SU1406695A2 - Synchronous electric motor with electromagnetic excitation - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase the specific STARTING moment per unit mass of the Sb machine. A synchronous motor with electromagnetic excitation contains a stator 1 with a three-phase winding 2, a rotor 4 with VN strips on which the excitation winding 9 is placed, connected through a rotating rectifier 1 1 to an alternating voltage source placed on the machine shaft additional winding 10, located in the grooves of the poles of the rotor 4. Parallel to the excitation winding 9, a dynistor 12 is switched on with a turn-on voltage lower than the amplitude of the emf of the winding of the excitation winding 9 of the fixed rotor 4 and a large niHM amplitude of ED additional winding 10 synchronously rotating the rotor 4, the anode dynistor 12 is connected to the cathode of the rectifier II. I il. f (L 05 Oi (SP N)

Description

The invention relates to electrical discharge 11 in the opposite direction.

machines, namely the design sync-and he is locked. In this case, the emf of a near-sided electric motor with an electromagnet is wired to the dynistor 12 in direct directional excitation, since its anode is connected to the invention. The purpose of the invention is to increase with rectifier 11, and since the turn-on voltage of the distor 12 is less , then it short-circuits the excitation winding 9, a current of another direction flows through it, the interaction of which with the opposite

Synchronous electric motor consists of a pole of the first harmonic of the stator 1 flow of a six-stator stator 1 with a winding 2, creates an asynchronous moment of the same 5 main and 6 additional grooves connected into a star in a star-shaped pole rotor corresponding teeth 7 and 8, with the number of slots 5 and 6 equally

specific starting torque per unit mass of the machine.

The drawing shows a three-phase, four-pole synchronous motor with electromagnetic excitation.

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and equal to the number of poles of the engine. The excitation winding 9 is on the teeth 7 and is connected to the additional winding 10, along with a guide, and the rotor 4 continues to unwind. Thus, the excitation winding 9 plays the role of the start-up winding of the type "white cage during both periods of change of its EMF. In the synchronous mode, the EMF has a maximum value, and a constant current flows through the excitation winding 9, since with respect to the additional winding 10

and the rotor 4 continues to unwind. Thus, the excitation winding 9 plays the role of the start-up winding of the type "white cage during both periods of change of its EMF. In the synchronous mode, the EMF has a maximum value, and a constant current flows through the excitation winding 9, since with respect to the additional winding 10

tantalized on the teeth 8 through a half-wave, it is a load. Interaction

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the magnetic flux created by this current creates a synchronizing moment with the first harmonic flux, i.e. the excitation winding 9 performs its role, and the additional winding 10 acts as a source of alternating voltage. The dynistor 12 has a turn-on voltage less than the amplitude value of the EMF of the additional winding 10, so it does not turn on, does not shunt the winding 9, the excitation bridge rectifier 11 rotating with the rotor 4. The stator 1 in circles has crosses and dots that indicate the current the phase of the stator winding 2; N, S - polarity poles of the magnetic flux created by the stator 1; in the circles located in the slots 5 and 6 of the rotor 4 - the direction of the EMF of the winding 9 from the main harmonic field and the direction of the EMF of the winding 10 from the second harmonic field, 0 DRNIA, does not change the current in it and the corresponding unequal distribution synchronizing moment electric pole; N and S on the bore of the star-mover, i.e. in the synchronous mode

torus 1 - the pole N is formed by one double 12 does not work. In intermediate

a tooth 3 stator, and S - two). Pa-mode. Both windings operate in parallel with the excitation winding 9 alternately, creating an asynchronous synchronous 12, and its anode is connected to the 35th electromagnetic moments, as a result of which the rotor 4 spins up to the first harmonic of the magnetic flux. Switching on a standard element - dinistor 12 parallel to the excitation winding does not complicate the design and manufacture of a synchronous electromotor with electromagnetic excitation, but significantly using a rectifier superconductor 11. Dinistor 12 is a two-position switch, characterized by high electrical resistance in the off state and small in the on state . Its main parameter is the turn-on voltage. Turning on dynistor 12 does not change the principle of the motor, but increases its asynchronous moment. When the rotor is stationary, the EMF is induced only in the winding 9 and, if it is applied to the rectifier 11 in the forward direction, then it short-circuits the excitation winding 9, through which the current flows, the interaction of which with the first harmonic of the stator 1 current creates a starting asin 40

Claims (1)

lichivaet asynchronous .moment. 45 Formula of Invention Synchronous motor with electromagnetic excitation auth. St. No. 1325629, characterized in that, in order to increase the specific starting .moment by a chronical moment, and the rotor 4 starts 50 units of mass of the machine, it is equipped with a double spin. The same with respect to a torus connected in parallel with the excitation winding, the anode of the dynistor is connected to the rectifier cathode. The scientific research institute for creating the asynchronous moment also occurs when the emf is applied to the magnetic flux created by this current creates a synchronizing moment with the first harmonic flux, i.e. the excitation winding 9 performs its role, and the additional winding 10 acts as a source of alternating voltage. The dynistor 12 has a turn-on voltage less than the amplitude value of the EMF of the additional winding 10, so it does not turn on, does not shunt the excitation winding 9, does not change the current in it, and accordingly the synchronizing moment electrolytes the asynchronous moment. 45 Formula of Invention Synchronous motor with electromagnetic excitation auth. St. No. 1325629, characterized in that, in order to increase the specific starting .moment by  50 units of mass of the machine, it is equipped with a driver connected in parallel with the winding