RU2310070C2 - Telemetering system power supply generator - Google Patents

Abstract

FIELD: survey of boreholes or wells, particularly means to supply power to well logging apparatus during well drilling.

SUBSTANCE: generator comprises turbine, end seal with slip rings, liquid lubricant pressure and thermal expansion compensator made as spring-loaded piston provided with rod at end thereof and filling device. liquid lubricant pressure and thermal expansion compensator passes in generator rotor and is connected to insert air-tightly fastened to lower cowl through body with magnets located in ferrule. The insert has concentric extension to limit piston travel and to transmit axial load to generator stator through bearings. Lower cowl interior surface has intermediate section, which connects section having greater diameter to that having lesser diameter. Bearing is installed in lower cowl section having greater diameter. End seal is arranged in lower cowl section having lesser diameter. Movable end seal part is pressed with nut through ring, which adjusts pressing force of slip rings included in end seal. Nut is restrained from rotation at lower cowl by means retaining ring. Ring adapted to adjust expansion clearance is installed between inner annular surface of lower cowl defined by intermediate section and outer bearing ring. Composite rotor sides are connected with each other and retaining rings are expanded between ends thereof so that the rings pass in slots formed in side ends.

EFFECT: increased service life and reliability, decreased maintenance time.

6 cl, 3 dwg

Description

The invention relates to the drilling of oil and gas wells, and in particular to generators that are designed to power downhole geophysical instruments during drilling.

Known alternator for power autonomous downhole geophysical and navigation systems, RF patent No. 2170348. The generator contains a sealed stator mounted on a fixed hollow shaft, a rotor mounted on bearings mounted on a fixed hollow shaft. The internal cavity of the generator is protected by a sealing device. The generator is made in the form of an external casing, on the outside of which turbine rotor blades are installed, and permanent magnets are installed on the inside. Electrical connectors are installed on the shaft. One of the sealing devices is equipped with a spring and installed with the possibility of axial movement to provide pressure compensation and thermal expansion of the lubricating fluid located in the bearing assemblies and in the gap between the rotor and stator, while the electrical connectors are located on both sides of the shaft, and the working blades are installed at the edges corps. The sealed stator is made in a monolith of non-conductive and non-magnetic material, such as fiberglass. The disadvantages of the generator are: a small volume of the pressure compensator caused by the presence of a central axis, which reduces the volume of the compensator by half for the same length, an annular piston that requires compaction along the perimeter of a greater length, lack of adjustment of the sealing force between the moving and stationary parts of the generator.

Known electric generator, RF patent No. 2243370, which contains a device for mounting it, an external rotor with a turbine mounted through a bearing on an axis, along with which an internal stator is made. The external rotor and the internal stator form a cavity in which, with the possibility of axial movement, a compensator for pressure and thermal expansion of the lubricating fluid is installed, made in the form of a piston sealed along the rotor and axis. The piston is axially sealed with a rubber reinforced cuff installed inside the pressure compensator and thermal expansion of the lubricating fluid, with the possibility of axial movement together with the piston. On the axis, in the interval of movement of the piston, a removable sleeve is installed. The removable sleeve is locked against rotation. An additional rubber reinforced cuff is installed next to the rubber reinforced cuff, while the elastic elements of both cuffs are turned in opposite directions with the formation of a cavity between them. The cavity between the rubber reinforced cuffs is filled with grease.

The disadvantages of the generator are: low efficiency of the sealing of the axis of the generator, due to the lack of adjustment of the pressing force of the seal installed between the piston rotating with the external rotor and the axis of the generator, a small volume of the pressure compensator caused by the presence of a central axis, a ring piston that requires compaction along the perimeter of a greater length.

The known generator of the patent of the Russian Federation No. 20541, which contains a mechanical seal, a compensator for the thermal expansion of the lubricating fluid, is made in the form of a piston, at the end of which there is a retractable rod indicator with a graduation applied, corresponding to the remaining and consumed lubricating fluid. The disadvantage of the generator is the inability to adjust the mechanical seal without completely disassembling the generator, as well as the extended channels through which the lubricating fluid is supplied to the generator, which leads to the presence of air bubbles in the closed cavities of the generator when it is filled with grease. When the generator is lowered into the well, the pressure inside the generator is equalized with the hydrostatic pressure of the drilling fluid. At high pressure, air bubbles dissolve in the lubricating fluid, after which the pressure compensator takes the extreme position corresponding to the absence of the lubricating fluid in the pressure compensator. Subsequently, the lubricant is replaced inside the generator by the drilling fluid and, as a result, the bearings wear quickly.

