KR101417412B1 - Connecting apparatus for battery pack - Google Patents

Abstract

The present invention relates to a tap connecting apparatus of a battery pack, and more particularly, to a battery connecting apparatus for connecting a battery pack to a battery pack so as to horizontally arrange the polarities of the batteries in one direction, To a tap connecting device of the present invention.

Description

Connecting apparatus for battery pack "

The present invention relates to a tap connecting apparatus of a battery pack, and more particularly, to a battery connecting apparatus for connecting a battery pack to a battery pack so as to horizontally arrange the polarities of the batteries in one direction, To a tap connecting device of the present invention.

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 electric vehicles, hybrid electric vehicles, and the like, which is proposed as a solution for air pollution of existing gasoline vehicles and diesel vehicles using fossil fuels.

Small sized mobile devices are used in small battery packs in which one or two or more battery cells are electrically connected to one device. In contrast, medium and large sized devices such as automobiles are required to have a large capacity, Lt; / RTI >

The unit cells used in the middle- or large-sized battery packs are roughly classified into cylindrical, rectangular, and pouch-shaped batteries. In the early middle- to large-sized battery pack, a cylindrical battery was mainly used as a unit battery. For example, in Japanese Patent Application Laid-Open No. 2004-247320, each cylindrical battery is mounted on a fixed plate having a specific shape and is connected in the lateral direction, and is connected to the battery pack in the longitudinal direction again using the connecting ring and the insulating ring, And a manufacturing technology is proposed.

However, as shown in the above application, the operation of connecting a plurality of cylindrical batteries for manufacturing the battery pack requires many connecting members due to the structural characteristics of the cylindrical battery, and the assembling process is complicated, There is an increasing problem.

 Furthermore, since there is a large dead space between the cylindrical batteries, there is a fundamental limitation in considering the recent demand for a battery pack having a compact structure.

Therefore, in forming the battery pack, much research has been conducted on a plate-shaped battery such as a prismatic battery or a pouch-shaped battery, which has a small number of connecting members, is easy to assemble, and can be charged at a high density, There is a high interest in this low pouch type battery.

Due to its structural characteristics, the plate-shaped battery has an advantage in that the battery pack can be easily manufactured by a small number of connecting members with the size of the dead space being greatly reduced. On the other hand, since the plate-shaped battery, particularly the pouch-shaped battery, is not large in mechanical rigidity, it can be constructed, for example, as a battery module by being embedded in a case 400 having mechanical rigidity in units of 1 to 5, , And a plurality of such battery modules are stacked in accordance with a desired capacity and output to manufacture a battery pack.

Such representative examples are disclosed in Korean Patent Laid-Open Publication No. 2005-0036751 and other Japanese Patent Application Laid-Open Publication No. 2004-31049, Japanese Patent Application Laid-Open No. 2004-554492, US Patent Application Publication No. 2003-170535, etc. .

These applications have their advantages in constituting a battery pack using a plate-shaped battery as a unit battery. In each of these applications, a battery module is constructed by arranging plate-shaped unit cells longitudinally or laterally and mechanically and electrically connecting them, and by mechanically and electrically connecting the battery modules to each other laterally or longitudinally, .

Such a conventional battery pack is shown in Fig. 1 as an example.

1 is an exploded perspective view showing a conventional battery pack.

1, a conventional battery pack includes a battery module 3 in which an upper cover and one or more battery cells are interlocked with each other, and a battery tab 3c of the battery module 3 on an upper surface of the battery module 3. [ And a module case 4 for receiving the battery module 3 from the inside as it is tightly contacted with the front and both sides of the battery module 3.

The circuit board 3a is formed such that a battery tab 3c through which power is supplied from the battery cell 3b protrudes upward and is welded with a bus bar or lead wire so as to be electrically conductive between the battery tabs 3c. .

The battery module 3 is modularized by fastening one or more battery cells 3b through separate fixing means or a component such as a cell case. The position of the battery tab 3b is set so that the battery module 3 can alternately have different polarities so that the battery tab 3c of the battery cell 3b is electrically connected.

That is, in a conventional battery pack, one or more battery cells 3b are sequentially connected and assembled to form a battery module 3, and the battery tab 3c For example, are arranged such that the positive electrode and the negative electrode are alternately arranged on one side and arranged in a zigzag manner on the opposite side in the order of the negative electrode and the positive electrode.

