DE202013012314U1 - Electrical connection and battery cell contact - Google Patents

Abstract

Electrical connection with at least one line (6) and a workpiece (2) wherein a contact pin (3) in at least one suitable receptacle (4) of the workpiece (2) is pressed, one end of the at least one line (6) with a to the at least one contact pin (3) adapted contact piece (5) is assembled, and the contact piece (5) on the at least one contact pin (3) is welded.

Description

The present invention relates to the production of an electrical connection between at least one line and a workpiece, a battery cell contact and an arrangement with at least two workpieces, which are electrically connected to at least one line.

In order to provide a sufficient amount of electrical energy, often several battery cells or accumulator need to be interconnected or to be supplied with electronic circuits. For this purpose, the individual battery cells can have a battery cell contact, which is also known as "busbar". About the battery cell contact, the individual battery or accumulator cells can be connected via a line with other battery or accumulator cells or to be supplied electrical circuit. The method for producing the electrical connection should be capable of being automated, capable of monitoring, rational and cost-effective as well as process-reliable. For the connection of the cell contact with the line is required that it is of high quality and ensures a secure electrical contact between the line and battery cell contact.

Conventional methods for producing electrical connections between lines and battery cell contacts are based on forming a connection piece on the battery cell contact and connecting the electrical line to the connection piece via a suitable contact piece. The battery cell contact is usually formed in one piece and has by appropriate design a connector, z. B. in the form of a protruding pin on. On the other hand, one end of the line to be connected is assembled with a matched contact piece and the contact piece is subsequently positioned on the connecting piece and connected to it by, for example, crimping. The contact piece is usually formed of copper and the battery cell contact and in particular the connector usually made of aluminum. A disadvantage of such a connection is that between the contact piece of copper and the fitting made of aluminum often no sufficient holding force acts to ensure safe electrical contact between the line and battery cell contact. In addition, by electrochemical processes between the contact piece of copper and the fitting made of aluminum, a corrosion film can form, which changes the electrical properties of the compound over time and deteriorates.

DE 199 45 946 A1 shows such a suitable contact piece and further discloses that the contact piece can be connected by laser welding to a fitting of a workpiece. A joining of the contact piece of copper with the terminal of a battery cell contact, which is usually made of aluminum, by laser welding is disadvantageous, however, because the materials copper and aluminum show large differences in the melting temperature and the thermal expansion, which for a segregation of high and Low-melting phases can lead to fusion welding and on the other hand can cause residual stresses in the joining zone. For the production of a welded joint between the contact piece made of aluminum and the connection piece of the battery cell contact made of aluminum, therefore, ordinary laser welding methods are unsuitable and special welding methods such as in DE 10 2004 009 651 B4 shown used. This is detrimental to the rationality and cost of the process.

It is therefore an object of the present invention to provide an improved electrical connection between at least one workpiece and at least one line. It is a further object of the present invention to provide a battery cell contact which is particularly suitable for connection to a line.

According to a first aspect of the invention, an electrical connection between at least one line and a workpiece according to claim 1 is provided.

The welding of the contact piece to the at least one contact pin is preferably done by laser welding.

In a preferred embodiment, the contact piece is crimped to the end of the line.

According to a second aspect of the invention, there is provided a battery cell contact with a workpiece provided with at least one suitable receptacle for a contact pin and at least one contact pin in press contact with the at least one receptacle.

The workpiece is preferably made of aluminum. The contact pin is preferably made of copper or a copper-tin alloy.

In a preferred embodiment of the battery cell contact, the receptacle is formed by a bead. The bead can be formed in particular by punching.

According to a third aspect of the invention is an arrangement with at least two workpieces provided, which are electrically connected according to the invention with at least one line.

Advantage of the compound according to claim 1, it is that the welding of the contact pin with the contact piece can be done without contact and by means of ordinary laser welding. In laser welding, only very short laser pulses are required, and the heat input into the workpiece is thus minimized. Furthermore, the pressing of the contact pin into a suitable receptacle of the workpiece, as well as the provision of the workpiece with suitable recordings and laser welding can be carried out fully automatically and thus efficiently and cost-effectively and reliably.

By pressing the contact pin into the workpiece, a high-quality and secure electrical contact can be made, which can also be fully automatic, cost-effective and reliable. Furthermore, the disadvantages of the conventional methods are avoided.

The proposed battery cell contact is inexpensive, fully automatic and process reliable to produce.

With the connection according to the invention and the battery cell contact according to the invention, arrangements of two or more battery cell contacts, which are connected to at least one line, can be produced in a simple manner. Thus, for example, in a rational and cost-effective manner, individual battery cells or accumulator cells can be connected to one another or to an electrical device to be supplied. Such an arrangement can, for example, be advantageously used to connect individual battery cells of an electric or hybrid-powered vehicle to the electric motor or other vehicle devices.

Further characteristics and advantages of the invention will become apparent from the following description of a specific embodiment, with reference made to the drawings. The same reference numerals describe the same or equivalent elements.

Show it:

1A shows a plan view of an embodiment of the battery cell contact according to the invention.

1B shows a sectional view of the embodiment of the battery cell contact of the invention 1A along the section line AA.

