KR20090116976A - The electrical connection apparatus of the battery cell module - Google Patents

Abstract

PURPOSE: An electrical connection apparatus of a conductor spring battery cell module is provided to automate a manufacturing process of a battery cell module, to improve productivity of the battery cell module, and to prevent short-circuit even under a humid condition. CONSTITUTION: An electrical connection apparatus(100) in which a cell cover having a plurality of connecting plates is inserted comprises: springs(110) as a conductor contacted with the connecting plates; electrical connecting terminals(120) contacting the spring; and a housing(130) in which the electrical connecting terminals are inserted and distanced from each other. The electrical connecting terminals are respectively coupled with a cable(140) for electrical connection with a connector positioned at one side of the main frame.

Description

The electrical connection apparatus of the battery cell module

The present invention relates to a connection device for electrically connecting a battery cell module used in a vehicle and a control device such as an ECU. In particular, in the use of a conductive spring, it is possible to manufacture by automation, and the risk of short circuit due to moisture It relates to an electrical connection device of the battery cell module excluded.

The large-capacity battery applied to electric vehicles or hybrid vehicles monitors the charging and discharging status of the vehicle in a control device such as an ECU (Electronic Control Unit) of the vehicle and provides the driver with relevant information. .

As a means for monitoring such a battery, a patent application No. 10-2006-31988 "connecting device of a battery cell module" filed by the present applicant is connected to each cell cover 110, as shown in FIG. A plurality of battery cells 112 are inserted in such a manner that the plates 112a are connected and connected in series, the main frame 120 into which the cell cover 110 is inserted along the guide groove 122, and the cell cover 110. In the battery cell module including the top cover 130 fixed to the frame 120, each connection hole 10 connected to the contact plate 112a in the guide groove 122 on both bottom surfaces of the main frame 120. ), A connection composed of a spring 22 of a conductor electrically connected to the bottom end of the connecting plate 112a and compressed, and a printed circuit board 24 to which the spring 22 is electrically connected and fixed. Printing so that the means 20 and the printed circuit board 24 are electrically connected and connected by a conductor. A connecting member 30 composed of each connecting connector 32 formed at one end of the circuit board 24, a connecting tool 30 connecting the connecting connectors 32, and a printed circuit board 24 One side includes a connection connector 25 that is electrically connected and fixed.

In addition, both bottom surfaces of the main frame 120 further include respective fixing covers 42 including and fixed to the printed circuit board 24.

Thus, as the spring having a compressive force is used, even when there is a flow of the battery cell module according to the driving of the vehicle, the connecting plate and the spring have an effect of being closely connected.

However, connecting the end of the spring having elasticity to the flat printed circuit board by welding, such as soldering, during the manufacturing process of the battery cell module, which is a prior application, is not made by an automatic device due to the spring's fluctuation, and welding by hand There is a problem to be fixed to the printed circuit board only.

In other words, it is difficult to weld by welding, etc. to the correct position of the flat printed circuit board by catching the spring spring of the working tool of the welding automation device, which is inevitably depending on the size of the battery cell module used for automotive applications This is a more difficult problem due to the heavy rumble of the required long springs.

Therefore, the soldering of the spring to the printed circuit board can only be made by hand, there is a problem that not only the productivity is lowered but also the manufacturing cost due to labor costs.

On the other hand, in the connecting means consisting of a spring and a printed circuit board of the prior application, and a connecting connector and a connector for connecting the printed circuit board to each other, the printed circuit board is located directly under the battery cell module There is a risk of short circuit.

That is, as the temperature of the battery cell changes, the surroundings of the battery cell module may become wet, and in this case, condensation may occur on the printed circuit board positioned below the battery cell. In this case, there is a problem that a short circuit occurs in the spring and the printed circuit board to which the connection connector is connected.

The present invention has been made to solve the above-described problem, an embodiment of the present invention has an object to be able to automate the manufacture of the electrical connection device of the battery cell module.

More specifically, it has the purpose of installing the conductor spring without using soldering.

On the other hand, it also has the purpose of preventing a short circuit by moisture in an electrical connection apparatus.

In order to solve the above problems, the present invention is an electrical connection device coupled to the lower portion of the main frame is inserted into the cell cover is provided with a plurality of connection plates on both sides of the spring is a conductor that is grounded to each of the connection plate, An electrical connection device for a battery cell module is provided, wherein the electrical connection terminal in contact with the spring and the housing are inserted to be spaced apart from each other.

In addition, the electrical connection terminal proposes an electrical connection device of the battery cell module, characterized in that the connection connector and a cable for electrical connection provided on one side of the main frame are respectively coupled.