Therefore, when the battery tabs 3c having different polarities are alternately arranged in the jig form as described above, the conventional circuit board 3a is manufactured by welding the bus bars between the tabs having different polarities, Can be electrically connected.

However, since the battery tab connection structure of such a conventional battery pack is staggered so that battery tabs having different polarities are located on one side and the other side, metallic material contacts the bus bar during welding or other assembly process, There is a problem that frequently occurs.

Also, conventionally, a temperature sensor for measuring the temperature of the battery cell is attached to the back surface of the circuit board, and at least one temperature sensor for measuring the temperature of each battery cell is provided on the back surface of the circuit board. The temperature sensor is connected to one data connector located on one side of the circuit board through a wire.

However, in the related art, since a plurality of temperature sensors are connected to one data connector through wires, an operation of attaching a wire extended to each temperature sensor to a circuit board is added, There is a problem that the back surface becomes very complicated.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a battery pack having a plurality of battery tabs arranged in the same direction and having diagonally extending bus bars on a circuit board, And it is an object of the present invention to provide a tab connection device for a battery pack having a parallel array structure capable of preventing occurrence of a short circuit.

Another object of the present invention is to provide a tab connecting device for a battery pack, which can prevent a short circuit in assembling or arranging battery tabs by dividing a bus bar horizontally connecting the battery tab and the battery tab.

The present invention includes the following embodiments in order to achieve the above object.

The first embodiment of the present invention is a battery module in which at least one battery cell having a battery tab through which a power source for an anode and a power source for a cathode are input / A circuit board fixed to an upper surface of the battery module, the at least one through-hole being formed so as to protrude from the battery tab, and at least one bus bar extending from the through hole to the other through hole to energize the electric signal of the battery tab; And a battery protection circuit connected to the circuit board and measuring a overcharge, over-discharge, and overheat temperature of the battery module, wherein the bus bar is a conductive metal plate having at least one through-hole aligned at one side of the circuit board, And the battery tabs are arranged on one side and the other side of the circuit board, respectively, and the battery tabs are arranged on one side and the other side of the circuit board, And is electrically connected to the other battery tab through the bus bar when the connection region is connected to be energized.

In the second embodiment of the present invention, the battery tabs are arranged in the same direction with the battery tabs having the same polarity.

In the third embodiment of the present invention, the circuit board is connected to the temperature sensor and the battery protection circuit so as to transmit the sensed temperature sensed signal from the temperature sensor measuring the temperature of the battery cell to the battery protection circuit The temperature sensing connector is provided.

In the fourth embodiment of the present invention, the connection regions are formed to have mutually spaced empty spaces at diagonal ends extending in diagonal directions between battery tabs having different polarities and located in different rows, so that soldering or bus bars are bonded So that the battery tabs are electrically connected to each other.

In the fifth embodiment of the present invention, the tab connecting device of the battery pack includes a data connector fixed to the circuit board to measure and transmit the output voltage of the battery tab projecting from the through hole, And a balancing board for checking the output voltage of the battery tab and adjusting the resistance value of each battery cell to maintain the output voltage level of the battery pack at a predetermined level.

In the sixth embodiment of the present invention, the circuit board is implemented with a pattern for electrically connecting the temperature sensor and the temperature sensing connector so as to be electrically conductive.

According to a seventh aspect of the present invention, the circuit board is characterized in that a pattern connected to the data connector is formed in the through hole.

Since the assembling and arranging processes of the battery tabs are performed in a state in which the bus bars are electrically disconnected during the process of aligning and arranging the battery tabs, the process of assembling the circuit boards, and the process of connecting the bus bars, There is an effect that mass production of defective products and safety accident of workers can be prevented.

1 is an exploded perspective view showing a general battery pack,
FIG. 2 is a perspective view illustrating a tab connecting apparatus of a battery pack according to the present invention,
3 is a perspective view illustrating an example of a battery cell in a tab connecting apparatus of a battery pack according to the present invention,
FIG. 4 is a plan view showing a circuit board in a tap connecting apparatus of a battery pack according to the present invention,
FIG. 5 is a partial perspective view of a battery tab in a tab connecting device of a battery pack according to the present invention. FIG.
6 is a diagram illustrating a circuit pattern in which the battery pack according to the present invention is connected to the data connector in the tab connecting apparatus.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a tap connecting apparatus of a battery pack according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a perspective view illustrating an example of a battery cell in a tab connecting apparatus of a battery pack according to the present invention, and FIG. 4 is a perspective view of a battery pack according to an embodiment of the present invention. Fig. 3 is a plan view showing a circuit board in the tap connecting apparatus of Fig.

