RU182154U1 - FIELD ELECTRIC COMMUNICATION CABLE - Google Patents

Abstract

The utility model relates to telecommunication technology and can be used as a field communication cable for constructing field intra-site communication lines, four- and two-wire subscriber lines intended for operation in field and stationary conditions.

The technical result consists in improving the technical and operational characteristics of the communication cable, increasing the structural strength and reliability of the cable in the field, the throughput of communication lines organized with its help. To this end, the communication cable contains four insulated conductive conductors twisted into a star quartet, in which oppositely located conductive conductors form working pairs, two service insulated conductive conductors, each of the conductive conductors of working pairs and service pair is multi-wire and consists of seven twisted together tinned copper wires, one or more tinned copper contact wires, a screen made of aluminum foil or copper wires, four polyethylene terephthal windings film (PET), a distinctive cotton or synthetic thread, a load-bearing element made in the form of a braid of twenty-four high-modulus synthetic threads, a sheath made of a polyethylene composition, and a protective hose made of frost-resistant and heat-resistant PVC compound, while the conductive conductors of the working pairs are placed in the first a PET film winding over which one or more tinned copper contact wires are laid, an aluminum foil screen is placed on top of the contact wires, over a second winding of PET film is superimposed on the tap, the service conductive conductors are located diametrically opposite to the axis of the four, a distinctive cotton or synthetic thread is placed next to one of the conductive conductors, the four insulated conductive conductors and two service conductive conductors form the core of the cable placed in the sheath from a polyethylene composition, on top of which a load-bearing element is applied, on top of the load-bearing element, a fourth winding of PET plastic is applied APIS, communication cable is placed in the protective hose from the frost and svetotermostoykogo PVC compound.

Description

Field electrical communication cable

The utility model relates to telecommunication technology and can be used as a light field cable for constructing field communication lines, remote control lines of medium-power radio stations, four- and two-wire subscriber lines, designed for operation in the field on the ground surface, in the ground and in suspension local items, as well as in stationary conditions.

Known light field two-wire cable P-274, the design and technical capabilities of which are described in [1]. This cable is used to deploy two-wire subscriber and trunk lines.

Field two-wire cable P-274 consists of two twisted black wires. The twist pitch of the cable wires is an average of 80 mm. A twisted seven-wire conductive core consists of three tinned or galvanized steel wires with a diameter of 0.3 mm and four tinned copper or tinned wires with a diameter of 0.3 mm each. The insulating sheath of the known cable is made of polyethylene with a radial thickness of 0.4-0.48 mm. To increase the resistance of the cable to wear on top of each insulated wire, a high-strength protective nylon sheath 0.1-0.2 mm thick is applied by syringing.

The closest in technical essence to the proposed utility model is the electric wire (cable) selected as a prototype, the design and technical capabilities of which are described in the utility model patent No. 67323 U1 [2].

The electric cable of the prototype contains several at least three conductive wires, each of which is multi-wire and consists of tinned copper wires, a screen made of copper wires, and a sheath under which the screen is located, while the insulation of the conductive wires and sheath is made made of lead-free PVC compound.

The main disadvantages of the prototype cable are the insufficient number of conductive wires, the great mutual influence of the signals transmitted through them and the sharp dependence of its electrical properties and technical parameters on weather conditions (“dry”, “damp”), which limits the possibility of using such a cable for Deployment of individual subscriber and trunk lines in the field.

The purpose of the utility model is to improve the technical and operational characteristics of the cable and increase the throughput of cable communication lines organized with its help.

This goal is achieved by the fact that in the field electric communication cable containing three conductive wires, each of which is multi-wire and consists of tinned copper wires, a screen made of aluminum foil and a sheath of a polyethylene composition are additionally introduced, at least three conductive conductors, one tinned copper contact wire, four windings of polyethylene terephthalate (PET) film, cotton thread, load-bearing element made in the form of a braid of twenty-four high of modular technical threads and a protective hose made of frost-resistant and light-heat-resistant polyvinyl chloride plastic compound, while four of the six conductive conductors are twisted into a star four with a twisting step of no more than 65 mm, and the opposite conductive conductors in the four form a working pair, and the other two conductive conductors form an official a pair, the conductive conductors of the four are placed in the first winding of a PET film, over which one tinned copper contact wire with a nominal diameter of no more e 0.23 mm, an aluminum foil screen with a nominal thickness of at least 0.1 mm and a width of not more than 9.0 mm is laid over the contact wire, a second PET winding of the film with a total nominal thickness of at least 0.2 mm is superimposed over the screen , service conductive conductors are located diametrically opposite to the axis of the four, a cotton thread is placed next to one of the service conductive conductors, four insulated conductive conductors and two service conductive conductors form the core of the cable placed in both a sheath made of a polyethylene composition with a nominal thickness of 0.7 mm, on top of which a load-bearing element is applied, made in the form of a braid of twenty-four high-modulus technical threads, a fourth winding of PET film is applied on top of the load-bearing element, the cable is placed in a protective hose made of frost-resistant and light-resistant polyvinylchloride plastic compound of nominal 1.2 mm thick, while each of the six conductors consists of seven twisted together, with a twisting step of not more than 14 mm, tinned copper wires are nominal diameter no more than 0.23 mm, the isolated solid layer of low density polyethylene composition, 0.45 mm thick for working pairs and 0.25 mm for the overhead vapors living space filled isolation of low density polyethylene within the four electrically conductive.

