EP0966061B1 - Method for the electrical and mechanical connection of electrically conductive parts and device for carrying out this method - Google Patents

Description

The subject invention relates to a method for electrical and mechanical Connection of a metallic conductor and a surrounding one Insulation of existing electrical cables with a cable lug or with a battery terminal, the stripped free end of the metallic conductor in a connecting sleeve of the cable lug or the battery terminal inserted and with this is connected.

When connecting an electrical conductor with a cable lug or with A battery clamp has the requirement, on the one hand, of a fixed mechanical To effect connection of the two components together and on the other hand one to ensure the lowest possible electrical contact resistance. It is known to solder electrical conductors to other electrically conductive components. By soldering one electrical conductor to another electrically conductive one Component meets the requirements for great mechanical strength and low electrical contact resistance met well.

Electrical conductors are made from different metals, in particular from copper or from Copper alloys. It is also known to make electrical conductors To produce aluminum or aluminum alloys. Made of aluminum or Conductors made of aluminum alloys are useful because they compared to those made of copper or copper alloys are only a third of the weight. This is in the automotive industry or in the aircraft industry because it is important increasing number of electrical or electronic devices on the one hand the need on electrical lines is increased and on the other hand the requirement can be met to reduce the total weight.

Electrical conductors made of aluminum or aluminum alloys can So far, however, they have only been used to a limited extent because the surfaces these conductors have an oxide layer, causing them to be soldered to others Components are not or only with difficulty accessible and by which a comparatively high contact resistance is caused.

From EP 461002 A2 is known an electrical one not made of aluminum Conductor using an electrically conductive adhesive within the connection sleeve an electrical connector.

The object of the invention is to provide a method create through which also made of aluminum or aluminum alloys manufactured electrical conductor with the connecting sleeve of a cable lug or the like. so be connected that the electrical contact resistance meets the requirements is correspondingly low and also ensures high mechanical strength becomes. This is achieved according to the invention in that the metallic Head is made of aluminum or an aluminum alloy and that the stripped free end in the connection sleeve by means of an electrically conductive Glue is glued.

Preferably, the sleeve is deformed after the free end of the aluminum conductor has been inserted, as a result of which it is also positively connected to the free end of the aluminum conductor. According to a first embodiment, the adhesive is applied to the stripped free end of the aluminum conductor, whereupon the free end of the conductor is inserted into the sleeve of the cable lug or the battery terminal. According to a second embodiment, the adhesive is pressed into the sleeve of the cable lug or the battery clamp from the side opposite the cable. If the aluminum conductor consists of a large number of wires, the adhesive is pressed inside the sleeve between the individual wires of the aluminum conductor.
A device for carrying out this method has a vessel for mixing two components of the adhesive, an injection device which can be attached to the end of the sleeve lying against the end face of the aluminum conductor and the sleeve and the stripped end of the aluminum inserted into the sleeve. Ladder enclosing press jaws.

Fig. 1

eine Vorrichtung zur Durchführung des Verfahrens, in axialem Schnitt,

Fig. 2

ein mit einem Kabelschuh verbundenes elektrisches Kabel, in Draufsicht sowie in gegenüber Fig. 1 vergrößertem Maßstab; und

Fig. 3

das mit dem Kabelschuh verbundene elektrische Kabel, im Schnitt nach der Linie A-A der Fig. 2.

The method according to the invention is explained below with reference to an apparatus for carrying out the method shown in the drawing. Show it:

Fig. 1

a device for performing the method, in axial section,

Fig. 2

an electrical cable connected to a cable lug, in plan view and on an enlarged scale compared to FIG. 1; and

Fig. 3

the electrical cable connected to the cable lug, on average along the line AA of FIG. 2nd

In Fig. 1, a cable 1 is shown, which consists of a conductor 11 surrounded by insulation 12 made of aluminum or an aluminum alloy and which is to be connected to a cable lug 2 with good electrical conductivity and being mechanically fixed. The conductor 11 consists of one of a plurality of wires. The cable lug 2 consists of an approximately cylindrical sleeve 21 which is formed with a connecting tab 22.
In order to electrically connect the cable 1 to the cable lug 2, the stripped end of the aluminum conductor 11 is inserted into the sleeve 21 of the cable lug 2 and it is then glued therein by means of an electrically conductive adhesive introduced into the sleeve 21.