2 to 4, a tap connecting apparatus of a battery pack according to the present invention includes a battery module 100 that is coupled to one or more battery cells 200 so as to be electrically energized, And a circuit board 300 for supporting the battery tab 230 protruding from the circuit board 300 to be electrically conductive. Here, the upper cover 1 and the case 4 of the battery pack and other configurations of the battery pack are omitted from the drawings and the detailed description since the known battery pack configurations are equally applicable.

The battery module 200 has two or more battery cells 200 as shown in FIG. 3. Each of the battery cells 200 has a bare cell (not shown) between the front case 210 and the back case 220, Lt; / RTI > The bare cell is formed with a battery tab 230 through which the positive and negative power sources protruding upward from the circuit board 300 are input and output.

The circuit board 300 includes at least one through hole 340 which is fixed on the upper surface of the battery module 200 and is formed by being passed through so as to protrude the battery tab 230 of the anode and the cathode of each battery cell 200, A bus bar 310 formed of a conductive metal plate diagonally connected to the through holes 340 to supply power to the battery cell 200 and a temperature sensing connector (not shown) for transmitting a temperature measurement signal of the battery cell 200 to a battery protection circuit A data connector 330 for measuring and transmitting the output voltage of the battery taps 320 and an output voltage of each of the battery taps received by the data connector 330 to control the resistance value of each battery cell 200 And a balancing board 500 for controlling the output voltage of the battery pack to be maintained at a set level.

In addition, the through-hole 340 is formed by a pair of protrusions, each of which protrudes upwardly from the one battery cell 200 and protrudes upwardly from the battery tab 230 of the positive electrode and the negative electrode. Here, the through-holes 340 may indicate the polarities of the positive and negative electrodes, respectively, and each polarity may be displayed so that the positive and negative electrode tabs 230 protrude from one side. That is, the present invention is characterized in that the battery tabs 230 of the same polarity are formed so as to be aligned in the same direction.

The bus bar 310 extends between the through holes 340 through which the battery tabs 230 having different polarities protrude from the through holes 340. Here, the bus bar 310 is energized by a conductive metal plate stacked on the upper surface of the circuit board 300 so that the power is applied from the battery tab 230 protruded through the through holes 340.

Also, the bus bar 310 is connected to the battery tabs 231a and 232b having different polarities so that the middle portion of the bus bar 310 is interrupted, and then connected to the bus bar 310 so as to be energized through additional bonding or adhesion of the bus bars 310 will be. That is, the bus bar 310 of the present invention includes a first bus bar 311 extending from battery tabs 231a to 233a having positive polarity and a second bus bar 311 having a negative electrode through which battery tabs 231b to 233b on the other side are protruded And a second bus bar 312 extending from the hole 340. The first bus bar 311 and the second bus bar 312 are blocked and the circuit board 300 is mounted on the upper surface of the battery module so that one or more battery tabs 230 are inserted into the through holes 340, The first bus bar 311 and the second bus bar 312 are electrically connected to each other through welding or soldering of the bus bar 310.

The temperature sensing connector 320 includes a pattern 331 implemented on a wire or a circuit board connected from a temperature sensor (not shown) for measuring the temperature of the battery cell on the back side of the circuit board 300, And transmits a signal measured by the temperature sensor to a battery protection circuit (not shown).

That is, in the temperature sensing connector 320 according to the present invention, a wire connected to a temperature sensor (not shown in the drawings) is connected to the battery protection circuit (not shown in the drawing) via the data connector 330 The wires are extended to provide a complicated environment by the wires connected to the backside and the upper side of the circuit board 300. However, according to the present invention, a temperature sensor is attached to the back surface of the circuit board 300 where each battery cell 200 is located, and a pattern connected to the battery protection circuit is formed for each temperature sensor, 320, the length of the pattern or wire extending from the temperature sensor can be shortened.

More preferably, the temperature sensor and the connector are integrally formed so as not to form a wire or a pattern extending to the back surface of the circuit board 300.

The battery tab 230 protrudes through the through hole 340 of the circuit board 300 so that the anode and the cathode are aligned in the same direction. 5, the battery tab 230 is bent at the upper surface of the circuit board 300 and is closely contacted with the bus bar 310 to be welded.

