RU69583U1 - ANCHOR DEVICE - Google Patents

Abstract

The proposal will find application in oil wells operated by sucker rod pumps. The technical effect is to simplify the design and increase durability. The essence of the utility model. The device includes a sub housing with cams, a housing of dies with longitudinal grooves, dies, a spring and screws. A feature of the device is that the spring is made in the form of a split thin-walled sleeve having a kinematic connection with the dies. The latter are made in a T-shape, and the cams are tapered with working surfaces of a curved shape. 3 ill.

Description

The proposal relates to the field of pump engineering, in particular to downhole sucker-rod screw pumps, and more particularly to fixation units of the pump stator relative to the well casing.

A known screw pump fixing unit, consisting of a housing of dies, a housing of pads, dies, friction pads, clamps for fixing dies and screws (Prospect of the company Chriscor and KUDU, Scrooll - Loc Anker, 2002, Canada. Analogue No. 1. A copy is attached).

The disadvantages of the device:

- the high cost of manufacturing due to the need to perform dies and friction pads in kinematic connection, as well as due to the complex design of the covering dies of clamps;

- insufficient operational reliability, since the implementation of the dies in an open design does not exclude their jamming in the clamps until they touch the inner wall of the casing.

An anchor device is also known, consisting of a housing of dies, a housing of blocks, dies, friction blocks, pressing dies of springs and screws (the same source), analogue No. 2. The disadvantages of the device:

- poor service life due to intensive wear of the blocks against the casing wall during the descent of the pump into the well and its lifting from the well;

- a relatively high cost due to the presence of a friction block assembly.

The closest in technical essence to the proposed one is a counter-turn anchor containing a sub housing with cams, a housing of dies with longitudinal grooves, dies, a spring and screws (Weatherford prospectus, Submersible screw pump system, 2003, Austria. Copy attached).

The disadvantages of the device are:

- the complexity of the design, due to the fact that it uses an adapter dies in the working position of the collet design;

- short service life of the device due to intensive wear of the contact surfaces of the pin and the inclined groove due to the large specific pressures attributable to these surfaces.

The objective of the utility model is to create an anchor device of a simplified design and having increased durability.

This problem is solved by the proposed anchor device, including a sub housing with cams, a die housing with longitudinal grooves, dies, a spring and screws.

New is that the spring is made in the form of a split thin-walled sleeve having a kinematic connection with dies made in a T-shape; cams are made wedge-shaped, with working surfaces of a curved shape.

Figure 1 shows a General view of the proposed anchor device in partial section.

Figure 2 is a section along aa of figure 1

Figure 3 is a section along BB of figure 1

An anchor device consists of a sub housing 1 (Fig. 1) equipped with cams 2 (Fig. 2) with curved surfaces, a housing 3 with longitudinal grooves 4, dies 5, a spring 6, a nut 7 and a screw 8. To output the dies 5 in the working position, the cams 2 are equipped with wedge-shaped profiles 9. The dies 5 are made of a T-shape. The spring 6 is a cut thin-walled sleeve fixed to one of the dies 5.

Installation of equipment.

An anchor device is connected to the stator (casing) of the rod screw pump (not shown in Fig.) And after that the equipment is lowered into the well on tubing. Upon reaching the required depth of descent of the pump using the lever, the tubing string is rotated in the direction of rotation of the rotor (rods) until the profiles 9 of the cams 2 bring the dies 5 into contact with the inner wall of the casing. The device is ready for use.

Work equipment.

The rotor of the rod screw pump receives rotation from the string of pump rods. As a result of the rotation of the rods and the movement of the extracted fluid through the helicoidal channels, a circumferential force arises, which tends to rotate the pump stator and the tubing string in the direction of rotation of the rods. However, this is prevented by sticks 5 stuck in the casing, thereby eliminating the oscillation of the tubing and pump in one direction or another relative to the axis of the pump.

The proposed device is simpler in design due to the spring in the form of a split thin-walled sleeve and the use of standard parts. The service life of the device is increased due to the reduction in the number of parts included in it and the rational kinematic connection between the spring and the dies.

Claims (1)

An anchor device, including a sub housing with cams, a dies housing with longitudinal grooves, dies, a spring and screws, characterized in that the spring is made in the form of a split thin-walled sleeve having kinematic connection with dies made in a T-shape, the cams are made wedge-shaped, with curved work surfaces.