RU32924U1 - Current Phase Comparison Body - Google Patents

Abstract

A current phase comparator comprising an input and common terminal, as well as a first rectifier unit, a first capacitor connected between the first and second output terminals of the first rectifier unit, and a winding of the first output relay connected in parallel with the first capacitor, characterized in that the second rectifier unit is introduced , a second capacitor connected between the first and second output terminals of the second rectifier unit, as well as a winding of the second output relay connected in parallel with the second capacitor, the first transfer a transformer, the first and second terminals of the output winding of which are connected respectively to the first and second input terminals of the first rectifier unit, the second transformer, the first and second terminals of the output winding of which are connected respectively to the first and second input terminals of the second rectifier block, making and the first and second disconnecting contacts the first control relay, as well as the opening and closing contacts of the second control relay and the connecting element, while the input terminal of the current phase comparison organ dinene with the first terminals of the NO contact of the second control relay, the first and second NC contacts of the first control relay and the NO contact of the first control relay, the second terminal of which is connected to the first terminal of the NO contact of the second control relay, the second terminal of which is connected to the first terminal of the input winding of the second transformer, the second terminal of which is connected to the common terminal of the current phase comparison organ and to the second terminal of the input winding of the first transformer, the first terminal of which

Description

Current Phase Comparison Body

The utility model relates to electrical engineering and can be used in protective panels that provide differential-phase high-frequency protection of power lines with voltage of 110-220 and 330-500 kV, as an organocomparison of phase currents generated

transceivers installed at the ends of the lines

A device for converting currents and voltages used in relay protection devices 1.

The disadvantage of this device is the relatively narrow functionality, since it converts currents and voltages, but does not generate a control signal in emergency situations.

Closest to the proposed device is a rectifier unit, the first and second input terminals of which are the first and second input terminals of the device, a capacitor connected between the first and second output terminals of the rectifier unit, and a relay coil connected in parallel with the capacitor 2.

The disadvantage of the closest technical solution is the relatively narrow functionality, due to the fact that, when used, it allows you to convert the alternating voltage into a smoothed constant of the same magnitude, but does not allow you to generate a control signal in emergency situations.

 Fri III I -82 1

IPC H 01 H 47/18

The required technical result is to expand the functionality.

The required technical result is achieved by the fact that, in the device containing the input and common terminals of the current phase comparison organ, as well as the first rectifier unit, a nerve capacitor connected between the first and second output terminals of the first rectifier unit, as well as the winding of the first output relay connected in parallel the first capacitor, introduced the second rectifier unit, the second capacitor connected between the first and second output terminals of the second rectifier unit, as well as the winding of the second output relay, including parallel to the second capacitor, the first transformer, the first and second terminals of the output winding of which are connected, respectively, with the first and second input terminals of the first rectifier unit, the second transformer, the first and second terminals of the output winding of which are connected, respectively, with the first and second input terminals of the second rectifier unit, the closing and the first and second opening contacts of the first control relay, as well as the opening and closing contacts of the second control relay and connecting element wherein, the input terminal of the current phase comparison organ is connected to the first terminals of the NO contact of the second control relay, the first and second NC contacts of the first control relay and the NO contact of the first control relay, the second terminal of which is connected to the first terminal of the NO contact of the second control relay, the second terminal which is connected to the first terminal of the input winding of the second transformer, the second terminal of which is connected to the common terminal of the phase comparison organ

currents and with the second terminal of the input winding of the first transformer, the first terminal of which is connected to the second terminal of the NO contact of the second control relay and to the first terminal of the connecting element, the second terminal of which is connected to the second terminals of the first and second NC contacts of the first control relay.

The drawing shows an electrical schematic diagram of a body comparing the phases of currents.

The current phase comparing body comprises a first transformer 1, a first rectifier unit 2, a first capacitor 3 connected between the first and second output terminals of the first rectifier unit 2, and a winding 4 of the first output relay connected in parallel with the first capacitor 3, while the first 1- 2-1 and the second 1-2-2 terminals of the output winding of the first transformer 1 are connected, respectively, with the first and second input terminals of the first rectifier unit 2.

The current phase comparing body also contains a second transformer 5, a second rectifier unit 6, a second capacitor 7 connected between the first and second output terminals of the second rectifier unit 6, and also a winding 8 of the second output relay connected in parallel with the second capacitor 7, while the first 5 -2-1 and the second 5-2-2 terminals of the output winding of the second transformer 5 are connected, respectively, with the first and second input terminals of the second rectifier unit 6.

In addition, the current phase comparison body comprises a closing 9-1 and a first 9-2-1 and a second 9-2-2 opening contacts of the first control relay, as well as opening 10-1 and closing 10-2 contacts of the second control relay, and connective

Element 11 and input 12 and total 13 terminals of the current phase comparison organ.

