KR101134134B1 - Secondary battery module - Google Patents

Abstract

The present invention relates to a high output large-capacity secondary battery module capable of charging and discharging by electrically connecting a plurality of unit cells, and more particularly, the individual unit cells stacked sequentially include a heat dissipation member, thereby expanding the volume of the unit cell The present invention relates to a secondary battery module which prevents breakage and cracking and improves cooling efficiency of a unit cell.

Description

Secondary Battery Module {SECONDARY BATTERY MODULE}

The present invention relates to a high-output large capacity secondary battery module capable of charging and discharging by electrically connecting a plurality of unit cells, and more particularly, the heat dissipation member is integrally included in each unit battery that is sequentially stacked. The present invention relates to a secondary battery module which prevents volume expansion, breakage and cracking, and improves cooling efficiency of a unit cell.

Recently, rechargeable batteries capable of charging and discharging have been widely used as energy sources for wireless mobile devices. In addition, the secondary battery has attracted attention as an energy source of electric vehicles, hybrid electric vehicles, etc. which are proposed as a solution for air pollution of conventional gasoline and diesel vehicles using fossil fuel. Therefore, the type of applications using the secondary battery is very diversified due to the advantages of the secondary battery, and it is expected that the secondary battery will be applied to many fields and products in the future.

As the application fields and products of secondary batteries are diversified as described above, the types of batteries are also diversified to provide outputs and capacities suitable for them. In addition, batteries applied to the art and products are strongly required for small size and light weight. For example, small mobile devices such as mobile phones, PDAs, digital cameras, notebook computers, and the like are used with one or three or four small and light battery cells per device according to the miniaturization tendency of the products.

On the other hand, medium and large devices such as electric bicycles, electric vehicles, hybrid electric vehicles, etc., due to the need for high output capacity, battery modules (or sometimes referred to as "battery packs") that electrically connect a plurality of battery cells are used. Since the size and weight of the battery module are directly related to the accommodation space and output of the medium and large devices, manufacturers are trying to manufacture a battery module that is as small and lightweight as possible.

On the other hand, each unit cell is a large amount of gas is generated during the charge / discharge process and heat is generated at the same time. In this case, the generated gas expands the volume of the unit cell to inflate the case, and the generated heat reduces the electrochemical performance, so that the battery module needs to be cooled quickly. In the conventional battery module, a separate means for this purpose is used. There was a problem in that the heat dissipation is not provided.

The present invention is to solve the problems of the prior art as described above, each unit cell is provided with a heat sink integrated with the unit cell is small and lightweight, but heat generated from the unit cell is quickly discharged to the outside to reduce the cooling efficiency An object of the present invention is to provide an improved secondary battery module.

A secondary battery module according to the present invention for achieving the above object is a module that can electrically charge and discharge a large amount of electricity by connecting a plurality of unit cells electrically, the unit battery is a battery cell capable of charging and discharging, the battery cell A cell case accommodating a heat dissipation member covering a surface opposing a surface accommodated in the cell case of the battery cell; And a terminal portion insulating cover covering the terminal portion of the battery cell, and one side of which is slid into the heat dissipation member.

In the battery module of the present invention, the battery cell is configured such that an electrode protrudes to the outside and a tab terminal bent to the electrode protruding to the outside is welded.

In the battery module of the present invention, the cell case includes a recess in which the battery cell is seated in a horizontal direction, a tab terminal insertion part into which a bent part of a tab terminal attached to the battery cell is fitted, and an upper bent part and a lower part of the heat dissipation member. The bent part is configured to include a through hole through which the fixing member for connecting the heat dissipation member insertion portion and the plurality of unit cells stacked up and down.

In the secondary battery module according to the present invention, the heat dissipation member includes a heat dissipation member, a left and right bent portion extending from the heat dissipation plate and bent to surround the left and right sides of the battery cell, and an upper bent portion extending from the heat dissipation plate and surrounding the upper portion of the battery cell. And a lower bent part extending from the heat sink and surrounding the lower part of the battery cell, wherein the left and right bent parts are fitted to the outside of the cell case, and the upper bent part and the lower bent part are formed at a heat dissipation member insert formed in the cell case. The heat dissipation member is coupled to the cell case with the battery cell interposed therebetween.

