SU1220068A1 - Induction motor with open magnetic circuit - Google Patents

Abstract

The invention relates to asynchronous linear electric motors with an inductor and a core, the winding of which consists of individual short-circuited (k.3.) Circuits. According to the invention The core winding contours consist of forward and reverse branches. The cores of the forward and reverse branches of the contours are located in the same grooves in two layers. The winding contours t are sequentially arranged in the form of two rows. The first rod - the contour of each row is located in one groove with the last rod of the previous contour of this row. This embodiment of the core winding allows to simplify the design of the motor and increase the utilization rate of the winding. 1 il. Oi 00

Description

The invention relates to electrical engineering, in particular to linear asynchronous motors, and can be used in devices requiring linear movement of a moving element.

The purpose of the invention is to simplify the design and increase the utilization of the winding.

The drawing contour depicted. Propose the motor and the scheme of its winding cor.

The motor contains a bipolar alternating current inductor 1 (inductor winding is not shown) and measles 2 with insulated winding 3 placed on it. The length of the core exceeds the lengths of the inductor by the motor stroke. The magnitude of the pole division of the inductor and the core is equal. The winding consists of separate circuits that are insulated from one another and have a forward and reverse branch. For example, the winding rods a, b, c, d form a straight contour branch, and the rods e, d, e, b are reversed. The winding is double-layered, the rods of the forward and reverse branches of the contours are located in the same and the same grooves in two layers. The winding contours are sequentially arranged in the form of two rows a, b, her, dd, e and g, ii. , form one row, and the contours ... P2, m and n, oo, pp, RR, t - another. The first rod of the contour of each row is located in the same groove with the po, the last rod of the previous contour of this row. The contours of different rows are located in different grooves with offset one relative to the other by half the length of the contour.

The engine works as follows.

The interaction of the running floor, created by the inductor, and induced in the winding of the currents, causes

, Contours ii, kk.,.

the appearance of pulling force between the inductor and the core, under the action of which the mutual displacement occurs. Completion of the windings of the core with a pole division equal to the pole division of the inductor provides compensation for the EMF induced in the core windings of the core at the input and output of the inductor core as a result of the edge effect. Full compensation of the EMF occurs when the inductor core is completely overlapped by the core loop. At the moment when an inductor passes the joint between adjacent circuits, a short-term transient pro- flow occurs. the process and the increase in losses from the action of the emf edge effect. The effect of the latter is reduced by arranging the contours in two rows, in which the points of the contour junctions do not coincide.

By choosing the length of the contours, it is possible to provide any given resistance of the core contours, which allows the engine to be designed with a given shape of the characteristic drag force.

Claims (1)

Invention Formula An open-ended asynchronous motor containing an inductor and measles with insulated winding, consisting of separate closed loop circuits, characterized in that, in order to simplify the design and increase the efficiency of the winding core, the short-circuited core windings of the core winding consist of forward and reverse branches , the rods of the forward and reverse branches are arranged in pairs in the form of a two-layer winding, and the length of each contour of the winding of the core is an integer number of times the magnitude of the pole division of the inductor. 2G