In addition, the electrical connection terminal, a grounding piece protruding from the upper surface of the housing to contact the lower end of the spring, and a support piece inserted into the housing at the lower portion of the grounding piece to prevent separation of the electrical connection terminal, The lower portion of the support piece, the pressing piece for fixing the cable and the lower portion of the pressing piece further secures the cable, and provides an electrical connection device of the battery cell module, characterized in that provided with a guide piece for guiding the lower portion.

In addition, the electrical connection device is provided on both sides of the main frame, the lower portion of the electrical connection device, the electrical connection device of the battery cell module, characterized in that each fixing cover which is fixed to the lower portion of the main frame is further provided. To present.

According to the electrical connection device of the battery cell module according to the embodiment of the present invention as described above, the manufacture of the battery cell module with the electrical connection device is the coupling of the spring, the coupling of the cable and the electrical connection terminal and the electrical connection terminal Made of a combination of the housing is mounted, the soldering welding process of the spring is omitted, so it can be made in an automated device. Therefore, productivity is increased by assembly by automation, and labor cost is reduced, thereby reducing the cost of the product.

In addition, the electrical connection terminals are formed to be spaced apart from each other, so that the electrical connection terminals are insulated from each other even in a wet situation in which some condensation occurs, thereby eliminating the risk of a short circuit.

On the other hand, since each electrical connection terminal and the connecting connector is directly connected by a cable, it replaces the conventional printed circuit board and the connecting member, it is safer from the risk of short circuit due to moisture, and the configuration is simpler and easier to manufacture Has the effect of becoming.

In addition, the electrical connection terminal has the effect that the coupling of the cable is firmly secured by the pressing piece and the guide piece to double the cable.

In addition, when the fixing cover is further provided, since it is possible to primarily prevent moisture introduced into the electrical connection terminal from the outside, condensation due to moisture can be minimized, and prevention of short circuits due to moisture is more effective. Has

Hereinafter, the function, configuration and operation of the electrical connection device of the battery cell module of the present invention through the preferred embodiment of the accompanying drawings will be described in detail.

1 is a perspective view of an electrical connection device of a battery cell module according to an embodiment of the present invention, Figure 2 is an exploded perspective view of a battery cell module using the electrical connection device of the battery cell module shown in FIG.

Hereinafter, the spring described will be described based on the coil spring having a tensile force by compression, but means a member having a tensile force by compression and having an elastic force to which both upper and lower ends are electrically connected.

In the electrical connection device 100 coupled to the lower portion of the main frame 30 is inserted into the cell cover 20 is provided with a plurality of connecting plates 21 on both sides according to a preferred embodiment of each of the connecting plates A spring 110, which is a conductor grounded at 21, and a housing 130 through which the electrical connection terminal 120 and the electrical connection terminal which are in electrical contact with the spring 110 are inserted are spaced apart from each other.

Both sides of the cell cover 20 are provided with a connecting plate 21 to connect a plurality of battery cells 10 provided in the interior of the cell cover 20 in series.

At this time, the connecting plate 21 is formed so that the battery cells 10 are connected in series, and protrudes to both sides of the battery cells 10 arranged to overlap. On the other hand, the bus bar 22 having a U-shaped groove is coupled to the connecting plate 21 provided at both ends of the cell cover 20. A bolt protruding from the side of the top cover 40 is inserted into the bus bar 22, which causes the battery cell 10 to supply current to the vehicle.

On the other hand, the cell cover 20 having the battery cell 10 is inserted into the main frame 30, the guide groove 31 is formed on both sides. The top cover 40 is coupled to the upper portion of the main frame 30 to surround the cell cover 20 by the main frame 30 and the top cover 40. As the main frame 30 is coupled to the inside of the vehicle, the battery cell 10 is mounted on the vehicle.

In this case, as shown in FIG. 3, as the connecting plate 21 of the cell cover 20 is formed inside the guide groove 31, the connection hole 31a is formed in the guide groove 31. A conductive spring 110 is inserted.

On the other hand, the side cover 50 may be coupled to protect the connection plate 21 exposed on one side of the main frame 30 from a short circuit to the outside.

Meanwhile, in order to check the state of the battery cells 10, the electrical connection device 100 is provided at each side of the main frame 30 and each connecting plate 21 of the cell cover 20 to which the battery cells 10 are connected. Electrically connect the connection connector 60 provided. In addition, the connection connector 60 is connected to a control device such as an ECU of a vehicle, and the control device determines the state of the battery cell 10 and informs the user of this.

