KR101843708B1 - Battery leak detector - Google Patents

Abstract

The present invention relates to a battery leakage inspection device, which comprises: a casing for receiving air injected from the outside; a support plate mounted on an upper portion of the casing, and having a plurality of battery insertion holes for accommodating a battery to be inspected, and upwardly passing air inside the casing; a movable support means for dropping a corresponding battery to a lower portion of the support plate when the battery is determined as defective; an elevation plate installed on an upper portion of the support plate; a cap main body supported by the elevation plate, including the battery insertion holes in an inner region thereof in the state of being in close contact with an upper surface of the support plate at a descending position of the elevation plate, and having a connection hole for guiding the air upwardly moved through a battery insertion space toward an accommodation space; a sensor installed in the cap main body, and sensing the air introduced into the cap main body to determine whether a leaked liquid is smelled; and a controller for operating the movable support means on the basis of information transmitted from the sensor. According to the present invention, a plurality of batteries are vertically set to allow air to pass therethrough so as to perform an inspection on the basis of the odor of the leaked liquid included in the air. Accordingly, the speed of the inspection is extremely fast, the reliability thereof is high, and a discharge of a battery determined as defective is even realized, which is convenient.

Description

[0001] The present invention relates to a battery leak detector,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery testing device, and more particularly, to a battery leakage testing device for inspecting a battery for defects on the basis of whether or not there is an odor of leakage of liquid mixed with air molecules blown by a set battery.

As various kinds of portable electronic devices have been diversified, demand for batteries for driving electronic devices is also increasing, and functions required for batteries are also diversified.

The battery has a primary battery that is used and discarded once, and a rechargeable secondary battery. Lithium batteries among secondary batteries have advantages of high operating voltage and high energy density compared to conventional primary batteries and are manufactured in various shapes such as cylindrical, square, and pouch type. The double cylinders are applied to machines requiring a large amount of electric power by connecting the necessary number of series and parallel, and they are also used in electric vehicles recently.

A cylindrical lithium battery includes an electrode assembly wound in a cylindrical shape, a cylindrical can to which the electrode assembly is coupled, an electrolyte injected into the can to enable movement of lithium ions, And a cap assembly for preventing leakage of the electrode assembly and preventing disconnection of the electrode assembly.

However, since the cylindrical can is made of a metal material such as an aluminum alloy, black or fine holes may be generated during the pressing process due to foreign substances or pores in the raw material during the manufacturing process. This defective factor of the cylindrical battery can not only deteriorates the performance of the battery but also can not sufficiently protect the battery from external force or impact, which may cause ignition or explosion.

Therefore, all of the produced batteries are being inspected to eliminate the defect rate of the battery. This test is done by placing the battery on the test stand and inspecting the surface while the operator turns it by hand.

However, such manual inspection is laborious and time-consuming and ineffective, and the test result may vary according to the skill level and tendency of the testee, so that the reliability of the test is not high.

Korean Patent Registration No. 0154679 (battery defect detection device) Korean Patent Registration No. 10-1287464 (automatic inspection apparatus for a secondary battery can) Korean Patent Registration No. 10-1348192 (automatic inspection apparatus for a secondary battery can by an eddy current inspection)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a battery pack having a plurality of batteries vertically set and inspecting the batteries at the same time, There is an object to provide a battery leak tester which is free from concern.

In order to accomplish the above object, according to the present invention, there is provided an apparatus for inspecting a leakage of a battery, comprising: a casing having an inner space for receiving air injected from the outside, A support plate mounted on the casing to seal the rim of the casing and accommodate the battery to be inspected and having a plurality of battery insertion holes for upwardly passing air in the casing; A movable support means installed on the support plate for holding a battery to be inspected in the battery insertion hole and dropping the battery to the lower portion of the support plate when the battery is defective; A lifting plate installed to be able to move up and down on the support plate and having a plurality of accommodating spaces corresponding one to one to the battery inserting holes and an exhaust opening for opening the accommodating space to the outside; The upper end portion of the lifting plate is partially accommodated in the accommodating space of the lifting plate and the battery insertion hole is included in the inner region in a state of being in close contact with the upper surface of the supporting plate at the lowering position of the lifting plate, A cap body having a connection hole for guiding air to the accommodation space side; A sensor installed in the cap body and sensing air flowing into the cap body to determine whether there is an odor of leakage; An opening / closing disk installed in the receiving space of the lifting plate and opening / closing the connecting hole according to a relative position of the cap body with respect to the lifting plate; A spring connecting the lifting plate and the cap body to bias the cap body downward; And a control unit for operating the movable support means based on information received from the sensor, wherein the movable support means comprises: A motor provided at a side of each battery insertion hole and connected to a drive shaft of the motor and supporting the battery in a state of being positioned at a vertically lower portion of the battery insertion hole, To allow the battery to fall out.
In addition, a casing is provided with a hollow swash plate for guiding the battery dropped from the support plate in the lateral direction, and a door is provided at one side of the casing to draw out a bad battery from the casing through the porous swash plate do.

