KR101913384B1 - Battery pack - Google Patents

Abstract

The present invention provides a first electrode assembly and a second electrode assembly that are extended from an anode tab and a cathode tab and include an anode tab and a cathode tab and are sealed by a pouch so that the electrode tab is exposed to the outside. A battery case having one side opened in a height direction so that the second electrode assembly is received therein; a plurality of terminals inserted between the electrode tabs and the pouches of the first battery cell and the second battery cell, And an upper cap coupled to the connection mold at an open side of the battery case and having a gas discharge portion communicating with the gas collection portion, A plurality of battery modules including a plurality of battery modules are stacked and accommodated in the battery pack case and communicated with the gas discharging portion of the secondary battery module It relates to a battery pack that is formed to extend in the longitudinal lock comprises a gas induction pipe that is formed.

Description

Battery pack {Battery pack}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery pack, and more particularly, to a battery pack capable of improving safety and improving ride environment by effectively discharging gas generated in a unit cell.

BACKGROUND ART [0002] In recent years, rechargeable secondary batteries have been widely used as energy sources for wireless mobile devices.

The secondary battery is also attracting attention as a power source for an electric vehicle (EV) and a hybrid electric vehicle (HEV), which are proposed as solutions for the air pollution of existing gasoline vehicles and diesel vehicles using fossil fuels .

In a small mobile device, one or a few battery cells are used per device, whereas a middle- or large-sized battery pack such as an automobile uses a middle- or large-sized battery pack in which a plurality of battery cells are electrically connected as a unit battery due to the need for a large-

Since the middle- or large-sized battery pack is preferably manufactured in a small size and weight, a prismatic battery, a pouch-type battery, and the like, which can be stacked with a high degree of integration and have a small weight to capacity ratio, are mainly used as the battery cells of the middle- or large-sized battery pack. Among them, a pouch type battery having a small weight, a low possibility of electrolyte leakage, and a low manufacturing cost is particularly attracting much attention.

When an internal short circuit occurs in a battery cell due to exposure to a high temperature environment or a malfunction, the decomposition reaction of the electrolyte occurs at the positive electrode interface. As a result, a large amount of gas is generated, And is discharged to the outside of the battery cell.

In general, such an internal gas contains poisonous components harmful to the human body such as carbon monoxide. When the gas discharged from the battery cell and the refrigerant flowing in the battery pack are mixed, the cooling efficiency deteriorates and a safety problem arises.

For example, in the case of a vehicle, internal gas generated in the battery cell may flow into the passenger compartment during the circulation of the refrigerant, resulting in damage to the human body.

In the U.S. Patent Publication No. 2011-0104527 (titled "SECONDARY BATTERY HAVING SEALING PORTION OF NOVEL STRUCTURE"), the sealing force at the time of occurrence of a high-pressure gas in the battery cell is preferentially given to the outer circumferential sealing portion of the electrode assembly receiving portion of the battery case And the exhaust guiding sealing portion is configured to be narrowed in width from the inside to the outside of the sealing portion so that the high-pressure gas can be discharged to the outside.

However, according to the above-described method, the gas discharge problem caused by the decomposition reaction of the electrolytic solution can not be satisfactorily solved. Therefore, it is still necessary to develop a technology for a battery module or a battery pack in which the gas generated in the unit cell is easily discharged.

U.S. Published Patent Application No. 2011-0104527 (titled SECONDARY BATTERY HAVING SEALING PORTION OF NOVEL STRUCTURE)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a battery pack capable of effectively discharging gas generated in a unit cell, .

