KR101392213B1 - Pouch-type battery case including isolation resistance measuring part - Google Patents

Abstract

Provided in the present invention are a battery case of a pouch-type battery having an insulation resistance measurement part, and a pouch-type battery and an insulation resistance measurement system including the same. The battery case of the present invention comprises an insulation resistance measurement part protruded from one part of the pouch-type battery case consisting of a sheet comprising an outside covering layer, a metal barrier layer, and an inside sealant layer, wherein the insulation measurement part comprises a probe hole in which the outside covering layer of the pouch-type battery case is removed, and thus, the battery case protecting an electrode assembly is not damaged, and the insulation resistance value can be easily and accurately measured.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery case having an insulation resistance measuring unit, a pouch-

The present invention relates to a battery case having an insulation resistance measuring unit, a pouch type battery including the same, and an insulation resistance measuring system.

1, which is a perspective view of an outer shape of a pouch-shaped battery, the pouch-shaped battery 100 is composed of an electrode assembly 300 and a pouch-shaped battery case 200. The method of manufacturing the pouch-type battery 100 includes a method of bonding the pouch raw material having a predetermined size to the upper and lower portions of the electrode assembly 300 so that the pouch-shaped battery case 200 covers the battery assembly 300 . The pouch-shaped battery case 200 is formed in the form of a metal barrier layer such as an aluminum foil in order to protect the electrode assembly 300 and improve the electrochemical properties of the electrode assembly 300 and improve heat dissipation. In order to ensure insulation between the electrode assembly 300 and the outside, the aluminum thin film is coated with an insulating material such as polyethylene terephthalate (PET) resin or nylon resin.

When the upper pouch and the lower pouch are used in the form of being joined to each other, the pouch-type case may be made of non-leaded polypropylene (CPP) or polypropylene (PP) The sealing portion which is the outer circumferential surface to which the upper case 210 and the lower case 220 are joined has a structure of an outer coating layer which is an insulating layer, a metal foil barrier layer such as aluminum and an inner adhesive layer.

When the internal structure of the battery case 200 of the pouch-shaped battery 100 is damaged or destroyed due to an external physical impact or the like and the insulation property of the pouch-shaped battery 100 is broken, the electrode assembly 300 can not maintain the steady state voltage It may cause undervoltage, and may cause a swelling phenomenon. Such a problem may cause a series of problems such as explosion of the battery cell, which may be fatal to the user or the equipment to be mounted, so that the insulation property of the pouch-shaped battery 100 is thoroughly inspected so that the defective product can be removed desirable.

In order to inspect insulation resistance of the pouch-type battery 100, a commonly used method is to electrically contact one electrode probe 410 or 420 with a probe (probe) 510, (Probe) 510 to a metal foil barrier layer such as aluminum of the case 210 or 220 and measuring the electrical property value between the two probes 510. [ In the above method, when a force is applied to physically contact the probe (probe) 510 and the metal foil barrier layer such as aluminum, the outer circumferential surface of the battery case 210 or 220 supports the force applied by the material characteristic So that the inspection process becomes difficult. As a result, inspecting the insulation of the pouch-shaped battery 100 due to such environmental conditions remarkably deteriorates the reliability and takes a long time to inspect. Therefore, it is difficult to remove the defective battery or to damage the outer shape of the battery case. Exposed. In addition, such a conventional method is an obstacle to the automation of insulation inspection due to the above-described problems.

Korean Patent Publication No. 10-2010-0044407 Korean Patent No. 10-1021706

In order to solve the above problems, the present invention provides a battery case having a new type of insulation resistance measuring unit and a pouch-shaped battery including the same.

The present invention also provides an insulation resistance measuring system including the insulation resistance measuring unit and the meter reading unit.

In order to solve the above-described problems, the present invention includes an insulation resistance measuring unit protruding from a part of a pouch-shaped battery case made of a sheet including an outer coating layer, a metal barrier layer and an inner sealant layer, And a probe hole in which an outer coating layer of the battery case is removed.

In the present invention, the diameter (d _d ) of the probe hole satisfies 0.5 mm? D _d ? 5 mm.

In the present invention, the battery case includes a plurality of the insulation resistance measuring units.

