DE102007054418A1 - Electric conductor and punched grid with bar conductors from such an electrical conductor - Google Patents

Abstract

The invention relates to an electrical conductor (1) in particular as a web conductor (4) of a stamped grid. To save copper, the invention proposes forming the conductor (1) as a layered composite material with a copper layer (2) on which aluminum layers (3) are applied on both sides (FIG. 1).

Description

The The invention relates to an electrical conductor and a stamped grid, whose web guide consist of the electrical conductor.

In the automotive sector, punched grids are used for more or less complex electrical wiring. The routing can be two-dimensional or three-dimensional in several planes. An example of a complex three-dimensional punched grid with multilevel ridge ladders is disclosed in the patent DE 197 13 008 C1 of the applicant. The ridge conductors of the punched grids are stamped from copper sheets and are intended for high current applications with currents up to about 400 amps at a voltage of 24 volts. Increasingly more electric power consumers in the automotive sector and their ever-increasing electrical output increase the electrical currents. A further increase in electrical currents is to be expected through new electrical components such as electric brakes and electric power steering.

So far As already mentioned, the web guides of the stamped grid consist of copper. Criteria that speak for copper are its good electrical Conductivity, machinability, in particular by punching and Bend, availability and until one or just a few Years also the acceptable price. More recently metal prices as commodity prices generally rose significantly the price increase of copper is above average was.

task The invention is therefore an electrical conductor in particular to suggest as a web conductor of a stamped grid, the same or at least similar good electrical conductivity based on the cross section or the same cross-section cheaper is. Because the further price development of copper in the ratio is not predictable to other metals, the task is to do so to generalize, an electrical conductor with reduced copper content with the same cross section or the same or at least similar good electrical conductivity such as copper to propose.

These The object is achieved by the features of claim 1 and by a stamped grid with the features of Claim 6 solved. The inventive electrical conductor is a composite layer with a layer made of copper, which has layers of a different metal on both sides. In particular, the electrical conductor is a sheet that is like copper sheet can be processed by punching and bending. In comparison with one made exclusively of copper conductor has the invention electrical conductor the advantage of a lower copper content with the same electrical conductivity based on the Cross section or with the same cross section. Another advantage is the lower price of metal prices at the time of this patent application. The electrical conductor according to the invention is processable like copper sheet, in particular, are by punching and bending like used to produce punched grids. Due to the layer structure with a Copper layer between two layers of another metal becomes the bi-metal effect, so bending the electrical conductor at Temperature change, avoided.

The Copper layer of the electrical according to the invention Conductor is preferably made of pure copper, the two-sided layers made of another metal with good electrical conductivity. The other metal may, for example, a ferrous material, for. B. So be steel. The two layers on the copper are preferably made of the same metal and are preferably the same thickness, so that the electrical conductor does not change when the temperature changes a bi-metal bends. Also conceivable are various metals the two sides of the copper layer to different electrical, mechanical and / or chemical properties on both sides to reach the head. In this case, the thickness of the two Layers and their temperature expansion are adjusted so that the Head at a temperature change is not or only slightly bends. In a preferred embodiment of the invention, the layers exist on both sides of the copper layer of aluminum, preferably from an aluminum alloy; However, it is also pure aluminum usable in embodiments of the invention. If following aluminum is one of them, in particular an aluminum alloy too understand, with pure aluminum is not excluded. aluminum has the advantage of good electrical conductivity, even with the addition of alloy components. Per cross section Although the electrical conductivity of aluminum is less than that of copper, by weight, is the electrical conductivity of aluminum, however, better than that of copper.

The tensile strength R _{m of} the copper layer is preferably about 260 N / mm ² or more. As a result, sufficient mechanical stability for attachment of, for example, connectors is given.