The battery pack of the present invention includes a first electrode assembly and a second electrode assembly, which are formed by extending an electrode tab including a negative electrode tab and a positive electrode tab from a negative electrode plate and a positive electrode plate, and sealing the electrode tab with a pouch to expose the electrode tab; A battery case having one side opened in a height direction so that the first electrode assembly and the second electrode assembly are received therein; And a gas collecting part inserted between the electrode tabs and the pouches of the first electrode assembly and the second assembly and having a plurality of terminals formed on one side thereof connected to the electrode tabs and penetrating through the electrode tabs in the height direction; An upper cap coupled to the connection mold at an open side of the battery case and having a gas discharge portion communicating with the gas collection portion; And a gas induction pipe extending in the longitudinal direction so as to communicate with the gas discharging portion of the secondary battery module.

Further, in the battery module according to an embodiment of the present invention, a gas discharge pipe is protruded on one side in a height direction of a region where the gas collecting part is formed in the connection mold, and a gas discharge pipe The gas discharge portion may be formed to be hollow.

In addition, an insertion hole may be formed in the gas guide tube according to an embodiment of the present invention so that the gas discharge tube is inserted and coupled.

Further, the gas guiding tube according to an embodiment of the present invention may be formed with a gas discharge pipe protruding from the gas collecting part.

The battery pack of the present invention includes a first electrode assembly and a second electrode assembly, which are formed by extending an electrode tab including a negative electrode tab and a positive electrode tab from a negative electrode plate and a positive electrode plate, and sealing the electrode tab with a pouch to expose the electrode tab; A battery case having one side opened in a height direction so that the first electrode assembly and the second electrode assembly are received therein; A first connection mold inserted between the electrode taps and the pouch of the first electrode assembly and the second electrode assembly and including a gas flow path penetrating in a height direction; The first connection mold is coupled to the first connection mold at one side located in a direction opposite to the direction in which the first connection mold is inserted between the electrode tabs, a plurality of terminals formed at one side are connected to the electrode tab, A second connection mold including a gas collecting part formed so as to be connected to the first connection mold; And an upper cap coupled to the second connection mold at an open side of the battery case and having a gas discharge portion communicating with the gas collection portion; And a gas induction pipe extending in the longitudinal direction so as to communicate with the gas discharging portion of the secondary battery module.

Further, in the battery module according to an embodiment of the present invention, a gas discharge pipe protrudes from one side of the second connection mold in the height direction of a region where the gas collecting part is formed, and the gas discharge pipe corresponds to the gas discharge pipe of the upper cap The gas discharge portion may be formed to be hollow.

In addition, an insertion hole may be formed in the gas guide tube according to an embodiment of the present invention so that the gas discharge tube is inserted and coupled.

Further, the gas guiding tube according to an embodiment of the present invention may be formed with a gas discharge pipe protruding from the gas collecting part.

The battery pack of the present invention relates to a battery pack capable of improving the safety and improving the ride environment by effectively discharging gas generated in the unit battery.

In addition, the battery pack of the present invention improves safety because the electrode assembly is firmly fixed in the battery case, and the battery cells are fixed in a compact case, so that the space utilization can be increased, and the electrode tabs of the battery cells can be electrically connected There is an advantage that it is easy.

1 is a perspective view showing a battery pack according to the present invention.
2 is a perspective view of an electrode assembly according to the present invention.
3 is an exploded perspective view showing a battery module of a battery pack according to the present invention.
FIG. 4 is a perspective view of the battery module of FIG. 3;
5 is a sectional view taken along the line aa 'of FIG.
FIG. 6 is an exploded perspective view of a battery pack in which the battery module of FIG. 4 and the gas flow pipe are coupled. FIG.
7 is a cross-sectional view taken along the line bb 'in Fig. 1;
FIG. 8 is an exploded perspective view showing a state in which a gas flow tube is coupled to another battery module according to the present invention. FIG.
Fig. 9 is a sectional view in the cc 'direction of Fig. 8; Fig.
10 is an exploded perspective view showing a battery module of another battery pack according to the present invention.
FIG. 11 is an exploded perspective view showing the first connection mold and the second connection mold of FIG. 10; FIG.
12 is a sectional view in the direction dd 'of FIG. 10;

