FR2975835A1 - GROUND CLIP AND EARTH ASSEMBLY - Google Patents

Abstract

The invention relates to an earthing clip (1) defining a longitudinal slot (5) and a transverse slot (6) perpendicular and opening on the same side, said longitudinal slot (5) receiving the engagement of a support ( 100), said transverse slot (6) receiving the engagement of a ground wire (10) having a conductive core (11) and an insulating sheath (12), said ground wire (10) being wedged between said support ( 100) and the bottom of said transverse slot (6), the width of said longitudinal slot (5) increasing towards said base (4) on at least one "first" wing portion (P1) and simultaneously, on at least one "first" portion (P11) of said "first" wing portion (P1), the width of said transverse slot (6) decreasing to sever said insulating sheath (12). The invention also relates to a grounding assembly comprising such an earthing clip (1).

Description

TECHNICAL FIELD The invention relates to a grounding clip formed of a one-piece metal plate having an elastically deformable U shape, the "first" and "second" wings and said base defining a longitudinal slot capable of receiving the engagement. a support, said "first" and "second" wings being traversed by a transverse slot substantially perpendicular to said longitudinal slot and adapted to receive the engagement of a ground wire having a conductive core and an insulating sheath. The invention also relates to a grounding assembly comprising at least one earthing clip, a support having at least one edge capable of being engaged in a slot and a grounding wire comprising a conductive core and an insulating sheath. .

