SU444708A1 - Electromagnetic Conveyor Drive - Google Patents

Description

one

This invention relates to industrial vehicles.

Electromagnetic conveyor drives are known, which contain linear asynchronous motors located along the contour of an infinitely closed traction unit.

The purpose of the invention is to increase the traction capacity of the shchvod and simplify its design.

For this purpose, the motors of the proposed drive are made in the form of several stator windings, between which are three-phase rotors with electromagnets fed by the secondary current of the rotors

Figs, I depicts the described drive, a general view; Fig, 2 section along A-A,

The stator core I is a stack of steel sheets. In the grooves of the core are laid separate, independent from each other three-phase windings, the active area of which is equal to the rotor.

The number of three-phase windings laid on one stator strap is equal to the number of rotors simultaneously between the stators,

The ferromagnetic rotor 2 consists of a core with grooves in which a three-phase winding is laid. Electromagnets 3 are pivotally connected to the rotor. Mobility of electromagnets

in the vertical plane, it provides reliable contact with the working elements of 4 tons of the contacting body (chain) of the batt in cases where these elements are mokhut skewed or deformed. The rotors are provided with rollers 6 and move in directions 7 and 8,

Winding of double-sided rotor

triangle included. 0, but the nominal outputs of the upper and lower windings are closed together. Such inclusion of the rotor windings makes it possible to reduce the magnetic noise of the linear asynchronous day i-a-resolution and increase the stability of the rotor movement.

The windings of electromagnets podklhEy to the general conclusions of the rotor windings.

When three-handed non-independent of each other windings of stator I into an AC network, a running electromagnetic field of one direction for all engines occurs. This field creates a variable current and direction in the rotor. Due to the interaction of the traveling electromagnetic fields of the stators with the secondary currents of the rotor, the latter is set in motion and develops a certain pulling force, which is transmitted to the working elements of the traction carrier.

on the conveyor with the help of magnetic coupling of electromagnets fed by rotor currents.

Subject invention

Electromagnetic conveyor drive containing linear asynchronous drives located

along the contour of an infinitely closed traction organ, characterized in that, in order to increase the drive capacity and simplify its design, the motors are made in the form of several stator windings, between which 1 and 3 are located three-phase rotors with electromagnets fed by the secondary current of the rotors,

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