SU947661A1 - Rotor contactless electromagnetic drive - Google Patents

Description

The invention relates to a balancing technique and can be used by aoeeiHO in mechanical engineering to set a product to its original position for processing and bringing it into rotation.

A non-contact electromagnetic actuator is known, comprising a base, supports for the rotor, a stator and an alternating current source disposed thereon. The stator is made deployed and installed parallel to the plane of oscillation of the rotor with the ability to adjust the gap between the rotor and the stator ll.

The closest to the technical essence of the invention is a non-contact electromagnetic drive of the rotors, comprising a base, supports for the rotor placed on it, a stator and an AC source connected to the stator windings. When the power is turned on, the stator windings, made in the form of rings with pole pieces, on which the windings are placed, produce a rotating magnetic field, causing the rotor to rotate with accelerated acceleration. After that, the rotor is balanced. .

The disadvantage of the drives is the non- possibility of removing the rotors from the balancing position at the end of the balancing cycle, which reduces the functionality.

The purpose of the invention is the expansion of functional capabilities by using a drive as a manipulator.

The goal is achieved by the fact that in a contactless electromagnet. The main drive containing the base, the supports for the rotor placed on it, the stator and the AC source connected to the stator windings, the stator is designed as a lever arc grip, the axis of rotation of which is fixed to the base, and the drive is supplied with a DC source also connected to the windings the stator, and the control unit positioning.

FIG. 1 of “5 contactless electromagnetic actuator, FIG. 2 drive control circuit.

Claims (2)

The drive comprises a base 1, supports 2 on the rotor 3 placed on it; the stator 4, made in the form of a lever arc grip, the rotation axis 5 of which is fixed on the base 1, the alternating current source b in the form of a three-phase current generator connected through thyristors 1-9 to the stator windings 4, the DC source 10 connected through thyristors 11-13 to the windings of the stator 4, and block 14 for controlling the position of the gripper 4, which is connected with controlling the electrode of the thyristors 7-13. The drive operates as follows. In the initial position, the stator 4 covers the balanced rotor 3 and drives it to rotate. For this, the signal from the control unit 14 opens the thyristors 7–9, thus connecting the source b to the stator windings 4, at that the thyristors 11-13 are closed. Due to the appearance of a rotating magnetic field, the rotor 3 is set to rotate. When the rotor reaches the operating speed, the control unit 14 maintains these turns, after which the rotor 3 is balanced by a known method. At the end of the balancing cycle, the signal from the control unit 14 opens the thyristors 11-13 and closes the thyristors 7-9, thus connecting the stator 4 to a DC source 10. In this case, the stator 4 goes into the operation mode of the permanent magnet and is gripped by the rotor 3, which, under the action of the magnetic field, instantly stops and, attracting the stator, as a permanent magnet, leaves the:. bearings 2. Thereafter, by turning the stator lever 4 by means of the axis of rotation 5, the balanced rotor 3 is taken out of the balance zone and transferred to the guide rails 15 of the receiving hopper (not shown). When the rotor 3 is tilted with the inclined guides 15, the stator 4 is disconnected by locking the thyristors 11-13 by a signal from the control unit 14, the rotor 3 is released, and lowered into the receiving hopper, after which the drive is reset. Combining the drive of the balancing rotor with the ability to grip and transfer it allows to expand its functionality. Claims of the invention: Beskon: an effective electromagnetic rotor drive comprising a base, supports for the rotor placed on it, a stator and an AC source connected to the stator windings, characterized in that, in order to extend the functionality by using it as a manipulator, the stator is made in the form of lever arc grip, the axis of rotation; which is fixed on the base, and the drive is supplied with a DC power source, also connected to the stator windings, and a gripping position control unit. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 246143, cl. B 21 D 43/20, 1968. 2. USSR author's certificate 232572, cl. G 01 M 1 / On, 1966 (prototype),