In the secondary battery module according to the present invention, the left and right bent portions of the heat dissipation member may further include a flap portion, and the flap portion may have a plurality of plate-like shapes extending in a horizontal direction from the left and right bent portions, or the vertical direction from the left and right bent portions. Consists of a plurality of plate-like form extending to.

In another embodiment of the present invention, the unit battery of the secondary battery module according to the present invention further includes a heat dissipation auxiliary member, wherein the heat dissipation auxiliary member is provided with a surface for accommodating the battery cell of a cell case accommodating the battery cell; It consists of covering the opposing surface.

In the present invention, the heat dissipation auxiliary member extends from the heat dissipation auxiliary member plate, the heat dissipation auxiliary member plate and bent to surround the left and right sides of the cell case, and extends from the heat dissipation auxiliary member plate and surrounds the upper part of the cell case. An upper bent part and a lower bent part extending from the heat dissipation auxiliary member plate and surrounding the lower part of the cell case, wherein the left and right bent parts are fitted to the outside of the cell case, and the upper bent part and the lower bent part are formed on the cell case. The heat dissipation auxiliary member is integrated with the cell case by being fitted to the heat dissipation member insertion unit.

In the secondary battery module according to the present invention, the heat dissipation member is made of a metal material, a carbon material, or a ceramic material. Preferably, the heat dissipation member is made of an aluminum material.

In the secondary battery module according to the present invention, the heat dissipation auxiliary member is made of a metal material, a carbon material, or a ceramic material. Preferably, the heat dissipation auxiliary member is made of an aluminum material.

In the secondary battery module according to the present invention, an adhesive tape is attached to a portion of the terminal part insulating cover slidingly inserted into the heat dissipation member.

In the secondary battery module according to the present invention, the secondary battery module includes a circuit case having a substrate for measuring and managing voltage, current, and temperature of a battery cell accommodated in the cell case, between a tab terminal of the battery cell and a circuit case substrate. It is configured to include a sensing cable that is connected to the sensing voltage and temperature of the battery cell.

The secondary battery module according to the present invention includes a heat dissipation plate integrated with individual unit cells to prevent volume expansion and breakage of each unit cell, and rapidly release heat generated from individual battery cells to the outside to increase cooling efficiency. It has an effect to make.

In the case of a medium-large battery pack built in a hybrid vehicle or an electric vehicle, there is a risk of explosion due to external shock or vibration, but the secondary battery module according to the present invention having a heat sink integrated with an individual unit battery has enhanced durability and vibration resistance. It has the effect of increasing safety.

1 is a perspective view of a battery cell constituting a unit battery of a secondary battery module according to the present invention.
2 is a perspective view of a cell case constituting a unit battery of a secondary battery module according to the present invention.
3 to 5 are perspective views of a heat dissipation member constituting a unit cell of a secondary battery module according to the present invention.
6 is an exploded perspective view of a unit cell of a secondary battery module according to the present invention.
7 is a perspective view of a unit cell of the secondary battery module according to the present invention coupled.
8 is a perspective view illustrating a heat dissipation auxiliary member constituting a unit battery of a secondary battery module according to the present invention.
9 is a perspective view illustrating a coupling state of a heat dissipation auxiliary member and a cell case of a unit battery of a secondary battery module according to the present invention.
10 is a perspective view illustrating a secondary battery module according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the present invention in more detail. The accompanying drawings show embodiments of the present invention, whereby the technical scope of the present invention is not limited.

1 is a perspective view of a battery cell constituting a secondary battery module according to the present invention, Figure 2 is a perspective view of a cell case according to the present invention, Figures 3 to 5 shows a heat dissipation member constituting a secondary battery module according to the present invention. 6 is a perspective view of the unit cell of the secondary battery module according to the present invention.

As shown in these drawings, the unit battery of the secondary battery module according to the present invention faces the battery cell 10, the cell case 20 on which the battery cell is seated, and the surface housed in the cell case of the battery cell. It comprises a heat dissipation member 30 to cover the surface and the terminal portion insulating cover 40 to cover the terminal portion of the battery cell.

As shown in FIG. 1, the battery cell 10 has positive and negative electrodes 11 and 12 protruding from the tip thereof, and the positive and negative electrodes 11 and 12 are made of metal such as copper or aluminum. In addition, positive and negative electrode tab terminals 13 and 14 are attached to the electrodes 11 and 12, and the tab terminals are bent at right angles to include horizontal parts 13a and 14a and vertical bent parts 13b and 14b. As shown in FIG. 1, the tab terminals 13 and 14 are bent in the same direction and attached to the electrode.