Prior Art This type of grounding clip is commonly used to ground any type of electrical equipment, including solar panels. Indeed, the regulations in force require, especially in France, that each solar panel is connected to the earth by a ground wire. This connection must be durable and easy to install. Specific earthing clips formed, for example, from a metal plate to which a ground wire is connected are therefore used. The plate generally defines a slot adapted to be engaged on a metal edge of the solar panel to electrically connect the ground wire and the edge of the solar panel. When connecting, the ground wire must be stripped so that its copper core can be in electrical contact simultaneously with the metal edge and the earthing clip. This stripping must be done carefully to cut the plastic sheath without removing copper from the ground wire or it may significantly change the technical characteristics of this ground wire and affect the effectiveness of the setting. Earth. In addition, it is preferred that the metal edge of the solar panel be scratched to provide better electrical contact between the metal edge and the grounding clip. This type of grounding clip can be used for other similar applications such as, for example, grounding subscriber telephone cables when wiring telephone exchanges. The publication FR 2 694 141 discloses a grounding clip formed of a one-piece metal plate curved in S so as to define two elastically deformable slots facing away from one another and separated by a wall. A slot is intended to be engaged on a metal support, the other to receive the ground wire. To avoid the stripping operation, the walls of this earthing clip have cutouts folded towards the inside of each slot in order to protrude therefrom and to form knives capable of cutting the insulating sheath of the earth wire. to an adequate depth to ensure electrical contact between the ground wire and the grounding clip. Due to the orientation of the slots, once the grounding clip is installed with the ground wire on the metal support, the ground wire extends in a plane substantially parallel to the edge of the metal support. This arrangement of the ground wire is often impractical because, for the installation of the ground wire, an orientation perpendicular to the edge of the solar panel is often preferred. Furthermore, with this earthing clip, the ground wire is not reliably secured to the earthing clip from which it can be inadvertently disconnected. The publication US 6,106,310 discloses a grounding clip formed of a one-piece metal plate including deformable tabs adapted to grip the ground wire to ensure its maintenance. This earthing clip comprises a wall and two bent elastically deformable wings, defining with the wall, two slots adapted to be engaged on a metal support. The wings are also provided with deformed cuts towards the inside of the slots in order to promote the attachment of the earthing clip on the support and to guarantee the electrical contact. The deformable tabs are oriented perpendicular to the opening of the slots and thus allow the ground wire, once the grounding clip installed, extends perpendicular to the edge of the metal support in a substantially merged plane. However, this construction is bulky and the deformable tabs significantly exceed the metal support after installation of the earthing clip. In addition, before clamping the ground wire with deformable tabs, it should be stripped which requires an additional operation that must be repeated for each ground wire. The publication US 3,528,050 discloses a grounding clip formed of a one-piece metal plate shaped elastically deformable U defining a slot adapted to be engaged on a metal support. The free ends of the slot are flared to facilitate this engagement. The wall of the metal plate has a deformed cut towards the inside of the slot in order to promote the attachment of the earthing clip on the support and to guarantee the electrical contact. The metal plate is also traversed by two orifices through which a ground wire can flow so that a portion of the earth wire is located in the slot and plated by the U-shape against the metal support once. the grounding clip installed. The orifices are aligned perpendicular to the opening of the slot. Thus, once the clip installed, the ground wire extends perpendicular to the edge of the metal support. To ensure electrical contact between the ground wire and the grounding clip, the ground wire must be stripped before insertion into the holes. No. 4,456,321 discloses an earthing clip formed of a metal plate and a locking element. The plate has an elastically deformable U shape defining a first slot adapted to be engaged on the metal support. The base of the U-shape has a second slot with parallel edges oriented perpendicular to the first slot and adapted to receive the ground wire so that the latter is in a plane perpendicular to that of the opening of the first slot . The second slot of the plate thus opens opposite the first slot. The plate has deformed cuts towards the inside of the slot including cutouts promoting attachment of the grounding clip and the electrical contact, and other cuts delimiting stops limiting the depth of engagement of the plate. on the support. The locking element also has a U shape defining a third slot adapted to be engaged over the plate. The outer wall of the plate and the inner wall of the locking element comprise complementary shapes able to engage one another when the locking element is engaged on the plate. The locking element further comprises a fourth slot with parallel edges oriented perpendicular to the third slot and adapted to receive the earth wire so that the latter is in a plane perpendicular to that of the opening of the third slot . For the installation of this earthing clip, at first the plate is engaged on the edge of the metal support, then in a second step, the ground wire is placed in the second slot and then in a third time , the locking element is engaged on the plate, the second and fourth slots thus blocking the ground wire. The parallel edges of the second and fourth slots are cut to sever the sheath of the ground wire and to provide electrical contact with the copper core. This earthing clip being made in two parts, it is impractical to use and has an additional risk of separation of the locking element relative to the plate. The publication US Pat. No. 5,451,167 discloses an earthing clip formed of a T-shaped one-piece metal plate whose main stem is bent under the central part of the T-shape in order to form a first elastically deformable slot capable of being engaged. on a metal support. The central part of the T-shape and the main stem are provided with deformed cut-outs towards the inside of the slot to promote attachment of the earthing clip and to guarantee electrical contact. The lateral branches of the T-shape are raised in a U-shape above the central part, opposite the first slot. The lateral branches each comprise a second slot oriented in a plane perpendicular to the opening of the first slot and opening away from the central portion. These second slots are of smaller width than the copper core of the ground wire and their edges are provided sharp to cut the plastic sheath. Each slot has an enlarged portion adapted to receive the core of the earth wire after cutting the plastic sheath. The second slots having a width less than the core of the ground wire, the latter may be damaged by the sharp edges of the second slots when placing the ground wire. In addition, the U-shape greatly exceeds the support engagement slot. This earthing clip is therefore bulky. In addition, the introduction of the ground wire is made difficult by the need to introduce it into the second two slots of the wings of the U-shape. In addition, the portion of ground wire located between the wings of the form U-shaped is unused which represents an extra cost in ground wire. Finally, if inadvertently it solicits this portion of ground wire, it is possible to disengage the ground wire of the one or two second slots and interrupt the electrical contact. This earthing clip does not allow reliable electrical contact.

