SU449174A1 - Submersible pump unit - Google Patents

Description

one

Submersible pumping units are known, for example, for oil production with coaxially located pumps and a gerotor type hydraulic motor and a pressure chamber of a pump in communication with the output of the hydraulic motor.

A disadvantage of the known submersible pump units is the presence of unbalanced axial forces and low feeds of the unit.,

The described design of the submersible pumping unit is omitted from the well-known fact that the pump contains the main and I additional working pairs included; parallel, and the diameter of the rotor of the additional pair is larger than the diameter of the main pair. ; Due to this, it is possible to balance the axial forces and increase the flow of the aggregate.

FIG. 1 shows the position of the submersible pump unit in the well; on

(fair. 2 - diagram of a submersible pump unit: gata.

Packer 1, mounted slightly above the operational horizon, has

a saddle with a mounting hole in which the pump unit 2 is installed. The saddle of the unit is suspended on pipes 3. A check valve 4 and a cuff 5 are installed in the upper part of the pump aggregate housing, which serves to hydraulically lift the device from the well by inflating the power fluid into the annulus . The upper chamber of the hydraulic engine 6, which can be used as a gerotor motor or an inverted single-screw pump, is connected with the internal cavity of the tubes 7. Below the hydraulics of the engine is another gerotor machine 8, operating in pump mode. Both gerotor machines are coaxially arranged, and their interconnected rotors are installed oppositely so that the axial rotors acting on them are directed in opposite directions. Since the initial circles of aauenlie are not the same for both screw gyratory mechanisms, the universal joint can be replaced by a rigid shank 9. The pump unit has an additional pump, its stage 10, connected in parallel to the main one, and the diameter of the additional working pair is larger than the diameter of the main pair. This allows the axial forces to be balanced. The suction chamber of the pump part of the unit is connected by valves to the sub-chamber 1 of zone 12, and the pressure chamber 13 and the lower end chamber 14 have a single manifold 15. Axial force from money. Hoists and possible unbalance of hydraulic forces are perceived by the thrust bearing 16, made in the form of, for example, a hydrodynamic support. The unit works as follows. Circulation of power fluid causes the movement of the rotor group of gerotor masks 6.8 and Y. The cuttings of the screw surfaces of the gyratory machines 6 and 8 have a different direction. The spent power fluid is combined with the extracted fluid coming from chamber 11 and sub-packer

zone 12, and through the collector 15 is fed into the annulus. At the same time, the working bodies of the additional operating stage work, which also supply the liquid from the sub-packer zone 12 to the suction chamber 11 and further to the annulus.

Subject invention

A submersible pumping unit, for example, for oil production with a gerotor type pump and hydraulic motor, having a common, predominantly rigid rotor and combined hydraulic outlets of a hydraulic motor and a pump, characterized in that, in order to axially balance the rotor and increase the flow, the pump contains two operating parallel screw pairs, npiJ4eM rotor diameter of one pair larger than the diameter of the other rotor.