KR20220010425A - Secondary battery, ultrasonic welding device and method for secondary battery - Google Patents

Abstract

The present invention relates to a secondary battery, and an ultrasonic welding device and a welding method for the secondary battery. The ultrasonic welding device for a secondary battery comprises: an anvil provided so that overlapping surfaces of an electrode tab and an electrode lead provided in an electrode assembly are disposed; a horn provided to weld the overlapping surfaces disposed on the anvil; and an inspection member inspecting the horizontal degree of an opposing member with respect to the overlapping surface based on an overlapping surface horizontal value that is a horizontal value of the overlapping surface with respect to a predetermined reference surface, and an opposing horizontal value that is a horizontal value with respect to the reference surface of an opposing member that is any one of a welding part of the horn facing the overlapping surface and an arrangement part of the anvil on which the overlapping surface is disposed, thereby capable of improving the welding quality.

Description

Secondary battery, ultrasonic welding device for secondary battery and welding method

The present invention relates to a secondary battery, an ultrasonic welding apparatus for a secondary battery, and a welding method, and more particularly, to a secondary battery capable of uniformly welding overlapping surfaces of an electrode tab and an electrode lead, an ultrasonic welding apparatus for a secondary battery, and a welding method.

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

The secondary battery is classified into a can-type secondary battery in which the electrode assembly is embedded in a metal can, and a pouch-type secondary battery in which the electrode assembly is embedded in a pouch. And the pouch-type secondary battery includes an electrode assembly, an electrode lead coupled to the electrode tab of the electrode assembly, and a pouch for accommodating the electrode assembly with the tip of the electrode lead drawn out to the outside.

Meanwhile, the electrode tab and the electrode lead of the electrode assembly are coupled through welding, and in this case, an ultrasonic welding device is used.

The ultrasonic welding apparatus includes an anvil on which the overlapping surfaces of the electrode tabs and the electrode leads are disposed, and a horn for welding by applying ultrasonic waves to the overlapping surfaces of the electrode tabs and the electrode leads disposed on the anvil.

However, in the ultrasonic welding apparatus, when the anvil and the horn are not arranged horizontally with respect to the overlapping surface, the entire overlapping surface cannot be uniformly welded and a welding defect occurs.

More specifically, in the conventional ultrasonic welding apparatus, when the anvil and the horn are not arranged horizontally with respect to the overlapping surface, welding energy may not be uniformly transmitted to the entire overlapping surface, and welding defects may occur.

Patent Publication No. 10-2017-0105367.

The present invention for solving the above problems is to uniformly (or identically) transmit the entire welding energy to the overlapping surface of the electrode tab and the electrode lead by adjusting the horizontality of the anvil and the horn to be horizontal with the overlapping surface of the electrode tab and the electrode lead An object of the present invention is to provide a secondary battery, an ultrasonic welding device for secondary batteries, and a welding method that can be uniformly welded on the entire overlapping surface and, as a result, can improve welding quality.

An ultrasonic welding apparatus for a secondary battery of the present invention for achieving the above object includes an anvil provided so that the overlapping surfaces of the electrode tab and the electrode lead provided in the electrode assembly are disposed; a horn provided to weld the overlapping surfaces disposed on the anvil; and a horizontal value of an overlapping surface that is a horizontal value of the overlapping surface with respect to a predetermined reference surface, a welding portion of the horn facing the overlapping surface, and an arrangement portion of the anvil on which the overlapping surface is disposed. It may include an inspection member for inspecting the horizontal degree of the opposing member with respect to the overlapping surface, based on the horizontal value of the opposing horizontal value.

The horn may be provided to apply ultrasonic waves while the welding part of the horn is supported on the overlapping surface when the horizontal degree is determined within a predetermined normal range by the inspection member.

An overlapping surface measuring member for measuring an overlapping surface horizontal value, which is a horizontal value of the overlapping surface with respect to the predetermined reference surface, a welding part of the horn facing the overlapping surface, and an arrangement part of the anvil on which the overlapping surface is disposed and an opposing measuring member for measuring an opposing horizontal value that is a horizontal value of the opposing member with respect to the reference plane.

It may further include an angle adjusting member for adjusting the angle of the opposing member by a difference value between the horizontal value of the overlapping surface and the opposite horizontal value.

The angle adjusting member may be provided to adjust the angle of the opposing member by a difference value between the horizontal value of the overlapping surface and the opposite horizontal value when the horizontal degree is determined by the inspection member to be outside a predetermined normal range.

