RU177922U1 - POWER CABLE FOR MEDIUM VARIABLE VOLTAGE - Google Patents

Abstract

The proposed utility model relates to the cable industry, namely, to the designs of power cables intended for use in distribution networks of electric energy for voltage from 6 to 35 kV AC with a frequency of 50 Hz. The technical result consists in improving the technical characteristics of the power cable for medium AC voltage. In a power cable, an average alternating voltage, including an aluminum or copper conductive core, an electrical conductive screen along a conductor, cross-linked polyethylene insulation, an electrical conductive screen for insulation, a first separation layer, an outer sheath, is overlaid with copper wires fastened by a copper tape over the first separation layer , a second separation layer and an inner shell over which a barrier layer is applied. In this case, the first separation layer is made of an electrically conductive swellable tape. The second separation layer is made of water swellable tape wrapped in polypropylene tape. The barrier layer is made of polymer tape, for example polyethylene terephthalate. The barrier layer can also be made of fiberglass tape. The inner and / or outer shells are made of high density polyethylene. The inner and / or outer shell can also be made of compositions that do not contain halogens and do not spread combustion. The screen is made of copper wires with longitudinal and radial sealing. 7 c.p. f-ly, 1 ill.

Description

The proposed utility model relates to the cable industry, namely, to the designs of power cables intended for use in distribution networks of electric energy for voltage from 6 to 35 kV AC with a frequency of 50 Hz.

There are various technical solutions in this area.

Thus, a power cable is known (see RU patent for utility model No. 42689, IPC НВВ 9/00, published. December 10, 2004), which contains an aluminum or copper conductive core, a screen on the core of a semiconducting cross-linked composition based on polyethylene, insulation made of a cross-linked composition based on polyethylene, an insulation screen from a semi-conductive cross-linked composition based on polyethylene, a layer of electrically conductive tape, sequentially superimposed on a layer of electrically conductive tape, a lead coating, an anticorrosive layer, a pillow for armor, armor made of non-magnetic tapes metals or alloys and a polymer outer shell.

In the known construction of a single-phase cable, tape armor of non-magnetic material is used. In this regard, the known cable can be used exclusively in conditions where only radial loads can act on the cable. Thus, the known cable has limitations on the possibility of use.

An additional disadvantage is the use in a known power cable lead sheath, which performs the function of a metal screen and a sealing sheath. Such a sheath has low thermal stability, which leads to insufficient cable reliability.

Also, patent RU is known for utility model No. 167142 (IPC H01B 9/02, published. 12/27/2016) "Power cable, flame retardant, with sector cores and cross-linked polyethylene insulation." The power cable contains three sector multi-wire, sealed conductive cores and the following layers sequentially located on each of them, namely, an extruded first screen of an electrically conductive cross-linked polymer composition of polyethylene, insulation is made of cross-linked polyethylene over the conductive core, a second extruded insulation is applied over the insulation a screen of an electrically conductive cross-linked polymer composition, said conductive wires with the listed layers are twisted into a core, then to the core winding layer superimposed strips of electrically conductive material, a metal screen, a spacer layer, the inner shell of a polymer composition containing no halogen, and the outer shell of a polymer composition containing no halogen. The outer shell is made of a halogen-free polymer composition with a tensile strength of at least 13 MPa, an elongation of at least 160% and an oxygen index of at least 33%.

The closest technical solution for the combination of essential features is the patent RU No. 77491 (IPC H01B 9/00, published. 20.10.2008) "Single-phase power cable for medium alternating voltage", which is selected as a prototype. A single-phase power cable for medium AC voltage includes an aluminum or copper conductive core, an electrical conductive shield for the core, insulation made of a polymeric material, an electrical conductive shield for insulation, the first separation layer, armor and the outer sheath. The conductive core is made in the form of a round multi-wire sealed core, the armor is made of round wire from aluminum alloy, over which a layer of winding from polymer tapes is applied.

In all known solutions, the cable is made in accordance with traditional regulatory requirements - the outer sheath is single, so it is highly susceptible to local damage.

According to statistics, most of the failures of cable lines occur precisely because of local destruction of the outer shells, which occur due to injury to the shell during installation or operation of the cable, or, less commonly, in the manufacture of cable.

An increase in the thickness of a single outer shell and a change in its design — the application of longitudinal ribs — only slightly postpone the period to its destruction.

The cable sheath is always in a stress state: from stresses with the wrong application technology (in this case, the stresses can be both along the cable axis and radial), in places of cable bends, from cyclic temperature effects from current overload - and, if damage to the surface of the shell in the form of scratches, burrs, impacts, etc., then these places are already local stress concentrators. The total effect of concentrated and constant stresses in the shell itself will inevitably lead to the formation of microcracks, which will very quickly grow to the main crack, regardless of the thickness of the shell. Thus, the tightness of the sheath will be broken, and soon the cable itself will work.

