KR20200011404A - Pouch-type secondary battery with self-standing and heat dissipating capability and Supporting means for the same - Google Patents

Abstract

The present invention relates to a heat dissipation support member for a pouch type secondary battery having a self-supporting ability, and a pouch type secondary battery having the same. The secondary battery includes: a pouch which provides an accommodation space sealed in an internal area of a fusion unit by fusing and bonding a surface contact part in a state of being in surface contact with the edge part of a mutually corresponding pouch piece; an electrode assembly which is accommodated in the accommodation space of the pouch with electrolyte and has an anode tab and a cathode tab extended to the outside of the pouch; and a heat dissipation support member which is embedded in the pouch and provides supporting force so that the pouch included in an electrode assembly can be stood on the horizontal surface while absorbing heat generated from the electrode assembly in a state of being closely attached to the inside-facing surface of the pouch piece and discharging the absorbed heat to the outside of the pouch. The present invention: has stable sealing ability and excellent heat dissipation efficiency of an electrode assembly without a concern of a widened fusion unit of the pouch since the heat dissipation support member in charge of heat dissipation is completely accommodated in the pouch in a state of being closely attached to the inside-facing surface of the pouch; and can be easily applied to a cooling unit of the outside especially by having a structure in which the heat dissipation support member can be stood vertically on the horizontal surface of an object.

Description

Heat dissipation support member for pouch type secondary battery having self-supporting ability and pouch type secondary battery having same {Pouch-type secondary battery with self-standing and heat dissipating capability and Supporting means for the same}

The present invention relates to a heat dissipation support member for a pouch type secondary battery having a self-supporting ability and a pouch type secondary battery having the same.

Unlike a primary battery, a secondary battery is a battery that can be repeatedly charged and discharged, and is widely used, for example, in lightweight portable devices such as mobile phones, laptop computers, and cameras, to electric vehicles and hybrid vehicles.

Recently, with the rapid development of technology, smaller and lighter high-capacity high-power secondary batteries are being developed one after another. For example, a secondary battery of a type using a non-aqueous electrolyte having a high energy density has a good output and is used to drive a motor of an electric vehicle by connecting a plurality of them in series.

The secondary battery may be manufactured in various forms, such as a pouch type, a cylindrical shape, or a square shape. In particular, in the case of the pouch type, its shape is relatively free, light in weight, slim and lightweight, and is widely used for portable devices.

The pouch serving as a case in the pouch-type secondary battery has a laminated structure in which a thin film of a metal film and an insulating film are attached to both sides thereof, and can be bent freely, unlike a cylindrical or square shape formed of a thick metal material.

However, in the case of the pouch type, since the case itself forming the outer shape is made of a flexible material, there is no rigidity, and thus it is difficult to apply a separate structure for improving heat dissipation characteristics. That is, it is difficult to effectively dissipate heat generated from the electrode assembly inside the pouch.

As the known fact, the secondary battery generates a lot of heat inside during the charging and discharging, so it is very important to quickly release the heat inside, the pouch type is vulnerable to this heat dissipation problem. Rectangular or cylindrical secondary batteries are relatively easy to heat dissipation.

As a means for heat dissipation in such a pouch type secondary battery, Korean Patent Publication No. 2011-0082745 (secondary battery) discloses a pouch type secondary battery provided with a heat dissipation member. The heat dissipation member is formed integrally with the positive electrode plate of the electrode assembly accommodated in the pouch, and extends to the outside of the pouch, and serves to discharge heat generated in the pouch to be discharged to the outside in a state where it is adhesively fixed to the outer surface of the pouch.

By the way, the secondary battery of the above-mentioned type must not only anodize the heat dissipation member exposed to the outside of the pouch but also apply an expensive thermal grease to fix the heat dissipation member to the pouch. There was a downside.

In addition, when the cooling plate is located outside the pouch as described above, it is very easy to generate an air gap between the pouch and the cooling plate is not so good heat dissipation efficiency. Accordingly, in order to increase heat dissipation efficiency, a larger size cooling plate must be applied, which causes an increase in cost and increases the volume of the device.

