RU202168U1 - Electric power take-off device from overhead power lines - Google Patents

Abstract

The utility model relates to the field of basic elements of electrical equipment, more precisely to capacitive voltage dividers, and can be used to supply power to consumers of electrical energy remote from stationary sources of low voltage electricity. The device contains an antenna (1) with linear fittings, made by a multicore cable, in which the conductors are connected in parallel, a converting-stabilizing unit (2), a grounding device (3), leads (4) for connecting electrical receivers. In this case, the antenna (1) is connected to the converting-stabilizing unit (2) connected to the grounding device (3) and the terminals (4) for connecting electrical receivers. The technical result is a decrease in the length of the section of the overhead transmission line occupied by the power take-off device, due to the introduction of the antenna and an increase in the active area of its surface per unit length. 1 wp f-ly, 1 dwg

Description

The field of technology.

The utility model relates to the field of basic elements of electrical equipment, more precisely to capacitive voltage dividers, and can be used to supply power to consumers of electrical energy remote from stationary sources of low voltage electricity.

Prior art.

Known capacitive voltage divider containing a series-connected coupling capacitor, connected by one plate to the supply bus and forming a high-voltage arm of the divider, and a power take-off capacitor, forming a low-voltage arm of the divider and having a grounded plate (see the book AM Dymkov, V. M. Kibel, Yu V. Tishenin. Voltage transformers. - M .: Energiya, 1975, pp. 81-89). The power take-off capacitor supplying the electromagnetic attachment intended for connecting measuring instruments and relay protection and automation devices is under voltage of several kilovolts.

The disadvantages of the known divider are: the need for a contact connection to the primary power grid; the requirement for significant capacitor capacities; high cost of high voltage capacitors.

Known device for the selection of electrical energy from overhead power lines (OHL), containing a linear part with a support and fastening device, a converting and stabilizing unit, a measuring and control unit, a grounding device and a block for connecting electrical energy consumers, while the linear part is made with the ability to regulate it length (see RF patent for utility model No. 133968, IPC H01F21 / 04, publ. 27.10.2013). The linear part of the device can be implemented in the form of a lightning protection cable with the possibility of regulation by sequentially connecting the sections of the cable with jumpers, or in the form of a special conductor with the possibility of regulation by connecting an additional conductor in series.

The disadvantages of the known device are as follows: a linear part is required, occupying three intermediate spans or more for power take-off from 30 W or more, which is more likely to be subject to ice and wind loads, accidents associated with snagging wires, complicates the installation and repair of the device; high cost of the linear part, made with a wire that takes several spans. When performing the linear part in the form of a lightning protection cable, its earthing is required, which limits the scope of the device; when the linear part is made in the form of a lightning protection cable, protection against lightning overvoltages on the selection device is required, which complicates the device and increases its cost.

The closest in technical essence to the proposed utility model is a well-known device for the selection of electrical energy from overhead transmission lines, containing a linear part with a support and fastening device, a converting and stabilizing unit, a measuring and control unit, a grounding device and a block for connecting electrical energy consumers, while the linear part made in the form of a wire located parallel to the overhead power line, and the regulation of the value of the potential induced on the linear part is carried out by adjusting the distance to the overhead power line (see RF patent for utility model No. 74240, IPC H01F21 / 04, publ. 20.06. 2008).

The disadvantages of the known device are as follows: a linear part is required, occupying three intermediate spans or more for power take-off from 30 W or more, which is more likely to be subject to ice and wind loads, accidents associated with snagging wires, complicates the installation and repair of the device; high cost of the linear part, made with a wire that takes several spans.

Disclosure of the utility model.

The task to be solved by the present utility model is to increase the reliability of the device, reduce the number of accidents at overhead transmission lines caused by the device, simplify the installation and repair of the device, and reduce the cost of the device.

The technical result achieved when solving the problem is to reduce the length of the section of the overhead transmission line occupied by the power take-off device by introducing the antenna and increasing its active surface area per unit length.

