SU1098086A1 - Field structure for linear motor - Google Patents

Abstract

1. A LINEAR ELECTRIC MOTOR INDUCTOR containing a laminated magnetic conductor including a toothed layer and a PMO, a winding laid into the grooves of the magnetic conductor —and secured to the bottom of a slot wedge, and a protective cover covering the frontal parts of the winding and a toothed layer characterized in that simplify the design and increase operational capabilities, the protective casing on the side of the toothed layer is provided with stiffening ribs installed in the slots of the magnetic core with protrusions, and the individual groove wedges are made stepwise such once that between the surface winding steps and wedges are formed by the window, in which the protuberances are ribs mounted. 2. The inductor according to claim 1, is also distinguished by the fact that, in order to increase the reliability of fastening the zhtstsitnogo case to the dentate layer, the stiffeners of the bone are ferromagnetic. (L 3. Inductor popp. 1 and 2, which is distinguished by the fact that ferromagnetic stiffening ribs are evenly distributed across the phases of the inductor winding.

Description

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ui.1 The invention relates to linear motors, in particular to the design of the inductor, and can be used in the drive of industrial and passenger transport. A linear inductor of a motor is known, containing a magnetic core, a winding laid in the slots of a magnetic conductor, and a protective casing made in the form of two parts, having the shape of combs l. The disadvantages of this inductor are the complexity of the design of the skin, the difficulty of accessing, winding the installation and removing the case. . The closest in technical essence to the present invention is an inductor of a linear electric motor containing a laminated magnetic circuit including a toothed layer and a magnetic field, a winding laid into the grooves of the magnetic conductor and secured in them with a groove wedge, and a protective cover covering the frontal parts of the winding and the toothed layer 2J, The disadvantages of this solution are the complexity of the design and the labor capacity of the current service. This is due to the fact that attaching the protective casing to the toothed layer of the inductor requires the presence of additional liners with holes distributed along the magnetic cores distributed over the width and length of the magnetic core, which complicates the design of the inductor, makes it low-tech, increases size and cost. In addition, attaching the protective casing to the structural elements of the inductor, carried out from the side of the frame, makes it difficult to carry out maintenance work and preventive examinations, iaK as a specified place of fastening can be difficult to access and remove the casing and its subsequent Units must be dismantled from the installation plane, which in some cases, according to the conditions of operation, is impractical. This makes the current maintenance of the inductor time consuming and, in some cases, impossible. The purpose of the invention is to simplify the design, increase the operational capabilities of the inductor, as well as increase the reliability of attaching the protective cover to the toothed layer. This goal is achieved by the fact that in an inductor of a linear electric motor containing a laminated magnetic circuit including a toothed layer and a PMO, a winding laid into the grooves of the magnetic core and secured in them with a slot wedge, and a protective casing covering the frontal parts of the winding and the toothed layer, a protective casing from the side of the toothed layer is provided with stiffening ribs with protrusions installed in the slots of the magnetic core, and the individual groove wedges of the inductor are made stepwise so that between the surface of the winding and the steps of the CL Yin formed windows in which the projections of the ribs. To increase the reliability of fastening the protective casing to the toothed layer of the magnetic circuit, during the operation of the inductor, the ribs can be made ferromagnetic. In addition, in order to reduce electromagnetic asymmetry, the ferromagnetic stiffening ribs of the protective casing can be distributed evenly across the phases of the inductor winding. FIG. 1 shows a linear electric motor inductor, a slit; in fig. 2 - protective casing with non-magnetic stiffening ribs with protrusions; in fig. 3 - linear motor inductor without protective casing with step wedges installed in separate grooves; in fig. 4 - non-magnetic stiffener of the protective housing with a protrusion; in fig. 5 - step mortise wedge. The inductor of a linear electric motor contains a laminated magnetic conductor that includes toothed layer 1 and rmo 2. A winding 3 is fastened in the grooves of the toothed layer and secured with slot wrench 4. The toothed layer I and the frontal parts of the winding 3 are covered with a protective casing 5 fixed from the frontal parts of the winding 3 to the frame b of the inductor by means of detachable joints 7. The protective casing 5 on the side of the toothed layer 1 is provided with stiffening ribs 8 with protrusions 9. In separate grooves of the inductor there are stepped wedges 10, which, due to their configuration Braz winding between surface 3 and the step IIokna 12 into which the protrusions 9 stiffeners 8 a protective casing 5. The protective cover may be formed as a non-magnetic and electrically insulating material of. The stiffening ribs 8 can be made ferromagnetic, which provides increased reliability of fastening the casing to the magnetic conductor due to the forces of electromagnetic attraction of the casing edges to the teeth of the inductor. If the stiffeners are made ferromagnetic, they can be evenly spaced along the phases of the inductor (Fig. 3). The device works as follows. When power is applied through the windings, current flows and a magnetic

the field interacting with the currents of the secondary element, as a result of which a longitudinal force is created.

The fastening of the protective casing 5 to the toothed layer 1 of the magnetic core on the active surface of the inductor reduces the complexity of maintenance, shortens the periods between routine inspections, which increases the reliability and durability of the inductor.

Making stiffening ribs 8 of protective casing 5 from ferromagnetic

The material makes it possible to increase the reliability of fastening the casing to the toothed layer of the magnetic circuit during the operation of the inductor due to the appearance of additional magnetic forces of the casing ribs to the teeth of the magnetic core.

Uniform distribution of ferromagnetic stiffeners 8 of the protective casing 5 across the phases of the winding 3 does not change the inductive

0 resistances of the phases of the winding, therefore, an increase in the asymmetry of the currents in the phases of the winding in this case does not occur.

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Claims (2)

1. LINEAR MOTOR INDUCTOR, comprising a lined magnetic circuit, including a tooth layer and a yoke, a winding laid in the grooves of the magnetic circuit ή fixed to the bottom with grooved wedges, and a protective casing covering the frontal parts of the connection of reliability of fastening of the protective casing to the tooth layer, ribs the bones are made ferromagnetic. 3. Inductor popp. 1 and 2, due to the fact that the ferromagnetic stiffeners are distributed uniformly over the phases of the inductor winding 1 109