FR2946468A1 - DEVICE FOR CONNECTION BETWEEN AN ELECTRICAL CONNECTOR AND A SHIELDED COAXIAL ELECTRICAL CABLE AND CORRESPONDING ELECTRICAL CONNECTOR - Google Patents

Abstract

The present invention relates to a connection device between an electrical connector (1) and a shielded coaxial electrical cable (2): - said cable (2) comprising a conductive core (21), an insulator (22) surrounding the core (21). ), the end of the core (21) protruding from the end of the insulator (22), and having a conductive braid (23) surrounding the insulator (22) without exceeding the end of the insulator (22), and a sheath (24) surrounding the braid (23), a portion of the braid (23) being stripped near the end of the cable (2); said connector (1) comprising a first part forming an insulating base (11), a second part forming an insulating cover (12), a first electrical circuit (36) positioned on the base (11) intended to be connected to the part (11). stripped of the braid (23), and a second electrical circuit (43) positioned on the base (11) and intended to be connected to the end of the core, such as the cover (12) and / or the base ( 11) comprise a conductive electrical element (3) capable of gripping the stripped portion of the braid (23) after clamping the base (11) on the cover (12), ensuring electrical contact between the braid (23) and the first circuit electrical (36), the tightening of the cover (12) on the base (11) simultaneously providing electrical contact between the braid (23) and the first electrical circuit (36), and the electrical contact between the end of the soul (21) of the cable (2) and the second electrical circuit (43).

Description

The present invention relates to a connection device between an electrical connector and a shielded coaxial electrical cable. In order to reduce the electromagnetic disturbances caused by the passage of an electric current in an electric cable, especially during the transfer of high power current, the electric cables are equipped with an electromagnetic shielding device as illustrated in FIG. FR2858719. Such shielded cable is in the form of a coaxial cable, having a central conductor, an insulator surrounding the central conductor and a braid (ground braid) surrounding the insulation in turn. Everything is held and protected inside a sheath. The mass braid forms an electromagnetic screen. For such an electromagnetic shielding to be effective, it is necessary that at each end of the cable, the braid is connected to ground. To achieve an optimal connection of the cable on the connector, it is necessary that the insulation, the braid and the sheath are cut, at first, respectively, over a sufficient length relative to the ends of the cable to release the electrical conductor to be connected to an electrical terminal of an electrical circuit. To connect the ends of the braid to ground, it is necessary to strip the ends of the sheath to release the ends of the braid. A metal ring, connected to the ground, is usually crimped around this braid to make the electrical connection between the braid and the ground. Another solution may be to weld a ground wire on this braid. The assembly of the metal ring around the braid is an operation of high precision, requiring a sufficient clamping force to ensure sufficient electrical contact, but risking in case of too much tightening, damaging the braid or insulation.

The assembly by a welded wire has a lower electromagnetic efficiency at high frequency, not suitable for all applications of such a connector.

The object of the invention is to provide an industrially simple means to achieve, for connecting a shielded cable to an electrical connector, ensuring a constant clamping pressure of the connector on the outer braid of such a coaxial cable avoiding any risk of degradation of the braid or insulation covered by this braid. For this purpose, the invention relates to a connection device between an electrical connector and a shielded coaxial electrical cable: said cable comprising a conductive core, an insulator surrounding the core, the end of the core protruding from the end of the insulation, and having a conductive braid surrounding the insulation without exceeding the end of the insulation, and a sheath surrounding the braid, a portion of the braid being stripped near the end of the cable; said connector comprising a first part forming an insulating base, a second part forming an insulating cover, a first electrical circuit positioned on the base intended to be connected to the stripped portion of the braid, and a second electrical circuit positioned on the base and intended to be connected to the end of the core, such as the cover and / or the base comprise a conductive electrical element capable of gripping the stripped portion of the braid after clamping the base on the cover, ensuring the electrical contact between the braid and the first electrical circuit, the tightening of the cover on the base simultaneously ensuring electrical contact between the braid and the first electrical circuit, and the electrical contact between the end of the core of the cable and the second electrical circuit. According to a first embodiment, the conductive element has a rigidity adapted to compress the braid after clamping said cover on said base. According to a second embodiment, the conductive element has an elasticity making it possible to limit the pressure exerted on said braid by said conductive element.

The conductive element comprises a conductive strip, said strip being connected at each of these ends to the base or the cover; the central portion of said strip being left free.