At this time, the electrical connection device 100 is a spring 110 that is elastic and grounded with the connection plate 21, as in the patent application No. 10-2006-31988 "applicant device of the battery cell module" that the applicant has previously filed Used. In addition, in order to automate the manufacture of the electrical connection device 100 using such a spring 110, the electrical connection device 100 is each of the electrical connection terminal 120 that the spring 110 is in contact with the housing 130 It is inserted.

That is, the lower end portion of the spring 110 having the upper end contacting the connecting plate 21 is in electrical contact with the electrical connecting terminal 120, and the electrical connecting terminal 120 is inserted into the housing 130.

In this case, since the housing 130 and the electrical connection terminal 120 in which one end of the spring 110 comes into contact with each other are provided, the problem of welding caused by the automation device due to the characteristics of the spring 110, which is a problem in the related art, is caused. It is solved.

That is, by contacting one end of the spring 110 to the electrical connection terminal 120, it is possible to replace the conventional welding work, such as soldering, the conventional automation equipment is used to the spring of the main frame 30 is fitted The housing 130 provided with the electrical connection terminal 120 at the bottom is to be assembled by a work tool (tool).

On the other hand, the number of the electrical connection terminal 120 depends on the number and arrangement of the connection plate 21 provided in the cell cover 20, it is arranged on both sides of the main frame (30). For example, in Figure 2, one side is provided with five electrical connection terminals 120 in contact with each spring 110, the other side is provided with four electrical connection terminals 120 in contact with each spring 110 The connection device 100 is shown.

In this case, the electrical connection terminals 120 provided on both sides of the main frame 30 are fixed in the housing 130. The housing 130 allows each electrical connection terminal 120 to be spaced apart from each other to insulate. That is, the electrical connection terminal 120 provided in the housing 130 is coupled to the space portion 131 is formed through the housing 130 through the upper and lower. It has a condition that is insulated from the neighboring electrical connection terminal 120.

In this case, even when the humidity around the housing 130 is coupled to the lower portion of the main frame 30 and even if condensation occurs due to the moisture, the electrical connection terminals 120 provided at positions spaced apart from each other Do not short circuit.

On the other hand, the electrical connection terminal 120 is coupled to the connection connector 60 provided on one side of the main frame 30 and the cable 140 for electrical connection, respectively.

At this time, the cable 140 is connected to a portion of the electrical connection terminal 120, is electrically connected to the spring 110, each cable 140 is gathered together, it is connected to the connection connector 60.

At this time, each cable is settled in the groove provided in the lower portion of the main frame 30, when the main frame 30 is installed in the vehicle as it is fitted in the connection connector 60 provided on the side of the main frame 30 The cable 140 is not disturbed.

On the other hand, such a cable 140 is a conventional sheathed cable is used, even if a plurality of cables are used together there is no fear that the short circuit occurs in contact with each other.

In this case, each electrical connection terminal 120 has a structure that is connected by the connection connector 60 and the cable 140, to replace the conventional printed circuit board, the configuration is simpler than the previously filed. Therefore, the production is simple, the production speed is increased, the productivity is improved, the manufacturing cost is reduced as the components are reduced.

A ground piece 121 protrudes from an upper surface of the housing 130 and contacts the lower end of the spring 110 to the electrical connection terminal 120, and a lower portion of the ground piece 121 is inserted into the housing 130 to be electrically connected. Support piece 122 to prevent separation of the terminal 120, the pressing piece 123 for fixing the cable 140 to the lower portion of the support piece 122 and the cable 140 in the lower portion of the pressing piece 123 In addition to the fixing, there is provided a guide piece 124 to guide to the bottom.

That is, the electrical connection terminal 120 is made of a conductive metal plate, the ground piece 121 protrudes to the upper portion of the housing 130 to contact the lower end of the spring 110 to the ground piece 121.

That is, the spring 110 inserted into the connection groove 31a has an upper end in contact with the ground plate 21 and a lower end in contact with the ground piece 121, and is pressed up and down by the elasticity of the spring 110. Even when the battery cell module is flowed by the driving of the vehicle, the electrical contact is kept constant.

On the other hand, the support piece 122 has a shape curled inward to the lower portion of the ground piece 121. The support piece 122 is inserted into a groove formed in the housing 130 or interferes with the protrusion formed in the housing 130 so that the electrical connection terminal 120 does not fall out of the housing 130. .

In addition, a lance may be provided in the space groove 131 of the housing 130 as a means for fixing the electrical connection terminal 120 to the housing 130 to have the electrical connection terminal 120 fitted therein. .

