SU877729A1 - Linear electric motor inductor - Google Patents

Description

(54) LINEAR MOTOR inductor

Claims (2)

The invention relates to electrical engineering, and more specifically relates to inductors of linear asynchronous electric motors, and is intended for transporting electrically conductive metal sheets, and can also be used in various electric drives with linear or reciprocating movement of working bodies. The linear motor inductor is known, which contains magnetic conductors made of separate NIKOV cores with multiphase windings 1. However, these inductors do not allow their dimensions to be changed during operation. A linear electric motor inductor is also known, which contains a series of one behind the other in the direction of the scientific research institute of movement of transversely laminated cores with windings and an inductor size control device that allows the distance between the cores to change in the direction of movement. However The transverse dimensions of the magnetic cores, which in turn prevent the movement of sheets of different transverse dimensions. The purpose of the invention is to enhance the functionality by adjusting the lateral distance between the cores of the inductor. This goal is achieved by the fact that the device for adjusting the size of the inductor is made in the form of two articulated parallelograms, each of which is connected to a corresponding extreme row of cores and is mounted for movement along its fixed rod, and the cores of the inductor are transversely connected by springs. Figure 1 shows the inductor of a linear electric motor without windings, top view; figure 2 - the same, with a decrease in the length and width of the inductor. The inductor of a linear electric motor (Fig. 1) contains a magnetic conductor made of strings formed by transversely laminated cores 1, arranged one after the other in the direction of movement of a running magnetic field, with n at least two, with a multiphase winding (not shown) . The coreed cores 1 in the transverse direction are connected by springs 2. The cores 1 of the extreme longitudinal rows are connected by means of a hinged parallelogram 3 with rod 4. Sliders 5, for which the rods are with guides, can move along the rods 4. Each rod 4 has a thread at one end, and the other end is fixed. The ends of the threaded rods 4 are fitted with sleeves b and the adjusting nuts 7 are screwed on. The dimensions of the inductor are changed by rotating the adjusting nuts 7 (Fig. 2). An embodiment of the inductor is possible when the thread is made on both sides of each control rod. In this case, when the inductor is resized within the boundaries of the regulating rods, the inductor can take any position (be in the center of the square, be shifted to one side or the opposite, move to the right or left). The inductor works as follows. When a multiphase winding is connected to a voltage source, it excites a traveling field, which intersects the electrically conducting sheet and causes the emf in it, under the action of which eddy currents interact with the traveling magnetic field. When reducing the size of the moving sheets, the regulating Gaia rotate and change the size of the inductor. The invention of the inductor of a linear electric motor, containing a series of transversely laminated cores with windings in the direction of movement and an inductor size control device that allows the distance between the cores to vary in the direction of movement, characterized in that adjusting the lateral distance between the cores, the device for adjusting the size of the inductor, is made in the form of two articulated parallelograms, each of which it is connected with the corresponding extreme adjacent cores and mounted vozl1zhnostyu its movement along the stationary rod and the cores connected in the transverse direction by springs. Sources of information taken into account in the examination 1.Patent of France No. 1592065, cl. H 02 K, 1965. 2. USSR author's certificate for application number 2584449 / 24-07, cl. H 02 K 41/02, 1978.