111: battery compartment
120: upper part of jig
130: punching part
130a: punching part guard
140: gas collection pipe connection
150: vacuum pump connection
160: inert gas injection unit
210: lower support plate
220: upper support plate
230: pillar
310: air cylinder for opening and closing
312: first cylinder tube
314: first piston rod
320: air cylinder for sealing
322: second cylinder tube
324: second piston rod
325: pressing bar
330: jig upper opening and closing guide rod
326: spring
330a: bearing

Claims (12)

A jig lower part in which a battery is mounted;
A jig upper part which is detachably coupled to the lower jig and forms together with the jig lower part a jig in which the battery is built;
A punching part provided on an upper part of the jig and forming a groove in the battery; And
A gas collecting part connecting part provided at a side of the jig and connecting the gas diffused from the battery to an acceptable gas collecting part;
An opening / closing air cylinder coupled to an upper surface of the upper jig and allowing the upper jig to reciprocate to be detachable to the lower jig; And
And a sealed air cylinder for sealing the inner space of the jig when the jig upper part and the jig lower part are coupled to each other. The method of claim 1,
The battery further comprises a battery mounting portion that can be mounted on,
The battery mounting portion is provided on the upper surface of the jig lower portion, is positioned to correspond to the position of the punching portion, the step is formed from the upper surface of the lower jig, secondary battery generating gas collecting device. The method of claim 1,
A vacuum pump connection part provided at a side of the jig and having a vacuum pump connected to the jig; And
And an inert gas injector provided on the side of the jig and capable of injecting an inert gas into the jig. The method of claim 1,
The opening and closing air cylinder includes a first cylinder tube and a first piston rod reciprocating in the first cylinder tube,
The lowest end of the first piston rod is coupled to the upper surface of the jig upper portion, secondary battery generated gas collecting device. The method of claim 2,
The hermetic air cylinder includes a second cylinder tube and a second piston rod reciprocating in the second cylinder tube,
The apparatus further includes a crimping bar having a shape extending in a direction perpendicular to the direction of movement of the second piston rod and coupled to the lowest end of the second piston rod,
The second piston rod is moved downwards and the pressure to press the top of the jig is evenly transmitted to the top of the jig through the pressing bar, secondary battery generating gas collecting device. The method of claim 5,
On the upper surface of the jig portion, the jig upper portion and the pressing bar further comprises a spring in contact with each other,
The springs are secondary battery generating gas collection device to allow the force to press the jig upper portion evenly from the pressing bar when the jig upper portion and the pressing bar is in contact with each other. The method of claim 4, wherein
A jig upper opening / closing guide rod having a shape extending in a direction parallel to the reciprocating direction of the opening / closing air cylinder and installed in parallel with the opening / closing air cylinder and having one end fixed to an upper surface of the jig upper portion; And
The jig upper opening guide rod further comprises a bearing that can move,
The upper and lower jig opening and closing guide rod and the bearing serves to fix the position of the upper and lower parts of the jig during the reciprocating motion of the opening and closing air cylinder, so that the position of the upper and lower parts of the jig is not twisted. . The method of claim 1,
The punching portion:
A main body reciprocating in the receiving groove under the jig;
A rod connected to the body;
A guide that guides the reciprocating motion of the rod and acts as a stopper to limit the lateral movement of the body; And
A secondary battery generating gas collection device comprising a punching tip connected to the main body. The method of claim 8,
The punching part may be coupled between the punching head and the jig upper part, and further includes a punching part guard to hold the punching tip not to fall into the jig due to the pressure difference when the vacuum pump is operated. Secondary battery generating gas collection device. The method of claim 1,
And a safety sensor for detecting that a body or an object is in the jig to prevent the jig from moving upward. In the method for collecting the gas generated from the secondary battery in the secondary battery generating gas collecting device according to any one of claims 2 to 10:
Mounting the battery under a jig;
Moving the upper part of the jig by an opening / closing air cylinder and coupling the lower part of the jig;
Pressing the upper jig by a sealing air cylinder to seal a jig internal space formed between the upper jig and the lower jig;
Forming a vacuum space inside the jig sealed between the top of the jig and the bottom of the jig;
Operating the punching unit; And
And collecting the gas diffused from the battery into a gas collecting unit connected to the jig. The method of claim 11,
Injecting an inert gas into the jig when the gas diffused from the battery is completed; And
And releasing the coupling of the jig lower part and the jig upper part by moving the upper jig by the opening / closing air cylinder.

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