SU1071816A1 - Pump - Google Patents

Abstract

The iACOC, comprising a housing with an inlet and a chuck in the last chamber, disperses before entering the axial stage and is equipped with a junction box for communicating the camera with the stage inlet, in order to increase efficiency. the chamber is made open from the entrance of the stream. (L 00 Oi

Description

The invention relates to a pump engineering industry, and relates to pumps having axial stages with devices that prevent cavitation in the pumps. Known 1: a non-centrifugal pump, in which, in order to improve anti-cavitation qualities, the pre-included axle stage is rotated from the hydraulic turbine installed on the shneck band in the path of leakage from the impeller through the front drop wheel 1. The pump has a low efficiency factor. The closest to the invention to the technical essence and the achieved result is a pump comprising a housing with an inlet pipe and an annular chamber subsequently arranged at the entrance to the axial stage and equipped with nozzles for communicating the chamber with the entrance of stuni 2. A disadvantage of the known pump is its low EFFICIENCY, since the selection of the medium 1 of high pressure in the chamber for combating cavitation is made from the discharge zone of the pump. il, e.ib invention - increased efficiency. This goal is achieved by the fact that in a pump comprising a housing with an inlet pipe and an annular chamber formed in the latter, discharged before entering the axial stunen and fitted with nozzles for communicating the chamber with the step inlet, the chamber is open at the inlet side of the flow. The drawing shows the pump section. The pump includes a housing 1 with an inlet nozzle 2 and an annular chamber 3 arranged in the latter, placed in front of the entrance to the axial stage 4 and provided with slots 5 for communicating the camera 3 with the entrance of the stage 4. The chamber 3 is open from the inlet side. The bulk also contains centrifugal stage 6. The pump operates as follows. From the inlet nozzle 2, part of the flow enters into chamber 3. In chamber 3, the flow rate of the medium is quenched, which creates an area of increased pressure in it. The fluid from the over-pressure area — chamber 3 rushes into the nozzles 5 on the inlet areas of the axial stunya 4, thereby increasing the anti-cavitation properties of the pump. The advantage of the proposed pump is that, in order to suppress cavitation, a medium is withdrawn to which the energy has not yet been transferred sufficiently high by acquiring the medium after passing it through the channels of the axial or centrifugal stages. This ensures a high efficiency of the pump and a reduction in the cost of consumed energy while ensuring a high pump life.

Claims (1)

A PUMP containing a housing with an inlet pipe and an annular chamber made in the latter, located in front of the axial stage entrance and provided with nozzles for communicating the chamber with the stage entrance, characterized in that in order to increase the efficiency. the camera is made open on the inlet side of the stream.