KR20230099311A - Apparatus for inspecting electrodide tab - Google Patents

Abstract

The present invention relates to an electrode tab inspection device, and is to provide an electrode tab inspection device capable of inspecting damage to an electrode tab located inside a battery case in a short time with high reliability.

Description

Electrode tab inspection device {APPARATUS FOR INSPECTING ELECTRODIDE TAB}

The present invention relates to an electrode tab inspection device, and relates to an electrode tab inspection device capable of inspecting damage to an electrode tab located inside a battery case in a short time with high reliability.

In general, a battery may be formed by injecting an electrolyte while an electrode assembly including a negative electrode, a positive electrode, and a separator is accommodated in a battery case.

A negative electrode or positive electrode is formed by applying an active material to a current collector. At this time, for electrical connection, an electrode tab formed of a metal foil may be fused to an uncoated region of the current collector on which the active material is not applied. In this case, one end of the electrode tab may be fused to the uncoated portion of the current collector as described above, and the other end may be fused to an electrode lead protruding out of the battery case.

When the electrode assembly of the battery includes a plurality of negative electrodes and a plurality of positive electrodes, a plurality of electrode tabs may be provided, one end of which is fused to each of the plurality of electrodes, and the other end of which is fused to one electrode lead.

At this time, since the electrode tab is located inside the battery case, a method such as X-ray CT is used to inspect defects such as disconnection of the electrode tab. However, methods such as X-ray CT have a problem in that a lot of time is required for examination.

A technique for reliably grasping the state of the electrode tab in a short time is required.

The present invention relates to an electrode tab inspection device, and is to provide an electrode tab inspection device capable of inspecting damage to an electrode tab located inside a battery case in a short time with high reliability.

The technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below. You will be able to.

The electrode tab inspection apparatus of the present invention may inspect an electrode tab having a predetermined width in a first direction perpendicular to a vertical direction and extending in a second direction perpendicular to the vertical direction and the first direction.

The electrode tab inspection device of the present invention,

a first transmitting coil and a second transmitting coil having lower ends facing upper surfaces of the electrode tabs from the outside of the battery case accommodating the electrode tabs and irradiating alternating magnetic fields to the electrode tabs;

a first receiving coil having a lower end facing the upper side of the electrode tab and an upper end facing the lower end of the first transmitting coil outside the battery case accommodating the electrode tab; and

A second receiving coil having a lower end facing the upper side of the electrode tab and an upper end facing the lower end of the second transmitting coil outside the battery case accommodating the electrode tab,

Lengths of the first transmitting coil and the first receiving coil in the first direction are longer than lengths in the second direction,

Lengths of the second transmitting coil and the second receiving coil in the second direction may be longer than lengths in the first direction.

In the electrode tab inspection apparatus of the present invention, the lengths of the first transmitting coil and the first receiving coil in the vertical direction are the same, and the lengths of the second transmitting coil and the second receiving coil in the vertical direction are may be the same.

In the electrode tab inspection apparatus of the present invention, the length of the first transmission coil in the first direction and the width of the electrode tab in the first direction may be 1/2 to 1/5 times.

The electrode tab inspection apparatus of the present invention includes a first frame portion in which the first transmitting coil and the first receiving coil are wound; and a second frame portion in which the second transmitting coil and the second receiving coil are wound.

The first frame part of the electrode tab inspection apparatus of the present invention includes a first core member having a lower end facing the upper side of the battery case and around which the first transmitting coil and the first receiving coil are wound, and the first core member. A pair of first side cover members disposed spaced apart from each other at both ends in the first direction by a predetermined distance, and having lower ends coupled to upper ends of the first core member and the first side cover member; It may include a first body member having a lower end connected to the first connection member and having a first input/output terminal for electrical connection with the first transmitting coil and the first receiving coil formed at the upper end.

The second frame part of the electrode tab inspection apparatus of the present invention includes a second core member having a lower end facing the upper side of the battery case and around which the second transmitting coil and the second receiving coil are wound, and the second core member A pair of second side cover members disposed spaced apart from each other at both ends in the second direction by a predetermined interval, and having lower ends coupled to upper ends of the second core member and the second side cover member; A second body member having a lower end connected to the second connecting member and having a second input/output terminal for electrical connection with the second transmitting coil and the second receiving coil formed at the upper end, and the second body member of the second body member. One side surface in the direction may be coupled to the first body member, and the center of the second core member in the first direction may face the center of the first core member in the first direction.

