KR102063601B1 - battery module - Google Patents

Abstract

The present invention is a battery module in which the edge portion of the lower cap and the lower cap is coupled by seaming to protrude downwardly from the lower portion of the lower cap than the horizontal portion of the lower cap, and the protrusion is formed so that a portion of the horizontal portion of the lower cap protrudes downward. The present invention relates to a battery module capable of effectively removing heat generated from a battery cell during charging or discharging by allowing heat to be directly discharged through a protrusion under the battery module without a separate heat sink.

Description

Battery module {battery module}

The present invention relates to a battery module capable of effectively removing heat generated in a battery cell during charging or discharging by allowing the case itself in which the battery cell is accommodated to perform a heat dissipation function.

In general, secondary batteries, unlike primary batteries, can be charged and discharged and applied to various fields such as digital cameras, mobile phones, laptops, and hybrid cars, and active research is being conducted. Examples of secondary batteries include nickel-cadmium batteries, nickel-metal hydride batteries, nickel-hydrogen batteries, and lithium secondary batteries. Among the secondary batteries, many researches on lithium secondary batteries having high energy density and discharge voltage have been conducted and commercialized and widely used.

In addition, lithium secondary batteries may be manufactured in various forms, and typical shapes include cylindrical and prismatic types, which are mainly used in lithium ion batteries. Made in a pouched type, the shape is relatively free.

Here, the pouch-type lithium secondary battery has a weak mechanical strength, so that a pouch-type cell (battery cell) is accommodated inside the case and formed as a battery module. In this case, the battery module is formed in a form in which the upper cap and the lower cap are coupled to and sealed on both sides of the open case so that the positive and negative terminals are exposed to the outside of the case after the battery cell is accommodated in the open case. do.

However, the battery module is coupled by seaming to reduce manufacturing costs when the upper cap and the lower cap are coupled to the case, and the edges of the caps are bent to the case due to the characteristics of the case and the upper cap and the lower cap coupled to the shiming. Since it is to be coupled in the inserted state, the horizontal surface of the upper cap and the lower cap is formed to enter the inside of the case. In other words, the edge portion of the lower cap and the lower cap coupled by seaming are formed to protrude downward from the horizontal surface of the lower cap.

In addition, a plurality of such battery modules may be stacked to form a battery pack, wherein the battery modules are formed to be in close contact with each other through a separate heat sink, and are connected to the side or the bottom of the battery module through a cooling device connected to the heat sink. It is configured to release heat.

That is, since the bottom surface of the battery module combined with the case and the caps by seaming is in a state inside the case, it is difficult to contact the lower side (the plane of the lower cap) of the battery module with the cooling device configured to lower the heat to radiate heat. In addition, there is a disadvantage in that a separate heat sink must be in close contact with the battery module to radiate heat.

1) US 2009/0206096 A1 (2009.08.20.) 2) US 2012-0301769 A1 (2012.11.29.)

The present invention has been made to solve the problems as described above, an object of the present invention is the edge portion of the lower cap and the lower cap coupled by seaming is formed to protrude to the lower side of the lower cap than the horizontal portion of the lower cap In the battery module, to provide a battery module capable of directly discharging heat through the protrusion of the lower side of the battery module without forming a heat sink by forming a protrusion so that a portion of the horizontal portion of the lower cap protrudes downward.

Battery module of the present invention for achieving the above object, the battery cell; A case in which the battery cell is received and formed at both sides of the battery cell; An upper cap coupled to an open upper side of the case and having a through hole for exposing an electrode terminal connected to an electrode tab of the battery cell to the outside; And a lower cap coupled to the opened lower side of the case by seaming. It includes, the lower cap is coupled so that the horizontal portion is inserted into the inside of the case, a portion of the horizontal portion protrudes to the lower side is formed, the bottom of the protrusion is the bottom of the coupling portion seaming the case and the lower cap And the height is the same or more protruded to the lower side than the bottom of the coupling portion.

In addition, the protrusion is spaced at a predetermined distance from the vertical portion of the lower cap is formed in the entire center.

In addition, the protrusion and the horizontal portion is connected to the inclined portion, the inclined portion is formed to be inclined in the outward direction of the protrusion.

In addition, a thermally conductive material is filled or a thermally conductive pad is interposed in an inner space of the lower cap in which the protrusion is formed.

In addition, the lower surface of the protrusion is coated with a thermally conductive grease or a thermally conductive pad is coupled.
In addition, a battery cell; A case in which the battery cell is received and formed at both sides of the battery cell; An upper cap coupled to an open upper side of the case and having a through hole for exposing an electrode terminal connected to an electrode tab of the battery cell to the outside; And a lower cap coupled to the opened lower side of the case by seaming. It includes, the lower cap is coupled so that the horizontal portion is inserted into the inside of the case, a portion of the horizontal portion protrudes to the lower side is formed, the protrusion is formed in the entire center portion spaced apart from the vertical portion of the lower cap The lower surface of the protrusion is formed at the same height as the lower end of the coupling portion in which the case and the lower cap are seamed or more protruded downward than the lower end of the coupling portion.

