SU1474036A1 - Conveyer magnetic drive - Google Patents

Abstract

The invention relates to a lifting and transport machinery and m. used in engineering, electrical and other industries. The goal is to simplify the design. The magnetic drive includes a driving traction body with insulated magnetically conductive elements (MPE) installed in it and a source of magnetic field. The latter is made in the form of a permanent magnet 3 placed between the inductors (I) 1.2. The MPE is located in the body of the endless conveyor belt, disk, drum, etc. They are made of a ferromagnetic material with a low Curie point (for example, from a nickel-iron alloy with T = 85 ° C. When turned on, for example, I1 (I2 is turned off), it induces points in the MPE contours of the conveyor 4 with its field. actions I1. The contours quickly heat up and transfer to the paramagnetic state. Exit from the action zone I1, the mass of the MPE contours constantly cool down, the transition again to the ferromagnetic state. Due to this, the movement of the conveyor occurs continuously.

Description

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The invention relates to a lifting and transport machinery, in particular to magnetic transport devices for various goods, and can be used in the engineering, electrical and other industries.

The purpose of the invention is to simplify the design.

To achieve this goal, a magnetic conveyor drive with a magnetic field source uses a conveyor belt that contains insulated from one another closed drive loops made of low Curie point ferromagnetic material, the magnetic field source being in the form of a permanent magnet placed between two inducers.

FIG. I shows the proposed drive, a general view; in fig. 2 is a view A of FIG. one.

The drive includes left 1 and right 2 inductors, which are coils (cylindrical or flat, spiral), consisting of a certain number of turns of copper wire or a tube cooled by water (depending on the frequency and power of the alternating magnetic field created by the inductors), constant a magnet 3, a conveyor 4 in the form of an endless conveyor belt, a disk, a drum and the like, containing in its body thin, conductive contours 5 insulated from one another, made of a low-precision ferromagnetic material oh Curie (e.g., a nickel-iron alloy with t- 85 ° C). The contours can be used in any shape, in particular, they can be rings (Fig. 2). The contours in the conveyor body must be close to one another in order to form a ferromagnetic mass with the density and volume necessary to create sufficient magnetic force. With

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water also contains zones b of the heating effect of inductors 1 and 2.

The drive works as follows. When you turn on, for example, inductor 1

5 (inductor 2 is turned off), with its field it induces currents in the circuits 5 of the conveyor 4, which are in the zone of the heating effect of inductor 1, the circuits quickly heat up and go into a paramagnetic state

1P (the rapid heating of the circuits is facilitated by their electrical and, therefore, thermal insulation from each other, as well as a small thickness). Near the poles of the permanent magnet 3, they appear to be ferromagnetic on the right, and on the left, the paramagnetic mass, this creates

-J5 is the magnetic force that drives the trans-porter (in this case, the tape) in motion, as shown in the arrow in FIG. . Moving, the conveyor brings to the zone of action of inductor I a new ferromagnetic mass of the contours, which transforms into a para magnetic state, etc. The mass of the contours coming out of the zone of the inductor gradually cools down, the transition again to the ferromagnetic state. Thus, the movement of the conveyor occurs

-jc continuously. To change the direction of movement of the conveyor to the opposite one, the inductor 1 is turned off and the inductor 2 is turned on.

Claims (1)

Invention Formula thirty A magnetic drive of the conveyor, including a driving body with insulated magnetically conducting elements installed in it and a magnetic field source, characterized in that, in order to simplify the design, the magnetic conducting elements are made of a ferromagnetic material with a low Curie point, and the field is made in the form of a permanent magnet and two inductors, between which a magnet is placed. id