The current phase comparison body is characterized by the following connections between the elements: the input terminal 12 of the current phase comparison body is connected to the first terminals of the make contact 10-2 of the second etching relay, the first 9-2-1 and second 9-2-2 of the open contacts of the first control relay and the make contact 9-1 of the first control relay, the second terminal of which is connected to the first terminal 10-1 of the NC contact of the second control relay, the second terminal of which is connected to the first terminal 5-1-1 of the input winding 5-1 of the second transformer 5, the second 5-1-2 of which is connected to a common terminal 13 of the current phase comparison organ and to a second terminal 1-1-2 of the input winding 1-1 of the first transformer 1, the first terminal of which 1-11 is connected to the second terminal of the make contact 102 of the second control relay and the first terminal of the connecting element 11, the second terminal of which is connected to the second terminals of the first 9-2-1 and second 9-2-2 NC contacts of the first engaging relay.

The body compares the phases of the currents as follows.

The current phase comparison organ osz makes a comparison of the phases of currents flowing along the ends of the protected power transmission line, and consists of the main and auxiliary organs. The main body contains a winding 4 of the first output relay, the contact of which is in the output protection circuit, the first rectifier unit 2, the first transformer 1 and the first capacitor 3 (performing the smoothing function) with the corresponding connections. The auxiliary body contains a winding 8 of the second output relay, the contact of which is in the output circuit

protection, the second rectifier unit 6, the second transformer 5 and the second capacitor 7 (performing smoothing) with the corresponding connections.

The body for comparing the phases of the currents is connected through the input 12 and common 13 terminals to a high-frequency receiver, in which an indirect method compares the phases of the currents by summing the high-frequency signals of the transmitters installed at the ends of the protected power line.

In the normal mode, an auxiliary element is connected to the receiver and the anode current of the output lamp (collector current of the transistor) of the receiver continuously flows through the input winding 5-1 of the second transformer 5, usually equal to about 20 mA, which decreases to zero when high-frequency signals are received at the input of the receiver. The presence of a subsidiary body provides the ability to call duty personnel during a daily health check of the high-frequency channel. The call .1 is started by the transmitter at the other end of the power line.

In the event of a short circuit on the power line, it is realized by switching the output of the receiver from the auxiliary to the main make-up 9-1 and first 92-1 and second 9-2-2 make contacts of the first control relay, or make 10-1 and make 10-2 of the second control relay. When using the second control relay, the connection to the receiver is accelerated by 5-10 ms. If acceleration can be abandoned, then the connecting element 11 is removed.

For external short circuits, the current at the input of the current phase comparing organ is zero, and for damage in the protected zone it has the form of rectangular pulses, the duration of which depends on the phase shift between the resulting currents at the ends of the power line.

Thus, thanks to the introduction of new elements and relationships, the functionality is significantly expanded.

devices, because it allows you to generate a control signal in emergency situations by providing a comparison of the phases of the currents at the ends of power lines.

Sources taken into account:

1 Chernobrovov N.V., Semenov V.A. Relay protection

energy systems. - M .: Energoatomizdat, 1998, p. 79, fig. 2.39

2 Chernobrovov N.V., Semenov V.A. Relay protection

energy systems. - M .: Energoatomizdat, 1998, p. 84, fig.

2.41.6.

Authors: “V Varganov G.P.

 Rosenblum R.Z. Klimov A.A.

Claims (1)

A current phase comparator comprising an input and common terminal, as well as a first rectifier unit, a first capacitor connected between the first and second output terminals of the first rectifier unit, and a winding of the first output relay connected in parallel with the first capacitor, characterized in that the second rectifier unit is introduced , a second capacitor connected between the first and second output terminals of the second rectifier unit, as well as a winding of the second output relay connected in parallel with the second capacitor, the first transfer a transformer, the first and second terminals of the output winding of which are connected respectively to the first and second input terminals of the first rectifier unit, the second transformer, the first and second terminals of the output winding of which are connected respectively to the first and second input terminals of the second rectifier block, making and the first and second disconnecting contacts the first control relay, as well as the opening and closing contacts of the second control relay and the connecting element, while the input terminal of the current phase comparison organ dinene with the first terminals of the NO contact of the second control relay, the first and second NC contacts of the first control relay and the NO contact of the first control relay, the second terminal of which is connected to the first terminal of the NO contact of the second control relay, the second terminal of which is connected to the first terminal of the input winding of the second transformer, the second terminal of which is connected to the common terminal of the current phase comparison organ and to the second terminal of the input winding of the first transformer, the first terminal of which a terminal connected to the second switching contact of the second control switch and the first terminal connecting member, the second terminal of which is connected to the second terminals of the first and second normally closed first control relay contacts.