In addition, the most important thing in the pouch is to provide a stable sealing force so that the electrolyte solution inside the pouch does not leak, the conventional secondary battery, the heat dissipation member extending to the outside of the pouch to the fusion portion of the pouch Another problem is that microscopic crevices can occur. If a gap occurs, the electrolyte may leak and a short circuit may occur or ignite due to the leaked electrolyte.

The present invention is to solve the above problems, since the heat dissipation support member responsible for heat dissipation is completely accommodated in the pouch in a state in close contact with the inward surface of the pouch, there is no fear that the fusion portion of the pouch is opened, the sealing is stable and the electrode assembly Heat dissipation efficiency is good, in particular, the heat dissipation support member has a structure that can be placed vertically on the horizontal target surface, the heat dissipation support member for pouch type secondary battery having a self-supporting ability that can be easily installed in the external cooling unit and the pouch having the same It is an object to provide a type secondary battery.

Pouch-type secondary battery of the present invention for achieving the above object, a pouch for fusion-bonding the interview site in the state in which the rim portion of the corresponding pouch piece is interviewed to provide a receiving space sealed in the inner region of the fusion portion; An electrode assembly accommodated together with an electrolyte in the accommodating space of the pouch and having a positive electrode tab and a negative electrode tab extending out of the pouch; Heat dissipation, which is built into the pouch, absorbs heat generated from the electrode assembly in close contact with the inward surface of the pouch piece and discharges it to the outside of the pouch, and provides support to allow the pouch containing the electrode assembly to stand on a horizontal plane. A self-supporting heat dissipation support member having a support member is provided.

In addition, the heat dissipation support member; It takes the form of a plate of constant thickness and at least two surfaces are bent to face the electrode assembly.

In addition, the heat dissipation support member; Covering the electrode assembly and interviewing the inward side of the pouch, absorbing heat generated from the electrode assembly and dissipating it to the outside of the pouch; It has a support located opposite the portion where the positive electrode tab and the negative electrode tab are located.

In addition, the support part is further provided with an insulating sheet for insulation between the support part and the electrode assembly.

In addition, the heat dissipation support member; A heat dissipation unit covering the electrode assembly and in close contact with the inward surface of the pouch, absorbing heat generated from the electrode assembly and dissipating it to the outside of the pouch, and integrally formed at both ends of the heat dissipating unit and bent with respect to the heat dissipating unit; It consists of supports which are located on opposite sides of the assembly.

In addition, the heat dissipation support member is made of copper or aluminum or HOPG (highly ordered pyrolytic graphite).

In addition, the heat dissipation support member for a pouch-type secondary battery having the self-supporting ability of the present invention for achieving the above object is to be built with the electrode assembly in the interior of the pouch to provide a sealed receiving space, in close contact with the inward surface of the pouch. In one state, the heat generated from the electrode assembly is absorbed and released to the outside of the pouch, and the support is provided so that the pouch can be placed on a horizontal plane.

In addition, the heat dissipation support member; It takes the form of a plate having a predetermined thickness, the heat dissipation unit is in close contact with the inward surface of the pouch and absorbs heat generated from the electrode assembly, the heat dissipation unit is integral with the heat dissipation unit and bent to the heat dissipation unit, It is provided on the opposite side of the positive electrode tab and the negative electrode tab of the electrode assembly is provided with a support that is parallel to the horizontal plane in the state of the electrode assembly upright.

In addition, the heat dissipation portion and the support portion forms a right angle, the support portion is provided with an insulating sheet for insulation between the support portion and the electrode assembly.

In addition, the heat dissipation support member; A heat dissipation unit covering the electrode assembly and interviewing the inward surface of the pouch, absorbing heat generated from the electrode assembly, and integrally formed at both ends of the heat dissipation unit, and bent with respect to the heat dissipation unit; The support part is positioned in correspondence with the electrode assembly, and the support part is parallel to the horizontal plane.

In addition, the heat dissipation support member is made of copper or aluminum or HOPG (highly ordered pyrolytic graphite).

1 is an exploded perspective view of a pouch type secondary battery provided with a heat dissipation supporting member having self-supporting ability according to an embodiment of the present invention.
FIG. 2 is a partially enlarged perspective view of the heat dissipation supporting member illustrated in FIG. 1 separately.
3 is a side cross-sectional view of the pouch type secondary battery illustrated in FIG. 2.
4 is a perspective view illustrating another example of a pouch-type secondary battery provided with a heat dissipation supporting member having self-standing ability according to an embodiment of the present invention.
5 is an exploded perspective view illustrating another example of a pouch type secondary battery provided with a heat dissipation supporting member having self-standing ability according to an embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments associated with the accompanying drawings.

