SU1129421A1 - Self-suction centrifugal pump - Google Patents

Abstract

SELF SUCTION CENTRIFUGAL PUMP comprising a housing with suction and discharge zones and an impeller mounted on it to the Shaft with blades and a driving disk having discharge openings and a sleeve with nozzles arranged radially opposite the inlets between the wheel channels and connected to the discharge openings of the wheel that, in order to increase reliability by expanding the range of balanced axial forces, axial channels are made in the sleeve, communicating with the discharge openings and the suction zone and p located at the level of the discharge openings, while guiding protrusions are made in the channels opposite the nozzles. (L

Description

The invention relates to pump engineering, the design of a centrifugal pump and can be used in the design of pumps, which provide unloading from the action of unbalanced axial force with anti-cavitation properties and self-priming ability.

A self-priming centrifugal pump is known, comprising a housing, an impeller disposed therein with a drive disk and blades forming interscapular ducts, and a nozzle apparatus for transferring fluid from the injection zone to the suction zone ij

The disadvantage of this pump is low efficiency. . .

The closest technical solution to the present invention is a self-priming centrifugal pump, comprising a housing with suction and discharge zones and an impeller mounted on a shaft with blades and a drive disk having discharge openings and a sleeve with nozzles located radially opposite the interscale channel channels and communicated with discharge openings 2 | .

The disadvantage of the known pump is low reliability due to non-possibility of balancing the axial force on different pump operation modes, as the transmission capacity is. The nozzle capacity is designed primarily to create the desired ejection effect in the suction zone.

The purpose of the invention is to increase reliability by expanding the range of balanced axial forces.

This goal is achieved by the fact that in a self-priming centrifugal pump comprising a housing with suction and discharge zones and a rotor wheel with blades and a drive disk having discharge openings on the shaft and a sleeve with nozzles located radially opposite the inlet channels. Wheels and reported with the defeat. There are axial channels in the sleeve, connected to the discharge openings and the suction zone and located at the level of the discharge openings, with guide lugs in the channels opposite to the slide.

The drawing shows the proposed pump, a longitudinal section.

The pump includes a housing 1 with suction and discharge zones 2 and 3 and installed on it on the shaft 4 an impeller 5 with blades 6 and a driving disk 7 having discharge openings 8, and a sleeve 9 with nozzles 10 located opposite to the inlets of the inter-blade channels shown and communicated with the discharge openings 8. In the sleeve

9 axial channels I made in communication with discharge openings

8 and the suction zone and located at the level of the discharge openings 8, while in the channels 11 opposite the nozzles

10 guide pins are made 12 The pump is also equipped with a nut 13, in which an annular groove is provided

14 and Channels 15. The driving disk 7 forms with a cuspid sinus with the body

16. The nozzles 10 are in communication with the discharge ports 1 through the openings 8 by means of the discharge channels 17.

The pump operates as follows.

The pump is started with the internal cavity of the housing 1 filled with liquid, while the fluid is supplied by the wheel 5 to the discharge zone 3, from the non-inflow to the dial spindle 16 and through the discharge openings -8 to the discharge channels

17, under the action of centrifugal force, it acquires a great speed, and through nozzles 10 it is ejected into the interscapular channels of the wheel 5, thus trapping gas particles. In the zone 3 of the injection, the gas is separated. .

and the fluid re-enters the nozzles 10. In this way, the discharge takes place (Gas from the pump suction zone 2 and self-priming is ensured;

After the output to the design chamber, the flow continues from the zadiskovoy sinus 16 through the holes, 8, channels 17 and nozzles 10 to the suction zone 2 and the pump, increasing its suction capacity and anti-cavitational properties.

When the pressure in the injection zone 3 is increased and an unbalanced axial force arises, directed from right to left, some of the fluid from the rear of the XSC. sinuses 16, bending the projections 12, through the channels I1, the annular groove 14 and the channels 15 begin to flow into the suction zone 2, where they interact with the fluid flow, as a result of which the pressure in the suction zone 2 increases. And it creates the opposite direction of balancing axial force At high flow rates, i.e. 5, with increased flow rates in suction zone 2 and reduced pressure in suction and discharge zones 2 and 3, liquid may flow to nozzles 10 as from the teeter sinus 16 through openings 8 and channels 17 , and from suction zone 2 214 through channels 15 and I. At the same time, high cavities and low pressure at the wheel 5 inlet will be suppressed by fluid flows from nozzles 10. The invention will ensure unloading of the pump rotor in a wide range of modes of its operation with preservation self-priming ability and high anti-cavitation qualities, and consequently, increase the reliability and efficiency of the pump.

Claims (1)

SELF-SUCTION CENTRIFUGAL PUMP., Comprising a housing with suction and discharge zones and an impeller installed on it on the iBany with vanes and a driving disk having discharge holes, and a sleeve with nozzles located radially opposite the wheel blade channel inputs and communicated with discharge holes, that, in order to increase reliability by expanding the range of balanced axial forces, axial channels are made in the sleeve, in communication with the discharge openings and the suction zone and located at the level of the discharge openings, while in the channels opposite the nozzles made guide projections. 1 1129421 2