SU1714764A1 - Line dc electric motor - Google Patents

Abstract

The invention relates to electrical engineering and can be used to drive reciprocating devices. The goal is to reduce t ^^ teh-ray-intensity by rational organization of the magnetic flux and improve dynamic properties. The device contains permanent C-shaped magnets 1 mounted with a gap of like poles against each other, in which three rods parallel to each other are located. Extreme rods 2 have a winding 3 distributed on them, and the middle rod 4 is enclosed in a holder 5 from a non-magnetic material. All rods are bonded to form a movable part of an electric motor moving along stationary permanent magnets. The positive effect is achieved by the fact that the magnetic resistance of the rods remains constant and does not depend on the position of the rods, which increases the efficiency of the use of permanent magnets, allowing the use of smaller magnets. 3 or .. (/) C

Description

The invention relates to electrical engineering and can be used to drive reciprocating devices.

The aim of the invention is to reduce material consumption by rational organization of magnetic flux and improvement of dynamic properties,

FIG. 1 schematically shows a linear electric motor; FIP 2-section A-A in FIG. one; in fig. 3 is a view along arrow B in FIG. one,

The linear electric motor contains permanent C-shaped magnets}, rods 2 with sections 3 of the core winding distributed on them and a rod 4 enclosed in a holder 5.

The permanent C-shaped magnets 1 are installed with a gap of like poles against each other. The gaps contain rods 2 with sections 3 of the windings of the core. Between them, the rod 4, enclosed in the holder 5 of a nonmagnetic material. All three rods are held together by a friend. Bearings 7 are mounted on rows 6, forming a straight-line guide with the race 5.

The motor works as follows.,

The permanent magnets 1 create a magnetic field in the air gaps, the strength lines of which (shown in Fig. 2 with a dashed line) are closed directly through three rods 2, 4, 2, the magnetic field

interacts with the current flowing through the wires of sections 3 and a driving force is created. Under the action of this force rods 2 and

4 propulsion in order not to completely close the magnetic field lines of sections 3 with rod 4, it is enclosed

5 of non-magnetic material. By changing the direction of the electric current in the coils of sections 3, the direction / direction of movement of the rods 2 and 4 is changed. The reciprocating movement of the rods 2 and 4 is provided by means of a directing linear movement consisting of a sleeve 5 and bearings 7 mounted on the rows 6 .

This design of the electric motor eliminates the dependence of the change in magnetic flux on the movement of the rods and makes the linear tractive characteristic of the motor due to the fact that the magnetic resistance remains constant and does not depend on the position of the rods (core). The rational organization of the magnetic circuit contour reduces the loss of the magnetic field, increases the efficiency of using magnets and thereby reduces

their consumption of materials due to the use of magnets of smaller size. Taken together, it extends the range of application of an electric motor by improving its dynamic properties and saves metal by reducing the total mass of the magnets.

Claims (1)

Claims of the invention Linear DC motor, comprising C-shaped permanent magnets installed with a gap of like poles opposite each other, and main rods located in: the eases of the magnets along their length with distributed winding sections and with the fact that, in order to reduce material consumption by rational organization of magnetic flux and improve dynamic properties, it is equipped with an additional rod, enclosed by a holder of non-magnetic material and placed parallel o between the main, with the main rods fastened to the yoke, and all the rods are made in isolation from each other. ,, / AND Ш1 FIG. I sus6 teJ