In the present specification, in adding reference numerals to the components of each drawing, it should be noted that the same components as possible, even if displayed on different drawings have the same number as possible.

In addition, terms such as “first”, “second”, “one side”, and “other side” are used to distinguish one component from another component, and the component is defined by the terms. It is not limited.

In describing the present invention, detailed descriptions of related well-known techniques that may unnecessarily obscure the subject matter of the present invention will be omitted.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of a pouch type secondary battery 11 provided with a heat dissipation supporting member 19 having a self-supporting ability according to an embodiment of the present invention.

As shown, the pouch-type secondary battery 11 according to the present embodiment, the pouch 12 and the inner space corresponding to each other and heat-sealed in a state where the edge portion is interviewed to provide an inner space 13b, and the inner space ( 13b), the electrode assembly 17 having the positive electrode tab 17a and the negative electrode tab 17b on one side thereof, and the heat dissipation supporting member 19 embedded in the pouch 12 together with the electrode assembly 17. It consists of.

The pouch 12 is composed of a lower pouch piece 13 and an upper pouch piece 15 to accommodate the electrolyte solution therein. When the fusion heat is applied to the three fusion surfaces 13a provided at the edge portions of the lower pouch pieces 13 in a state where the edge portions of the upper pouch pieces 15 are interviewed, the upper and lower pouch pieces 15 and 17 are melted and integrated. do.

The electrode assembly 17 is made to be flat so that it can be accommodated in the internal space 13b by pressing the laminate composed of the positive electrode plate 17c, the separator 17d, and the negative electrode plate 17e in a wound state. In this embodiment, the electrode assembly 17 is applied in a jelly roll type, but any type of electrode assembly may be applied to the secondary battery of this embodiment.

For reference, the positive electrode plate 17c is formed by coating an active material on both sides of a metal foil having excellent conductivity, for example, aluminum foil. The active material is a chalcogenide (chalcogenide) compound, such as a composite metal oxide such as LiCo ₂ , LiMn ₂ O ₄ , LiNiO ₂ , LiNiMnO _2, or the like.

The negative electrode plate 17e is coated with a negative electrode active material on both surfaces of a current collector made of copper or nickel foil. Carbon-based materials, Si, Sn, tin oxide, tin alloy composites, transition metal oxides and the like are used as the negative electrode active material.

On the other hand, the heat dissipation supporting member 19 is a plate-shaped member having a predetermined thickness, the heat dissipation unit 19a covering one surface of the electrode assembly 17 and the electrode integrally formed with the heat dissipation unit 19a. It consists of a support 19b which is located at the lower end of the assembly 17, that is, opposite the portion where the positive electrode tab 17a and the negative electrode tab 17b are located.

The support 19b is in contact with the lower end of the electrode assembly 17. At this time, in order to insulate the electrode assembly 17 and the heat dissipation support member 19, an insulating sheet 19c is stacked on the support 19b. The insulating sheet 19c will be described later with reference to FIG. 2.

The heat dissipation support member 19 is bent at a right angle to the heat dissipation portion 19a at a right angle to have a side shape of approximately a letter. In particular, the heat dissipation support member 19 shown in FIG. 1 is a basic type, and of course, the shape of the heat dissipation support member can be changed as needed.

In addition, the heat dissipation support member 19 has a certain elastic force and maintains the angle of the right angle. For example, if the force is removed while the heat dissipation unit 19a and the support unit 19b are opened by applying an external force, the initial state is returned.

The heat dissipation unit 19a collects heat generated in the electrode assembly 17 in contact with one side surface of the electrode assembly 17 in a state of being in close contact with the inwardly facing surface of the upper pouch piece 15, and thus collects the upper pouch piece 15. Release through the outside.

The heat dissipation unit 19a may be brought into close contact with the electrode assembly 17, or an electrolyte may be filled between the heat dissipation unit 19a and the electrode assembly 17 with a gap therebetween.

