FR2595181A1 - Screened power cables and wires which can be selectively stripped using a chemical method - Google Patents

Abstract

The invention relates to screened power cables and wires which can be selectively stripped using a chemical method. The insulating layers 2, 3, and 6 of the power cables and wires comprising metal braids 4 and 5 are made from materials of different nature, selected as a function of their sensitivity to certain solvents and from their passivity with respect to other solvents. The stripping method consists in plunging the end of the wires or cables into a solvent selected as a function of its activity which respect to the layer or layers which are desired to be removed, over a certain length, with a view to permitting the fitting of connectors ensuring continuity of protection against electromagnetic radiation. Main applications: screened cables or wires.

Description

 The invention relates to shielded electrical wires and cables which can be selectively stripped by a chemical process.

 The requirements for protection against electromagnetic radiation require, in the case of shielded wires or cables, that this protection be maintained at the connection connections, without appreciable modification of the shielding of the cables, so as not to alter the protective screen.

 There are currently various ways of eliminating the insulating coating of a shielded wire or cable over a certain length, without destroying the braid of metallic wires providing the shielding. These are mechanical means ensuring the progressive destruction of the insulating coating by means of a cutting tool or thermal means ensuring the destruction by melting of this coating; such as those described in French patents FR-A-2058.703 and FR-A-2.294.567 and German DE 3010588.

 When it comes to stripping cables, shielded by several braids, separated by a layer of electromagnetically absorbent material, the means mentioned above are ill-suited, because they have the disadvantages: of moving the braids in relation to the others, not to allow obtaining clean cuts and not to ensure the continuity of protection against electromagnetic radiation.

 The present invention aims to remedy these drawbacks. This invention, as characterized in the claims, solves the problem of creating shielded electrical wires and cables suitable for selective stripping by a chemical process.

 This invention is mainly characterized in that the insulating layers of the shielded electric wires and cables are made of materials of different nature, chosen according to their sensitivity towards certain solvents and their passivity towards other solvents, to which the materials constituting the other coating layers are respectively or collectively sensitive.

 According to a particular mode of application of the invention, the first insulating layer, directly surrounding the conductor (s) is a polyethylene terephthalate tape, the second layer, or intermediate, is made of a composite material based on a thermoplastic material and ferrites, an elastomer and ferrites or a thermoplastic elastomer and ferrites, and the outer coating is made of a thermoplastic material into an elastomer, a thermoplastic elastomer or a fluoropolymer. This fluoropolymer can be a tetrafluoroethylene perfluoropropene (FEP), ethylene tetrafluoroethylene (E.T.F.E.) or perfluoroalkoxy (P.F.A.) copolymer.

 The selective stripping process for wires and cables, carried out as indicated above, essentially consists in dipping the end to be stripped of the wire or cable, to a depth determined as a function of the stripped length to be obtained, in a solvent chosen as a function of its activity with respect to the material constituting the insulating layer to be stripped and its passivity with respect to the materials constituting the other coating layers, optionally repeating the operation with other solvents chosen according to of their activity and their respective passivity with respect to the materials constituting the other insulating layers which it is sought to eliminate or, on the contrary, to preserve, and to make these operations follow with a rinsing.

 When the insulating layers consist respectively of a tape of polyethylene terephthalate, of polyurethane and of ferrites, and of polyurethane, the solvent used to remove the layers of outer and intermediate insulating coating is tetrahydroflurane (THF).

The stripping is followed by rinsing with acetone.

 When the outer and intermediate coatings are made of the same thermoplastic material, the polymer is diluted so as to obtain an interpenetration of the thermoplastic material inside the braids, in order to make it waterproof.

 The advantages obtained thanks to this invention consist essentially in this, that it allows in particular the elimination, over a chosen length, of coating layers absorbing electromagnetic radiation, placed directly or indirectly under the shielding braids, without moving the latter. and, therefore, without altering the behavior of resistance to electromagnetic radiation of cable-connector connections.

 Other characteristics and advantages will appear in the following description of a cable produced according to the invention and of the method used to carry out its selective stripping, with regard to the attached drawings.

- Figure 1 shows a sectional view of the cable before selective stripping.

- Figure 2 shows a sectional view of the cable after elimination, over a length L, of the intermediate insulating layer.

