SU746825A1 - Electric drive of cotton-harvesting machine spindles - Google Patents

Description

(54) COTTON SPINDLE ELECTRIC DRIVE - The invention relates to electric machines used primarily for driving the spindles of the harvesting machine and the cotton harvesting machine. Electric machines with a full-rotor, made of non-magnetic material with an external and internal stator l are known. The disadvantage of these machines is the difficulty of using them to drive the cotton picker. Also known is the electrical power of the cotton picker | 2l, containing a stationary stator with three three-phase windings / w, one for each half and rotors mounted around it. The number of rotors is chosen equal to the number of spindles of the harvesting drum. The rotor shafts are connected with a spindle drum. The rotors have the ability to rotate around itself and simultaneously around the stator. - In this drive, the rotors are made of electrical steel with short-closed winding. Possessing a relatively large mass, these rotors have an increased moment of inerMASH, which degrades the working diagram of the drive in the reversing mode of operation and increases its weight indicators. The purpose of the invention is to reduce the moment of inertia of the rotors of the weight indicators of the drive spindle. This is achieved by the fact that in the known drive of the spindles the rotors are made hollow of a non-magnetic material, and inside them, fixed arcuate magnetic cores are installed on the stator side. Magnetically conducting inserts are placed between the rotors. The drawing shows the electric drive of the spindles of the cotton picker, a general view. The electric drive of the spindles contains a stationary stator 1 and hollow rotors 2 of non-magnetic material mounted around it. On the stator are three-phase windings 3 and 4, one for each half. Inside the hollow rotors are installed, fixed arcuate magnetic cores 5, -converted with the convex side to the stator against the magnetoconducting inserts b, located in the whole gap between the stator and the rail, -

Varying the voltage to the three phase windings 3 and 4 of the stationary stator 1 on one half of the stator creates a traveling magnetic field in one direction, and in the other opposite direction. The magnetic flux, the passage through the magnetically conducting inserts b, crosses the walls of the rotor 2 and through the internal stationary arcuate magnetic cores 5 returns back to the stator 1. When the rotor walls intersect, a EMF is induced in them by a magnetic flux, causing currents to flow through them. The electromagnetic interaction of the rotor currents with the traveling magnetic field of the stator creates a resultant rotational moment. Hollow rotors connected to the spindles, rotating together with the moving part of the drum of the cotton harvesting machine, go from one zone to another, change the direction of their rotation, and thus work in a constant reversing direction, i.e. perform the regime that is necessary for the technology of harvesting cotton hay.

The use of an electric drive allows to reduce the moment of inertia, which

I improves its work in the reverse mode, contributing to the improvement of the technological performance of the cotton harvesting machine. The use of an arcuate magnetic circuit inside a hollow rotor will allow using only the rotor active zone and reduce the weight indicators of the electric drive of the spindles as a whole.

Claims (2)

1. Lopukhina E.M. and others. Electric machines with a hollow rotor 2. Authors certificate of the USSR 462256, cl. H 02 K 17/02, 1973.