SU885635A1 - Pulse-type pump for pumping liquids - Google Patents

Description

The invention relates to pump engineering, in particular to the design of pulse pumps, and can be used in the design of pumping plants.

A pulse pump is known which contains a working chamber, a valve and electrodes.

The disadvantage of the pump is the low speed of action.

Closest to the proposed ¹⁰ is a pulse pump for pumping liquid containing magnetostrictive working elements installed on the pipeline, forming ₅ working chambers of variable volume.

The disadvantages of this pump are the design complexity and low efficiency. 20

The purpose of the invention is to simplify the design and increase efficiency.

This goal is achieved in that the working elements have ends inserted at an angle into the pipeline with sections perpendicular to the axis of the pipeline.

The drawing schematically shows the proposed pump, a longitudinal section.

The pulse pump for pumping liquids contains magnetostrictive working elements 2 mounted on the pipeline 1, forming working chambers 3 of variable volume, the working elements 2 having ends 4 introduced at an angle into the pipeline 1 with sections 5 perpendicular to the axis of the pipeline 1, and magnetostrictive working elements 2 are connected to a generator 6 of ultrasonic vibrations.

The pump operates as follows.

Under the influence of the electromagnetic field of high-frequency alternating current, the working elements 2 periodically change the volume and create zones of high and low pressure in the liquid885635. During the lengthening of the working element 2, the liquid is pushed forward at high speed. With the contraction of the working element, the 2-liquid continues to fly forward by inertia and, due to the high frequency of oscillations, does not have time to come back behind the cut 5 of the end 4 of the working element 2 and a rarefaction zone appears in front of the working surface, where the next portion of the liquid is sucked.

To obtain a high overpressure at the outlet, an adjacent working element 2, located at a half-wave distance from the first, is connected to the work. Working elements 2 oscillate with a phase shift of 180 * and simultaneously perform the function of valves 20

The proposed nabs is simple in design, small in size, reliable in operation and has a wide range of productivity 5 and pressure.

Claims (1)

(5) PULSE PUMP FOR PUMPING The invention relates to pump engineering, in particular to the design of impulse pumps, and can be used in the design of pumping installations. A pulsed pump containing a working chamber, a valve and electrodes is known. The disadvantage of the pump is low speed. Closest to the present invention is a pulse pump for pumping fluid containing magnetostrictive working elements mounted on the pipeline, forming working chambers of variable volume. The disadvantages of such a pump are design complexity and low efficiency. The purpose of the invention is to simplify the design and increase efficiency. The goal is achieved by the fact that the working elements are inserted at an angle into the pipeline with ends that are perpendicular to the axis of the pipeline. The drawing shows schematically the proposed pump, a longitudinal section. A pulse pump for pumping liquids contains magnetostrictive working elements 2 installed on pipeline 1, forming working chambers 3 of variable volume, with working elements 2 having ends inserted at an angle in pipeline 1 with sections 5 perpendicular to the axis of pipeline 1, and magnetostrictive working elements 2 connected to the generator 6 ultrasonic vibrations. The pump works as follows. Under the influence of the electromagnetic field of the high-frequency transient current, the working elements 2 periodically change the volume and create zones of high and low pressure in the fluid; during the elongation of the working member 2, the fluid is pushed forward at high speed. When the working element is reduced, the 2-fluid continues to fly forward by inertia and, due to the high frequency of the koleby, it does not have time to return back after the cut 5 of the end C of the working element 2 and; To obtain a high overpressure at the outlet, an adjacent operating element 2 located at a distance of a half-wave from the first is connected to the work. Work elements 2 make oscillations with a phase shift of Ne 180 and simultaneously perform a function of a clath1a. The proposed design is simple in design, small in size, reliable in operation and has a wide range of performance and pressure. The invention of the impulse pump for pumping liquids, containing magnetostrictive working elements installed in the pipeline, forming working chambers of variable volume, characterized in that, in order to simplify the design and increase the efficiency, the working elements have angled ends with cuts, perpendicular to the pipeline axis.