In the present invention, the upper case and the lower case of the battery case each have the insulation resistance measuring unit.

In the present invention, an interlayer adhesive layer is additionally provided between the outer coating layer and the metal barrier layer.

In the present invention, the outer coating layer is composed of a first outer coating layer and a second outer coating layer.

The present invention also relates to a battery case according to the present invention; And a probe unit; The present invention also provides an insulation resistance measurement system including:

In the present invention, the width (d _w ) of the probe portion and the diameter (d _d ) of the probe hole satisfy 0.25d _d ? D _w ? 0.75d _d .

In the present invention, the thickness (d _e ) of the outer coating layer, the thickness d _x of the metal barrier layer, the thickness d _f of the interlaminar adhesive layer, and the length L of the probe portion satisfy d _e + d _f + d _x ? L? d _e + d _f + 0.75d _x Of the total amount of the particles.

The present invention also relates to

An electrode assembly comprising an anode, a cathode, and a separator:

An electrode tab extending from the electrode assembly;

An electrode lead connected from the electrode tab;

And a battery case according to the above, which accommodates the electrode assembly, the electrode tab, and the electrode lead.

In the present invention, the electrode assembly may be a stacked or stacked / folded structure.

In the present invention, the battery is a pouch-type battery that is a lithium secondary battery.

The present invention also provides a battery pack including the above-described pouch-shaped battery.

The present invention provides a pouch-type battery case in which the battery case forms an insulation resistance measuring part and easily and accurately measures the insulation resistance measurement value without damaging the battery case protecting the electrode assembly.

1 is a perspective view illustrating a general structure of a typical pouch type battery of the related art.
2 is a perspective view showing an embodiment of the present invention.
3 is a perspective view and an enlarged view showing an embodiment of the present invention.
4 is an enlarged view showing an embodiment of the present invention.
5 is a perspective view showing an embodiment of the present invention.

The present invention includes insulation resistance measuring portions 214 and 224 protruding from a part of a pouch-shaped battery case 200 made of a sheet including an outer coating layer e, a metal barrier layer x and an inner sealant layer c The insulation resistance measuring unit may include a probe hole (215, 225) in which an outer coating layer of the pouch-shaped battery case is removed.

FIGS. 2, 3 and 5 schematically show a battery case having insulation resistance measuring units 214 and 224 according to an embodiment of the present invention. In the case of the pouch-type battery case 200, if insulation between the metal barrier layer (x) such as aluminum and the electrode assembly 300 existing in the pouch outer casing is not ensured, corrosion of the outer casing occurs, Which may lead to failure of the accompanying battery 100. In particular, the pouch-type battery case 200 may be exposed to the outside through the pouch-cutting process due to the characteristics of the process. The insulation resistance measuring units 214 and 224 according to the present invention are connected to a conventional battery case and have a separate shape protruding to the outside, and the sealing faces of the flange portions 213 and 223 in the battery case 200 are formed as a The battery case 200 itself is prevented from being damaged.

Since the insulation resistance measuring units 214 and 224 of the present invention have a separate shape protruding from the case and include the probe holes 215 and 225 from which the outer coating layer e is removed, It is possible to reach the metal barrier layer x through the interlayer adhesion layer f left over the metal barrier layer x or the metal barrier layer through the probe holes 215 and 225. Therefore, It is possible to solve the problem of preventing stable contact between the means 510 and the metal barrier layer x and to obtain stable and accurate insulation resistance measurement values.

The insulation resistance measuring units 214 and 224 of the present invention are not limited as long as they are provided separately from the battery case 200 so as to protrude from a part of the battery case 200 and may have various shapes, Referring to FIG. 2, in an embodiment of the present invention, a semicircular shape may be formed between the electrode leads 410 and 420 of the upper case 210 and the lower case 220. 3, the electrode leads 410 and 420 of the upper case 210 and the lower case 220 may be formed in a triangular shape on the opposite sides of the electrode leads 410 and 420 in the embodiment of the present invention. Referring to FIG. 5, the upper case 210 and the lower case 220 may have a semi-circular shape on the side surfaces of the upper case 210 and the lower case 220 according to an embodiment of the present invention.

