RU1797074C - Device for testing high voltage across current-conducting elements of three-phase electric installation - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in power supply systems. The purpose of the invention is to increase the electrical safety of staff. In the absence of voltage at all three phases of the controlled electrical installation 2, there are no signals from the outputs of 8 converters 7, which causes a signal to appear at the output 27 of the OR-NOT 25 element and at the first input of the And 29 element, at the second input of which there will be a signal at intervals when the signals at all three outputs of the driver 11 are absent. The indicated periodic signal is generated by the NAND 32 element. The display unit 36 will provide an intermittent display, which will allow the service personnel to correctly determine the disconnected f / electrical installation. 2 silt

Description

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

The aim of the invention is to increase electrical safety by fixing the complete absence of voltage on the electrical installation.

In FIG. 1 is a functional diagram of the invention; in FIG. 2 - time diagrams of voltages at the outputs of individual units of the device.

The device 1 for monitoring the high voltage on the current-carrying elements 2 of the three-phase electrical installation contains three capacitive voltage sensors 3 with terminals 4 and 5 for connecting each sensor between the corresponding monitored current-carrying element 2 and the common terminal 6 of the Earth of the electrical installation, three threshold AC voltage converters 7 in constant with logic outputs 8 and three indication blocks 9. The device has a switch 10 of operating modes, a shaper 11 of a periodic sequence of three-phase codes with mutually exclusive bits 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 terminal 6 of the Earth, the third combined inputs 16 of the switches 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 of 19 elements 12 matches, the second inputs 20 of which are connected to the corresponding outputs 8. of threshold converters 7, the inputs 21 of which are connected to the outputs 22 of the switch 10, the outputs 23 of the matching elements 12 enes with the inputs 24 of respective blocks 9 display. In addition, in the device 1 there is a three-gate logic element OR-NOT 25, the inputs 26 of which are connected to the corresponding outputs 8 of the threshold converters 7, and the output 27 is connected to the first input 28 of the fourth coincidence element 29, to the second input 30 of which the output 31 of the three-input logic AND-NOT 32 element, the inputs of which 33 are connected to the corresponding second outputs 18 of the driver 11, the output 34 of the fourth matching element 29 is connected to the input 35 of the fourth display unit 36.

Device 1 operates as follows

The voltage from current-carrying elements 2 enters the sensors 3 through pins 4 and 5. When the switch 10 is set to the OFF position, the inputs of the 15 switch

connected to its outputs 22, and the inputs 21 of the transducers 7 are connected to the terminal 6 Earth. The device is turned off.

When the switch 10 is set to the Health monitoring position, the inputs 16 of the switch are connected to the outputs 22, and the inputs 21 of the transducers 7 are connected to the output 17 of the transformer 11, from which the inputs 21 receive a sinusoidal signal exceeding the threshold of operation of the transformers 7, at the outputs of 8 of which with a given the delay is the appearance of logical 1 signals, which are input to the inputs 20 of matching elements 12. Shaper 11 delivers from its second outputs

0 18 to the inputs 19 of the elements 12 matches the sequence of single pulses, and the presence of a logical 1 on one of the outputs 18 excludes its occurrence on any other output. Pulse duration

5 0.4 s provides a good perception of the periodic alternating illumination of the display units 9, the inputs 24 of which receive signals from the outputs 23 of the matching elements 12. Periodic flashing of simultaneously all three blocks 9 of the indication allows us to consider the device as serviceable.

When the switch 10 is set to the Phase voltage monitoring position, inputs 14 of the switch are connected to the outputs 22, and the inputs 21 of the transducers 7 are connected to the outputs 13 of the voltage sensors 3, from which the inputs 21 receive sinusoidal signals proportional to the phase voltages of the controlled electrical installation . .The highlighting of the corresponding display unit 9 occurs when the phase voltage of the monitored phase exceeds the set 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 retain the initial state nie.

In addition, in the absence of voltage at all three phases of the controlled electrical installation 2, there are no signals from the outputs 8 of the converters 7, which predetermines

5 the appearance of a signal at the output 27 of the three-input logic element OR-NOT 25, which is supplied to the first input 28 of the fourth element of coincidence 29, the signals at the output 34 of which appear in a defined three-input logic

the AND-NOT element 32 intervals depending on the state of its inputs 33 connected to the outputs 18 of the shaper 11. The signals coming from the output 34 to the input 35 of the fourth display unit 36 provide intermittent indication of the absence of voltage on all three phases of the controlled electrical installation, which allows maintenance personnel to correctly select the disconnected electrical installation when the fourth display unit 36 is located, for example, on the rear wall of the complete switchgear.

The operation of the circuit of the device for monitoring high voltage on the current-carrying elements of a three-phase installation is illustrated by a time diagram of the voltage levels at the outputs of individual units,

The time chart (Fig. 2) shows two main modes: The presence of a controlled voltage, The absence of a controlled voltage.

The first mode is characterized by the appearance of signal 1 at the output of any of the three threshold organs 7 (time interval r0). In the second mode, the signals at the output of blocks 7 are equal to O (time interval yy).

The appearance of single pulses at the output of coincidence blocks 12 occurs only in the interval m0 due to the effect of pulses from the shaper 11 on the inputs 19 and single signals from blocks 7 to the inputs 20. Thus, a short-term activation is achieved

blocks 9 signals from the outputs of 23 elements 12.

During the entire presence of voltage at the output of at least one threshold organ 7, the inclusion of the indicating unit 36 is excluded. The indicated logical condition is satisfied by the AND-NOR 25 element, the output of which is set to O if there is 1 at least one of the inputs and the coincidence element 29 .

In the absence of a monitored voltage mode, the outputs of blocks 7 are set to logical O and sets the output of block 25 to state 1. The last condition allows the indication block 36 to be switched on via element 29 when a signal appears at the second input of the latter. This periodic signal is generated by an AND-NOT 32 element, the inputs of which are connected to the outputs 18 of block 11.

Based on the operating conditions of the driver 11, there is a time interval n marked on the time diagram when there are no signals at all three outputs. It is at this time interval that 1 appears on the output of the AND-NOT 32 element, which provides together with the signal from OR-NOT 25 through the element 29, the inclusion of the display unit 36. Thus, the block 36 is turned on for a time determined by the interval n only in the absence of voltage at the outputs of all threshold converters 7, and therefore, in the complete absence of a controlled voltage .

Claims (1)

SUMMARY OF THE INVENTION A device for monitoring high voltage on current-carrying elements of a three-phase electrical installation St. No. 1735959, characterized in that, in order to increase the electrical safety of the staff, an additional three-input logic element OR-NOT is additionally introduced into it. the inputs of which are connected to the corresponding outputs of the threshold converters, the output of the logical element ILINE is connected to the first input of the newly entered fourth coincidence element, the second input of which is connected to the output of the newly introduced three-input logic element AND NOT, the inputs of which are connected to the second outputs of the shaper of the three-phase periodic sequence codes with mutually exclusive same-valued bits, and the output of said fourth match element is connected to the input of the entered fourth display unit. u A v S h  / # to. N "VJ w i I /; h V / N CS 2 CN  o N O  -y