The cell case 20 on which the battery cell is seated is made by injection molding using nylon, and the reason for making the nylon is because the melting point of the nylon is higher than 200 ° C. When charging and discharging after configuring a module according to the present invention, when charging and discharging with a high current, heat is generated by a resistor in a terminal connected in series and in parallel, and the higher the temperature, the higher the temperature generated in the terminal part. When a material having a low melting point is used, a problem such as deformation or melting of the cell case 20 occurs due to heat generated from the terminal. Therefore, it is preferable to use a material having heat resistance.

As shown in FIG. 2, the cell case 20 in which the battery cell is seated includes vertical recesses of the recess 21 in which the battery cell is seated in the horizontal direction, the positive and negative electrode tab terminals attached to the electrodes of the battery cell. Tab terminal insertion parts 22 and 23 to which the parts 13b and 14b are fitted and coupled, the heat dissipation member insertion parts 24, 25, 28, and 29 to which the coupling protrusions of the heat dissipation member are fitted, and a plurality of units stacked up and down. It has through holes 26 and 27 through which fixing bolts connecting the cells are provided.

The recess 21 of the battery cell is concavely formed over the entire area of the cell case 20, and the tab terminal insertion parts 22 and 23 of the cell case 20 are attached to the battery cell. The vertical bent portions 13b and 14b of the negative electrode tab terminal are fitted using screws.

In addition, the tab terminals of the upper and lower battery cells 10 stacked on each cell case and stacked up and down are connected in series by a series connection terminal (not shown). The series connection terminal is fastened to the tab terminals 13 and 14 by using a screw. Thus, in order to connect the series connection terminal to the tab terminals 13 and 14 by using a screw, the tab terminals 13 and 14 are previously connected. It is preferable to form a screw hole and to form a screw hole in advance in the series connection terminal. In addition, in order to prevent short between the upper and lower serial connection terminals due to the exposure of the serial connection terminal, it is preferable to seal the terminal cover outside the series connection terminal.

In the unit battery of the battery module of the present invention, the heat dissipation member 30 covers a surface of the battery module facing the surface of the battery cell.

As shown in FIG. 3, the heat dissipation member 30 forms a structure in close contact with the heat dissipation plate 31 and the battery cell 10, and the left and right sides of the battery cell 10 are integrally coupled with the cell case 20. A left and right bent portion 32 surrounding the side, an upper bent portion 33 for wrapping the upper electrode protruding electrode terminal and a lower bent portion 34 for wrapping the lower portion opposite thereto, the cell case 20 is the heat dissipation The heat dissipation member insertion portions 24, 25, 28, and 29 are provided at positions corresponding to the upper and lower bent portions of the member, and the cell case and the heat dissipation member are coupled with the battery cell 10 interposed therebetween. Done.

That is, the heat dissipation member 30 includes a left and right bent portion 32 and an upper bent portion 33 to surround the top, bottom, left and right sides of the battery cell 10 seated on the cell case 20 in addition to the heat dissipation plate 31. And a lower bent part 34, and the heat dissipation member 30 is stacked in close contact with the battery cell, thereby effectively absorbing heat generated from the battery cell 10 by the heat dissipation member 30 to effectively dissipate the heat dissipation function. It is possible to prevent the short circuit of the battery cell 10 to ensure the safety more effectively.

The installation position and the number of installations of the left and right bent portion, the upper bent portion and the lower bent portion of the heat dissipation member are not limited and the coupling manner between the bent portion and the case is not limited, but mechanical fastening to reduce manufacturing costs and simplify the assembly process. It is preferable to have a structure.

In the case of unit cells stacked in a close contact or adjacent manner to form a secondary battery module, the left and right bent portions of the heat dissipation member may further include a flap portion to more effectively dissipate heat generated from the unit battery body to the outside. have. 4 and 5 show an embodiment of the heat dissipation member of the present invention having such a flap portion. As shown in FIGS. 4 and 5, the left and right bent portions 32 of the heat dissipation member 30 have flaps 35 and 35 ′ extending out of the cell. In the case of FIG. Is a plurality of plate-like forms extending in the horizontal direction, in the case of Figure 5 the flap portion 35 'is a plurality of plate-like forms extending in the vertical direction. In the case of having such a flap portion, the heat dissipation member may enlarge the area in contact with the outside of the cell, thereby more effectively dissipating heat generated from the battery cell.