The horizontal value of the overlapping surface includes a full-length direction inclination angle of the overlapping surface and a full-width direction inclination angle of the overlapping surface in a state where a predetermined reference surface is set to 0°, and the opposite horizontal value is set to 0° with the reference surface In a state, the inclination angle in the full length direction of the opposing member and the inclination angle in the full width direction of the opposing member are included, wherein the inspection member is provided to compare the inclination angle in the full length direction of the overlapping surface and the inclination angle in the full length direction of the opposing member, the overlapping surface It may be provided to contrast the inclination angle in the full width direction and the inclination angle in the full width direction of the opposing member.

The predetermined normal range may be set to less than 0.30°.

On the other hand, the ultrasonic welding method for a secondary battery of the present invention comprises the steps of: (a) arranging an overlapping surface of an electrode tab and an electrode lead provided in an electrode assembly on an anvil; (b) disposing a horn for welding the overlapping surfaces disposed on the anvil; and (c) a horizontal value of an overlapping surface, which is a horizontal value of the overlapping surface with respect to a predetermined reference surface, and a welding portion of the horn facing the overlapping surface and an arrangement portion of the anvil on which the overlapping surface is disposed. The method may include examining a horizontal degree of the opposing member with respect to the overlapping surface based on an opposing horizontal value that is a horizontal value with respect to the reference plane.

The step (c) may further include a step of welding the overlapping surfaces by applying ultrasonic waves while supporting the welding part of the horn on the overlapping surface when the horizontal degree is determined to be within a predetermined normal range.

The step (c) may further include adjusting the angle of the opposing member by a difference value between the horizontal value of the overlapping surface and the horizontal value of the opposite surface when the horizontal degree is determined to be outside a predetermined normal range.

The step (a) may further include measuring a horizontal value of the overlapping surface, which is a horizontal value of the overlapping surface with respect to a predetermined reference surface.

The step (b) includes a process of measuring an opposite horizontal value, which is a horizontal value with respect to the reference plane of an opposing member that is any one of a welding portion of the horn facing the overlapping surface and an arrangement portion of the anvil on which the overlapping surface is disposed. may include

The predetermined normal range may be set to less than 0.30°.

Meanwhile, the secondary battery of the present invention includes an electrode assembly having an electrode tab and an electrode lead, and an overlapping surface coupled by ultrasonic welding is provided on an overlapping portion of the electrode tab and the electrode lead, and the overlapping surface is the The total bonding force in the full length direction of the overlapping surface and the total bonding force in the full width direction may be the same.

The ultrasonic welding apparatus for a secondary battery of the present invention is characterized in that it includes an inspection member for inspecting the horizontality of the anvil and the horn based on the overlapping surfaces of the electrode tab and the electrode lead. That is, the inspection member includes a horizontal value of an overlapping surface that is a horizontal value of the overlapping surface with respect to a predetermined reference plane, a welding portion of the horn facing the overlapping surface, and an arrangement portion of the anvil on which the overlapping surface is disposed. Based on an opposing horizontal value that is a horizontal value with respect to the reference plane, a horizontal degree of the opposing member with respect to the overlapping surface may be inspected. Accordingly, it is possible to inspect whether the entire overlapping surface of the anvil and the horn can be uniformly pressurized, and as a result, it can be inspected whether defects occur.

In addition, the ultrasonic welding apparatus for a secondary battery of the present invention is characterized in that it includes an angle adjusting member for correcting the angle of the anvil and the horn based on the overlapping surface. That is, the angle adjusting member is provided to adjust the angle of the opposing member by the difference value between the horizontal value of the overlapping surface and the opposite horizontal value when the horizontal degree is determined by the inspection member to be outside a predetermined normal range. Accordingly, the entire overlapping surface of the anvil and the horn can be pressed with a uniform force, and as a result, the bonding force of the entire overlapping surface can be uniformed, thereby preventing defects from occurring.

1 is a cross-sectional view showing a secondary battery according to a first embodiment of the present invention.
2 is a side view showing an ultrasonic welding apparatus for a secondary battery according to a second embodiment of the present invention.
3 is a side view illustrating a horn measuring member and a horn angle adjusting member of an ultrasonic welding apparatus for a secondary battery according to a second embodiment of the present invention.
Fig. 4 is a front view of Fig. 3;
5 is a side view showing an anvil measuring member and an anvil angle adjusting member of an ultrasonic welding apparatus for a secondary battery according to a second embodiment of the present invention;
Fig. 6 is a front view of Fig. 5;
7 is a flowchart illustrating an ultrasonic welding method for a secondary battery according to a second embodiment of the present invention.
8 to 10 are photographs of overlapping surfaces welded by the ultrasonic welding apparatus for secondary batteries according to the second embodiment.
11 is a graph of measuring tensile strength of a negative electrode tab and a negative electrode lead welded by the ultrasonic welding apparatus for a secondary battery according to the second embodiment;
12 is a graph of measuring tensile strength of a positive electrode tab and a positive electrode lead welded by the ultrasonic welding apparatus for a secondary battery according to the second embodiment;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily carry out the present invention. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

