SU1099353A1 - Device for automatic change-over to reserve facility - Google Patents

Abstract

AUTOMATIC TURNING DEVICE OF THE RESERVE containing the first contactor of the main source, the second contactor of the backup source and the load of the provided power in the circuit of the winding, the first contactor is closed disconnecting contact of the second contactor , the relay of control of the voltage of the main source, the short-circuiting contact of which is included in the winding circuit of the first contactor, and its first1: disconnecting contact is connected to A second contactor winding plug, characterized in that, in order to increase the load power supply reliability, a delayed control relay of the first contactor is connected, connected via parallel connected closures, a block contact of the first contactor and a second break contact, , and paleslelv. but the first intermittent contact of the voltage control relay includes the same ground contact.

Description

x: o: o ate

The invention relates to a power system automation and is used in AC power supply input boards for food supply loads,. A known automatic switch-on circuit (ATS) on low-voltage contactors with a mechanical latch, containing contactors for switching on each power source with interlocking and an intermediate relay, controlling the voltages of the first source with a closing contact in the power circuit of the windings of the first contactor and the break contact in the power circuit of the winding of the second contactor ClJ. The disadvantage of such contactors is design complexity, service and lack of operation. The closest to the proposed one is the AVR load device of the provided power supply containing contactors on} the load on the primary and backup sources. The unit is interlocked with the interlocking contacts of the main source voltage monitor and the main power supply voltage relay time relay voltage monitor contacts are on. to the winding circuit of the main contactor of the main power supply, and their opening contacts to the winding circuit of the backup power contactor 2, However, when the first contactor circuit is wound, the load of the provided power is disconnected. The purpose of the invention is to improve the reliability of the power supply ( a device for automatic switching on the reserve, containing the first contactor for switching on the primary source, the second contactor for switching on the backup source for the load of the secured yitani, in the circuit of the winding the opening contact of the second coactor is turned on in the contactor, and the disconnecting block to the stroke of the first contactor is connected to the winding circuit of the second coactor, the voltage source monitoring relay of the main source, the closure contact of which is connected to the winding circuit of the first contactor, and its first break contact connected to the winding circuit of the second contactor; a delayed relay for monitoring the operability of the first contact is inserted, - the closing contact of the first contactor and the second closing contact of the relay are connected through parallel connected terminals f trolley bus voltage and in parallel to the first NC contact relay control voltage is turned on contact serviceability of the control relay, the drawing shows a schematic diagram of the device. The device contains a contactor 1 of the first source, its opening blocking contact 2 and closing block contact 3, coitactor 4 of the second source and its block contact 5, closing contact 6 and opening contacts 7 and 8, relay 9 controlling the voltage of the first source, slowed relay 10 monitoring the health of the contactor of the first source and its break contact-11, the device operates as follows. If the relay 9 for monitoring the voltage of the first source is under current, the contact of the contactor 1 is energized by its closing contact b, checking via the auxiliary contact 5 of the de-energized state of the contactor 4 of the second source. The main contacts are con. Tactor 1 voltage is applied to the load. Through the auxiliary contact 3 of the contactor 1, the excitation circuit of the relay 10 is formed. The power supply circuit of the contactor 4 opens the contact disconnectors 7 and 11, and the second power supply is disconnected from the load. When the voltage disappears in the first source, the relay 9 monitors the voltage of the first source and its Contact breaks the circuit of the first source contactor 1. Relay 10 stays energized through disconnecting contact 8. A contactor 4 is turned on through an opening block contact 2, which supplies the voltage from the second source to the load. After the voltage is restored in the first source, the relay 9 monitors the voltage of the first source. The contacts of the latter turn off the contactor 4 and the power supply to the load from the second source. After de-energizing contactor 4 through its opening blocking contact 5, the exciter circuit of Contactor 1 is formed. Thanks to this, the contacts of contactors 1 and 4 are switched on, a one-time connection to the load of the voltage from two power sources is excluded. The blocking contact 3 of contactor 1 creates a power supply circuit of relay 10. By slowing down relay 10, its measles is kept turned on by briefly opening its circuit with contacts 3 and 8. If there is a voltage on the main switch and the fault of the contactor 1, the latter remains off. As a result, the circuit of the relay 10 is open and it lowers the measles with a slump, the Opening contactor 11 turns on the contactor 4 and restores the power supply from the second source. A positive technical effect with the use of the invention is achieved by reserving the contactor of the first source with a second contactor operating less intensively. As a result, if the contactor of the first source is damaged, the second contactor switches on the load of the second source.

Claims (1)

AUTOMATIC RESERVE CONTROL DEVICE, comprising a first contactor for turning on the main source, a second contactor for turning on the backup source to the load of the provided power, a disconnecting block contact of a second contactor is included in a winding circuit of a first contactor, and a disconnecting block contact of a first contactor is included in a winding circuit of a second contactor, the voltage control relay of the main source, the closing contact of which is included in the winding circuit of the first contactor, and its first opening contact is included in the winding circuit and a second contactor, characterized in that, in order to increase the reliability of the power supply to the load, a delayed relay for monitoring the operability of the first contactor is introduced, connected via a parallel-connected closing block contact of the first contact- § a torus and a second opening contact, a voltage monitoring relay, and parallel, but To the first NC contact of the voltage monitoring relay, include the NC contact of the health monitoring relay. SU (ί »1099353>