KR20130098748A - A radiant heat can for high capacity second battery of pouch type and method there of - Google Patents

Abstract

PURPOSE: A heat-radiating can is provided to effectively radiate heat generated from a secondary battery by having a space between a secondary battery and a can main body and to remarkably improve the lifetime of a secondary battery by uniformly spreading a heat interface material to the inner side of the can main body. CONSTITUTION: A heat-radiating can for a pouch type high capacity secondary battery includes a can main body (10) which consists of a rectangular connection plate (11) connected to a secondary battery (1), a plurality of concave parts (12) sunken from one side toward the other side of the connection plate, and an attachment part (13) protruded to be attached to the secondary battery between the concave parts; an earring part (20) in which a plurality of coupling holes (21) are arranged to be coupled with the secondary battery by a piece by being extended and bent from both side ends of the can main body; and a heat interface material transferring heat generated from the secondary battery to the can main body by being spread on the attachment part of the can main body.

Description

TECHNICAL FIELD [0001] The present invention relates to a radiation cans for a pouch-type high-capacity secondary battery and a manufacturing method thereof,

The present invention relates to a heat dissipation can for a pouch type high capacity secondary battery and a method of manufacturing the same, and more particularly, to a heat dissipation can for a pouch type high capacity secondary battery, which is capable of efficiently discharging heat generated from the secondary battery by being connected to the secondary battery, The life of the secondary battery can be remarkably improved by applying the TIM uniformly to the inside of the can main body so as to be easily transferred to the can main body and the TIM application jig capable of simultaneously applying the TIM to the main body of the can, Type secondary battery, and a method of manufacturing the same.

In general, secondary batteries are inherent in electronic devices, and when they are used, a high temperature is generated inside. Therefore, it is necessary to efficiently heat such heat to prolong the lifetime of electronic devices.

In order to efficiently discharge the heat generated from the secondary battery, the heat-radiating can for the secondary battery is fastened to the secondary battery, so that the heat generated from the secondary battery is quickly discharged to the outside through the heat-dissipating can.

The heat generated by applying a thermal interface material (TIM) to the inner side of the heat dissipation can coupled to the secondary battery is transferred to the heat dissipation can, and heat is radiated to the outside through the heat dissipation can to improve the life of the secondary battery. I have to.

FIG. 1 is a schematic view showing a heat sink connected to a conventional secondary battery. As shown in FIG. 1, a heat sink 2, which discharges heat, is wrapped around the secondary battery 1, A TIM 4 is applied between the sink 2 and the heat sink 2 is fastened to the secondary battery 1. The heat generated from the secondary battery 1 is transferred to the heat sink 2, Heat generated in the secondary battery 1 is discharged to the outside.

However, since the heat sink connected to the conventional secondary battery must be assembled by applying the TIM 4 to the inside of the heat sink 2, the TIM 4 must be manually applied, The TIM 4 can not be accurately applied at a predetermined position of the heat sink 2 adhered to the semiconductor module according to the skill of the operator because the earring 3 protrudes at both ends of the heat sink 2 There is a problem that an assembly failure occurs.

In addition, conventionally, since the earrings 3 protruding from both ends of the heat sink 2 are assembled to each other, there is a problem that the fastened state is incomplete due to loosening of the fastened parts when used for a long time.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a secondary battery which can secure a space between a secondary battery and a can body to efficiently discharge heat generated in the secondary battery, It is possible to improve the service life of the secondary battery by applying the TIM to the inside of the can body at a precise position uniformly so that the heat generated from the battery can be easily transferred to the can main body, And a TIM coating jig for applying a TIM to the pouch-type can body, so that productivity can be greatly improved by simultaneously applying TIM to a plurality of pouch-type can main bodies, and a method of manufacturing the pouch-type high-capacity secondary battery.

According to an aspect of the present invention, there is provided a heat dissipation can for a pouch-type high-capacity secondary battery, the heat dissipation can for a pouch-type secondary battery that surrounds the secondary battery to discharge heat generated from the secondary battery to the outside, A plurality of recessed portions formed on an inner side of the connecting plate, and a plurality of recessed portions formed on the inner side of the connecting plate, the recessed portions protruding from the secondary battery in a plate- A body; A plurality of coupling holes extending from both ends of the can body to be fastened to the secondary battery and the piece; And a thermal interface material (TIM) applied to the can body to transfer the heat generated from the secondary battery to the can main body.