Known electric machine, RF patent No. 2173925 (prototype), containing a device for mounting it, a rotor with a housing, a stator, bearings, sealing devices and a cavity between the rotor and the stator filled with lubricating fluid. The sealing device is placed on the side of the mounting device. The sealing device is made in the form of a piston mounted axially movable and an mechanical seal containing two contact rings, one of which is movable in the axial direction, while the axially stationary contact ring is integral with the sleeve along which the piston moves. The piston is spring loaded on the side of the attachment device. One end of the sleeve is mounted inside a centralizer mounted in the housing. The piston is sealed relative to the housing and sleeve.

The disadvantage of the generator is the lack of adjustment of the clamping force of the contact rings of the mechanical seal. The clamping force is determined only by the compression value of the springs of the mechanical seal, which can vary widely, depending on the total error caused by the inaccuracy of the manufacture of individual parts of the generator. The clamping force is selected from the condition of the required specific pressure between the contact rings. If this value exceeds the nominal specific pressure, then the starting torque of the generator and the required flow rate of the flushing fluid increase. In this case, jamming of the rotor and, as a consequence, failure of the downhole equipment of the telemetry system due to lack of power supply is possible. If the specific pressure between the contact rings is less than the nominal value, the sealing efficiency is reduced. Drilling fluid enters the generator and intensive wear of bearings and other parts of the generator begins, which significantly reduces its service life. A significant drawback is the lack of access to the mechanical seal without almost completely disassembling the generator.

The objectives of the invention are: increasing the operating life and reliability of the generator, accelerating its maintenance, improving the accuracy of adjusting the clamping force of the moving part of the mechanical seal to the stationary one, quickly replacing the moving part of the mechanical seal without completely disassembling the generator, and also increasing the volume of the pressure compensator.

The solution of these problems was achieved due to the fact that the power generator of the telemetry system contains a turbine, a mechanical seal with slip rings, a pressure compensator and thermal expansion of the lubricating fluid, made in the form of a spring-loaded piston, on the end of which is a rod, with a filling device. Moreover, the compensator for pressure and thermal expansion of the lubricating fluid enters the rotor of the generator and is connected to the insert, which through the case with magnets installed in the holder is hermetically attached to the lower fairing. Moreover, the insert is made with a concentric protrusion, restricting the movement of the piston on one side and transmitting the axial load through bearings to the generator stator on the other. The inner surface of the lower fairing is made with the transition of a larger diameter to a smaller one. A bearing is installed in the larger diameter of the fairing, and a mechanical seal is installed in the smaller diameter. The movable part of the mechanical seal is pressed with a nut through the ring, which regulates the clamping force of the contact rings of the mechanical seal. The nut is fixed on the lower cowl from the lapel with a circlip. Between the inner annular surface of the fairing, formed by the transition from a larger diameter to a smaller one, and the outer ring of the bearing, a ring regulating the thermal gap is installed. The constituent parts of the rotor are hermetically connected to each other and between their ends in the grooves located at the edges, the retaining rings are unbent.

The proposed technical solution has novelty, industrial applicability and inventive step, which is confirmed by patent research and the fact that it does not explicitly follow from the prior art for a specialist.

The invention is illustrated in figure 1 ... 3, where:

Figure 1 shows the power generator of the telemetry system.

In Fig.2, a larger unit for adjusting the clamping force of the contact rings of the mechanical seal.

In Fig.3 the sequence of installation of parts when adjusting the clamping force of the contact rings of the mechanical seal.

The power generator of the telemetry system of figure 1 contains a turbine 1, a mechanical seal 2 with slip rings 3 and 4, a compensator for pressure and thermal expansion of the lubricating fluid 5, made in the form of a spring-loaded piston 6, at the end of which is a rod 7, with a filling device 8. Moreover the pressure compensator and thermal expansion of the lubricating fluid 5 enters the rotor 9 and is connected to the insert 10, which through the housing with magnets 12 installed in the holder 11 is hermetically attached to the lower fairing 13. Moreover, insert 1 0 is made with a concentric protrusion 14, restricting the movement of the piston 6 on one side, and on the other hand transmitting the axial load through the bearings 15 to the stator of the generator 16. The inner surface of the lower fairing 13 is made with the transition of a larger diameter to a smaller one. A bearing 17 is installed in a larger diameter of the fairing 13, and a mechanical seal 2 is installed. The movable part of the mechanical seal 18 is spring-loaded with springs 19 relative to the mechanical seal ring 20, which is pressed by the nut 21 through the ring 22, which regulates the clamping force of the contact rings 3 and 4 of the mechanical seal 2 The nut 21 is fixed on the lower fairing from the lapel by the locking ring 23. Between the inner annular surface of the fairing, formed by the transition from a larger diameter to a smaller one, and the outer ring of the bearing 17 a ring 24 has been set that regulates the thermal gap L. The rotor components are hermetically connected to each other and between their ends into grooves located at the edges, the circlips 25 are unbent.