Hereinafter, a battery pack according to the present invention having the above-described characteristics will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a battery pack according to the present invention, FIG. 2 is a perspective view showing an electrode assembly according to the present invention, FIG. 3 is an exploded perspective view showing a battery module of a battery pack according to the present invention, 4 is an exploded perspective view showing a state in which the battery module and the gas flow tube of FIG. 4 are coupled to each other, and FIG. 7 is a cross-sectional view of the battery module of FIG. 8 is an exploded perspective view showing a state where another battery module according to the present invention is coupled with a gas flow tube, FIG. 9 is a sectional view in the direction of cc 'of FIG. 8, and FIG. 10 is a cross- FIG. 11 is an exploded perspective view showing the first connection mold and the second connection mold of FIG. 10, and FIG. 12 is a sectional view in the direction of dd 'of FIG.

A battery pack 1 according to an embodiment of the present invention includes a plurality of battery modules 10 and is accommodated in the battery pack case 2. The battery module 10 includes a first electrode assembly 110, A second electrode assembly 120, a battery case 300, a connection mold 500, and an upper cap 400.

2, the first electrode assembly 110 and the second electrode assembly 120 are formed such that a negative electrode tab 210 is extended from a negative electrode plate, a positive electrode tab 220 is extended from a positive electrode plate 142, The negative electrode tab 210 and the positive electrode tab 220 are sealed by the pouch 130 so that the electrode tab 200 is exposed to the outside.

The first electrode assembly 110 and the second electrode assembly 120 are stacked in parallel so that the electrode tabs 200 face each other and the first electrode assembly 110 and the second electrode assembly 120 are stacked, The electrode tabs 200 of the first electrode assembly 120 and the electrode tabs 200 of the second electrode assembly 120 are spaced apart from each other without contacting each other.

3, the battery case 300 is formed such that an upper side or both side surfaces thereof are opened in the height direction, and the first electrode assembly 110 and the second electrode assembly 120 in a stacked state are connected to the battery case 300, respectively.

The battery case 300 may be formed of a thin metal plate having a thickness of 0.1 mm to 1.0 mm. The battery case 300 may have a shape in which the center of both side surfaces is recessed inward in the width direction, or a plurality of grooves recessed inward are formed, So that the assembly 110 and the second electrode assembly 120 can be easily brought into close contact with each other.

The battery module 10 may further include a lower cap for sealing the lower surface when both side surfaces of the battery case 300 are formed to be opened.

The lower cap may be formed in a hollow interior and open at the upper side, and the lower side of the battery case 300 may be coupled to be inserted into the hollow interior region to seal the lower side of the battery case.

The battery case 300 includes a first electrode assembly 110 and a second electrode assembly 120 such that the electrode tab 200 protrudes upward while the first electrode assembly 110 and the second electrode assembly 120 are received therein, It is preferable to be formed shorter than the assembly 120.

The connection mold 500 is inserted between the electrode tabs 200 and the pouches 130 of the first electrode assembly 110 and the second electrode assembly 120 and the plurality of terminals 510 formed on one side are inserted into the electrode tabs 200).

The connection mold 500 includes a gas collecting part 560 penetrating in the height direction so that the gas generated from the first electrode assembly 110 and the second electrode assembly 120 flows through the gas collecting part 560, As shown in FIG.

At this time, the connection mold 500 is inserted between the electrode tab 200 and the pouch 130 of the first electrode assembly 110 and the second electrode assembly 120, ) By welding.

That is, since the connection mold 500 is inserted between the first electrode assembly 110 and the second electrode assembly 120 and the pouch 130 of the second electrode assembly 120, And the gas collecting part 560 can be used to fix the terminals 510 connected to the electrode tab 200. The gas collecting part 560 can be used as the gas collecting part 560, So that the gas generated from the first electrode assembly 110 and the second electrode assembly 120 is discharged to the outside.

