RU154803U1 - ELECTRIC TRANSMISSION PHASE VOLTAGE CONTROL DEVICE - Google Patents

Abstract

A device for monitoring the phase voltage of an overhead power line, consisting of series-connected means for removing primary information about the phase voltage on an overhead power line, signal processing means, information processing means and information transmission means, information processing means is connected to the output of the satellite signal receiver of the global positioning system, characterized in that the means for removing primary information about the phase voltage on the overhead power line h is satisfied based on the phase wire wound insulated wire of smaller cross section, which together form a low voltage leg of the capacitive voltage divider, one of the terminals of the insulated wire is connected to the signal input of the signal processing means, the total tire earthen signal processing means electrically connected with the power line phase conductor.

Description

The utility model relates to the maintenance of a branched power line (power line) with voltage monitoring devices mounted at various points on the overhead power line, and can be used to determine the location of an accident in power lines of any voltage class.

A known device is a pointer to the damaged section of UPU-1 (Kuznetsov A.P. Determination of places of damage on overhead power lines. - M: Energoatomizdat, 1989. P. 47), in which the voltage sensor is based on capacitive voltage selection from the line in the form of a suspended one span of the fourth wire, the capacitance of which of the relative phase wire of the power transmission line is the high-voltage arm of the capacitive divider. The voltage sensor is used to monitor the presence of phase voltage in the power transmission line and enable the pointer of the damaged section UPU-1 in the device.

The disadvantage of this device is the use as a lining of the high-voltage arm of the capacitive divider of the fourth wire suspended along the wires of the power transmission line, the use of which leads to an increase in the dimensions of the device, cost and labor costs for its installation.

A device for determining the location and type of damage to an overhead power line according to the patent of the Russian Federation 126144, IPC G01R 31/08, 2013. The proposed technical solution relates to the field of measuring equipment, namely, to measuring magnetic and electrical quantities and, in particular, to determining the location of damage in branched overhead power lines. The device comprises indicating means electrically connected to the information processing means, electric and magnetic field sensors, information transfer means made in the form of a radio transmitting module, and an autonomous power supply unit electrically connected to the information processing means and made in the form of a main power source. The electric field sensors are designed to control the voltage of power lines, and are in the first embodiment, capacitors with flat copper plates, separated by a dielectric. Each electric field sensor is located at a distance from one another and is oriented parallel to the wires of the power lines. In the second embodiment, the electric field sensors are dish-shaped high-voltage insulators, connected at one end to the phase wire of the power transmission line, and the second to the measuring device. In the third embodiment, the electric field sensors are made in the form of capacitors with concentric plates covering the phase wire of the power transmission line from three sides.

The disadvantages of the first embodiment of the electric field sensor are the need to choose its orientation and the distance to the corresponding phase wire of the power transmission line during installation, the need to manufacture a capacitor design consisting of a dielectric metallized with copper on both sides, and a small amplitude of the useful output signal relative to the amplitude of the ether noise, which is negative affects the algorithm of the device. The disadvantages of using a high-voltage plate insulator in the second embodiment are an increase in the size and cost of the device, as well as a decrease in the accuracy of measuring the phase voltage caused by the influence of variable atmospheric humidity on the surface of the insulator. The disadvantage of the third embodiment of the electric field sensor is the difficulty in manufacturing a capacitor from a concentric dielectric metallized with copper on both sides, covering the phase wire of the power transmission line.

A known voltage monitoring device for determining the location of a fault on the ground of an overhead power line according to the patent of the Russian Federation 134666, IPC G01R 31/08, 2013. The invention relates to the maintenance of a branched power transmission line with voltage monitoring devices and can be used to determine the location of a single-phase earth fault in a power transmission line with isolated neutral and short circuit in power lines of any voltage class. The device comprises means for removing primary information about the phase voltage on the power lines, signal processing means, information processing means and information transmission means, information processing means connected to the output of the global positioning satellite signal receiver and the input of the information transmission means. The means for removing primary information about the phase voltage is based on a capacitive voltage transformer, where the high-voltage arm is a disk insulator. One of the terminals of the high-voltage plate insulator is connected to the grounded armature of the high-voltage support of the power line, the other terminal of the insulator is connected to one of the capacitance plates of the low-voltage transformer arm, the other capacitor plate is connected to the phase conductor, and the voltage from the transformers of the low-voltage arm is supplied to the measuring device to ensure functioning an algorithm for determining the distance to the place of damage to power lines.

The disadvantage of this device is the use of a plate insulator as a high-voltage arm of a capacitive transformer, the parameters of which are subject to change under the influence of atmospheric effects, which affects the accuracy of voltage fixation. The use of a plate-shaped insulator also leads to an increase in the dimensions of the device design and an increase in the installation cost due to the need to connect one of the terminals of the plate-shaped insulator with a grounded armature of a high-voltage power line support.