The device operates as follows. After the generator is assembled, the mechanical seal 2 is adjusted. For this, the distance from the end of the lower fairing to the contact ring 3 of the fixed part of the mechanical seal 2 is measured. Knowing the length of the movable part of the mechanical seal 2 together with the springs 19 and the mechanical seal ring 20, as well as the total spring stiffness, that is, a change in load when the length is reduced by one millimeter, it is possible, by changing the width of the ring 22, to regulate the clamping force of the moving part of the mechanical seal to the stationary one. After installing the ring 22 of the desired width, set the circlip 23 and wrap the nut 21. The generator is filled with lubricating fluid. By combining the pressure compensator and the temperature expansion of the lubricating fluid 5 with the rotor, the generator is more completely filled without bubbles, which further increases the operating time of the pressure compensator 5. The generator is connected to the downhole equipment (not shown in Figs. 1 ... 3) and the composition of the drill pipe string is lowered into the well. With increasing hydrostatic pressure and temperature, the piston 6 of the pressure compensator 5 equalizes the pressure inside the generator with the ambient pressure. The drilling fluid acts on the blades of the turbine 1 and rotates the rotor 9. The magnets 12 mounted on the rotor 9 rotate around the stator of the generator 16. An EMF is induced in the winding placed on the stator. In this case, the fixed part of the mechanical seal is fixed on the axis of the stator, and the movable part 18 inside the rotating lower fairing 13 connected to the rotor 9. The contact rings 3 and 4 interact with each other and create a seal of the internal cavity of the generator. Moreover, when changing the drilling conditions, for example, the depth of the well or the flow rate of the drilling fluid, the clamping force of the contact rings 3 and 4 can be quickly adjusted. After lifting the drill pipe string, the generator is serviced by flushing it with a lubricating fluid, and it does not require complete disassembly. For maintenance, nut 21 is loosened. The adjusting ring 22, the movable part of the mechanical seal 18 with the springs 19 and the mechanical seal ring 20 are removed. After that, the external inspection of the rubbing surfaces can be carried out, as well as the generator washing with a lubricating fluid.

The application of the invention allowed:

1. To increase the service life and reliability of the generator.

2. Speed up generator maintenance.

3. To increase the accuracy of adjustment of the clamping force of the contact rings of the mechanical seal.

4. Quickly adjust the clamping force of the contact rings of the mechanical seal when changing drilling conditions, such as well depth or flow rate of the drilling fluid.

5. Ensure quick replacement of the moving part of the mechanical seal without completely disassembling the generator.

6. Provide quick flushing of the generator with lubricating fluid after lifting from the well.

7. Increase the volume of the pressure compensator and thermal expansion of the lubricant.

Claims (6)

1. The power generator of the telemetry system, comprising a turbine, a mechanical seal with slip rings, a pressure and temperature expansion compensator for the lubricating fluid, made in the form of a spring-loaded piston, at the end of which there is a rod, with a filling device, characterized in that the pressure and thermal expansion compensator is lubricating liquid enters the rotor of the generator and is connected to the insert, which through the case with magnets installed in the holder is hermetically attached to the lower fairing, and the whole the bearing is made with a concentric protrusion, restricting piston movement on one side and transmitting axial load through bearings to the generator stator on the other. 2. The power generator of the telemetry system according to claim 1, characterized in that the inner surface of the lower fairing is made with the transition of a larger diameter to a smaller one, a bearing is installed in a larger diameter of the fairing, and an end seal is installed in the smaller one. 3. The power generator of the telemetry system according to claim 1 or 2, characterized in that the movable part of the mechanical seal is pressed with a nut through the ring regulating the clamping force of the contact rings of the mechanical seal. 4. The power generator of the telemetry system according to claim 3, characterized in that the nut is fixed on the lower fairing from the lapel with a retaining ring. 5. The power generator of the telemetric system according to claim 2, characterized in that between the inner annular surface of the lower fairing, formed by the transition from a larger diameter to a smaller one, and an outer ring of the bearing, a ring that regulates the thermal gap is installed. 6. The power generator of the telemetric system according to claim 1 or 2, characterized in that the components of the rotor are hermetically connected to each other and between their ends in the grooves located at the edges, the circlips are unbent.

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