The specified technical result is achieved by the fact that an antenna with linear fittings made in the form of a multicore cable, the conductors of which are connected in parallel, is introduced into the device for taking electrical energy from the overhead transmission line, which contains a converting and stabilizing unit, a grounding device, terminals for connecting electrical receivers, the antenna is connected to a converting-stabilizing unit connected to a grounding device and terminals for connecting electrical receivers.

It is advisable that the additionally introduced antenna with linear reinforcement was made in the form of a thin-walled metal pipe with a diameter 3-10 times larger than the diameter of the phase wires.

The introduction of the antenna of the device in the form of a multicore cable, the conductors of which are connected in parallel, makes it possible to increase the active surface area of the antenna per unit of its length and significantly reduce the total length of the antenna in comparison with the linear part made with a wire occupying several spans.

The introduction of the device antenna in the form of a thin-walled metal pipe with a diameter exceeding the diameter of the phase conductors by 3-10 times also makes it possible to increase the active surface area of the antenna per unit of its length and significantly reduce the total length of the antenna in comparison with the linear part made with a wire occupying several spans.

Brief description of the drawings.

The utility model is illustrated by a drawing showing a block diagram of the device. Positions in the drawing indicate the following: 1 - antenna with linear fittings; 2 - converting and stabilizing block; 3 - grounding device; 4 - terminals for connecting electrical receivers.

Detailed description of the utility model.

The device for the selection of electrical energy from the overhead transmission line, contains an antenna 1 with linear fittings, a converting and stabilizing unit 2, a grounding device 3, conclusions 4 for connecting electrical receivers. In this case, the antenna 1 is made with a multicore cable in which the conductors are connected in parallel, or in the form of a thin-walled metal pipe with a diameter exceeding the diameter of the phase conductors by 3-10 times. Antenna 1 is connected to a converting-stabilizing unit 2, which is connected to a grounding device 3 and terminals 4 for connecting electrical receivers.

To implement the device as antenna 1, a multicore self-supporting insulated SIP wire with a length of 1-2 intermediate spans can be used, the conductors of which are connected in parallel, or a thin-walled aluminum pipe with a diameter of 90 to 300 mm and a length of 3-5 meters, depending on the required take-off power ... Any transformer power source that stabilizes the induced voltage in the antenna 1 and lowers it to the voltage of the electrical receiver can be used as a converting-stabilizing unit 2. As a grounding device 3, the grounding device of the overhead transmission line support can be used.

Implementation of the utility model.

The device for the selection of electrical energy from the overhead transmission line operates as follows. Antenna 1 is placed in the intermediate span of the overhead transmission line so that the voltage induced in it is maximum, but the distance between the phase wires of the overhead transmission line and the linear part is electrically safe. Since the capacitance between antenna 1 and the phase conductors of the overhead transmission line directly depends on the surface area of the linear part and phase conductors, the power of the selection device with antenna 1 made with a multicore cable or thin-walled metal pipe with a diameter 3-10 times larger than the diameter of the phase conductors will be the same. as well as a long wire that takes three intermediate spans or more, identical to them in the area of the outer surface. Antenna 1 is connected to the converting-stabilizing unit 2, grounded through the grounding device 3. Unit 2 stabilizes the voltage induced in the linear part by the phase conductors of the overhead transmission line and lowers the voltage to the voltage of the electrical receiver. This voltage is applied to terminals 4 for connecting electrical consumers.

The use of the proposed device provides a reduction in the accident rate caused by the use of the device for the selection of electrical energy, simplifies the installation and operation of the device, and also reduces its cost.

Claims (2)

1. A device for the selection of electrical energy from overhead power lines, containing a converting and stabilizing unit (2), a grounding device (3), terminals (4) for connecting electrical receivers, characterized in that an antenna (1) with linear fittings made by multicore a cable in which the conductors are connected in parallel, while the antenna (1) is connected to the converting-stabilizing unit (2) connected to the grounding device (3) and the terminals (4) for connecting power consumers. 2. The device according to claim 1, characterized in that the additionally introduced antenna (1) with linear reinforcement is made in the form of a thin-walled metal pipe with a diameter exceeding the diameter of the phase wires by 3-10 times.

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