In the context of the invention, the two layers of the electrical conductor, which consist of a metal other than copper, softer, harder or the same hard as the copper layer or have a lower, higher or equal tensile strength R _m . In a preferred embodiment of the invention, the two layers of the other metal have a lower tensile strength R _m than the copper layer, are softer than the copper layer and / or have a higher ductility. The softer layers on the outside of the copper layer lead a press-in pin (also called a press-in pin) during pressing. Ductility means plastic deformability. With high ductility is meant a higher ductility of the two layers applied to the copper layer than the ductility of the copper. High ductility also means that, when a press-fit pin is pressed in, the two layers plastically form on the latter and hermetically seal the contact area of the pin with the electrical conductor against the ingress of air. As a result, an oxidation of the surface of the other, applied on both sides of the copper layer metal in the contact area is avoided. This is particularly important in the case of aluminum, the surface of which oxidizes on exposure to air and is therefore electrically insulated. This is avoided by a high ductility of the aluminum or generally the metal layers on the copper layer. High ductility in the sense of the invention is thus also definable by the described plastic forming of the layers on a press-in pin during the press-fitting. In this case, a press-in pin is to be understood by way of example, the effect should also occur in other, connectable by pressing into the electrical conductor to the conductor and contactable electrical connector. The ductility of the layers on the copper layer avoids corrosion and deterioration of the electrical contact resistance in the contact region of the electrical conductor according to the invention with a pressed-Einpresspin or other pressed electrical connector.

Of the Claim 6 has a stamped grid to the object whose web guide are punched from an electrical conductor, as explained above has been. For explanation, see the preceding text directed.

An embodiment of the invention provides that the stamped grid has at least one connector, in particular a connector, which is inserted or pressed into a web conductor of the stamped grid. The connector is used for electrically connecting the web conductor with, for example, an electrical cable or an electrical component. The connector may be a contact pin, a blade contact, a blade receiving contact, a fuse holder or a relay. The list is not exhaustive. A blade receiving contact is usually a sheet metal stamped part, which has a slot through which two spring arms are formed, between which a blade contact can be inserted. It can also be considered the blade contact as a plug and the blade receiving contact as a coupling of an electrical connector. A holder for a fuse or a relay may be punched like a blade receiving contact, so that the fuse or the relay with one of its contacts can be inserted and thereby electrically contacted and mechanically held. In particular, as many holders are provided as the fuse or the relay has electrical connections, wherein the holders are inserted or pressed into different web conductors of the stamped grid and thereby contacted with the web guides. The holders can also be considered as a socket for the fuse or the relay. Examples of such connectors, which are contacted by plugging or pressing in punched holes or other openings of bar conductors with the bar conductors and at the same time mechanically fixed, reveal the aforementioned patent DE 197 13 008 C1 as well as the published patent application DE 103 52 761 A1 and DE 101 49 574 A1 of the applicant. Inserting or pressing the connector into the hole in the web conductor plastically deforms the metal layers on the copper layer such that the metal layers plastically form on the connector. A contact surface where the connector is in electrical contact with the land conductor is hermetically sealed, thereby preventing air access. This prevents oxidation of the metal at the contact surface. In particular, when the metal layers are made of aluminum, the ductility and thereby the plastic molding and hermetic sealing which occurs when the connector is inserted or pressed into the web conductor prevents oxidation of the surface of the aluminum at the contact surface. An oxidation of the surface of the aluminum, which is electrically insulating, is avoided and causes a permanently good contact with low electrical contact resistance between the connector and the land conductor of the stamped grid.

To the Pressing in a press-fit pin is not always a hole in the electrical conductor required. Also as a press-fit pin designated press-in pin can with sufficient strength and small Diameter without previous punching in the electrical conductor be pressed.

The Invention will now be described with reference to a drawing Embodiment explained in more detail. The two figures show sections of bar ladders of a stamped grid according to the invention.

In the 1 and 2 illustrated, inventive electrical conductors 1 are web guides of a stamped grid, otherwise not shown. The electrical conductors 1 consist of a layered composite material with a copper layer 2 , on both sides aluminum layers 3 are applied. The copper layer 2 has pure copper, the aluminum layers 3 have an aluminum alloy. The aluminum layers 3 are equally thick, their tensile strength R _m is lower than that of the copper layer 2 , Of the consisting of the layer composite electrical conductor 1 is a sheet metal, from the web ladder 4 an otherwise not drawn punched grid are punched. The electrical conductor 1 So it forms a jetty 4 the otherwise not shown punched grid according to the invention.

