DE102013226809A1 - Electromechanical connector for an electrical energy storage - Google Patents

Abstract

An electromechanical connector comprising at least a first means and a second means, the first means comprising an electrically conductive bus bar electrically connecting a pole of at least one electrical energy store to an electrical connector, the second means being adapted to mechanically contact the non-positive connection of the second agent with a third agent produce.

Description

State of the art

The invention relates to an electromechanical connector for an electrical energy storage.

Connectors are known from the prior art, which produce an electrically conductive connection between electrical energy storage and / or a mechanical connection between connectors.

So revealed DE 10 2008 030 339 A1 a high-voltage connector for releasable electrical connection of high-voltage components with a plug with electrical power contacts and a socket with counterpart contact corresponding to the power contacts and with a signal contacts for activating the high voltage cooperating signal connector, which mechanically locks the plug and the socket in its plug position. The mechanical connector comprises a pre-locking position, in which the signal connector is guided in a release position and the electrical contact between the power contacts and the mating contacts is releasable, wherein the mechanical lock is released only when the electrical contact between the power contacts and the mating contacts open and the Signal plug is guided in a covering position, in which the signal connector covers the power contacts.

From the EP 686314 A1 is a connector of two busbar pairs known in which a free end of a pair of busbars is configured as a receiving device for the male part of the other busbar pair, wherein the connector is provided with a clamping device which acts with an adjustable clamping force on the receiving device.

Disclosure of the invention

A disadvantage of the known prior art is that for an electrically conductive connection between electrical energy storage devices and / or a mechanical connection between connectors further means for contacting are necessary, whereby, for example, higher line resistance caused by contact points.

Advantages of the invention

The procedure according to the invention with the characterizing features of the independent claims, on the other hand, has the advantage that an electromechanical plug comprises a first means and a second means, wherein the first means comprises at least one bus bar which electrically connects one pole of at least one electrical energy store to an electrical plug connector conductively connects and the second means is adapted to make a mechanical contact to the non-positive connection of the second means with a third means.

Further advantageous embodiments of the present invention are the subject of the dependent claims.

Advantageously, the busbar is made of one piece and preferably has a rectangular or round cross-section, for example a copper strip.

The second means comprises an electrically insulating component, which advantageously saves weight compared to conventional connectors. Advantageously, the insulating component is produced by a method such as injection molding or extrusion (plastic), sintering (ceramic) or melting method (glass).

Advantageously, in a first embodiment, the first means and second means are releasably connected, so that, for example, for producing the electromechanical connector, a bus bar is inserted into a recess of the insulating member, wherein the connection between the first means and the second means by a selected accuracy of fit no needed further locking devices and / or glued for improved vibration resistance.

In a second embodiment, the busbars, except the electrical contacts and contacts of the busbars with the at least one pole of the electrical energy storage completely enclosed by the insulating member, whereby the busbars are electrically isolated, so that, for example, accidental shorting of contacts or accidental contact being excluded by an animal.

Advantageously, the mechanical contact for non-positive connection of the second means with the third means is releasable, so that an exchange of the electrical energy storage is possible. In a first embodiment, the second means for producing the mechanical contact comprises a suitable geometric shape, for example a cylindrical pin. In a second embodiment, in addition, a housing of the electrical energy storage device for locking the third means and for stabilizing the used mechanical contact, for example, to prevent slipping of the third agent.

Advantageously, the electromechanical connector has means for mechanically connecting it to a housing, for example recesses for screws or plastic noses for mechanical pressing in which the connection is airtight and / or the connection is watertight and / or the connection requirements for an electromagnetic compatibility of electrical energy store met.

Advantageously, the electrical energy store comprises at least one battery cell and / or at least one battery module and / or a battery, so that the electromechanical connector is used, for example, to reduce contact resistances in a battery cell assembly formed into a battery module.

Advantageously, an adaptation to, for example, three busbars for an AC connection of an electrical energy storage by adjusting the insulating component is possible, with an adjustment of the housing is not necessary and an existing recess is used.

Advantageously, a vehicle having at least one electrical energy store comprises an electromechanical plug connector, wherein the electromechanical plug connector is connected to a voltage network, in particular high-voltage network, of the vehicle.

Advantageously, a connector according to the invention is used in a vehicle with at least one energy store and a contactor.

Advantageously, the electromechanical connector is used in a lithium-ion battery, lithium-sulfur battery and / or lithium-air battery.

Brief description of the figures

Embodiments of the invention are illustrated in the drawings and explained in more detail in the following description.

It shows:

1a a first embodiment of the electromechanical connector according to the invention; and

1b a second embodiment of the electromechanical connector according to the invention; and

1c a third embodiment of the electromechanical connector according to the invention; and

2 A fourth embodiment of the electromechanical connector according to the invention.

Detailed description of the embodiments

The same reference numerals denote the same device components in all figures.

