FR2964259A1 - BLINDES CONDUCTOR CONNECTION - Google Patents

Abstract

A method of making a shielded electrical connection of shielded electrical conductors (10, 20) for vehicles comprising the steps of: (i) preparing an over-length of its shield (15, 25) on at least one of the electrical conductors ( 10, 20); (ii) connecting the electrical conductors (10, 20); (iii) covering with the extra shielding length (15, 25) prepared in step (i) at least one perimeter of the shield (15, 25) of the other connected electrical conductor (10, 20); (iv) electrically connecting the shields (15, 25).

Description

The present invention relates generally to shielded electrical conductors mounted on a motor vehicle and to their method of connection. Today, a vehicle has a network of power distribution increasingly important because of the multiplication of organs. For reasons of Electro Magnetic Compatibility (EMC), these power distribution networks can be made with shielded conductors. One of the technologies is based on rigid conductors whose shape may not be circular but rectangular. Nevertheless, in dynamic areas, for example the engine block, it is sometimes necessary to have a flexible conductor technology. In this case there are difficulties in connecting conductors of different materials or shapes, as well as the problem of connecting their shields. In addition, it may be necessary for the connection area to be tight and very compact. For these power networks, the suppliers often offer solutions that are generally too expensive, too bulky or too complicated to implement.

The present invention solves these difficulties. It can be applied to all shielded conductors: circular or not, small signals or power signals, rigid or flexible. An object of the present invention is to provide a method for simply providing a shielded connection of shielded electrical conductors which is reliable, compact and economical.

For this purpose, a first aspect of the invention relates to a method for producing a shielded electrical connection of shielded electrical conductors for a vehicle comprising the steps of: (i) preparing an over-length of its shielding on at least one of the 5 conductors electric; (ii) connect the electrical conductors; (iii) covering with the over-length shielding prepared in step (i) at least one perimeter of the shield of the other connected electrical conductor; (iv) electrically connect the shields. In this way, the electrical conductors are connected in situ, without resorting to additional complex or expensive components, the invention proposing to use the own shielding of at least one of the conductors to be connected in order to shield the connection obtained, while keeping purposefully an over-length shielding. Advantageously, step (i) consists of preparing an over-shielding length on each of the shielded electrical conductors to be connected. The simplicity of the implementation is increased with this embodiment and at least one of the prepared shields will be able to cover the other if the conductors are of different sections. In addition, in the overlap zone, the shielding efficiency is maintained, and the quality of contact is improved. Advantageously, at least one of the electrical conductors is rigid. The invention makes it possible to obtain a shielded connection, even if one of the conductors is rigid and the other is not, the shield (s) covering the connection zone being derived from the conductors themselves, (s) will be able to cover the connection area. Advantageously, the step (iv) of electrical connection of the shields is provided by at least one pressure ring exerting a pressure forcing the electrical contact between the shields. The use of this ring 30 to provide the electrical contact function allows a simple, economical and reliable implementation. The invention is implemented without welding

which remains complex and delicate to execute, the ring ensuring an irreversible and constant contact, is simple to position. Advantageously, a rigid support ring is placed under the shields before step (iii) of covering the shields, where the pressure ring will be positioned, to take the pressure forces of the pressure ring. This embodiment ensures that there is no excessive stress on the insulating and conductive parts located under the pressure ring. Furthermore, this also improves the robustness of the invention by preventing the parts under the pressure ring from flowing out of the pressure zone, which would have the effect of compromising the electrical contact by pressure of the ring. As an alternative to this first embodiment, the shields are held in place by a ring before their electrical connection by brazing. The ring is used to hold the shields in place and these are electrically connected by welding. The advantages of a retaining ring are combined with those of the weld to improve the implementation of the latter. Advantageously, the method according to the invention comprises, before or after the step (iii) of recovery or after the step (iv) of connection, a step of covering the connection area with an electrically conductive ribbon in contact electric with shields. To improve the shielding at the connection, the shields of the cables can be distended or opened locally, the connection area is covered with a flexible metal film which has the effect of eliminating the electromagnetic leakage paths of the shields of the conductors. Advantageously, the method according to the invention comprises an ultimate step of protecting the connection obtained by heat-shrinkable cladding, or adhesive tape coating or over-molding of resin. Since the invention makes it possible to obtain a shielded connection that is not very cumbersome, it becomes possible to seal it with the outside by an additional barrier, while remaining within the imposed space limitations.