The support portion 19b is applied to allow the heat dissipation portion 19a to stand up. For example, as shown in FIG. 3, when the support 19b is placed on a horizontal plane, the heat radiating portion 19a is erected vertically. The support portion 19b is fitted between the lower end portion of the electrode assembly 17 and the inner wall surface 13c of the lower pouch piece 13 and is in close contact with the inner wall surface 13c.

The heat dissipation support member 19 having the above-described configuration may be made of a conductive metal such as copper or aluminum, or a highly ordered pyrolytic graphite (HOPG).

FIG. 2 is a partially enlarged perspective view of the heat dissipation supporting member 19 illustrated in FIG. 1 separately.

As shown, the heat radiating portion 19a and the supporting portion 19b are bent to have a right angle between them. The angle between the heat dissipation portion 19a with respect to the support portion 19b may vary depending on the width w of the support portion 19b. For example, it may be formed in an angle range of 85 ° to 90 °.

In addition, an insulating sheet 19c is stacked on the upper surface of the support part 19b. The insulating sheet 19c is to insulate the support 19b from the electrode assembly 17 and may have the same material as the separator 17d. In some cases, a synthetic resin such as rubber or silicone, which is resistant to the electrolyte, may be applied.

3 is a side cross-sectional view of the pouch type secondary battery 11 illustrated in FIG. 2.

Above all, the pouch-type secondary battery 11 according to the present embodiment has a feature in that the heat dissipation support member 19 is built into the pouch 12 so that the secondary battery 11 can be placed on an external object. . To stand up also means that the external object and the side or the bottom of the secondary battery (the opposite side where the electrode is located) interview.

Since the object and the secondary battery are interviewed as described above, when the water-cooled cooling unit 27 is applied as the object, heat generated in the electrode assembly 17 is quickly transferred to the water-cooled cooling unit 27 and disappeared.

When the secondary battery 11 is laid down on the water cooling unit 27, heat dissipation may be faster. However, in order to package a plurality of secondary batteries 11, the secondary battery 11 may not be laid down.

In any case, the heat generated from the electrode assembly 17 is absorbed by the heat dissipation support member 19, and a part of the heat is transferred to the water-cooled cooling part 27 through the pouch after reaching the support 19b, The rest is discharged into the air through the lower pouch piece 13 from the heat radiating portion 19a.

Figure 4 is a perspective view showing another example of a pouch-type secondary battery provided with a heat dissipation support member having a self-supporting ability according to an embodiment of the present invention.

The same reference numerals as those mentioned above indicate the same members having the same function.

As shown in the drawing, the secondary battery 11 according to the present embodiment has a heat dissipation supporting member 25 having a shape of approximately c.

The heat dissipation supporting member 25 has a shape of a plate having a predetermined thickness, and includes a heat dissipation portion 25a contacting one side of the electrode assembly 17, and support portions formed at both ends of the heat dissipation portion 25a. 25b). The support portion 25b is flat and has a certain area so that the secondary battery 11 can be placed sideways on a horizontal plane. In addition, the angle between each support portion 25b with respect to the heat dissipation portion 25a is the same as the heat dissipation support member described with reference to FIG. 2.

In particular, the support portion 25b is bitten by the fusion between the lower pouch piece 13 and the upper pouch piece 15. The bent portion is not disturbed when the secondary battery 11 is set to the side by surrounding the bent support portion 25b with the fusion portion.

The heat dissipation part 25a covers the electrode assembly 17 in close contact with the lower pouch piece 13 to release heat absorbed from the electrode assembly 17 to the outside through the lower pouch piece 13, or both ends thereof. To the support 25b.

As described above, the secondary battery 11 of the type shown in FIG. 4 may be disposed sideways because the supporting portion 25b is located at both sides of the electrode assembly 17. That is, when setting the plurality of secondary batteries 11 on the water cooling part 27 (to construct a package), the water cooling part with one support part 25b of the two support parts 25b sandwiched between the pouches. Indirect contact with (27).

The material of the heat dissipation support member 25 is the same as that of the heat dissipation support member 19 of FIG. 1.

5 is an exploded perspective view illustrating another example of a pouch type secondary battery provided with a heat dissipation supporting member having self-standing ability according to an embodiment of the present invention.

The electrode assembly 17 shown in FIG. 5 is an assembly of the type in which the positive electrode tab 17a and the negative electrode tab 17b are located on opposite sides. As described above, the type of the electrode assembly which can be applied to the secondary battery according to the present embodiment is not determined.

