KR102092270B1 - Apparatus and method for detecting leakage of pouch-typed battery cell - Google Patents

Abstract

The present invention relates to a leak detection device for a pouch-type battery cell, the jig having an accommodation space in which the pouch-type battery cell is accommodated; A cover that closes the accommodation space while being coupled to the upper surface of the jig; An air supply member for injecting air into the jig to increase the air pressure in the accommodation space; And an air discharging member for instantaneously discharging the air in the accommodation space through the discharge hole formed in the cover. When the pouch type battery cell has a leak, air injected by the air supply member is included. The pouch-type battery cell is expanded through a leak, and when the pouch-type battery cell is expanded by the operation of the air discharge member, the pouch-type battery cell is adsorbed to the outlet by the flow of air discharged instantaneously. Marks are formed.

Description

Leak detection device and method of pouch type battery cell {APPARATUS AND METHOD FOR DETECTING LEAKAGE OF POUCH-TYPED BATTERY CELL}

The present invention relates to a leak detection device and method for a pouch type battery cell, and more particularly, to a leak detection device and method for a pouch type battery cell that detects leak by an adsorbing mark formed in the battery cell.

In general, a secondary battery refers to a battery that can be charged and discharged, unlike a primary battery that cannot be charged. Such secondary batteries are widely used in the fields of high-tech electronic devices such as phones, notebook computers, and camcorders.

Patent registration number 10-0958649

The secondary battery according to the prior art is divided into a prismatic battery cell and a pouch type battery cell, wherein the pouch type battery cell includes an electrode assembly, a pouch in which the electrode assembly is accommodated with an electrolyte, and heat-sealing the rim of the pouch. Seal.

However, in the pouch type battery cell according to the prior art, leakage occurs in the sealing portion of the pouch, and the leak formed in the pouch is difficult to detect because it is not visually discernable. In order to solve this problem, the leak formed in the pouch-type battery cell is detected by using precision equipment, but there is a problem that a lot of time and money are spent.

The present invention was invented to solve the above problems, and the object according to the present invention is to detect leaks formed in a pouch-type battery cell by using air pressure, and in particular, whether a leak is caused by leaving an adsorbed trace on the pouch of the battery cell. It is to provide a leak detection device and method for a pouch-type battery cell that can be visually detected.

To achieve the above object, a leak detection device for a pouch-shaped battery cell according to the present invention includes a jig in which an accommodation space in which the pouch-type battery cell is accommodated is formed; A cover that closes the accommodation space while being coupled to the upper surface of the jig; An air supply member for injecting air into the jig to increase the air pressure in the accommodation space; And an air discharging member for instantaneously discharging the air in the accommodation space to the outlet formed in the cover. When the pouch-type battery cell has a leak, air injected by the air supply member is included. The pouch-type battery cell is expanded through a leak, and when the pouch-type battery cell is expanded by the operation of the air discharge member, the pouch-type battery cell is adsorbed to the outlet by the flow of air discharged instantaneously. Marks can form.

The air supply member may be connected to an injection hole formed at each corner of the upper surface of the cover to inject air toward each corner of the pouch-shaped battery cell accommodated in the accommodation space.

The air discharge member may be connected to an outlet formed in the center of the upper surface of the cover to generate suction force toward the center of the upper surface of the pouch-shaped battery cell accommodated in the accommodation space.

The cover may be lowered toward the jig or vice versa by a cylinder provided on the top of the jig.

When air is injected into the jig by the air supply member, the exhaust port may be closed by the air exhaust member.

Even if the discharge port is opened by the air discharge member, air may be injected into the jig by the air supply member.

The air discharge member may automatically open the outlet when the pressure in the accommodation space rises above a set value.

The outlet may be formed smaller than the inlet.

The detection method of the leak detection device of the pouch-type battery cell according to the present invention having such a configuration includes the steps of inserting a pouch-type battery cell into the accommodation space of the jig (S10); Sealing the accommodation space by combining a cover on the top surface of the jig (S20); Injecting air into the inlet of the cover to increase the pressure of the receiving space (S30); And when the pressure of the receiving space rises above a set pressure, opening the outlet of the cover momentarily to discharge the air of the receiving space (S40), and in step S30, the pouch type battery cell is leaked. When there is air, the pouch-type battery cell expands as air flows in, and in the step S40, a mark may be formed as the pouch-type battery cell is adsorbed to the outlet with air discharged when the pouch-type battery cell is expanded. .

In the step S30, the air supply member is connected to an injection hole formed in each corner of the upper surface of the cover to inject air toward each corner of the pouch-shaped battery cell accommodated in the accommodation space.