The battery module 10 may be formed by applying hot melt adhesive or adhesive to the spaces between the pouches 130 of the first electrode assembly 110 and the second electrode assembly 120 before the connection mold 500 is inserted. The connection mold 500 may be inserted and fixed.

The upper cap 400 is formed to be hollow and open at the lower side and a connection mold 500 is inserted between the first electrode assembly 110 and the second electrode assembly 120, As shown in Fig.

At this time, the upper cap 400 surrounds a portion of the upper part of the first electrode assembly 110 and the second electrode assembly 120 from the outside, and is coupled to the battery case 300.

The upper cap 400 is formed with a gas discharging portion communicating with the gas collecting portion 560 at a position corresponding to the position where the gas collecting portion 560 is formed and the terminals 510 of the connecting mold 500 And a cutout portion in which a region corresponding to a position where the terminals 510 are formed to be exposed to the outside is hollow.

The first electrode assembly 110 and the second electrode assembly 120 may be closely contacted by the connection mold 500 and the battery case 300 on the side where the electrode tab 200 is formed.

That is, the battery module 10 has an outer surface of a certain region above the pouch 130 on which the electrode tabs 200 of the first electrode assembly 110 and the second electrode assembly 120 are formed, The pouch 130 and the electrode tab 200 are strongly pressed against each other by being pressed from both sides in the width direction by the first electrode assembly 110 and the second electrode assembly 120, The gas can be collected only by the gas collecting part 560 without leaking to the pouch 130 on the side where the tab 200 is formed.

Likewise, the pouch 130 may be pressed in the width direction by the upper cap 400 coupled to the outside of the battery case 300 to be in close contact with the electrode tab 200.

Particularly, the battery pack 1 of the present invention is characterized in that a plurality of battery modules 10 having the above-described characteristics are stacked and accommodated in the battery pack case 2, The gas flow pipe is formed so as to extend in the longitudinal direction of the battery pack 1 so as to communicate with the gas collecting portion 560 of the connection mold 500. [

6 and 7, the battery module 10 is formed such that a gas discharge pipe 570 protrudes from the upper side of a region where the gas collecting part 560 is formed in the connection mold 500, and the upper cap The gas discharge portion may be hollowed at a position corresponding to the gas discharge pipe 570 of the gas discharge pipe 400.

At this time, an insertion hole 5 may be formed in the gas induction pipe 4 so that the gas discharge pipe 570 is inserted and coupled.

Therefore, the gas discharge pipe 570 can be inserted into the gas discharging portion and protrude upward while the connection mold 500 and the upper cap 400 are coupled to each other. When the gas discharge pipe 570 is inserted into the insertion hole 5 of the gas guiding pipe 4 So that the gas can be discharged into the gas induction pipe 4.

8 and 9, the gas induction pipe 4 may be formed with a gas discharge pipe 570 protruding from the gas collecting part 560 so as to be inserted into the gas collecting part 560.

Accordingly, the battery pack 1 of the present invention is formed such that the gas generated from the unit cells, that is, the first electrode assembly 110 and the second electrode assembly 120, is discharged to the gas flow pipe through the gas collecting part 560 Thus, explosion of the battery can be prevented and safety can be improved, and the riding environment can be effectively improved by preventing the gas from affecting the passenger on board the vehicle.

In other words, the battery pack 1 of the present invention is formed in a compact structure so that the gas generated in the unit cell by the swelling phenomenon can be quickly discharged to the specified external path, that is, the gas collecting part 560.

10, in the battery pack 1 of the present invention, the battery module 10 includes the first electrode assembly 110, the second electrode assembly 120, the battery case 300, A mold 500a, a second connection mold 500b, and an upper cap 400. [

The first connection mold 500a is inserted between the electrode tabs 200 and the pouch 130 of the first electrode assembly 110 and the second electrode assembly 120 and includes a gas flow passage formed in a height direction do.

