RU2304337C1 - Standby power supply device - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: the device has two alternating current sources, the voltage transducers, two mechanical keys with an electric drive, control unit, current transducers and a load, it is also provided with an active filter and a voltage transducer.

EFFECT: enhanced speed of response and reliability of steady power supply.

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Description

The invention relates to the field of electrical engineering and is intended for use in circuits or power supply systems of electrical networks and distribution of electrical energy.

A device backup power supply is described in the patent of the Russian Federation No. 2025024, IPC ⁷ H02J 9/06, publ. 12/15/94, containing a decoder, an actuator and two identical power quality control units.

The disadvantages of this device are its low speed and reliability, due to the possibility of its false operation when the voltage shape of the main network is distorted, uninterrupted power supply is not ensured if the AC sources are out of phase, correction of the power factor and suppression of higher harmonics.

The closest in technical essence to the invention is a backup power supply device described in Japan patent No. 2001117680, IPC ⁷ H02J 9/06, publ. 07/19/01. The device contains two identical circuits, each of which has an AC source connected to the input of the voltage sensor, the input power terminals of the mechanical key and the input power terminals of the switching mechanical key, the output of the voltage sensor is connected to the corresponding input of the control unit, the corresponding output of the control unit is connected to the electric drive mechanically connected to the actuating element of the mechanical key, the output power terminals of the mechanical key are connected to the power input current sensor, the output of the current sensor is connected to the corresponding input of the control unit, the output power terminals of the switching mechanical key are connected to the power input of the semiconductor key, consisting of counter-parallel thyristors, the power output of the semiconductor key is connected to the combined power outputs of the current sensors and the load, two corresponding outputs the control unit is connected to a driver, which is connected to the inputs of the semiconductor key.

However, this device has low reliability due to false operation when the voltage shape of the main network is distorted, it does not provide uninterrupted power supply if AC sources are out of phase, correction of power factor and suppression of higher harmonics.

An object of the invention is to increase the speed and reliability of uninterrupted power supply.

This task is achieved by the fact that in a known device containing two identical circuits, each of which has an AC source connected to the input of the voltage sensor and the input power terminals of the mechanical key, the output of the voltage sensor is connected to the corresponding input of the control unit, the corresponding output of the control unit is connected to the electric drive, mechanically connected to the actuating element of the mechanical key, the current sensor and the load is equipped with an active filter, the output of which is connected to naturally output power terminals of mechanical keys, and its input is connected to the third output of the control unit, a voltage sensor, the output of which is connected to the power input of the current sensor and the connection point of the output power terminals of the mechanical keys, and the output of the voltage sensor is connected to the third input of the control unit, the power output of the current sensor is the output of the device and is connected to the load, and its output is connected to the fourth input of the control unit.

The invention is illustrated in the drawing, which shows a block diagram of a backup power supply device.

The device contains two identical circuits, the first circuit has an AC source 1 connected to a voltage sensor 2 and to the input power contacts of a mechanical key 3 with electric drive 4. The second circuit contains an AC source 5 connected to a voltage sensor 6 and to the input power contacts of a mechanical key 7 with electric drive 8. The device is connected to the load 9. The signals are controlled by the control unit 10. The output power terminals of the mechanical keys 3 and 7 are connected to the current sensor 11, voltage sensor 12 and an active filter 13. A load 9 is connected to the output of the current sensor 11. The first input of the control unit 10 is connected to the output of the voltage sensor 2, its second input is connected to the output of the voltage sensor 6, the third input of the control unit 10 is connected to the output of the voltage sensor 12, its fourth the input is connected to the output of the current sensor 11. The first output of the control unit 10 is connected to the input of the electric drive 4, its second output is connected to the input of the electric drive 8, and the third to the output and input of the active filter 13.

