RU2179264C2 - Lock support of sucker-rod oil-well pump (versions) - Google Patents

Abstract

FIELD: oil and gas producing industry; sucker-rod pumps for discharge of fluids containing abrasive admixtures. SUBSTANCE: proposed pump includes core mounted in connecting bush for axial up and down motion. Limiter is screwed in lower portion of core. Upper portion of support is made in form of core changing to cylinder terminating in flange. Core has through hole flow of fluid and for axial motion of pump rod. Located on outer wall of core is collar expandable bush manufactured from elastic material (oil-resistant rubber, polyurethane, etc. ). Lock support has mounting seat for passage of flange of connecting bush with collar bush. Well of high content of sand may be provided with sand anchor made in form of bushes on pump rod which are secured on head with outlet ports. High tightness of lock support is achieved due to elastic material of collar bush: in case of presence of abrasive particles (in lowering the pump, for example) between mounting seat of lock support and outer walls of collar bush, operation is not affected. In case of breaking of pump off support (in hoisting the pump, for example), escape of pump is effected smoothly, without excessive loads on sucker-rod string. EFFECT: simplified construction; ease of maintenance; enhanced economical efficiency. 4 cl, 4 dwg

Description

 The invention relates to the field of oil and gas industry, in particular to sucker rod pumps.

 Known plug-in sucker-rod pump (USSR author's certificate N 538154, F 04 B 47/00 1975), containing a working pair of a plunger-cylinder, a rod that is connected to the rods by means of a coupling, a locking support with a support ring installed in the housing, launched on pipes, a spring anchor made in the form of a compression spring, supported by a support sleeve, and a landing cone located on the pump.

 A disadvantage of the known design of an insert borehole sucker-rod pump is that for the revision of its castle support it is necessary to raise a pipe string from the well. In addition, when the movable sleeve is rubbed against the o-ring, leakage occurs. This in turn reduces the reliability of the device as a whole. The closest technical solution to the invention is a plug-in borehole sucker rod pump (USSR author's certificate N 958697 F 04 B 47/00 of 1982), comprising a plunger, cylinder, locking support with a support ring, a spring armature supported by an elastic spacer ring, thin-walled sleeve with slots, a die with teeth.

 The disadvantage of this pump is that the thin-walled sleeve is subject to wear due to the tension of the spring armature, which can lead to a breakdown of the cone from the support ring. The spring mechanism is also subject to corrosion wear, which leads to a weakening of the spring. In addition, this design is difficult to manufacture.

 To increase the productivity and reliability of the lock support, the lock support of the sucker rod pump contains a seat, a new core with a sleeve, the lower part of which is equipped with a limiter, and the upper part has a cone passing into the cylinder ending with a flange, the core cavity is made for free movement of the pump rod and liquid passage, and the core itself is located in the connecting sleeve with the possibility of axial movement up and down. The cuff sleeve is made of an elastic material with the possibility of expansion and movement along the core body, the seat of the castle support is made corresponding to the external dimensions of the walls of the connecting and cuff bushings, ending with a shoulder, the side landing surface of the castle support is made rough.

 The locking support of the sucker rod pump, including a hollow core, a sleeve sleeve, a seat, is characterized in that the core is fixed to the pump and made in the form of a cone passing into a cylinder with a flange, and the sleeve sleeve is made of an elastic material and is exchanged tightly in the body of the support .

 The locking support of the sucker rod pump, including a hollow core, a sleeve sleeve, a seat, differs in that the hollow core is made in the form of a flange, the sleeve sleeve is made of an elastic material in the shape of a cone that passes into the cylinder, and then into the flange, and the seat in the body of the support is made in the form of a reciprocal form of the sleeve and the core flange.

 In FIG. 1 shows a lock support during landing, section; in FIG. 2 - castle support with a sleeve located in it; in FIG. 3 - a lock support with a cuff sleeve located motionless on the pump body; in FIG. 4 shows a connecting sleeve 2 and a core 3.

 Option 1. A connecting sleeve 2 is fixed on the pump casing 1, the core 3 installed in the sleeve 2 contains a stop 4 on the lower part, and its upper part is made in the form of a cone turning into a cylindrical and ending with a flange. On the outer wall of the core 3 is a cuff sleeve 5 made of an elastic material (for example, polyurethane). On the lock support 6, a seat is made for the passage of the flange of the sleeve 2 and the cuff sleeve 5. The core has a through hole for the passage of fluid and for axial movement of the pump rod 7.

 When the pump is seated on the lock support, the sleeve 2 abuts against the shoulder 8. The side surface of the seat is made rough in the form of teeth 9 (Fig. 1).

 Option 2. On the pump housing 1, the core 3 is connected to the pump motionless. The hollow core 3 is made in the form of a cone passing into a cylinder with a flange. The sleeve sleeve 5 is made of an elastic material and is placed tightly in the body of the lock support 6 (Fig. 2).