The second connection mold 500b is connected to the first connection mold 500a at the upper side of the first connection mold 500a and the plurality of terminals 510 formed at the upper side are connected to the electrode tab 200, And a gas collecting part 560 formed in communication with the flow path.

At this time, the first connection mold 500a has the gas discharge grooves 550 formed by a certain region of both side surfaces in the width direction, and the gas discharge groove 550 is formed therein. When the gas discharge groove 550 is coupled with the second connection mold 500b, And the gas discharge groove 550 may be formed to communicate with each other.

11 and 12, the gas discharge groove 550 formed at both sides in the width direction of the first connection mold 500a is positioned between the negative electrode tab 210 and the positive electrode tab 220, So that the gas can be discharged through the pouch 130 located between the gas collecting part 560 and the gas collecting part 560.

The first connection mold 500a has a hollow portion 520 whose upper surface is opened at both sides in the longitudinal direction around the gas discharge groove 550 and a hollow portion 520 is formed on both sides in the width direction of the hollow portion 520 The second connection mold 500b is inserted into the hollow portion 520 of the first connection mold 500a on both sides of the lower side of the gas collecting portion 560 And a hook 540 to be engaged with the coupling hole 521 can be protruded.

The first connection mold 500a is inserted and fixed between the electrode tab 200 of the first electrode assembly 110 and the electrode tab 200 of the second electrode assembly 120, The mold 500b can be press-fitted.

The battery module 10 as described above has a structure in which the connection mold 500 is integrally formed in the battery module 10 shown in FIG. 3, and the battery module 10 is provided between the first electrode assembly 110 and the second electrode assembly 120 The first electrode assembly 110 and the second electrode assembly 120 are coated with a hot melt adhesive or the like and then the first connection mold 500a is inserted and fixed and then the second connection mold 500b are combined with each other, assemblability can be greatly improved.

The second connection mold 500b has a guide protrusion 541 protruding from both sides of the second connection mold 500 in the lengthwise direction of the hollow portion 520 on both sides in the longitudinal direction in which the hook 540 is formed, It is not necessary to align the positions of the first connection mold 500a and the second connection mold 500a so that they are inserted into the coupling holes 521 when they are inserted into the hollow portion 520 of the first connection mold 500a, .

When the first connection mold 500a is inserted between the first electrode assembly 110 and the second electrode assembly 120 with the fixing vanes 530 protruding from both sides in the width direction or both in the longitudinal direction, The first electrode assembly 110, and the pouch 130, which is the upper edge of the second electrode assembly 120.

Accordingly, since the first connection mold 500a can easily maintain the horizontal position with respect to the first electrode assembly 110 and the second electrode assembly 120 and can maintain a constant insertion depth, Can be coupled with the terminals 510 formed on the two connection molds 500b at an accurate position.

A gas discharge pipe 570 protrudes from one side of the battery module 10 in the height direction of the region where the gas collecting part 560 is formed in the second connection mold 500b, And the gas discharge portion may be formed hollow at a position corresponding to the discharge pipe 570.

At this time, an insertion hole 5 is formed in the gas induction pipe 4 so as to be inserted into the gas discharge pipe 570, and the gas discharge pipe 570 exposed to the upper side of the gas discharge portion is inserted It can be inserted into the hole 5.

The battery module 10 is formed such that the gas collecting part 560 and the gas discharging part of the second connection mold 500b are formed in a hollow hole state and the gas discharge pipe 570 is formed to protrude from the gas guiding pipe 4 And may be inserted into the gas collecting part 560.

Referring to FIG. 1, the assembling process of the battery pack 1 according to the present invention will be described. First, the assembled battery modules 10 are laminated and inserted into the battery pack case 2, And the gas discharge pipe 570 of each of the battery modules 10 protruding upward is fixed to the side of the side case 3 so that the battery module 10 is fixed inside the battery pack case 2, Is inserted into the insertion hole (5) formed in the gas induction pipe (4).

If necessary, the gas induction pipe 4 may be welded to be fixed to the gas discharge pipe 570.

