SU1735959A1 - Device for checking high voltage across current-carrying parts of three-phase electric installation - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in power supply systems of industrial enterprises, cities and agricultural areas. The purpose of the invention is to improve the electrical performance and operational characteristics of the device. The controlled voltage to the device 1 is supplied from the current-carrying elements 2 to the voltage sensors 3. When setting the switch 10 operating modes to the off position, the inputs of the 21th threshold transducers 7 are connected to the earth terminal 6, and the device is turned off. When the switch 10 is installed in the state of operability control, the inputs 21 of the converters 7 are connected to the output 17 of the imaging unit 11, from which a signal is received that exceeds the response threshold of the converters. The outputs of the 8 transducers periodically appear signals log. 1, arriving at the inputs 20 of the coincidence elements 12, to the inputs 19 of which a periodic sequence of three-digit codes arrives from the generator 11 with mutually exclusive same bit values. From the outputs of the coincidence element 12, the signals are fed to the inputs of the display units 9, which periodically alternately operate. The simultaneous operation of all three display units indicates a malfunction of the device. When the switch 10 is set to the phase voltage control position, the inputs 21 of the transducers 7 are connected to the outputs of 13 sensors of the 3 voltages. Blocks 9 display periodically alternate. In the absence of phase voltage, the corresponding display unit retains its original state. 4 sludge. (L VI CJ ate you ate

Description

The invention relates to electrical engineering and is intended for use in power supply systems of industrial enterprises, cities and agricultural areas.

The purpose of the invention is to improve the electrical performance and operational characteristics of the device.

FIG. 1 shows a diagram of the device; in fig. 2 shows a threshold converter; in fig. 3 is a diagram of a generator of a periodic sequence of three-digit codes with mutually exclusive homogeneous bit values; in fig. 4 - diagram of the display unit.

A device 1 for monitoring high voltage on current-carrying elements 2 of a three-phase electrical installation contains three capacitive voltage sensors 3 with terminals 4 and 5 for connecting each sensor between the respective monitored current-carrying element 2 and the common electrical installation ground terminal 6, three threshold voltage transformers 7 constant with logic outputs 8 and three display units 9. The device has a switch of 10 modes of operation, a shaper 11 of a periodic sequence of three-digit codes with mutually exclusive bit values of the same name, and three two-input matching elements 12. The outputs 13 of the voltage sensors are connected to the corresponding first inputs 14 of the switch, the second combined inputs 15 of which are connected to the common ground terminal 6, the third combined inputs 16 of the switch 10 are connected to the first output 17 of the driver 11, the second outputs 18 of which are connected to the corresponding first inputs 19 of the elements 12 matches, the second inputs 20 of which are connected to the corresponding outputs of 8 threshold converters 7, the inputs 21 of which are connected to the outputs 22 of the switch 10, the outputs of the 23 matching elements are connected with inputs of 24 corresponding display units 9.

The threshold converter 7 can be made on the Zener diode 25, resistors 26-31, capacitors 32, 33, diode 34 and operational amplifier 35, driver 11 - on voltage transformer 36, diode 37, resistors 38-41, elements OR 42-46, deciphering meters 47, 48 with decoders, display unit 9 on transistor 49, resistors 50, 51, LED 52, switch 10 can be made in the form of a switch to three positions and three directions, and element 12 matches .

The device works as follows.

The voltage from the current-carrying elements 2 enters the sensors 3 through pins 4, 5. When the switch 10 is set to off, the inputs 15 of the switch are connected to its outputs 22, and the inputs 21 of the converters 7 are connected to the earth terminal 6, while the device is turned off.

When installing the switch 10 in the position of the health control, the inputs 16 of the switch are connected to the outputs 22, and the inputs 21 of the converters 7 are connected to

the output 17 of the imager 11, from which a sinusoidal signal is fed to the inputs 21, exceeding the trigger threshold of the converters 7, on the outputs 8 of which with a given time delay appear

0 signals logical 1, arriving at the inputs of the 20 elements 12 matches. The former 11 supplies from its second outputs 18 to the inputs 19 of the elements 12, a coincidence sequence of single pulses,

5 moreover, the presence of logical 1 at one of the outputs 18 excludes its appearance at any other output. A pulse duration of 0.4 s ensures a good perception of periodic alternate flashing.

0 of the display units 9, to the inputs 24 of which signals from the outputs 23 of the matching elements 12 are received. Periodic flashing of all three indication blocks 9 simultaneously allows to count the device

5 faulty.

When the switch 10 is set to the phase voltage monitoring position, the inputs 14 of the switch are connected to the outputs 22, and the inputs 21 of the transducers 7 are connected to the outputs of the 13 voltage sensors 3, from which sinusoidal signals are fed to the inputs 21 proportional to the phase voltage of the monitored electrical installation. The corresponding display unit 9 flashes when the phase voltage of the monitored phase exceeds a predetermined value in order of priority determined by the driver 11. In the absence of voltage on one, two or all current-carrying elements 2 of the electrical installation, the corresponding display units 9 remain in their original state .

Claims (1)

Invention Formula 5 A device for monitoring high voltage on current-carrying elements of a three-phase electrical installation, containing three capacitive voltage sensors with leads for connecting each sensor between 0 with the corresponding controlled current-carrying element and the common terminal of the electrical installation, three threshold converters of alternating voltage into a constant with logic outputs and three blocks 5 indications, characterized in that, in order to improve the electric power indices and operating characteristics of the device, an additional mode switch, a periodic sequence generator of three-digit codes with mutually exclusive bit values of the same name and three two-input coincidence elements are introduced, and the outputs of the sensors connected to the corresponding first inputs of the switch, the second combined inputs of which are connected to the terminal for connecting ground terminal electrical installation, the third combined inputs of the switch 0 connected to the first output of the imager, the second outputs of which are connected to the corresponding first inputs of the matching elements, the second inputs of which are connected to the corresponding outputs of the threshold converters, the inputs of which are connected to the outputs of the switch, the outputs of the matching elements connected to the inputs of the corresponding α-display units. H b Phie.1 FIG. one 24 50 -fe 52 P / 9 Fig t