SU1015122A1 - Electromagnetic pump - Google Patents

Abstract

ELECTROMAGNETIC PUMP containing a cylindrical body with suction and discharge nozzles and an annular working cavity in which working elements made of ferromagnetic material are placed that interact with an annular inductor, characterized in that, in order to improve efficiency, an annular partition with holes is installed in the cavity, and working elements are located on both its sides, and the ring inductor is placed at the end of the case.

Description

The invention relates to pump engineering, in particular, to the design of an electromagnetic pump, and can be used in the design of hydrotransport systems for general purposes.

Known electromagnetic pump containing a rotor with a magnet and a working body and a stator with an inductor located in the housing 1.

The disadvantages of the known pump are low tightness and efficiency.

The closest to the invention in its technical nature is an electromagnetic pump comprising a cylindrical body with suction and discharge nozzles and an annular working cavity in which the working elements of ferromagnetic material are located, interacting with the annular inductor 2.

A disadvantage of the known pump is low efficiency.

The purpose of the invention is to increase efficiency.

The goal is achieved by the fact that in an electromagnetic pump containing a cylindrical body with suction and discharge nozzles and an annular working cavity in which working elements made of ferromagnetic material interacting with an annular inductor are placed, an annular partition with holes is installed in said cavity the elements are located on both its sides, and the ring inductor is placed at the end of the case.

FIG. 1 schematically shows the proposed pump, a longitudinal section; in fig. 2 shows section A-A in FIG. one.

The electromagnetic pump contains a cylindrical body 1 with suction 2 and discharge 3 nozzles and an annular working cavity 4 in which the working elements 5-8 of ferromagnetic material are placed, interacting with an annular inductor 9, and an annular partition 10 with holes 11 and 12 is installed in the cavity , and working elements 5-8 are located on both sides of it, and the ring inductor 9 is placed at the end of the housing 1.. Electromagnetic pump works as follows.

The annular inductor 9 generates a rotating magnetic field, under the action of which the ferromagnetic working elements 5-8 begin to move in annular chambers into which the annular working cavity 4 divides the annular partition 10.

In this case, the fluid through the suction nozzle 2 enters first into the central part of the working cavity 4, from where it is pushed out by rotating elements 6

and 7 through openings 11 and 12 in the partition 10 into the peripheral part of the working cavity 4, from which the pumped liquid elements 5 and 8 are forced into the discharge pipe 3 and then to the consumer.

The proposed improvements provide, with simplicity of design, high efficiency, comparable to two-stage pumps.

Claims (1)

ELECTROMAGNETIC PUMP containing a cylindrical body with suction and discharge nozzles and an annular working cavity, in which working elements of ferromagnetic material are placed interacting with an annular inductor, characterized in that, in order to increase the efficiency, an annular partition with openings is installed in the cavity, and working the elements are located on both sides of it, and the ring inductor is located at the end of the housing.