SU1130695A1 - Pump - Google Patents

Abstract

1. A PUMP containing a tubular working chamber made of an elastic ferromagnetic material and a multi-phase electromagnetic system enclosing the working chamber formed by a set of annular inductors installed along the chamber axis, connected with a phase shift to a power source, characterized in that, in order to increase Efficiency and reliability, each of the ring inductors is designed as an inductor of a rotating magnetic field, 2. The pump according to claim 1, characterized in that the inductors of the rotating magnetic field are mounted movable along the axis of the working chamber. oo oj) co

Description

This invention relates to a pump engineering industry, relates to dynamic type pumps and may find application in various types of fluids.

Known pump, containing an elastic working chamber and the mechanism of its wave deformation, made in the form of interacting with the camera rollers 1.

The disadvantage of this pump is low reliability due to rapid wear of the working chamber.

Closest to the invention is a pump comprising a tubular working chamber made of an elastic ferromagnetic material and a multiphase electromagnetic system enclosing the working chamber formed by a set of annular inductors installed along the axis of the chamber connected with a phase shift to the power supply 2.

The disadvantages of the known pump are the power losses due to wave deformation of the elastic working chamber and the radial movement of the pumped medium, which reduces the efficiency of the pump. In addition, periodic bending of the elastic working chamber during wave deformation leads to its rapid wear and failure, which reduces the reliability of the pump as a whole.

The aim of the invention is to increase the efficiency and reliability of the pump.

This goal is achieved by the fact that in a pump containing a tubular working chamber made of an elastic ferromagnetic material and a multiphase electromagnetic system surrounding the working chamber formed by a set of annular inductors installed along the axis of the chamber, connected with a phase shift to the power supply, each of the circular inductors is made in the form of an inductor rotating magnetic field.

In this case, the inductors of the rotating magnetic field are mounted so that they can move along the axis of the working chamber.

FIG. 1 shows the pump, isometric view; in fig. 2 - the same cross section; in fig. 3 - connection diagram of the windings of the ring inductors.

The pump contains a tubular working chamber 1 made of elastic ferromagnetic material and a multiphase electromagnetic system surrounding the working chamber 1, formed by a set of annular inductors 2 installed along the axis of the camera 1, connected with a phase shift to a power source (not shown). Each of the ring inductors 2 is designed as an inductor of a rotating magnetic field.

The inductors 2 of the rotating magnetic zero are mounted for movement along the axis of the working chamber 1. The working chamber 1 is fixedly fixed at the ends in a housing (not shown).

The pump works as follows.

The rotating magnetic field of the inductors 2 interacts with the inhibited working chamber 1, which generates the torque (torque F). In this case, the magnetic field deforms the camera 1, turning its cross section from round to elliptical. The large axis of the ellipse coincides with the vector of the magnetic field and rotates with it, as a result of which the sectional ellipse of the working chamber 1 also rotates. Since the vectors of the rotating magnetic fields of the inductors 2 are shifted in phase, the axes of the ellipses are also shifted in phase, and the working chamber 1 forms a rotating screw cavity. The rotation of this cavity creates an effect similar to the effect created by the screw pair. The role of the nut in this case is played by the working chamber 1, and the screw - the pumped liquid. By virtue of inertia, the speed of rotation of the fluid in the working chamber 1 is lower than the speed of rotation of the screw cavity formed by chamber 1, i.e. the screw cavity rises from a certain speed o in relation to the liquid. In this case, the liquid is screwed into the chamber 1, as a result of which dynamic pressure and movement of the liquid to the consumer arise.

Due to the fact that the wave deformation of the working chamber 1 does not occur, and the elliptical deformation of the cross section of the chamber 1 causes considerably less stresses in the walls of the chamber 1, the efficiency and reliability of the pump increase.

Fig.b

Claims (2)

1. A PUMP containing a tubular working chamber made of elastic ferromagnetic material and covering a working chamber a multiphase electromagnetic system formed by a set of ring inductors installed along the chamber axis connected with a phase shift to a power source, characterized in that, in order to increase Efficiency and reliability, each of the ring inductors is made in the form of a rotating magnetic field inductor, 2. The pump according to π. 1, characterized in that the inductors of a rotating magnetic field are mounted to move along the axis of the working chamber. SiL ™ 1130695