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The battery leakage testing apparatus of the present invention as described above is configured to vertically set a plurality of batteries and inspect air based on whether or not the leakage of the liquid contained in the air is present, It is convenient because it realizes discharge of battery judged as bad.

1 is a diagram schematically showing the overall configuration of a battery leakage testing apparatus according to an embodiment of the present invention.
Fig. 2 is a partially cutaway perspective view of the leak detector shown in Fig. 1. Fig.
3 is a cross-sectional view for explaining the internal configuration of the leakage liquid testing apparatus shown in Fig.
Figs. 4 and 5 are views for explaining a discharge method of the failure judgment battery. Fig.
6 to 8 are views for explaining the operation of the battery leakage testing apparatus according to an embodiment of the present invention.

Hereinafter, one embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view schematically showing the overall configuration of a battery leakage testing device 10 according to an embodiment of the present invention, and FIG. 2 is a partially cutaway perspective view of the leakage testing device shown in FIG.

As shown in the drawing, the battery leakage testing device 10 according to the present embodiment includes a base 20, a battery supporting part 30 mounted on the upper part of the base 20 to support the battery, A sensing unit 40 mounted on the upper portion of the supporting unit 30 so as to be able to ascend and descend, a blower 60 for supplying air into the casing 21, and a control unit 50.

First, the base portion 20 includes a rectangular box-shaped casing 21 which is opened upward and provides an internal space 23 for receiving air injected from the blower 60, (24). The perforated plate 24 may be a screen net or a plate-shaped member having a plurality of holes punctured on a plate having a predetermined thickness.

A door (25) is provided at one side of the casing (21). The door 25 is a passage for dropping a bad battery dropped from the battery supporting portion 30 and taken down the porous plate 24 to the outside of the casing 21. [ The door 25 closes the inner space 23 in a closed state.

3, the battery supporting part 30 supports a plurality of batteries A to be inspected in a vertically erected state, and is provided with a support plate 31 having a plurality of battery insertion holes 31a formed therein And a movable supporting means provided on a bottom surface portion of the support plate 31.

The support plate 31 has a predetermined thickness and is mounted on the upper portion of the casing 21 to seal the rim of the casing 21. The battery insertion hole 31a has a predetermined inner diameter and is formed as a vertical through hole. The battery insertion hole 31a serves as a passage for accommodating the battery A and upwardly passing the air supplied to the inner space 23.

The sensing unit 40 moves up and down with respect to the battery supporting unit 30 and supports the cap 45 and the sensor 47 under the battery supporting unit 30 as shown in FIG. The cap 45 and the sensor 47 correspond one-to-one to the respective battery insertion holes 31a. The cap 45 is completely lowered and the battery insertion hole 31a is included in the inner region thereof. Reference numeral 41 denotes a lifting rod. For example, to an external actuator (not shown) to transmit the lifting force.

3 is a cross-sectional view for explaining the internal configuration of the leakage liquid testing apparatus 10 shown in Fig.

As shown in the figure, the support plate 31 is horizontally mounted on the upper end of the casing 21 and has an inner space 23 at a lower portion thereof. In addition, a plurality of battery insertion holes 31a are formed in the support plate 31 in an X-Y orthogonal pattern. Each of the battery insertion holes 31a has an inner diameter larger than the diameter of the battery A, and a sufficient amount of air can pass through the outer periphery of the battery A.

In addition, movable supporting means is provided on the side of each battery insertion hole 31a. The movable support means holds the battery inserted in the battery insertion hole 31a and drops the battery to the lower portion of the support plate 31 when the battery is determined to be defective. .

The motor 32 is embedded in the support plate 31, and is positioned such that the drive shaft is directed vertically downward. The drive shaft extends to the lower portion of the support plate 31 and engages with the support member 33.

4 and 5 show the movable supporting means separately.

As shown in the figure, a support member 33 is fixed to the drive shaft of the motor 32. [ As shown in Fig. 4, the support member 33 is a rod-shaped member extending in the horizontal direction, and is positioned below the center of the battery insertion hole 31a or rotates in the direction of arrow a, And moves out of the insertion hole 31a.

When the support member 33 is disengaged from the battery insertion hole 31a, the battery A accommodated in the battery insertion hole 31a falls downward. It is a matter of course that the operation of the motor 32 is determined by the control unit 50 (FIG. 1). For example, when the battery is determined to be defective through the inspection, the support member 33 rotates in the direction of arrow a to drop the battery downward.

3, the sensing unit 40 includes a lifting plate 42 for providing a plurality of accommodating spaces 42a on the bottom surface thereof and a lifting plate 42 for supporting the accommodating space 42a in a state where the upper end thereof is inserted into the accommodating space 42a. And a sensor 47 provided inside the cap 45. The cap 45 is provided with a cap 45 which can enter into the cap 42a.

The accommodation space 42a corresponds to the battery insertion hole 31a in one-to-one correspondence, and is a space defined by the partition wall 42c. The partition wall 42c functions as a guide surface for guiding the movement of the cap 45 and the opening / closing disk 43, and has an air outlet 42b. The exhaust port 42b is blocked by the opening / closing disk 43 in a state in which the cap body 45a and the opening / closing disk 43 are lifted to the maximum. 7, the opening / closing disk 43 is opened when it enters the inside of the accommodation space 42a.