The control unit 10 can be performed, for example, as a device described in the article by S. Voloshin. The drive is just like one, two, three. Part 1. DC motors - collector and valve. LLC Faynetrit Publishing House and Skemen, Components and Technologies Magazine, pp. 78-85, Fig. 15. The backup power supply device operates as follows. When the voltage of the corresponding source is applied to the input of voltage sensors 2 and 6, signals that repeat the shape of the input voltage, but smaller in amplitude, appear at their outputs. The voltage sensor 12 functions in a similar way. The signal from the voltage sensor 2 in the control unit 10 is compared in a number of parameters with the given parameters, and if they match, the control unit 10 sends a signal to the electric drive 4 to turn on the mechanical switch 3, the load 9 is supplied from an alternating source current 1. The signal from the voltage sensor 6 in the control unit 10 is compared in a number of parameters with the given parameters, and if they match, the control unit 10 compares it with the signal from the voltage sensor 2. If both If the channels have the same phase, then if at least one of the signal parameters from the voltage sensor 2 deviates from the set parameters, the control unit 10 sends a signal to the electric drive 4 to turn off the mechanical key 3 and sends a signal to the electric drive 8 to turn on the mechanical key 7. If the signals have different phases , then if at least one of the signal parameters from the voltage sensor 2 deviates from the set parameters, the control unit 10 sends a signal to the electric drive 4 to turn off the mechanical key 3 and a signal to the active filter 13, at the output of which A sinusoidal voltage appears, the phase of which changes from the phase value of the voltage sensor signal 2 to the phase value of the voltage sensor signal 6. When the phase of the voltage sensor signal 12 is equal to the phase of the voltage sensor signal 6, the control unit 10 sends a signal to the active filter 13, turning it off, and sends a signal to the electric drive 8 to turn on the mechanical key 7, the load 9 is supplied from the AC source 5.

The signal from the voltage sensor 2 in the control unit 10 is compared with the set parameters, and if they coincide again, the control unit 10 compares the signal from the voltage sensor 2 with the signal from the voltage sensor 6. If both signals have the same phase, then the control unit 10, through a predetermined delay time, sends a signal to the electric actuator 8 to turn off the mechanical key 7 and sends a signal to the electric actuator 4 to turn on the mechanical key 3. If the signals have different phases, then the control unit 10, after a predetermined delay time, sends a signal to the electric water 8 to turn off the mechanical key 7 and the signal to the active filter 13, the output of which appears a sinusoidal voltage, the phase of which changes from the phase value of the voltage sensor signal 6 to the phase value of the voltage sensor signal 6. When the phase of the voltage sensor signal 12 is equal to the phase of the sensor signal voltage 2, the control unit 10 sends a signal to the active filter 13, turning it off, and sends a signal to the electric actuator 4 to turn on the mechanical key 3, the load 9 is supplied from the AC source 1.

When the current passes through the current sensor 11, a signal appears at its output, repeating the shape of the passing current, but smaller in amplitude. The signal from the current sensor 11 is fed to the fourth input of the control unit 10, where it is compared in a number of parameters with the given parameters. When at least one of the signal parameters is rejected from the current sensor 11, a signal is received at the input of the active filter 13 from the third output of the control unit 10 and a voltage appears at the output of the active filter 13, which is inversely proportional to the deviation. Similarly, when at least one of the signal parameters is rejected from the voltage sensor 12, a signal is received at the input of the active filter 13 from the third output of the control unit 10 and a voltage appears at the output of the active filter 13, which is inversely proportional to the deviation.

The use of the invention due to a smooth transition when the AC sources are out of phase can improve the reliability of uninterrupted power supply to the load and the speed of the device.

Claims (1)

A backup power supply device containing two identical circuits, each of which has an AC source connected to the input of the voltage sensor and to the input power terminals of a mechanical key with an electric drive, while the outputs of the voltage sensors are connected to the corresponding inputs of the control unit, one of the outputs of which are connected to electric drive, current sensor and load, characterized in that it is equipped with an active filter, the output of which is connected to the output power terminals connected together mechanically their keys, and its input is connected to the third output of the control unit, a voltage sensor connected to the power input of the current sensor and the connection point of the output power terminals of the mechanical keys, and the output of the voltage sensor is connected to the third input of the control unit, while the power output of the current sensor is the output device and is connected to the load, and its output is connected to the fourth input of the control unit.