DE946356C - Method of manufacturing a flexible core for a high-frequency cable conductor wound with a low pitch - Google Patents

Description

Method of making a flexible core for one with less The invention relates to a method for the production of flexible, magnetizable cores for coiled-up coils High frequency cable conductor. Cables with such conductors have a high wave resistance and are used as matching cables, mainly as delay cables,: measuring and television equipment used. They were initially made with flexible cores made of non-magnetizable material and later made with magnetis merciful cores to increase the inductivity, which consisted of solid cylindrical magnetic powder bodies, which at intervals were arranged from each other; to. to achieve a certain flexibility of the cable. Finally, cable conductors are already known whose cores are made of flexible material with magnetizable particles permeated insulating material, in particular plastic produced are. This enables very high wave resistance values to be achieved. The rising ones Requirements for. the accuracy and uniformity of the electrical; values this. Kabels, however, indicated that with such a flexible core, from magnetizable material, the required tight tolerances are not adhered to could.

According to the invention, this deficiency is remedied in that the flexible Core made of insulating material interspersed with magnetizable parts with tensile strength organs low elongation, preferably with or parallel to the core axis running threads turn pickled. The invention is based on the knowledge that for normal loads Sufficient solid, dimensionally stable cores when spinning the conductor, when pulling over Extraction devices and when installed in: Devices only slightly, but unevenly are deformed and consequently also in the finished cable uneven electrical values occur.- By the according to the invention added to the core tensile organs are also prevented and a minor deformation of the core extraordinarily high electrical uniformity of the finished cable and thus a Distortion-free transmission of high frequency pulses enabled. The one with: magnetizable, Isäliestoff interspersed with powdery particles can, for example, be applied to a load-bearing core of high strength and low elongation can be applied.

The core is advantageously made of: also made of insulating material, as there is Cores out. Metals, e.g. B. steel or copper wires, unfavorable on the magnetic and electrical properties of the core. It can e.g. B. threads with. low elongation from organic materials, such as silk. Rayon or polyamide threads or made of inorganic materials such as asbestos threads. Ales especially A core made of fiberglass, preferably one made of single threads, has been suitable braided glass silk cord, due to its low elongation, high strength and Proven heat resistance and its water-repellent properties .. On these bearing core can, then with .guter dimensional accuracy of the magnetizable powder Apply interspersed insulating material sprayed on in a known manner. An even higher one A degree of accuracy in the manufacture of the molding strand can be achieved if on .the load-bearing core in the manner known from the manufacture of: enamelled wires a lacquer weighted down with the magnetizable powder is applied in thin layers is .. This process has the particular advantage that the magnetizable Powder is particularly fine and evenly distributed in the insulating material. The exact: Dimensions result essentially from the fact that the weighted paint is extremely thin individually dried layers can be applied. Suitable for this Processes are in particular film-forming, fillable, high-polymer substances in dissolved, molten or dispersed state, e.g. B. cellulose lacquers, polyvinyl acetate dispersions, Polyisobutylene melts or casting resins, e.g. B. Diisocyanate-polyester adducts.

The method according to the invention has the further advantage that the molding strand is interspersed with a very high content of magnetizable particles can be that a manufacture without the load-bearing core as a result of the reduced mechanical strength of the mixture would make impossible. This affects. even particularly favorable to the desired magnetic properties of the strict form. because an enrichment with magnetizable particles leads to a much higher ins Weight decreasing (increase in the permeability of the molding strand can be achieved can be considered by using a powder with high permeability as this only contributes to a small extent to an increase in the overall permeability. It has has shown that even with the most careful intermingling, it is preferably made of iron Magnetisieerbaren particles in the insulating material with very high contents a flawless Isolation of the individual "particles from each other can not be achieved and additional Losses in the molding strand cannot be avoided. Advantageously, therefore the magnetizable particles preferably before being introduced into the supporting insulating material by chemical treatment, e.g. B. by phosphating, with a thin insulating Layer covered.

If it is desired for electrical reasons, the interior of the If the inner conductor coil is not completely filled with the molded strand, several thin, Molded strands with a circular cross-section produced by the method according to the application be lingered with each other, or the molding can be made with different shapes, z. B. steroidal cross-section on the load-bearing core.

Claims (7)

PA TENT CLAIMS: i. Method of making a flexible core Made of flexible insulating material interspersed with magnetizable powder, for one high-frequency cable conductors wound in a coil shape with a low pitch, thereby characterized in that the core tensile organs with low elongation, preferably threads running parallel to the core axis are added or inserted. 2. Procedure according to claim i, characterized in that the magnetizable with powdery Particles mixed insulating material on a central trap high strength and low elongation is applied. 3. The method according to claim: i or 2, characterized characterized in that organic or inorganic insulating threads are used as the organ with high tensile strength can be used with low elongation. ¢. Method according to claim i or 2, characterized characterized in that as a tensile organ (one preferably braided from individual threads Glass silk cord is used. 5. The method make claim z and 2-, characterized in that that the magnetizable material on the supporting core with the help of an extruder is sprayed on. 6. Procedure-according to. Claims i and 2, characterized in that that on the supporting core with a magnetizable. Powder weighted. Paint in several individual dried coats is applied. 7. The method according to claim i, characterized by the use of a mixture of insulating material and magnetizable, powdery particles coated with an insulating layer, e.g. B. phosphate layer covered are. Publications considered: German Patent Specifications, No. 64o 8o9, 678 3o6.