SU684673A2 - Device for trouble-free electric power supply - Google Patents

Description

one

The invention relates to the field of protection of the system of coordinated rotation of electric drives,

Devices to protect electric shaft motors from falling out of sync during interruptions in centralized power supply are used, for example, in screw-cutting machines, where an electric shaft is installed instead of a spindle to connect the main drive of the faceplate with the caliper feed drive.

The closest technical solution to the invention is a device containing a main source of three-phase power supply, a switch and an additional power source - an asynchronous generator with a flywheel and capacitor excitation from the stator winding and simultaneous excitation by direct current from the rotor winding, between two rotor phases, short-circuited, and the third phase, included a capacitor, shunted by a circuit from the throttle and valve bridge, which through a matching transfo rmator is connected to the main

power supply and stator winding of an asynchronous generator (I.

However, in the known device, the capacitance included between the two rotor phases which are short-circuited and the third phase must have a significant value. Otherwise, the starting torque of the asynchronous machine in the motor mode is reduced, the uniformity of current distribution over the phases of the rotor winding decreases, and the conditions of self-excitation deteriorate when switching to generator mode.

The purpose of the invention is to improve the self-excitation of an asynchronous generator by uniformly distributing the current across the phases.

Claims (1)

This goal is achieved by the fact that in the device for uninterrupted power supply according to author's certificate No. 528665, a diode is connected parallel to the capacitor between two rotor phases short and the third phase, the cathode of which is connected to the cathode group of the diodes of the valve bridge, and the anode is connected through an inductor to the anode group of the bridge diodes. The drawing shows the electrical circuit of the device. The main source of electrical power 1 is connected via a switch 2 to the stator winding of the asynchronous generator 3 connected to the field capacitors 4 and to the motors of the electric shaft 5 and 6. On the shaft of the asynchronous generator 3 a flywheel 7 is located. To the rotor winding of the asynchronous generator 3, two phases the swarm is shorted, the excitation voltage is supplied from the rectifier containing the matching transformer 8, the valve bridge 9, the smoothing choke 10 and the capacitance 11. Parallel to the capacitance between the two short circuits The phases of the rotor and the third phase include diode 12, the cathode of which is connected to the cathode group of the diodes of the valve bridge 9, and the anode is connected through the smoothing choke 10 to the anode group of the diodes of the bridge. The device works as follows. When the switch 2 is closed, simultaneously with the connection of the motors of the electric shaft 5 and 6 to the main power supply 1, the induction machine 3 is started up, which is to perform the functions of an asynchronous self-erecting generator during interruption in the centralized power supply. At the end of the asynchronous start-up, machine 3 accelerates to a speed close to synchronous and then automatically pulls into synchronism. In the period of normal operation of equipment, such as a machine, the machine 3 operates in the engine mode, rotating the flywheel 7 and the reserve of mechanical energy in case of interruption in the power supply. When the centralized power supply is interrupted, the asynchronous machine 3 automatically goes into generator mode, self-excited by the reactive current of capacitors 4 on the side of the stator circuit and by direct current from the rectifier on the side of the rotor circuit, and becomes an auxiliary power source for motors of electric shaft 5 and 6. Switch 2 when the interruption in the centralized power supply disconnects the chain section containing the asynchronous generator 3 and the motors of the electric shaft 5 and 6 from the common shop network so that The gs stored in the flywheel masses were not consumed by other consumers, but were used only for their intended purpose: to maintain synchronous overrun of the electric shaft. Due to the energy stored in the flywheel 7, the asynchronous generator 3 ensures synchronization of the motors of the electric shaft 5 and 6 up to a full stop. Due to the fact that the currents flowing through the phases of the rotor winding of the asynchronous machine 3 contain constant and variable components and the relationship between these components is determined by the mode in which the machine 3 operates. (Start mode, motor mode, generator mode with self-excitation), diode 12 will directly affect its operation. Due to diode 12, all three phases of the rotor winding in the conductive half-period of the. Diode turn out to be completely shorted, which, firstly, provides an increased starting torque needed to unwind the flywheel 7 when asynchronously starting the machine 3, secondly, creates an additional circuit parallel to the capacitance 11 for the flow of the half-wave of the variable component of the rotor current, caused by capacitor excitation from the stator circuit and reign when the asynchronous machine enters the generating mode. Third, the inclusion of diode 12 provides a more uniform distribution of current across the phases and the associated decrease in heating of the rotor winding. The technical and economic effect achieved as a result of the implementation of the invention consists in reducing the acceleration time of the flywheel, increasing the voltage at the terminals of the asynchronous self-exciting generator, reducing the heating of the rotor winding due to a more uniform distribution of current across the phases. Experimental testing has established that turning on the diode reduces the acceleration time of the flywheel when the device starts, increases the voltage at the terminals of the asynchronous self-exciting generator by 10% and reduces the current in the two short circuits of the rotor winding by 20%. The invention The device for uninterrupted power supply according to the author's certificate No. 528665, distinguished by the fact that, in order to improve self-excitation of the asynchronous generator due to uniform distribution of current across the phases, a diode, the cathode of which is connected to the cathode group, is switched on between the two short-circuited rotor phases and the third phase diodes of the valve bridge, and the anode is connected through a choke to the anode group of the diodes of the bridge. Sources of information taken into account in the examination 1. USSR author's certificate No. 528665, cl. H 02 J 9/00, 1974. F5 N