A device 3, which contains a mixing vessel 31, an injection device 32 and press jaws 41, serves to introduce the adhesive into the sleeve 21 of the cable lug 2. A first component of the adhesive 30 is supplied to the mixing vessel 31 from a storage container 35 formed with a heater 36 and a hardener from a storage container 37. The adhesive 30 consisting of both components is conveyed from the mixing container 31 into the injection device 32. The injection device 32 is formed with a plate 38 provided with nozzles, which is enclosed by the two pressing jaws 41 and which bears against the end face of the sleeve 21 from which the connecting lug 22 projects. By means of the injection device 32, adhesive 30 is pressed into the sleeve 21, which passes between the individual wires of the conductor 11 and glues them to one another and to that of the sleeve 21. In order to achieve rapid curing of the adhesive, the press jaws 41 are formed with heating elements 42.
As an adhesive z. B. uses a commercially available two-component adhesive, which is electrically conductive.

2 and 3, the cable 1 connected to the cable lug 2 is shown. As can be seen from FIG. 2, the connection lug 22 of the cable lug 2 is formed with a bore 23, by means of which the cable lug 2 can be fastened on a bolt, for example the contact bolt of a battery.
As can be seen from FIG. 3, the sleeve 21 is preferably deformed into a hexagonal cross section after the cable 1 is glued to the cable lug 2, as a result of which the aluminum conductor 11 and the calf shoe 2 are also mechanically positively connected.
As an alternative to this method, the adhesive can be applied to the stripped end of the aluminum conductor 11, after which it is inserted into the sleeve 21 of the cable lug 2.

This method is used to make one of aluminum or an aluminum alloy manufactured cable with a battery terminal electrically and mechanically connect to. Here, the previously made of aluminum or an aluminum alloy manufactured electrical conductors occurring high contact resistance avoided. Because aluminum or aluminum alloys in comparison to other metals used in the cable industry a much lower one have specific weight, are thereby in electrical installations significant reductions in weight achieved, especially in is of importance to the automotive industry and the aircraft industry.

Claims (6)

1. A method for electrical and mechanical connection of an electrical cable (1) consisting of a metallic conductor (11) and insulation (12) surrounding it with a cable lug (2) or with a battery terminal, the bared free end of the metallic conductor (11) being inserted into a conductor barrel (21) of the cable lug (2) or the battery terminal and connected therewith, characterised in that the metallic conductor (11) is made from aluminium or an aluminium alloy and in that the bared free end is adhered in the conductor barrel (21) by means of an electrically conductive adhesive (30), wherein the adhesive (30) is injected through the end of the conductor barrel (21).
2. A method according to claim 1, characterised in that the conductor barrel (21) is deformed after insertion of the free end of the aluminium conductor (11), whereby the conductor barrel (21) is connected form-fittingly with the free end of the aluminium conductor (11).
3. A method according to one of claims 1 and 2, characterised in that adhesive is applied to the bared free end of the aluminium conductor (11), whereupon the latter is inserted into the conductor barrel (21) of the cable lug (2) of the battery terminal.
4. A method according to one of claims 1 and 2, characterised in that the adhesive (3) is pressed into the conductor barrel (21) of the cable lug (2) or the battery terminal from the opposite side from the cable (1).
5. A method according to claim 4, characterised in that the aluminium conductor (11) consists of a plurality of wires and in that the adhesive (30) is pressed between the individual wires of the aluminium conductor (11) inside the conductor barrel (21).
6. A device for performing the method according to one of claims 1 to 5, characterised in that it comprises a vessel (31) for mixing two components of the adhesive (30), an injection device (32) and pressure clamps (41) surrounding the conductor barrel (21) together with a bared end, inserted into the barrel, of a conductor (11), characterised in that the conductor (11) is an aluminium conductor (11) and the injection device (32) may be fitted to the end of the barrel (21) adjoining the end of the aluminium conductor (11).

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