The battery module of the present invention is a battery module in which the edge portion of the lower cap and the lower cap are coupled to each other by seaming so that the edge portion of the lower cap protrudes downward from the horizontal portion of the lower cap. By making it possible, a separate heat sink is not required, which reduces manufacturing costs and improves heat dissipation performance.

1 and 2 are an exploded perspective view and an assembled perspective view showing a battery cell and a cell frame according to the present invention.
3 and 4 are an exploded perspective view and an assembled perspective view showing a battery module according to an embodiment of the present invention.
Figure 5 is a perspective view of the lower cap upside down according to the present invention.
6 to 8 is a partial cross-sectional view and a partial cross-sectional enlarged view showing a coupling structure of the case and the lower cap according to an embodiment of the present invention.

Hereinafter, the battery module of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 to 4 are perspective views showing the assembly structure of the battery cell, the cell frame and the battery module according to an embodiment of the present invention, Figure 5 is a perspective view of the lower cap inverted state according to the invention, Figure 6 Partial cross-sectional view showing a coupling structure of the case and the lower cap according to an embodiment of the present invention.

As shown, a battery module 1000 according to an embodiment of the present invention includes a battery cell 100; A case 300 in which the battery cell 100 is accommodated therein and is open at both sides; An upper cap 400 coupled to an open upper side of the case 200 and having a through hole 410 exposed to the outside of the electrode terminal 220 connected to the electrode tab 120 of the battery cell 100. ; And a lower cap 500 coupled to the opened lower side of the case 300 by seaming. It includes, the lower cap 500 is coupled so that the horizontal portion 510 is inserted into the case 300, the protrusion 540 is formed in which a portion of the horizontal portion 510 protrudes downward, The lower surface of the protrusion 540 is formed at the same height as the lower end of the coupling part 530 in which the case 300 and the lower cap 500 are seaming, or protrude further downward than the lower end of the coupling part 530. do.

First, as shown in FIGS. 1 and 2, the battery cell 100 includes a pair of electrode tabs 120 formed above the electrode body 110. The battery cell 100 is provided with a pair, and the pair of battery cells 100 may be coupled to both sides of the cell frame 200 in which the hollow part 210 is formed to accommodate the electrode body 110 therein. Can be. In this case, the electrode tab 120 may be connected to the electrode terminal 220 formed on the upper side of the cell frame 200, and the electrode tabs 120 may be bent to face each other, coupled to each other by laser welding, and the electrode terminal 220. ) Can be connected. The electrode tabs 120 may be coupled to the electrode terminals 220 so that the pair of battery cells 100 are connected in series or in parallel. In addition, a plurality of battery cells 100 may be stacked so that the electrode tabs 120 may be connected in series or in parallel.

3 and 4, the case 300 is formed such that the inside is hollow and both sides are open, and the battery cell 100 is inserted and accommodated therein. In this case, as described above, the pair of battery cells 100 may be accommodated in the case 300 in a state in which the pair of battery cells 100 is coupled to the cell frame 200.

The upper cap 400 is coupled to an open upper side of the case 300 to seal the edge portion, and the upper cap 400 has a through hole 410 penetrating up and down on both sides thereof to form an electrode of the battery cell 100. The upper cap 400 is coupled to the case 300 such that the electrode terminal 220 connected to the tab 120 is exposed to the outside through the through hole 410. At this time, the upper cap 400 is bent to the upper edge portion, the upper cap 400 is inserted into the open upper end of the case 300 is bent vertical portion is coupled by seaming (seaming).

The lower cap 500 is coupled to the open lower side of the case 300 as shown in Figs. 5 to 7 is coupled so that the edge portion is sealed by seaming. At this time, the lower cap 500 is bent to the lower edge portion, the lower cap 500 is inserted into the open lower end of the case 300 is bent vertical portion is coupled by seaming.

In addition, the lower cap 500 has a vertical portion 520 bent downward at the edge of the horizontal portion 510, the case 300 in a state in which the lower cap 500 is inserted into the lower end of the case 300 A portion of the vertical portion 520 of the lower end and the lower cap 500 is folded outwardly and coupled by seaming so that the coupling portion 530 may be formed at the edge. Coupling portion 530 to be seaming coupled here can be firmly coupled by being in close contact with both sides using the pressing jig 600 in a folded state.

Thus, the lower cap 500 is coupled to the horizontal portion 510 is inserted into the case 300, the lower side of the case 300 and the lower cap 500 is coupled to the coupling portion 530 on the edge Is formed. At this time, the lower cap 500 is a portion of the horizontal portion 510 protrudes to the lower side as shown in FIG. The lower surface of the protrusion 540 is formed to protrude further downward than the lower end of the coupling portion 530. That is, the lower cap 500 has a height H2 up to the bottom surface of the protrusion 540 than the height H1 up to the bottom of the coupling portion 530 based on the horizontal portion 510.

