FR2981214A1 - CONNECTING TWO ELECTRICAL CONDUCTORS TO AN ELECTRICAL BODY ELEMENT - Google Patents

Abstract

At least two (12, 14) electrical conductors are connected to an electrical lug member (16). Each conductor (12, 14) comprises a conductive metal core (12A, 14A). The lug (16) has a deformable crimped end (B) of the core (14A) of at least one conductor (14). One end of the core (12A) of the first conductor, for example aluminum, is connected to a first end (22) of an electrical connection member (20) by welding. One end of the core (14A) of the second conductor, for example made of copper, is connected to a second end (24) of the electrical connection member (20) by crimping the deformable end (B) of the terminal (16) around the end of the core (14A) of the second conductor juxtaposed to the second end (24) of the connecting member (20). The cores (12A, 14A) of the two conductors are connected to the connecting member (20) so as not to touch each other.

Description

The present invention relates to the connection of two electrical conductors to an electrical lug element, in particular in an electric circuit of a motor vehicle.

In what follows, the term "lug" is an element electrically connected to the end of one or more electrical conductors and generally intended to be fixed on a pole element, electrical connection terminal or electrical ground. A lug usually has a first attachment end on the pole member, electrical connection terminal or ground, generally ring-shaped, and a second deformable end to be crimped on the end of at least one conductor. The pod may be intended to conduct currents of intensities and tensions very varied. A motor vehicle electrical circuit conventionally comprises electrical cables comprising twisted copper wire cores. Indeed, the good electrical conduction properties of copper are particularly suitable for use in motor vehicle electrical circuits. In some cases, several electrical cables, for example two electric cables, are connected to one and the same lug by crimping the lug on ends of the copper cores of the cables. However, it is desired, for example in order to gain weight, replace some copper-core electrical cables with aluminum cored cables, including twisted aluminum son. Aluminum cored cables are less crimpable than copper-core cables, due in particular to the mechanical properties (mechanical relaxation) and chemical properties (formation of surface layers of alumina) of the aluminum wires. It is further observed that the crimping on the same terminal copper twisted son and twisted son aluminum results in a weakened connection by electrochemical or galvanic corrosion.

The invention is in particular intended to allow the replacement of copper core cables by aluminum core cables in an electrical circuit intended in particular to equip a motor vehicle, this, on the one hand, without having to modify in any way consequently the lugs usually used and, secondly, allowing the connection of a first copper core cable and a second aluminum core cable on a common lug. For this purpose, the subject of the invention is a method of electrically connecting at least first and second electrical conductors to an element forming an electrical terminal, each conductor comprising a conductive metal core, the terminal comprising a deformable end of crimping the core of at least one conductor, characterized in that one end of the core of the first conductor is connected to a first end of an electrical connection member by welding, and one end of the core is connected of the second conductor at a second end of the electrical connection member by crimping the deformable end of the terminal around the end of the core of the second conductor juxtaposed to the second end of the connecting member, the cores two conductors being connected to the connecting member so as not to touch. The method according to the invention makes it possible to connect to a conventional common terminal a first aluminum core conductor and a second copper core conductor.

Indeed, the first conductor, provided with an aluminum core, can be connected to the conventional lug via the connecting member by welding the conductor on the first end of this connecting member. Note that in the case of an aluminum core, it is relatively easy to weld by a conventional method, for example by an ultrasonic welding process or by an electric welding process. The second conductor, provided with a copper core, can be connected to the conventional terminal by crimping the deformable end of the terminal around the end of the core of the second conductor juxtaposed to the second end of the body. connection.

Because on the connecting member, the aluminum core, fixed on the first end of this connecting member, is spaced from the copper core, fixed on the second end of the connecting member, it avoids corrosion of electrochemical or galvanic origin that occurs when the aluminum and copper cores are in mechanical contact with each other.