Known adopted as a prototype device for monitoring current and voltage for implementing the method of determining the location of a single-phase earth fault in a branched overhead power line according to the patent of the Russian Federation 2372624, IPC G01R 31/08, 2009. The device is mounted on a phase wire of a power line and contains a supply and measuring current transformers , voltage sensor, power supply, microcontroller, radio modem, satellite receiver global positioning system. The supply current transformer is connected to the power supply, the measuring current transformer is connected to the microcontroller via the resistive load, the voltage sensor, the radio modem and the satellite receiver of the global positioning system are connected to the microcontroller. Power line voltage control is carried out using a voltage sensor, which is an electric antenna.

The disadvantage of the prototype is that the measurement of a compact electric antenna of the power transmission line voltage gives a small level of the output signal, comparable to the level of ether interference, which makes it difficult to measure the signal of both industrial frequency and transient signals.

The objective of the invention is to increase the sensitivity and accuracy, simplify the design, reduce weight, overall dimensions and reduce the cost of production and installation of devices.

The technical result of the utility model is to increase the sensitivity and accuracy, simplify the design, reduce weight, overall dimensions and reduce the cost of production and installation of devices by using a simpler design of the phase voltage sensor, the electrical parameters of which are independent of atmospheric effects located at a distance from the phase wire, characterized by the greatest electric field strength of the phase wire.

The subject of the utility model is a device for monitoring the phase voltage of an overhead power line, consisting of series-connected means for removing primary information about the phase voltage on an overhead power line, signal processing means, information processing means and information transmission means, information processing means is connected to the output of the satellite signal receiver global positioning systems, unlike the prototype, a means for removing primary information about phase voltage An overhead power line is based on a smaller section of insulated wire wound around a phase wire, which together form a low-voltage arm of a capacitive voltage divider, one of the insulated wire leads is connected to the signal input of the signal processing means, the common ground bus of the signal processing means is galvanically connected to the phase wire power lines.

In FIG. a block diagram of a device for monitoring the phase voltage of an overhead power line to determine the location of an accident in power lines is presented.

The inventive device consists of means for removing primary information about the phase voltage on the overhead power line based on an insulated wire of smaller cross section 1 wound on a phase wire, which together form a low voltage arm of a capacitive voltage divider, one of the insulated wire terminals is connected to the signal input of the signal processing means 2 , the common ground bus of the signal processing means is galvanically connected to the phase wire of the power line, the output of the signal processing means is Inonii information to the input means 3, an information processing means for processing connected to the output of the receiver satellite global positioning system signals 4 and input information transmission means 5.

The device operates as follows. In the emergency operation mode of the power line at each of the phases, a voltage signal jumps due to changes in the vector diagram of the phase voltages and the appearance of a traveling voltage wave in each of the phase wires. A signal proportional to the voltage jump is removed from the capacitance formed by an insulated wire of smaller cross section 1 wound on a phase wire, which together form a low-voltage arm of a capacitive voltage divider, and fed to signal processing means 2, which normalizes the signal to a value equal to the input dynamic range of the information processing means 3. The information processing means according to the corresponding algorithm allocates a point in time when a jump starts at the phase voltage taken from the power transmission line voltage, and a logical signal is generated that triggers the fixation of the time stamp from the satellite receiver of the global positioning system 4. The time stamp is transmitted to the control center using the information transfer means 5.

At the control room, the distance to the place of damage to the power line from the i-device is calculated by the expression

,

,

where X is the distance to the place of damage;

Lij is the length of the line segment between the two devices i and j;

c is the speed of light;

T _i - time recorded by i device;

T _j - time recorded by j device.

Enumeration of all possible pairs of devices can reduce the error in determining the location of damage.

Thus, the proposed design of the means for removing primary information about the phase voltage on the overhead power line allows you to increase the sensitivity and accuracy, simplify the design, reduce the weight, overall dimensions and cost of production and installation of devices for monitoring the voltage of the overhead power line.

Claims (1)

A device for monitoring the phase voltage of an overhead power line, consisting of series-connected means for removing primary information about the phase voltage on an overhead power line, signal processing means, information processing means and information transmission means, information processing means is connected to the output of the satellite signal receiver of the global positioning system, characterized in that the means for removing primary information about the phase voltage on the overhead power line h is satisfied based on the phase wire wound insulated wire of smaller cross section, which together form a low voltage leg of the capacitive voltage divider, one of the terminals of the insulated wire is connected to the signal input of the signal processing means, the total tire earthen signal processing means electrically connected with the power line phase conductor.

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