RU113608U1 - FIELD CABLE - Google Patents

Abstract

 1. Field communication cable containing conductive multi-wire copper conductors insulated with a polymeric material, twisted into a star four of working conductors, sequentially superimposed on the star four of belt insulation, a shield, a load-bearing element and a protective sheath, characterized in that the zone insulation is made in the form of a winding with a tape of polymer material, the screen is made in the form of a winding with a narrow metal tape and one or more tinned copper wires, an insulating winding of one or more is applied over the screen they are tapes made of a polymeric material, the load-bearing element is made in the form of one or several bundles of high-modulus technical threads, the protective sheath is made in the form of a fastening winding with a tape of a polymeric material, an inner sheath of a polyethylene composition and a separating tape of a polymeric material, enclosed in an outer sheath of polyvinyl chloride plastic compound. ! 2. The cable according to claim 1, characterized in that the cable further comprises two service uninsulated or insulated with polymeric material conductive multi-wire copper conductors located on top of the insulating winding. ! 3. The cable according to claim 1, characterized in that the cable further comprises one stellar four working cores with belt insulation, a shield and an insulating winding, and two service insulated with polymer material conductive multi-wire copper conductors and a load-bearing element in the form of two or more bundles of high modulus technical threads are located in the recesses between the star quads of the working cores. ! 4. The cable according to claim 1, characterized in that the cable is optional

Description

The utility model relates to electrical engineering and can be used in the construction of field communication cables designed for multiple laying (removal) in the field.

The closest known to the proposed combination of features is a cable brand P-296. The cable contains conductive multi-wire copper conductors insulated with a polymeric material, twisted into a star four of working conductors. A belt insulation in the form of a shell of polymer material, a shield in the form of a coil of copper wires, a load-bearing element in the form of two coils of steel wires, and a protective shell of polymer material are sequentially applied over the star quartet. Both ends of the cable are reinforced with connecting half-couplings (Encyclopedia “Russia's Arms and Technologies. XXI Century”, Volume 13 - “Control, Communication and Electronic Warfare Systems”, edited by S. Ivanov, Arms and Technologies Publishing House, 2006, 686 p.) .

A significant drawback of such a cable is its increased weight and size parameters, insufficient resistance to kinks, and there is no possibility to organize the transfer of working and service information through different communication channels.

The task was to develop the design of the field communication cable, which has significantly lower mass and garabite parameters, which is resistant to kinks, and also allows organizing the transfer of working and service information through different communication channels.

The technical result is achieved in that in a field communication cable containing conductive multi-wire copper conductors insulated with a polymeric material, twisted into a star four of working wires, sequentially applied to the star four, belt insulation, a shield, a load-bearing element and a protective sheath, the belt insulation is made in the form of a tape winding made of polymer material, a screen in the form of a winding with a narrow metal tape and one or more tinned copper contact wires, an insulating sheath is applied over the screen a coil of one or more tapes of polymer material, it additionally contains two service uninsulated or insulated with polymer material conductive multi-wire copper conductors, the load-bearing element is made in the form of one or more bundles of high-modulus technical threads, the protective sheath is made in the form of a fastening winding with a tape of polymer material , an inner shell of a polyethylene composition and a separating tape of a polymeric material, enclosed in an outer shell of polyvinylchlor Id plastic compound.

In one embodiment, the cable further comprises one stellar four working cores with belt insulation, a shield and an insulating winding, and two service conductors insulated with a polymeric material, conductive stranded copper cores and a load-bearing element in the form of two or more bundles of high-modulus technical threads are located in the recesses between the stellar fours of workers lived.

In another embodiment, the cable further comprises three stellar fours of working conductors, with belt insulation, a shield and an insulating winding, and two service insulated conductive polymer wires with polymer material, located in the recesses between the stellar fours of working conductors, and a load-bearing element in the form of one bundle of high-modulus technical threads, enclosed in a common shell made of a polymeric material, is located in the center between the starry fours of the working cores.

In a further embodiment, the cable further comprises seven stellar fours of working conductors, with belt insulation, a shield and an insulating winding, two service conductors insulated with polymeric material, conductive multi-wire copper conductors located in the recesses between the stellar fours of working conductors, and four service insulators with polymer material, conductive stranded copper conductors twisted into a star four of service veins, wrapped in two ribbons of polymer material, enclosed in isolate uyuschuyu shell of polymeric material and load-carrying element is disposed between the webs stellar service four windings lived in the form of two or more beams of high modulus technical yarns.

In the following embodiment, both ends of the cable are reinforced with connecting half-couplings, in the housing of each of which a pin-pin type contact block is placed.

In a further embodiment, one end of the cable is reinforced with a connecting coupling half with a pin-to-pin contact block, and the other end is reinforced with a connecting coupling coupling with a contact pin-pin type.

In the following embodiment, one end of the cable is reinforced with a connecting coupling with a pin-to-pin contact block, and at the other end, the working and service cores twisted in pairs and the screen are separately displayed on a glove of polymer material with separate branches for each pair and screen .

The utility model is illustrated in the drawing, which shows a cable in section.

Figure 1 shows the cable according to claim 1 of the formula.

Figure 2 shows the cable according to claim 2 of the formula.

Figure 3 shows the cable according to claim 3 of the formula.

Figure 4 shows the cable according to claim 4 of the formula.

The field communication cable contains multiwire copper conductive conductors 1, each of which is insulated 2 of a polymer material. Insulated cores twisted into a star four of workers lived 3.

Over the stellar quartet of working cores 3, sequentially applied belt insulation in the form of a winding with a tape of polymer material 4, a screen 5 in the form of a winding with a narrow metal tape and one or more contact tinned copper wires 6 and an insulating winding 7 with a tape of polymer material.

