RU121666U1 - DEVICE FOR AUTOMATIC SWITCHING OF A SECTIONAL SWITCH - Google Patents

Abstract

A device for automatically closing the sectional switch, containing the closing and opening auxiliary contacts of the power input switches to the first and second sections of the busbars, the winding and the closing contact of the intermediate relay without slowing down when returning, the opening auxiliary contact and the winding of the electromagnet for switching on the section switch, and the first terminal of the intermediate winding relay through series-connected auxiliary contacts of the power input switches to the first and second sections of the busbars and a parallel-connected closing contact of the same intermediate relay connected to the positive pole of the operating current source, and through parallel-connected auxiliary contacts of the power input switches to the first and second sections of the busbars are connected to the first terminal of the winding of the electromagnet for turning on the section switch, the first terminal of the opening auxiliary contact of which is connected to the second output of the coil of the intermediate relay and with the second output of the winding of the electromagnet for switching on the section switch, characterized in that a chain of sequentially connected break contacts of the output intermediate relays of overcurrent protections installed at the inputs on the first and second sections of the busbars is introduced into it, which connects negative pole of the auxiliary current source with the second output of the opening auxiliary contact of the section switch.

Description

The invention relates to devices for automatically turning on backup power and equipment (ATS) and is intended to automatically turn on sectional switches.

A device is known for automatically turning on a double-acting sectional switch, ensuring its automatic switching on when the power input switch to the busbar section is turned off for any reason [V. Andreev Relay protection and automation of power supply systems. M .: Higher. school., 2006, p. 366, fig. 10.15]. Such a device provides a one-time inclusion of a sectional switch by using a special one-shot relay, which is used as an intermediate relay with a delay when returning.

Closest to the claimed device is a device for automatically turning on a sectional switch according to the patent for the invention of the Russian Federation No. 2363086 [Device for automatically turning on a sectional switch / Fedotov V.P., Fedotova L.A. Published on July 27th, 2007. Bull. No. 21], which provides a one-time inclusion of a sectional switch due to the creation of a self-holding circuit of an intermediate relay without deceleration upon return, which increases the ease of operation and the reliability of the ABP device. It contains an intermediate relay without deceleration upon return, which uses a make contact to create a self-holding circuit, auxiliary make and break contacts (block contacts) of power input switches to busbar sections, an auxiliary make contact (block contact) of a section switch and a switching electromagnet sectional switch.

However, such a device acts to turn on the sectional switch when one of the power sources operating according to the implicit reserve circuit is turned off, both by protection against internal and external damage. In order to prevent the backup power supply from switching on to a short circuit when the backup is implicit and restore the normal electrical circuit after the emergency shutdown and automatic devices by the simplest means, the Electrical Installation Rules recommend that the ABP device only act upon internal damage to the operating source (Electrical Installation Rules. All valid sections of the sixth and the seventh edition as amended and supplemented as of October 1, 2010. M .: KNORUS, 201 0, clause 3.3.42).

The objective of the utility model is to ensure the operation of the ATS device only in case of internal damage to the working source and to prohibit its operation in case of external damage in order to prevent the sectional switch from turning on for short circuits when using the scheme of the implicit reserve power supply to consumers.

This task is achieved in that the device for automatically turning on the sectional switch, comprising the closing and opening auxiliary contacts of the power input switches to the first and second section of the busbars, the winding and the closing contact of the intermediate relay without delay when returning, the opening auxiliary contact and the winding of the electromagnet turning on the sectional switch the first output of the intermediate relay winding through series-connected interconnecting auxiliary contacts you are the power input switches on the first and second sections of the busbars and the parallel contact of the same intermediate relay connected to it is connected to the positive pole of the operating current source, and through the parallel auxiliary contacts disconnecting the power input switches on the first and second sections of the busbars connected to the first output of the winding of the electromagnet turning on the sectional switch, the first output of the auxiliary auxiliary contact of which is connected with the second output of the winding of the weft relay and with the second output of the winding of the electromagnet for switching on the sectional switch, it is distinguished by the fact that a chain of maximum output current relays of the intermediate intermediate relays of the output intermediate relays connected to each other, connected to the first and second sections of the busbars, connected to the negative pole of the source operational current with the second output of the auxiliary auxiliary contact of the sectional switch.

The invention consists in the following. Figure 1 shows the wiring diagram, on the sectional switch which uses an ABP device. The circuit contains transformers 1 and 2, transformer 1 switches on the power supply side 3 and at the input to the busbar section 4, transformer 2 switches on the power supply side 5 and at the input to the busbar section 6, section switch 7, overcurrent protection 8, installed on the power input to the first section of the busbars and the maximum current protection 9 installed on the power input to the second section of the busbars.

Figure 2 shows a diagram of the device ABP sectional switch. The device contains make-up 4.1 and disconnect 4.2 auxiliary contacts of the power input switch to the first section of busbars 4, make 6.1 and disconnect 6.2 auxiliary contacts of the power input switch to the second section of busbars 6, make auxiliary contact 7.1 of the section switch 7, make contact 8.1 of the output intermediate relay of overcurrent protection 8 installed on the power input to the first section of busbars, NC contact 9.1 of the output intermediate relay of overcurrent protection 9, installed on the power input to the second section of busbars, winding 10 and the make contact 10.1 of the intermediate relay, winding 11 of the electromagnet turning on the section switch 7, positive 12 and negative 13 poles of the operating current source. The positive pole 12 of the operating current source through the series-connected auxiliary auxiliary contacts 4.1 and 6.1 of switches 4 and 6 and the parallel contact 10.1 of the intermediate relay connected to it is connected to the first output of the intermediate relay winding 10, which through parallel connected interconnected auxiliary contacts 4.2 and 6.2 switches 4 and 6 are connected to the first output of the winding 11 of the electromagnet turning on the sectional switch 7, and the second conclusions of the winding 10 of the intermediate relay and winding 11, the electromagnet for turning on the sectional switch 7 through the NC contact 7.1 of the sectional switch 7 and a chain of output intermediate relays of maximum overcurrent protection 8 and 9 connected in series between the NC contacts 8.1 and 9.1 is connected to the negative pole 13 of the operating current source.