In the outer coating layer (e), the metal barrier layer (x) and the inner sealant layer (c) of the present invention, the outer coating layer (e) is a polymer film which maintains the mechanical strength of the pouch, And may be polyethylene naphthalate (PEN), polyethylene terephthalate (PET), or nylon. The metal barrier layer (x) serves to block air and moisture outside the pouch, and may be an aluminum foil. The inner sealant layer (c) serves to provide a sealability in a state of being embedded, and may be unleaded polypropylene (CPP) or polypropylene (PP).

The present invention can include an interlayer adhesion layer between the outer coating layer (e) and the metal barrier layer, and the interlayer adhesion layer (f) serves to bond the metal barrier layer (x) and the outer coating layer (e) Polyurethane (PU) series having excellent heat resistance can be used.

The present invention also provides an insulation resistance measuring system including a battery case 200 having the insulation resistance measuring units 214 and 224 and a meter reading unit 510 having a probe.

5, the upper case 210 and the lower case 220 include a battery case 200 having insulation resistance measuring units 214 and 224, a meter reading unit 510 having a probe unit, (500). ≪ / RTI >

In the present invention, the diameters d _d of the probe holes 215 and 225 satisfy 0.5 mm d _d 5 mm.

In the present invention, the width (d _w ) of the probe portion of the probe means 510 and the diameter d _d of the probe holes 215 and 225 satisfy 0.25d _d ? D _w ? 0.75d _d . When the probe portion of the probe means 510 is in contact with the metal barrier layer x in the above-described range, the width d _{w of the} probe portion and the diameter d _d of the probe holes 215, It is possible to ensure a sufficient contact area with the metal barrier layer (x) without touching.

In the present invention, (d _e) the thickness of the outer coating layer, the thickness (d _x), the thickness (d _f), and the probe portion length (L) of the inter-layer adhesion of the metal barrier layer of an extra layers left on the metal barrier layer D _e + d _f + 0.25 d _x ≤ (d _e + d f) so as to penetrate the adhesive layer (f) and reach the inside of the metal barrier layer (x) but not reach the inner sealant layer L? D _e + d _f + 0.75d _x Lt; / RTI >

In the present invention, the outer coating layer (e) may be composed of a first outer coating layer (a) and a second outer coating layer (b). More specifically, d _a + d _b + d _f + 0.25 d _x ? L d _a + d _b + d _f + 0.75 d _x Lt; / RTI > For example, the first outer coating layer (a) of the outer coating layer (e) is made of 12um of PET, the second outer coating layer (b) of the outer coating layer (b) is made of nylon of 15um and the metal barrier layer , The interlaminar adhesive layer (f) may be 3 um polyurethane, and the length L of the probe portion may be 40 um to 60 um, and may be about 50 um. The width d _{w of the} probe can also be from 0.125 mm to 3.75 mm, from 0.25 mm to 1.5 mm, and can be about 1 mm.

In the present invention, the battery case 200 includes a plurality of the insulation resistance measuring units, and in particular, the upper case 210 and the lower case 220 include the insulation resistance measuring units 214 and 224, respectively It is possible.

When the upper case 210 of the battery case 200 and the metal barrier layer x of the lower case 220 are connected to each other as in the case of folding a single pouch into the battery case 200, The part may be located in the upper case 210 or the lower case 220.

The metal barrier layer x of the upper case 210 and the lower case 220 of the battery case 200 may be connected to each other through the connection and disconnection of the upper case 210 and the lower case 220, The insulation resistance measuring unit 214 of the upper case 210 and the insulation resistance measuring unit 224 of the lower case 220 may be separately provided and the upper case 210 And two probe holes 215 and 225 on the lower surface of the lower case 220.

The invention also relates to an electrode assembly (300) comprising an anode, a cathode, and a separator: electrode tabs (430, 440) extending from the electrode assembly; Electrode leads (410, 420) connected from the electrode tabs; And a battery pouch for accommodating the electrode assembly, the electrode tab, and the electrode lead. The electrode assembly 300 may be a stacked or stacked / folded structure.

In the present invention, the battery may be a lithium secondary battery. However, the present invention is not limited to this, and provides a large-capacity, large-capacity middle- or large-sized battery pack including a plurality of the pouch-type batteries.