According to a first variant of the second embodiment, the conductive strip is formed of a metal strip having folds along said central portion, said folds being able to deform allowing said conductive strip to stretch elastically.

According to a second variant of the second embodiment, the conductive strip has a metal strip comprising transverse partial cutouts along said central portion, and an elastomeric strip fixed under said metal strip, said cutouts being able to move apart and said elastomer strip ensuring the return to the glued position of said cutouts, allowing said conductive strip to stretch elastically. According to a third variant of the second embodiment, the conductive strip has a metal strip comprising loops along said central portion, and plane portions alternating with said loops, said loops being capable of deforming, an elastomeric band fixed under said planar portions ensures the return to position of said loops, allowing said conductive strip to stretch elastically. The conductive strip comprises, on the surface intended to be placed in contact with said braid, a conductive coating providing electrical continuity between said conductive strip and said braid. The base and the cover each comprise a conductive element, the conductive elements being able to come into position vis-à-vis one another, coming to grip said braid to the right of the stripped portion of said cable. The two conductive elements are fixed at their ends to the base and the cover. The corresponding ends of the two conductive elements are able to come into contact with each other ensuring electrical continuity and for connecting the two conductive elements to said electrical circuit. The base and said cover comprise sealing means ensuring after sealing of said cover on said base, coming to grip the cable, sealing the contact of said braid to the stripped portion of said cable. The invention also relates to an electrical connector in which the base and / or the cover comprise a conductive strip having a succession of free parts alternating with bearing surfaces on the base and / or the cover, each free part coming to grip a cable after clamping said cover on said base and each cable having a braid partially stripped at the end of said cables putting said conductive member in contact with said braids at the stripped portion of said cables.

Other advantages and technical features of the present invention will appear more clearly in the light of the following description with reference to the figures of the accompanying drawings in which: FIG. 1 represents an exploded perspective view of a connector according to FIG. invention, and a shielded cable to be assembled on this connector; - Figure 2 shows a cross-sectional view of the cable attached to the connector according to the invention; and - Figures 3 to 5 show different embodiments of a constituent element of the connector according to the invention.

Figures 1 and 2 respectively show an exploded perspective view of a connector assembly 1 according to the invention, and a shielded cable 2 to be assembled on the connector 1 and a cross-sectional view of this set once. assembled. The connector 1 comprises two main parts: a base 11 forming the base of the connector 1 and a cover 12. The shielded cable 2 comprises a central core (or conductor) 21 serving to conduct electrical current, an electrical insulator 22 surrounding this core 21 over the entire length of the cable and serving to isolate the core 21 from a braid of mass 23. The braid 23 which extends over the entire length of the cable 2, surrounds the core 21. This braid 23 forms a screen electromagnetic field radiated by the electric current flowing in the core 21 of the cable 2. This cable 2 has an outer sheath 24 insulating and protecting the braid 23 of the external environment. The cable 2 is fixed by one of its ends to the connector 1. At this end, the central core 21 of the cable 2 is stripped to a length sufficient to allow the mounting of a flat eye lug 25 on the core. This eye terminal 25 has a circular opening 26, allowing, as explained later, to ensure good electrical connection with a contact positioned on the base 11. The length of the braid 23 is adjusted to not exceed the electrical insulation 22 avoiding any risk of contact with the central core 21 or with the lug 25. The braid 23 is stripped to a length sufficient to allow electrical connection with two conductive elements 3 disposed in the base 11. The conductive elements 3 are respectively in the form of a lower band 31, carried by the base 11, and an upper band 32, carried by the cover 12. These two strips 3 have, at least on the faces facing each other , an electrically conductive surface coating. The two strips 3 are fixed to the base 11 or to the cover 12 by their ends 33, leaving free the central portion 34 of these strips 3. The attachment of the two ends 33 of each of the two strips 3 to the base 11 and to the cover 12 may by a first bonding, providing a pre-hold, and by circular openings 35, positioned at the edge of these strips 3, allowing the passage of screws 5 also serving for fixing the cover 12 on the base 11. A first circuit The base 11 of the connector 1 also has an electrical contact 4 composed of a conductive plate 41 on which the lug 25 is positioned and a pin 42 which penetrates into the lug. circular opening 26 blocks the lug 25 along the conductive plate 41 (but it is also possible to dispense with such a lug 25: the free end of the core 21 can be directly connected to the electric base 11). A second electrical circuit 43 (partially shown) extends the conductive plate 41; this second electrical circuit for connecting the core 21 with a main electrical circuit (not shown). As illustrated in FIG. 2, the braid 23, previously stripped, is positioned in contact with the lower band 31 and the upper band 32 of the base 11. The screws 5, passing through the cover 12 of the connector 1 in tapped holes 13 of the base 11, ensures the tightening of the cover on the base through the openings 35 of the strips 3. The corresponding ends 33 of the lower 31 and upper 32 strips are in contact with one another, ensuring electrical continuity between the upper band 31 and the lower band 32. The upper bands 31 and lower 32 follow the shape of the braid 23, exerting a uniformly distributed pressure along the contact surface with the braid 23. The strips 3 must have sufficient elasticity to be able to adapt to cables whose diameter is within a certain tolerance range, while maintaining on these cables a sufficient pressure to guarantee a good c electrical contact. The contact pressure must also remain below a certain threshold so as not to injure the braid 23 and / or the insulator 22.