According to another optional feature of the method according to the invention, after welding of the core of the first conductor to the first end of the connecting member, sealing means are placed, for example a sleeve, a mass of molded material. , a tape or a coating layer such as a varnish, around the end of the core of the first conductor and the first end of the connecting member, this by placing - a first end of the sealing means in sealing contact with a sheath surrounding the web of the first conductor and a second end of the sealing means in sealing contact with a sealing bead of the connecting member. The sealing means advantageously provide a seal against the usual aggressive agents, such as moisture, solvent projections and dust, which it is desired to avoid contact with the metal core. The invention also relates to an electrical connection member, characterized in that it is intended for the implementation of the method as defined above and comprises for this purpose: a first end intended to be electrically connected with a end of the core of the first conductor by welding, and a second end to be electrically connected, together with an end of the core of the second conductor, to the electrical terminal by crimping, the first and second ends of the connection being spaced from each other so that the cores of the first and second conductors do not touch once connected to the connecting member. The electrical connection member according to the invention, comprising, on the one hand, a first end adapted to the welding of a conductor and, on the other hand, a second end adapted to crimping a conductor and a terminal conventional, allows to connect to the same lug an aluminum core conductor (welded to the first end of the connecting member) and a core conductor copper (crimped on the second end of the connecting member).

According to other optional features of the connecting member according to the invention: - this member is made of material comprising essentially copper, for example Cu-a1 corresponding to the ISO designation Cu-ETP (ETP being the English acronym) for Electrolytic Tough-Pitch), this material preferably having a ductility allowing a section reduction ratio of at least 15%; the first end of the connecting member comprises a surface, preferably substantially flat, welding the end of the core of the first conductor on this first end of the connecting member; the core of the first conductor essentially comprises aluminum and is preferably twisted son; the second end of the connecting member comprises a first contact surface with the end of the core of the second conductor and a second surface, opposite the preceding one, in contact with crimping wings of the terminal; the first contact surface with the core comprises a substantially rectilinear groove, formed in the second end of the connecting member, and the second contact surface with the crimping wings comprises two bosses, substantially parallel to the gutter, favoring the folding the crimping wings; the first contact surface with the core of the second conductor and / or the second contact surface with the crimping wings of the terminal comprise crimp pressure localized increments; the core of the second conductor essentially comprises copper and is preferably of twisted wire; the ends of the cores of the first and second conductors are intended to be connected to the connecting member substantially parallel to a reference direction, the welding surface with the core of the first conductor being shifted transversely to the reference direction relative to the first contact surface with the core of the second conductor. The subject of the invention is also an electrical circuit, in particular for a motor vehicle, comprising at least first and second conductors and means for connecting these conductors to an element forming an electrical lug, characterized in that the connecting means comprise an element electrical connection as defined above. The invention will be better understood on reading the description which follows, given solely by way of example and with reference to the figures in which: FIG. 1 is a view of an electrical circuit according to the invention, particularly for motor vehicle ; Figure 2 is a perspective view of an electrical connection member according to the invention; Figure 3 is a schematic side view of the electrical connection member shown in Figure 2; Figure 4 is a sectional view along the line IV-IV of Figure 3; Figures 5 to 7 are views similar to Figure 3 illustrating different steps of the method of electrical connection of two conductors, according to the invention; and FIG. 8 is a sectional view along the line VIII - VIII of FIG. 7. FIG. 1 shows an electric circuit 10 according to the invention intended, in the example described, to equip a motor vehicle. The circuit 10 comprises three electrical conductors 12, 14 provided with ends connected, on the one hand, to a first pair of conventional electrical lugs 16, according to an electrical connection method according to the invention and, on the other hand, to a second pair of conventional electrical terminals 18, according to a method known per se. Each lug 16, 18 comprises a first end A, generally ring-shaped, intended to be fixed usually on a pole element (for example the "+" pole of a battery), an electrical connection terminal (for example a motorcycle fan, starter or alternator terminal) or a ground. Each lug 16, 18 also has a second deformable end B to be crimped on the end of at least one conductor.