In the electrode tab inspection apparatus of the present invention, the first core member or the first side cover member may protrude downward more than the lower end of the first receiving coil.

In the electrode tab inspection apparatus of the present invention, the lower end of the first receiving coil or the second receiving coil may be spaced apart from the upper side of the battery case by 1.5 mm to 2.0 mm.

In the electrode tab inspection apparatus of the present invention, the width of the electrode tab in the first direction is formed to be 20 mm to 100 mm, and the length of the first transmitting coil and the first receiving coil in the first direction is formed to be 6 mm to 30 mm. it may be

The electrode tab inspection apparatus of the present invention determines the state of the electrode tap based on the input values of the first transmitting coil and the second transmitting coil and the output values of the first receiving coil and the second receiving coil. It may include more wealth.

In the electrode tab inspection apparatus of the present invention, alternating currents having eight different frequencies may be added to each of the first transmission coil and the second transmission coil and inputted as an input value.

The discrimination unit of the electrode tab inspection apparatus of the present invention extracts 16 first discrimination values from input values input to the first transmission coil, and extracts 16 second discrimination values from input values input to the second transmission coil. , extracting 16 third discriminant values from output values output from the first receiving coil, extracting 16 fourth discriminant values from output values output from the second receiving coil, and The state of the electrode tab may be determined by inputting 1 determination, the 16 second determination values, the 16 third determination values, and the 16 fourth determination values to a determination function.

The electrode tab inspection apparatus of the present invention may be capable of inspecting damage to an electrode tab located inside a battery case with high reliability and in a short time.

1 is a cross-sectional view showing a battery including an electrode tab to be inspected by an electrode tab inspection apparatus according to the present invention.
2 is a perspective view showing a battery.
3 is a conceptual diagram illustrating a disposition relationship between a first transmitting coil, a second transmitting coil, a first receiving coil, and a second transmitting coil and electrode taps.
4 is a front view showing a first frame portion.
5 is a side view illustrating a second frame part.
6 is a side view illustrating a coupling relationship between a first frame part and a second frame part.
7 is a graph showing the results of inspecting the electrode tab with the electrode tab inspection apparatus of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary according to the intentions or customs of users and operators. Definitions of these terms should be made based on the content throughout this specification.

In the description of the present invention, it should be noted that the terms "center", "top", "bottom", "left", "right", "vertical", "horizontal", "inside", "outside", "one side" The orientation or positional relationship indicated by "," "the other side", etc. is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship normally placed when using the product of the present invention, and for explanation and brief description of the present invention However, it should not be understood as limiting the present invention because it does not suggest or imply that the indicated device or element must be configured or operated in a specific orientation with a specific orientation.

1 is a cross-sectional view showing a battery including an electrode tab to be inspected by an electrode tab inspection apparatus according to the present invention. 2 is a perspective view showing a battery. 3 is a conceptual diagram illustrating a disposition relationship between the first transmission coil 110, the second transmission coil 210, the first reception coil 120, and the second transmission coil 210 and electrode taps. 4 is a front view showing the first frame part 130 . 5 is a side view showing the second frame part 230 . 6 is a side view illustrating a coupling relationship between the first frame unit 130 and the second frame unit 230 . 7 is a graph showing the results of inspecting the electrode tab with the electrode tab inspection apparatus of the present invention.

Hereinafter, the electrode tab inspection apparatus of the present invention will be described in detail with reference to FIGS. 1 to 7 . Hereinafter, in the coordinate system shown in FIGS. 1 to 6, the z-axis may be a vertical direction, the x-axis may be a first direction, and the y-axis may be a second direction.

The electrode tab inspection apparatus of the present invention may be able to grasp the state of the electrode tab 11 located inside the battery case 12 within a short time without damaging the battery case 12 .