[Secondary battery according to the first embodiment of the present invention]

As shown in FIG. 1 , the secondary battery 1 according to the first embodiment of the present invention includes an electrode assembly 10 having an electrode tab 11 , and an electrode lead coupled to the electrode tab 11 ( 20), and a pouch 50 for accommodating the electrode assembly 10 in a state in which the tip of the electrode lead 20 is withdrawn to the outside.

Here, the electrode tab 11 and the electrode lead 20 are partially overlapped, and then the overlapped portion of the electrode tab 11 and the electrode lead 20 is ultrasonically welded to combine. That is, an overlapping surface 30 coupled by ultrasonic welding is provided on an overlapping portion of the electrode tab and the electrode lead. In this case, the ultrasonic welding apparatus for secondary batteries according to the first embodiment of the present invention is used.

In particular, the overlapping surface 30 is ultrasonically welded through the ultrasonic welding apparatus for a secondary battery according to the second embodiment of the present invention, so that the overall bonding force and the overall width of the overlapping surface 30 (left and right direction in FIG. 1 ) The overall bonding force can be uniformly (or identically) provided in the direction (front-to-back direction when viewed in FIG. 1 ), and as a result, the welding quality can be improved.

Hereinafter, an ultrasonic welding apparatus for a secondary battery according to a second embodiment of the present invention will be described in detail.

[Ultrasound welding device for secondary battery according to the second embodiment of the present invention]

As shown in FIGS. 2 to 6 , the ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention includes the electrode tab 11 and the electrode lead 20 provided in the electrode assembly 10 . It includes an anvil 110 on which the overlapping surface 30 is disposed, and a horn 120 provided to weld the overlapping surface 30 disposed on the anvil 110 .

That is, in the ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention, the anvil 110 and the horn 120 press-fit the overlapping surface 30 of the electrode tab 11 and the electrode lead 20 . In this state, the overlapping surface 30 is ultrasonically welded through the horn 120 , and thus the electrode tab 11 and the electrode lead 20 can be connected to each other.

On the other hand, the ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention includes the arrangement portion 111 of the anvil 110 on which the welding portion 121 of the horn 120 or the overlapping surface 30 is disposed. When the horizontal degree of the overlapping surface 30 is different, it is not possible to uniformly press-fit the entire overlapping surface 30 through the anvil 110 and the horn 120, and accordingly, the welding applied to the entire overlapping surface 30 The difference in energy can cause welding defects.

In order to solve the problems such as the shopping mall, the ultrasonic welding apparatus 100 for secondary batteries according to the second embodiment of the present invention includes the arrangement part 111 of the anvil 110 or the horn 120 based on the overlapping surface 30 . The welding part 121 includes an inspection member 150 for inspecting the horizontal degree. The inspection member 150 may inspect whether the entire overlapping surface 30 can be uniformly press-fitted through the anvil 110 and the horn 120 , thereby inspecting whether a welding defect occurs.

That is, the inspection member 150 includes a horizontal value of the overlapping surface, which is a horizontal value of the overlapping surface 30 with respect to a predetermined reference surface 40 , and a welding portion 121 of the horn 120 facing the overlapping surface 30 . and an opposing horizontal value that is a horizontal value with respect to the reference plane 40 of the opposing member, which is any one of the disposition portions 111 of the anvil 110 on which the overlapping surface 30 is disposed, the overlapping surface 30 ) to inspect the horizontal degree of the opposing member, and accordingly, the inspection member 150 can check whether the entire overlapping surface 30 can be uniformly press-fitted through the anvil 110 and the horn 120 . .

Here, when the horizontal degree is determined within a predetermined normal range by the inspection member 150 , the horn 120 supports the welding part 121 of the horn 120 on the overlapping surface 30 . It is provided to apply ultrasonic waves, and thus the welding energy applied to the entire overlapping surface 30 can be uniformed, and as a result, the entire overlapping surface can be uniformly welded, thereby improving welding quality.

Therefore, the ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention includes an inspection member, so that the welding part 111 of the anvil 110 or the welding part of the horn 120 with respect to the overlapping surface 30 ( 121) The horizontal degree can be inspected, and accordingly, it can be inspected whether the entire overlapping surface 30 can be uniformly press-fitted through the anvil 110 and the horn 120, and as a result, it is inspected whether a welding defect occurs. can do.

