RU178487U1 - HIGH VOLTAGE CABLE SCREENED FOR UNDERGROUND POWER SUPPLY SYSTEMS - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to cable products for voltages of 6000 and 10000 V. High-voltage cables are used to drain electricity to high-voltage power consumers - mobile transformer substations, high-voltage electric motors of drainage and fan installations. It is based on the task of creating an armored cable, in which changing its structure and design eliminates the formation of capacitance in the cable, improves its mechanical strength and, thus, ensures the safety of the use of electric energy in mines. The problem is solved due to the fact that in the high-voltage cable shielded for underground power supply systems, which contains three main conductors, each of which is insulated and with an individual screen of semiconducting plastic compound, a screen conductor in contact with the main conductors, and an earth conductor, and the main conductors twisted around the screen core, on top of this twist the inner and outer protective shells are sequentially applied, the latter being made three-layer, while the outer and inner layers are made of polymeric materials, and the middle layer is formed in the form of a braid of durable synthetic threads and copper wires in isolation, the latter forming a grounding conductor. 1 ill.

Description

The claimed technical solution relates to electrical engineering, in particular to cable products at voltages of 6000 and 10000 V.

High-voltage cables are used for the sewerage of electricity to high-voltage electrical receivers - mobile transformer substations, high-voltage electric motors of drainage and fan installations. Due to the power supply system adopted in the mines, high-voltage cables have a large length - up to 10 km.

During operation, cables are damaged, as a rule, due to mechanical stress: about 70% of the total number of various types of damage. This suggests that the mechanical protection of the cable based on an armored sheath made by steel tapes does not justify its purpose. And, in addition, experience shows that the design of the high-voltage cable formed so far does not satisfy the operating conditions both in terms of mechanical strength and electrical parameters due to the capacitance that forms in the cable.

An armored power shielded cable is known that contains at least three main conductors, a shield layer is applied over the insulation, the main conductors are twisted relative to the ground conductor, the inner, armored and protective sheaths are sequentially applied over this twist, and the shield layer is made of electrically conductive plastic (see patent No. 109734, Ukraine, H01B 7/00, 7/17, publ. 12.09.16).

Cables with an armored sheath based on two steel strips are made for mines in England, Germany, Poland, Russia, Ukraine, France, the Czech Republic and other countries.

An advantage of the design of the known cable is that for the first time it provides for the implementation of an individual screen of the main cores of semiconducting PVC plastic instead of copper tapes. This solution made it possible, firstly, to eliminate the formation of the “main core - individual screen” capacitance, secondly, damage to insulation by copper tapes and, thirdly, damage by electric discharges as a result of ionization of air gaps between the insulation and copper tapes.

The disadvantages of the known cable include:

- a sufficiently low operational reliability, since the presence of an armored shell adversely affects the condition of the main cores. Under the influence of shock and alternating loads, the armored shell damages the main cores and, as a result, a short circuit is created;

- the presence of the capacitance “main core - armored sheath” and “main core - ground wire”, which leads to leakage of current to the ground, ignition of methane and damage to people.

Known three-phase cable with a device for monitoring the insulation resistance in a three-phase cable line for an underground high-voltage power supply system with insulated neutral, consisting of three power conductors with an individually applied semiconductor screen and an armored sheath, the cable contains a screen core made uninsulated, with the possibility of contact with screens power conductors, this core is isolated from the grounding core, which is used as an armored sheath, and the insulation monitoring device is underwater ineno between the power conductors and a screen of living (see. Russian patent №168089, H01J 3/00, publ. 18.01.2017, BI №2).

The cable is formed by twisting the main cores relative to the screen core, and the inner, armored and outer sheaths are sequentially superimposed on top of the lay.

The disadvantages of the cable include:

- the formation of capacitance between the power conductors and the armor shell, leading to a violation of explosion safety and electrical safety in the mines;

- the impact of the armored shell on the main cores and their damage in emergency conditions as a result of shock and alternating loads, as well as the interconnection of the main cores;

- the implementation of the outer sheath of PVC compound, which is unstable to external mechanical stresses, which violates the tightness of the cable and reduces its strength during operation.

The utility model is based on the task of creating a high-voltage shielded cable in which changing its structure and design eliminates the formation of capacitance in the cable, improves its mechanical strength and, thus, ensures the safety of the use of electric energy in mines.

The problem is solved in that in a high-voltage cable shielded for underground power supply systems, containing three main conductors, each of which is made in isolation and with an individual screen of semiconducting plastic compound, a screen conductor in contact with the main conductors, and an earth conductor, while the main conductors twisted around the screen core, over this twist the inner and outer protective shells are sequentially applied, according to the utility model, the outer protective shell is made of three layers, while eshny and inner layers are made of polymer materials, and the middle layer is formed as a braid of solid filament and copper wires in the insulation, the latter form a ground wire.