In the step S40, the air discharge member may be connected to an outlet formed in the center of the upper surface of the cover to generate suction power toward the center of the upper surface of the pouch-shaped battery cell accommodated in the accommodation space.

In the step S20, the cover may be lowered toward the jig by a cylinder provided on the top of the jig or vice versa.

When air is injected into the inlet by the air supply member, the outlet may be closed by the air outlet member.

Even if the outlet is opened by the air discharge member, air may be injected into the injection port by the air supply member.

The air discharge member may automatically open the outlet when the pressure in the accommodation space rises above a set value.

The present invention has the following effects.

First: The leak detection device of the pouch type battery cell can easily check whether it is leaked through the adsorption marks formed in the pouch.

Second: In the leak detection device of the pouch type battery cell, the air supply member can prevent the pouch type battery cell from rising due to air pressure by spraying air toward each corner of the pouch type battery cell.

Third: In the leak detection device of the pouch-type battery cell, the air discharge member generates a suction force toward the center of the pouch-type battery cell having the highest expansion force, and thus, it is possible to more clearly form an absorption mark on the pouch-type battery cell.

1A to 1C are perspective views showing a leak detection device of a pouch type battery cell according to the present invention.
Figure 2 is a cross-sectional view of the leak detection device of a pouch type battery cell according to the present invention.
Figure 3 is a flow chart showing a leak detection method of a pouch type battery cell according to the present invention.
4 to 9 is a view showing the working state of the leak detection method of the pouch-type battery cell in the present invention, Figure 4 is a step of inserting a battery cell in the detection device, Figure 5 is a step of sealing the detection device, FIG. 6 is a step of raising the pressure of the detection device, FIG. 7 is a step of instantaneously discharging the pressure in the detection device, FIG. 8 is a view showing a state in which a mark is formed in a battery cell, and FIG. 9 is completed. This diagram shows the state.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and like reference numerals are assigned to similar parts throughout the specification.

The leak detection device 100 of the pouch-type battery cell according to the present invention, as illustrated in FIG. 1, the jig 110 and the jig 110 in which the receiving space 111 in which the pouch-type battery cell 10 is accommodated is formed ) Is coupled to the upper surface of the cover 120 to close the receiving space 111, the air supply member 130 for injecting air into the jig 110 to increase the air pressure in the receiving space 111, and the receiving space ( It includes an air discharge member 140 for discharging the air of 111) instantaneously.

That is, the leak detection device 100 of the pouch type battery cell according to the present invention is air injected into the accommodation space 111 by the air supply member 130 when there is a leak in the pouch type battery cell 10 Expands the pouch-shaped battery cell 10 as it flows into the leak. In this state, when the air injected into the accommodation space 111 is instantaneously discharged by the air discharge member 140, the pouch-shaped battery cell 10 is discharged by the air flow to the air discharge part of the air discharge member 140. The adsorption marks are formed while being adsorbed, and leaks are visually detected through the adsorption marks formed in the pouch type battery cell 10.

Hereinafter, the configuration, operation, and effects of the leak detection device 100 of the pouch-type battery cell according to the present invention will be described in more detail.

The jig 110 is for receiving the pouch-shaped battery cell 10, as shown in Figures 1a to 1c, at least one receiving space 111 for receiving the pouch-shaped battery cell 10 in the center of the upper surface To form.

Referring to Figure 1b, the receiving space 111 has the same shape as the pouch-type battery cell 10, and the pouch-type battery so that the air pressure in the receiving space 111 smoothly presses the sealing portion of the pouch-type battery cell 10 It is formed larger than the cell 10.

On the other hand, the leak detection device 100 of the pouch type battery cell according to the present invention includes a guide member 150 that guides the jig 110 to be always located in a set space, and the guide member 150 is a jig 110 The bottom piece 151 is raised, and the guide pieces 152 are respectively provided on both sides of the top surface of the bottom piece 151 to support both sides of the jig 110 so that the jig 110 moves only in the front-rear direction. ), The bottom piece 151 is provided on the rear of the upper surface and includes a support piece 153 for supporting the front end of the jig 110, a pair of guide pieces 152 and support pieces 153 are connected It forms a space that is set in a c-shape.

That is, when the guide member 150 is pushed rearward with the pouch-shaped battery cell 10 placed on the bottom piece 151, the pouch-shaped battery cell 10 is between the guide piece 152 and the support piece 153. It is inserted into the setting space of, and even if an inexperienced worker works, the pouch type battery cell 10 can always be located in the set space.