Figures 3 to 5 show different embodiments of a strip 3 having an optimum electrical conductivity and a suitable elasticity as explained above. A first embodiment, illustrated in FIG. 3, represents an entirely metallic continuous strip 3a. The band 3a comprises folds 6 arranged transversely along the central portion 34a of the band 3a, spaced apart by flat segments, providing as many contact surfaces with the braid 23. The folds 6 are formed of two adjacent flat slats 61 forming a V ; the contact surfaces and the folds being arranged accordionally. The depth of the strips 61 forming the V-shaped folds 6, as well as the metal used, generally HLE steels with a high carbon content, make it possible to vary the pressure applied by the strip 3a on the braid 23. To improve the electrical conductivity of the Such a metal strip 3a, a layer of a metal having good conductivity qualities, such as copper, can cover the surface of the strip 3a intended to come into contact with the braid 23. A second embodiment, illustrated in Figure 4, shows a band 3b in two parts. A first portion forming a metal blade 71 covers a second portion forming an elastomeric strip 72, for example rubber; the metal blade 71 being fixed on the elastomer strip 72.

Fixing the metal blade on the elastomeric strip can be done by vulcanizing the elastomeric strip 72 on the metal plate 71 which will then have a contact surface promoting such a retention. The metal blade 71 has a series of cuts 73 extending alternately from its two longitudinal edges and transversely along the central portion 34b of the band 3b. The strip 3b thus has a serpentine-shaped circuit formed by the path of the metal blade 71 on the elastomeric strip 72, with the cutouts 73 being able to deviate from each other, to allow elongation of the strip 3b. The elastomeric strip 72 provides the elasticity of the band 3b tightening the cuts 73 against each other once the pressure on the blade 3b released. The metal blade 71 may be directly made of a flexible metal providing good electrical conductivity, such as copper. FIG. 5 shows a variant of the second embodiment of a strip 3c having a metal strip 81 and an elastomeric strip 82. The metal strip 81, made of a flexible metal, has alternating loops 83 and segments. 84. The blade 81 is fixed on an elastomeric strip 82. The loops 83, left free, pass through the elastomeric strip 82, leaving in contact with the elastomeric strip 82 the inner faces of the flat segments 84. The outer faces of the Flat segments 84 are intended to come into contact with the braid 23. The elastomer strip 82 makes it possible to control the spacing of the loops 83, lengthening the strip 8 and ensuring its elasticity. As for the second embodiment, the metal blade may be directly made of copper, allowing good electrical conductivity with the braid 23. In some situations, particularly for an application in a motor vehicle, it is important that such a connector 1 has contact surfaces with the cable 2 sealed, avoiding oxidation of the contact surfaces subjected to a humid environment. To do this, the base 11 and the cover 12 may have complementary contact surfaces allowing, by the positioning of a seal along this contact surface, to provide a portion of the seal. A tinning is performed on the side surfaces of the strips 3 to protect the contacts from oxidation and to seal this part of the assembly. The base 11 and the cover 12, once assembled, have at the passage of the cable 2 a cylindrical opening of a diameter close to the diameter of the cable 2, with a seal ensuring the seal between the outer sheath 24 of the cable 2 and the connector 1. The connector may also allow the connection of several cables 2, in parallel, with the same upper and lower band from simultaneously grip the braids 23 of the various cables. The base or cover has bearing surfaces that cooperate with the straight portions of the strip separating each cable. These straight portions provide a succession of contact points between the upper band and the lower band.

