SU920575A1 - Device for locating electric cable damages by increased destruction of damaged location - Google Patents

Description

The invention relates to electrical engineering and can be used to create devices for determining the location of damage on high-voltage power lines by obtaining a low transition resistance at the location of damage, which is necessary for the use of measuring devices operating on the principle of reflected pulses, as well as the use of sound · frequency methods for the subsequent accurate determination of the location of damage to the cable insulation.

A device is known for breaking insulation of a damaged cable, comprising a current sensor, a power unit made on thyristors, a burning transformer, a rectifier, a control unit and a restriction unit [fj.

The disadvantages of this device are the need for multiple measurements of the transient resistance at the fault location, which significantly increases the time to search for the location of the cable insulation damage, as well as the ability to supply voltage to the burning transformer in a jump, i.e. not from zero, with the disappearance of voltage and its subsequent restoration, which leads to inrush currents through the power unit, a burning transformer and rectifier, which reduce the reliability of the device, and can also lead to the junction of the core and sheath of the damaged cable.

The aim of the invention is to increase the speed of determining the location of damage and reliability. This is achieved by the fact that the device for determining the location of damage to electric cables by increasing the damage on the damage site, containing a burning transformer, the input of which is connected through a series-connected current sensor and a power unit with terminals for connecting an AC voltage source, the output of the current sensor is connected through a limiting unit a control unit, yield 'irritant transformer rectifier coupled to an input ₅ of Tell, administered start block of the second current sensor, voltage sensor relay: resistance, and the input of the start-up unit is connected to the output of the control unit, and the output of the start-up unit is connected to with the corresponding input of the power unit, the first output of the rectifier is connected to the first input of the voltage sensor and to the terminal for connecting the control object, the second output of the rectifier-15 meter is connected a first terminal of a current sensor, a second terminal coupled to a second input of the voltage sensor and to earth ground, current sensors and voltage outputs compounds ₂ 0 us with relevant inputs resistance relay, the output of which is connected with the corresponding input of the control unit.

The drawing shows a structural 25 diagram of the device.

The device comprises a current sensor 1, a power unit 2, a burning transformer 3, a rectifier 4, current and voltage sensors 5, a descent unit 30 7, a control unit 8, a resistance relay 9 and a restriction unit 10.

The device operates as follows.

During the process of burning ₃₅ ha of cable insulation, the control unit 8 sets the required burning current. The restriction unit 10 through the feedback circuit formed by the current sensor 1, acts on the control unit ₄₀ , maintaining the burning current at a given level. 0 the process of burning the cable insulation changes the resistance at the point of damage. When the value of the insulation resistance is reached, determined by the setting of the resistance relay 9 and the output signals of the current sensor 5 and voltage 6, the relay 9 is activated and prohibits the operation of the control unit 8.

If during the burning process the mains voltage disappears due to the protection being triggered or the power cable is broken, when it is restored, the start-up block permits the rise. voltage on the burning transformer ⁵⁵ from only zero value.

Thus, the automatic termination of the operation of burning cable insulation upon reaching a predetermined level of insulation resistance, i.e. the refusal to repeatedly measure the magnitude of this resistance allows you to reduce the total time to search for the place of damage, and the possibility of raising the voltage on the burning transformer only from zero allows you to increase the reliability of the device and eliminate the possibility of soldering the cores and cable sheaths.

Claims (1)

39 connecting the alternating voltage source, the output of the current sensors is connected through the limiting unit to the control unit, the output of the burning transformer is connected to the rectifier input, the start-up unit, the second current sensor, the voltage sensor and the relay: resistance are input, and the start-up input is connected with the output of the control unit, and the output of the start-up unit is connected to the corresponding input of the power unit, the first output of the rectifier is connected to the first input of the voltage sensor and to the terminal for connecting the test object, the second output of the rectifier connected to the riepB iM terminal of the current sensor, the second terminal of which is connected to the second input of the voltage sensor and to the ground bus, the outputs of the current and voltage sensors are connected to the corresponding inputs of the resistance relay, the output of which is connected to the corresponding input of the control unit. The drawing shows a block diagram of the device. The device contains a current sensor 1, a power unit 2, a burning transformer 3) a rectifier 4, current sensors 5 and voltage 6, a release unit 7, a control unit 8, a resistance relay 9 and a limiting unit 10. The device operates as follows. In the case of the implementation of the cable insulation process, the control unit 8 sets the required burning current by the control unit 8. The limiting unit 10 through the feedback circuit formed by the current sensor 1 acts on the control unit 8, maintaining the burning current at a predetermined level. 6, the process of burning the cable insulation changes the resistance at the site of the damage. When the insulation resistance value is reached, determined by the setting of the resistance relay 9 and the output signals of the current sensor 5 and voltage 6, the relay 9 is activated and prohibits the operation of the control unit 8. If during the burning process the network voltage disappears, caused by the operation of the protection or interruption the power cable, when it is restored, the start-up unit only allows the voltage to rise on the burning transformer to start from zero. 5 Thus, the automatic termination of the cable insulation burning operation when the specified insulation resistance level is reached, i.e. failure to repeatedly measure the magnitude of this resistance reduces the total time to search for a place of damage, and the possibility of raising the voltage on the burning transformer only from zero: it improves the reliability of the device and eliminates the possibility of the spades and cable sheaths. Apparatus of the Invention A device for determining the location of electrical cable damage by increasing damage to a damaged area containing a transformer that burns and whose input is connected through a serially connected current sensor and power unit to the terminals for connecting an alternating voltage source, the output of the current sensor is connected to the unit through a limiting unit control, the output of the burning transformer is connected to the inlet. In order to improve the speed of determining the location of damage and reliability of the device, a start block, a second current sensor, a voltage sensor and a resistance relay are inserted, the starting block input is connected to the output of the control unit, and the output of the starting block is connected to the corresponding input of the power unit, the first output of the rectifier is connected to the first input of the voltage sensor and to the terminal for connecting the test object, the second output of the rectifier is connected to the first output of the current sensor, the second output of which is connected to The second input of the voltage sensor and the ground bus, the outputs of the current and voltage sensors are connected to the corresponding inputs of the resistance relay, the output of which is connected to the corresponding input of the control unit. - Sources of information taken into account in the examination 1. A device for burning the locations of the cable VT. The pathologist of the company Seba Dinatronic, Germany, 1975.