SU1007164A1 - Single-phase linear induction motor - Google Patents

Abstract

SINGLE-PHASE LINEAR .ASYNCHRONOUS MOTOR, containing an inductor with a magnetic core and a concentrated winding located on partially shielded magnetic core teeth, and non-winding measles made of electrically conductive material, distinguished by The magnetic core is mounted with a rectangular frame, to the ends of which rods are attached, and on the inductor, from its two ends, a limiter is installed, having holes in the direction of the kilometer, which include tangi, with a screw passing through the w (one of the lanyard spring and the hole in the stopper and the adjusting nut at the end of the adjusting nut attached to one end of the frame, and the short-circuited coils are placed in the working gap on the surface of the teeth and are connected by non-magnetic jumpers to the frame .. ) and

Description

The invention relates to electrical cnm machines, and more specifically to linear asynchronous electric motors, and is intended for various electric drives with linear and reciprocating movement of the working organs. A single-phase linear asynchronous motor is known, which contains an inductor with a magnetic core and concentrated winding and non-winding measles (reactive tire) made of an electrically conductive material 11 However, the design of such a linear asynchronous motor does not allow adjusting the tractive force of the machine at given frequencies of feeding voltage. The closest to p6 of the technical essence of the invention is a single-phase linear asynchronous motor containing an inductor with a magnetic core and a concentrated winding located on the partially shielded magnetic core, and a groundless measles made of an electrically conductive material t2l. However, this engine also does not allow the adjustment of the thrust force. The aim of the invention is to regulate the thrust force. The goal is achieved by the fact that in a single-phase linear asynchronous motor containing an inductor with a magnetic core and a concentrated winding located on the partially shielded magnetic circuit teeth | free-of-charge measles, made of electrically conductive material, in the working gap along the perimeter of the magnetic core is installed a rectangular frame, to the ends of which rods are attached, and limiters are installed on the inductor at its two ends, and have holes and guides in which there are barbells, moreover, a screw is attached to one end of the frame, passing through a cylindrical spring and a hole in the stopper and having an adjusting nut at the end, and short-circuited coils are placed in the working gap on the surface of the teeth and are connected to magnetic bridges the frame. FIG. 1 shows a linear asynron motor, a general perspective view, in FIG. 2 - engine, side view (schematically); in fig. 3 is a bottom view of the poles of the inductor of the engine and the frame, carrying a short-circuited coil. A linear asynchronous motor (Fig. 1} contains an inductor with a magnetic core 1 with a concentrated winding 2 located on the teeth 3 of the magnetic conductor 1. The inductor poles are chaotically shielded with short-circuited coils 4. Electrofluid-free measles 5 are made of electrically conductive material. Short-circuited coils 4 are installed with the possibility of movement and are connected by rigid rods 6 to the frame 7, on one end of which there is a screw 8 passing through a spring 9 located between the fixed stop 10 with a hole 11 and the frame 7 made and insulating material. At the end of the screw 8, the adjusting nut 12 is screwed. The frame at both ends has guide chthangles 13 and 14 (Fig. 3), which fit into the guides 15 and 16 of the restraints 10. Short-circuited coils 4 chaotically shield the teeth of the magnetic circuit 1 (Fig. 2). The device operates as follows. When a linear asynchronous electric motor is connected to a single-phase voltage source, a magnetic field (inductor partially shielded) that intersects the electrically conductive is excited in space and time. measles and b present is induced electromotive forces therein. Under the action of electromotive forces in the cortex, eddy currents arise, interacting with the inductor magnetic field. As a result of this interaction, a tractive force that moves the measles is created. In order to change the magnitude of the pull force, the degree of shielding of the inductor poles by the closed-loop coils is changed, for which purpose the nut 12 is rotated (Fig. 1). When the nuts 12 are compressed, the spring is compressed. 9 (Fig. 1) and the rod 8 is moved, the frame 7 is shifted and, accordingly, the short-circuited coils 4. By comparison with the known device, smooth control of the pulling force of the linear asynchronous motor is obtained, while the design of the inductor is simple, inexpensive and technological. in and persecution.

The change in the characteristics of a linear acBHxpotmoro motor can be made at both a fixed frequency, power, and a variable one.

Drive movement of the winding loop and the short-circuited turns

there may be a manual, similar to that described above, an electromagnetic, hydraulic, pneumatic, with both local and remote control, allowing the engine to change the characteristics according to a given law.

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Claims (1)

SINGLE-PHASE LINEAR ASYNCHRONOUS MOTOR, comprising an inductor with a magnetic circuit and a concentrated winding located on partially shielded teeth of the magnetic circuit, and a winding-free anchor made of electrically conductive material, characterized in that, in order to regulate the traction force, a rectangular is installed in the working gap around the perimeter of the magnetic circuit the frame, to the ends of which the rods are attached, and on the inductor, from its two ends, limiters are installed having holes and guides into which the rods enter, etc. than one frame end is attached a screw passing through a coil spring and an opening in the restrictor and 'having an adjusting nut on the end and short-circuited windings arranged in the gap on the surface of teeth and are connected with the frame nonmagnetic webs. -SU „., 1,007,164 in