A comparable analysis with the prototype shows that the proposed field electric communication cable is characterized by the presence of new features, namely, the introduction of three additional conductive conductors, the combination of the first four insulated conductive conductors in two working pairs that are twisted into a star four, four windings of polyethylene terephthalate film, one contact tinned copper wire, cotton thread, load-bearing element, made in the form of a braid of twenty-four high-modulus technical threads , by combining a stellar quartet and two service conductive veins in a core, providing an increase in the mechanical strength of the proposed communication cable.

Thus, the proposed utility model meets the criterion of "prior art", and the use of known conductive and insulating materials for the manufacture of cable confirms the feasibility and industrial applicability of the field electric communication cable.

The drawing shows a design of the proposed field electric communication cable, which indicates:

1 - insulated conductive core of working pairs;

2 - the first winding of polyethylene terephthalate (PET) film;

3 - contact tinned copper wire;

4 - screen made of aluminum foil;

5 - the second winding of PET film;

6 - conductive core of a service pair;

7 - cotton thread;

8 - the third winding of PET film;

9 - a shell of a polyethylene composition;

10 - a load-bearing element made in the form of a braid of twenty-four high-modulus technical threads;

11 - the fourth winding of PET film;

12 - a protective hose from frost-resistant and heat-resistant polyvinyl chloride plastic compound.

The field communication electric cable contains four conductive conductors 1, twisted into a star four with a twisting step of no more than 65 mm, in which oppositely located conductive conductors 1 form a working pair, and the remaining two of the six insulated conductive conductors are service conductive conductors 6. Each of conductive conductors lived 1 working pair and conductive core 6 of the service pair is multi-wire, consists of seven twisted together, with a twist step of not more than 14 mm, tinned copper wires with a nominal diameter etrom not more than 0.23 mm, the isolated solid layer of low density polyethylene composition, 0.45 mm thick for working pairs and a thickness of 0.25 mm for the overhead vapors. In this case, the first four conductive conductors 1 of the six conductive conductors are placed in the first 2 winding of a polyethylene terephthalate (PET) film, the space inside the four insulated conductive conductors 1 is filled with low-density polyethylene insulation. On top of the first 2 windings of PET film, one tinned copper contact wire 3 with a nominal diameter of not more than 0.23 mm is superimposed, an aluminum foil screen 4 of a nominal thickness of at least 0.1 mm and a width of not more than 9.0 mm is superimposed on the contact wire 3. A second winding 5 of PET film with a total nominal thickness of at least 0.2 mm is superimposed on top of the screen 4. Utility conductors 6 are diametrically opposed to the four axis, a cotton thread 7 is placed next to one of the conductors 6. Four insulated conductors 1 and two conductors 6 form the core of the cable, placed in the third winding 8 of PET film with a nominal thickness of 0 , 7 mm, over which a shell 9 of a polyethylene composition is applied. A load-bearing element 10 is laid over the sheath 9, made in the form of a braid of twenty-four high-modulus technical threads, and a fourth winding 11 of PET film is applied over the load-bearing element 10. The communication cable is placed in a protective hose 12 made of frost-resistant and light-heat-resistant polyvinyl chloride plastic compound with a nominal thickness of 1.2 mm.

As copper wires for conductive conductors 1 and service conductive conductors 6 can be used MM soft copper wire according to GOST 2112-79 or tinned copper wire according to TU 16.505.850-75, while copper wires can be made in an external type.

The insulation of the conductive conductors of 1 cable was made using a composition of polyethylene grades 102-01K - 102-05K and 153-01K - 153-05K, grade 1 according to GOST 16336-2013.

As insulation to fill the space inside the four conductive cores 1 can also be used a composition of polyethylene grades 102-01K-102-05K and 153-01K - 153-05K, grade 1 according to GOST 16336-2013.

As a polyethylene terephthalate film for the first 2, second 5, third 8 and fourth 11 windings, a grade E film according to GOST 24234-80 can be used.

Contact tinned copper wire 3 can be made using soft copper wires of the MM grade according to GOST 2112-79 or TU 16.505.850-75.

As the aluminum foil for the screen 4 can be used aluminum foil grades A0, A5 according to GOST 25905-83.

Cotton thread 7 is made using cotton threads according to GOST 6309-93.

The protective hose 12 can be made using polyvinyl chloride plastic compound grade 0-55 according to GOST 5960-72.

The protective hose 12 made of PVC compound is waterproof and protects the field electric communication cable from various external influences, including the effects of solar radiation, low temperatures, rain, frost and dew. The thickness of the protective hose 12 is at least 1.2 mm.