DISCLOSURE OF THE INVENTION The object of the invention is to remedy these drawbacks by proposing an earthing clip which is simple to manufacture, compact, and can be used instinctively without any specific tool other than possibly a hammer, allowing a connection to be made. simple, reliable and fast electric one of a ground wire on a support, to overcome the need to strip the ground wire before connection For this purpose, the invention relates to a grounding clip formed a one-piece metal plate having an elastically deformable U shape, the "first" and "second" wings and said base defining a longitudinal slot adapted to receive the edge of a support, said "first" and "second" wings being traversed by a transverse slot substantially perpendicular to said longitudinal slot and adapted to receive a ground wire comprising a conductive core and an insulating sheath, characterized in that the said s longitudinal and transverse slots open on the same side of said earthing clip so that once said earthing clip in place on said support, said ground wire is wedged between said support and the bottom of said transverse slot in that on at least one "first" wing portion the width of said longitudinal slot increases towards said base and that simultaneously, on at least a "first" portion of said "first" wing portion, the width of said said transverse slot decreases to sever said insulating sheath upon introduction of said ground wire into said transverse slot. The terms "first", "second", "third" and following are used only for illustrative purposes to distinguish certain elements from each other. The fact that with the earthing clip according to the invention, the ground wire is wedged between the support and the bottom of the transverse slot makes reliable the maintenance of the ground wire on the earthing clip . The earthing clip according to the invention can be obtained simply and reproducibly by cutting and folding a single piece of sheet metal. The earthing clip is simple to use, instinctively and without tools, and the "first" part in which the width of the longitudinal slot increases and the width of the transverse slot decreases to avoid previously denuding the ground wire. The device according to the invention may advantageously have the following features: - on a "second" portion of said "first" wing portion, provided in the extension of said "first" portion in the direction of engagement of said ground wire in said transverse slot, the width of said transverse slot is substantially constant, on at least one "second" wing portion, preceding said "first" wing portion in the direction of engagement of said support in said transverse slot the width of said transverse slot is substantially constant, at least said "first" wing comprises at least one "first" cutout delimiting a "first" flap folded towards the inside of said longitudinal slot and whose free end is intended, once said earthing clip in place, to come into contact with said support to promote the maintenance of said earthing clip on said support, - said "second" wing c has at least one "second" cutout delimiting a "second" folded flap inwardly of said longitudinal slot and whose free end is intended, once said grounding clip in place, to come into contact with said support for promoting the maintenance of said earthing clip on said support, said "second" cutout being shifted towards said base relative to said first cutout, - at least one of the free ends of said first, second flange is bent towards the outside of said longitudinal slot around a longitudinal fold line extending substantially parallel to said base and passing substantially through the respective end of said "first", "second" cut, - at least one of said " first "," second "wings comprises at least a" third "cutout delimiting a" third "folded flap inwardly of said longitudinal slot and intended to form a stop to limit the p depth of the engagement of the support in said longitudinal slot. By "substantially constant" it should be understood in general that the width concerned does not vary by more than 1 mm.

The invention also relates to a grounding assembly comprising at least one earthing clip, a support having at least one edge adapted to be engaged in a slot and a ground wire comprising a conductive core and a insulating sheath, characterized in that it comprises a grounding clip as described above, in that said edge of said support is housed in said longitudinal slot, in that said ground wire is housed between the bottom of said transverse slot and said support, and in that on said "first" part, the width of said transverse slot decreases a width greater than the outer diameter of said insulating sheath to a width substantially equal to that of said conductive core. The grounding assembly according to the invention may advantageously have the following features: - on said "second" part, the width of said transverse slot is substantially constant and substantially equal to that of said conductive core, - on a " third "portion of said" first "wing portion, provided before said" first "portion in the direction of engagement of said ground wire in said transverse slot, the width of said transverse slot is greater than the outer diameter of said insulating sheath .

