DE1640743A1 - Electrical contact cable - Google Patents

Description

Electrical contact cable The invention relates to an electrical contact cable which consists of an inner conductor, an outer conductor and a dielectric which centers the inner conductor in the outer conductor and allows contact between the inner and outer conductors in the event of pressure loads.

Such contact cables are used as triggers in electrical circuits, for example for measuring the speed of vehicles of all kinds, for counting vehicles, for automatically igniting mines and the like. The cables are laid individually or at a distance from one another on roadways or in open terrain. Accordingly, high demands must be placed on the cables, for example in order to be able to cope with the various ground conditions alone - grass, sandy, asphalt, concrete. For example, the cables should be able to carry out a large number of contacts without the cables being damaged or permanently deformed. In addition, the pressure sensitivity in the longitudinal axial direction should have a constant value which, moreover, should not change even through repeated laying out and rolling up. Finally, the contact cables should be equally bendable in all directions, laid without tensioning devices or other aids, and as insensitive as possible . Contact cables are already known which consist of an inner conductor, a flexible outer conductor surrounding it and a dielectric arranged in between, which is elastic under pressure and centers the inner conductor in the outer conductor: In these known cables, the outer conductor is a braid and disc-shaped spacer pieces are used as the dielectric. whose width is relatively large. These cables can only be produced in the desired great lengths with the help of special and complicated manufacturing processes and are therefore expensive. In addition, these cables have the disadvantage that when the cable is bent, the disc-shaped spacer pieces can slip on the inner conductor, so that when the cable is bent back, the inner conductor can remain bent and there is therefore a risk of permanent contact between the inner and outer conductors. Furthermore, contact cables are known in which conductors are attached to the inner wall of a deformable, tubular support body, which conductors can come into contact with one another when subjected to pressure. The tubular support body is larger in its cross-sectional width than in its cross-sectional area and can therefore only be bent or wound in certain directions. Additional clamping devices are also required for its design. These contact cables can only be manufactured with the help of special and complicated manufacturing processes.

The invention overcomes these disadvantages and difficulties namely in that the outer conductor consists of a narrow, helical shape around the Irlrierilel ter arranged metal tape ordered, at least on part of its the inner conductor facing side with: the dielectric is coated. By Such a cable structure is now guaranteed that the outer conductor and the dielectric and thus also the inner conductor and the dielectric when bending of the cable are not able to perform any relative movements to each other, whereby the Risk of permanent contact caused by bending the cable no longer available is. Only with very small radii of curvature can it happen that with a helically applied metal band, the individual band windings partially one on top of the other and thus impermissible contact can occur. This However, this effect can be eliminated in a simple manner that the metal band with Zero overlap is wrapped around the inner conductor. Along with that usually The existing outer sheath are then the individual turns in the sense of being pushed one on top of the other fixed immovably to each other. Furthermore, the cable according to the invention can be produced in a simple manner and without high manufacturing outlay. The other requirements placed on the contact cables will also be easy can be recognized, fulfilled.

The dielectric is most expediently composed of one or more shaped strands that run parallel to the strip edges and are glued onto the metal strip, for example. This has the advantage that the structure is simple to manufacture and the cable can be manufactured cheaply. However, such a cable can only be used successfully if it is ensured that the cable is not bent under a certain minimum radius of curvature during operation. Otherwise there is a risk that the tape edges will deform with small radii of curvature and thus the cable will become unusable over time, since the pressure sensitivity can change as a result of the deformation of the tape edges. This permissible: minimum curvature limit can now be shifted to more favorable values if the metal strip is coated on all sides with the dielectric apart from a small, longitudinal part of its side facing the inner conductor. Then, namely, the total thickness of the metal strip and dielectric at the edges is so large that a permanent deformation mnicht or more is practically possible only at a Kabelknickung.

The adjustment of the tenderness he üb choosing the length of lay of the metal strip, via the selection of the amount of material and the choice of material of the dielectric. The Einstelluna can both will vorgenomemen by variation of all three components and by varying only two or only one component. & Low pressure sensitivity is obtained by a short length of lay of the metal strip and / or quantity by a large material and / or by a hard-elastic material for the dielectric, while a high pressure sensitivity is set accordingly by a long lay length and / or by a small amount of material and / or by a flexible type of material . Hard or soft elastic plastics such as polyethylene, polyvinyl chloride, silicone rubber or natural or synthetic rubber can be used as the dielectric.

The inner conductor can consist of a solid wire or a stranded wire in a known manner. An inner conductor which consists of a plastic thread with an electrically conductive surface layer has proven to be favorable with regard to the flexibility of the cable; the electrically conductive layer can be designed as braiding forms eßxäwaein. To further explain the invention, reference should be made to two figures, some of which contain exemplary embodiments in a partially schematic representation.

FIG. 1 shows a contact cable in which a metal strip 1 with a zero overlap is wrapped around the inner conductor 2. The dielectric consists of two, in parallel Rectangular shaped strands 3 and 4 running to the edges of the metal strip 1. Due to the shaped strands 3 and 4, the metal strip 1 has the same distance everywhere from the inner conductor 2. A jacket 5 is applied over the metal strip 1.

In the figure 2, a contact cable is shown in which the as an outer conductor serving metal strip 1 except for a small, longitudinal part 6 of its dem Inner conductor 2 facing side is coated on all sides with the dielectric 7. The jacket is again denoted by 5.

Claims (6)

Claims 1. Electrical contact cable consisting of a an outer conductor and a dielectric centering the inner conductor in the outer conductor and allowing contact between the inner conductor and the outer conductor in the event of a pressure load, -characterized in that the outer conductor consists of a narrow, helically arranged metal band around the inner conductor, at least part of which faces the inner conductor Side is coated with the dielectric. 2. Electrical contact cable according to claim 1, characterized in that the provided with the dielectric Metal tape is wrapped around the inner conductor with zero overlap. . Electrical Contact cable according to Claim 1 or 2, characterized in that the dielectric ordered from one or more shaped strands running parallel to the strip edges. 4. Electrical contact cable according to claim 1 or 2, characterized in that the metal strip is coated on all sides with the dielectric except for a small, longitudinal part of its side facing the inner conductor. - 5. Electrical contact cable according to one of claims 1 to 4, characterized in that the consists of a plastic strand provided with an electrically conductive layer. 6. Electrical contact cable according to claim 5, characterized in that the claß conductive layer ordered from a braid.