On the other hand, in the ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention, the overlapping surface measuring member for measuring the horizontal value of the overlapping surface, which is the horizontal value of the overlapping surface 30 with respect to the predetermined reference surface 40 . (130), the opposite member of any one of the welding portion 121 of the horn 120 facing the overlapping surface 30 and the placement portion 111 of the anvil 110 on which the overlapping surface 30 is disposed and an opposing measuring member for measuring an opposing horizontal value that is a horizontal value with respect to the reference plane 40 of .

The overlapping surface measuring member 130 is provided close to the overlapping surface 30 of the electrode tab 11 and the electrode lead 20 , and the horizontal value of the overlapping surface 30 is measured based on the reference surface 40 . do. That is, the overlapping surface measuring member 130 calculates the overlapping surface horizontal value of how many degrees the overlapping surface 30 has an inclination angle with respect to the reference surface 40 .

On the other hand, the overlapping surface measuring member 130 is provided in at least three places on the overlapping surface 30, and accordingly, the overlapping surface measuring member 130 can measure the horizontal value of three or more places of the overlapping surface 30 If there is an overlap, the horizontal value is calculated as the average of three or more measured horizontal values.

On the other hand, the horizontal value of the overlapping surface includes a full-length direction inclination angle (A1°) of the overlapping surface 30 and a full-width direction inclination angle (A2°) of the overlapping surface 30 in a state where the reference plane is set to 0°. That is, the overlapping surface measuring member 130 measures the overlapping surface horizontal value including the full-length direction inclination angle (A1°) of the overlapping surface with respect to the reference surface 40 and the full-width direction inclination angle (A2°) of the overlapping surface.

The opposing measuring member is one of the welding part 121 of the horn 120 facing the overlapping surface 30 and the placement part 111 of the anvil 110 on which the overlapping surface 30 is disposed. A horizontal value opposite to that of the reference plane 40 is measured. That is, the opposing measuring member measures the opposing horizontal value to determine how many degrees of inclination angle the opposing member has with respect to the overlapping surface of the opposing member.

Meanwhile, the opposing horizontal value includes an inclination angle in the full length direction of the opposing member and an inclination angle in the full width direction of the opposing member in a state where the reference plane or the overlapping surface is set to 0°. Accordingly, the inspection member is provided to compare the full length direction inclination angle of the overlapping surface and the full length direction inclination angle of the opposing member, and is provided to compare the full width direction inclination angle of the overlapping surface and the full width direction inclination angle of the opposing member.

For example, the opposing member includes a horn measuring member 140 and an anvil measuring member 170 .

The horn measuring member 140 measures the horizontal value of the welding part of the horn 120 facing the overlapping surface 30 based on the reference surface 40 . On the other hand, the horizontal value of the horn welding part includes the full-length direction inclination angle (B1°) of the horn 120 and the full-width direction inclination angle (B2°) of the horn 120 with the reference plane 40 set to 0° . That is, the horn measuring member 140 includes a full length direction inclination angle (B1°) of the horn 120 and a full width direction inclination angle (B2°) of the horn 120 with respect to the reference plane 40. The horn welding part is horizontal Measure the value.

That is, the inspection member 150 compares the horizontal value of the overlapping surface measured by the overlapping surface measuring member 130 and the horizontal value of the weld measured by the horn measuring member 140 to determine if it is determined within a normal range. If it is judged to be outside the normal range, it is determined as defective.

For example, the inspection member 150 compares the inclination angle (A1°) in the full length direction of the overlapping surface 30 and the inclination angle (B1°) in the full length direction of the horn 120 to calculate the difference value in the full length direction of the horn, A difference value in the full width direction of the horn is calculated by comparing the inclination angle in the full width direction (A2°) of the overlapping surface 30 and the inclination angle in the full width direction (B2°) of the horn 120 .

Therefore, the inspection member 150 determines that both the difference value in the full length direction of the horn and the difference value in the full width direction of the horn are within the normal range, and is determined to be normal, and if any one is determined to be within the normal range, it is determined as defective.

The anvil measuring member 170 is provided in the anvil 110 , and measures the horizontal value of the arrangement part 111 of the anvil 110 based on the reference plane 40 .

As an example, the horizontal value of the arrangement is the full-length direction inclination angle (C1°) of the anvil 110 and the full-width direction inclination angle (C2°) of the anvil 110 in a state where the reference plane 40 is set to 0°. include That is, the anvil measuring member 170 includes the full length direction inclination angle (C1°) of the anvil 110 and the full width direction inclination angle (C2°) of the anvil 110 with respect to the reference plane 40 . Measure the horizontal value.

