KR101822879B1 - Secondary battery module - Google Patents

Abstract

The present invention relates to a secondary battery module, and more particularly, to a secondary battery module including a printed circuit board on which a plurality of circuit parts for detecting a voltage, a current, And more particularly, to a secondary battery module capable of increasing stability as well as lowering battery life.

Description

[0001] The present invention relates to a secondary battery module,

The present invention relates to a secondary battery module, and more particularly, to a secondary battery module including a printed circuit board on which a plurality of circuit parts for detecting a voltage, a current, And more particularly, to a secondary battery module capable of increasing stability as well as lowering battery life.

Generally, a rechargeable secondary battery is widely used as an energy source for wireless mobile devices. In addition, the secondary battery is attracting attention as an energy source for electric vehicles, hybrid electric vehicles, and the like, which is proposed as a solution for air pollution in existing gasoline vehicles and diesel vehicles using fossil fuels.

As described above, the secondary battery is applied to middle- or large-sized devices requiring high output capacity such as electric vehicles and hybrid electric vehicles, and a secondary battery module in which a plurality of secondary batteries are stacked in parallel and electrically connected is used.

In general, a rechargeable battery of a rechargeable battery module is a plate-shaped rechargeable battery which can be stacked with a high degree of integration, and the rechargeable battery of a plate-type rechargeable battery can be bent or bent easily.

Meanwhile, the secondary battery module includes a plurality of circuit units for detecting the voltage, current, temperature, and the like of the secondary battery and controlling the operation thereof. The voltage and current of the secondary battery are directly connected to the electrode tab of the secondary battery Or connect wiring or the like to the electrical connecting member of the electrode tab. Therefore, many wires are required for detecting voltage, current, and the like. Accordingly, the assembling process of the battery module is complicated, the possibility of failure is high, and the stability is low.

There is a 'sensing board assembly for a secondary battery module' of Korean Patent No. 10-0746485 for facilitating the assembly of the battery module.

The sensing board assembly includes a connecting member electrically connecting the electrode terminals of the unit cells and including an extended connection portion for connecting to the printed circuit board, and a cloth tool capable of being inserted and coupled to the extending portion of the connecting member, And a printed circuit board on which a circuit connected to the tool is formed.

However, the sensing board assembly can not be expected to provide a stable electrical connection only by inserting the extended connection portion into the cloth tool. When the assembling process of soldering or the like is added for stable electrical connection between the extended connection portion and the cloth tool, Time can be long.

Accordingly, there is a need for a secondary battery module that uses a printed circuit board on which a plurality of circuit portions are printed, can be easily assembled, can reduce the product defect rate, and can increase the stability.

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 secondary battery module using a printed circuit board on which a plurality of circuit parts are printed, which can be easily assembled, will be.

The secondary battery module of the present invention comprises: a plate-shaped secondary battery in which electrode tabs protruding from one another and having different polarities are formed and stacked; A partition disposed between the secondary battery and the secondary battery to prevent breakage of the secondary battery due to a short circuit and to support a laminated surface of the secondary battery; A first bus bar connecting the electrode tab and the electrode tab of the secondary battery in parallel; A second bus bar serially connecting the first bus bar and the first bus bar; A printed circuit board fixed on one side of the partition and sensing voltage and current and temperature of the secondary battery and controlling operation thereof; And a harness connecting the second bus bar and the printed circuit board.

Here, the harness may be connected to a circuit printed on the printed circuit board while the second bus bar is connected to one end and the ring terminal is connected to the other end, and the ring terminal is disposed between the printed circuit board and the partition .

In the secondary battery module, a coupling groove is formed in the partition, a coupling hole is formed in the printed circuit board, and a machine screw having a loop hole penetrating the coupling hole and the ring terminal, The printed circuit board can be fixedly mounted on the partition.

Further, the harness may be installed through the inside of the partition.

Also, the secondary battery module may have an erroneous assembly preventing groove formed on one side of the printed circuit board, and the erroneous assembly preventing protrusion corresponding to the erroneous assembly preventing groove may be formed in the partition.

In addition, the printed circuit board may be provided with a fuse for preventing an overcurrent from flowing to the secondary battery module.

The secondary battery module of the present invention includes a printed circuit board for sensing the voltage, current, and temperature of a secondary battery, and a harness for connecting the printed wiring board to the printed circuit board, It is easy to assemble, the defective product rate can be lowered, the stability can be improved, and the visibility can be improved.