As shown in FIG. 1, the electrode tab 11 to be inspected in the electrode tab inspection apparatus of the present invention is formed as a flat sheet perpendicular to the vertical direction, and one end is collected in a first direction perpendicular to the vertical direction. It may be fused to the whole 13, the other end fused to the electrode lead 16, and located inside the battery case 12. For example, the electrode tab 11 to be inspected by the electrode tab inspection apparatus of the present invention may be provided in the pouch type battery 10 . The pouch type battery 10 may be manufactured by injecting an electrolyte solution after the electrode assembly is accommodated in the flexible battery case 12 . The electrode assembly may be one in which a plurality of cathodes and a plurality of anodes are stacked with the separator 15 interposed therebetween. The anode or cathode may be one in which the anode active material 14 or the cathode active material 14 is coated on the anode current collector 13 or the cathode current collector 13 . In the electrode tab inspection apparatus of the present invention, the electrode tab 11 to be inspected may have one end fused to the uncoated portion of the negative current collector 13 or the positive current collector 13 . Since a plurality of electrodes (negative electrodes or positive electrodes) are provided in the pouch type battery 10, a plurality of electrode tabs 11 may also be provided and coupled to each of the plurality of electrodes. The electrode lead 16 may be a conductive metal sheet extending inside and outside the battery case 12 . A plurality of electrode tabs 11 may be coupled to one electrode lead 16 inside the battery case 12 . As shown in FIG. 2, due to the thickness of the electrode assembly, a shoulder line (convex corner portion, SL) is formed in the pouch-type battery 10, and the electrode tab inspection device of the present invention forms the battery case 12 near the shoulder line. It may be to inspect the electrode tab 11 located inside. Specifically, the electrode tab inspection apparatus of the present invention may inspect an area indicated by a dashed-dot line shown in FIG. 1 .

As shown in FIG. 3, the electrode tab inspection apparatus of the present invention has an electrode tab having a predetermined width in a first direction perpendicular to the vertical direction and extending in a second direction perpendicular to the vertical direction and the first direction ( 11) may be examined.

As shown in FIG. 3, the electrode tab inspection device of the present invention,

A first transmission coil 110 and a second transmission coil 210 for irradiating an alternating magnetic field to the electrode tab with lower ends facing the upper side of the electrode tab from the outside of the battery case accommodating the electrode tab;

A first receiving coil 120 having a lower end facing the upper side of the electrode tab and an upper end facing the lower end of the first transmitting coil 110 outside the battery case accommodating the electrode tab; and

A second receiving coil 220 having a lower end facing the upper side of the electrode tab and an upper end facing the lower end of the second transmitting coil 210 from the outside of the battery case accommodating the electrode tab,

Lengths of the first transmitting coil 110 and the first receiving coil 120 in the first direction are longer than those in the second direction,

Lengths of the second transmitting coil 210 and the second receiving coil 220 in the second direction may be longer than lengths in the first direction.

The first transmitting coil 110, the first receiving coil 120, the second transmitting coil 210, and the second receiving coil 220 may be formed by winding a conductive wire around a central axis in a vertical direction. The first transmitting coil 110, the first receiving coil 120, the second transmitting coil 210, and the second receiving coil 220 have edges parallel to the first and second directions in cross sections perpendicular to the vertical direction. may be formed in a rectangular shape, and the cross sections of the first transmitting coil 110 and the first receiving coil 120 are formed so that the corners in the first direction are longer than the corners in the second direction, and the second transmitting coil 210 and the second receiving coil 220 may have edges in the second direction longer than edges in the first direction.

The first receiving coil 120 may be located between the first transmitting coil 110 and the electrode tab, and the second receiving coil 220 may be located between the second transmitting coil 210 and the electrode tab. That is, the first receiving coil 120 and the second receiving coil 220 are positioned above the electrode tab, and the first transmitting coil 110 is located above the first receiving coil 120 and the second receiving coil 220, respectively. ) and the second transmission coil 210 may be located respectively.

One ends of the second transmitting coil 210 and the second receiving coil 220 in the second direction, respectively, face each of one side surfaces of the first transmitting coil 110 and the first receiving coil 120 in the first direction. The first transmitting coil 110 , the first receiving coil 120 , the second transmitting coil 210 and the second receiving coil 220 may be disposed so as to face each other.

As described above, the first transmitting coil 110, the first receiving coil 120, the second transmitting coil 210, and the second receiving coil 220 are disposed, so that the first direction perpendicular to the vertical direction is constant. With respect to the electrode tab 11 provided in a shape having a width and extending in the vertical direction and in the second direction perpendicular to the first direction, the state of the electrode tab 11 can be inspected within a short time with high accuracy.

The first transmitting coil 110 and the first receiving coil 120 have the same length in the vertical direction, and the second transmitting coil 210 and the second receiving coil 220 have the same length in the vertical direction. may have the same length.

The length of the first transmission coil 110 in the first direction and the width of the electrode tab in the first direction may be 1/2 to 1/5 times. For example, the ratio of the width W of the electrode tab in the first direction to the length D1 of the first transmitting coil 110 and the first receiving coil 120 in the first direction may be 3.6:1.