The cable contains service insulated or non-insulated with polymeric material conductive multi-wire copper cores 8 and a load-bearing element 9 in the form of one or more bundles of high-modulus technical threads.

The protective sheath consists of a fastening winding 10 with a tape of a polymeric material, an inner sheath of a composition of polyethylene 11, a separating tape of a polymeric material 12 and an outer sheath of polyvinyl chloride plasticate 13.

The load-bearing element can be enclosed in a common shell of a polymeric material 14.

Service insulated conductors twisted into a stellar quartet of service cores 15, wrapped with two tapes of polymer material 16, on top of which an insulating sheath of polymer material 17 is applied, can be located in the center between the star fours of the working cores 3.

Cable manufacturing technology is based on the use of cable equipment and is as follows.

Drawing and annealing of copper wire for multi-wire copper conductive conductors 1 on drawing machines with an annealing device.

Twisting of a multi-wire copper conductive core 1 of copper wires on twisting machines, providing small twisting steps.

Stranded copper conductive conductors 1 are insulated with polymer insulation 2 on extrusion lines with an extruder screw diameter (45-120) mm.

Insulated conductors are twisted into stellar fours of working conductors 3, they impose belt insulation 4, shield 5, contact wires 6 and insulating winding 7 on twisting machines of the SZCh type with additional windings.

The stellar fours of workers lived 3, service wires 8 and bundles of high-modulus technical threads 9 are twisted into a core on general twisting machines. A fastening winding 10 and a separating tape 12 are applied on winding machines.

A protective shell in the form of an inner shell of a composition of polyethylene 11 and an outer shell of polyvinyl chloride plastic compound 13 is applied on extrusion lines with an extruder screw diameter of (90-250) mm.

The coupling halves are reinforced at the ends of the cable by electric soldering and assembly operations with metalwork tools.

The materials used in the cable construction are:

a) for conductive conductors - soft copper wire;

b) for core insulation - high-pressure polyethylene composition;

c) for fastening, insulating and separating windings - polyethylene terephthalate, polyethylene and polyamide tapes;

d) for the load-bearing element - high-modular technical thread NSVM-58.8 (200), NSVM-58.8 (300);

d) for the screen of the starry fours of working cores - soft aluminum foil of grades A 5 and A 6;

f) for the inner and outer shells of the protective shell - the composition of high-pressure polyethylene and polyvinyl chloride plasticate grade O-55, respectively.

Technical results include:

The number of working and office pairs is 6, 10, 20, and 40.

The number of bending cycles through the cylinders is not less than 100 (200 cycles of winding-winding from drum to drum with gaskets-removals).

Estimated mass of unreinforced cable with the number of working and service cores

- 6 - 92.5 kg / km.

- 10 - 134.1 kg / km,

- 20 - 209.0 kg / km,

- 40 - 412.5 kg / km.

Working capacity at a frequency of 0.8 kHz, no more

- working steam - 63.0 nF / km,

- service couples - 78.0 nF / km.

Claims (8)

1. Field communication cable containing conductive multi-wire copper conductors insulated with a polymeric material, twisted into a star four of working wires, sequentially superimposed on the star four of the belt insulation, a shield, a load-bearing element and a protective sheath, characterized in that the belt insulation is made in the form of a winding with a tape of polymer material, the screen is made in the form of a winding with a narrow metal tape and one or more tinned copper wires, an insulating winding of one or more is applied over the screen they are tapes made of a polymeric material, the load-bearing element is made in the form of one or several bundles of high-modulus technical threads, the protective sheath is made in the form of a fastening winding with a tape of a polymeric material, an inner sheath of a polyethylene composition and a separating tape of a polymeric material, enclosed in an outer sheath of polyvinyl chloride plastic compound. 2. The cable according to claim 1, characterized in that the cable further comprises two service uninsulated or insulated with polymeric material conductive multi-wire copper conductors located on top of the insulating winding. 3. The cable according to claim 1, characterized in that the cable further comprises one stellar four working cores with belt insulation, a shield and an insulating winding, and two service insulated with polymer material conductive multi-wire copper cores and a load-bearing element in the form of two or more bundles of high modulus technical threads are located in the recesses between the star quads of the working cores. 4. The cable according to claim 1, characterized in that the cable further comprises three stellar fours of working conductors with belt insulation, a shield and an insulating winding and two service insulated conductive polymer wires with polymer material, located in the recesses between the stellar fours of working conductors, and a load-bearing an element in the form of a single bundle of high-modulus technical threads, enclosed in a common shell of polymer material, is located in the center between the stellar quads of the working cores. 5. The cable according to claim 1, characterized in that the cable further comprises seven stellar fours of working conductors with belt insulation, a shield and an insulating winding, two service conductors insulated with polymeric material, conductive multi-wire copper conductors located in the recesses between the stellar fours of working conductors, and four service insulated with polymeric material conductive stranded copper conductors twisted into a star four service veins wrapped in two tapes of polymeric material and enclosed in isolates a sheath made of polymer material, and a load-bearing element in the form of two or more bundles of high-modulus technical threads is located between the tapes of the winding of the star four of service cores. 6. The cable according to any one of claims 1 to 5, characterized in that both ends of the cable are reinforced with connecting half-couplings, in the housing of each of which is placed a pin-to-pin type contact block. 7. The cable according to any one of claims 1 to 5, characterized in that one end of the cable is reinforced with a connecting coupling with a pin-to-pin contact block, and the other end is reinforced with a connecting coupling with a contact block of a "pin-socket" type. 8. The cable according to claim 2, characterized in that one end of the cable is reinforced with a connecting coupling with a pin-to-pin contact block, and at the other end, the working and service cores twisted in pairs, and the screen is separately displayed on a glove of polymer material with Separate branches for each pair and screen.