To increase the convenience of use and operation, an electric field communication cable is made in building lengths of 50, 100 and 200 meters, while both ends of the cable construction length are reinforced with couplers that provide connections between the building lengths of cables of the same brand in any sequence, as well as with accessories intended products.

In the idle position, the construction lengths of the proposed field electric communication cable are usually located on a drum having a device for deployment in the field, which contributes to the convenience of deploying the cable and increasing the speed of laying communication lines.

The technical effect of the proposed utility model is to increase the structural strength of the field electric communication cable and the reliability of its operation in the field, to increase the transient attenuation at the near end between the cable pairs and the security at the far end, the throughput of the organized intra-node communication cable lines, to ensure cable operation in various climatic conditions, achieved by introducing a load-bearing element made in the form of a braid of twenty four high-modulus synthetic filaments, the use of several layers of insulation for conductive conductors in the cable, insulation for the space inside the four, four windings of polyethylene terephthalate film, a sheath of polyethylene composition and the use of a protective hose made of frost-resistant and light-heat-resistant polyvinyl chloride plastic compound with a thickness of at least 1.2 mm .

In addition, the proposed communication cable provides increased protection of the information transmitted through it from transient influences between the cable pairs and from external interference by introducing an aluminum foil screen, combining insulated conductive conductors of working pairs into a stellar four, which has additional insulation by placing it in fastening winding. In the proposed utility model provides crosstalk at the proximal end A _o between the operating cable pairs at least 54 dB and protection A _of the far-end to a cable length of 1 km to at least 65 dB in the range up to 32 kHz, and the frequency range to 64 kHz - A _about = 51 and A _s = 63 dB, respectively, which is several times higher than the performance in similar cables, including the prototype. It follows that the bandwidth of the proposed cable also increases from 9.6 kbit / s to 64 kbit / s, while it is possible to transmit (receive) information even at a speed of 2048 kbit / s on a shorter cable line.

Tests of prototypes of a field electric communication cable showed that it provides multiple deployment (coagulation) of communication lines in the field, reliable operation at ambient temperatures from minus 50 to plus 55 degrees and exposure to moisture.

Information sources.

1. Field two-wire cable P-274M. Technical description.

2. RU, patent No. 67323 U1, IPC НВВ 7/00, НВВ 9/00, НВВ 11/00, BIPM No. 28 of 10/10/2007 (prototype).

Claims (5)

1. Field electric communication cable containing three conductive wires, each of which is multi-wire and consists of tinned copper wires, a screen made of aluminum foil, and a sheath of a polyethylene composition, characterized in that at least at least three more conductive conductors, one tinned copper contact wire, four windings made of polyethylene terephthalate (PET) film, a cotton thread, a load-bearing element made in the form of a braid of twenty-four high-modulus technical threads and a protective hose made of frost-resistant and heat-resistant polyvinyl chloride plastic compound, while four of the six conductive wires are twisted into a star four with a twist step of not more than 65 mm, the oppositely located conductors in the four form a working pair, and the other two conductive wires form a service pair , the conductive conductors of the four are placed in the first winding of a PET film, over which one tinned copper contact wire with a nominal diameter of not more than 0.23 mm is applied An aluminum foil screen with a nominal thickness of not less than 0.1 mm and a width of not more than 9.0 mm is superimposed on the contact wire, a second PET winding of the film with a total nominal thickness of at least 0.2 mm is superimposed on top of the screen with overlapping conductive conductors located diametrically opposite to the axis of the four, a cotton thread is placed next to one of the conductive conductors, a four of conductive conductors and two conductive conductors form the core of the cable placed in a sheath of compositions of polyethylene with a nominal thickness of 0.7 mm, over which a load-bearing element is applied, made in the form of a braid of twenty-four high-modulus technical threads, a fourth winding of PET film is applied on top of the load-bearing element, the cable is placed in a protective hose made of frost-resistant and light-resistant polyvinyl chloride plastic compound with a nominal thickness of 1 , 2 mm, while each of the six conductors consists of seven twisted together, with a twist step of not more than 14 mm, tinned copper wires with a nominal diameter no more than 0.23 mm, insulated with a continuous layer of a low density polyethylene composition of 0.45 mm thickness for working pairs and 0.25 mm thick for a service pair, the space inside the four conductive veins is filled with low density polyethylene insulation. 2. The communication cable according to claim 1, characterized in that MM copper grade soft wire can be used as copper wires of conductive conductors, while the copper wires can be made in an external type. 3. The communication cable according to claim 1, characterized in that the insulation of the conductive wires of the cable is made using a composition of polyethylene grades 102-01K-102-05K and 153-01K - 153-05K, grade 1. 4. The communication cable according to claim 1, characterized in that a composition of polyethylene grades 102-01K-102-05K and 153-01K-153-05K, grade 1, can also be used as insulation to fill the space inside and around the conductive wires. 5. The communication cable according to claim 1, characterized in that to increase the convenience of use and operation, the field electric communication cable is made in building lengths of 50, 100 and 200 meters, while both ends of the construction length of the cable are reinforced with couplings that provide connections to each other construction lengths of cables of the same brand in any sequence, as well as with accessories as intended.

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