SU470581A1 - Downhole motor - Google Patents

Description

one

The invention relates to the drilling of oil and gas wells.

Downhole motors are known, made according to the principle of blade hydraulic motors and intended for drilling wells, which have a cylindrical body with a shaped stator fixed in it and a stepped rotor with blades movably mounted in its diametrical through grooves. However, the known hydraulic engines are unreliable in operation on drilling mud, including particles of sand and lime.

The proposed downhole motor is characterized in that the slots in its rotor are made at an angle to one another, the angle of rotation being proportional to the number of rotor stages. This increases the reliability of the engine in operation.

FIG. 1 shows the proposed downhole motor, a general view: in FIG. 2 is a section along A-A in FIG. one.

The engine has a cylindrical body 1 with a thread 2 at the top for connection to the drill string. The partitions 3 and the stators 4 form, in combination with the case 1, volume chambers 5, which are located coaxially vertically. On the periphery of the partitions 3 and the stators 4 there are two vertical slots. Grooves in combination with

the inner surface of the housing 1 forms the discharge channel 6 and the drain channel 7, which are hermetically separated from each other and extend along the entire length of the bulk

chambers 5. The upper horizontal partition 3 has a groove located without displacement vertically relative to the discharge channel 6, and the lower partition 3 also has a groove located without displacement along

vertical with respect to the drain channel 7. Thus, the injection channel 6 is open for entering the drilling mud at the top and closed at the bottom, and the drain channel 7 is closed at the top and open at the bottom.

The stators 4 are made with two windows 8, one of which connects the chamber with the discharge channel 6, and the other with the drain channel 7. Through the chamber 5 passes

a rotor 9 concentrically located relative to the body, carrying in its diametrically through grooves 10 diametrically located 10 working blades 11. The grooves 10 are made at the height of the rotor at an angle to one another, proportional to the number of rotor stages, which ensures that in each volumetric chamber only one bilateral blades, alignment of torque and increase in engine reliability

in work.

The rotor 9 below the lower partition 3 is conically enlarged in diameter. It has a channel 12, going from the conical surface to the central hole at the end of the rotor. The central hole at the end of the rotor ends at the splines 13, through which torque is transmitted from the rotor 9 to the spindle 14. The spindle 14 is hollow. It is mounted in a housing on radial 15 and axial 16 supports. The sub 17 is screwed onto the lower end of the spindle, to which the chisel is attached.

When the drilling pumps are turned on, the drilling fluid through the column enters the discharge channel 6 and further, through the window 8, in parallel to all the volumetric chambers, turning the blades, the rotor and the spindle associated with it with the bit.

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5. iA .. - Subject of the invention

A downhole motor comprising a cylindrical body having vertical discharge and drain channels, with a profiled stator fixed in it, divided into transverse chambers having two longitudinal windows, respectively communicated with the discharge and drain channels, and a stepped rotor with movably mounted in its diametrically through blades grooves, characterized in that, in order to increase engine reliability in operation, the slots in the rotor are made at an angle to one another, the angle of rotation being proportional to the number of rotor stages.

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