The opening / closing disk 43 is a disc-shaped member having a certain thickness and diameter and is supported on the upper surface of the cap body 45a. Reference numeral 43a denotes a projection. The projection 43a separates the upper surface of the cap body 45a from the bottom surface of the opening and closing disk 43 so that air flowing upward through the connecting hole 45b can fill the receiving space 42a.

The cap 45 includes a seal holding space 45d that is opened to the bottom, a sensor groove 45c that is opened to the seal holding space 45d, and a cap body 45c that has an outer circumferential projection 45e on the outer circumferential surface. And a spring 46 that biases the cap main body 45a and downwardly biases the cap main body 45a. The spring 46 is a compression coil spring whose upper end is fixed to the bottom surface of the lifting plate 42 and its lower end is engaged with the outer peripheral projection 45e.

The sensor groove 45c communicates with the accommodation space 42a through the connection hole 45b. 7, the air filled in the inner space 23 is discharged through the battery insertion hole 31a, the sealed holding space 45d, the sensor groove 45c, The connection hole 45b, and the accommodation space 42a, and is discharged to the atmosphere through the exhaust port 42b.

A sensor 47 is mounted in the sensor groove 45c. The sensor 47 senses the leakage odor in the air passing through the path. For example, when the leaked liquid leaks from the battery accommodated in the battery insertion hole 31a, it senses the smell of the leakage liquid and transfers it to the controller 50. The control unit operates the motor 32 to drop the faulty battery downward.

6 to 8 are views for explaining the operation of the battery leakage testing apparatus according to an embodiment of the present invention.

First, the battery A to be inspected is housed in each battery insertion hole 31a with the support member 33 positioned below the battery insertion hole 31a. Since the battery A is supported by the support member 33, the battery A does not fall down.

In this state, the sensing unit 40 is lowered to bring the lower end of the cap body 45a into close contact with the upper surface of the support plate 31. At this time, the battery A protruded to the upper portion of the support plate 31 is accommodated in the closed holding space 45d.

The sensing unit 40 is further lowered to operate the blower 60 so that air in the casing 21 passes through the battery insertion hole 31a and is exhausted to the outside through the sensor 47. [ The sensor 47 continuously senses the smell of the leakage of air passing through the sensor 47 and transmits it to the control unit 50. If there is no smell of leakage, the injection of air is stopped and the sensing unit 40 is lifted, and the battery A is recovered and processed.

When the leakage of the liquid is detected, the controller 50 operates the motor 32 to drop the battery. The dropped battery is taken down through the porous plate 24 and collected through the door 25.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10: leakage liquid testing device 20: base portion 21: casing
23: inner space 24: porous plate 25: door
30: battery support part 31: support plate 31a: battery insertion hole
32: motor 33: support member 40: sensing part
41: lifting rod 42: lifting plate 42a:
42b: exhaust port 42c: partition wall 43: opening / closing disk
43a: projection 45: cap 45a: cap body
45b: Connection hole 45c: Sensor groove 45d: Sealed holding space
45e: outer peripheral projection 46: spring 47: sensor
50: control unit 60: blower

Claims (3)

A casing having an inner space for receiving air injected from the outside and filling the injected air therein and opening upward;
A support plate mounted on the casing to seal the rim of the casing and accommodate the battery to be inspected and having a plurality of battery insertion holes for upwardly passing air in the casing;
A movable support means installed on the support plate for holding a battery to be inspected in the battery insertion hole and dropping the battery to the lower portion of the support plate when the battery is defective;
A lifting plate installed to be able to move up and down on the support plate and having a plurality of accommodating spaces corresponding one to one to the battery inserting holes and an exhaust opening for opening the accommodating space to the outside;
The upper end portion of the lifting plate is partially accommodated in the accommodating space of the lifting plate and the battery insertion hole is included in the inner region in a state of being in close contact with the upper surface of the supporting plate at the lowering position of the lifting plate, A cap body having a connection hole for guiding air to the accommodation space side;
A sensor installed in the cap body and sensing air flowing into the cap body to determine whether there is an odor of leakage;
An opening / closing disc provided in the receiving space of the lifting plate and opening / closing the connecting hole according to a relative position of the cap body with respect to the lifting plate;
A spring connecting the lifting plate and the cap body to bias the cap body downward;
And a control unit for operating the movable support unit based on information received from the sensor,
The movable support means comprises:
A motor provided on a side of each battery insertion hole,
A support member connected to a drive shaft of the motor and supporting the battery in a state of being positioned at a vertically lower portion of the battery insertion hole and allowing the battery to fall out of the battery insertion hole by operation of the motor when the battery is determined to be defective, Includes a battery leakage tester. delete The method according to claim 1,
The casing includes a porous swash plate for guiding the battery dropped from the support plate in the lateral direction,
And a door is provided at one side of the casing so as to allow a defective battery carried on the porous swash plate to be taken out of the casing.

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