That is, the battery tab 230 is electrically connected between the positive electrode and the battery tab 230 of the negative electrode through the bus bar 310. The first bus bar 311 and the second bus bar 312 are arranged in a diagonal direction between the anode battery tab 230 and the anode battery tab 230 on the other side of the bus bar 310, .

The data connector 330 will be described with reference to FIG. 6 is a diagram illustrating a circuit pattern in which the battery pack according to the present invention is connected to a data connector in a tab connecting apparatus.

Referring to FIG. 6, the data connector 330 senses the voltage of the battery tab 230 through a circuit formed by the pattern 331 of the circuit board and applies the sensed voltage to the balancing board 500. Wherein the circuit board 300 has a plurality of patterns extending from the at least one through hole 340 to the data connector 330. Therefore, the data connector 330 measures the voltage of the battery tab 230 through the pattern 331 extending through the through hole 340 to which the battery tab 230 is attached, and applies the measured voltage to the balancing board 500 .

The balancing board 500 receives the measured voltage of the battery tab 230 applied through the data connector 330 and adjusts the resistance value of each battery cell 200 to uniformly maintain the total output of the battery pack. do. For example, when the voltage of one of the battery cells 200 is high, the resistance value of the other one or more of the battery cells may be increased to adjust the level of the output voltage to within the set range as a whole.

In addition, although the battery tab 230 is described as being attached to the bus bar 310 by soldering, it is also fixed by other fixing means such as a bolt or a pivot. The technical idea of the present invention is not limited to soldering but is fixed by fixing means such as a bolt or a pivot, as well as all means and apparatus for bonding the battery tab 230 and the bus bar 310 do. Hereinafter, for the sake of more detailed explanation, the case of lead-in will be described as an example.

The present invention includes the above-described configuration, and the operation of the present invention achieved through the above-described configuration will be described in detail.

The front case 210 and the back case 220 are fastened to the front and back surfaces of the bare cell so as to expose the battery tab 230 to which the power source of the anode and the cathode to be operated is input, 200). Then, the operator clamps the one or more battery cells 200 to modularize them, and fixes the circuit board 300 on the upper surface.

The circuit board 300 includes a first bus bar 311 and a second bus bar 312 extending in a through hole 340 through which the battery tab 230 protrudes and a second bus bar 312 extending diagonally from each other, Are spaced apart from each other to form a connection region 350.

Accordingly, the operator fixes the circuit board 300 on the upper surface of the battery module 100, which is modularized such that the battery tab 230 having a positive polarity and the battery tab 230 having a negative polarity are disposed on one side.

For example, the battery tab 231a of the anode in the first battery cell is electrically connected to the first battery tab 232b of the cathode of the second battery cell adjacent to the first battery cell. The first battery tab 231a at the anode of the first battery cell is connected to the first bus bar 311 and the second battery tab 232b at the cathode of the second battery cell is connected to the second bus bar 312, Respectively. In addition, as described above, the first bus bar 311 and the second bus bar 312 are separated from each other to form a connection area 350.

The second battery tab 232a at the anode of the second battery cell is connected to the third battery tab 233b at the anode of the third battery cell and the third battery tab 233a at the anode of the third battery cell is connected to the 4 battery cell tab (not shown) of the battery cell. A first bus bar 311 connected to the battery tab 232a of the anode of the second battery cell and a second bus bar 312 connected to the third battery tab 233b of the cathode of the third battery cell, Extending at the ends thereof with a connection region 350 spaced apart from each other.

Thereafter, the operator places the battery tabs 230 of the same polarity in the same direction, bends the battery tabs 231a to 233a of the positive electrode and the battery tabs 231b to 233b of the negative electrode, And is brought into close contact with the upper surface of the bus bar 310 and is then connected by soldering. 5 is a view for explaining an example. It is also possible to connect the bus bar 310 to the upper surface of the battery tab 230 and join them. Any connection structure that electrically conducts the battery tab 230 and the bus bar 310 through various application examples is also within the technical scope of the present invention.

