SU922954A1 - Circuit breaker remote control device - Google Patents

Description

The invention relates to electrical engineering and can be used, for example, for switching on single-phase transverse capacitive compensation installations for electrified railways, as well as for switching transverse and longitudinal capacitive compensation installations for general-use electrical networks.

When turning on the installation of transverse capacitive compensation (KU), there can be significant current surges and over - voltage, if at the moment of switching on the instantaneous voltage value is close to the amplitude one. Therefore, to reduce the inrush of current and voltage, it is advisable to turn on the capacitor at a voltage equal to zero, i.e. at transition of a sinusoid of tension through zero value.

A device containing controls, a synchronization unit, is known; interstitial, matching elements, a contactor and a turn-on electromagnet, which ensures that the switch is turned on or off at a given time —

2

meni (such switches are called synchronized) Γΐ],

However, this device is difficult and unreliable.

The closest to the invention to the technical essence is a device for turning on a vacuum switch KU, containing a thyristor, providing the inclusion in a predetermined phase voltage, a control unit for the thyristor, phase shifting element and an actuating reed switch that acts on the contactor of the electromagnet on switch. The control is produced by the ₁₅ power button connected to the G2D stabilized voltage source.

The disadvantages of the known device are the complexity due to the large number of circuit elements and low reliability.

The purpose of the invention is to simplify the device and increase its reliability.

This goal is achieved by the fact that the device for remote control

922954

four

in a lazy switch that contains a source of stabilized alternating voltage with a voltage transformer and a stabilizer, a closing contact of a control button, a contactor with a coil and a breaking contact The trans-10 voltage coil winding is connected to the terminals for connecting a high-voltage source to the source, and the secondary winding through a voltage stabilizer By connecting the output of stabilized source 5 otrovennogo AC voltage to; to which the leads for connecting the disconnecting blocking contact of the switch are connected through the closing contact of the control button and through the coil of the contactor; the resistor, reactant and the closing contact of the contactor connected to the terminals for connecting the electromagnet of the on-off switch are connected , are connected in series and connected in parallel to the contactor coil.

The drawing shows a circuit diagram of the device. thirty

The device contains a source of stabilized AC voltage with a stabilizer 2 · and a voltage transformer 3 connected by the primary winding to the high voltage bus 4, to the output _{5 of} the stabilizer 2 through the control button contact 5 and the tripping block 6 of the switch 7 connected coil 8 of the contactor 9 disconnecting contact 10 of which is connected to the KEY in parallel with the electromagnet 11 to turn on the switch 7, in series with which the load is connected, for example, a capacitor battery 12 kom-; retirement device. Consistently with the electromagnet 11 switch on you? key 7 is installed oisistor 13 and reactance (choke 14 or capacitor 15).

The device works as follows.

When the button 5 is turned on, through the contact 10 a current is flowing, limited by the resistance of the element® 13 and 14 (15), and a voltage is applied to the coil 8 and 55 tons of the actor 9. The angle of the current flowing through the contact 10 relative to the voltage of the voltage source 1 is determined the ratio of active and reactive resistance. When the contactor 9 is turned on, its contact 10 breaks the current circuit and the voltage is applied to the turn-on electromagnet 11. Alternating current is broken when a sinusoid current passes through zero. Therefore, regardless of the moment the button 5 is turned on, the initial voltage phase (voltage phase at the moment of opening of the contact current circuit 10) of the turn-on electromagnet 11 is always the same. And this means that regardless of the moment the button 5 is turned on with a stable switch-on time of 7 s, the control panel will always switch off to the same voltage phase of the high-voltage bus 4. The vacuum switches provide sufficient stability (for example, BBB-10/320) with turn-on time up to 1520 ms. But in order to enable the switch to occur at zero sinusoid voltage bus 4 should pick the parameters of the resistance elements

13 and 14 (15) so that the time from the moment the current of the contact of the terminal 10 passes through zero until the voltage of the bus 4 passes through zero is equal to the intrinsic switching time of the switch 7. 'For a reliable break of the current at zero sinusoid in accordance with the experimental and data, the magnitude of the breaking current is 5-10 A. Fine adjustment of the resistance parameters of the elements 13 and 14 (15) is performed using an oscilloscope.

After turning on the switch 7, the circuit of the electromagnet 11 is broken by the auxiliary contact 6. After turning off the switch 7, the device is ready for action.

The economic effect of using the present invention is achieved by reducing the exploitation of races **

moves.

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Claims (1)

Claim A device for remote control of a switch containing a source of stabilized alternating voltage with a voltage transformer and a stabilizer, a closing contact of a control button, a contactor with a coil and an opening contact, leads for connecting a breaker block — a switch contact and leads for connecting an off electromagnet> reader, and the primary winding trans 922954 .five the voltage formatter is connected to the terminals for connecting a high-voltage source to the source, and the secondary winding is connected to the output of a stabilized alternating voltage source through which the stabilizer voltage is connected to the output of the disconnecting switch, switch contact, through the closing contact of the control button I distinguish that, in order to simplify the device and increase its reliability, it is equipped with a resistor and reactance, the resistor being reactive e resistance and disconnecting con-15 ¹ clock contactor connected to the terminals 6 to connect the electromagnet on switch, connected in series and connected in parallel to the coil of the contactor.