Here, a plurality of accommodation spaces 111 may be formed on the top surface of the jig 110, and thus, a plurality of pouch-shaped battery cells 10 may be simultaneously tested for detection, thereby improving work efficiency.

Cover 120 is intended to close the receiving space 111, as shown in Figures 1a to 1c, it is provided to be movable in the vertical direction on the top of the jig 110. In more detail, the cover 120 is provided to be movable in the vertical direction on the upper portion of the guide member 150 where the jig 110 is located, and the receiving space 111 while the bottom surface is in close contact with the upper surface of the jig 110. ) Is sealed.

And in the cover 120, as shown in FIG. 2, an inlet 122 is formed that is connected to the air supply member 130 at each corner of the upper surface, the outlet is connected to the air outlet member 140 in the center of the upper surface 123 is formed.

Here, the cover 120 may move the cover 120 vertically by descending toward the jig 110 or vice versa by the cylinder 121 provided on the top of the jig 110.

The air supply member 130, as shown in Figure 2, is to increase the air pressure by injecting air into the enclosed receiving space 111. The air supply member 130 is connected to the inlet 122 formed at each corner of the upper surface of the cover 120 and injects air into the accommodation space 111 through the cover 120 to increase the air pressure in the accommodation space 111. Order. Here, when the air pressure in the receiving space 111 rises, the air pressure presses the pouch-shaped battery cell 10 seated in the receiving space 111, at this time to the sealing portion 11 of the pouch-shaped battery cell 10 If there is no leak, the pouch-shaped battery cell 10 maintains its original shape (see FIG. 6). If there is a leak in the sealing portion 11 of the pouch-shaped battery cell 10, air flows through the leak portion, and the pouch-shaped battery cell 10 expands (see FIG. 7).

Here, the air supply member 130 sprays air toward each corner of the pouch-shaped battery cell 10 accommodated in the accommodation space 111 to prevent the pouch-shaped battery cell 10 from rising due to air pressure. That is, the pouch-shaped battery cell 10 rises in an unexpanded state and is adsorbed to the outlet 123 to prevent the formation of an adsorbing trace.

On the other hand, when the air supply member 130 is operated to inject air into the receiving space 111, the air discharge member 140 is stopped while the outlet 123 is closed. That is, when the air supply member 130 is operated to prevent the air injected into the accommodation space 1110 from being discharged to the outside through the outlet 123 and the air discharge member 140, the air discharge member 140 stops. .

As described above, the air supply member 130 increases the air pressure in the accommodation space 111, and when there is a leak in the pouch type battery cell 10, air flows through the leak to expand the pouch type battery cell 10. Order.

The air discharge member 140 is for instantaneously discharging the air injected into the receiving space, and is connected to the outlet 123 formed at the center of the upper surface of the cover 120 to discharge the air pressure of the receiving space 111 to the outside. , Generates suction force toward the center of the upper surface of the pouch-shaped battery cell 10 accommodated in the accommodation space 111 through this air discharge force.

On the other hand, when the pouch-shaped battery cell 10 expands, the center expands convexly like a balloon. At this time, the center of the upper surface of the expanded pouch-shaped battery cell 10 and the outlet 123 of the cover 120 come close together. If the suction force is generated in the outlet 123 in this state, it can be adsorbed to the pouch-type battery cell 10 and the outlet 123.

That is, the air discharge member 140 instantaneously discharges the air pressure of the receiving space 111 through the outlet 123 of the cover 120 to generate suction power, wherein the pouch type battery cell 10 has not expanded In the case, the distance between the outlet 123 and the pouch type battery cell 10 is far, and the air supply member 130 prevents the rise by spraying air toward each end of the pouch type battery cell 10, thereby preventing the pouch type battery cell 10 ) Is not adsorbed to the outlet 123.

On the other hand, when the pouch-shaped battery cell 10 is expanded, the distance between the outlet 123 and the pouch-shaped battery cell 10 is close, and in particular, the air supply member 130 is configured to open each end of the pouch-shaped battery cell 10. Even by suppressing the rise of the pouch-shaped battery cell 10 by spraying air toward the pouch-shaped battery cell 10 is adsorbed to the outlet 123 by the suction force of the outlet 123.

Here, the air discharge member 140 continues to generate suction power for a predetermined time even when the pouch-type battery cell 10 is adsorbed to the discharge port 123, and the center of the pouch of the pouch-type battery cell 10 is discharged ( 123) to form an adsorbing trace.

On the other hand, the air discharge member 140 automatically opens the outlet 123 when the pressure in the receiving space 111 rises above a set value. That is, the air pressure in the receiving space 111 is increased to a set value or higher to generate a suction force that can be adsorbed by the pouch-type battery cell 10 to the outlet 123, and thus the pouch-type battery cell expanded due to weak suction power ( 10) It is possible to prevent the occurrence of an error that is not adsorbed to the outlet 123.