The proposed solution for the first time changed the structure (composition and placement) and the design of the outer protective sheath, which are aimed at improving the mechanical strength and flexibility of the cable, reducing its weight and, which is especially important, eliminating the conditions for the formation of capacity in the cable.

The design and location of the grounding conductor in the cable has also been changed. The outer sheath is made of three layers and its composite structure performs mechanical protection of the cable under the action of shock and alternating loads. The advantage of this design is that it does not allow damage to power conductors and short circuit between them, and, most importantly, eliminates the conditions for the formation of capacitance in the cable.

Due to the increased distance between the main conductors and the ground conductor, the capacitance decreases tenfold and, therefore, its effect is practically not affected, since the capacitance in the cable is inversely proportional to the distance between the plates, which are each main conductor and the ground conductor.

The figure shows the design of the proposed high-voltage cable.

The high-voltage shielded cable for underground power supply systems contains three main cores, each of which consists of a copper wire 1, an internal semiconducting screen 2, insulation 3 and an external screen 4 of semiconducting plastic, a copper screen conductor 5, an inner sheath 6, covering a twist of the main and screen veins, an outer protective sheath, consisting of three layers: inner 7, middle 8 and outer 9. The middle layer 8 is made in the form of a braid formed by durable synthetic threads 10 and copper wires 11 in and olyatsii. The latter form a grounding conductor.

The design feature of the claimed cable is that the outer protective sheath is made of three layers, the inner 7 and outer 9 layers are made of polymeric materials, the middle layer 8 is in the form of a braid formed by interlocking strands of durable synthetic threads 10 and copper wires 11 in isolation. The grounding conductor is formed by the named copper wires in insulation and is the middle layer 8 of the protective sheath.

The outer 9 and inner 7 layers of the outer protective shell are made of durable polymeric materials, for example polyurethane, which has high mechanical strength and elasticity, high resistance to shock and alternating loads. Its performance characteristics exceed the properties of metals. Products made of polyurethanes operate in conditions of high humidity and temperature in the range from -40 ° C to + 120 ° C without deterioration of mechanical properties. The outer protective sheath can also be made of fiberglass, cross-linked polyethylene and other polymeric materials.

The implementation of the outer protective sheath of plastic materials significantly increases the flexibility of the cable, its strength characteristics when exposed to shock loads and alternating bending.

The voltage is supplied to the cable and disconnected from the network using a complete switchgear.

The outer protective shell is made of three layers, the inner layer has flexibility and ductility and is designed to dampen the external impact load, the outer one is high-strength, not inferior to the properties of steel, performs mechanical cable protection. Between these layers, a middle layer is laid, performing hardening of the outer protective shell. It is braided from durable synthetic threads and copper wires in isolation.

The three layers mentioned constitute the structure of the outer protective shell, which, unlike the well-known armor based on two steel tapes, protects the cable from shock and alternating loads.

The grounding conductor is formed by individual copper wires provided for in the braid. In contrast to the known design, it is made in isolation and is located in the outer protective sheath, which provides galvanic separation of the power circuit and the ground circuit.

The cable design has mechanical strength adequate to the operating conditions, and has the properties of forming a protection that proactively prevents the development of an accident.

The proposed solution eliminates the disadvantages of the known cable and allows you to get the following positive effect when using it:

- increased strength due to the fact that the outer protective shell for the first time is made of durable polymeric materials;

- the exclusion of damage to the insulation of the main cores both under the influence of electrical discharges, and during mechanical stresses due to the fact that the screens are made of semiconducting plastic compound;

- the exclusion of conditions for the formation of capacity in the cable due to the implementation of individual screens and the outer protective sheath of plastic materials;

- the exclusion of the passage of leakage currents to the ground through the use of screen conductor provides conditions of explosion safety and electrical safety in mines;

- the manufacture of the outer sheath of durable polymeric materials eliminates all mechanical stress on the main cores and, as a result, their closure, in addition, ensures the strength of the cable under shock and alternating loads;

- the active component of the leakage current, caused by a decrease in the insulation resistance of the main cores, does not enter the ground, but again returns to the three-phase network;

- neutralization of the electromagnetic field in the cable due to equalization of potentials in it through the internal and external shields of the main cores, which eliminates the conditions for insulation damage.

Thus, the construction of a high-voltage shielded cable adequate to the operating conditions was proposed for the first time, with the help of which the issues of electrical safety and explosion safety in mines are solved in a new way.

Claims (1)

Shielded high-voltage cable for underground power supply systems, containing three main conductors, each of which is insulated and with an individual screen of semiconducting plastic compound, a screen conductor in contact with the main conductors, and a ground conductor, while the main conductors are twisted around the screen conductor, on top of this twists are sequentially applied to the inner and outer protective shells, according to a utility model, the outer protective shell is made of three layers, the outer and inner layers being made of limernyh materials, the middle layer is formed as a braid of solid filament and copper wires in the insulation, with the latter form a ground wire.

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