When the horizontal value of the arrangement part is measured by the anvil measuring member 170 as described above, the inspection member 150 overlaps the horizontal value of the arrangement part of the anvil 110 measured by the anvil measuring member 170 . By comparing the horizontal values of the overlapping surfaces measured by the measuring member 130, if it is determined to be within the normal range, it is determined as normal, and if it is determined to be outside the normal range, it is determined to be defective.

At this time, the inspection member 150 compares the full length direction inclination angle (A1°) of the overlapping surface 30 and the full length direction inclination angle (C1°) of the anvil 110 to calculate the difference value in the full length direction of the anvil, and A difference value in the full width direction of the anvil is calculated by comparing the inclination angle A2° in the full width direction of the face 30 and the inclination angle C2° in the full width direction of the anvil 110 .

Therefore, the inspection member 150 determines that both the difference value in the full length direction of the anvil and the difference value in the full width direction of the anvil are within the normal range, and is determined to be normal, and if any one is determined to be outside the normal range, it is determined as defective.

The ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention having such a configuration includes the overlapping surface measuring member 130 and the opposite measuring member, so that the horizontal of the horn 120 and the anvil based on the overlapping surface The degree of accuracy can be confirmed, and accordingly, the possibility of occurrence of welding defects can be accurately confirmed.

Here, the reference surface 40 may be the ground or a support surface of a workbench on which the ultrasonic welding apparatus is installed.

On the other hand, when the ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention is determined to be defective by the inspection member 150, the opposite member is equal to the difference between the horizontal value of the overlapping surface and the horizontal value of the opposite surface. It further includes an angle adjusting member for adjusting the angle of.

That is, the angle adjusting member adjusts the angle of the opposing member by the difference value between the horizontal value of the overlapping surface and the opposite horizontal value when the horizontal degree is determined by the inspection member 150 to be outside a predetermined normal range, Accordingly, the horizontal degree of the opposing member with respect to the overlapping surface 30 may be adjusted to be positioned within the normal range.

For example, the angle adjusting member includes a horn angle adjusting member 160 and an anvil angle adjusting member 180 .

When the horn angle adjustment member 160 is determined to be defective by the inspection member 150, the horn 120 is moved left and right or The horizontal value of the welding part of the horn 120 is adjusted by rotating it in the front-rear direction. Accordingly, the horizontal value of the overlapping surface and the horizontal value of the welding part of the horn 120 may be arranged to coincide with the reference plane.

When the anvil angle adjustment member 180 is determined to be defective by the inspection member 150, the anvil 110 is moved in the left and right or front and rear directions by the difference value obtained by subtracting the horizontal value of the overlapping surface and the horizontal value of the arrangement part of the anvil. by rotating to adjust the horizontal value of the arrangement part of the anvil 110 . Accordingly, the horizontal value of the overlapping surface and the horizontal value of the arrangement unit may be arranged to coincide with the reference plane.

Meanwhile, the normal range may be less than 0.30°, preferably less than 0.075°.

Therefore, the ultrasonic welding apparatus 100 for a secondary battery according to the second embodiment of the present invention can adjust the horizontal degree of the opposing member with respect to the overlapping surface 30 to be located within the normal range by including an angle adjusting member, As a result, it is possible to weld the entire overlapping surface through the anvil and the horn in a press-fit state with uniform welding energy.

Hereinafter, a welding method using the ultrasonic welding apparatus for a secondary battery according to a second embodiment of the present invention will be described.

[Ultrasound welding method for secondary battery according to the second embodiment of the present invention]

The ultrasonic welding method for a secondary battery according to the second embodiment of the present invention is for welding the electrode tab 11 and the electrode lead 20 provided in the electrode assembly 10, as shown in FIG. 7, ( a) arranging the overlapping surface on the anvil, (b) arranging the horn for overlapping surface welding; (c) level inspection and welding steps.

In step (a), the overlapping surface 30 of the electrode tab 11 and the electrode lead 20 provided in the electrode assembly 10 is disposed on the anvil 110 .

Here, step (a) further includes a step of measuring a horizontal value of the overlapping surface, which is a horizontal value of the overlapping surface 30 with respect to a predetermined reference surface 40 , in which case the overlapping surface measuring member 130 is used.

That is, the overlapping surface measuring member 130 measures the horizontal value of the overlapping surface 30 of the electrode tab 11 and the electrode lead 20 based on the reference surface 40 . At this time, the overlapping surface measuring member 130 measures the overall length direction inclination angle of the overlapping surface 30 and the full width direction inclination angle of the overlapping surface 30 as the overlapping surface horizontal value.