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be better understood and other advantages will appear on reading the detailed description of an embodiment taken by way of non-limiting example and illustrated by the appended drawings, in which: FIG. 1 is a perspective view of the earthing clip according to the invention; FIG. 2 is a perspective view of the ground clip of FIG. 1 being mounted with a ground wire on a support; FIG. 3 is a perspective view of the grounding assembly according to the invention, this grounding assembly comprising the grounding clip of FIG. 1; - Figure 4 is a top view of a metal plate for forming the earthing clip of Figure 1 before folding; FIGS. 5 and 6 are respectively side and top views of the ground clip of FIG.

Description of the Embodiments The grounding clip according to the invention is used for fixing a ground wire on a support and electrically connecting this support to the ground. Referring to Figure 2, the ground wire 10 used comprises a conductive core 11, generally made of copper, covered by an insulating sheath 12, generally made of plastic. The conductive core 11 may be a solid core formed of a single wire or a braided core formed of a plurality of filaments. One end of the ground wire 10 is connected to the earthing clip described later, the other end (not shown) is grounded in a known manner. The support is for example a solar energy panel or any other suitable support having an edge, preferably substantially flat and a few millimeters thick, which can be engaged in a slot.

With reference mainly to FIGS. 1, 4, 5 and 6, the earthing clip 1 according to the invention is formed of a one-piece metal plate folded so as to have a U shape defined by a "first" and a "second" wings 2, 3 interconnected by a base 4. The metal plate is elastically deformable at the first and second longitudinal fold lines L1, L2 connecting the first "and" second "wings 2, 3 and the base 4 These first and second longitudinal fold lines L1, L2 as well as the other longitudinal fold lines described below are represented in FIG. 4 by two-point end mixed lines. The "first" and "second" wings 2, 3 Thus, in this deformed state, the "first" and "second" wings 2, 3 tend to return to their undeformed position, while the "first" and "second" wings are elastically spaced apart from one another. 2, 3 define, with the base 4, a longitudinal slot 5 intended to receive the edge of the support 100 (shown in Figures 2 and 3). This longitudinal slot 5 is traversed by a transverse slot 6 intended to receive the earth wire 10 provided in the "first" and "second" wings 2, 3, substantially perpendicular to the longitudinal slot 5 and opening on the same side of the setting clip. to the ground 1 that the longitudinal slot 5. The "first" wing 2 comprises two "first" cutouts 20 distributed on either side of the transverse slot 6. In this example, the "first" cutouts 20 form a V to right angle of which a "first" branch extends substantially perpendicularly from the corresponding outer edge of the "first" wing 2 to the transverse slot 6, and whose "second" branch extends substantially parallel to the transverse slot 6. The " first cutouts 20 may also have any other suitable shape. Each "first" cut 20 thus delimits a "first" flap 21 bent, with respect to a third longitudinal fold line L3, towards the inside of the longitudinal slot 5. Each "first" flap 21 thus defines, with the "first" "wing 2, a first angle a (visible in Figures 1 and 5) for example 5 to 15 °. This first angle α is small and facilitates the introduction of the support 100 into the longitudinal slot 5. In addition, by bracing effect, the first angle a makes it possible to resist any attempt to withdraw the support 100 from this same slot 5. According to the embodiment shown, these "first" cuts 20 are made with removal of material, that is to say that, when the metal plate is presented flat (see Figure 4), there is a space between the edge of each "first" flap 21 and the rest of the metal plate. This space makes it possible to increase the flexibility of each "first" shutter 21 whose free end is intended to come into contact with the support 100 in order to favor the retention of the earthing clip 1 on the support 100 and the contact between the earthing clip 1 and the support 100. In this example, the free end of each "first" flap 21 is rectilinear. This free end may also be provided with one or more points, for example interconnected by a circular arc, these spikes further promoting the maintenance and the electrical contact. The "first" wing 2 also comprises two "third" cutouts 22 distributed on either side of the transverse slot 6, substantially similar to the "first" cutouts 20 and provided offset towards the base 4 of the U-shape relative to the "first" cutouts 20. The "third" cutouts 22 may also have any other suitable shape. The "third" cutouts 22 form "third" flaps 23 and are different from the "first" cut-outs 20 mainly by the fact that these "third" flaps 23 are folded around a fourth longitudinal fold line L4 towards the inside the longitudinal slot 5, at a second angle c (visible in FIG. 5) about 90 ° with respect to the "first" wing 2. The "third" shutters 23 thus define, before the bottom of the longitudinal slot 5, a stop adapted to receive the support of the support 100 which thus does not risk to crush the ground wire 10 at the risk of damaging it. The "third" cutouts 22 are also different from the "first" cut-outs 20 by the fact that these "third" cut-outs 22 are made without removal of material, that is to say that, when the metal plate is presented flat ( see Figure 4), there is only the space of each "third" cutout 22 between the edge of the "third" flap 23 and the remainder of the metal plate. The "second" wing 3 comprises two "second" cutouts 30 distributed on either side of the transverse slot 6 and substantially similar to the "first" cutouts 20. The "second" cutouts 30 may also have any other suitable shape such that in particular a pointed form illustrated in FIG. 3. The "second" cutouts 30 are provided between the "first" and "third" cutouts 20, 22. They form "second" flaps 31 which are folded, with the free ends of the "second" wing 3, around a fifth longitudinal fold line L5, towards the inside of the longitudinal slot 5, with a third angle 13 (visible in FIGS. 1 and 5) for example from 20 to 40 ° . The free ends 32 of the "second" wing 3 are thus in the direct extension of the "second" flap 31. The longitudinal fold line 33 extends substantially parallel to the bottom of the U-shape, starting from the end of each "second" cut 30 to the opposite edge of the "second" wing 3. Thus, the free end 32 of the "second" wing 3 is folded outwardly of the longitudinal slot 5 and the "second" flaps 31 are folded inwardly of the longitudinal slot 5. The "second" cut-outs 30 differ from the "first" cut-outs 20 by the fact that these "second" cut-outs 30 are made without removal of material, that is, say that, when the metal plate is laid out flat (see Figure 4), there is only the space of each "second" cut 30 between the edge of the "second" flap 31 and the remainder of the metal plate. This construction promotes the rigidity of the "second" flaps 31. Thus, when the "second" flap 31 is biased, it is the entire "second" flange 3 which flexes from the base of the U-shape.