 Option 3. On the pump housing 1 is fixedly fixed core 3, made in the form of a flange. The sleeve 5 is made of an elastic material in the form of a cone, which passes into the cylinder with a flange, and is fixed motionless on the body of the pump 1. The seat in the body of the lock support 6 is made in the form of a reciprocal shape of the sleeve 5 and the core flange 3 (Fig. 3) .

 For small diameter pumps, it is advisable to make the core 3 and the connecting sleeve with some additions, namely: the lower part of the core 3 is equipped with a limiter 4, and the upper part has a bulge 10 in the form of a cylinder turning into a cone with a cylinder and ending with a flange (Fig. 4). The connecting sleeve 2 in the upper part has the shape of a cup, the inner diameter of which is made corresponding to the outer diameter of the bulge 10 of the core 3. And the height of the seat socket of the cup is made greater than the height of the bulge 10.

 The operation of the lock support according to option 1 is as follows: when the pump 1 is mounted on the lock support 6, the sleeve rests against the flange 8. The collar sleeve 5 also lowered to the seat 9 in the lock support.

 With further lowering of the pump rod, the connecting head (not shown) presses on the upper part of the core 3.

 The core 3, in turn, smoothly enters the cuff sleeve 5, expanding it and tightly pressing against the walls of the seat 9 of the lock support 6, thereby sealing the passage of fluid along the outer diameter of the pump. The weight of the column of pumped fluid presses on the core flange 3, which also tightly presses the sleeve 5 to the wall of the castle support 6.

 When the pump is disengaged from the lock support, the pump plunger pushes the core 3 all the way to the stop 4 with the connecting sleeve 2, while the core 3 smoothly leaves the sleeve 5. At this time, the sleeve remains in the seat 9 of the lock support 6, catching on the teeth 9. As a result of this, the cuff sleeve 5 is relieved of tension, the latter, being compressed, assumes its original shape and freely leaves the castle support 6, without being subjected to produring against the walls of the seat (Fig. 1).

 When the pump 1 is mounted on the lock support 6, the core 3 smoothly enters the collar sleeve 5 located in the support body, tightly expanding it with its conical part, turning into the cylindrical one and pressing tightly against the walls of the lock support 6. The flange of the hollow core 3 abuts against the upper end of the collar the sleeve 5. The pressure of the liquid presses on the flange of the core 3, thereby increasing the density of the sealing sleeve sleeve 5.

 Option 2. When the pump 1 is disengaged from the lock support 6, the pump 1 with the hollow core 3 smoothly leaves the cuff sleeve 5, the latter remains in the lock support body 6 (Fig. 2).

 Option 3. When the pump 1 is mounted on the lock support 6, the sleeve sleeve 5 enters the seat of the support with its conical part, which passes into the cylinder with the flange, compressing, takes the form of a seat that is slightly smaller in inner diameter than the outer diameter of the sleeve 5 ( Fig. 3). Next, the sleeve sleeve 5 abuts the flange against the seat of the support. The pressure of the liquid column presses on the core in the form of a flange 3, pressing more tightly, thereby sealing the sleeve. Disruption of the pump 1 from the lock support 6 occurs in the reverse order, while the sleeve remains on the pump body (tightly fixed).

 Such versions of the lock supports contribute to an increase in productivity, a decrease in wear and, consequently, an increase in the service life of the pump.

 Due to the use of an elastic material, it is possible to use a locking support in wells with significant curvature, as well as in liquids with a high content of abrasive impurities. When the pump is disengaged from the lock support (for example, to lift the pump), the pump exits smoothly, without unnecessary loads on the rod string, without subjecting them to tension, and even more so, breaking.

 For the manufacture of parts of this castle support does not require high accuracy in size and processing in landing contact places.

 Also, no effort is required on the locking support when it is planted. The design is economical, easy to execute and operate.

Claims (3)

 1. The locking support of the sucker rod pump, comprising a hollow core, connecting and cuff bushings and a seat, characterized in that the core is located in the connecting sleeve with the possibility of axial movement and is equipped with a limiter on one side, and the other is made in the form of a cone passing into the cylinder and ending with a flange, the sleeve sleeve is located on the core and is made of an elastic material with the possibility of expansion and movement along the core body, and the bearing seat is made but the corresponding external dimensions of the connecting and cuff bushings ends with a shoulder, and the side surfaces of the bearing seat are made rough.  2. The locking support of the sucker rod pump, including a hollow core, a sleeve sleeve, a seat, characterized in that the core is fixed to the pump and made in the form of a cone, turning into a cylinder with a flange, and the sleeve sleeve is made of elastic material and placed tightly in the body of the castle support.  3. The locking support of the sucker rod pump, including a hollow core, a sleeve sleeve, a seat, characterized in that the hollow core is made in the form of a flange, the sleeve sleeve is made of an elastic material in the form of a cone that passes into the cylinder, and then into the flange, and the seat the place in the body of the support is made in the form of a reciprocal form of the cuff sleeve and the core flange.

Images