- Figure 3 shows a sectional view of a connector adapted to wheat, after selective stripping.

 The figures represent a cable, of the type used in the case of application requiring good resistance to electromagnetic radiation, essentially comprising a bundle of insulated wires 1 surrounded by a strip of thermoplastic material 2, on which a layer of material is deposited. electromagnetic absorbent composite 3 successively covered with a braid of metallic wires 4, a braid of metallic wires 5 and an outer protective sheath 6. The end of the cable fits into a connector comprising a recess 7 and a connection socket 8.

 Referring to Figures 1 and 3, we note that it suffices to eliminate the layer of absorbent thermoplastic material 3 to a depth corresponding to the length L of the socket 8 of the connector, the inside and outside diameters of which correspond respectively to the diameter outside of the striped covering 2 and or inside diameter of the braid of metal wires 4, so that the adaptation of the connector at the end of the cable can be carried out directly, ensuring continuity of protection.

 Referring to Figure 2, we note that when the insulating layer 3 is made of a composite material based on polyurethane and ferrite, that the outer coating 6 is made of a non-sensitive component or made insensitive to THF and that the tape constituting the coating 2 is polyethylene terephthalate, it suffices to immerse the end of the cable, at a depth L corresponding to the length of the socket 8 of the connector, in tetrahydrofuran (THF), for a period of 24 hours approximately, to obtain the dissolution of the end 3A of the insulating layer 3 of the cable, over a depth corresponding exactly to the height of the socket 8 of the connector. After rinsing with acetone, the cable is ready to be connected, without having undergone the slightest alteration in its level of protection against electromagnetic radiation.

 Referring to Figure 3 we note that the connection of the cable with the connector, ensuring the continuation of protection at the connection, can be easily achieved by crimping or other part 7 of the connector, after fitting the end of the cable inside it.

 When the outer coating 6 is made of the same thermoplastic material as the layer 3, the dilution effect of the polymer, constituting the coating 6, makes it possible to obtain penetration of the thermoplastic material inside the braids 4 and 5.

 Although the invention applies mainly to shielded cables, it can however be used with profit for unshielded wires or cables, with a view to eliminating the subsequent risks of wire breakage at the connections, when stripping is carried out by conventional mechanical means causing transverse scratches constituting the beginnings of ruptures.

Claims (7)

 1. Selectively strippable shielded electric wires and cables, characterized in that the insulating layers are made of materials of different nature chosen according to their sensitivity towards certain solvents and their passivity towards other solvents.  2. Shielded electrical wires and cables according to claim 1, characterized in that the first insulating layer (2) directly surrounding the conductor (s) (1) is a polyethylene terephthalate tape, the second layer (3) is made of a composite material based on a thermoplastic material and ferrites, an elastomer and ferrites or a thermoplastic elastomer and ferrites, and the outer coating (6) is made of a thermoplastic material, an elastomer, a thermoplastic elastomer or a fluoropolymer.  3. Shielded electrical wires and cables according to claim 2, characterized in that the fluoropolymer is a tetrafluoroethylene perfluoropropene (FEP), ethylene tetrafluoroethylene (E.T. F.E.) or perfluoroalkoxy (P.F.A.).  4. A method of selective stripping of shielded electrical wires and cables according to claim 1, characterized in that it consists essentially of immersing the end to be stripped of the wire or cable to a depth L, corresponding to the length to be stripped, in a solvent chosen according to its activity with respect to the material constituting the insulating layer concerned by the stripping and its passivity with respect to the materials constituting the other layers, optionally repeating the operation with d 'other solvents chosen according to their respective activity with respect to the materials constituting the other insulating layers and to follow these operations with a rinsing.  5. A stripping method according to claim 4, characterized in that, when the insulating layers (2, 3 and 6) consist respectively of a tape of polyethylene terephthalate, polyurethane and ferrites and polyurethane, the solvent used to remove the outer insulating coating layer (6) and the intermediate coating layer (3) is tetrahydrofuran (THF).  6. A stripping method according to claim 5, characterized in that the stripping is followed by rinsing with acetone.  7. Stripping method according to claim 4, characterized in that, when the external insulating coating (6) and the intermediate insulating layer (3) consist of the same insulating material, the dilution is carried out so as to obtain a interpenetration of the insulating material inside the braids (4 and 5) in order to make them waterproof.