SU1698795A1 - High-voltage checker - Google Patents

Abstract

The invention relates to electrical measuring equipment and can be used for contactless control of the presence of phase voltages on gas-insulated equipment. The goal of improving the reliability of monitoring the presence of high voltage is achieved by introducing into the device a voltage control unit of the power source 6, the light signaling unit 7, the control signal generator 15, the operating mode switch 16, the capacitive sensor simulator 17, the plug connection 18, and light alarm 7 is made in the form of a series-connected threshold device 9, standby multivibrator 10 and light signal element 11. In addition, the device contains a capacitive sensor 1, detachable connection 2, power supply 3, amplifier-detector 4 and dial gauge 2 z p f-ly, 1 Il.

Description

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The invention relates to electrical measuring technique, is a voltage monitoring means for grounding the current-leading parts in switchgears with a voltage of 110, 220,330,500 kV of industrial frequency with gas-insulated insulation and is intended for non-contact monitoring of the presence (absence) of phase voltage.

The purpose of the invention is to increase the reliability of monitoring the presence of high voltage.

The drawing shows a block diagram of the device.

A voltage monitoring device on gas-insulated equipment contains a capacitive voltage sensor 1, a detachable connection 2, a power source 3, an amplifier-detector 4, a dial indicator 5, the output of a capacitive sensor connected via a detachable connection to the amplifier input of the detector 4, the output of the amplifier-detector 4 is connected with the input of the dial indicator 5, power supply voltage control unit 6, light signaling unit 7, the first output of power supply source 3 connected to the first input of power supply voltage control unit 6 The second output of the power supply source 3 is connected via a detachable connection 2 to the first output of a jumper 8 of a capacitive voltage sensor 1, the second output of a jumper 8 of a capacitive voltage sensor 1 is connected via a detachable connection to a second input of a voltage supply control unit 6, the third input of a power supply unit 6 the voltage control of the power supply is connected to the output of the amplifier-detector 4 and the input of the light-signaling unit 7 and to the input of the dial indicator 5 vibrator 10 and light

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signal element 11, the output of the threshold element 9 is connected to the input of the standby multivibrator 10, the output of the standby multivibrator 10 is connected to the input of the light signal element 11. The capacitive voltage sensor 1 is made in the form of a plate 12, the control 13 and the separating 14 resistors, and the first output of the control the resistor 13 is connected to the first terminal of the resistor 14 and to the plate 12, and through a detachable connection 2 to the input of the amplifier-detector 4, the second terminal of the dividing resistor 14 is connected to the common bus of the device. The device also increases the pilot signal generator 15 and the operating mode switch 16, the output of the pilot signal generator 15 is connected via the operating mode switch 16 and through a detachable connection 2 to the second output of the control resistor 13, the voltage sensor simulator 17, made in the form of a connector 18 imitating resistor 19 and jumper 20, and the conclusions of the simulating resistor 19 and jumper 20 are connected to the corresponding output of the connector 18.

The voltage control device on gas-insulated equipment operates as follows.

In the initial state, the device is turned off and does not consume electricity. When the cable connector is connected to the capacitive voltage sensor connector, the power circuit closes through the plug connection and jumper 8. The device turns on and initially monitors its operation, monitors the voltage sensor signal circuits, monitors the voltage of the power supply, Signals in the form the meander from the output of the generator 15 of the control signal through the open contacts of the switch 16 of the operating mode is fed through the plug connection 2 to the resistive divider l strains 13, 14.

From the plate 12 of the capacitive voltage sensor 1, a control signal with an amplitude proportional to the division factor of the resistive divider is fed through a plug connection to the input of the amplifier-detector 4.

The amplified and detected signal is fed to the dial indicator 5 and the input of the light signaling unit 7 consisting of the threshold element 9, the waiting multivibrator 10 and the signal light element 11. In the Monitoring mode, when the device is healthy, the indicator indicator 5 is set to the Control sector and

An intermittent light signal (green) is applied. To simplify the work of the operator and increase the reliability of the device, an automatic control unit 6 is used.

power source voltage.

When the voltage decreases on the galvanic cells below a certain level, the power supply voltage control unit 6 is activated and shunts

0 dial gauge 5. Functioning is not performed,

The operation mode switch 16 is a switching product that interrupts the passage of

5 control signal in the Measurement mode to the input of the amplifier-detector 4,

The control of the presence of high voltage is made by pressing the button of the switching device, while the signal

0 of the industrial frequency allocated to the plate 12 of the capacitive voltage sensor is fed through a plug-in connection to the input of the amplifier-detector 4. The indicator arrow 5 deflects in proportion to

5 high voltage on the busbar 20. When the input signal reaches a certain value, the light alarm unit 7 is activated, which increases the operator's attention due to an external light stimulus (additional indication to the dial indicator 9).

The light signal element is made on two light elements of different colors of luminescence, each of which is switched on depending on the device operation mode. In the Control mode, the luminous element of the green color of the luminescence is connected, in the Measurement mode - the element of the red color of the luminescence.

Claims (3)

0 claims 1, Voltage monitoring device on gas-insulated equipment, containing capacitive voltage sensor, plug connection, power supply, amplifier5 detector, dial indicator, output of capacitive sensor connected via plug connection to amplifier input of the detector, output of amplifier amplifier connected to the input of dial indicator , distinguished by the fact that, in order to increase the reliability of monitoring the presence of high voltage, a power supply voltage monitoring unit, a light signaling unit, the first The output of the power supply source 5 is connected to the first input of the voltage supply control unit, the second power supply output is connected via a detachable connection to the first output jumper of the capacitive voltage sensor, the second output jumper of the capacitive voltage sensor is connected via a detachable connection to the second input of the control voltage block power supply, the third input of the power supply voltage monitoring unit is connected to the output of the amplifier detector and the input of the light signaling unit and to the input of the switch The light signaling unit is made in the form of a threshold element waiting for the multivibrator and a light signal element, the output of the threshold element is connected to the input of the waiting multivibrator, the output of the waiting multivibrator is connected to the input of the light signal element, the capacitive voltage sensor is made in the form of a control plate and resistor, the first output of the control resistor is connected to the first output of the resistor and connected to the This is connected to the input of the amplifier-detector through a detachable connection, the second terminal of the separating resistor is connected to the common bus of the device. 2. Pop 1 device, characterized in that a pilot signal generator and an operation mode switch are inputted to it, the control signal generator output is connected via an operation mode switch and via a detachable connection to the second terminal of a control resistor. 3. The device according to claim 1, characterized in that a voltage sensor simulator is inserted into it, made in the form of a connector, imitating a resistor, a jumper, and the terminals of the simulating resistor and jumper are connected to the corresponding connector terminal.