DE29808657U1 - Electrical signal transmission cable - Google Patents

Description

GR 98 G 3347

Description

Electrical signal transmission cable

The internal conductors of an electrical cable, i.e. its wires, must be exposed so that they can be connected to connectors, etc. This process of stripping is complex and prone to errors. It is not always possible to avoid undesirable damage to the internal wire insulation when removing the outer cable sheath.

This problem occurs particularly when, for example, two wires are laid in the form of a so-called "twisted pair" inside a cable with a cylindrical outer sheath. Above and below the adjacent wires there are hollow spaces which are filled with rope or tape-like materials, for example, before an approximately cylindrical outer sheath can be attached around them. However, the problem arises that the wires run at different depths below the outer sheath. This is caused by the fact that the tape-like filling materials, which are usually stranded together with the wires, have varying cross-sections. This in turn means that stripping insulation from outer cable sheath areas, for example with radially cutting tools, is difficult. In order to avoid undesirable damage to the insulation of the wires, the cutting depth of the tools cannot be selected sufficiently. After the tool has been used, not all of the tape-like filling materials are usually cut through evenly. Rather, any remaining residues must be laboriously separated separately.

The invention is based on the object of specifying a cable for electrical signal transmission, which is provided with a

GR 98 G 3347

Stripping and cutting tools can be used to safely strip the cable in one operation so that the inner wires can be exposed without damage. In particular, commercially available stripping tools should be able to be used whose blades enable a radial cut around the outer sheath of the cable with an adjustable penetration depth.

The problem is solved with a cable specified in claim 1. This has the advantage that the cavities between the usually stranded wires and the cylindrical outer sheath located around them are very evenly filled with a so-called inner sheath made of easily extrudable polyvinyl chloride. This in turn means that the inner conductors and in particular their wire insulations are located at a uniform depth below the outside of the outer cable sheath in all radial and longitudinal areas of the cable. The penetration depth of radially cutting stripping tools can therefore be set so precisely that the outer sheath areas of the cable can be cut in a single operation without the risk of local damage to a wire insulation.

These advantageous properties of the cable according to the invention can be further improved if the properties of the polyvinyl chloride used as the inner sheath are suitably adjusted, in particular by means of appropriate additives.

Thus, by using appropriate additives, 0 the polyvinyl chloride can form an inner shell after curing that has only limited adhesion to the first and, if present, a second separating layer. Furthermore, by using such additives, an inner shell can be created that has only limited tear resistance. Finally, by using appropriate

GR 98 G 3347

Appropriate additives can cause the inner sheath to have a certain degree of brittleness. All of these measures make it possible, in the event that after using a cutting stripping tool, there are still remnants of the inner sheath surrounding the inner wires, to remove these parts without the need for force and without using another tool, e.g. by tearing them off.

Further advantages and further advantageous embodiments of the invention are explained further using a cable shown as an example in the figure.

The cable 1 shown in cross-section in the figure is used to transmit electrical signals and for this purpose has at least one pair of adjacent wires 11 and 15. The wires can each be stranded copper wires which are twisted together. Each wire 11 and 15 also has a separate wire insulation 13 and 14. This can preferably consist of a so-called cell polyethylene dielectric. A first separating layer 21 is placed around the wire insulation 13, 17 of the wire pair 11, 15, which preferably consists of a polyester film. The interstices that occur in the inner area between the wire insulation 13, 17 and the separating layer 21 can remain unfilled.

According to the invention, an inner jacket 9 made of easily extrudable polyvinyl chloride is extruded around the first separating layer 21 without any cavities, so that a structure with an outer contour that is circular in cross-section is created. The circular shape of the outer contour has a high degree of accuracy. Furthermore, the unit made of the pair of wires surrounded by the separating layer 21 is very evenly overmolded with the inner jacket 9 made of polyvinyl chloride. To complete the cable, a shielding braid 5, preferably made of tinned copper, is also used.

