SU1713074A1 - Group induction torque-motor drive - Google Patents

Abstract

This invention relates to electrical engineering and is intended for a group electric ac drive operating in a mode of stabilizing an electromagnetic moment. The aim of the invention is to simplify. The goal is achieved by the fact that "a group asynchronous electric drive additionally introduced a parametric current source 6, a rectifier 5 on diodes and an energy absorber 7. The current source 6 is designed as an inductive-capacitive converter, the input of which is connected in parallel with the stator windings of electric motors 1 and 2 to the mains voltage, and the output is connected to a diode rectifier 5. The energy absorber can be made in the form of a dependent inverter, operating at a constant inversion angle. 1 illustration. • FPS1001О ^ b ^

Description

The invention relates to electrical engineering and can be used in drives with DC motors.

The purpose of the invention is simplification.

The drawing shows a diagram of an electric drive.

A twin-motor torque electric drive contains asynchronous electric motors 1 and 2, the rotor windings of which are connected respectively to bridge uncontrolled rectifiers 3 and 4. The DC outputs of the rectifiers 3 and 4 are connected in a linear manner, and also with the rectifier 5 of the inductive-capacitive converter 6. V a circuit according to series rectifiers 3-5, an energy absorber 7 is introduced, the functions of which can be performed by the active resistance.

To reduce energy losses in the active resistance, the energy absorber 7 parallel to the resistance or instead of it includes a dependent inverter, the AC output of which is connected in parallel to the input of the inductive-capacitive converter 6 and the stator windings of the electric motors 1 and 2. The group momentary asynchronous electric drive is connected to the alternating voltage network by the contactor 8.

The electric drive operates as follows.

With the inclusion of the contactor 8, an inductive-capacitive converter 6 starts to work, which converts a constant current system at the output of the rectifier

5. The constant direct current is switched by the valves of bridge rectifiers 3 and 4, which operate in inverters driven by electric motors 1 and 2. At the same time, constant currents flow in the phases of the rotor windings of electric motors 1 and 2, providing the same electromagnetic moments and, as a result, uniformly accelerated start-up of a group electric drive. Stabilization of rotor currents with a changing static load of electric motors 1 and 2 is achieved due to automatic redistribution of power in the DC circuit. These processes also take place in the static mode of operation of a group electric drive up to the mode of electromagnetic tor-

5. mosaic. Regardless of the operation mode of the group drive, the effective value of the output alternating current of the inductive-capacitive converter 6 is selected based on the thermal load 10 of the rotors of electric motors 1 and 2 not exceeding the nominal value.

Thus, stabilization of rotor currents makes it possible to obtain a group torque electric drive, in the static operating mode 15 of which the speeds of individual electric motors do not depend on the load moment, but are determined only by their design parameters. When using electric motors of the same type with rigid natural mechanical characteristics. With characteristics, a group torque motor can operate in a mode close to that of an electric shaft.

Claims (1)

25 claims A group torque asynchronous electric drive containing several electric motors with phase rotors, 30 stator windings of which are phase-wound and designed to be connected to an alternating voltage network, and rotor windings are connected to the AC input of the corresponding bridge uncontrolled 35 rectifier, In addition, in order to simplify, a parametric current source, a rectifier on diodes and an energy absorber are additionally introduced into it, while the current source is made in the form of an inductive capacitive pre verters, input inductive-capacitive parallel converter connected stator windings of electric motors and energopoglotitelyu, and an output connected with a diode rectifier, a DC output is connected sequentially, in accordance with a rotary uncontrolled rectifiers and energopoglotitelem ps ring scheme.