1 is a perspective view of the present invention;
2 is an exploded perspective view of the present invention.
3 is a plan view of the present invention.
4 is a front view of the present invention.
Figure 5 is a view of the printed circuit board in Figure 3;

The present invention relates to a secondary battery module (1000), and more particularly, to a secondary battery module (1000) including a printed circuit board (200) on which a plurality of circuit parts for detecting voltage and current, A secondary battery module 1000 that is easy to assemble, can reduce a product defect rate, and can increase stability.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the present invention.

FIG. 3 is a plan view of the present invention. FIG. 4 is a front view of the present invention. FIG. 5 is a plan view of the printed circuit board 200 in FIG. Fig.

Referring to FIGS. 1 and 2, a secondary battery module 1000 according to the present invention includes a plurality of plate-shaped secondary batteries 110, and a plurality of partitions (not shown) disposed between the secondary batteries 110 and the secondary batteries 110 And a printed circuit board (200) fixed to one side of the partition (120).

Referring to FIGS. 1 and 2, at least two or more secondary batteries 110 among a plurality of the secondary batteries 110 are connected in parallel to form a sub-module 100, and the sub- The sub-modules 100 are connected in series to form the secondary battery module 1000. The secondary battery 110 is a chargeable and dischargeable unit cell, and electrode tabs 111 having an anode and a cathode, which are different in polarity, are protruded from one side and the other side, respectively. At this time, electrode tabs 111 of at least two stacked secondary cells 110 are connected in parallel by a first bus bar 130 to form the submodule 100, and the submodule 100 has at least two Or more. The first bus bar 130 of the submodule 100 stacked with at least two layers as described above is connected to the first bus bar 130 and the second bus bar 140 of the submodule 100 stacked with the submodule 100, Respectively. As described above, the structure including the parallel connection of the secondary batteries 110 can increase the service life when the secondary battery modules 1000 are manufactured with the same capacity.

Referring to FIG. 2, the partition 120 is provided to prevent breakage of the secondary battery due to a short circuit. In order to protect and stably stack the secondary battery 110 in a plate-like shape that is prone to bend or bend, And supports the outer surface of the battery 110. As described above, when the partition 120 receives the electrolyte to stably stack the secondary battery 110, the secondary battery 110 is thicker at the center side and sealed at the outer periphery to seal the electrolyte. The lamination surface of the partition 120 may be formed to be concave on the center side thereof so that the thickness is thin and the thickness of the outer circumference is thick. The printed circuit board 200 is connected to the second bus bar 140 to sense the voltage, current, and temperature of the secondary battery 110 and to control the operation of the secondary battery 110. At this time, the printed circuit board 200 and the second bus bar 140 are connected to each other by harnesses, which are classified according to electrical characteristics, electrical connection, and interconnected at one time to improve workability, stability, and visibility. Bundle, 300). The secondary battery module 1000 as described above can be easily assembled, can reduce the defective product rate, improve stability, and improve visibility.

Referring to FIGS. 1 and 2, the secondary battery module 1000 may be electrically connected to the first bus bar 130 and the electrode tab 111 by laser welding, and the first bus bar 130 And the first bus bar 130 may be in electrical contact with the second bus bar 140 and the second bus bar 140 may be coupled to the partition 120 by a fixing bolt 141 . At this time, the first bus bar 130 may be bent at least twice to facilitate welding. The upper end of the secondary battery module may be protected by an upper cover 151 and the lower end of the secondary battery module may be protected by a lower cover 152. A plurality of the secondary batteries 110 and the partitions 120 may be protected by the partition 120 by a coupling bolt 153 vertically penetrating each corner.

Referring to FIGS. 2 and 3, the harness 300 has one end connected to the second bus bar 140 and the other end connected to the ring terminal 310. The ring terminal 310 is disposed between the printed circuit board 200 and the partition 120 so that the printed circuit board 200 is fixed to the partition 120 and the ring terminal 310 And may be connected to a circuit printed on the printed circuit board 200. The structure described above is achieved by mechanically fastening the printed circuit board 200 to the partition 120 by coupling the ring terminal 310 to the other end of the harness 300. In addition, Electrical connection of the printed circuit board 200 can be made.