2 shows a plan view of an embodiment of the contact piece according to the invention with three contact pins on which three lines are positioned by means of contact pieces.

1A shows a battery cell contact 1 with which a battery cell can be connected to a line. The battery cell contact 1 includes a workpiece 2 , which can be adapted to the geometric dimensions of a battery or accumulator cell. Into the workpiece 2 of the battery cell contact 1 is a recording 4 introduced, for receiving a contact pin 3 suitable is.

The 1B shows in a sectional view along the section line AA further details of the contact pin 3 and the recording 4 in the workpiece 2 , The contact pin 3 has a cross-section, which is essentially determined by the performance of the battery or accumulator, with which the battery cell contact is used. The contact pin preferably has a circular cross section, which may vary along the extension of the pin.

The recording 4 in the workpiece 2 of the battery contact 1 is designed such that the contact pin 3 in the recording 4 can be pressed. The workpiece 2 consists preferably of aluminum, and the recording 4 For example, it can be stamped by impressing a bead through a progressive tool. After adding the workpiece 2 with the recording 4 becomes the workpiece 2 for surface treatment by means of vibratory grinding, which is also known under the name Trowalisieren treated.

The contact pin 3 is via an automatic feeder in the recording 4 of the workpiece 2 pressed. The geometry supports the mechanical requirements by double-sided pressing. As materials for the contact pin 3 In particular, copper and copper-tin alloys are suitable.

2 shows a plan view of a battery cell contact according to the invention 1 with three pins 3 on which three lines 6 by means of contact pieces 5 are positioned. There is one end of each line 6 each with a contact piece 5 assembled, for example by pressing the contact piece 5 with the end of the line 6 , Alternatively to pressing the contact piece 5 with the end of the line 6 is, for example, the welding of the contact piece 5 with the end of the line 6 possible.

After assembling one end of the cable 6 with the contact piece 5 becomes the contact piece 5 at the contact pin 3 positioned. The contact piece 5 is in this case to the shape or substantially to the cross section of the contact pin 3 customized.

After positioning, the contact piece 5 and the contact pin 3 welded together. The contact piece 5 and the contact pin 3 In this case, they preferably consist essentially of the same material, in particular of copper or copper-tin alloys, in order to enable simple welding by means of a laser beam. The welding material used is essentially excess material of the contact pin 3 which is chosen so that its extent perpendicular to a surface of the workpiece 2 is greater than an extension of the contact piece 5 perpendicular to the same surface of the workpiece 2 , After welding form the contact pin 3 and the contact piece 5 a high quality connection, ensuring a safe electrical contact between the line 6 and the workpiece 2 guaranteed. The electrical connection can be made fully automatic, monitored, rational and thus cost-effective as well as reliable.

If the cable cross-section of the line 6 is not sufficient for the required current flow, can be connected in parallel by multiple lines 6 a higher current flow can be achieved. As in 2 shown, the battery cell contact 1 for several pins 3 have multiple lines 6 to connect to a battery or accumulator cell.

With the invention, battery cell contacts 1 be connected to each other and one or more battery cell contacts 1 be connected by means of at least one line with an electrical load. The procedure shown is suitable, for example, a cost-effective and reliable connection of individual battery cells or accumulator cells by means of the battery cell contact shown 1 to produce an electrical load in an electric, a hybrid vehicle or even a conventional vehicle with an internal combustion engine. In addition to the use in the automotive sector, use in, for example, aviation or in an adapted form is also generally conceivable in all battery-operated or accumulator-operated electronics.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19945946 A1 [0004]
• DE 102004009651 B4 [0004]

Claims (10)

Electrical connection with at least one line ( 6 ) and a workpiece ( 2 ) with a contact pin ( 3 ) into at least one suitable receptacle ( 4 ) of the workpiece ( 2 ), one end of the at least one line ( 6 ) with a to the at least one contact pin ( 3 ) adapted contact piece ( 5 ) and the contact piece ( 5 ) on the at least one contact pin ( 3 ) is welded. A compound according to claim 1, characterized in that the welding is a laser welding. Connection according to claim 1 or 2, characterized in that the contact piece with the end of the line ( 6 ) is compressed. Battery cell contact ( 1 ) with a workpiece ( 2 ) provided with at least one suitable receptacle ( 4 ) for a contact pin ( 3 ), and at least one contact pin ( 3 ), with the at least one recording ( 4 ) is in press contact. Battery cell contact ( 1 ) according to claim 4, characterized in that the workpiece ( 2 ) consists of aluminum. Battery cell contact ( 1 ) according to one of the preceding claims, characterized in that the at least one receptacle ( 4 ) is a bead. Battery cell contact ( 1 ) according to claim 6, characterized in that the bead is formed by punching. Battery cell contact ( 1 ) according to one of the preceding claims, characterized in that the contact pin ( 3 ) consists of copper. Battery cell contact ( 1 ) according to one of claims 4 to 7, characterized in that the contact pin ( 3 ) consists of a copper-tin alloy. Arrangement with at least two workpieces ( 2 ), with a connection according to one of claims 1 to 3 with at least one line ( 6 ) are electrically connected.

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