On the other hand, the pressing piece 123 is formed in the lower portion of the support piece 122 to fix the cable 140 peeled off. That is, the pressing piece 123 has a shape surrounding the both sides of the cable 140, the pressing piece 123 is deformed by the pressure, the electrical contact with the cable 140 is peeled off and fixed to the electrical connection terminal 120 Done.

On the other hand, the guide piece 124 is provided in the shape of wrapping the cable 140 in the lower portion of the pressing piece 123, as in the above-mentioned pressing piece 123 additionally secures the cable 140 wrapped around the electrical connection terminal The connection with the 120 is firm, and the cable 140 is straight out of the lower portion of the housing 130 so that the cable 140 does not interfere with the assembly of the housing 130.

The housing 130 provided with the electrical connection terminal 120 having such a configuration has a space 131 in which the electrical connection terminals 120 are inserted and fixed to be spaced apart from each other so that the electrical connection terminals 120 are insulated from each other. While forming, two or more assembly pieces may be assembled and formed.

As a result, the automated manufacturing of the electrical connection device 100 inserts the spring 110 into the connection groove 31a of the main frame 30, and then mains the housing 130 to which each of the electrical connection terminals 120 is coupled. It is manufactured by coupling to the bottom of the frame 30, the assembly of each of these steps, since the conventional welding process of the spring 110 is omitted, it can be made in an automated device.

In addition, the electrical connection terminal 120 is formed by the spaces 131 formed in the housing 130 are spaced apart from each other, even in a wet situation where some condensation occurs, the electrical connection terminal 120 is insulated from each other by the risk of short circuit To be removed.

On the other hand, as an auxiliary means for preventing moisture, the electrical connection device 100 is provided on both sides of the main frame 30, each of which is fixed to the lower portion of the main frame 30 in the lower portion of the electrical connection device 100 Fixing cover 150 may be further provided.

That is, the fixing cover 150, as shown in Figure 2, when the electrical connection device 100 is provided on both sides of the main frame 30, covering the housing 130 forming the electrical connection device 100 It has a shape and is fixed to the lower part of the main frame 30.

As a result, since the fixing cover 150 surrounds the lower portion of the electrical connection terminal 120 provided inside the housing 130, the moisture flowing from the outside may be primarily prevented, thereby minimizing condensation due to moisture. It becomes possible. This is to prevent the short circuit from condensation due to moisture together with the space portion 131 formed to be spaced apart from the above-described housing 130 can be more effectively made.

1 is a perspective view of an electrical connection device of a battery cell module according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of a battery cell module in which an electrical connection device of the battery cell module illustrated in FIG. 1 is used.

3 is a partial cross-sectional view of the battery cell module shown in FIG.

Figure 4 is an exploded perspective view of the prior art.

Explanation of symbols on the main parts of the drawings

100: electrical connection device 110: spring

120: electrical connection terminal 121: grounding piece

122: support piece 123: pressing piece

124: Guide 130: Housing

131: space 140: cable

150: fixed cover

1: battery cell module 10: battery cell

20: cell cover 21: connection plate

22: busbar 30: main frame

31: guide groove 31a: connection groove

40: top cover 50: side cover

60: connecting connector

Claims (4)

The electrical connection device 100 coupled to the lower part of the main frame 30 into which the cell cover 20 having a plurality of connection plates 21 provided on both sides is inserted. A spring 110 which is a conductor grounded to each of the connection plates 21; An electrical connection terminal 120 in contact with the spring 110; And And a housing 130 through which the electrical connection terminals are spaced apart from each other. In claim 1, The electrical connection terminal 120, the electrical connection device of the battery cell module, characterized in that the connection connector 60 is provided on one side of the main frame 30 and the cable 140 for electrical connection, respectively. The method of claim 1 or 2, wherein the electrical connection terminal 120, A ground piece 121 protruding from an upper surface of the housing 130 and contacting a lower end of the spring 110; A support piece 122 inserted into the housing 130 at a lower portion of the ground piece 121 to prevent separation of the electrical connection terminal 120; A pressing piece 123 for fixing the cable 140 to a lower portion of the support piece 122; And The lower portion of the pressing piece (123) further secures the cable 140, the electrical connection device of the battery cell module, characterized in that the guide piece (124) for guiding to the bottom is provided. In claim 3, The electrical connection device 100 is provided on both sides of the main frame 30, The lower portion of the electrical connection device 100, the electrical connection device of the battery cell module, characterized in that each of the fixing cover 150 which is fixed to the lower portion of the main frame 30 is further provided.

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