KR102270865B1 - Secondary battery and method of measuring insulation voltage thereof - Google Patents

Abstract

The present invention relates to a secondary battery, comprising: an electrode assembly to which first and second electrode leads are coupled; and a pouch provided with a accommodating part for accommodating the electrode assembly in a state in which the front ends of the first and second electrode leads are withdrawn to the outside, and a sealing part for sealing an edge surface of the accommodating part, wherein the pouch is the first number The base layer, the metal layer, and the second resin layer have a structure in which the layer is stacked from the inside to the outside, and a through hole is formed in the second resin layer so that the metal layer is exposed to the outside of the pouch, and the metal layer is exposed outside the through hole. Insulation tape is attached to prevent

Description

Secondary battery and its insulation voltage measurement method {SECONDARY BATTERY AND METHOD OF MEASURING INSULATION VOLTAGE THEREOF}

The present invention relates to a secondary battery and a method for measuring the insulation voltage thereof, and more particularly, to a secondary battery having a structure capable of easily measuring the insulation voltage between an anode lead and a metal layer included in a pouch, and a method for measuring the insulation voltage thereof.

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

The secondary battery includes an electrode assembly, an electrode lead coupled to the electrode assembly, and a pouch for accommodating the electrode assembly in a state in which the tip of the electrode lead is withdrawn to the outside. And the electrode assembly has a structure in which a plurality of electrodes and a plurality of separators are alternately stacked. In addition, the pouch forms an accommodating part for accommodating the electrode assembly, and a sealing part for sealing an edge of the accommodating part.

The method for manufacturing a secondary battery having the above configuration includes a step of manufacturing a pouch having an electrode assembly accommodating part by forming a pouch film in which a first resin layer, a metal layer, and a second resin layer are sequentially stacked, and the electrode assembly of the pouch. It includes a process of accommodating the electrode assembly in a receiving part, and a process of manufacturing a secondary battery as a finished product by sealing the edge surface of the pouch. Here, the metal layer is formed of an aluminum (Al) material.

On the other hand, the secondary battery manufactured as described above measures the insulation voltage as one of the safety tests. That is, the insulation voltage of the secondary battery is measured through the electrode lead and the metal layer included in the pouch.

However, the secondary battery has many difficulties in measuring the insulation voltage because the metal layer included in the pouch is not exposed to the outside.

Korean Patent Publication No. 2013-0014371

The present invention was invented to solve the above problems, and an object of the present invention is a secondary battery having a structure that can easily measure the insulation voltage between a negative electrode lead and a metal layer included in a pouch, and a method for measuring insulation voltage thereof is to provide

A secondary battery according to an embodiment of the present invention for achieving the above object includes an electrode assembly in which first and second electrode leads are combined; and a pouch provided with a accommodating part for accommodating the electrode assembly in a state in which the front ends of the first and second electrode leads are withdrawn to the outside, and a sealing part for sealing an edge surface of the accommodating part, wherein the pouch is the first number The base layer, the metal layer, and the second resin layer have a structure in which the layer is stacked from the inside to the outside, and a through hole is formed in the second resin layer so that the metal layer is exposed to the outside of the pouch, and the metal layer is exposed to the outside in the through hole. Insulation tape can be attached to prevent
The insulating tape has a 'C' shape to be attached to the through hole of the second resin layer provided on the outer upper surface, the bent sealing part, and the through hole of the second resin layer provided on the outer lower surface. can

The through hole is formed to correspond to the second resin layer provided on the outer upper surface and the outer lower surface of the receiving part, and the insulating tape is formed on the outer lower surface in the through hole of the second resin layer provided on the outer upper surface. It can be attached to be connected to the through hole of the second resin layer provided.

The sealing part of the pouch through which the insulating tape passes is bent in close contact with the side surface of the receiving part, and the insulating tape is provided in the through hole of the second resin layer provided on the outer upper surface, the bent sealing part and the outer lower surface. As long as it can be attached to be connected to the through hole of the second resin layer.

The through hole may be formed by melting and evaporating a portion of the second resin layer of the pouch with high-temperature heat.