Step (b) arranges the horn 120 for welding the overlapping surface 30 disposed on the anvil 110 .

Here, step (b) is opposite to any one of the welding portion 121 of the horn 120 facing the overlapping surface 30 and the placement portion 111 of the anvil 110 in which the overlapping surface 30 is disposed. The method further includes the step of measuring an opposite horizontal value that is a horizontal value with respect to the reference plane of the member. In this case, an opposing measuring member is used, and the opposing measuring member includes an anvil measuring member 170 and a horn measuring member 140 .

The anvil measuring member 170 measures the horizontal value of the arrangement part of the anvil 110 on which the overlapping surface is disposed based on a reference plane. The horn measuring member 140 measures the horizontal value of the welding part of the horn toward the overlapping surface 30 with respect to the reference plane.

Step (c) includes the horizontal value of the overlapping surface that is the horizontal value of the overlapping surface 30 with respect to the predetermined reference surface 40, the welding part 121 of the horn 120 facing the overlapping surface 30, and the overlapping The opposing member with respect to the overlapping surface 30 based on an opposing horizontal value that is a horizontal value with respect to the reference plane 40 of the opposing member that is any one of the disposition portions 111 of the anvil 110 on which the face is disposed Check the horizontal level of In this case, the inspection member 150 is used.

The inspection member 150 compares the horizontal value of the arrangement part and the horizontal value of the overlapping surface, and when it is determined to be within a normal range, it is determined to be normal, and when it is determined to be outside, it is determined to be defective. That is, the inspection member 150 can check the difference in the pressing force applied to the entire overlapping surface through the horizontal value of the overlapping surface and the horizontal value of the placement part, and accordingly, it is confirmed in advance that a welding defect occurs on the overlapping surface 30 . can

And, the inspection member 150 compares the horizontal value of the overlapping surface and the horizontal value of the welded part, and when it is determined to be within a normal range, it is determined to be normal, and when it is determined to be outside, it is determined to be defective. That is, the inspection member 150 can check the difference in the pressing force applied to the entire overlapping surface 30 through the horizontal value of the overlapping surface and the horizontal value of the welding part, and accordingly, the occurrence of welding defects on the overlapping surface 30 in advance can be checked in

Here, in step (c), when the horizontal degree is determined to be within a predetermined normal range, ultrasonic waves are applied to the overlapping surface 30 by applying ultrasonic waves while supporting the welding part 121 of the horn 120 on the overlapping surface 30 . ) further comprising a process of welding.

On the other hand, the predetermined normal range may be less than 0.30°, preferably less than 0.075°.

Meanwhile, the step (c) further includes a step of adjusting the angle of the opposing member by a difference value between the horizontal value of the overlapping surface and the opposite horizontal value when the horizontal degree is determined to be outside a predetermined normal range. In this case, an angle adjusting member is used, and the angle adjusting member includes a horn angle adjusting member 160 and an anvil angle adjusting member 180 .

That is, the horn angle adjusting member 160 is for adjusting the horizontal degree of the horn, and adjusts the welding angle of the horn 120 by the difference value between the horizontal value of the overlapping surface and the horizontal value of the welding portion, and, accordingly, the overlapping surface It is possible to match the horizontal value and the horizontal value of the welding part, and as a result, uniformly pressurizing the entire overlapping surface or uniformly applying ultrasonic waves to prevent welding defects.

The anvil angle adjusting member 180 is for adjusting the horizontal degree of the anvil, and adjusts the angle of the arrangement surface of the anvil by the difference value between the horizontal value of the arrangement part of the anvil and the horizontal value of the overlapping surface. Accordingly, the horizontal value of the arrangement part of the anvil can match the horizontal value of the overlapping surface, and as a result, it is possible to prevent the occurrence of welding defects.

Therefore, in the ultrasonic welding method for a secondary battery according to the second embodiment of the present invention, the entire overlapping surface of the electrode tab and the electrode lead can be uniformly welded, and as a result, the welding quality can be improved.

[Experimental example]

Experiment preparation

The electrode tab and the electrode lead are welded using the ultrasonic device 100 for a secondary battery according to the second embodiment of the present invention.

In Preparation Example 1, when the horizontality of the anvil 110 and the horn 120 is 0°, the overlapping surfaces of the electrode tabs and the electrode leads are welded, and then the welded overlapping surfaces are photographed. Then, a picture as shown in FIG. 8 can be obtained. Here, the unit area (mm ² ) of the welded overlapping surface is 44 mm wide and 3 mm long.