In the dock ladder 4 holes are punched for insertion or insertion or insertion of connectors. 1 shows such a connector in the form of a blade receiving contact 5 So a connector. The illustrated blade receiving contact corresponds to that in the published patent application DE 103 52 761 A1 disclosed contact, which is hereby incorporated by reference. The blade receiving contact 5 is stanzpaketiert of several congruent sheet metal stampings, which has a slot 6 for insertion of a knife contact, not shown. The slot 6 shares the blade receiving contact 5 in two spring legs 7 , between which the blade contact can be plugged. Due to the stamped package are the spring legs 7 multilayered. At its foot points the blade receiving contact 5 a press-fit zone 8th on, in the spring legs 9 are formed, the star-shaped apart or spring together. The blade receiving contact 5 comes with its press-fit zone 8th into the hole in the jetty 4 pressed. In the process, the two aluminum layers become 3 plastically deformed, they fit and form on the spring legs 9 the press-in zone 8th of the blade receiving contact 5 hermetically sealing. An air access to a contact surface in which the spring legs 9 the press-in zone 8th of the blade receiving contact 5 at the layers 2 . 3 of the electrical conductor 1 who is the skipper 4 of the stamped grid is prevented by the hermetic seal. This avoids oxidation of the surface of the aluminum within the contact surface, so that the electrical contact resistance between the press-in zone 8th of the blade receiving contact 5 and the skipper 4 forming electrical conductors 1 permanently low.

The blade receiving contact 10 out 2 has no press-in zone, with him the slot passes through 11 making the knife receptacle contact 10 in the two spring legs 12 subdivided, between which an unillustrated blade contact can be plugged, the web guide 4 forming electrical conductor 1 , It will be the spring legs 12 of the blade receiving contact 10 through a rectangular hole in the electrical conductor 1 plugged. Such a blade receiving contact 10 is disclosed in the publication DE 101 49 574 A1 , which is hereby incorporated by reference. Also at the knife receiving contact 10 deform the spring legs 12 when plugging in the hole of the electrical conductor 1 its aluminum layers 3 plastically, so that the aluminum layers 3 to the spring legs 12 molding. Also in 2 seal the aluminum layers 3 of the electrical conductor 1 by their plastic molding on the spring legs 12 of the blade receiving contact 10 the contact surface hermetically and prevent air access to the contact surface on which the spring legs 12 with the electrical conductor 1 are in electrically conductive contact or, in other words, abut against a wall of the hole into which the blade receiving contact 10 is plugged. Oxidation of the surface of the aluminum at the contact surface is prevented, the electrical contact resistance from the blade receiving contact 10 to the electrical conductor 1 who is the skipper 4 of the otherwise not shown stamped grid forms remains permanently low.

In the illustrated embodiment, the electrical conductor has a total thickness of 1.3 mm, of which the copper layer 2 a thickness of 0.3 mm and the aluminum layers 3 Have thicknesses of 0.5 mm each. The electrical conductor 1 is intended to replace a full copper ladder 0.8 mm thick. The total and layer thickness information of the embodiment should be the orders of magnitude of the electrical conductor according to the invention 1 as such and in relation to a web of copper illustrate.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19713008 C1 [0002, 0010]
• DE 10352761 A1 [0010, 0014]
• - DE 10149574 A1 [0010, 0015]

Claims (8)

Electric conductor comprising a layered composite material with a layer ( 2 ) made of copper and on both sides of the copper layer ( 2 ) Layers ( 3 ) of another metal. Electric conductor according to claim 1, characterized in that the copper layer ( 2 ) on both sides aluminum layers ( 3 ) having. Electrical conductor according to claim 1 or 2, characterized in that the copper layer ( 2 ) has a tensile strength R _m of about 260 N / mm ² or more. Electric conductor according to one of Claims 1 to 3, characterized in that the two layers ( 3 ) of the other metal lower tensile strength than the copper layer ( 2 ) exhibit. Electric conductor according to one of Claims 1 to 4, characterized in that the two layers ( 3 ) of the metal other than copper have a high ductility. Punching grid with web guides, characterized in that the web guides ( 4 ) a layer composite material with a layer ( 2 ) made of copper and on both sides of the copper layer ( 2 ) Layers ( 3 ) of another metal. Punching grid according to claim 6, characterized in that the stamped grid at least one connector, in particular a connector ( 5 ; 10 ), which is in a skip ( 4 ) of the stamped grid is inserted or pressed. Punching grid according to claim 7, characterized in that by the insertion or pressing of the connector ( 5 ; 10 ) in the skimmer ( 4 ) whose metal layers, which are not made of copper, hermetically seal against air access to the connector ( 5 ; 10 ) are formed.