The worker then attaches the first bus bar 311 extending between the battery tabs 230 to the center of the battery tab 230 after the battery tab 230 is bonded to the bus bar 310 and between the ends of the second bus bar 312 The first bus bar 311 and the second bus bar 312 are electrically connected to each other by bonding a lead wire and a bus bar to the connection area 350,

That is, even if the battery tabs 230 having the same polarity are arranged in the same direction, the bus bars 310 extending between the battery tabs 230 are cut off in the middle, The battery tab 230 of the positive electrode and the positive electrode, or the contact of the conductive material connected to the positive electrode and the battery tab 230 of the positive or negative electrode due to the operator's mistake or other environmental factors in the assembling and pouring process connecting the tabs 230, A frequent occurrence of a short circuit can be prevented.

When the alignment of the battery tab 230 and the connection process of the bus bar 310 are completed, the operator connects the data connector 330 and the temperature sensing connector 320 to the battery protection circuit by electric wires, Such as overcharging or overdischarging, in the temperature sensor 300.

In this case, in order to detect the temperature of the battery cell 300, a temperature sensor is installed at a position corresponding to each battery cell on the back surface of the circuit board and connected to the data connector through wires. 320, it is very easy to attach the temperature sensor and connect the wires.

More preferably, the temperature sensing connector 320 is integrally formed with the temperature sensor and the connector, thereby greatly reducing the connection process of the temperature sensor and the wire. The temperature sensing connector 320 is disposed for each row of the pair of battery tabs 230 to measure the temperature.

In addition, the balancing board 500 receives and measures the output voltage of each battery tab 230 through the data connector 330 so as to maintain the output voltage of the entire battery pack at a predetermined level. . For example, if the voltage output from one of the battery cells 200 is high, the resistance value of the other battery cell is increased to maintain the output voltage of the battery pack at the set level. This can be realized through a pattern formed on the circuit board 300, so that it is possible without adding any additional device or circuit structure.

The present invention may be embodied in various forms without departing from the scope of the invention. That is, if the modified embodiment includes essential components of the claims of the present invention, it should be considered that the present invention belongs to the scope of the present invention.

100: battery module 200: battery cell
210: front case 220: rear case
230: battery tabs 231a, 231b: first battery tabs
232a, 232b: second battery tab 233a, 233b: third battery tab
300: circuit board 310: bus bar
311: first bus bar 312: second bus bar
320: Temperature sensing connector 330: Data connector
340: Through hole 350: Connection area
400: Case

Claims (7)

A battery module in which one or more battery cells each having a battery tab through which an anode and a cathode are input and output, respectively, are fastened;
A circuit board fixed to an upper surface of the battery module, the at least one through-hole being formed so as to protrude from the battery tab, and at least one bus bar extending from the through hole to the other through-hole to energize the electric signal of the battery tab; And
And a battery protection circuit connected to the circuit board for measuring an overcharge, overdischarge, and overheat temperature of the battery module,
Wherein the bus bar is a conductive metal plate and extends in a diagonal direction between at least one through hole arranged at one side of the circuit board and at least one through hole aligned at the other side so as to be electrically isolated from each other at the ends thereof A connection region is formed,
The battery tab is protruded through at least one through hole aligned at one side and the other side of the circuit board and is attached to the bus bar. When the connection area is connected to be energized, the battery tab is electrically connected to other battery tabs Wherein the battery pack is connected to the battery pack. The battery pack according to claim 1, wherein the battery tab
And the battery tabs having the same polarity are aligned in the same direction. The circuit board according to claim 1, wherein the circuit board
And a temperature sensing connector connected to the temperature sensor and the battery protection circuit to transmit a temperature sensing signal sensed by a temperature sensor measuring the temperature of the battery cell to the battery protection circuit. Tap connecting device. 2. The method of claim 1,
And the battery tabs are connected to each other in such a manner that the battery tabs are electrically connected to each other with solder or a bus bar being adhered therebetween so as to have mutually spaced empty spaces at the ends extending in diagonal directions between battery tabs having different polarities and located in different rows The tab connecting device of the battery pack. The battery pack according to claim 1, wherein the tab connecting device of the battery pack
A data connector fixed to the circuit board to measure and transmit an output voltage of the battery tab protruding from the through hole; and a control unit that checks the output voltage of the battery tab measured by the data connector, And a balancing board for maintaining an output voltage level of the battery pack at a predetermined level. The circuit board according to claim 3, wherein the circuit board
And a pattern for connecting the temperature sensor and the temperature sensing connector so as to be electrically conductive is implemented. 6. The apparatus of claim 5, wherein the circuit board
And a pattern connected to the data connector is formed in the through hole.

Images