Referring to FIGS. 1, 2, 4, and 5, the secondary battery module 1000 may include a coupling groove 121 formed in the partition 120, Holes 201 are formed on the printed circuit board 300 by a machine screw 400 which is coupled to the coupling groove 121 while sequentially passing through the coupling hole 201 and the ring terminal 310. [ 200 may be fixedly mounted on the partition 120. The machine screw 400 is a type of a screw to be fastened in a state in which a thread is machined in a mating member and is used when a precision coupling or a high fastening force is required. There is a possibility of loosening. Therefore, Loctite can be applied to prevent the machine screw 400 from loosening. The printed circuit board 200 and the ring terminal 310 are fixed to the partition 120 by using a machine screw to which the Loctite is applied as described above so that the printed circuit board 200 and the ring terminal 310 Since the electrical connection is possible, the defective product rate can be lowered.

Referring to FIGS. 2 and 3, the harness 300 may be installed through the partition 120. The above-described structure not only protects the harness 300 from external impact but also requires no additional hardware to fix the harness 300 to the secondary battery module 1000, The visibility of the module 1000 can be improved. The partition 120 is formed to have a concave central side corresponding to the stacked surface of the rechargeable battery 110 to stably stack the rechargeable battery 110 and to have a thin thickness and a large outer circumference. As shown in Fig.

Referring to FIGS. 1, 2 and 4, the secondary battery module 1000 includes an erroneous assembly preventing groove 202 formed on one side of the printed circuit board 200, The erroneous assembling protrusion 122 corresponding to the assembling preventing groove 202 can be formed. The above-described structure can reduce the product defect rate of the secondary battery module 1000 by misassembling the printed circuit board 200.

Referring to FIGS. 1, 2, and 4, the printed circuit board 200 may include a fuse 210. The above-described structure can prevent the secondary battery module 1000 from being damaged by heat generated by an overcurrent flowing through the secondary battery module 1000. At this time, since the overcurrent value of the secondary battery module 1000 is different according to the specification of the secondary battery module 1000, the fuse 210 should be manufactured according to the specification of the secondary battery module 1000.

The secondary battery module 1000 as described above includes the printed circuit board 200 that senses the voltage, current, and temperature of the secondary battery 110 and controls operation of the secondary battery module 1000, And the harness 300 connecting the harnesses 300 at one time can be assembled easily, the product defect rate can be lowered, the stability can be enhanced, and visibility can be improved.

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.

1000: secondary battery module
100: Submodule
110: secondary battery
111: Electrode tab
120: Partition
121: Coupling groove
122: Assembly prevention protrusion
130: 1st bus bar
140: Second bus bar
141: Fixing bolt
151: upper cover
152: lower cover
153: coupling bolt
200: printed circuit board
201: coupling hole
202: anti-assembly groove
210: Fuse
300: Harness
310: Ring Terminal
400: Machine Screw

Claims (6)

A secondary battery in which a plurality of electrode tabs protruding from one another and having different polarities are stacked and laminated;
A partition disposed between the secondary battery and the secondary battery to prevent breakage of the secondary battery due to a short circuit and to support a laminated surface of the secondary battery;
A first bus bar connecting the electrode tab and the electrode tab of the secondary battery in parallel;
A second bus bar serially connecting the first bus bar and the first bus bar;
A printed circuit board fixed on one side of the partition and sensing voltage and current and temperature of the secondary battery and controlling operation thereof; And
And a harness connecting the second bus bar and the printed circuit board,
Wherein the harness is installed through the inside of the partition. The method according to claim 1,
The harness includes:
Wherein the second bus bar is connected at one end and the ring terminal is connected at the other end and the ring terminal is connected to the circuit printed on the printed circuit board while being disposed between the printed circuit board and the partition. module. 3. The method of claim 2,
The secondary battery module includes:
Wherein the printed circuit board includes a coupling groove formed in the partition, a coupling hole formed in the printed circuit board, and a machine screw having a loop hole penetrating the coupling hole and the ring terminal and coupled to the coupling groove, And the second battery module is fixed to the second battery module. delete The method according to claim 1,
The secondary battery module includes:
Wherein an erroneous assembly preventing groove is formed on one side of the printed circuit board and an erroneous assembling protrusion corresponding to the erroneous assembly preventing groove is formed in the partition. The method according to claim 1,
Wherein the printed circuit board is provided with a fuse for preventing an overcurrent from flowing to the secondary battery module.

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