The through-holes may be formed in pairs at both ends and at the center in the longitudinal direction of the second resin layer, respectively, to correspond to both ends in the width direction of the second resin layer.

On the other hand, the method for measuring the insulation voltage of a secondary battery according to an embodiment of the present invention includes the steps of preparing an electrode assembly in which first and second electrode leads are combined (S10); A secondary battery is manufactured by accommodating the electrode assembly in the receiving portion of the pouch with the front ends of the first and second electrode leads withdrawn to the outside, and forming a sealing portion through sealing the edge surface of the receiving portion, the pouch is a first resin layer, a metal layer, and a second resin layer having a structure in which the second resin layer is stacked from the inside (S20); forming a through hole in the second resin layer outside the accommodating part so that the metal layer is exposed to the outside of the pouch (S30); measuring an insulation voltage between the first electrode lead and the metal layer exposed to the outside through the through hole (S40); and attaching an insulating tape to the through hole to insulate the metal layer exposed to the outside through the through hole (S50).

In the metal layer exposing step ( S30 ), a portion of the second resin layer outside the accommodating part may be melted and evaporated with high temperature heat to form a through hole.

In the step of exposing the metal layer (S30), a through hole is formed to correspond to the second resin layer provided on the outer upper surface and the outer lower surface of the receiving part, and the insulating tape attaching step (S50) is provided on the outer upper surface. The insulating tape may be attached to be connected from the through hole of the second resin layer to the through hole of the second resin layer provided on the outer lower surface.

Between the secondary battery manufacturing step (S20) and the metal layer exposing step (S30), the sealing part bending step (S25) of bending the sealing part of the pouch through which the insulating tape passes to closely adhere to the side of the receiving part, In the insulating tape attaching step (S50), the insulating tape is attached so as to be connected to the through hole of the second resin layer provided on the outer upper surface, the bent sealing part, and the through hole of the second resin layer provided on the outer lower surface. can do.

In the metal layer exposing step (S30), the through holes may be formed at both ends and at the center in the longitudinal direction of the second resin layer, and may be formed in pairs to correspond to both ends in the width direction of the second resin layer. .

The first electrode lead may be provided as a negative electrode lead, and the second electrode lead may be provided as a positive electrode lead.

In the insulation voltage measuring step ( S40 ), when an insulation voltage value of 1 V or more occurs between the first electrode lead and the metal layer exposed to the outside through the through hole, the measurement target product may be determined as defective.

The step of measuring the insulation voltage ( S40 ) may include a step of displaying the measured insulation voltage value of the secondary battery on a monitor in real time.

Through the above examples, the present invention has the following effects.

First: The secondary battery of the present invention can easily measure the insulation voltage by connecting the metal layer exposed to the outside through the through hole formed in the pouch and the first electrode lead. In particular, an insulating tape for fixing the bent sealing part of the pouch is used to insulate the metal layer exposed to the outside through the through hole, thereby reducing cost and obtaining work efficiency.

Second: in the secondary battery of the present invention, the through hole is formed to correspond to the outer upper surface and lower surface of the pouch, and due to this characteristic, the insulating tape extends from the through hole formed in the upper outer surface of the pouch to the through hole formed in the lower surface of the pouch. It can be attached stably, and as a result, the insulation of a metal layer can be improved.

Third: the secondary battery of the present invention has a feature of exposing the metal layer to the outside by melting and evaporating the first resin layer laminated on the outermost part of the pouch, and due to this characteristic, the area of the metal layer exposed to the outside is sufficiently secured and, as a result, the insulation voltage can be easily measured.

Fourth: The secondary battery of the present invention has a feature of forming through-holes at both ends and in the center of the pouch, and due to such a feature, the insulation voltage of the pouch can be measured more accurately.

1 is a perspective view showing a secondary battery according to a first embodiment of the present invention.
2 is a cross-sectional view illustrating a secondary battery according to a first embodiment of the present invention.
3 is a plan view illustrating an apparatus for measuring insulation voltage of a secondary battery according to a second embodiment of the present invention.
4 is a flowchart illustrating a method for measuring an insulation voltage of a secondary battery according to a second embodiment of the present invention.