A second aspect of the invention relates to shielded vehicle electrical conductors connected in accordance with the first aspect of the invention. A final aspect of the invention is a motor vehicle having at least two shielded electrical conductors connected according to the first aspect of the invention. Other characteristics and advantages of the present invention will emerge more clearly on reading the following detailed description of embodiments of the invention given as non-limiting examples and illustrated by the appended drawings, in which: FIG. 1 represents a step of connection of the two shielded electrical conductors according to the invention; - Figure 2 shows a subsequent step of connecting two shielded electrical conductors; FIG. 3 represents two shielded electrical conductors connected according to the invention; - Figure 4 shows the two shielded electrical conductors connected according to an alternative of the invention; FIG. 1 shows a step of connecting two shielded electrical conductors 10 and 20. The conductor 10 is electrically isolated by an insulator 12 and a shield 15 protects it from external electromagnetic disturbances. Similarly, the conductor 20 is electrically isolated by an insulator 22 and a shield 25 protects it from external electromagnetic disturbances. The two conductors 10 and 20 are connected by an interposed plate 30 welded to each of the conductors to avoid galvanic corrosion if the materials of the conductors 10 and 20 do not have the same oxidation-reduction potential. For the implementation of the invention, prior to the electrical connection of the conductors 10 and 20, an over-armored length of each conductor is prepared by removing the shield before cutting the driver and its insulation shorter. To enable the solder connection shown, the shields 15 and 25 are folded over their conductors.

respective, which allows the operator to access the connection area to position and weld the plate 30. Figure 2 shows the next step of Figure 1. Here, before folding down the shields, an insulation 50 a has been positioned around welded electrical conductors so that there is no risk of short circuit if a metal part touches this connection area. Figure 3 shows the electrical connection of the conductors 10 and 20 when finished. The shields 15 and 25 were repositioned on their conductors and as an over-length was provided, they overlap on at least one perimeter. In order to obtain the shielding of the conductor thus produced, a pressure ring 60 or ferrule has been positioned at the level of the covering of the shields 15 and 25 and exerts a pressure on them in order to keep them in electrical contact. This pressure can be obtained by crimping the ring 60 or by intrinsic elasticity of the ring 60.

Figure 4 shows the electrical connection of the conductors 10 and 20 when finished, with a device improving the robustness. The shields 15 and 25 have been repositioned on their conductors, but a rigid support ring 70 is interposed between the shields 15, 25 and the insulating part 50. The ring 70 takes up the forces of the pressure ring 60 which forces the electrical contact between the shields 15 and 25. Thus, the insulating part 50 and the conductors do not undergo any effort from the pressure ring 60 and there is no risk of creep from them, so that the electrical contact of the shields 15, 25 by pressure can not be affected by such phenomenon.

It will be understood that various modifications and / or improvements obvious to those skilled in the art can be made to the various embodiments of the invention described in the present description without departing from the scope of the invention defined by the appended claims.

Claims (10)

REVENDICATIONS1. A method of making a shielded electrical connection of shielded electrical conductors (10, 20) for vehicles comprising the steps of: (i) preparing an over-length of its shield (15, 25) on at least one of the electrical conductors (10, 20); (ii) connecting the electrical conductors (10, 20); (iii) covering with the extra shielding length (15, 25) prepared in step (i) at least one perimeter of the shield (15, 25) of the other connected electrical conductor (10, 20); (iv) electrically connecting the shields (15, 25). 2. A method of making a shielded electrical connection of shielded electrical conductors (10, 20) according to claim 1, characterized in that step (i) consists of preparing an over-armor length (15, 25). on each of the shielded electrical conductors (10, 20) to be connected. 3. A method of making a shielded electrical connection of shielded electrical conductors (10, 20) according to claim 1 or 2, characterized in that at least one of the electrical conductors (10, 20) is rigid. 4. A method of producing a shielded electrical connection of shielded electrical conductors (10, 20) according to one of claims 1 to 3, characterized in that the step (iv) of electrical connection of the shields (15, 25) is provided by at least one pressing ring (60) exerting a pressure forcing the electrical contact between the shields (15, 25). Method for producing a shielded electrical connection of shielded electrical conductors (10, 20) according to Claim 4, characterized in that a rigid support ring (70) is placed under the shields (15, 25) before the step (iii) covering the shields (15, 25), at the location where the pressure ring (60) will be positioned, to take up the pressure forces of the pressure ring (60). 6. A method of producing a shielded electrical connection of shielded electrical conductors (10, 20) according to one of claims 1 to 3, characterized in that the shields (15, 25) are held in place by a ring before their electrical connection by soldering. 7. A method of producing a shielded electrical connection of shielded electrical conductors (10, 20) according to one of claims 1 to 6, characterized in that it comprises before or after step (iii) recovery or after connection step (iv), a step of covering the connection area with an electrically conductive ribbon in electrical contact with the shields (15, 25). 8. A method of producing a shielded electrical connection of shielded electrical conductors (10, 20) according to one of claims 1 to 7, characterized in that it comprises a final step of protecting the connection obtained by heat-shrinkable cladding. , or adhesive tape overlay or resin over-molding. 9. Vehicle-shielded electrical conductors (10, 20) connected by the method of one of claims 1 to 8. Motor vehicle having at least two shielded electrical conductors (10, 20) connected according to the method of one of claims 1 to 8.