1a shows an electrical energy storage 8th from a bird's-eye view, along a section of a vertical axis of a housing 4 of the electrical energy storage 8th comprising at least one battery cell 9 ,

In an in 1a illustrated first embodiment of the electromechanical connector 1 , includes the electromechanical connector 1 at least a first means 2a . 2 B and a second means 3 , The first means 2a . 2 B comprises an electrically conductive busbar, which, for example, an electrical connector 5 (1) respectively. 5 (2) with a plug or a socket, with a pole 6 at least one electrical energy storage 8th For example, the electrical connector 5 (1) with a positive pole of the battery cell 9 or the electrical connector 5 (2) with a negative pole of the battery cell 9 , electrically conductively connects, whereby advantageously contact resistance can be reduced.

In the illustrated first embodiment, the electrical energy store comprises more than one battery cell 9 , which by means of electrical connectors 7 are electrically connected to each other, for example, a positive pole of a first battery cell 9 (1) with a negative pole of a second battery cell 9 (2) ,

On the electrical connector 5 (1) and 5 (2) lies in a series connection of the battery cells 9 (1) . 9 (2) . 9 (n) a voltage equal to a sum of individual voltages of the battery cells 9 (1) . 9 (2) . 9 (n) equivalent.

The second means 3 is suitable mechanical contact for non-positive connection of the second agent 3 to produce with a third agent. If a third means, for example an electromechanical plug on the second means 3 plugged, so is a mechanical connection between the electromechanical plug and the second medium 3 produced. Advantageously, this means that no further locking mechanisms are necessary.

About the electrical connectors 5 (1) and 5 (2) can one from the battery cells 9 formed circuit are closed, for example, to operate an electric motor connected via the third means.

In 1b is a second embodiment of the electromechanical connector 1 shown, wherein an electrically conductive busbar, which is an electrical connector 5 (1) respectively. 5 (2) with a pole 6 at least one battery module 10 electrically conductive connects. The battery modules 10 comprise at least one battery cell, for example, connected in parallel and / or connected in series electrically conductive with each other. Pole 6 (1) . 6 (2) the battery modules 10 are electrically connected by connectors, screw, bonding wires and / or welding to the busbars.

In 1c is a third embodiment of the electromechanical connector 1 shown in which a first means 2a . 2 B , For example, an electrically conductive busbar, which is an electrical connector 5 (1) respectively. 5 (2) with a pole 6 at least one battery module 10 electrically conductive connects. Advantageously, the second means encloses 3 , except the electrical contacts 5 (1) respectively. 5 (2) , As well as the contacts of the busbars with the at least one pair of poles 6 (1) . 6 (2) , the bus bars completely, whereby the bus bars are electrically isolated.

In 2 is a fourth embodiment of the electromechanical connector 1 shown, wherein the electromechanical connector 1 a first remedy 2a . 2 B in the form of two cylindrical busbars releasably connected to a second means 3 are connected in the form of an insulating member, wherein the connection is selected so that the busbars two electrical contacts, such as an electrical connector 5 (1) . 5 (2) form. Instead of the cylindrical shape, further advantageous forms can be used, for example busbars with a rectangular cross section. A geometry of the second agent 2a . 2 B of the electromechanical connector 1 is chosen such that a connection of the electromechanical connector 1 with a battery case 4 is airtight and / or waterproof and / or requirements for electromagnetic compatibility of the electrical energy storage 8th Fulfills.

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 102008030339 A1 [0003]
• EP 686314 A1 [0004]

Claims (9)

Electromechanical connector ( 1 ) comprising at least a first means ( 2a . 2 B ) and a second means ( 3 ), characterized in that the first means ( 2a . 2 B ) comprises an electrically conductive bus bar having a pole ( 6 ) at least one electrical energy store ( 8th ) with an electrical connector ( 5 (1) . 5 (2) ) electrically conductively, the second means ( 3 ) is a mechanical contact to the non-positive connection of the second means ( 3 ) with a third agent. Electromechanical connector ( 1 ) according to claim 1, characterized in that the second means ( 3 ) comprises an electrical insulator. Electromechanical connector ( 1 ) according to one of the preceding claims, characterized in that the second means ( 3 ) comprises an insulating component. Electromechanical connector according to one of the preceding claims, characterized in that the first means ( 2a . 2 B ) and the second ( 3 ) are releasably connected. Electromechanical connector ( 1 ) according to one of the preceding claims, characterized in that the mechanical contact to the frictional connection of the second means ( 3 ) is releasable with the third means. Electromechanical connector ( 1 ) according to any one of the preceding claims, characterized in that the electromechanical connector ( 1 ) mechanically with a housing ( 4 ) of the energy store ( 8th ) connected is. Electromechanical connector ( 1 ) according to one of the preceding claims, characterized in that the electrical energy store ( 8th ) at least one battery cell ( 9 ) and / or at least one battery module ( 10 ) and / or a battery. Vehicle with at least one electrical energy store ( 8th ) and an electromechanical connector ( 1 ) according to one of claims 1 to 7, characterized in that the electromechanical connector ( 1 ) is connected to a voltage network of the vehicle. Use of an electromechanical connector ( 1 ) according to one of claims 1 to 7 for a vehicle, the at least one electrical energy storage ( 8th ).

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