RU116918U1 - INSTALLING A SCREW SUBMERSIBLE PUMP - Google Patents

Abstract

1. Installation of a screw submersible pump, containing a submersible electric motor, a submersible screw pump, tubing and casing pipes, a reducing module located between the submersible motor and a screw pump, characterized in that the reducing module is a planetary helical gear train with at least two planetary sets, consisting of a shaft with gears, a carrier, a body with gear rims and satellites, mated with the shaft gears and gear rims of the body and installed in the carrier on the fingers in liners with needle bearings, and the direction of inclination of the tooth in the gearing of the planetary gears is opposite, also equipped with a spindle with axial and radial bearings. ! 2. Installation of a screw submersible pump according to claim 1, characterized in that the submersible motor is equipped with a control station.

Description

The utility model relates to the field of engineering and can be used in the oil and gas industry for lifting highly viscous reservoir fluids from wells.

A well-known pumping unit (patent 2113137 RU, IPC ⁷ F04B 47/02, publ. 1998.12.10). The installation includes a tubing string, a screw pump, a rod string, a two-stage gearbox with an airtight casing, a lip seal and a thrust bearing. The pump spindle mounted on the rod string is connected to the driven gear of the gearbox. A movable gear block is placed on the drive shaft of the gearbox, and on the intermediate shaft the driven gears of the high-speed and low-speed steps are installed, which are installed with the possibility of interaction with one of the gear rims of the movable gear block.

The disadvantage of this downhole installation is the bulkiness of the surface drive of the installation and the inconvenience of regulating the performance of the screw pump using the mechanism for moving the gear block manually.

A well-known installation of a borehole screw pump (patent 2334125 RU, IPC F04C 2/107, publ. 2008.20.09) is a prototype comprising a submersible electric motor, a submersible screw pump, a reducing module located between the electric motor and the screw pump, tubing and casing pipes.

The disadvantage of installing a borehole screw pump in the prototype is the inability to place the design of the flat-gear transmission of the reducing module in the dimensions of screw submersible pumps up to 127 mm, used to lift highly viscous formation fluids from the wells. Also the disadvantage of installing a downhole screw pump in the prototype is the inability to control the performance of the screw pump. Also a disadvantage of installing a downhole screw pump in the prototype is the fragility of its operation, due to the lack of a spindle in the design. The spindle takes on axial and radial loads that occur during operation of the installation. The rise of highly viscous reservoir fluids with a significant content of solids is possible at low rotational speeds of the rotor of a submersible screw pump. The need for a simple and easy-to-operate implementation of the performance control of a submersible pump is due to a wide range of well operating conditions.

The objective of this utility model is to expand the functionality of the installation of a screw submersible pump in terms of regulating the performance of a screw pump and increasing the reliability and durability of the pump installation.

The solution to this problem is achieved by the fact that in the known arrangement of a screw submersible pump installation comprising a submersible electric motor, a submersible screw pump, tubing and casing pipes, a reducing module located between the submersible electric motor and a screw pump, according to the utility model, the reducing module is a planetary helical gear with at least two planetary gears, consisting of a shaft with gears, a carrier, a body with gears and satellites, sop yazhennyh shaft with pinions and ring gears installed in the housing and the carrier on the fingers in the bushings with needle bearings, the direction of inclination of the tooth in the toothing of the planetary opposite rows, as well as provided with a spindle with axial and radial supports.

In addition, the submersible motor is equipped with a control station.

Figure 1 shows a General view of the installation of a screw submersible pump.

Figure 2 - reducing installation module.

Figure 3 - installation spindle.

The installation of a screw submersible pump shown in FIG. 1 consists of a submersible motor 1, a reducing module 2, a spindle 3, and a screw submersible pump 4. The submersible motor 1 is made of a valve. The installation on the string of tubing 5 descends into the string of casing 6. The power to the submersible motor 1 from the control station (not shown) is supplied via cable 7.

The reducing module 2 of FIG. 2 is a planetary helical gear 8 installed in the installation body 9. The planetary helical gear 8 consists of a shaft 10 with gears 11, a carrier 12, a cylinder 13 with gears 14 and satellites 15. The satellites 15 on the fingers 16, the ends of which are installed in the needle bearings 17 of the liners 18, are placed in the grooves of the carrier 12. The carrier 12 is installed in the cylinder 13 on bearings 19. Two planetary rows are made. To compensate for axial loads arising during the operation of the helical gearing, the direction of the inclination of the tooth in the gears of the planetary gears is the opposite. The design of the reducing module is compact, it can be installed in the installation of a 127 mm submersible screw pump. By increasing the number of planetary gears, it is possible to obtain a gearbox with the desired number of stages and the required gear ratio.

The spindle 3 of figure 3 consists of radial 20 and axial 21 bearings installed in the installation casing 9. Radial bearing 20 consists of an outer sleeve 22 and an inner sleeve 23. The axial bearing 21 is a set of thrust bearings 24. The radial and axial bearings are mounted on the shaft 25 of the spindle 3.

Installation of a screw submersible pump operates as follows. The installation descends into the casing string 6 on the tubing string 5. The power to the submersible motor 1 from the control station is supplied via cable 7. When the submersible motor 1 is turned on, rotation is transmitted to the shaft 10 of the reducing module 2, then through the gears 11 of the shaft 10 to the satellites 15 and the gear rims 14 of the cylinder 13. The cylinder 13 is fixedly mounted in the housing of the installation 9. As a result, the rotation is transmitted to the carrier 12 and then to the spindle shaft 3 and to the rotor of the screw pump. The total gear ratio of a planetary gear, for example, in a dimension of 127 mm is 3.26.

Thus, the proposed technical solution allows to reduce the rotational speed of the submersible pump using a reducing module 2 to ensure the lifting of highly viscous reservoir fluids with a significant content of mechanical impurities and the percentage of free gas.

The use of a submersible motor 1 in a technical solution with a control station allows for a simple and convenient method of controlling the performance of a submersible pump in operation. Submersible motor 1 has a wide range of regulation of the frequency of rotation of the output shaft from 200 to 1500 rpm The operation of the submersible motor is controlled by the frequency converter of the control station.

The use of spindle 3 in the technical solution allows to increase the reliability and durability of the screw submersible pump and the installation as a whole. The spindle takes on axial and radial loads that occur during operation of the installation.

Thus, the implementation of the proposed utility model with the above distinguishing features in combination with the known features allows you to expand the functionality of the installation of a screw submersible pump in terms of regulating the performance of the screw pump and to increase the reliability and durability of the pump installation.

Claims (2)

1. Installation of a screw submersible pump, comprising a submersible electric motor, a submersible screw pump, tubing and casing, a reducing module located between the submersible motor and the screw pump, characterized in that the reducing module is a planetary helical gear with at least two planetary gears, consisting of a shaft with gears, a carrier, a housing with gears and gears, paired with gears of the shaft and gears of the housing and installed in App end on the fingers in the bushings with needle bearings, the direction of inclination of the tooth in the toothing of the planetary opposite rows, and provided with a spindle with axial and radial supports. 2. Installation of a screw submersible pump according to claim 1, characterized in that the submersible motor is equipped with a control station.