SU1677761A1 - Device for testing of existence of three-phase voltage - Google Patents

Abstract

The invention relates to electrical engineering and can be used to control the presence of voltages of a three-phase network. The purpose of the invention is to expand the functional capabilities of the device by allowing detection of phase imbalance, as well as improving its accuracy of determination. The light-emitting elements 1, 2 and 13 are selected with the same glow color, for example green, and the light-emitting elements 3, 10 and 12 that work with them together on a common light guide are of a different glow color, for example red. In the absence of phase imbalance, light-emitting elements working on a common light guide form yellow light. When phase A disappears, the light emission of elements 1 and 10 ceases, as a result of which the light guide SA changes the yellow light to red and the light guide AB to green. At the same time, the ratio of the currents through the light-emitting elements 12 and 13 does not change, so the light-emitting diode of the sun shines with a normal yellow and light, indicating the presence of phase voltages B and C.T. linear voltage of the sun. When the phase voltages are misaligned, for example, the phase A voltage exceeds the phase voltages B and C, the light emitting elements 1 and 10 are more intense and the color of the light guide SA acquires a yellow-green shade, and the light guide AB is yellow-red, which is easily determined by the operator. 1 hp ff, 1 ill. Yo

Description

The device relates to electrical engineering and can be used to monitor the presence of three-phase network voltages.

The aim of the invention is to expand the functionality of the device by providing the possibility of detecting phase distortion, as well as improving the accuracy of its determination.

The drawing shows a diagram of the device.

The device contains the first 1, second 2 and third 3 light-emitting elements, the first terminals of which are combined, and the second through the first 4, second 5 and third 6 elements of the current limit, respectively, connected to the first 7. second 8 and third 9 phases of the network. The fourth 10 light emitting element is connected to the first output. With the first outputs of the first 1, second 2 and third 3 light emitting elements, and the second output to the first phase 7 of the network via the fourth current limiting element 11, the first 1 and second 2 light emitting elements. glow than the third 3 and fourth 10 elements, and have common lights OJ VJ

vj VI a

water, respectively, with the third 3 and fourth 10 light-emitting elements. To improve the accuracy of phase skew detection, the fifth 12th and sixth 13 light-emitting elements are introduced, the first terminals of which are connected to the first terminals of the first 1, second 2, third 3 and fourth 10 light-emitting elements, and the second ones are connected to the second 8 and the third 9 phases of the network through respectively the fifth 14th and sixth 15 elements of the current limiting, and the fifth 12th and sixth 13th light-emitting elements; elements are made with; the luminescence color coincides with the luminescence color of the third 3 and the first 1 light-emitting elements, respectively, and have a common light guide.

The device works as follows.

The light-emitting elements 1, 2 and 13 are selected with the same glow color, for example green, and the light-emitting elements 3, 10 and 12 that work with them together on a common light guide are of a different glow color, for example red. Therefore, after connecting the device to a controlled three-phase network and passing through all the light-emitting elements of the currents limited by elements 4, 5, 6, 11, 14, 15, the light-emitting elements working on a common light guide produce yellow light at the output of each of the three light guides. This indicates the presence of all phase voltages of the network and the absence of their bias, and, therefore, the presence and symmetry of linear voltages of the network.

When phase A disappears, the luminescence (or significantly reduced) of the light emitting elements 1 and 10 V ceases, as a result of which the light guide CA changes the yellow light to red and the light guide AB to green. At the same time, the ratio of the currents through the light-emitting elements 12 and 13 does not change, therefore, the light-emitting diode Sun shines with a normal yellow color, indicating the presence of phase voltages B and C, i.e. lining tension of the sun.

When the phase voltages are skewed, a change in the color of the glow of the optical fibers is also observed, and the intensity of this change depends on the magnitude of the voltage skew. For example, when the voltage is skewed, when the phase voltage A exceeds the phase voltage B and C, by increasing the current through the light-emitting elements 1 and 10, the color of the light guide SA acquires a yellow-green shade, and the light guide AB is yellow-reddish, which is easily determined by the operator, since human eyes are significantly more sensitive to color shades than to changes in the intensity of a monochrome glow.

For example, gas discharge lamps, indications, incandescent lamps, semiconductor LEDs can be used as light-emitting elements.

As elements of current limiting, simple elements (resistors, capacitors) and components can be used, for example, a resistor and a dzunodnogo zener diode.

In a zero-pass network, the common connection point of the first terminals of the light-emitting elements is connected to the zero wire N of a three-phase serge, which provides an indication of the absence of two phase voltages.

Claims (2)

1. A device for controlling the presence of three-phase voltages containing the first, second and third light-emitting elements, the first terminals of which are combined, and the second, respectively, the first, second and third elements of the current limit are connected respectively to the terminals for connection to the first, second and third phases of the network , characterized in that, in order to extend the functionality, a fourth light-emitting element is introduced into it, the first terminal of which is connected to the first terminals of the first, second and third light-emitting elements, and the second pin is with a terminal for connection to the first phase of the network through the fourth current limiting element, the first and second light-emitting elements are made with a different luminescence color than the third and fourth, and have common optical fibers with the third and fourth light-emitting elements. 2. The device according to claim 1, so that, in order to improve the accuracy of phase imbalance, the fifth and sixth light-emitting elements are additionally introduced into it, the first conclusions of which are connected to the first the terminals of the first, second, third and fourth light-emitting elements, and the second are connected respectively to the terminals for connection to the second and third phases of the network through the fifth and sixth current limiting elements, respectively, and the fifth and sixth light-emitting elements are made with a luminous color respectively emitting first and third light emitting elements, and have a common light guide. .