In addition to the cutouts and free ends of the "second" wing 3, the "first" and "second" wings 2, 3 are substantially flat. They are oriented inclined relative to each other by a fourth angle (visible in FIG. 5) for example from 10 to 20 ° so that, on a "first" portion of wing P1 (represented on FIG. 5), the width of the longitudinal slot 5 increases from a nipping zone Z1 to a flared zone Z2 at the base of the U-shape. This construction promotes the retention of the support in the longitudinal slot 5. Moreover, a "second" wing portion P2 (shown in FIG. 5), the free end 32 of the "second" wing 3 folded outwardly of the longitudinal slot 5 forms an introduction zone Z3 facilitating the engagement of the support in the longitudinal slot 5. As clearly shown in Figure 5, the free ends of the "second" flaps 31 are located between the free end of the "first" flap 21 and the "third" flap 23. This particular configuration makes it possible to ensure a good hold of the earthing clip 1 on the support 100. The transverse slot 6 for receiving the engagement of the ground wire 10 has a different width along its length. Thus, in a "third" portion P13 (visible in FIG. 6) corresponding to the zone in which the transverse slot 6 opens out from the earthing clip 1 and to the insertion zone Z3, the transverse slot 6 has a substantially constant width, for example greater than that of the outer diameter of the insulating sheath 12 of the ground wire 10, thus promoting the engagement of the ground wire 10 in the transverse slot 6. Then, on a "first" portion P 1 ( visible in FIG. 6) of the "first" wing portion P1 of the "first" and "second" wings 2, 3, the transverse slot 6 has a width that decreases progressively to a width substantially equal to the diameter of the 11. When the earth wire 10 passes through this "first" portion P1, the insulating sheath 12 is thus cut off. To facilitate this cutting, the edges of the transverse slot 6 can be provided cutting on this "first" part P11. As the cut is made, the progressive spacing of the "first" and "second" wings 2, 3 on the "first" wing portion P1 promotes the cutting of the insulating sheath 12. At the end of the "first" part P11, once the insulating sheath 12 has been cut off, the conductive core 11 is in contact with the edges of the transverse slot 6. On a "second" part P12 of the "first" portion of wing P1 of the "first" and "second" wings 2, 3, the transverse slot 6 has a width substantially constant and equal to the diameter of the conductive core 11 which ensures electrical contact between the earthing clip 1 and the conductive core 11. The earthing clip 1 according to the invention is easily achievable from for example a piece of steel plate, cut and folded. Once made, the earthing clip 1 can undergo heat treatments to reinforce its mechanical characteristics. It can also undergo a surface treatment to protect it from environmental aggressions.