In any case, the electrode assembly 17 and the heat dissipation supporting member 19 are embedded in the inner space 13b provided by the pouch 12. The heat dissipation support member 19 is the same as the type shown in FIG. 2 and is bent by a letter B to have a heat dissipation portion 19a and a support portion 19b. The support 19b is a flat rectangular portion that contacts one inner wall surface of the lower pouch piece 13 so that the secondary battery can stand when the secondary battery 11 is placed on the water cooling unit 27.

As mentioned above, the present invention has been described in detail through specific embodiments, which are intended to specifically describe the present invention, but the present invention is not limited thereto, and one having ordinary skill in the art within the technical idea of the present invention. It is apparent that the deformation and improvement can be made by.

All modifications and variations of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be apparent from the appended claims.

11: rechargeable battery 12: pouch
13: Lower pouch 13a: Fusion surface
13b: inner space 13c: inner wall
15: upper pouch 17: electrode assembly
17a: Anode Tab 17b: Anode Tab
17c: positive electrode plate 17d: separator
17e: negative electrode plate 19: heat dissipation support member
19a: heat dissipation 19b: support
19c: insulating sheet 25: heat dissipation support member
25a: radiating part 25b: supporting part
27: water cooling cooling unit

Claims (11)

A pouch fusion-bonding the interview portion in a state in which the edge portions of the corresponding pouch pieces are interviewed to provide a sealed space in the inner region of the fusion portion;
An electrode assembly accommodated together with an electrolyte in the accommodating space of the pouch and having a positive electrode tab and a negative electrode tab extending out of the pouch;
Covers the electrode assembly and interviews the inward surface of the pouch, absorbs heat generated from the electrode assembly and dissipates to the outside of the pouch. A pouch type secondary battery having a self-supporting heat dissipation support member, comprising: a heat dissipation support member composed of a support part provided between the inner wall surfaces of the pouch piece to provide a support force to the electrode assembly. The method of claim 1,
The heat dissipation support member;
It takes the form of a plate of a predetermined thickness, the angle between the heat dissipating portion with respect to the support is formed at an angle of 85 degrees to 90 degrees, the elasticity is provided between the support and the heat dissipating portion, the support provides a support force to the electrode assembly. Pouch type secondary battery having a self-supporting heat dissipation supporting member. The method of claim 1,
The positive electrode tab and the negative electrode tab of the electrode assembly extend in the same direction from the electrode assembly, a pouch type secondary battery having a self-supporting heat dissipation support member. The method of claim 3,
The support portion,
A pouch type secondary battery having a self-supporting heat dissipation support member, which is positioned opposite to a portion where the positive electrode tab and the negative electrode tab are positioned. The method of claim 4, wherein
The support part, a pouch type secondary battery having a self-supporting heat dissipation support member further provided with an insulating sheet for insulation between the support and the electrode assembly. The method of claim 2,
The heat dissipation support member,
A pouch type secondary battery having a self-supporting heat dissipation supporting member made of copper or aluminum. The method of claim 2,
The heat dissipation support member;
A pouch type secondary battery having a self-supporting heat dissipation supporting member made of HOPG (highly ordered pyrolytic graphite). The method of claim 1,
The positive electrode tab and the negative electrode tab of the electrode assembly extend from the electrode assembly in a direction opposite to each other, a pouch type secondary battery having a self-supporting heat dissipation supporting member. The method of claim 8,
The positive electrode tab and the negative electrode tab of the electrode assembly extend in the vertical direction of the electrode assembly,
The support portion,
Located in the side of the electrode assembly, pouch type secondary battery.
A pouch type secondary battery having a self-supporting heat dissipation support member fitted between the electrode assembly and the inner wall surface of the pouch piece. The method of claim 3,
The positive electrode tab and the negative electrode tab of the electrode assembly extend upward and upward from the electrode assembly,
The support portion,
Pouch-type secondary battery having a self-supporting heat dissipation support member is formed at both ends of the heat dissipation portion, bent on both sides of the electrode assembly. The method according to claim 10,
The support portion,
A pouch type secondary battery provided with a self-supporting heat dissipation member, which is bitten by the fusion part.

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