SU721876A1 - Arrangement for protecting power transmission line from branching current from operating line network into non-operating one - Google Patents

Description

The invention relates to the field of relay protection and automation of DC power transmission.

Known protection, reacting to an increase in current in the protected circuit £ 1].

Closest to the invention in technical essence is the device described in G2].

This protection has a starting element and an intermediate relay, which, when a current transmission appears in an idle circuit, turns on the midpoint switch and turns off the separators of two preselected shunt devices (ША).

However, this technical solution does not provide reliable operation of the protection of the idle circuit from branching into it current from the working one.

This is explained by the fact that a direct current that branches off into an inoperative semi-circuit is torn by a separator ΪΠΑ. without turning on the arcing chamber. Such an operation leads to prolonged burning of the DC train and / to delaying the transition of the current from the inoperative circuit to the ground loop of the midpoint of the transmission through the midpoint switch connected by this protection (V.C.T.). When the current transition is delayed, both transmission circuits of the corresponding machine are disconnected. ”- Coy. As a result, a serviceable one is lost, i.e. all transmission.

Another disadvantage of the known protection is that it provides for the shutdown of two pre-selected ShA. In the event of a malfunction or repair of precisely these IGAs, the protection will fail to operate, which will also lead to a disconnection of the working circuit.

The aim of this invention is to increase the reliability of the protection.

This goal is achieved by the fact that in the known device for protecting a DC power line from a current branch to an idle transmission circuit from an operating circuit containing a starting element, a first and second intermediate relay, a midpoint switch, a midpoint switch control coil and a closing unit —Contact of the circuit breaker, midpoint, separators of two shunting apparatuses with control coils of these separators and the opening block contact of the grid control contactor, and the closing contact is the start of the second organ is connected in series with the coil of the aforementioned first intermediate relay, and in parallel with the coil through the opening block contact of the grid control contactor, the coil of the said second intermediate relay is connected, the make contact of which is connected in series with the control coil of the mentioned midpoint switch, two additional shunting devices with coils are introduced control of these separators, arcing chambers of the four mentioned shunt devices from their coils control switches and a multi-limit time relay, and a delayed-delay relay is used as the second intermediate relay, while the multi-limit time relay coil is connected in parallel with the control coil of the mentioned mid-point switch through the closing contact block of this switch, each of the four contacts of the multi-limit time relay is connected to the corresponding the control coil of the arcing chamber of one of the four shunting apparatuses, and parallel to this control coil of the arcing chamber ry each of the four shunt devices through the break contact of said intermediate relay connected pore separator control coil corresponding bypass unit.

The device diagram is shown in the drawing.

In this scheme: 1 - relay for switching on separators ША; 2 - mid-point switch on relay; 3 - multi-limit time relay for switching on the extinguishing chambers (optional); 4 - contacts of the starting element, 5 - block contact of the contactor of the grid control circuit; 6 - contact block of the midpoint switch, '7 - relay contact 2J 8 - contacts re72 1.876 4 le 3, * 9 - relay contacts 1J .1.0 - control circuit of the midpoint switch; 11 - control circuit of the SHA * arc-extinguishing chambers, 12 - control circuit of the SHA knives5.

The device operates as follows. When one double-circuit transmission circuit is taken out of operation, the grid control contactor of this circuit ¹⁰ closes and closes its opening block contact 5. If a current appears in the disconnected transmission circuit, it activates the trigger, closes its contact 4 and supplies power to relay '5 1 and 2 that fire. The contacts 9 of the relay 1 are opened, which means that disconnecting the SHA separators before the interrupter chambers occurs. The contact 7 of the relay 2 turns on the switch 20 of the midpoint and prepares the response circuit of the relay 3, which is activated after the closure of the contact 6 of the midpoint switch. Relay 3 with its contacts 8 in series, 23 with a different delay time, closes the control circuit of the arcing chambers of all ballasts, thereby searching for and disconnecting a working balloon.

If the branch current transmission disappears in the idle ³⁰ SHA circuit, the signal from the starting element disappears, its contacts 4 open and the relay windings 1 and 2 are de-energized. Contacts 9 of relay 1 are closed and turn on ³⁵ turn on the control circuit of the separator of the corresponding ША.

Indicated father- control signal. reliably passes, because relay 2 is made with a slowdown of the fall- ^{4 (} -nie.

Thus, the task of improving the reliability of the operation of the device.

Claims (2)

1. Fedoseev A, M. Relein Electric Systems Protection, M., Energie, 1976, p. 57. 2. Report of the Scientific Research and Design Institute No. O-3608, 1976, p. 11-17. 7 2 " i " five b ri f yy