DE1194021B - Spiral spacer for electrical lines - Google Patents

Description

Helical spacers for electrical cables The invention relates to helical spacers for electrical lines, in particular for coaxial RF power cable, consisting of a wärinefesten, electrically high-grade insulating material and disposed between inner and outer conductors.

Such a known spacer consists of two or more adjacent turns. He does not let himself go with it without deformation Apply an inner conductor in such a way that it is then also stuck. The known Spacer must therefore, if it consists of a relatively stiff insulating material, be pushed axially. For the assembly, the one for the support per unit of length necessary spacers must be pushed on from the start. If it turns out later that some spacers have been damaged when they were pushed on or before, in this way they can be removed, but only with great difficulty with new spacers substitute. This is because these cannot be applied radially to the inner conductor, but must be pushed onto one of the two ends of the conductor, after which all other spacers by one or more spacer distances need to be postponed. Just adding the necessary number of spacers per length takes a lot of time in the known type, so that the assembly costs of the known cable are relatively high.

The object of the invention is therefore that of the known spacer to avoid inherent disadvantages and to train this so that he without any Deformation can be applied approximately radially at any point on the inner conductor can and that several such spacers to any total length put together.

This object is achieved according to the invention in that the slope the helix is at least equal to the diameter of the inner conductor and that the spacer about one turn, so that it is in a tilted position approximately radially on the inner conductor is attachable.

The invention has considerable advantages. If you choose spacers, which are shaped as approximately half disks, fasteners must be used because they are placed anywhere on the ladder by themselves can, but not hold there by themselves. On the other hand, if you choose a spacer similar to the helical spacer described above with two or more turns, this eliminates the need for additional fasteners that leave the spacers themselves However, do not sit on the inner conductor at any point, but must be pushed on axially one after the other while avoiding deformations. With the new, about one turn comprehensive, helical spacer is both the placement on the inner conductor by inclining the holder at any Place possible, and additional fasteners can be avoided as the After straightening the spacer is fixed on the inner conductor. The assembly of the new spacer is extremely easy and an exchange of individual conductors Subsequently easily possible at any time.

According to a further embodiment, the spacer is approximately 15 to 251 larger than one turn. To facilitate assembly of the spacers, it is desirable that the transitions from one holder to the other are in a line. For this purpose, according to a further advantageous embodiment, the ends have a design by means of which they can be hooked to the ends of identically designed adjacent holders or engage in them. The holder preferably has a nose at at least one of its ends, the length of which is greater than 3601 . Since the helix is usually made relatively thin for material savings and other reasons, the above-described configuration results in a particularly good mounting. Finally, a particularly expedient embodiment is seen in the fact that the spacer, during its manufacture, has been given a cross-section that decreases from the inside to the outside without subsequent deformation. This results not only in a substantial saving in material with the same good adhesion to the inner tube, but also in better suspension. A particularly favorable material for the spacer according to the invention is a polyvinyl carbazole plastic.

The helix formed by the spacer according to the invention was subjected to bending tests when mounted in a coaxial cable. It showed that the helix produced in this way withstood all loads.

The invention is explained in more detail by the drawing.

The drawing shows the helix in a coaxial cable made up of spacers according to the invention. The inner conductor of the cable is designated with 1, the outer conductor with 2. 3 and 4 are two identical spacers constructed according to the invention from which the helix is constructed. The lugs at the ends of the spacers are labeled 5,6,7 and 8 . The nose is at the top of one end of the spacer and the bottom at the opposite end. The individual spacers therefore have the same configuration in every direction and can be installed as required.

Claims (2)

Claims: 1. Helical spacer for electrical lines, in particular for coaxial high-frequency power cables, which consists of a heat-resistant, electrically high-quality insulating material and is arranged between the inner and outer conductors, characterized in that the pitch of the helix is at least equal to the diameter of the inner conductor and that the spacer comprises approximately one turn, so that in the tilted position it can be placed approximately radially on the inner conductor. 2. Spacer according to claim 1, characterized in that it is about 15 to 25 ' larger than one turn. 3. Spacer according to claim 1 or 2, characterized in that its ends have a design through which they can be hooked with the ends of identically designed adjacent holders or engage in them. 4. Spacer according to claim 3, characterized in that it has a nose at at least one of its ends, the length of which is greater than 360 ' . 5. Spacer according to one of claims 1 to 4, characterized in that it has received a cross-section decreasing from the inside to the outside during its production without subsequent deformation. 6. Spacer according to one of claims 1 to 5, characterized in that it consists of a polyvinyl carbazole plastic. Considered publications: Deutsche Auslegesehrift No. 1030 902; C Austrian patent specification No. 138 562.