RU2013848C1 - Linear induction motor - Google Patents

Abstract

FIELD: electric drives. SUBSTANCE: motor has inductor 1 with core and multiphase winding. Strip 2 is installed on inductor. Secondary component has core 3 whose slots accommodate conducting bars 4 closed by brushes 5 installed on strip 2. Ends of bars 4 are mounted in bearings 6. Brush length equals inductor core length, therefore bars located beyond inductor will not carry current. EFFECT: elimination of secondary end effect. 3 dwg

Description

 The invention relates to electrical engineering, and more specifically to linear induction motors, and is intended for electric drives with rectilinear and reciprocating movement of the working bodies.

 Known linear induction motor containing an inductor made of a magnetic circuit with a three-phase winding and a secondary element [1].

 The closest in technical essence to the invention is a linear induction motor containing an inductor consisting of a core with a three-phase winding, and a secondary element consisting of a core and a winding, while the winding consists of rods closed on one side by a ring, and on the other hand the rods are connected to a switching device, where, using brushes, they short-circuit the winding within the core [2].

 The disadvantage of the prototype is the low efficiency.

 The aim of the invention is to increase the efficiency of a linear induction motor.

 This is achieved by the fact that in a linear induction motor containing an inductor consisting of a core with a three-phase winding, and a secondary element consisting of a core and a short-circuited winding, the rods of which are placed in the grooves and closed on one side by a brush made of an electrically conductive material, according to the invention , the rods are made round, and the diameter of the rods is less than the diameter of the grooves, the rods are installed in bearings located on both sides of the core of the secondary element, and the inductor is equipped with a second brush, winding rods abutting the secondary element on the other hand, the brushes equal in length to the inductor.

 In FIG. 1 shows a linear induction motor, General view; in FIG. 2 - section of the groove of the secondary element; in FIG. 3 is a top view of the winding of the secondary element when the rods are closed with brushes.

 Linear induction motor (Fig. 1) contains an inductor 1 with a core and with a three-phase winding, a strap 2 made of insulating material is installed on top of the inductor. The secondary element consists of a core 3 and round conductive rods 4 of a short-circuited winding, placed in the grooves of the core 3. The rods 4 are closed by brushes 5 of electrically conductive material placed on top of the rods. The length of the brushes 5 is equal to the length of the inductor 1. The brushes are fixed to the bar 2. The rods 4 are mounted in bearings 6 located on both sides of the core 3.

 In FIG. 2 shows the location of the rod 4 with a gap in the groove of the core 3; in FIG. 3 - closure of the rods 4 with brushes 5.

 Consider the operation of this linear induction motor.

 When the winding of the inductor 1 is connected to a three-phase voltage source, a traveling magnetic field is excited crossing the rods 4 of the secondary element and inducing electrically conductive forces into them. Brushes 5 close part of the rods 4 located under the inductor 1, forming a short-circuited winding (Fig. 3). In this case, under the action of electromotive forces, a current will flow in the rods 4, which will interact with the traveling magnetic field.

 As a result of this interaction, traction is generated, which moves the inductor in the direction opposite to the movement of the traveling magnetic field. The motor inductor will move, resting brushes 5 on the round rods 4, which in this case rotate in bearings 6 with low friction. In the rods 4 located outside the inductor 1, the current will not flow, since there is no electric circuit (these rods are open), which eliminates the appearance of a secondary end effect.

Claims (1)

 A LINEAR ASYNCHRONOUS MOTOR, comprising an inductor consisting of a core and a three-phase winding, and a secondary element including a core and a short-circuited winding, the rods of which are placed in the grooves and closed on one side by an electrically conductive brush, characterized in that the secondary winding rods are made round and placed in the grooves with a gap, while the rods are installed in bearings on both sides of the core of the secondary element, and the inductor is equipped with an additional brush, while the length of the brushes is equal to the length of the core of the inductor.

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