SU1040223A1 - Pumping plant - Google Patents

Abstract

PUMPING INSTALLATION, containing a hydrocyclone with a cylindrical body with a sand hole, a hydraulic elevator in communication with the latter, and a pump with a suction nozzle, the inlet section of which is located in the cavity of the hydrocyclone body and the discharge pipe connected to the active hydraulic nozzle nozzle. In order to increase its reliability, a tight cylinder is mounted in the hydrocyclone body cavity in series towards the sand hole. Torah is made elastic sub-Vision, a funnel with a perforated dni- | (cement, equipped with an axial gear mechanism, "L p &barcass; stationary funnel, connected to the inlet section of the CZZ VZyoschiy nozzle.

Description

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Bo The invention relates to a hydraulic machine building and can be used in hydrocyclone pumping installations. A known pumping installation comprising a hydrocyclone with a cylindrical body and a centrifugal pump with suction and discharge nozzles 11. A disadvantage of the known installation is the increased wear of the pump when pumping a liquid with high content of mechanical impurities. Closest to the invention to the technical essence and the achieved result is a pump installation, containing a hydrocyclone with a cylindrical body having a sand hole, a hydraulic elevator in communication with the latter, and a pump with a suction nozzle, the inlet portion of which is located in the body cavity of the hydrocycle. and an injection pipe connected to the hydroelectric valve 2 active nozzle. A disadvantage of the known installation is low reliability of operation, which is caused, first of all, by the insufficiently effective separation of solid particles from the pumped liquid. The aim of the invention is to increase the reliability of the installation. The goal is achieved by the fact that in a pump installation containing a hydraulic cyclone with a cylindrical conical body having a sand hole, a hydraulic elevator communicated with the latter, and a pump with a suction-pipe, the inlet section of which is in the hydrocyclone body cavity, and a discharge pipe connected to the hydroelevator active nozzle , in the cavity of the body of the hydrocyclone, a cylindrical conical insert is installed successively towards the sand hole, the conical section of which is made of elastic nym, the movable funnel with a perforated bottom provided with a mechanism for axially moving and stationary funnel connected to the inlet portion of the suction pipe, Figure 1 shows a pump assembly, longitudinal section; in FIG. 2, section A-A in FIG. 1,. . .. The pumping installation contains a hydrocyclone 1 with a cylindrical conical body 2 having a sand hole 3, a hydroelectric op 4, communicated with x; thereafter, and a pump 5 with a suction patruo-com, 6, the inlet section 7 of which is located in the cavity 8 of the housing 2 of the hydrocyclone 1, and the discharge nozzle 9 connected to the active nozzle 10 of the hydraulic elevator 4, In the cavity 8 of the housing 2 of the hydrocyclone 1 sequentially in the direction A sand-tight cylinder-conical insert 11 is installed to the sand hole 3, the conical section 12 of which is made elastic, a movable funnel 13 with a perforated bottom 14, equipped with an axial movement mechanism 15, and a fixed funnel 16 connected to the inlet part 7 of the suction inlet 6, the Hydrocyclone 1 also has a tangential inlet 17, and the installation is equipped with a discharge pipe 18, the pumping installation works as follows. The pumped liquid with suspended solid particles is fed through a tangential inlet nozzle-17 into the cavity 8 of the housing 2 of the hydro-cyclone 1, where it rotates, moves downward in the space bounded by the housing 2 of the hydro-cyclone 1 and inserts. 11. Due to the spin obtained, centrifugal forces are thrown to the periphery of cavity 8, and fed to the sand hole 3 of housing 2, the clarified liquid is collected in the central part of cavity 8, flows into the movable funnel 13, and through the perforation in the bottom 14 of the latter the flow into the fixed funnel 1b and through the suction inlet 6 is fed into the pump 5. After passing through the pump 5, the liquid with the increased pressure is fed through. the delivery nozzle 9 to the active nozzle 10 of the hydraulic elevator 4, with which liquid with suspended particles is sucked from the cavity 8 of the hydrocyclone 1. The flow of the pumped liquid is then supplied to the discharge pipe 18. An insert 11 with an elastic conical section 12 provides for a reliable suppression of turbulence and an increase in the efficiency of phase separation. Moving movable funnel 13 sec. With the help of mechanism 15, it is possible to adjust the thickness of the collected layer of clarified liquid. The described improvements provide increased reliability of the pump due to a more complete clarification of the fluid being pumped.

Claims (1)

A PUMPING UNIT containing a hydrocyclone with a cylindrical conical body having a sand hole, a hydroelevator in communication with the latter, and a pump with a suction pipe, the inlet portion of which is located in the cavity of the Godrocyclone body, and. a discharge pipe connected to the active nozzle of the hydraulic elevator, characterized in that, in order to increase its reliability, a sealed cylinder-conical insert is installed in the cavity of the hydrocyclone casing, conically in the direction of the sand hole, the conical section of which is elastic, a movable funnel with a perforated bottom equipped with an axial mechanism displacement,;? fixed funnel connected to the inlet section of the suction pipe.