It is understood that the invention is not limited to the embodiments that have been described, but is likely to receive many changes that will occur to those skilled in the art. In particular, concerning the obtaining of strips 3 which must have both good electrical conductivity and having the desired elasticity.

Claims (11)

Revendications1. Connecting device between an electrical connector (1) and a shielded coaxial electrical cable (2): - said cable (2) comprising a conductive core (21), an insulator (22) surrounding the core (21), the end the web (21) protruding from the end of the insulator (22), and having a conductive braid (23) surrounding the insulator (22) without exceeding the end of the insulator (22), and a sheath (24) surrounding the braid (23), a portion of the braid (23) being stripped near the end of the cable (2); said connector (1) comprising a first part forming an insulating base (11), a second part forming an insulating cover (12), a first electrical circuit (36) positioned on the base (11) intended to be connected to the part (11). stripped of the braid (23), and a second electrical circuit (43) positioned on the base (11) and intended to be connected to the end of the core, characterized in that the cover (12) and / or the base (11) comprise a conductive electrical element (3) adapted to grip the stripped portion of the braid (23) after clamping the base (11) on the cover (12), ensuring electrical contact between the braid (23) and the first electrical circuit (36), the tightening of the cover (12) on the base (11) simultaneously ensuring electrical contact between the braid (23) and the first electrical circuit (36), and the electrical contact between the end of the core (21) of the cable (2) and the second electrical circuit (43). 2. Connecting device according to claim 1, characterized in that said conductive element (3) has a geometry allowing a controlled deformation of the conductive element, to limit the pressure exerted on said braid (23) by said conductive element ( 3). 3. Connecting device according to any one of the preceding claims, characterized in that the conductive element (3) comprises a conductive strip (31, 32), said strip (31, 32) being connected at each of its ends to base (11) or cover (12), the central portion (34) of said strip (31, 32) being left free. 4. Connecting device according to claim 3, characterized in that said conductive strip (3a) is formed of a metal strip having folds (6) evenly distributed along said central portion (34), said folds (6) being able to deform allowing said conductive strip (3a) to stretch elastically along the length of the strip. 5. Connecting device according to claim 4, characterized in that said conductive strip (3b) has a metal strip (71) having transverse partial cutouts (73) regularly distributed along said central portion (34), and a strip an elastomer (72) fixed under said metal strip (71), said cutouts (73) being able to move apart, and said elastomeric strip (72) ensuring the return to the close position of said cutouts, to allow said conductive strip ( 3b) to stretch elastically. 6. Connecting device according to claim 3, characterized in that said conductive strip (33) has a metal strip (81) comprising loops (83) regularly distributed along said central portion (34), and flat portions ( 84) alternating with said loops (83), said loops (83) being able to deform, and an elastomeric strip (82) fixed under said planar portions (84) ensuring the return to position of said loops (83), to allow said conductive strip (3c) to stretch elastically. 7. Connecting device according to any one of claims 4 to 6, characterized in that said conductive strip (3) comprises a conductive coating on the surface intended to be brought into contact with said braid (23) to ensure electrical continuity between said conductive strip (3) and said braid (23). 8. Connecting device according to any one of the preceding claims, characterized in that said base (11) and said cover (12) each comprise a conductive element (3), the conductive elements (3) being able to come and position themselves facing one another, to enclose said braid (23) to the right of the stripped portion of said cable (2). 9. Connecting device according to claim 8, characterized in that the two conductive elements (3) are fixed at their ends (33) to the base (11) and the cover (12), the corresponding ends (33) of the two conductive elements (3) being able to come into contact against each other to ensure electrical continuity and to connect the two conductive elements (3) to said electric circuit (36). 10. Connecting device according to any one of the preceding claims, characterized in that said base and / or said cover comprise a conductive strip having a succession of free parts alternating with bearing surfaces on the base and / or the cover , each free part coming to grip a cable after tightening said cover on said base, and each cable having a braid partly stripped at the end of said cables, putting said conductive element in contact with said braids in line with the stripped portion of said cables. 11. Connector for a connecting device according to any one of the preceding claims, characterized in that it comprises a first part forming an insulating base (11), a second part forming an insulating cover (12), a first electrical circuit (36) positioned on the base (11), a second electrical circuit (43) positioned on the base (11) and at least one conductive electrical element (3) intended to come into electrical contact with the first electrical circuit (43).