As illustrated in Figure 2, to set up the earthing clip 1, the earth wire 10 is placed opposite the transverse slot 6 into which it is introduced. The ground wire 10 is thus received in the "third" part P13 widest of the transverse slot 6 and in the "first" portion P1 of the "first" wing portion P1 having a width which decreases progressively along of which the "first" and "second" wings 2, 3 gradually deviate and wherein the insulating sheath 12 of the ground wire 10 is cut. The ground wire 10 is then received in the "second" portion P12, the narrowest of the transverse slot 6, along which the "first" and "second" wings 2, 3 progressively deviate. The width of the "second" portion P12 being similar to the diameter of the conductive core 11, any attack on the latter is avoided. The earthing clip 1 is presented in front of the support 100 so that the longitudinal slot 5 is substantially parallel to the relevant edge of the support 100. This edge is engaged in the longitudinal slot 5, initially in the zone d Z3 introduction. The "first" and "second" wings 2, 3 are spaced apart elastically from one another until the thickness of the nip zone Z1 corresponds to the thickness of the edge of the support 100.

The engagement is continued until the edge of the support 100 comes into abutment on the abutments formed by the "third" flaps 23. The "third" flap 23 thus ensures the proper positioning of the earthing clip 1 on the support 100. During this engagement, the ends of the "first" and "second" flaps 21, 22 rub against the support 100, or even the strip which allows in particular to remove any dirt that could affect the quality of the electrical contact between the earthing clip 1 and the support 100. The "first" and "second" shutters 21, 22 ensure that the positioning of the earthing clip 1 is maintained on the support 100. The engagement of the earth wire 10 in the transverse slot 6 and the engagement of the support 100 in the longitudinal slot 5 may be successive or simultaneous. The use of the earthing clip 1 is simple and can be done without instructions. This use does not require a specific tool, at most possibly a hammer to ensure the engagement of the support in the longitudinal slot 5. This type of earthing clip 1 can nevertheless be used with an automatic setting tool charger type can for example contain twenty grounding clips 1 and to improve the performance of installation. In the engaged position illustrated in FIG. 3, the earthing clip 1 is in position and the earthing assembly is made. The longitudinal 5 and transverse slots 6 opening on the same side of said earthing clip 1, the ground wire 10 is wedged in the earthing clip 1 by the support 100 at the bottom of the transverse slot 6. The The grounding connection obtained is compact and the ground wire is optimally oriented, ie perpendicular to the longitudinal slot 5 and the edge of the support 100. The grounding clip 1 allows a mounting without stripping of the ground wire 10.

