SU1049684A1 - Vertical bore-hole pumping unit - Google Patents

Abstract

VERTICAL WELL-; WELL PUMP UNIT containing. housing with inlet nozzles and a hollow shaft centrifugal pump located in it, hydrocyclone chamber. in which a pump discharge pipe is placed, and a scouring nozzle with a channel attached to the lower part of the rig, which is valuable through the shaft cavity with the discharge port, characterized in that, in order to improve the performance of the unit and the effectiveness of soil erosion, the unit is equipped with a casing, enclosing the housing with the formation of a cavity communicated with the pump inlet nozzles, the nozzles are provided with through holes and are attached to the root of the su and, in addition to the casing, can be displaced by means of Internal and external corrugated elastic pipes forming a gap in communication with the cavity between the casing and the cortus and the nozzle holes, with the internal pipe connected to the nozzle channel and the cavity of the pump shaft.

Description

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four; 110 The invention relates to hydraulic engineering and can 6fenb be used to drink liquid from wells with an increased content of solids. A vertical downhole pumping unit is known, which includes a housing with simple branch pipes and a centrifugal pump located on the IelieM, a hydrocyclone chamber in which the discharge port of the PC pump is located. The unit does not provide the required capacity. The closest to the invention to the technical essence and the achieved result is a vertical borehole pumping unit, comprising a housing with inlets and a centrifugal pump located in it, a hollow shaft pump, a hydrocyclone chamber, with) the pump nozzle and the scouring nozzles attached to the lower part of the core box with a channel communicated through the shaft cavity with the injection patra & 2. However, the known pump unit does not provides high productivity and the required soil spreading efficiency, because as the liquid with solid particles is taken away, the distance from the soil surface in the well to the eroding nozzle increases and the impact of the liquid stream flowing out of the channel of the latter weakens on the soil. Improving the efficiency of the aggregate and the effectiveness of soil erosion. The goal is achieved by the fact that the vertical scissor aggregate, comprising a housing in the inlet nozzles and located in it a centrifugal pump with a hollow shaft; a hydrocyclone chamber in which the pumpi discharge pipe is located; and attached to the lower part of the body, it is eroded onto a cage with a channel that has been fed through the cavity of the shaft with a discharge pipe; The inlet has 1 pump nozzles, nozzles are equipped with squash holes 51 and are connected to the casing and in addition to the casing with possible displacement when the fitting is suitable, the inner and outer corrugated elastic pairs tubes, the gap, with the cavity between the casing and the housing and the holes fit, with the inner pipe connected to the nozzle channel and 84 cavity of the pump shaft. FIG. 1 shows a vertical downhole pumping unit, longitudinal section}; in fig. 2 is a section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 1. The vertical borehole pumping unit contains Kofaiyc 1 with inlet pipes 2 and a centrifugal pump 3 with a hollow shaft 4 located in the body 1, a hydrocyclone chamber 5 in which the pressure sodium 6 of the pump 3 is located, and attached to the lower part of the body 1 razzaty nozzles 7 with channel 8, communicated through the cavity 9 of the shaft 4 with the discharge of the patent; chopping 6. The unit is equipped with a 1O casing, which enthuses building 1 with the installation. cavity 11 associated with the inlet nozzles 2 of the pump 3, the nozzle 7 is provided with through holes 12 and is attached to the housing 1 and additionally to the casing 10 with the possibility of movement using the internal and external corrugated elastic nozzles 13 and 14, respectively, forming a gap 15, with a cavity 11 between the casing 10 and the coaxial hole 1 with the openings 12 of the nozzle 7, the internal nozzle 13 communicating with the channel 8 of the nozzle 7 and the cavity 9 of the shaft 4 of the pump 3. The pump 3 has a suction net 16, and the hydrocyclone chamber drain pipe 17 for drainage etlennoy liquid .- unit installed in the well column 18 on the lifting tube 19 in the vicinity of the wellbore 18k slaughtering 20 in the channel 8, the nozzle 7 can be raeMeschen detachable trough 21. The vertical swirl skvazhinky nasosnzgy unit operates as follows. The unit Cusk into the well 18 on the column 19 of the lifting pipes and is installed so that the razmigak) the nozzle 7 is in the immediate vicinity of the bottom 20. When the pump 3 is operating, the flow of liquid entering the well 18 together with solid particles through the nozzle 12 nozzle 7 enters the gap 15 between the nozzles 13 and 14, then into the cavity 11 between the housing 1 and the casing 10 and through the inlet nozzles 2 ps drains into the hydrocyclone chamber 5, where the flow is intensely swirling. Under the action of centrifugal force, solid soil particles, having a greater density than liquid, are concentrated at the periphery of the hydrocyclone chamber 5, and the clarified liquid through

the drain pipe 17 and the suction mesh 16 is fed to the pump 3. From the discharge pipe 6 of the pump 3, the liquid with the increased pressure enters the e-g, or 19 lifting pipes, incidentally collecting solid particles accumulating on the periphery of the hydrosliding chamber 5, and then Column 19 is brought to the surface. At the same time, a part (of the injected fluid through the cavity 9, the shaft 4 and the inner corrugated tfetiybok 13 enters the channel 8, wash out

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When the nozzle 7 is pulled out of the vortex chute 21 and is being pulled out at high speed, the soil is loosened at the bottom of the hole 20 of the well 18.

As the 2 O is deepened, the corrugated nozzles 13 and 14 are lengthened, which allows the erosion of the nozzle 7 to be dispersed in the immediate vicinity. .

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Claims (1)

VERTICAL WELL PUMP UNIT, comprising a housing with inlet nozzles and a centrifugal pump with a hollow shaft located in it, a hydrocyclone chamber in which the pump discharge nozzle is placed, and a erosion nozzle attached to the lower part of the housing with a channel communicating through the shaft cavity with the discharge pat the fact that, in order to increase the performance of the unit and the effectiveness of erosion of the soil, the unit is equipped with a casing covering the housing with the formation of a cavity in communication with the input path pump, nozzles are equipped with through holes and attached to the housing and additionally to the casing with the possibility of movement using respectively internal and external corrugated elastic pipes, forming a gap in communication with the cavity between the casing and the housing and the nozzle holes, the inner pipe being in communication with the nozzle channel and cavity of the pump shaft. as) -S U (in 1Q49684> 1 1049684 2