4 to 6, the electrode tab inspection device of the present invention,

a first frame part 130 on which the first transmitting coil 110 and the first receiving coil 120 are wound; and

It may further include a second frame part 230 around which the second transmitting coil 210 and the second receiving coil 220 are wound.

In the electrode tab inspection apparatus of the present invention, the first transmitting coil 110, the first receiving coil 120, the second transmitting coil 210, and the second receiving coil 220 are respectively connected to the first frame unit 130 and Relative positions of the two elements may be determined while being fixed to the second frame unit 230 .

As shown in FIG. 4, the first frame part 130,

A first core member 131 whose lower end faces the upper surface of the battery case and on which the first transmitting coil 110 and the first receiving coil 120 are wound;

A pair of first side cover members 132 disposed spaced apart from each other by a predetermined interval at both ends of the first core member 131 in the first direction;

A first connecting member 133 having lower ends coupled to upper ends of the first core member 131 and the first side cover member 132;

A first body member having a lower end connected to the first connecting member 133 and having a first input/output terminal 135 for electrical connection with the first transmitting coil 110 and the first receiving coil 120 formed at the upper end ( 134) may be included.

The first core member 131 may be provided in a rectangular pillar shape extending vertically to correspond to the shapes of the first transmitting coil 110 and the first receiving coil 120 . More specifically, a cross section of the first core member 131 in the vertical direction may be formed as a rectangle having corners longer in the first direction than in the second direction.

The first side cover member 132 may prevent the first transmitting coil 110 and the first receiving coil 120 from directly contacting a surrounding structure.

The first input/output terminal 135 may be disposed to be spaced apart from the first transmitting coil 110 and the first receiving coil 120 as much as possible with the first body member 134 interposed therebetween. Accordingly, the influence of the first transmission coil 110 and the first reception coil 120 due to the external electrical wire connected to the first input/output terminal 135 can be minimized.

As shown in FIG. 5, the second frame part 230,

A second core member 231 whose lower end faces the upper surface of the battery case and on which the second transmitting coil 210 and the second receiving coil 220 are wound;

A pair of second side cover members 232 spaced apart from each other by a predetermined interval at both ends of the second core member 231 in the second direction;

A second connection member 233 having a lower end coupled to upper ends of the second core member 231 and the second side cover member 232;

A second body member having a lower end connected to the second connecting member 233 and having a second input/output terminal 235 for electrical connection with the second transmitting coil 210 and the second receiving coil 220 formed at the upper end ( 234) may be included.

The second core member 231 may be provided in a rectangular pillar shape extending vertically to correspond to the shapes of the second transmitting coil 210 and the second receiving coil 220 . More specifically, the cross section of the second core member 231 in the vertical direction may be formed as a rectangle having corners longer in the second direction than in the first direction.

The second side cover member 232 may prevent the second transmitting coil 210 and the second receiving coil 220 from directly contacting a surrounding structure. In particular, in the electrode tab inspection apparatus of the present invention, the second side cover directly connects the second transmitting coil 210 or the second receiving coil 220 to the first transmitting coil 110 or the first receiving coil 120. contact can be prevented.

The second input/output terminal 235 may be disposed to be spaced apart from the second transmitting coil 210 and the second receiving coil 220 as much as possible with the second body member 234 interposed therebetween. Accordingly, the influence of the second transmitting coil 210 and the second receiving coil 220 due to the external electric wire connected to the second input/output terminal 235 can be minimized.

As shown in FIG. 6, in the electrode tab inspection apparatus of the present invention, one side surface of the second body member 234 in the second direction is coupled to the first body member 134, and the second The center of the core member 231 in the first direction may face the center of the first core member 131 in the first direction.

That is, the relative positions between the first transmitting coil 110 and the second transmitting coil 210, and between the first receiving coil 120 and the second receiving coil 220 are the first body member 134 and the second body member ( 234) can be determined by being coupled to each other and fixed. The first body member 134 is the first body member in the second direction to prevent the second side cover member 232 from directly contacting the first transmitting coil 110 or the first receiving coil 120. (134) may protrude more than the first core member (131).

The first core member 131 or the first side cover member 132 may protrude downward more than the lower end of the first receiving coil 120 . Accordingly, the lower end of the first receiving coil 120 may be spaced apart from the upper side of the battery case 12 by a predetermined interval.