Claims (10)

REVENDICATIONS1. An earthing clip (1) formed of a one-piece metal plate having an elastically deformable U shape, the "first" and "second" wings (2, 3) and said base (4) defining a longitudinal slot (5). ) adapted to receive the edge of a support (100), said "first" and "second" wings (2, 3) being traversed by a transverse slot (6) substantially perpendicular to said longitudinal slot (5) and adapted to receive a ground wire (10) having a conductive core (11) and an insulating sheath (12), characterized in that said longitudinal (5) and transverse (6) slots open on the same side of said grounding clip (1). ) so that once said grounding clip (1) is in place on said support (100), said ground wire (10) is wedged between said support (100) and the bottom of said transverse slot (6) in that on at least one "first" wing portion (P1) the width of said longitudinal slot (5) increases towards said base (4) and simultaneously, on at least a "first" portion (PI 1) of said "first" wing portion (P1), the width of said transverse slot (6) decreases to sever said insulating sheath (12) when introducing said ground wire (10) into said transverse slot (6). 2. Earthing clip (1) according to claim 1, characterized in that on a "second" portion P (12) of said "first" wing portion (P1) provided in the extension of said " first "part (P11) in the direction of engagement of said ground wire (10) in said transverse slot (6), the width of said transverse slot (6) is substantially constant. 3. Earthing clip (1) according to one of the preceding claims, characterized in that on at least one "second" wing portion (P2), 30 preceding said "first" wing portion (P1 ) in the direction of said support (100) in said transverse slot (6), the width of said transverse slot (6) is substantially constant. 4. Earthing clip (1) according to one of the preceding claims, characterized in that at least said "first" wing (2) comprises at least a "first" cutout (20) delimiting a "first" flap (21) folded inwardly of said longitudinal slot (5) and whose free end is intended, once said grounding clip (1) in place, to come into contact with said support (100) to promote the maintenance of said earthing clip (1) on said support (100). 5. Earthing clip (1) according to claim 4, characterized in that said "second" wing (3) comprises at least one "second" cutout (30) delimiting a "second" flap (31) bent towards the interior of said longitudinal slot (5) and whose free end is intended, once said earthing clip (1) in place, to come into contact with said support (100) to promote the maintenance of said clip grounding means (1) on said support (100), said "second" cutout (30) being offset towards said base (4) relative to said first cutout (20). 6. Earthing clip (1) according to one of claims 4 and 5, characterized in that at least one of the free ends (32) of said first, second wings (2, 3) is folded towards the outside said longitudinal slot (6) around a longitudinal fold line (L5) extending substantially parallel to said base (4) and passing substantially through the respective end of said "first", "second" cut ( 20, 30). 7. Earthing clip (1) according to one of the preceding claims, characterized in that at least one of said "first", "second" wings (2, 3) comprises at least one "third" cutout (22) defining a "third" flap (23) folded inwardly of said longitudinal slot (5) and intended to form a stop to limit the depth of engagement of said support (100) in said longitudinal slot (5). 8. Earthing assembly comprising at least one earthing clip (1), a support (100) having at least one edge adapted to be engaged in a slot and a ground wire (10) having a core conductor (11) and an insulating sheath (12), characterized in that it comprises an earthing clip (1) according to one of the preceding claims, in that said edge of said support (100) is housed in said longitudinal slot (5), in that said ground wire (10) is housed between the bottom of said transverse slot (6) and said support (100), and in that on said "first" part (P11), the width of said transverse slot (6) decreases a width greater than the outer diameter of said insulating sheath (12) to a width substantially equal to that of said conductive core (11). 9. A grounding assembly according to claim 8, characterized in that it comprises a ground clip (1) according to claim 2 and in that on said "second" part (P12), the width said transverse slot (6) is substantially constant and substantially equal to that of said conductive core (11). 10. Earthing assembly according to claim 9, characterized in that it comprises an earthing clip (1) according to claim 3 and in that on a "third" portion (P13) of said "second" wing portion (P2), provided before said "first" portion (PI 1) in the direction of engagement of said ground wire (10) in said transverse slot (6), the width of said transverse slot ( 6) is greater than the outer diameter of said insulating sheath (12).