SU1038390A1 - Double member drive - Google Patents

Abstract

A DRIVE BODY DRIVE containing a stator, a rotor and a gas-magnetic support with readers made in the stator magnetic circuit, characterized in that, with an increase in drive efficiency by providing an optimal magnetic and gadic gaps, the end surface of the rotor or stator has an armature support throughout the entire gas-magnetic support. from non-semiconductor conductor.

Description

The invention relates to a pinch equipment and is intended to drive a ring of a solenoid cord.

A known drive of a torsional organ comprising a stator, a rotor, and a gas-magnetic opera with feeders made of a magnetic circuit of stator i.

Lack of drive - increased energy consumption.

The purpose of the invention is to increase the drive efficiency by providing optical and gas gaps.

This goal is achieved by the fact that, in the drive of a torsional organ, containing a stator, rotor and gas magnetic support with feeders made in the stator magnetic circuit, the end surface of the rotor or stator is provided with a plate and non-magnetic conductive material all over the gas magnetic support.

At 491G. 1 shows the drive, a general view; in fig. 2 - the node in FIG. one.

The drive of the torsional body contains the rotor 1, made in the form of a spinning ring, and the stator 2 of the face asynchronous electric motor. In the laminated magnetic core 3, a winding 4 is laid and feeders 5 are inserted for supplying compressed gas. On the end surfaces of the stator 2 and the rotor 1 there are annular concentrically arranged teeth 6, which are covered with plates 7 and non-magnetic conductive material around the entire perimeter of the gas-magnetic support. Inside the stator 2 there is a package of 8 with acquired fibers.

The drive works as follows.

The compressed gas flows through the feeders 5 into the working gap of the submultiplier, optic / RPPGp gGp g1 7

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a small amount of which is 30100 microns. The rotor 1 is raised on a gas cushion. After applying voltage to the winding 4, the rotor begins to rotate. The radial centering of the rotor by the working electromagnetic field of the stator is as follows. It is assumed that the conductivity of steel is infinitely high and there are no currents on the surface of the tooth zone. Ei and the axes of the teeth of the rotor and the stator coincide, then on the lateral surfaces of the teeth there will be the same distribution of the magnitude of the induction, as a result of which two identical forces normally applied to the surface of the tooth appear. The tangential components of these forces are equal and oppositely directed, i.e. magnetic ceigrigative force, equal to the difference of these forces, is equal to zero. The vertical components add up, creating the force of attraction of the rotor to the stator. The magnitude of the attractive force is determined by the magnitude of the magnetic gap, the optimum size of 20O-3 50 microns is created by the plates 7 with a thickness of 100-150 microns attached to the stator and the rotor, and the air gap. When teeth are mixed one relative to another, the distribution of magnetic induction and its magnitude on the side surfaces of the teeth are not the same. The tangent of the diagonal components of the magnetic force of the side surfaces of the tooth will no longer be equal. As a result, a tangential vortex arises, tending to return the rotor to its previous position, corresponding to the minimum potential energy of the system.

The environmental impact of the use of the invention is achieved by increasing the efficiency of the drive.

Claims (1)

TORQUE DRIVE, containing a stator, rotor and gas support with feeders made in the stator magnetic circuit, characterized in that, with a chain for increasing drive efficiency by providing optimal magnetic and annual clearances, the rotor face surface. The stator or stator is equipped with a plate of non-magnetic conductive material throughout the entire cerimeter of the gas-magnetic support. □ about