The outlet 123 is formed smaller than the inlet 122, and thus, the air injected through the plurality of inlets 122 is discharged through one outlet 123, and in particular, the outlet 123 smaller than the inlet 122 Since it is discharged through, suction power can be greatly increased.

Therefore, the leak detection device 100 of the pouch-type battery cell according to the present invention can easily check the defects of the pouch-type battery cell 10 visually according to the adsorption marks formed on the pouch-type battery cell 10 (FIG. 9) Reference).

The detection method using the leak detection device of the pouch type battery cell having such a configuration will be described once again.

The leak detection method of the pouch-type battery cell according to the present invention, as shown in Figure 3, inserting the pouch-shaped battery cell 10 into the receiving space 111 of the jig 110 (S10), jig ( The step of sealing the receiving space 111 by combining the cover 120 on the upper surface of 110 (S20), by injecting air into the inlet 122 of the cover 120 to increase the air pressure in the receiving space 111 Step (S30), and when the air pressure in the receiving space 111 rises above the set pressure, the step of opening the outlet 123 of the cover 120 momentarily to discharge the air in the receiving space 111 (S40) It includes.

Here, in the leak detection method of the pouch-type battery cell according to the present invention, in the step S30, when there is a leak in the pouch-type battery cell 10, air flows into the leak portion and the pouch-type battery cell 10 convexly expands. In step S40, an adsorbent mark is formed as the pouch-type battery cell 10 that is convexly expanded is adsorbed to the outlet 123 together with the air that is discharged.

 The leak detection method of the pouch type battery cell according to the present invention will be described in more detail.

Step S10, as shown in Figure 4, inserts the pouch-shaped battery cell 10 in the receiving space 111 of the jig 110. At this time, a receiving groove in which the pouch-type battery cell 10 is seated may be further formed on the bottom surface of the receiving space 111, and as the pouch-type battery cell 10 is seated in the seating groove, the pouch-type battery cell is always in the same position. (10) can be inserted.

Then, the jig 110 into which the pouch-shaped battery cell 10 is inserted is placed on the bottom piece 151 of the guide member 150 and then pushed backwards to be positioned between the guide piece 152 and the support piece 153. Order. At this time, if the jig 110 is located between the guide piece 152 and the support piece 153, a fixing device (not shown) for fixing the jig 110 to be stationary may be further provided, which is a jig during detection. This is to prevent flow such as shaking of the 110 and to perform an accurate detection operation.

When the fixing of the position of the jig 110 is completed, the step (S20) of closing the receiving space 111 is accommodated.

In step S20, as shown in FIG. 5, the cover 120 is lowered through the cylinder 121 to adhere to the upper surface of the jig 111, and at this time, the upper portion of the receiving space 111 is closed and the receiving space 111 ) Is closed, that is, in a vacuum state, and in this state, the step S30 of injecting air into the receiving space 111 is performed.

Step S30, as shown in Figure 6, by operating the air supply member 130 to forcibly inject air into the receiving space 111 through the inlet 122 of the cover 120. Here, the air supply member 130 is sprayed toward each corner of the pouch-shaped battery cell 10 accommodated in the accommodation space 111 to prevent the pouch-shaped battery cell 10 from rising.

When air is injected into the receiving space as described above, since the receiving space 111 is in a vacuum state, the air pressure gradually increases and the entire pouch type battery cell 10 accommodated in the receiving space 111 is pressed with strong pressure.

At this time, as shown in FIG. 7, when there is a leak in the pouch type battery cell 10, air is introduced into the pouch type battery cell 10 through the leak and convexly expands, and the pouch type battery cell 10 ), The upper center of the top surface is positioned close to the outlet 123 of the cover 120.

When the air pressure in the receiving space 111 rises above the set value, step S40 is performed, and in step S40, the air outlet member 140 is operated to instantly open the outlet 123 of the cover 120 and accommodate it. The air in the space 111 is instantaneously discharged through the outlet 123 to generate suction power. At this time, when the pouch type battery cell 10 is not expanded, as shown in FIG. 6, only the air in the accommodation space 111 is discharged through the outlet 123.

On the other hand, when the pouch type battery cell 10 is convexly expanded, as shown in FIGS. 7 and 9, the convex pouch type battery cell 10 is adsorbed to the outlet 123 by suction force, and the pouch type battery As the adsorption part of the cell 10 flows into the discharge port 123, an adsorption mark is formed.