GR 98 G 3347

fabric is placed in a ring around the inner sheath 9 and finally an outer cable sheath 3, preferably made of polyvinyl chloride, is placed in a ring around the shielding braid 5. Advantageously, the cable 1 can have a second separating layer 7, which is placed in a ring around the inner sheath 9 and is surrounded by the shielding braid 5. This preferably consists of a metallized polyester film.

This precise geometric structure of the cable according to the invention now enables a precise adjustment of the cutting depth of a stripping tool that cuts radially into the outer cable sheath 3 and the layers underneath. An advantageous, commercially available stripping and cutting tool of this type is available under the name stripax from the Weidmüller company.

In the example in the figure, the circumferential cutting line resulting from the use of a radially cutting tool with an optimally set penetration depth of the cutting blades is shown in the form of a dashed circle 23. It can be seen that not only the outer cable sheath 3, the shielding braid 5 and the second separating layer 7 can be completely severed in one operation. Rather, the inner sheath 9 made of easily extrudable polyvinyl chloride can also be precisely cut, particularly at its narrowest web areas 25 and 27. Damage to the underlying wire insulation 13 and 17 in particular is definitely avoided.

0 On the other hand, the structure of the inner jacket 19 is already so weakened by the cuts in the web areas 25 and 27 that it can be removed in the form of two halves with minimal effort. If the polyvinyl chloride of the inner jacket 9 is mixed with appropriate additives so that the adhesion of the inner jacket to the first

GR jo G jj4 /

and/or second separating layer 21, 7 is restricted and the inner sheath 9 has a reduced tear resistance and at the same time increased brittleness, it can be removed effortlessly. With the appropriate setting of the cutting depth of a stripping tool, it can even happen that the inner sheath falls off on its own after removal of the outer area of the cable and a slight twisting of the wires 12, 15.

A further advantage of the cable structure according to the invention is that in practice no changes in the so-called "electrical climate" occur inside the cable according to the invention in comparison to conventional cable structures. The essential electrical characteristics of the cable, such as loop, shield, insulation and wave resistance, wave attenuation, operating capacitance, earth coupling, operating voltage, test voltage and the like are unchanged in comparison to cables which have rope-shaped fillings instead of an inner sheath made of easily extrudable polyvinyl chloride.

Claims (9)

GR 98 G 3347 Protection claims 1. Cable (1) for transmitting electrical signals, with a) at least one pair of adjacent wires (11,15), each wire (11,15) having a wire insulation (13,17), b) a first separating layer (21) which is placed around the wire insulation (13,17), c) an inner jacket (9) made of easily extrudable poly- vinyl chloride, which is extruded around the first separating layer (21) without any voids so that a structure with a circular outer contour in cross-section is created, d) a shielding braid (5) which is placed in a ring shape around the inner sheath (9), and e) an outer cable sheath (3) which is placed in a ring around the shielding braid (5). 2. Cable according to claim 1, with a second separating layer (7) which is placed in a ring shape around the inner sheath (9) and is surrounded by the 0 shielding braid (5). 3. Cable according to one of the preceding claims, with an inner sheath (9) made of polyvinyl chloride, which has additives such that after the inner sheath has hardened, only limited adhesion to the first and/or second separating layer occurs. 4. Cable according to one of the preceding claims, with an inner sheath (9) made of polyvinyl chloride, which has additives such that the inner sheath has only limited tear resistance. GR 98 G 3347 · · ft ft · · ···· 4 5. Cable according to one of the preceding claims, with an inner sheath (9) made of polyvinyl chloride, which contains such additives
that the inner casing has a certain degree of brittleness. 6. Cable according to one of the preceding claims, with a dielectric made of cell polyethylene as core insulation
(13,17). 7. Cable according to one of the preceding claims, with a polyester film as the first separating layer (21). 8. Cable according to one of the preceding claims, with a metallized polyester film as a second separating layer (7). 9. Cable according to one of the preceding claims, wherein the wires (11,15) of a pair are stranded together.