The device operates as follows.

In normal mode, both transformers are in operation, and the section switch 7 is turned off. As a result of the on state of switches 4 and 6, their auxiliary contacts 4.1 and 6.1 are closed, and auxiliary contact 7.1 of the section switch 7 is closed. The maximum current protection (MTZ) 8 and 9 installed on the power inputs on the first and second section of the busbars are in an unused state state, NC contacts 8.1 and 9.1 of their output intermediate relays are closed. A current flows through winding 10 of the intermediate relay. The intermediate relay is in the tripped state and its contact 10.1 in the self-holding circuit is closed. Auxiliary contacts 4.2 and 6.2 of switches 4 and 6 are open, current does not flow through the winding of the electromagnet of turning on 11 section switch 7.

In case of damage in the transformer 1 or on the external terminals of its windings, protection against internal damage works, for example, differential, gas or redundant maximum current protection of the transformer 1, and switches 3 and 4 are turned off. MTZ 8 is installed on the power input to the first section of busbars , in this case does not work.

When the power input switch 4 is turned off, the auxiliary section 4.1 opens in the first section of the busbars in the power supply circuit of the intermediate relay coil 10 and the auxiliary contact 4.2 closes in the winding circuit 11 of the section switch solenoid 7. The closed auxiliary contact 10.1 of the intermediate relay closes the auxiliary contact 4.2 of the switch 4, closed auxiliary contact 7.1 and closed contacts 8.1 and 9.1 of the output intermediate relays MTZ 8 and 9 through the winding 11 of the electromagnet turning on the section switch 7 n begins to flow current. In this case, the intermediate relay is maintained in the tripped state through its make contact 10.1. The sectional switch 7 is turned on, as a result of which its auxiliary contact 7.1 opens. The winding 10 of the intermediate relay and the winding 11 of the electromagnet turning on the sectional switch 7 lose their power. Contact 10.1 opens in the self-holding circuit of the intermediate relay.

The ABP device works similarly when the power input switch 6 to the second section of the busbars is turned off. The only difference is that in this case the auxiliary contact 6.1 opens and the auxiliary contact 6.2 of the switch 6 closes.

In the event of external damage, for example, on the first section of busbars or on the connections of these tires, MTZ 8 operates and the contact 8.1 of its output intermediate relay opens in the circuits of the intermediate relay coil 10 and the section 11 coil solenoid 7. The intermediate relay coil 10 loses power, its contact 10.1 opens in the self-holding circuit of this relay. The circuit breaker 4 of transformer 1 is turned off and its auxiliary contact 4.1 opens in the power circuit of the intermediate relay winding 10 and its auxiliary contact 4.2 closes in the winding circuit 11 of the section switch 7 solenoid. However, the section switch 7 is not turned on in this case, since the power circuit 11 of the winding of the switching solenoid is open by contact 8.1 of the output intermediate relay MTZ 8 (until it returns to its original state after the circuit breaker 4 is turned off 1), auxiliary contact 4.1 of switch 4 and contact 10.1 of the intermediate relay.

The ABP device works similarly in the event of external damage on the second section of busbars or on the connections of these tires. The only difference is that in this case MTZ 9 operates and the contact 9.1 of its output intermediate relay opens in the circuits of the intermediate relay relay winding 10 and the winding 11 of the section switch 7 electromagnet. The circuit breaker 6 of transformer 2 is disconnected and its auxiliary contact 6.1 is opened in the circuit power supply of the winding 10 of the intermediate relay and its auxiliary contact 6.2 closes in the winding circuit of the electromagnet 11 of the section switch 7.

Thus, the proposed device provides an ATS only for internal damage to the working source and prohibits its operation in case of external damage upon the actuation of protection against external damage, which prevents the section switch from being short-circuited when using an implicit consumer power reserve circuit.

If necessary, the proposed device for automatically turning on the sectional switch can have voltage and frequency triggering organs, which are performed similarly to existing ABP devices. It can also be used when supplying busbar sections from power lines when they are separately operated in normal mode.

Claims (1)

A device for automatically turning on the sectional switch, comprising the closing and opening auxiliary contacts of the power input switches to the first and second sections of the busbars, the winding and the closing contact of the intermediate relay without delay when returning, the opening auxiliary contact and the winding of the electromagnet turning on the sectional switch, the first output of the intermediate winding relay through series-connected interconnecting auxiliary contacts of the power input switches on the first The second and second sections of the busbars and the parallel contact of the same intermediate relay connected to it are connected to the positive pole of the operating current source, and through the parallel auxiliary contacts of the power input switches to the first and second sections of the busbars, it is connected to the first terminal of the winding magnet section switch, the first output of the auxiliary auxiliary contact of which is connected with the second output of the intermediate relay winding and with the second output of the exchange section electromagnet switching current circuit, characterized in that a chain is introduced into it of a series of interconnecting disconnecting contacts of the output intermediate relays of the maximum current protection installed on the inputs to the first and second sections of the busbars, which connects the negative pole of the operating current source to the second output of the disconnecting auxiliary contact sectional switch.