And when all the air in the receiving space 111 is discharged through the air discharge member 140, the operation of the air discharge member 140 and the air supply member 130 is stopped, and the cover 120 through the cylinder 121 Is raised to its original position to complete the detection operation. At this time, a defect is judged by whether or not an adsorbing mark remains in the pouch-shaped battery cell 10 in the accommodation space 111.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and it should be interpreted that all changes or modified forms derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention. do.

100: leak detection device of a pouch type battery cell
110: jig
111: accommodation space
120: cover
121: outlet
130: air supply member
140: air exhaust member

Claims (15)

In the leak detection device of the pouch-type battery cell,
A jig in which an accommodating space in which the pouch-type battery cell is accommodated is formed;
A cover closing the receiving space while being coupled to the upper surface of the jig;
An air supply member for injecting air into the jig to increase air pressure in the accommodation space; And
Includes; an air discharge member for instantaneously discharging the air in the receiving space to the outlet formed in the center of the upper surface of the cover,
When there is a leak in the pouch type battery cell, air injected by the air supply member expands the pouch type battery cell through the leak,
When the pouch-shaped battery cell is expanded by the operation of the air discharge member, the pouch-type battery cell is characterized in that the pouch-shaped battery cell is adsorbed to the outlet by the flow of air that is discharged instantaneously. Leak detection device. The method according to claim 1,
The air supply member is connected to the inlet formed in each corner of the upper surface of the cover leak detection device for a pouch-shaped battery cell, characterized in that for injecting air toward each corner of the pouch-shaped battery cell accommodated in the accommodation space. The method according to claim 2,
The air discharge member is connected to the outlet formed in the center of the upper surface of the cover leak detection device for a pouch-shaped battery cell, characterized in that for generating a suction force toward the center of the upper surface of the pouch-shaped battery cell accommodated in the accommodation space. The method according to claim 1,
The cover is a leak detection device for a pouch-type battery cell, characterized in that the cylinder is provided on the top of the jig is lowered toward the jig, or vice versa. The method according to claim 1,
A leak detection device for a pouch type battery cell, characterized in that when the air is injected into the jig by the air supply member, the outlet is closed by the air exhaust member. The method according to claim 1,
A leak detection device for a pouch type battery cell, characterized in that air is injected into the jig by the air supply member even if the outlet is opened by the air exhaust member. The method according to claim 1,
The air discharge member is a leak detection device for a pouch type battery cell, characterized in that automatically opens the outlet when the pressure in the receiving space rises above a set value. The method according to claim 2,
Leak detection device of a pouch type battery cell, characterized in that the outlet is formed smaller than the inlet. In the leak detection method of the pouch type battery cell,
Inserting a pouch-shaped battery cell into the accommodation space of the jig (S10);
Sealing the accommodation space by coupling a cover to the top surface of the jig (S20);
Operating the air supply member 130 to inject air into the inlet of the cover to increase the air pressure in the accommodation space (S30); And
When the pressure of the receiving space rises above the set pressure, the air discharge member 140 operates to open the discharge hole formed at the center of the upper surface of the cover and instantaneously discharge air of the receiving space (S40). ,
In the step S30, when there is a leak in the pouch type battery cell, the air enters and the pouch type battery cell expands,
In the step S40, when the pouch-type battery cell is expanded, a leak detection method of the pouch-type battery cell is characterized in that the pouch-shaped battery cell is formed with a suction port at the outlet. The method according to claim 9,
In the step S30, the air supply member is connected to the inlet formed at each corner of the upper surface of the cover and leaks air toward each corner of the pouch-shaped battery cell accommodated in the accommodation space, thereby leaking the pouch-type battery cell. Detection method. The method according to claim 9,
In the step S40, the air discharge member is connected to the outlet formed in the center of the upper surface of the cover to detect the leak of the pouch type battery cell, characterized in that to generate suction power toward the center of the upper surface of the pouch type battery cell accommodated in the accommodation space Way. The method according to claim 9,
In the step S20, the cover is leak detection method for a pouch type battery cell, characterized in that descending toward the jig by the cylinder provided on the top of the jig, or vice versa. The method according to claim 9,
A method of detecting a leak in a pouch-type battery cell, characterized in that when the air is injected into the inlet by the air supply member, the outlet is closed by the air outlet member. The method according to claim 9,
A leak detection method for a pouch type battery cell, characterized in that air is injected into the injection port by the air supply member even when the discharge port is opened by the air discharge member. The method according to claim 9,
The air discharge member leak detection method of a pouch type battery cell, characterized in that automatically opens the outlet when the pressure in the receiving space rises above a set value.

Images