DE1665101B2 - FLEXIBLE, TENSION-RESISTANT ELECTRIC CABLE FOR THE CONTROL OF AIRCRAFT - Google Patents

Description

The invention relates to a flexible, tensile electrical cable for the control of Missiles, consisting of two parallel insulated conductors, which are at a mutual distance are arranged, a tension core arranged between the conductors and made of parallel glass thread from a common wrapping.

A well-known cable of this type (DT-AS 11 09 228) has a single wrapping layer, but it cannot be guaranteed that the two are isolated Ladder remain in the place where they were originally placed. Furthermore, the wrapping Do not give a good hold because it does not lie against the tension core at all points.

The object of the invention is to design a cable of the type mentioned in the introduction so that the insulated conductors remain in place with certainty and no cavities arise during manufacture.

This object is achieved according to the invention in that the glass threads forming the tension core are firmly connected to each other and to the insulated conductors by heat bonding that glass threads are provided, which fill the gaps on the circumference of the insulated conductor and the tension core and the in Contact with the tension core and are arranged parallel to this, and that the wrapping of at least one outer covering layer made of plastic is surrounded

A preferred embodiment of the invention is characterized in that the distance between the insulated conductors from each other is equal to half of the Diameter of the finished cable.

In a cable according to the invention, not only are the insulated conductors connected to the Zugscele, but there are also the gaps between the conductors on the circumference of the tension core completely filled, so that the wrapping rests against threads everywhere and there are practically no cavities. Also has a Cable according to the invention, based on the same diameter, about twice as high tensile strength as the well-known Kabci.

A device for producing a cable according to the invention consists of a heating device which can be regulated in its temperature and which is penetrated by a pipe for the passage of the Zugseeie. of two disks, each provided with a groove, which take up, calibrate and drive the insulated conductors fed to them and serve to unite the conductors with the tension core / u and / u, from at least one perforated disk / ur guide of the glass thread, the Zugsede and the head in the egg required geometric configuration and from at least one hollow spindle. which carries a bobbin of wrapping thread.

An exemplary embodiment of the invention is explained in more detail below with reference to the drawing.

F i g. 1 is a cross-sectional view of the cable.

F i g. Figure 1a is a cross-sectional view of the core of the cable with two symmetrical on the core arranged insulated electrical conductors.

Fig.2 is a schematic side view of a device for applying the insulated electrical Head to the core of the cable according to FIG. 1.

F i g. 2a is a plan view of the lower part of the device according to FIG. 2.

Fig. 3 is a schematic perspective view of a device for placing glass filament on top of the Pull core and for applying a covering thread.

In the case of the FIG. 1 reproduced flexible, tensile electrical cable for the control of missiles, a tension core 20 is provided, which consists of glass threads that are glued to one another. Furthermore, two insulated conductors in the form of enameled copper wires 21 and 2V ⁷ / ioomm diameter are provided, which are arranged symmetrically to Zugseele 20 and fixed on it by means of a heat-pressure sensitive adhesive based on neoprene (F i g. 1 a).

The tension core 20 with the two insulated conductors 21, 2V is surrounded by several glass threads 22 which run parallel to the tension core 20. This composite structure is held together by a covering thread 23 of 70 denier consisting of 34 polyamide individual threads, and the whole is covered with an insulating layer 24 consisting of polyvinyl chloride. If necessary, an outer cover made of neoprene can also be applied.

The thus assembled cable has a tensile strength of 10 kg / mm ² and has a diameter of ⁴⁷ / ioo to ⁴⁸ / ιυ0 mm, the distance between the insulated conductors ²⁴ / is ioo mm. The weight of the cable is 0.310 kg / km, its electrical resistance is 5000 Ohm / km and its capacity (between the

straight insulated ladders) bO up to 70 nl7km.

An execution / ur production of a cable gemati above description is shown in fig. 2. 2a and j shown schematically.

A thick core thread 20 consisting of glued glass fibers runs through a tube 26 its temperature adjustable heater 27 is heated. It then runs between two with one groove each provided disks 28 and 28 '{F i g. 2a) through, over which two more insulated copper conductors 21 and 21 'are supplied and which calibrate these conductors and stick it to the heated core thread 20, keeping it in a diametrically opposite position.

This structure 29, which consists of the thread of the soul and the ladders 21, 2Γ fixed on it, runs then in a hollow spindle 30 (Fig. 3). whereby it is united with several glass threads 22 at the same time, which are supplied concentrically by two perforated disks 31 and 31, soft the glass thread 22 one force a given geometric distribution.

One made of a polyamide or a polyester and one arranged on the spindle Coil 32 of incoming wrapping thread 23 is wrapped around the structure obtained from tension core 20. Ladders 21, 21 'and Lüngsglasfäden 22 wound around. That from the Hollow spindle 30 exiting braided cable 33 is then two or three times through a bath one Insulating agent passed through, calibrated in a nozzle and subjected to a heat treatment for plasticizing. If necessary, the coated cable can also be provided with an outer sheath.

If desired, the cable 33 emerging from the spindle 30 can pass through a second hollow spindle (not shown) are passed through it to a second wrapping crossing the first wrapping to raise a

For the glass threads in particular fibers from low-alkali glasses, the metalloid oxides or zwciodcr may contain polyvalent metals, d. H. insulating glasses used, which opposite chemical and atmospheric influences are stable.

The insulating cover can be made of a material based on a synthetic resin, in particular a thermoplastic Polyvinyl resin, such as polyvinyl chloride or a vinyl chloride copolymer, or in general made of an elastomer such as a silicone or chlorosulfonated Polyethylene. The polymeric coating material is advantageously in the form of a plastisol used, which also dyes. Contain plasticizers or other appropriate additives can.

Preferably, the process of drawing over with the insulating material is carried out several times, by several stack thin layers on top of each other. Such a way of working results in a more uniform or homogeneous one Coating.

For the wrapping, threads made from natural, artificial or synthetic textiles or glass fibers can be used can be used, but wrapping threads made of linear polycondensates are preferred, such as polyamides or polyesters are used.

The purpose of the outer varnish is to give the thread windings a better hold and a random one To prevent loosening of turns. A self-adhesive or heat-adhesive varnish can be used will. The varnish can for example consist of synthetic rubber that is used in solution will.

1 sheet of drawings

Claims (3)

Patent claims: Ϊ. Flexible, tensile electrical cable for the control of missiles, consisting of two 5 parallel insulated conductors, which are arranged at a mutual distance, a tension cele arranged between the conductors and made of parallel glass thread and a common wrapping, characterized. that the tension core (20) forming the glass thread with each other and with the insulated conductors (21, 21 ') are firmly connected by heat bonding, that glass threads (22) are provided which the gaps on the circumference of the insulated conductors (21, 2V) and the Fill the tension core (20) and which are in contact with the tension core (20) and are arranged parallel to it, and that the wrapping (23) is surrounded by at least one outer covering layer (24) made of plastic. 2. Cable according to claim!. Characterized in that that the distance between the insulated conductors (21, 21 ') from each other is equal to half of the Diameter of the finished cable. 3. Device for producing a cable according to claim 1 or 2. characterized by a heating device (27) which can be regulated in its temperature. which is penetrated by a tube (26) for the passage of the tension core (20), two disks (28, 28 ') each provided with a groove. which take up, calibrate and drive the insulated conductors (21, 21 ') fed to them and serve to unite and glue the conductors to the tension core (20), at least one perforated disc (31) for guiding the glass thread (22), the Tension core (20) and the conductor (21, 2V) in the required geometric configuration and through at least one hollow spindle (30) which carries a bobbin (32) made of wrapping thread (23). 40