DE2729999C2 - Method of sealing the end of a cable with a gusset filling - Google Patents

Description

For this purpose 2 sheets of drawings

Claims (1)

construction, it is only possible with great effort of assembly Claim: Personnel possible, e.g. B. at the end of the cable during manufacture one end termination to seal off the cores and interstices in a moisture-proof manner. Method for sealing the end of a cable 5 Based on this prior art, the one with a gusset filling, in the form of a strand from the invention, is therefore based on the task of ensuring a sufficient rubber-like material, the length of which approximately corresponds to the longitudinal water tightness in the cable, corresponding to the cable length marked- at the same time, however, to ensure that at the connection, marks, termination or connection points of the cable that the strand made of rubber-elastic material is not hindered by this,
lengthened and in the lengthened state the end of the strand lengthened beyond the cable end according to the invention by separating the strand of elastic material that forms the gusset filling and lengthening the lengthened, shortened in length state the strand is released beyond the end of the cable and the end of the strand, which is elongated after the return spring, is cut off, so that the strand in the cable freed from the strand in the cable with a _w ü-d and which, after the springing back, is filled in its primordial dietary agent. initial length of the shortened strand in the released space filled with a sealant 20 weeks This exploitation of the spring characteristics of a strand-like rubber-elastic gusset filling allows assembly at any point on the cable The present invention relates to a method for _e i _nes moisture-proof end termination, a sealing of the end of a cable with a Zwickel- coupling sleeve or a wire feeder. Filling in the form of a strand made of a rubber-like 25 j _s t to carry out the assembly with little effort, material whose length corresponds approximately to the length of the cable that remains after the spring-back of the gusset filling Space provides a good anchoring facility for a compact structure, the unavoidable possibility for the cast resin pluga
Gussets between the stranding elements with filling material - Practically all of the materials that have to be filled in as insulating materials. In the case of a known positionally movable question that has a certain restoring force, & h. Chen telephone line according to DE-PS 8 75 056 will have spring properties. Thus, the invention, thermoplastic rubbers (TPR) can be called in performing the verwen- for this purpose form strands of rubber. Det which the _o of the thermoplastic polyurethane, but also geeig wires and a rubber jacket for a moisture _n ete thermoplastics together by a rubber insulation how ethylene copolymers provide a protected line. If, as indicated, 35. Other possible materials that can be used in the layer structure to partially diffuse the layer are so-called poly moisture-inhibiting layers and the blends, such as ζ. B. Mixtures of polyethylene and Ethysamte line is then vulcanized, then alder-propylene rubber (PE + EPDM) or from poly there is a compact line structure that is largely ethylene and butyl rubber (isobutylene-isoprene-Kauhend moisture-proof, in which the individual EIe-40 chuk = IIR). but are also firmly integrated. The latter is a suitable for a pull-out and subsequently significant disadvantage in the production of z. B. of connector resilient core inlet are also materials in dungsmuffen, because at these points the individual elements of the form of soft rubber vulcanizatea especially must be managed separately. have become materials based on thermoplastic Also known is the use of so-called sealing plugs 45 rubbers which have proven advantageous under the inside electrical cables and wires that are linked by moisture. The latter either z. B. by foaming in the soul itself allows a particularly efficient production of the case are formed or through the interstices of the core of the core inlet. filling plastic molded strands are created. If the invention is to be used in the gusset spaces with the aid of the sealing plugs shown as such in FIGS. 1 to 5 also in the case of electrical energy, three-core power cables are explained in more detail:
This is difficult to remove if at this point a cable 1, which is set off at its end, has the three ends to be made and the expanded veins 2, between which the core inlet 3 consists of th veins together with the interstices with a rubber-elastic, after lengthening, they should be sealed with a fine cast resin. This applies in particular to 55 insulating material. B. special when, as in the known plug of an end closure, as shown in FIG. 2 angedeuweiter provided, this in the cable by special tet, the core inlet 3 pulled out in the direction of the arrow, ie adhesive should be kept. lengthened At the point 4, the core inlet 3 is then cut, the same difficulties arise at a ßend, the end 5 snaps back into the also known power cable (DE-GM 74 11 775), 60 cable 1 and thus gives, like the F i g. 4 shows a hollow in which the fillet (snaffle) is free from space 6 between the veins 2 from a carrying thread. This cavity reaching strength and heat resistance, examples can also be filled with a casting resin, game as linen, rayon and the like., And a _V gl. F i g. 5, so that the entire cast resin plug 7 has an elastic, compression-proof anchorage with open pores in the area of the veins or the removable foam layer, which experiences the support thread 65 placed cable end Cable here is prevented.