The second core member 231 or the second side cover member 232 may also protrude downward more than the lower end of the second receiving coil 220 . Accordingly, the lower end of the second receiving coil 220 may also be spaced apart from the upper side of the battery case 12 by a predetermined interval. The lower end of the first receiving coil 120 or the second receiving coil 220 may be 1.5 mm to 2.0 mm apart from the upper side of the battery case.

The width of the electrode tab in the first direction is formed to be 20 mm to 100 mm, and the length of the first transmitting coil 110 and the first receiving coil 120 in the first direction is formed to be 6 mm to 30 mm can For example, the width W of the electrode tab in the first direction may be formed to be 50 mm, and the length D1 of the first transmitting coil 110 or the first receiving coil 120 in the first direction may be formed to be 14 mm. .

In the electrode tab inspection apparatus of the present invention, the input values of the first transmitting coil 110 and the second transmitting coil 210 and the output values of the first receiving coil 120 and the second receiving coil 220 It may further include a determination unit for determining the state of the electrode tab based on. Alternating currents having eight different frequencies may be added to each of the first transmission coil and the second transmission coil 210 and input as an input value. The determination unit may be an arithmetic device in which software and hardware are combined.

The determining unit extracts 16 first discrimination values from input values input to the first transmission coil 110 and extracts 16 second discrimination values from input values input to the second transmission coil 210. 16 third discriminant values are extracted from the output values output from the first receiving coil 120, and 16 fourth discriminant values are extracted from the output values output from the second receiving coil 220, The state of the electrode tab may be determined by inputting the 16 first discrimination values, the 16 second discrimination values, the 16 third discrimination values, and the 16 fourth discrimination values into a discrimination function.

As described above, each of the first transmission coil 110 and the second transmission coil 210 may be input as an input value by summing eight current components having different frequencies. In this case, the real part value and the imaginary part value of each current component may be extracted as the first discriminant values. Accordingly, two first discrimination values and two second discrimination values are extracted for each current component, and a total of 32 first discrimination values may be extracted.

The determination unit divides the voltage value output from each of the first receiving coil 120 and the second receiving coil 220 by the current value input to each of the first transmitting coil 110 and the second transmitting coil 210 to obtain an impedance value. can be calculated The impedance value thus calculated may be divided into 8 components each according to the input frequency, and a real part value and an imaginary part value of each component may be extracted as a third discrimination value and a fourth discrimination value.

The determination unit determines the state of the electrode tab 11 by inputting the 16 first discrimination values, the 16 second discrimination values, the 16 third discrimination values, and the 16 fourth discrimination values into a discrimination function. it could be The discriminant function may be a linear function having a total of 64 first discriminant values, second discriminant values, third discriminant values, and fourth discriminant values as independent variables. When the 64 values described above are input to the discrimination function, a judgment coefficient representing the state of the electrode tab 11 may be output. If the coefficient of determination is less than or equal to the reference value, the state of the electrode tab 11 is determined to be good, and if the coefficient of determination is greater than or equal to the reference value, the state of the electrode tab 11 may be determined to be poor.

The electrode tab inspection apparatus of the present invention may be capable of inspecting the state of not only the uppermost electrode tab 11 but also the lower electrode tab 11 through multi-channel inspection.

Table 1 below shows judgment coefficients calculated for 8 normal samples and 8 defective samples through measurement using the electrode tab inspection device of the present invention.

sample number Judgment coefficient normal sample 1 627 normal sample 2 633 normal sample 3 637 normal sample 4 633 normal sample 5 634 normal sample 6 623 normal sample 7 629 normal sample 8 634 bad sample 1 663 bad sample 2 661 bad sample 3 664 bad sample 4 656 bad sample 5 655 bad sample 6 651 bad sample 7 654 bad sample 8 667

7 is a graph of Table 1 above. The x-axis means normal samples and defective samples, and the y-axis means the judgment coefficient value. As shown in FIG. 7 , the normal samples had coefficients of 637 or less, and the defective samples had coefficients of 651 or more.

Embodiments according to the present invention have been described above, but these are merely examples, and those skilled in the art will understand that various modifications and embodiments of equivalent range are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined by the following claims.