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 by the appended claims. It goes without saying that various modifications can be made.

1: Battery pack 2: Battery pack case
3: Side case 4: Gas induction pipe
5: Insertion hole
10: Battery module
110: first electrode assembly 120: second electrode assembly
130: Pouch
141: negative plate 142: positive plate
200: electrode tab
210: negative electrode tab 220: positive electrode tab
300: Battery case
400: upper cap 410: gas outlet
420: incision
500: connection mold
500a: first connection mold 500b: second connection mold
510: terminal 520: hollow
521: Coupling ball
530: Fixing blade 540: Hook
541: Guide
550: gas discharge groove
560: gas collection part 570: gas discharge pipe
600: Lower cap

Claims (8)

A first electrode assembly and a second electrode assembly formed by extending an electrode tab including a negative electrode tab and a positive electrode tab from a negative electrode plate and a positive electrode plate and being sealed by a pouch such that the electrode tab is exposed to the outside;
A battery case having one side opened in a height direction so that the first electrode assembly and the second electrode assembly are received therein;
A connection mold interposed between the electrode tabs of the first electrode assembly and the second electrode assembly and having a plurality of terminals formed on one side thereof connected to the electrode tabs; And
And an upper cap coupled to the connection mold at an open side of the battery case,
A gas collecting part for collecting the gas generated in the first electrode assembly and the second electrode assembly is formed in the connection mold in a height direction,
Wherein the upper cap includes a plurality of battery modules each having a gas discharging portion communicating with the gas collecting portion of the connecting mold,
A gas guide tube extending in the longitudinal direction so as to communicate with a gas discharge portion of a plurality of the battery modules accommodated in the battery pack case;
The battery pack comprising:
The method according to claim 1,
The battery module
A gas discharge pipe is protruded from one side of the connection mold in a height direction of a region where the gas collecting portion is formed,
And the gas discharging portion is hollowed in a position corresponding to the gas discharge pipe of the upper cap.
3. The method of claim 2,
The gas guide tube
And an insertion hole is formed to allow the gas discharge tube to be inserted and coupled.
The method according to claim 1,
The gas guide tube
And a gas discharge pipe is formed so as to protrude from the gas collecting part.
A first electrode assembly and a second electrode assembly formed by extending an electrode tab including a negative electrode tab and a positive electrode tab from a negative electrode plate and a positive electrode plate and being sealed by a pouch such that the electrode tab is exposed to the outside;
A battery case having one side opened in a height direction so that the first electrode assembly and the second electrode assembly are received therein;
The first electrode assembly and the second electrode assembly are inserted between the electrode tabs A first connection mold;
A second connection mold coupled to the first connection mold at one side in a direction opposite to a direction in which the first connection mold is inserted between the electrode tabs and having a plurality of terminals formed at one side thereof connected to the electrode tabs; And
And an upper cap coupled to the second connection mold at an open side of the battery case and having a gas discharge portion communicating with the gas collection portion,
A gas flow passage for guiding movement of the gas generated in the first electrode assembly and the second electrode assembly is formed in the first connection mold through a height direction,
A plurality of battery modules formed in the second connection mold in communication with the gas flow path and formed in a height direction of the gas collecting part for collecting the gas moved through the gas flow path, Accommodated,
A gas guiding tube extending in the longitudinal direction so as to communicate with the gas discharging portions of the plurality of battery modules in the battery pack case; The battery pack comprising:
6. The method of claim 5,
The battery module
A gas discharge pipe protruding from one side of the second connection mold in a height direction of a region where the gas collecting portion is formed,
And the gas discharging portion is hollowed in a position corresponding to the gas discharge pipe of the upper cap.
The method according to claim 6,
The gas guide tube
And an insertion hole is formed to allow the gas discharge tube to be inserted and coupled.
6. The method of claim 5,
The gas guide tube
And a gas discharge pipe is formed so as to protrude from the gas collecting part.

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