In addition, in the method for manufacturing a heat dissipation can for a high capacity secondary battery, a plurality of rectangular through-holes penetrated inward to apply TIM to the inner side of the can body connected to the secondary battery, and bends extended to both ends of the can body. A jig preparation process of preparing a TIM coating jig having a recessed hole cut in an upper side from a lower side such that the earring part is inserted; A can body seating step of inserting an earing portion into the recess of the TIM coating jig for seating the can body on the TIM coating jig; A TIM application step of applying TIM to the can body seated on the TIM application jig through a coating through hole of the TIM application jig; The can body coated with the TIM is removed from the TIM coating jig and is formed by a fastening process for fastening with a secondary battery.

Both sides of the TIM coating jig is characterized in that the bar-shaped earring fixing portion for fixing the earring portion of the can body is provided.

As described above, the heat-radiating can for a pouch-type high-capacity secondary battery according to the present invention and its manufacturing method are as follows.

First, since a plurality of recessed portions are formed inside the rectangular can body connected to the secondary battery, a space is secured between the secondary battery and the can body to efficiently discharge heat generated in the secondary battery,

Secondly, since TIM is applied to the tightly adhering portion closely adhering to the secondary battery between the recessed portions of the can main body, the heat generated in the secondary battery can be easily transferred to the can main body,

Thirdly, by providing a jig for applying a TIM capable of applying a TIM to the inner side of the secondary battery and the can body, a plurality of thermal interface materials can be simultaneously applied to the inner side of the heat sink,

Fourthly, since the earring fixing part for fixing the earring part is fixed to the upper part of the jig for applying the TIM, the earring part can be perfectly fixed and the application of the TIM can be applied at the correct position without shaking.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a conventional battery or a semiconductor module to which a cover is adhered. Fig.
2 is a perspective view of a discharge can for a high capacity secondary battery according to the present invention.
3 is a perspective view showing a state of engagement of a secondary battery and a can main body according to the present invention.
4 is a perspective view showing a jig for applying a TIM according to the present invention.
5 is a state view showing a state in which a can body and a jig for applying a TIM are engaged with each other according to the present invention.
FIG. 6 is an exploded perspective view of FIG. 5; FIG.
7 is a state diagram showing a state in which a TIM is applied through a jig for applying a TIM according to the present invention.
8 is a cross-sectional view of a can body and a secondary battery according to the present invention in a state in which they are fastened.
9 is a flow chart showing a method of manufacturing a can for a secondary battery according to the present invention.

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

As shown in FIGS. 2 and 3, the heat dissipation can for a pouch type high-capacity secondary battery according to the present invention is connected to the secondary battery 1 to discharge the heat generated from the secondary battery 1 to the outside, A can radiating can for a secondary battery, comprising: a can body (10) having a rectangular shape for enclosing one side of a secondary battery (1) so as to discharge heat generated from the secondary battery (1) And a plurality of engaging holes 21 arranged to be fastened to the rechargeable battery 1 by a piece, and a plurality of engaging holes 20 formed on the inner side of the tightening portion 13 of the can body 10 And a thermal interface material (TIM) 30 for transferring the heat generated from the secondary battery 1 to the can main body 10.

The can body 10 has a rectangular connecting plate 11 connected to the secondary battery 1 and has a plurality of recessed portions 12 recessed from one side to the other side of the connecting plate 11 And a tight contact portion 13 that is in close contact with the secondary battery 1 and protrudes in a plate shape so as to apply the TIM 30 therebetween.

As shown in Figs. 4 and 6, a method of manufacturing a heat-radiating can for a high-capacity secondary battery includes the steps of: applying the TIM 30 to the inner side of the tight fitting portion 13 of the can body 10 connected to the secondary battery 1; A plurality of through holes 41 penetrating the can main body 10 in a rectangular shape and a plurality of through holes 42 cut from the upper side to the lower side so as to insert the elongated portions 20 extended at both side ends of the can body 10, A jig preparing step S10 for preparing a coating jig 40;

5, the ear canal 20 is inserted into the void 42 of the TIM applying jig 40 prepared in the jig preparing step S10 to attach the can main body 10 to the TIM applying jig 40, (S20);

7, the can body 10 seated in the TIM application jig 40 in the can main body mounting step S20 is inserted into the TIM 30 through the application through hole 41 of the TIM application jig 40, A TIM application step (S30) of applying a TIM;

8, the can body 10 to which the TIM 30 is applied in the TIM application step S30 is formed into a fastening step S40 of attaching / detaching the can main body 10 to / from the TIM application jig 40 and fastening it to the secondary battery 1 do.