10 ... battery 11 ... electrode tab
12 ... battery case 13 ... entire collector
14 ... Active material 15 ... Separator
16 ... electrode lead 110 ... first transmission coil
120 ... first receiving coil 130 ... first frame unit
131... first core member 132... first side cover member
133... first connecting member 134... first body member
135 ... first input/output terminal 210 ... second transmission coil
220 ... second receiving coil 230 ... second frame unit
231... second core member 232... second side cover member
233... second connecting member 234... second body member
235 ... second input/output terminal

Claims (10)

In the electrode tab inspection device for inspecting an electrode tab having a predetermined width in a first direction perpendicular to the vertical direction and extending in a second direction perpendicular to the vertical direction and the first direction,
a first transmitting coil and a second transmitting coil having lower ends facing upper surfaces of the electrode tabs from the outside of the battery case accommodating the electrode tabs and irradiating alternating magnetic fields to the electrode tabs;
a first receiving coil having a lower end facing the upper side of the electrode tab and an upper end facing the lower end of the first transmitting coil outside the battery case accommodating the electrode tab; and
A second receiving coil having a lower end facing the upper side of the electrode tab and an upper end facing the lower end of the second transmitting coil outside the battery case accommodating the electrode tab,
Lengths of the first transmitting coil and the first receiving coil in the first direction are longer than lengths in the second direction,
Lengths of the second transmitting coil and the second receiving coil in the second direction are longer than lengths in the first direction. According to claim 1,
The lengths of the first transmitting coil and the first receiving coil in the vertical direction are the same,
The electrode tab inspection apparatus, wherein the second transmitting coil and the second receiving coil have the same length in the vertical direction. According to claim 1,
The electrode tab inspection apparatus, wherein the length of the first transmitting coil in the first direction and the width of the electrode tab in the first direction are 1/2 to 1/5 times. According to claim 1,
a first frame portion in which the first transmitting coil and the first receiving coil are wound; and
The electrode tab inspection apparatus further comprising a second frame portion in which the second transmitting coil and the second receiving coil are wound. According to claim 4,
The first frame part,
A first core member whose lower end faces the upper side of the battery case and on which the first transmitting coil and the first receiving coil are wound;
A pair of first side cover members disposed spaced apart from each other by a predetermined interval at both ends of the first core member in the first direction;
A first connecting member having a lower end coupled to an upper end of the first core member and the first side cover member;
The electrode tab inspection apparatus comprising a first body member having a lower end connected to the first connection member and having a first input/output terminal for electrical connection with the first transmitting coil and the first receiving coil formed at the upper end. According to claim 5,
The second frame part,
A second core member whose lower end faces the upper surface of the battery case and on which the second transmitting coil and the second receiving coil are wound;
A pair of second side cover members disposed spaced apart from each other by a predetermined interval at both ends of the second core member in the second direction;
A second connecting member having a lower end coupled to an upper end of the second core member and the second side cover member;
A second body member having a lower end connected to the second connecting member and having a second input/output terminal for electrical connection with the second transmitting coil and the second receiving coil formed at the upper end,
One side surface of the second body member in the second direction is coupled to the first body member,
The electrode tab inspection apparatus, wherein the center of the second core member in the first direction faces the center of the first core member in the first direction. According to claim 5,
The electrode tab inspection apparatus, wherein the first core member or the first side cover member protrudes downward more than the lower end of the first receiving coil. According to claim 1,
The electrode tab inspection device, wherein the lower end of the first receiving coil or the second receiving coil is spaced apart from the upper side of the battery case by 1.5 mm to 2.0 mm. According to claim 1,
The width of the electrode tab in the first direction is formed to be 20 mm to 100 mm,
The electrode tab inspection apparatus, wherein the length of the first transmitting coil and the first receiving coil in the first direction is formed to be 6 mm to 30 mm. According to claim 1,
Further comprising a determination unit for determining a state of the electrode tap based on input values of the first transmission coil and the second transmission coil and output values of the first reception coil and the second reception coil;
Alternating currents having 8 different frequencies are added to each of the first transmission coil and the second transmission coil and are input as input values;
The determination unit,
Extracting 16 first discrimination values from input values input to the first transmission coil;
Extracting 16 second discrimination values from input values input to the second transmission coil;
Extracting 16 third discrimination values from output values output from the first receiving coil;
Extracting 16 fourth discrimination values from output values output from the second receiving coil;
The electrode tab inspection apparatus of determining the state of the electrode tab by inputting the 16 first discrimination values, the 16 second discrimination values, the 16 third discrimination values, and the 16 fourth discrimination values into a discrimination function.

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