Referring to FIG. 5, in an embodiment of the present invention, the reference probe 510 having a probe is connected to the electrode leads 410 and 420 of the battery and the probe holes 215 and 225 of the insulation resistance measuring unit 214 and 224 ) And the measurement step of measuring the electrical characteristic value between the contacted inspection means (510).

In one embodiment of the present invention, the contacting step may be such that the metering means 510 having the probe is in contact with the metal barrier layer x through the probe holes 215, 225 and not with the inner sealant c .

Also, the electrical characteristic value may be at least one of an insulation resistance, a current, and a voltage. Typically, the insulation resistance is represented by an insulation resistance, so that the resistance value can be measured.

The method may further include a determining step of comparing the measured electrical characteristic value with a reference value to determine the insulation property, in order to improve the reliability of the insulation inspection and realize the automation function more efficiently. Therefore, the reference value data for resistance, current, or voltage is previously stored in a database, and the measured value is received and compared with the reference value data to determine the insulation property. For example, when the pouch-type battery 100 to be inspected is a good product, the resistance of the pouch-type battery 100 becomes an ideal infinite value, so that the reference value for the resistance for determining the insulation property is a considerably large value If the electric characteristic value for the current or voltage is used, the current value or the voltage value which can represent the insulation property can be set as the reference value. It goes without saying that various examples of such an example are possible within a range that the ordinary artisan can apply.

It will be understood by those skilled in the art that the technical features of the present invention described above may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. In addition, the scope of the present invention is indicated by the following claims rather than the above detailed description. Also, all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

Battery 100
The battery case 200,
An upper case 210, a ceiling front surface 211, a side surface portion 212, a flange portion 213
A lower case 220, a bottom surface 221, a side surface portion 222, a flange portion 223
The insulation resistance measuring unit 214 of the upper case, the insulation resistance measuring unit 224 of the lower case
The probe hole 215 of the upper case, the probe hole 225 of the lower case
The electrode assembly 300
Electrode leads 410 and 420, electrode tabs 430 and 440
500 Measuring device, probe (probe) 510

Claims (13)

And an insulation resistance measuring unit protruding from a part of the pouch-shaped battery case made of a sheet including an outer coating layer, a metal barrier layer, and an inner sealant layer,
Wherein the insulation resistance measuring unit includes a probe hole in which an outer coating layer of the pouch-shaped battery case is removed.
The method according to claim 1,
The diameter d _{d of} the probe hole is 0.5 mm d _d Lt; 5 mm.
The method according to claim 1,
Wherein the battery case includes a plurality of the insulation resistance measuring units.
The method according to claim 1,
Wherein the upper case and the lower case of the battery case each include the insulation resistance measuring unit.
The method according to claim 1,
And an interlayer adhesive layer between the outer coating layer and the metal barrier layer.
The method according to claim 1,
Wherein the outer coating layer comprises a first outer coating layer and a second outer coating layer.
A battery case according to claim 1; And
A metering means provided with a probe; Wherein the insulation resistance measuring system comprises:
8. The method of claim 7,
The width d _w of the probe and the diameter d _{d of} the probe hole are 0.25d _d ? D _w ? 0.75d _d Wherein the insulation resistance measuring system satisfies the following relation.
8. The method of claim 7,
The thickness (d _e ) of the outer covering layer of the battery case, the thickness d _x of the metal barrier layer, the thickness d _f of the interlaminar adhesive layer, and the length L of the probing portion of the metering means are d _e + d _f + 0.25d _x ? L? D _e + d _f + 0.75d _x Of the insulation resistance measurement system.
An electrode assembly comprising an anode, a cathode, and a separator:
An electrode tab extending from the electrode assembly;
An electrode lead connected to the electrode tab; And
The pouch-shaped battery according to any one of claims 1 to 6, which accommodates the electrode assembly, the electrode tab, and the electrode lead.
11. The method of claim 10,
Wherein the electrode assembly is a stacked or stacked / folded structure.
11. The method of claim 10,
Wherein the battery is a lithium secondary battery.
A battery pack comprising the pouch-type battery according to claim 10.

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