SU853190A1 - Centrifugal pump for pumping fluids - Google Patents

Description

one

The invention relates to the field of pump-building and can be used in various industries related to the mixing and processing of gas-liquid medium foam products.

A centrifugal pump is known for pumping gas-liquid media; containing a successively arranged downstream medium installed in a separation chamber, a blade with a precise supply with holes e) gas exhaust in the blades and an impeller mounted in a housing with a branch and a gas collector connected to the ejector passive nozzle 1.15

A disadvantage of the known pump is that the efficiency of protecting the impeller separation chamber from gas ingress into it is low, which reduces the energy performance of the pump

The aim of the invention is to intensify the process of gas extraction and increase the efficiency of the pump.

The goal is achieved by the fact that the separation chamber is made diffusor, the blade supply is installed in the latter and forms a cavity with the body, which is connected to the gas outlet holes and serves as a gas collector, and the active nozzle of the ejector is connected to the discharge.

The drawing shows a centrifugal pump for pumping gas-liquid environments, a longitudinal section.

The centrifugal pump contains sequentially located along the medium the non-included wheel 1, located in the separating chamber 2, the blade 3 with the holes 4 for venting gas in the blades 5 and the impeller 6 mounted in the housing 7 with the outlet 8, and the gas collector 9 connected to the passive nozzle 10 of the ejector I, the chamber 2 being made diffuser, the blade supply 3 is installed in the latter and forms a cavity with the housing 7 communicating with the gas discharge holes 4 and serving as a gas collector 9, the ejector nozzle 12 is connected house 8. In addition, the housing 7 there is a sleeve 13, The cover shaft 14 in the chamber 2 and forming a slit seal 15.

When the pump is operated, the gas-liquid medium enters the upstream wheel 1 and is supplied to the diffuser separation chamber 2, where the medium is divided into liquid and gas phases. Due to the diffusivity of separator chamber 2, the velocity of the working medium decreases as it advances toward the wheel 6. This helps to maintain the stationarity of the flow and the better degassing of the liquid. Gazov

the phase, being less dense, is concentrated closer to the axis of rotation of the flow, and the fluid at the periphery of chamber 2 goes to wheel 6 through inlet 3. The latter is made with vanes 5, which smoothly, with minimal hydraulic losses, transfer the rotating fluid flow to the axial flow wheel 6. The wheel 6 thus brought in liquid sends to outlet 8 and further to the consumer. Gas from the central part of chamber 2 is led out into the gas collector 9 through openings 4 in the blades 5 of the blade supply 3. From the gas collector 9, the gas is removed using an active nozzle 12 of the ejector, which is hydraulically connected to the pump outlet 8. Due to the presence of a fixed sleeve 13, closing the shaft 14 in the chamber 2, the leakage of fluid through the slotted installation 15 from the cavity in front of the impeller1 | 6 into the chamber 2 does not destroy the steady gas core in the chamber 2, but is diverted between the sleeve 13 and the shaft 14 to the upstream wheel 1, after which it is merged with the continuous flow. X Dunne, pump pumping will allow to stabilize the technological process P1) and pumping highly aerated liquids (for example, in the production of feed protein concentrates at the factory 12

dah microbiological industry) and thereby significantly improve the quality and yield of the product.

Claims (1)

1. Scheglov GM and others. Dynamic pumps for gas-liquid environments. TsINTIHIMNEFTEMASH, 1977, ser. HM-4, No. 4, p. 17, p. 7