Thus, the battery module according to an embodiment of the present invention, in the battery module in which the edge portion of the lower cap protrudes to the lower side than the horizontal portion of the lower cap coupled to the bottom portion of the case and the lower cap by seaming, By forming a protruding portion so that a part of the horizontal portion protrudes downward, the heat dissipation can be conducted to the lower side of the battery module by heat conduction so that a separate heat sink that is in close contact with the case is not required, thereby reducing manufacturing costs and improving heat dissipation performance. .

In addition, the case 300, the upper cap 400, and the lower cap 500 may be formed of an aluminum material having a thickness of 0.1 mm to 0.2 mm, and extend from the lower surface of the horizontal portion 510 to the lower end of the coupling portion 530. It is preferable for seaming coupling to form a height of 2.5 mm to 3.5 mm. In addition, the coupling portion of the case 300 and the upper cap 400 and the coupling portion 530 of the case 300 and the lower cap 500 may be more firmly coupled by additional laser welding after seaming coupling.

In addition, the protruding portion 540 is spaced a predetermined distance from the vertical portion 520 of the lower cap 500 is formed in the entire central portion.

That is, as shown in FIG. 6, the vertical portion 520 and the protrusion 540 are formed to be spaced apart by a predetermined distance, and the horizontal portion 510 and the vertical portion 520 are formed on the outer side in the longitudinal direction and the width direction of the lower cap 500. And the protrusion 540 is formed in the entire inner central portion. Thus, the pressing jig 600 for seaming may be disposed in a space formed below the horizontal portion 510, so that the case and the bottom cap may be easily coupled to the seam. In addition, since the protrusion 540 is formed in the entire center portion of the lower cap 500 except for the space where the pressing jig 600 is disposed, there is an advantage of improving heat dissipation performance due to heat conduction.

The length of the horizontal portion 510, which is a distance from which the vertical portion 520 and the protrusion 540 are spaced apart, may be short or long as shown in the figure, and may be changed according to the size of the pressing jig 600. .

In addition, the protrusion 540 and the horizontal portion 510 are connected to the inclined portion 550, the inclined portion 550 is formed to be inclined in the outward direction of the protrusion 540.

That is, the protrusion 540 may be formed in a convex shape below the horizontal portion 510 by pressing or drawing the lower cap 500, so that the horizontal portion 510 and the protrusion 540 are vertically connected. Compared with the inclined shape, the protrusion 540 may be easily formed.

In addition, a thermally conductive material may be filled or a thermally conductive pad 700 may be interposed in the inner space of the lower cap 500 on which the protrusion 540 is formed.

That is, the thermal conductive material is filled in the space between the lower surface of the battery cell 100 and the cell frame 200 and the upper surface of the protrusion 540 of the lower cap 500 accommodated inside the case 300 to cure or the thermal conductive pad. The heat generated during charging and discharging of the battery cell 100 may be more effectively discharged to the outside through the lower cap 500 through the 700.

In addition, a thermal grease may be applied or a thermal conductive pad may be coupled to the lower surface of the protrusion 540.

That is, since the battery module according to an embodiment of the present invention is formed to dissipate by heat conduction through the lower cap 500, the heat conduction when dissipating heat by making the lower surface of the lower cap 500 adhere to a separate cooling device. In order to improve the degree, thermally conductive grease or thermally conductive pads may be applied to the lower surface of the protrusion 540.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited to those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications can be made.

1000: Battery Module
100: battery cell
110: electrode body 120: electrode tab
200: cell frame
210: hollow portion 220: electrode terminal
300: case
400: upper cap 410: through hole
500: lower cap
510: horizontal portion 520: vertical portion
530: coupling portion 540: protrusion
550: inclined portion
600: Pressurized Jig
700: thermally conductive pad (thermally conductive material)

Claims (5)

Battery cells;
A case in which the battery cell is received and formed at both sides of the battery cell;
An upper cap coupled to an open upper side of the case and having a through hole through which an electrode terminal connected to an electrode tab of the battery cell is exposed to the outside; And
A lower cap coupled to the opened lower side of the case by seaming; Including;
The lower cap is coupled so that the horizontal portion is inserted into the inside of the case, a protrusion is formed in which a portion of the horizontal portion protrudes downward,
The protrusion is spaced apart from the vertical portion of the lower cap by a predetermined distance is formed in the entire center,
The lower surface of the protruding portion of the battery module is formed so that the case and the lower cap is the same height as the lower end of the coupling portion seaming coupled, or protrude further downward than the lower end of the coupling portion.
delete The method of claim 1,
The protruding portion and the horizontal portion are connected to the inclined portion, the inclined portion is a battery module is formed to be inclined in the outward direction.
The method of claim 1,
The inner space of the lower cap formed with the protrusion is filled with a thermally conductive material or a thermally conductive pad is interposed.
The method of claim 1,
The lower surface of the protrusion is coated with a thermal grease or a thermally conductive pad is coupled to the battery module.

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