6 is an exploded perspective view showing a state in which the battery cell 10 is seated between the cell case 20 and the heat dissipation member 30 according to the present invention, and FIG. 7 is a unit cell of the secondary battery module according to the present invention coupled thereto. It is a perspective view of the state 100.

A terminal portion insulating cover 40 may be attached to a portion where the heat dissipation member coupled to the cell case contacts the terminal portion of the battery cell. The terminal insulation cover 40 is configured to cover the positive electrode terminal, the negative electrode terminal portion, and the through-hole portion protruding from the battery cell, and prevent short between the upper and lower electrode terminals in the unit battery stacked up and down. As shown in FIG. 6, one side of the terminal insulation cover is slidably inserted into the heat dissipation member, and the terminal insulation cover and the heat dissipation member may be fixed by a tape 50 to prevent the flow of the inserted terminal portion insulation cover. Can be. That is, in assembling the unit battery of the secondary battery module according to the present invention, the terminal insulation cover may be first attached to the heat dissipation member with a tape, and then the heat dissipation member may be coupled to the cell case in which the battery cell is seated.

As another embodiment of the present invention, the unit cell of the present invention may further include a heat dissipation auxiliary member for increasing the heat dissipation efficiency.

As shown in FIG. 8, the heat dissipation auxiliary member 60 includes left and right bent portions 62 and an electrode which surround left and right sides of the cell case 20 to be integrally coupled with the heat dissipation plate 61 and the cell case 20. An upper bent portion 63 surrounding the upper part of which the terminal protrudes, and a lower bent part 64 surrounding the lower part facing the terminal, and the cell case 20 includes an upper bent part and a lower bent part of the heat dissipation auxiliary member. Since the heat dissipation member inserts 24, 25, 28, and 29 are provided at the corresponding positions in the vertical direction, the cell case and the heat dissipation auxiliary member are integrally coupled through the heat dissipation member insert. According to the exemplary embodiment of the present invention, the heat dissipation member and the heat dissipation auxiliary member may be simultaneously provided.

A coupling state between the heat dissipation auxiliary member and the cell case is illustrated in FIG. 9. As shown in FIG. 9, the heat dissipation auxiliary member 60 is coupled such that the left and right bent portions 62 surround the top, bottom, left and right sides of the cell case 20, and the upper bent portion 63 and the lower bent portion ( 64 is coupled to the heat dissipation member inserts 24, 25, 28, and 29 formed in the cell case 20 from the lower side of the cell case.

The installation position and the number of installations of the left and right bent portion, the upper bent portion and the lower bent portion of the heat dissipation auxiliary member are not limited, and the method of coupling the bent portion and the cell case of the heat dissipation auxiliary member is not limited, but the manufacturing cost is reduced and the assembly process is performed. It is desirable to have a mechanical fastening structure in order to simplify.

Each unit cell assembled as described above is loaded as necessary according to the size of the battery module to be manufactured, and then a circuit case (not shown) is coupled to the top of the cell case 20. In the battery module according to the present invention, the front part of the cell case penetrates vertically through the stacked cell cases as shown in FIG. 10 so that the unit cells and the circuit case are firmly bound without shaking. The fixing bolt 70 is fixed. The fixing bolt is inserted into the fixing hole formed in the front portion of the cell case vertically penetrating through the fixing bolt up and down in order to be fixed with a nut.

A circuit case is installed on top of the stacked unit cells and a circuit board necessary for controlling the battery module is installed on the circuit case, and then the cover is completed to complete the secondary battery module.