In Preparation Example 2, when the horizontality of the anvil 110 and the horn 120 is 0.075° different, the overlapping surfaces of the electrode tabs and the electrode leads are welded, and then the welded overlapping surfaces are photographed. Then, a picture as shown in FIG. 9 can be obtained. Here, the unit area (mm ² ) of the welded overlapping surface is 44 mm wide and 3 mm long.

In Preparation Example 3, when the horizontality of the anvil 110 and the horn 120 is 0.15° different, the overlapping surfaces of the electrode tabs and the electrode leads are welded, and then the welded overlapping surfaces are photographed. Then, a picture as shown in FIG. 10 can be obtained. Here, the unit area (mm ² ) of the welded overlapping surface is 44 mm wide and 3 mm long.

Here, the electrode tab includes a negative electrode tab and a positive electrode tab, and the electrode lead includes a negative electrode lead and a positive electrode lead. That is, the welding state of the negative electrode tab and the negative electrode lead and the welding state of the positive electrode tab and the positive electrode lead are tested respectively.

Welding result

Referring to FIG. 8 in Preparation Example 1, it can be seen that the entire overlapping surface of the electrode tab and the electrode lead is uniformly welded.

In Preparation Example 2, referring to FIG. 9 , it can be seen that a welding defect occurred in a right part of the entire overlapping surface of the electrode tab and the electrode lead. That is, it can be confirmed that the welding defect occurs in the spaced part of the anvil and the horn.

Referring to FIG. 10 in Preparation Example 3, it can be seen that welding defects occurred in about half of the entire overlapping surface of the electrode tab and the electrode lead. That is, it can be seen that welding defects occur as about half of the anvil and the horn are not compressed.

Therefore, in the ultrasonic device 100 for a secondary battery according to the second embodiment of the present invention, as in Manufacturing Example 1, when welding the overlapping surfaces of the electrode tab and the electrode lead, the horizontality of the anvil and the horn is adjusted to be the same, so that the electrode tab and the electrode are the same. It is possible to uniformly weld the entire overlapping surface of the lead, thereby improving the welding quality.

Tensile strength test

As a result of measuring the strength of the overlapping surfaces of the negative electrode tab and the negative electrode lead welded in Preparation Examples 1 to 3, a graph as shown in FIG. 11 can be obtained.

As a result of measuring the strength of the overlapping surfaces of the positive electrode tab and the positive electrode lead welded in Preparation Examples 1 to 3, a graph as shown in FIG. 12 can be obtained.

At this time, the managed tensile strength of the negative electrode is set to 80 kgf. And the managed tensile strength of the positive electrode is set to 60kgf. ^{And the unit area (mm 2} ) of the overlapping surface of the welded negative electrode tab and the negative electrode lead and the overlapping surface of the welded positive electrode tab and the positive electrode lead is provided with a width of 44 mm and a length of 3 mm.

Tensile strength test result

As a result of the welding of the overlapping surface of the negative electrode tab and the negative electrode lead, referring to FIG. 11 , Preparation Example 1 was measured to be greater than the managed tensile strength, confirming that it was a normal welding, and Preparation Example 2 was located at the managed tensile strength, and thus the normal welding was performed. It can be confirmed that the manufacturing example 3 is lower than the managed tensile strength, so it can be confirmed that the welding is poor.

As a result of the test result of the overlapping surface of the welded positive electrode tab and the positive electrode lead, referring to FIG. 12, Preparation Example 1 was measured to be greater than the managed tensile strength, confirming that it was a normal welding, and Preparation Example 2 was located at the managed tensile strength and was therefore normally welded. It can be confirmed that the manufacturing example 3 is lower than the managed tensile strength, so it can be confirmed that the welding is poor.

Therefore, as a result of measuring the tensile strength of Preparation Examples 1 to 3, it is necessary to manage the horizontality of the anvil and the horn to less than 0.075°, and if managed as described above, the welding quality of the electrode tab and the electrode lead can be maintained .

The scope of the present invention is indicated by the following claims rather than the above detailed description, and various embodiments derived from the meaning and scope of the claims and their equivalent concepts are possible.

