SU1566073A1 - Pump - Google Patents

Abstract

The invention allows to reduce noise, increase pump efficiency and regulate fluid flow. In case 1, elastic ferromagnetic shells 2 are parallel to each other with the formation of working chambers. The ring inductors 3 of a rotating electromagnetic field are connected with a phase shift to a power source. The inductors 3 are rotatably mounted with respect to each other, made with the number of poles 2P, with a phase shift ϕ / 2P and placed concentrically in the shells 2. The axes of the shells 2 are located at a distance equal to the sum of the radii of the shells 2. Each shell 2 made in the form of an insulating ferromagnetic tape wound on a dielectric substrate. Inductors 3 are connected to the source through a voltage regulator and are installed with the possibility of rotation around its axis. When the voltage is turned off, the pump acts as a damper. 4 hp f-ly, 2 ill.

Description

The invention relates to pump engineering and can be applied in various sectors of the economy for pumping fluids.

The purpose of the invention is the improvement of operational characteristics, namely reducing noise, increasing efficiency.

In FIG. 1 shows a pump, cross section; in FIG. 2 is an electrical diagram for connecting a pump to a power source.

The pump comprises a housing 1, in which two elastic ferromagnetic shells 2 are made parallel to each other, made, for example, of electrical steel. Inside each shell 2, an inductor 3 of a rotating magnetic field is located coaxially with it. The suction and discharge windows 4 and 5 are located in the pump. The inductor 3 is connected to a three-phase voltage source 7 through a voltage regulator 6.

The pump operates as follows.

The rotating 2p-pole electromagnetic field generated by the inductors 3 causes a backward wave of deformation of the shells 2. Due to the phase difference equal to l / 2p, the deformation of the shells 2 on the line connecting their centers have equal amplitudes and are opposite in direction. Due to the counter rotation of electromagnetic fields (and, consequently, deformations), the liquid is captured and transferred from the suction window 4 to the discharge window 5.

The phase shift of the inductor windings can be carried out due to their rotation around the circumference. The flow rate of the pumped liquid is made by including a voltage regulator (for example, a three-phase potentiometer or an adjustable transformer) in the circuit of a three-phase power source. When the voltage is turned off, the pump acts as a damper.

Claims (5)

Claim 1. A pump containing a housing, a cylindrical shell placed therein, made of an elastic ferromagnetic material with the formation of working Yu measures and multiphase electromagnetic system comprising annular inductors rotating electromagnetic field, connected with a phase shift to the power source, characterized in that, in order ₁₅ reduce noise and improve efficiency, the pump is provided with an additional cylindrical shell disposed within the housing parallel to the first to form a between them and the housing of the working chambers, and the inductors installed with the possibility of rotation 20 of the electromagnetic field towards each other, are made with the number of poles 2p, with a phase shift l / 2p and placed centrically in each shell. 2. The pump according to π. 1, characterized in that 25 that the axis of the cylindrical shells are located at a distance equal to the sum of the radii of the shells. 3. The pump according to π. 1, characterized in that each cylindrical shell is made in the form of wound on a dielectric 30 substrate of ferromagnetic tape with insulation. 4. The pump according to paragraphs. 1 and 2, characterized in that, in order to regulate the flow of fluid, it is equipped with a voltage regulator. 5. The pump according to π. 1, characterized in that 35 the inductors are mounted with the possibility of 'rotation around its axis.