10 battery cells
11 anode electrodes
12 cathode electrode
13 Anode Tab Terminal
13a Anode Tab Terminal Horizontal
13b positive tab terminal vertical bend
14 Cathode Tab Terminal
14a Cathode Tab Terminal Horizontal
14b Cathode Tab Terminal Vertical Bend
20 cell cases
21 Groove
22 Positive Tab Terminal Insert
23 Cathode tab terminal insert
24, 25, 28, 29 heat radiation member insert
26, 27 through hole
30 heat radiation member
31 heatsink
32 left and right bends
33 Upper Bend
34 Lower Bend
35, 35 'flap section
40 terminal insulation cover
50 tapes
60 Heat Dissipation Aid
61 heat sink
62 left and right bends
63 upper bend
64 lower bend
70 fixing bolt
100 unit cell

Claims (15)

A module that can charge and discharge electricity by electrically connecting a plurality of unit cells,
The unit battery may be a battery cell capable of charging and discharging;
A cell case accommodating the battery cell;
A heat dissipation member covering a surface opposing the surface accommodated in the cell case of the battery cell; And
A secondary battery module comprising a terminal part insulating cover covering a terminal part of the battery cell and one side of which is slid into the heat dissipation member.
The method of claim 1,
The battery cell has a secondary battery module characterized in that the electrode protrudes to the outside, the tab terminal bent to the electrode protruding to the outside is welded, respectively.
The method of claim 1,
The cell case includes a recess in which a battery cell is seated in a horizontal direction, a tab terminal insertion part into which a bent part of a tab terminal attached to the battery cell is fitted, and a heat radiating member to which an upper bent part and a lower bent part of the heat radiating member are fitted. A secondary battery module comprising a through hole through which a fixing bolt connecting the insertion portion and the plurality of unit cells stacked up and down passes.
The method of claim 1,
The heat dissipation member may include a heat dissipation member, a left and right bent portion extending from the heat dissipation plate and bent to surround the left and right sides of the battery cell, and an upper bent portion extending from the heat dissipation plate and surrounding the top of the battery cell, and extending from the heat dissipation plate. It consists of a lower bend that wraps the bottom of
The left and right bent parts are fitted to the outside of the cell case, and the upper bent part and the lower bent part are fitted to the heat dissipation member insertion part formed in the cell case so that the heat dissipation member is coupled to the cell case with the battery cell interposed therebetween. Secondary battery module characterized in that.
The method of claim 4, wherein
Secondary battery module, characterized in that the left and right bent portion of the heat dissipation member further comprises a flap portion
The method of claim 5
The flap portion is a secondary battery module, characterized in that a plurality of plate-like form extending in the horizontal direction from the left and right bent portion
The method of claim 5
The flap portion is a secondary battery module, characterized in that a plurality of plate-like form extending in the vertical direction from the left and right bent portion
The method of claim 1,
The unit cell further includes a heat dissipation auxiliary member,
The heat dissipation auxiliary member is a secondary battery module, characterized in that the heat dissipation auxiliary member for covering the surface facing the surface of the battery cell of the cell case accommodating the battery cell.
The method of claim 8,
The heat dissipation auxiliary member may include a heat dissipation auxiliary member plate, a left and right bent portion extending from the heat dissipation auxiliary member plate and bent to surround the left and right sides of the cell case, and an upper bent portion extending from the heat dissipation auxiliary member plate and surrounding the upper portion of the cell case. A lower bent part extending from the heat dissipation auxiliary member plate and surrounding the lower part of the cell case;
The left and right bent parts are fitted to the outside of the cell case, and the upper bent part and the lower bent part are fitted to the heat dissipation member insertion part formed in the cell case, so that the heat dissipation auxiliary member is integrally coupled with the cell case. Secondary battery module.
The method of claim 1,
The heat dissipation member is a secondary battery module, characterized in that made of a metal material, carbon material, or ceramic material.
The method of claim 1,
The heat dissipation member is a secondary battery module, characterized in that made of aluminum material.
The method of claim 8,
The heat dissipation auxiliary member is a secondary battery module, characterized in that made of a metal material, carbon material, or ceramic material.
The method of claim 8,
The heat dissipation auxiliary member is a secondary battery module, characterized in that made of aluminum material.
The method of claim 1,
The secondary battery module having a heat dissipation member, characterized in that the adhesive tape is attached to the portion in which the terminal portion insulating cover is inserted into the heat dissipation member.
The method of claim 1,
The secondary battery module may include a circuit case having a substrate configured to measure and manage voltage, current, and temperature of a battery cell accommodated in the cell case;
And a sensing cable connected between the tab terminal of the battery cell and the substrate of the circuit case to sense a voltage and a temperature of the battery cell.

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