100: ultrasonic welding device
110: anvil
120: horn
130: overlapping surface measuring member
140: horn measuring member
150: inspection member
160: horn angle adjustment member
170: anvil measuring member
180: anvil angle adjustment member

Claims (14)

an anvil provided so that the overlapping surfaces of the electrode tab and the electrode lead provided in the electrode assembly are disposed;
a horn provided to weld the overlapping surfaces disposed on the anvil; and
The horizontal value of the overlapping surface, which is the horizontal value of the overlapping surface with respect to a predetermined reference surface, and the horizontal value of the opposite member that is any one of the welding part of the horn facing the overlapping surface and the arrangement part of the anvil on which the overlapping surface is disposed with respect to the reference surface An ultrasonic welding apparatus for a secondary battery comprising an inspection member for inspecting a horizontal degree of the opposing member with respect to the overlapping surface based on the opposing horizontal value that is the value. The method according to claim 1,
The horn is an ultrasonic welding apparatus for a secondary battery provided to apply ultrasonic waves in a state in which the welding part of the horn is supported on the overlapping surface when the horizontal degree is determined within a predetermined normal range by the inspection member. The method according to claim 1,
An overlapping surface measuring member for measuring an overlapping surface horizontal value, which is a horizontal value of the overlapping surface with respect to the predetermined reference surface, a welding portion of the horn facing the overlapping surface, and an arrangement portion of the anvil on which the overlapping surface is disposed Ultrasonic welding apparatus for a secondary battery comprising an opposing measuring member for measuring an opposing horizontal value that is a horizontal value with respect to the reference plane of the opposing member. The method according to claim 1,
Ultrasonic welding apparatus for secondary batteries further comprising an angle adjusting member for adjusting the angle of the opposing member by a difference value between the horizontal value of the overlapping surface and the opposite horizontal value. 5. The method according to claim 4,
The angle adjusting member is provided to adjust the angle of the opposing member by the difference value between the horizontal value of the overlapping surface and the opposite horizontal value when the horizontal degree is determined by the inspection member to be outside a predetermined normal range Ultrasound for secondary batteries welding device. The method according to claim 1,
The horizontal value of the overlapping surface includes a full length direction inclination angle of the overlapping surface and a full width direction inclination angle of the overlapping surface in a state where a predetermined reference surface is set to 0°,
The opposing horizontal value includes an inclination angle in the full length direction of the opposing member and an inclination angle in the full width direction of the opposing member with the reference plane set to 0°,
The inspection member is provided to compare the full length direction inclination angle of the overlapping surface and the full length direction inclination angle of the opposing member, and is provided to compare the full width direction inclination angle of the overlapping surface and the full width direction inclination angle of the opposing member Ultrasonic welding device for secondary batteries . 6. The method according to claim 2 or 5,
The predetermined normal range is an ultrasonic welding device for a secondary battery that is set to less than 0.30 °. (a) arranging the overlapping surfaces of the electrode tab and the electrode lead provided in the electrode assembly on the anvil;
(b) disposing a horn for welding the overlapping surfaces disposed on the anvil; and
(c) the reference plane of the opposing member which is any one of a horizontal value of the overlapping surface, which is a horizontal value of the overlapping surface with respect to a predetermined reference surface, a welding portion of the horn facing the overlapping surface, and an arrangement portion of the anvil on which the overlapping surface is disposed An ultrasonic welding method for a secondary battery comprising the step of inspecting a horizontal degree of the opposing member with respect to the overlapping surface based on the opposite horizontal value that is a horizontal value for the secondary battery. 9. The method of claim 8,
The step (c) further includes a step of welding the overlapping surfaces by applying ultrasonic waves while supporting the welding part of the horn on the overlapping surfaces when the horizontal degree is determined to be within a predetermined normal range. . 9. The method of claim 8,
The step (c) further includes the step of adjusting the angle of the opposing member by a difference value between the horizontal value of the overlapping surface and the opposite horizontal value when the horizontal degree is determined to be outside a predetermined normal range. Ultrasonic welding for secondary batteries further comprising: Way. 9. The method of claim 8,
The step (a) further includes the step of measuring a horizontal value of the overlapping surface, which is a horizontal value of the overlapping surface with respect to a predetermined reference surface. 9. The method of claim 8,
The step (b) further includes a process of measuring an opposite horizontal value, which is a horizontal value with respect to the reference plane of the opposite member, which is any one of the welding part of the horn facing the overlapping surface and the placement part of the anvil on which the overlapping surface is disposed. Ultrasonic welding method for secondary batteries, including. 11. The method according to claim 9 or 10,
The ultrasonic welding method for a secondary battery in which the predetermined normal range is set to less than 0.30 °. It includes an electrode assembly provided with an electrode tab and an electrode lead,
An overlapping surface coupled by ultrasonic welding is provided on an overlapping portion of the electrode tab and the electrode lead,
The overlapping surface is a secondary battery provided with the same total bonding force in the overall length direction and the total bonding force in the full width direction of the overlapping surface.

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