In what follows, the connection of the first 12 and second 14 conductors to the electrical lug 16 represented in the part circled in FIG. 1 will be described in more detail. The first 12 and second 14 conductors are connected to the lug 16 by means of FIG. a connecting member 20 according to the invention, shown in more detail in Figures 2 to 7. The electrical conductors 12, 14, each comprise a conductive metal core 12A, 14A covered with a conventional sheath 12G, 14G (see FIGS. to 7). In the example described, each core 12A, 14A is twisted son. The core 12A of the first conductor essentially comprises aluminum. The core 14A of the second conductor essentially comprises copper. The electrical connection member 20 is made of a material essentially comprising copper, for example Cu-a1 corresponding to the ISO designation Cu-ETP (ETP being the English acronym for Electrolytic Tough-Pitch). Preferably, the material constituting the electrical connection member 20 has a ductility allowing a section reduction ratio of at least 15% in order to be able to achieve quality crimping in accordance with the method which will be described below. The electrical connection member 20 comprises a first end 22 intended to be electrically connected to one end of the core 12A of the first conductor 12, by welding, according to a conventional method, for example by ultrasonic welding or by electric welding. The electrical connection member 20 also comprises a second end 24 intended to be electrically connected, together with one end of the core 14A of the second conductor, to the electrical lug 16, by crimping. The first 22 and second 24 ends of the connecting member 20 are spaced from each other so that the cores 12A, 14A of the first 12 and second 14 conductors do not touch once connected to the member 20 , as shown in FIG. 7. The first end 22 of the connection member 20 comprises a surface 26, preferably substantially flat, for welding the end of the core 12A of the first conductor to this first end 22 of the member 20. The second end 24 of the connecting member 20 comprises a first contact surface with the end of the core 14A of the second conductor. This first contact surface is formed at least in part by a substantially rectilinear groove 28 formed in the second end 24 of the connection member 20. The second end 24 of the connection member 20 comprises a second surface 30, opposed to the first surface formed by the channel 28, contact with wings 32 of the crimping end B of the lug 16 (see Figures 7 and 8).

The second surface 30 is formed at least in part by two bosses 34, substantially parallel to the trough 28, favoring the folding of the flanges 32 crimping. Indeed, the wings 32 are intended to be folded against these bosses 34. Preferably, the first surface 28 of contact with the core 14A of the second conductor and the second surface 30 of contact with the wings 32 of crimping the terminal 16 include projections 36, 38 of localized crimp pressure increase. These projections 36, 38, which are optional, can be arranged on the two surfaces 28, 30, as in the example described or on one of these two surfaces only. Referring more particularly to Figure 7, we see that the ends of the cores 12A, 14A of the first 12 and second 14 conductors are intended to be connected to the connecting member 20 substantially parallel to a reference direction X shown in phantom in FIG. 7. It will be observed that the welding surface 26 with the core 12A of the first conductor is shifted, transversely to the reference direction X, with respect to the first surface 28 of contact with the core 14A of the second driver. The steps related to the invention concerning a method of electrical connection of the first 12 and second 14 conductors to the electrical lug 16 will be described below. According to this method, an end of the aluminum core 12A of the first conductor 12 at the first end 22 of the connecting member 20 by welding, for example by ultrasonic welding or electric welding. It will be noted that, as shown in FIG. 5, this welding step can be advantageously carried out before the connection member 20 is connected to the lug 16 and that this lug is connected to the remainder of the electrical circuit, in particular to a possible terminal of electric organ. Thus, the vibrations generated for example when the welding is performed by ultrasound do not cause resonances at the terminal or an electrical terminal to which the terminal is connected, which preserves the integrity of these elements. After welding of the core 12A of the first conductor on the first end 22 of the connecting member, a sealing sleeve 40, for example a heat-shrinkable polymer sleeve, is placed around the end of the core. 12A and the first end 22 of the member 20, as shown in particular in Figure 6. More particularly, a first end 40A of the sleeve is placed in sealed contact with the sheath 12G surrounding the core 12A of the first conductor and a second end 40B of this sleeve 40 is placed in sealed contact with a sealing bead 42 of the connection member 20. It will be noted that the bead 40 closes the second end 40B of the sleeve. The bead 42, preferably integral with the rest of the connecting member 20, defines the first end 22 of this connecting member 20. This bead 42 has, for example, a substantially oval contour, as shown on FIG. 2. The bead 42 is arranged on the member 20 so that it separates the first end 22 of the member 20 from the second end 24 of this member 20 while preventing the end of the core 12A from aluminum does not touch the copper core 14A of the second conductor after connecting this core 14A with the connecting member 20 according to the following step. Alternatively, the sleeve 40, forming sealing means, may be replaced by a ribbon, a mass of overmolded material, a coating layer such as a varnish or equivalent means placed around the end of the core 12A the first conductor and the first end 22 of the connecting member. After placing the sleeve 40, the end of the copper core 14A - 8 - of the second conductor is connected to the second end 24 of the connection member 20 by crimping the deformable end B of the terminal 16 around the end of the core 14A of the second conductor juxtaposed to the second end 24 of the connecting member 20.