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 many 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 FIGS. 1 and 2, the secondary battery 100 according to the first embodiment of the present invention includes an electrode assembly 110 in which first and second electrode leads 111 and 112 are combined, the first and a pouch 120 for accommodating the electrode assembly 110 in a state in which the tips of the first and second electrode leads 111 and 112 are drawn out.

The electrode assembly 110 has a structure in which a plurality of electrodes and a plurality of separators are alternately stacked. The plurality of electrodes includes a first electrode and a second electrode, and the first electrode includes a first electrode tab and the second electrode includes a second electrode tab. The first electrode lead 111 is coupled to the first electrode tab, and the second electrode lead 112 is coupled to the second electrode tab.

Here, the first electrode is a cathode, and the second electrode is an anode. Accordingly, the first electrode tab is a negative electrode tab, and the second electrode tab is a positive electrode tab. And the first electrode lead 111 is a negative lead, and the second electrode lead 112 is a positive lead.

Meanwhile, the first electrode lead 111 and the second electrode lead 112 may be coupled to the electrode assembly 110 in the same direction or may be coupled to each other in different directions.

The pouch 120 includes a accommodating part 121 for accommodating the electrode assembly 110 in a state in which the ends of the first and second electrode leads 111 and 112 are withdrawn to the outside, and the accommodating part 121 . ) and a sealing part 122 for sealing the edge surface.

Here, the pouch 120 is manufactured by forming and sealing a pouch film having a structure in which the first resin layer 120a, the metal layer 120b, and the second resin layer 120c are stacked from the inside to the outside. That is, the accommodating part 121 and the sealing part 122 have a structure in which a first resin layer 120a, a metal layer 120b, and a second resin layer 120c are stacked from the inside to the outside.

On the other hand, in order to clearly distinguish the drawings of the receiving part 121, the sealing part 122, the first resin layer 120a, the metal layer 120b, and the second resin layer 120c included in the pouch of the present invention, The accommodating part 121 and the sealing part 122 are indicated by an arrow (→) as an indicator line, and the first resin layer 120a, the metal layer 120b, and the second resin layer 120c are indicated by a wavy line (~). mark the leader line. Meanwhile, the metal layer 120b is formed of an aluminum (Al) material.

The secondary battery 100 according to the first embodiment of the present invention having such a configuration measures the insulation voltage through the metal layer 120b and the first electrode lead 111 included in the pouch 120 .

That is, in the secondary battery 100 according to the first embodiment of the present invention, a through hole 120c-1 is formed on the surface of the second resin layer 120c stacked on the outermost side of the pouch 120, and the An insulation voltage meter (reference numeral 200 shown in FIG. 3 ) was applied to the metal layer 120b exposed to the outside through the through hole 120c-1 and the first electrode lead 111 drawn out of the pouch 120 . connected to measure the insulation voltage generated between the metal layer 120b and the first electrode lead 111 .

On the other hand, if the insulation voltage value between the metal layer 120b and the first electrode lead 111 is 1V or more (using an internal resistance 10M ohm detector), the measured secondary battery 100 has an anode connection. In this case, when negative contact occurs, there is a problem in that the potential of the pouch goes down to the potential of the negative electrode. In particular, the secondary battery 100 in which the negative electrode contact has occurred may form a lithium aluminum (Li-AL) alloy through a reaction between aluminum (Al), which is the metal layer 120b, and lithium (Li) in a fully charged state, and this lithium Since the aluminum alloy consumes aluminum that prevents the penetration of moisture, it may cause abnormal operation of the secondary battery, and in severe cases, electrolyte leakage may occur.

Accordingly, in the secondary battery 100 according to the first embodiment of the present invention, the metal layer 120b exposed to the outside through the through hole 120c-1 and the first electrode lead drawn out of the pouch 120 are provided. Through (111), it is possible to more accurately measure whether the insulation voltage value exceeds 1V or more, and accordingly, product defects of the secondary battery can be more accurately inspected.

On the other hand, when the insulation voltage between the metal layer 120b and the first electrode lead 111 is determined to be normal, the through hole 120c-1 has an insulating tape 130 for preventing external exposure of the metal layer 120b. ), thereby preventing accidents that may occur due to external exposure of the metal layer 120b.

