SU1241365A1 - Field structure of linear induction motor - Google Patents

Abstract

The invention relates to electrical construction and is aimed at generating energy indices by reducing the non-magnetic gap of the inductor of a linear asynchronous motor used, for example, to move ferromagnetic sheets into the working area. The inductor contains a frame 1, which covers the rome 2. Around the frame 1 and the frame 2 are placed the coils 3 of the multi-phase winding. Supports 4 are attached to the frame between the coils. In the supports, the rollers 5 mounted on axis 6 rotate freely. Installing ferrous magnetic rollers instead of magnetic conductor teeth or installing rollers at the ends of the teeth eliminates the sticking of ferromagnetic sheets due to their deflection and minimizes airflow. the gap in the magnetic system, which improves the energy performance of the device. 2 hp f-ly, 5 ill. i о: с СДЭ St СЛ FIG. one

Description

The invention relates to electrical engineering, in particular to inductors of linear asynchronous motors used, for example, to move ferromagnetic sheets into the working area,

The purpose of the invention is to increase energy performance by reducing the non-magnetic gap.

FIG. 1 shows a longitudinally laminated inductor of a linear asynchronous motor with ferromagnetic rollers installed instead of teeth, side view; in FIG. 2, too, is a perspective view; in fig. 3 - inductor with a transversely laminated magnetic core and ferro nitric rollers mounted on the ends of the teeth, axonometric view; in fig. 4 - transversely laminated inductor, on the teeth of which ferromagnetic rollers are installed with alternation, axonometric view; in fig. 5 an inductor with a longitudinal shaft; a part of the teeth of which is made in the form of ferromagnetic rollers.

The inductor contains a frame 1, which encompasses Rmo 2. Around the bed 1 and Rma 2 are placed the coils 3 of the multi-phase winding. Supports 4 are attached to the bed 1 between the coils 3. In the supports 4, the rollers 5 rotate on the axis 6 freely rotate. The coils of the multiphase winding from the control unit 7 are energized, when activated, the ferromagnetic sheet 8 is attracted to the rollers 5 and moves in the direction indicated an arrow.

The inductor works as follows,.

When coils 3 of a multiphase winding are connected to a power source, a running electromagnetic field 1 is excited, the attracting ferromagnetic sheet 8 to the rollers 5, the running electromagnetic field crossing the ferromagnetic sheet 8, leads in it

EMF, causing eddy currents flow in sheet 8.

The eddy currents interact with the Begush, their magnetic field. As a result of this interaction, a thrust force is generated, which moves the ferromagnetic sheet along the rollers 5. The running magnetic field is closed along the p-2 of the magnetic core, the air gap between, the casing 2 and the caster 5, the rolled rollers 5 and the ferromagnetic sheet 8

The ferromagnetic sheet is captured from the foot from a distance of 2–5 cm and is pressed against the rollers that directly separate the stationary part of the inductor magnetic circuit and the sheet. This ycTi,;: - sticking of ferromagnetic sheets, especially thin ones.

The installation of ferromagnetic rollers instead of a zinc magnetic core or the installation of rollers at the ends of the teeth eliminates the sticking of ferromagnetic sheets due to their deflection and minimizes the air gap in the magnetic system, which improves the energy performance of the device.

Claims (3)

1. The inductor of a linear asynchronous motor containing a magnetic core with a toothed zone and a multiphase winding and guide elements in the form of rollers, characterized in that in order to achieve energy performance by reducing the nonmagnetic gap, the rollers are made of ferromagnetic material and mounted on the zone. , 2, and {1 conductor according to claim 1, characterized in that the rollers are mounted at the ends of the teeth. 3. Inductor according to claim 1, characterized in that the teeth of the magnetic circuit are formed in the form of rollers. H 2 3 H 5 V FIG. 2 FIG 3 fie. R 2 h 5 6 Compiled by S. Vengrzhanovska Editor I. Casarda Tehred O.SopkoKorr-vectorM. Demchik  Order 3607/50 Circulation 631 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Driveway gke FIG. five