5 and 6, a bar-shaped ear fixing portion 50 for fixing the ear piece 20 of the can body 10 is provided at a lower portion of the jig 40 for applying TIM.

The operation of the heat-radiating can for a pouch type high-capacity secondary battery according to the present invention and the method of manufacturing the same according to the present invention will be described below.

2 and 3, a heat dissipation can for a pouch type high-capacity secondary battery according to the present invention includes a plurality of recessed portions 12 on the inner side of a rectangular connecting plate 11 connected to a secondary battery 1 So that a space is secured between the secondary battery 1 and the can body 10 so that the heat generated in the secondary battery can be efficiently discharged through the space portion.

The TIM 30 is applied between the concave portions 12 of the can main body 10 so as to be in close contact with the secondary battery 1 so that the high temperature generated in the secondary battery 1 The can is easily transferred to the can body 10, so that the heat generated when the secondary battery is used is transferred to the can body as it is, so that the life of the secondary battery can be greatly improved.

7 and 8, a method of manufacturing a heat dissipation can for a pouch type high-capacity secondary battery includes the steps of forming a TIM 30 on the inside of a close portion 13 of a can body 10 connected to a secondary battery 1, A plurality of through holes 41 formed in a rectangular shape inward are formed in the can body 10 so as to cover the upper and lower ends of the can body 10 and the lower end of the can body 10, The TIM coating jig 40 with the TIM coating 42 formed thereon is prepared and applied to the inner side of the can main body by hand so that the TIM 30 can be simultaneously coated on the inner side of the can body through the TIM coating jig 40 The productivity can be greatly improved.

6, a lug opening 42 cut from one side to the other is formed on both sides of the TIM application jig 40 so that the earring portion 20 is inserted inside the jig 40 and the jig 40 is inserted into the TIM application jig 40 The can body 10 can be easily seated.

The TIM coating jig 40 is provided on both sides of the jig 40 with a rectangular ear fixing portion 50 for fixing the earring portion 20 to completely fix the earring portion 20 to apply the TIM 30 The TIM 30 can be completely applied to the correct position.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

1: secondary battery
10: can body 11: connecting plate
12: recessed portion 13:
20: earring part 21: engaging hole
30: TIM 40: jig for applying TIM
41: Through hole 42:
50: Earring fixing part

Claims (3)

1. A heat sink for a secondary battery (Pouch type) secondary battery (1), which surrounds the secondary battery (1) to discharge heat generated from the secondary battery (1)
A rectangular connecting plate 11 connected to the secondary battery 1, a plurality of recesses 12 recessed from one side to the other side inside the connecting plate 11, and between the recesses 12. A can body 10 formed of a close contact part 13 protruding in a plate shape to be in close contact with the secondary battery 1;
An ear piece 20 extending from opposite ends of the can body 10 and having a plurality of engaging holes 21 arranged to be fastened to the rechargeable battery 1 by a piece;
And a thermal interface material (TIM) 30 applied to the close part 13 of the can main body 10 to transfer the heat generated from the secondary battery 1 to the can main body 10 Wherein the pouch type high-capacity secondary battery is a heat-dissipating cans.
In the manufacturing method of a heat dissipation can for a high capacity secondary battery that emits heat generated in the secondary battery to the outside,
A plurality of rectangular through-holes penetrated inward to apply TIM to the contact portion 13 of the can body 10 connected to the secondary battery 1, and both side ends of the can body 10. Jig preparation step (S10) for preparing a jig 40 for TIM coating formed with a recess hole 42 is cut from the top to the bottom so that the earring portion 20 is bent to extend;
A can body seating step (S20) for inserting the ear ring portion 20 into the recess hole 42 of the TIM coating jig 40 to seat the can body 10 on the TIM coating jig 40;
A TIM application step (S30) of applying TIM to the can body 10 seated on the TIM application jig 40 through an application through hole 41 of the TIM application jig 40;
Method of manufacturing a heat dissipation can for a pouch type high capacity secondary battery, characterized in that formed in the fastening process (S40) for removing the TIM-coated can body 10 from the TIM coating jig 40 and fastening the secondary battery 1. .
3. The method of claim 2,
Manufacture of a heat dissipation can for a pouch type high capacity secondary battery, characterized in that both sides of the TIM coating jig 40 are provided with a rectangular earing fixing part 50 for fixing the earing part 20 of the can body 10. Way.

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