Here, the through hole 120c-1 is formed to correspond to the second resin layer 120c provided on the outer upper surface and the outer lower surface of the accommodating part 121. Accordingly, the insulating tape 130 is It can be attached to be connected from the through hole 120c-1 of the second resin layer 120c provided on the outer upper surface to the through hole 120c-1 of the second resin layer 120c provided on the outer lower surface. As a result, the insulating tape 130 can be more stably attached to the pouch 120 , and attached on the metal layer 120b to insulate the metal layer 120b more stably.

On the other hand, the metal layer 120b exposed through the through hole 120c-1 may be insulated using an insulating tape for fixing the sealing portion 122 folded in close contact with the side of the pouch 120, and accordingly Workability and cost can be reduced.

That is, the pouch 120 is a method for designing a more compact size. The sealing part 122 located on the side of the pouch 120 from which the electrode lead is not drawn is bent, and the bent sealing part 122 is ) is fixed to the side of the pouch 120 by attaching an insulating tape. By insulating the metal layer 120b exposed to the outside through the through hole 120c-1 using an insulating tape for fixing the sealing part 122, the efficiency of the operation can be improved and the cost can be reduced.

For example, the sealing part 122 of the pouch 120 through which the insulating tape 130 passes is bent in close contact with the side surface of the receiving part 121 , and the insulating tape 130 is placed on the outer upper surface. to the through-hole 120c-1 of the second resin layer 120c provided, the bent sealing part 122, and the through-hole 120c-1 of the second resin layer 120c provided on the outer lower surface. Can be attached to connect.

Meanwhile, the through hole 120c-1 may be formed by melting and evaporating a portion of the second resin layer 120c of the pouch 120 with high-temperature heat, and thus the metal layer 120b is not damaged. The through hole 120c-1 can be formed more easily.

On the other hand, the through-holes 120c-1 are formed at both ends and at the center in the longitudinal direction of the second resin layer 120c, respectively, and correspond to both ends in the width direction of the second resin layer 120c. It may be provided in pairs. That is, it is possible to measure the insulation voltage at a plurality of places on the surface of the pouch 120 , and accordingly, the insulation voltage can be measured more accurately to determine whether a defect is present.

A method for measuring the insulation voltage of the secondary battery 100 according to the first embodiment of the present invention having the above configuration will be described as follows.

[Method for measuring insulation voltage of a secondary battery according to a second embodiment of the present invention]

As shown in FIG. 4 , the method for measuring the insulation voltage of a secondary battery according to the second embodiment of the present invention comprises the steps of preparing an electrode assembly (S10), and accommodating the electrode assembly 110 in a pouch 120. Step (S20), forming a through hole in the pouch (120) (S30), measuring the insulation voltage (S40); and attaching an insulating tape to the through hole (S50).

In the electrode assembly preparation step (S10), the electrode assembly 110 is manufactured by alternately stacking a plurality of electrodes and a plurality of separators, and first and second electrode leads 111 and 112 are applied to the electrode assembly 110. combine each

Here, the plurality of electrodes includes a first electrode and a second electrode, the first electrode includes a first electrode tab, and the second electrode includes a second electrode tab. The first electrode lead 111 is coupled to the first electrode tab, and the second electrode lead 112 is coupled to the second electrode tab.

In the secondary battery manufacturing step (S20), the electrode assembly 110 is placed in the receiving part 121 of the pouch 120 in a state in which the tips of the first and second electrode leads 111 and 112 are withdrawn to the outside. Accept. Next, the sealing part 122 is formed by sealing the edge surface of the demand part 121 . Then, the secondary battery 100 in which the electrode assembly 110 is sealedly accommodated in the receiving part 121 of the pouch 120 can be manufactured.

Here, the pouch 120 has a structure in which a first resin layer 120a, a metal layer 120b, and a second resin layer 120c are stacked from the inside to the outside, and the metal layer 120b is formed of an aluminum material.

In the metal layer exposing step (S30), the receiving part 121 so that the metal layer 120b interposed between the first resin layer 120a and the second resin layer 120c is exposed to the outside of the pouch 120 . A through hole 120c-1 is formed in the second resin layer 120c laminated on the outermost part of the .