Thus, the technical problem that currently exists is the problems associated with the low performance properties of known power cable designs. The creation of the proposed technical solution is aimed at solving this technical problem, namely, the creation of a power cable design with improved technical characteristics: with increased reliability and degree of protection against mechanical stress when laying in various soils and conditions, and, therefore, with an increased service life .

The technical result consists in improving the technical characteristics of the power cable for medium AC voltage.

The technical result is achieved by the fact that in the power cable for medium alternating voltage, including aluminum or copper multi-wire sealed conductive core, conductive shield on the core, cross-linked polyethylene insulation, conductive shield on insulation, the first separation layer, the outer sheath, according to the utility model, on top a first separation layer is superimposed a screen of copper wires fastened with copper tape, a second separation layer and an inner shell over which a barrier layer is applied Oh. In this case, the first separation layer is made of an electrically conductive water swellable tape. The second separation layer is made of water swellable tape wrapped in polypropylene tape. The barrier layer is made of polymer tape, for example, polyethylene terephthalate. The barrier layer can also be made of fiberglass tape. The inner and / or outer shells are made of high density polyethylene. The inner and / or outer shell can also be made of compositions that do not contain halogens and do not spread combustion. The screen is made of copper wires with longitudinal and radial sealing.

The essence of the proposed utility model is illustrated in Fig., Where:

1 - conductive core;

2 - internal conductive screen;

3 - insulation made of cross-linked polyethylene (XLPE);

4 - external conductive screen;

5 - the first separation layer (electrically conductive swelling tape);

6 - copper wire screen;

7 - copper tape;

8 - the second separation layer (water swelling tape wrapped with polypropylene (aluminopolymer) tape;

9 - inner shell with a barrier layer;

10 - outer shell.

The power cable for medium AC voltage includes an aluminum or copper conductive core 1, an electrical conductive screen 2 along the core 1, insulation 3 made of cross-linked polyethylene, an electrical conductive screen 4 for insulation 3, the first separation layer 5, the outer sheath 10.

A screen 6 of copper wires fastened by copper tape 7, a second separation layer 8 and an inner shell, which is a protective layer 9, over which a barrier layer is applied, are superimposed on top of the first separation layer.

Table 1 shows the design characteristics of one example of the proposed cable.

The sequence of operations in the manufacture of the proposed cable is as follows:

- twisting of round conductors is carried out on lamp twisting machines,

- the application of the inner screen for the core, insulation made of cross-linked polyethylene and the screen for insulation is made simultaneously on an inclined extrusion line,

- the imposition of a winding of electrically conductive paper, a screen of copper wires fastened with a copper tape, a separation layer and a layer of laminated aluminopolymer tape - on a 100 roller twisting machine,

- overlay of a screen of round copper wires - on a twisting machine;

- the imposition of the inner shell of the polymer composition on the extrusion line,

- the imposition of a barrier layer on a winding machine;

- the imposition of the outer shell of the polymer composition on the extrusion line.

For the production of the proposed cable, it is supposed to use the existing equipment of cable plants.

The materials of the outer and inner shells are selected depending on the purpose of the cables:

- when laying in the ground, the outer and inner shell can be made of high density polyethylene, and as a barrier layer can be a polymer tape (for example, polyethylene terephthalate, or any other);

- when laying in the serviced rooms - both shells can be made of halogen-free polymer compositions; glass mica tape can be used as a barrier layer;

- when laying in open areas on overpasses, with requirements for non-proliferation of combustion, it is possible to use non-combustible PVC in both shells, and glass mica tape as a barrier layer.

The advantage of the proposed solution:

the execution of the shell is double - external, subject to external influences (the destruction of the outer shell does not extend to the inner shell, because the barrier layer of another material is on the path of destruction, and the crack does not grow through it) and the inner one, which ensures the operability of the cable throughout the entire service life with the destruction of the outer shell.

Thus, the proposed single-phase power cable for medium alternating voltage has improved technical characteristics compared to known structures.

Claims (9)

1. Power cable for medium alternating voltage, including a copper or aluminum multi-wire sealed conductive core, conductive shield on the core, cross-linked polyethylene insulation, conductive shield on insulation, the first separation layer, the outer sheath, characterized in that on top of the first separation layer, a screen of copper wires fastened with copper tape is applied, a second separation layer and an inner shell, on top of which a barrier layer is applied. 2. The cable according to claim 1, characterized in that the first separation layer is made of an electrically conductive swellable tape. 3. The cable according to claim 1, characterized in that the second separation layer is made of a water swellable tape wrapped in polypropylene tape. 4. The cable according to claim 1, characterized in that the barrier layer is made of a polymer tape, for example polyethylene terephthalate. 5. The cable according to claim 1, characterized in that the barrier layer is made of fiberglass tape. 6. The cable according to claim 1, characterized in that the inner and / or outer sheaths are made of high density polyethylene. 7. The cable according to claim 1, characterized in that the inner and / or outer shell is made of compositions that do not contain halogens and do not spread combustion. 8. The cable according to claim 1, characterized in that the screen of copper wires is made with longitudinal and radial sealing.

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