SU1175007A1 - Reciprocating motor - Google Patents

Abstract

ELECTRIC RETURN MOTION MOTOR, containing cylindrical measles, located concentrically outside the inductor consisting of an annular winding and poles located at both its ends, and a sealed cavity filled with liquid and bounded by the end of the core and the inner surface of one of the inductor poles which houses a piston associated with an output rod, characterized in that, in order to simplify the design and increase the specific electromagnetic force. The piston is ferromagnetic and has the form of a cup, which coils the inductor from one end and compacted relative to its outer surface, and the measles on the end facing i to the airtight cavity, blows a non-magnetic pad that is sealed (relative to the inside surface of the inductor pole, ate

Description

The invention relates to electromagnetic type electric reciprocating motors and can be used in various sectors of the national economy as an executive reciprocating motor.

The aim of the invention is to simplify the design and increase the specific electromagnetic force.

The drawing shows an electric motor reciprocating motion, General view in section.

The electric motor contains 15 fixed inductor, consisting of poles 1 and 2 of the magnetic circuit, winding 3, jumper 4 and bearing 5. A sealing sleeve 6 is located at the pole 2. The motor armature 20 consists of a magnetic circuit 7 and a non-magnetic cover 8 with a seal 9. A movable ferromagnetic cup 10 is located outside the motor and is connected to the output rod. In ger-25 of the meticulous cavity formed by the surfaces of the non-magnetic cover 8, pole 2, and the glass 10, there is a liquid 11. The drawing shows in a simplified way the path of the magnetic flux <P created by the current of the motor winding. The gap between the outer cylindrical surface of the inductor and the cup 10 is selected to be the smallest from the condition that the cup moves freely along the inductor, - From the same ₃₅ considerations, the gap between the inner cylindrical surface of the inductor and the outer cylindrical surface of the armature core 7 is selected. On the beaker 10 there are nozzles ₄₀ for pouring liquid into a hydraulic device (not shown).

The electric motor operates as follows.

The magnetic flux created by the current of the winding 45, closing along the poles 1 and 2 of the magnetic circuit, along the cylindrical part of the cup 10, along the magnetic circuit of the armature, creates an electromagnetic force trying to move the armature in the direction of decreasing the working non-magnetic gap (located in the zone of non-magnetic lining), t. e. to the right. The movement of the armature leads to an increase in the pressure of the liquid on the end part of the glass 10 and its movement to the right. Thus, there is a synchronous, one-way directional movement of the armature of the electric motor and the cup 10, the outer end surface of which serves as a working body. The return of the armature and the glass to its original position occurs after the current in the winding is turned off under the action of an external force applied to the working body.

In the proposed engine, as one of the surfaces forming the sealed cavity, the inner cylindrical surface of the pole of the inductor located on the side of the sealed cavity is used. This allows you to reduce the magnetic resistance and with the same size of the engine to increase the electromagnetic force, simplify the design. This increases the specific electromagnetic force of the proposed engine willow. as a result of the fact that a non-magnetic rod does not pass through its anchor. and the design is simplified and the specific force is increased, since in the proposed engine the sealing function of the end part of the diamagnetic pipe is performed, along with its other functions, by a piston connected to the working body and the end surface of the pole of the inductor located on the side of the sealed cavity.

The lateral cylindrical part of the piston associated with the working body combines the functions of the generatrix of the sealed cavity and the yoke of the inductor, which also increases the specific electromagnetic force, simplifies the design of the electric motor.

Claims (1)

An electric motor for reciprocating movement, comprising a cylindrical armature, an inductor located concentrically outside it, consisting of an annular winding and poles located at both ends thereof, and a sealed cavity filled with liquid and bounded by the armature end and the inner surface of one of the inductor poles, in which placed a piston associated with the output rod, characterized in that, in order to simplify the design and increase the specific electromagnetic force, the piston is made ferromagnetic and it has the form of a glass, encircling the inductor from one end and sealed with respect to its outer surface, and the anchor at the end facing the sealed cavity has a non-magnetic cover sealed with respect to the inner surface of the pole of the inductor facing the sealed cavity. '. SU „, .1175007