For example, in the step of exposing the metal layer ( S30 ), a portion of the second resin layer ( 120c ) stacked on the outermost part of the receiving part ( 121 ) is heated to high temperature using a heating device (not shown) that generates high temperature heat. It is melted and evaporated, thereby forming a through hole 120c-1 having a predetermined size.

Here, the through hole 120c-1 may form a through hole 120c-1 to correspond to the second resin layer 120c provided on the outer upper surface and the outer lower surface of the receiving part 121, Accordingly, the upper and lower metal layers 120b can be exposed to the outside, and in particular, the insulating tape 130 can be easily attached to the through hole 120c-1 in the insulating tape attaching step (S50).

Meanwhile, in the metal layer exposing step (S30), the through-holes 120c-1 are formed at both ends and the center in the longitudinal direction of the second resin layer 120c, but in the width direction of the second resin layer 120c. can be formed in a pair to correspond to both ends, and accordingly, the insulation voltage can be measured through the plurality of through-holes 120c-1 formed in the pouch 120 in the insulation voltage measuring step (S40) to increase the accuracy. have.

On the other hand, between the secondary battery manufacturing step (S20) and the metal layer exposing step (S30), the sealing part bending step of bending the sealing part 122 of the pouch 120 in close contact with the side of the receiving part 121 ( S25) is further included.

In the sealing part bending step (S25), the sealing part 122 of the pouch 120 from which the first and second electrode leads 111 and 112 are not drawn out is bent in close contact with the side surface of the receiving part 121 . make it

In the insulating voltage measuring step (S40), as shown in FIG. 3 , the first electrode lead 111 drawn out of the pouch 120 and the metal layer exposed to the outside through the through hole 120c-1 Between (120b), the insulation voltage is measured using the insulation voltage meter 200.

For example, in the insulation voltage measuring step (S40), the insulation voltage value measured between the first electrode lead 111, which is the cathode lead, and the metal layer 120b, which is aluminum is 1V or more (using an internal resistance 10Mohm detector), the measurement In the secondary battery 100 , it is determined that the negative electrode contact has occurred, and when the negative electrode contact occurs, there is a problem in that the potential of the pouch 120 goes down to the potential of the negative electrode. In particular, in the secondary battery 100 in which the negative electrode contact has occurred, a lithium aluminum (Li-AL) alloy can be formed through a reaction between the aluminum metal layer 120b and lithium (Li) in a fully charged state, and the lithium aluminum alloy is Since it consumes aluminum that prevents moisture penetration, it may cause abnormal operation of the secondary battery, and in severe cases, electrolyte leakage may occur.

Accordingly, the insulation voltage measuring step (S40) is to measure whether the value of the insulation voltage measured between the first electrode lead 111, which is the cathode lead, and the metal layer 120b, which is aluminum, is 1V or more, but the insulation voltage value is 1V Below, it is determined as normal, and when the insulation voltage value is 1V or more, it is determined as defective.

On the other hand, the insulation voltage measuring step (S40) may include a step of displaying and storing the measured insulation voltage value of the secondary battery 100 on the monitor 210 in real time, referring to FIG. can easily check the insulation voltage value of the secondary battery 100 measured through the monitor 210 , and can accurately determine whether or not there is a defect.

In the metal layer insulation step (S50), when the insulation voltage between the metal layer 120b exposed through the plurality of through-holes 120c-1 and the first electrode lead 111 is determined to be normal, the through-hole 120c-1 ) to insulate the metal layer 120b exposed to the outside through the through-hole 120c-1 by attaching the insulating tape 130 to it.

Here, the insulating tape 130 is formed from the through hole 120c-1 of the second resin layer 120c provided on the outer upper surface to the through hole 120c of the second resin layer 120c provided on the outer lower surface. By attaching it to -1), insulation and adhesion can be improved at the same time.

In particular, when the sealing part 122 of the pouch 120 through which the insulating tape 130 passes is folded and in close contact with the side surface of the receiving part 121, the insulating tape 130 is provided on the outer upper surface. One through hole 120c-1 of the second resin layer 120c, the bent sealing part 122, and the through hole 120c-1 of the second resin layer 120c provided on the outer lower surface are connected to each other. In this way, insulation, adhesion, and sealing part fixability can be improved.

