SU608228A1 - System for break-proof power supply of ac users - Google Patents

Description

(54) SYSTEM FOR UNINTERRUPTED POWER SUPPLY OF AC POWER CONSUMERS

To reduce the deviation of the voltage output and power loss, the system is provided with a reagulator of a reactive power regulator through which the latter is connected to the control valve of the valve compensator, and the switch of the reactor power regulator is connected to the specified control unit and the second regulator wives

The structural scheme of the proposed device for uninterrupted power supply of AC consumers is shown in FIG. 1J is a schematic diagram of the former in FIG. 2

The device contains the main source of AC electric power 3, a circuit breaker 2, a load 3, including three-phase electric motors, a stand-by DC source 4, a converter 5 and an alarm sensor 6 in the power system that controls frequency, mains voltage and automatic circuit breaker 2

The converter 5 itself contains a valve switch 7, a valve compensator 8 of the control unit, an actuating unit 9, a synchronization switch 1O, a clock generator 11, a control switch unit 12 of the valve switch 7 containing a phase moving unit 13 and a switch 14, voltage regulator 15, consisting of the measuring element 16 and the comparison and amplifying body 17, the block 18 controlling their impulses of the valve compensator 8, the switch 19 of the reactive power regulator 2O consisting of the measuring body 21 and the organ 22 comparison and amplification, the second voltage regulator 23, consisting of the measuring body 24 and the comparison and amplifying body 25.

The device works smoothly.

In normal modes of operation, the load 3 receives power from the main source through the automatic switch 2. From the on-switch unit 9 to the switch 14, a signal is transmitted that prohibits the valve control pulses from the converter switch 7. The same command arrives at the control inputs of switches Yu and 19. The synchronization switch 10 is in the position at which the synchronizing inputs of blocks 12 and 18 of control impulses receive a load of 3. Control pulses. Pensions generated by the P blocks 18 and 12.no the phase frequency is synchronized with the voltage of the load 3. Switch 10 connects the output of the second voltage of the voltage horn 23 to the control input of the unit 18. The result 1: valve The initiator 7 is turned off, and the valve compensator 8, the pulse unit 18 of which is synchronized with the voltage on load 3, is used by regulator 23 to control the reactive power in the network as a function of the voltage on load 3.

In the event of the failure of the main etochnik 1 to fail or the automatic switch 2 is suddenly disconnected, the process of self-excitation of the three-phase electric motors of the load 3 starts due to the reactive

capacity of the capacitors of the valve compensator 8. Due to the regulation of reactive power with the help of the valve compensator 8 and the voltage regulator 23, the self-excitation process of the three-

Phase electric motors are controllable. This allows the voltage on the load tires 3 to be maintained within the specified limits without breaking the voltage curve until the conversion is switched on.

spinner 5 in inverter mode. On command from alarm sensor 6, monitoring the frequency and voltage of the network and the state of the circuit breaker 2, the circuit breaker 2 is turned off.

After that, the control inputs of the switches 10, 19 and 14 from the switching unit 9 receive a signal corresponding to the switched on state of the converter 5 in the inverter mode. Sync chains

The control pulses 18 and 12 are connected via the synchronization switch 10 to the master oscillator 11. The control input of the control pulse block 18 is connected via the switch 19 to the reactive power regulator 2O. The control pulses of the valve switch 7 begin to come from the control unit 12 of the control & As a result, the converter is switched on to the inverter mode and the load 3 is powered from the backup DC source 4. In this mode, the phase shifter 13 is controlled from the first voltage regulator 15, and the phase shifter 18 is controlled from the reactive regulator 20 power.

Claims (3)

The time of the transition process from the moment of the beginning of the accident to the moment of putting the converter into the inverter mode into operation usually does not exceed approximately 0.1 sec. Maintaining the voltage on the load 3 in such a length of time is provided J if the motor load is not less than 10-15% of the maximum (5 times the entire pN-ruzkn 3. Successful ECUUs E, preobraeauvaten 5, under conditions of maintenance on load tires 3, k which he iodcc, iGH, is provided by bpagodar non-coincidental synchronization of his thyristor control system from the same voltage through the additional circuit of the synchronous 10 after synchronization After passing the command to turn on the switch 10 switches the sy The control of thyristors of converter 5 for synchronization from master oscillator 11 The power circuit of converter 5, containing gate switch 7 and valve compensator 8, can be performed both by the current inverter circuit and by the voltage inverter circuit, which use reactive power control. As a valve compensator, a thyristor-throttle device can be used, in which the valves are connected to the power circuit, and the solid cable is included in the rectifier link The current circuit, the circuit in which the capacitors are connected in series with the valves, etc. When running the inverter power circuit according to the voltage inverter circuit, voltage maintenance on the load buses can be provided by turning on the inverter in the mode of reactive power generation. The control unit is made according to the nyrtic-cap principle of control with a sinusoidal source of reference voltage (generator 11 and voltage across the load 3). Other variants of the control unit circuits are also possible. The known generator of rectangular pulses with a triangular and sawtooth form of the output voltage curve can be used as a master oscillator. Phase-shifting units can be made on the basis of adjustable single-oscillators and blocking of generators on the basis of phase-locked loop. Possible options for the construction of voltage regulators depend on the choice of the power converter circuit and the technical requirements of the load in static and dynamic modes. . Only part of the load 3 can be transferred to the converter 5 - the responsible consumers allocated to a separate network section. In this case, when the main power source 1 fails to operate, the voltage in the entire network is supported by the same elements, and the converter 5 starts up in the inverter mode after the sectional switch is turned off and separates the responsible consumers from consumers. As a converter 5, a static reversible t-converter can be used, which can alternately operate in the mode of an autonomous inverter and rectifier. Claim 1. A system for uninterrupted power supply of consumers, alternating current, which includes electric motors, containing connected to the terminals for connecting the main source of alternating current through a fault sensor, to the terminals for connecting a backup direct current source and to the output terminals through an automatic a switch that connects one of the main sources of power to the consumers; an inverter consisting of controlled vein impulses associated with the corresponding formers switchgear and valve compensator, a control device consisting of a switch-on unit and a generator, the first and second voltage regulators and a reactive power regulator, which is equipped with a synchronization switch, the inputs of which are connected to the outputs of the inverter, the master oscillator and the switch-on unit, and the outputs - to the control pulse driver of the valve switch and valve compensator. 2. The system according to claim 1, about tl, and h and so that, in order to reduce the output voltage deviation and electric power losses, it is supplied with a switch of the reactive power regulator, through which the latter is connected to the control pulse driver ventilator compensator, and the switch of the regulator of reactive power is connected with the mentioned switching unit and with the second voltage regulator. Sources of information taken in the BHEI knowledge during the examination: 1. Raskin L. Ya. Stabilized in-house current inverters on thyristors; .: nergy, 1970. 2. Kovalev F.I., et al. Stabilized autonomous inverters with sinusoidal output voltage, M., Energiya, 19Vii. 3. Express Information, Series Electric Machines and Devices, 1973, no. 28, ref. 110. About 11