The cores 12A and 14A of the conductors 12 and 14 are connected to the member 20 itself connected to the terminal 16 as shown in Figures 7 and 8. In this configuration, the cores 12A, 14A of the two conductors are connected. to the connecting member 20 so as not to touch which avoids in particular to promote corrosion of electrochemical or galvanic origin, all the more so that the end of the core 12A aluminum is protected by the sleeve 40 sealing. Note that the invention is not limited to the embodiment described above. In particular, if necessary, the copper core 14A of the second conductor can be crimped onto the connecting member 20 before the aluminum core 12A of the first conductor is welded to this connection member 20. Moreover, it is also possible to crimp on the lug more than one conductor, for example two conductors with copper core, together with the second end 24 of the connecting member 30.

Claims (12)

REVENDICATIONS1. A method of electrically connecting at least first (12) and second (14) electrical conductors to an electrical terminal member (16), each conductor (12, 14) comprising a conductive metal core (12A, 14A), the terminal (16) comprising a deformable end (B) for crimping the core (14A) of at least one conductor (14), characterized in that one end of the core (12A) of the first conductor is connected to a first end (22) of an electrical connection member (20) by welding, and one end of the core (14A) of the second conductor is connected to a second end (24) of the electrical connection member (20) by crimping the deformable end (B) of the lug (16) around the end of the core (14A) of the second conductor juxtaposed to the second end (24) of the connecting member (20), the cores (12A, 14A) of the two conductors being connected to the connecting member (20) so as not to touch each other r. 2. Method according to claim 1, wherein, after welding of the core (12A) of the first conductor on the first end (22) of the connecting member (20), is placed sealing means (40) , for example a sleeve, a ribbon, a mass of overmolded material, or a coating layer such as a varnish, around the end of the core (12A) of the first conductor and the first end (22) of the connecting member, this by placing a first end (40A) sealing means in sealing contact with a sheath (12G) surrounding the core (12A) of the first conductor and a second end (40B) means of sealing in sealed contact with a sealing bead (42) of the connection member (20). 3. Electrical connection member, characterized in that it is intended for the implementation of the method according to claim 1 or 2 and comprises for this purpose: a first end (22) intended to be electrically connected with one end of the core (12A) of the first conductor by welding, and a second end (24) to be electrically connected, together with one end of the core (14A) of the second conductor, to the electrical terminal (16) by crimping, the first (22) and second (24) ends of the connecting member (20) being spaced from one another so that the webs (12A, 14A) of the first and second conductors do not touch each other once connected to the connection member (20). 4. An electrical connection member according to claim 3, wherein this member is made of material comprising essentially copper, for example Cu-al corresponding to the designation ISO Cu-ETP (ETP being the acronym for Electrolytic Tough-Pitch). ), this material preferably having a ductility allowing a section reduction rate of at least 15%. Electrical connection member according to claim 3 or 4, wherein the first end (22) of the connecting member comprises a surface (26), preferably substantially flat, for welding the end of the core ( 12A) of the first conductor on this first end (22) of the connecting member. Electrical connecting member according to any one of claims 3 to 5, wherein the core (12A) of the first conductor substantially comprises aluminum and is preferably twisted son. 7. Electrical connection member according to any one of claims 3 to 6, wherein the second end (24) of the connecting member comprises a first surface (28) of contact with the end of the core (14A ) of the second conductor and a second surface (30), opposite the previous one, in contact with flanges (32) for crimping the terminal (16). An electrical connecting member according to claim 7, wherein the first core contacting surface (28) comprises a substantially straight gutter (28) formed in the second end (24) of the connecting member, and the second surface (30) of contact with the crimping wings comprises two bosses (34), substantially parallel to the gutter (28), promoting the folding of the wings (32) crimping. An electrical connecting member according to claim 7 or 8, wherein the first core contacting surface (28) (14A) of the second conductor and / or the second wing contacting surface (30) (32). crimping means (16) comprise projections (36, 38) for localized crimp pressure increase. 10. Electrical connection member according to any one of claims 3 to 9, wherein the core (14A) of the second conductor comprises substantially copper and is preferably twisted son. 11. Electrical connection member according to claims 5 and 7 taken together, wherein the ends of the cores (12A, 14A) of the first and second conductors are intended to be connected to the connecting member (20) substantially parallel to a reference direction (X), the weld surface (26) with the core (12A) of the first conductor being shifted, transversely to the reference direction (X), relative to the first contact surface (28) core (14A) of the second conductor. 12. Electrical circuit (10), in particular for a motor vehicle, comprising at least first and second conductors (12, 14) and means for connecting these conductors to an electrical terminal element (16), characterized in that the means linkages comprise an electrical connection member (20) according to any one of claims 3 to 11.