The method for measuring the insulation voltage of a secondary battery according to the second embodiment of the present invention can more easily measure the insulation voltage between the first electrode lead 111 and the metal layer 120b included in the pouch 120 .

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: secondary battery
110: electrode assembly
111: first electrode lead
112: second electrode lead
120: pouch
120a: first resin layer
120b: metal layer
120c: second resin layer
121: receptacle
122: sealing part
130: insulating tape

Claims (13)

an electrode assembly to which the first and second electrode leads are coupled;
and a pouch provided with a accommodating part for accommodating the electrode assembly in a state in which the front ends of the first and second electrode leads are withdrawn to the outside, and a sealing part for sealing the edge surface of the accommodating part,
The pouch has a structure in which a first resin layer, a metal layer, and a second resin layer are stacked from the inside to the outside,
A through hole is formed in the second resin layer so that the metal layer is exposed to the outside of the pouch,
An insulating tape is attached to the through hole to prevent external exposure of the metal layer,
The through hole is formed to correspond to the second resin layer provided on the outer upper surface and the outer lower surface of the receiving part,
The sealing part of the pouch through which the insulating tape passes is bent in close contact with the side surface of the receiving part,
The insulating tape has a 'C' shape to be attached to the through hole of the second resin layer provided on the outer upper surface, the bent sealing part, and the through hole of the second resin layer provided on the outer lower surface. ,
The through-holes are formed at both ends and at the center in the longitudinal direction of the second resin layer, respectively, and are formed as a pair so as to correspond to both ends in the width direction of the second resin layer. delete delete The method according to claim 1,
The through hole is formed by melting and evaporating a portion of the second resin layer of the pouch with high-temperature heat. delete Preparing an electrode assembly in which the first and second electrode leads are coupled (S10);
A secondary battery is manufactured by accommodating the electrode assembly in the receiving portion of the pouch with the front ends of the first and second electrode leads withdrawn to the outside, and forming a sealing portion through sealing the edge surface of the receiving portion, the pouch is a first resin layer, a metal layer, and a second resin layer having a structure in which the second resin layer is stacked from the inside (S20);
forming a through hole in the second resin layer outside the accommodating part so that the metal layer is exposed to the outside of the pouch (S30);
measuring an insulation voltage between the first electrode lead and the metal layer exposed to the outside through the through hole (S40); and
Insulating the metal layer exposed to the outside through the through hole by attaching an insulating tape to the through hole (S50) ,
In the step of exposing the metal layer (S30), a through hole is formed to correspond to the second resin layer provided on the outer upper surface and the outer lower surface of the receiving part,
Between the secondary battery manufacturing step (S20) and the metal layer exposing step (S30), the sealing part bending step (S25) of bending the sealing part of the pouch through which the insulating tape passes to closely adhere to the side of the receiving part,
The insulating tape attaching step (S50) is a 'C' shape to be connected to the through hole of the second resin layer provided on the outer upper surface, the bent sealing part, and the through hole of the second resin layer provided on the outer lower surface. Insulation tape with the shape is attached,
In the metal layer exposing step (S30), the through-holes are formed at both ends and at the center in the longitudinal direction of the second resin layer, and are formed in pairs so as to be in contact with both ends in the width direction of the second resin layer. How to measure insulation voltage. 7. The method of claim 6,
The metal layer exposing step (S30) is a method of measuring the insulation voltage of a secondary battery by melting and evaporating a portion of the second resin layer outside the accommodating part with high-temperature heat to form a through hole. delete delete delete 7. The method of claim 6,
The first electrode lead is provided as a negative electrode lead, and the second electrode lead is provided as a positive electrode lead. 7. The method of claim 6,
In the insulating voltage measuring step (S40), when an insulating voltage value of 1 V or more occurs between the first electrode lead and the metal layer exposed to the outside through the through hole, the measurement target product is determined as defective. . 13. The method of claim 12,
The insulation voltage measuring step (S40) includes displaying the measured insulation voltage value of the secondary battery on a monitor in real time.

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