RU2232865C2 - Pumping bar - Google Patents

Abstract

FIELD: oil extractive industry.

SUBSTANCE: every nipple of pumping bar is made of two members, first portion is connected to the rod by means of cross-shaped fixing member which has four identical wedges made with possibility of filling of empty spaces in the rod which form during its fixing, by means of connecting of wedges surfaces by adhesive to inner conical surface of first member, and to surfaces of slits in rod after its fixing, length of wedge being equal to length of inner conical surface of first member, and generating lines of wedges surfaces which are made with capability for engaging inner conical surface of first member and wedges surface, which are made with capability for engagement with the rod and are parallel to surfaces of slits after fixing of rod, and maximum width of each wedge is no more than 25%-30% of difference between length of inner circle with maximum diameter in conical aperture of first member and length of rod circle, and maximum depth of cross-shaped fixing member is less than maximum inner diameter in conical aperture of first member, and it has metallic bushing with thread on its inner surface for connection to second member and length of this thread is no less than length of inner conical surface of bushing, second member of nipple on one side is made with outer engaging thread, and on other side it has dead-end aperture with inner thread for connection to first member, and length of this thread is no less than length of thread on first member, and depth of dead-end aperture is greater than length of thread on first member, and first and second members are screwed into one another with use of adhesive forming solid connection, and outer surface of rod is protected by wear-resistant material, which covers no less than 70% of area of outer surface of rod.

EFFECT: higher durability and life of pumping bar.

10 dwg

Description

The invention relates to oil refining engineering and is intended for the mechanization of oil production from a well.

A known pump rod containing a fiberglass rod, metal nipples at its ends with a blind hole at one end of the nipple, an adhesive, a proppant that is embedded in the rod from the side of the blind hole of the nipple [1].

The disadvantage of this pump rod is the lack of strength and durability due to the fact that the absence of slots at the end of the rod does not allow the proppant to be inserted to the required depth to obtain the optimum angle and taper area at the end of the rod, in addition, uncontrolled destruction will occur during the introduction of the proppant rod end with crack propagation along the rod body.

Known pump rod containing a rod with blind holes and slots at its ends, metal nipples with through holes at the ends of the rod, adhesive and proppant in the form of a cone, which are embedded in the rod from the side of the blind hole of the rod [2].

The disadvantage of this pump rod is insufficient strength and durability at elevated temperatures and when working in directional wells due to the fact that the through hole in the nipple leads to thinning of the nipple wall in the area of the connecting thread and the threaded groove, while the requirement for detachable connection of the rods with using couplings makes it impossible in principle to use adhesive for sealing the connecting thread, which does not allow the use of rigidity and strength of the coupling to strengthen the thinned nipple due to gaps in the threaded connection, in addition, the length of the connecting thread may be less than the length of the inner conical surface of the nipple, which leads to an additional concentration of axial tensile stresses in the region of the threaded groove, in addition, the design of the proppant in the form of a simple cone it does not allow to fill with a wedging part all the voids in the fiberglass rod that are formed when it is wedged, since these voids are filled only with a slightly rigid adhesive, which leads to a decrease in joint rigidity at elevated temperatures, in addition, the rod rod is made without a wear-resistant layer on its outer surface, which can lead to destruction of the rod in directional wells due to its abrasion due to direct contact with the pump a pipe.

The technical result of the proposal is to increase the strength and durability of the pump rod.

To achieve this, in a pump rod containing a rod with blind holes and slots at its ends, nipples at the ends of the rod with cylindrical and conical internal surfaces and connecting threads, adhesive, proppants, each nipple made of two parts, the first part connected to the rod by means of a cross-shaped proppant, which has four identical wedges, made with the possibility of filling the voids in the rod formed when it is wedged, by connecting the surfaces of the wedges by means of adhesive with the inner conical surface of the first part and with the surfaces of the slots in the rod after it is wedged, the length of the wedge being equal to the length of the internal conical surface of the first part, and the generatrix of the surfaces of the wedges that are adapted to fit to the inner surface of the first part are parallel the inner conical surface of the first part and the surface of the wedges, which are made to fit to the rod, are also parallel to the dimensions of the slots after the wedging of the rod, while the maximum width of each wedge is not more than 25-30% of the difference between the length of the inner circle with the maximum diameter in the conical hole of the first part and the circumference of the rod, and the maximum depth of the cross-shaped proppant is less than the maximum internal diameter in the conical the hole of the first part, while it contains a metal sleeve with a thread on its outer surface for connection with the second part and the length of this thread is not less than the inner conical surface of the sleeve, the second part of the nipple is made on one side with an external connecting thread, and on the other hand it has a blind hole with an internal thread for connection to the first part, and the length of this thread is not less than the length of the thread on the first part, and the depth of the blind hole is greater than the length of the thread on the first part, while the first and second parts are screwed into each other using adhesive, forming an integral connection, and the outer surface of the rod is protected by a wear-resistant material scrap, which covers at least 70% of the outer surface of the rod.

The proposal is illustrated by drawings, on which are shown: figure 1 - pump rod; figure 2 - section aa in figure 1; figure 3 - nipple; figure 4 - the first part of the nipple; 5 is a second detail of the nipple; 6 is a cross-shaped proppant; Fig.7 is a view A of Fig.6; Fig.8 - rod with a wear-resistant coating; Fig.9 is a view In Fig.8; figure 10 - section CC of figure 9.

The pump rod contains (Fig. 1) a rod 1 with wear-resistant material on its surface 6, a nipple 2 and a cross-shaped proppant 3. The rod 1 (Fig. 8) has blind holes 4, slots 5 at its ends and wear-resistant material 6 on the surface. The nipple 2 (Fig. 3) has two parts 7, 8, which are connected by thread and adhesive 9. The first part 7 (Fig. 4) has a thread 12 for connection with the second part of the nipple, a through cavity in the form of a cylindrical surface 10 for connection with the rod 1 in the form of a conical surface 11 on the opposite side. The second part 8 (Fig. 5) has, on the one hand, a connecting thread 13 for connecting the rods to each other by means of a sleeve (not shown), and on the other hand, a blind hole with a thread 14 for connection with the first part.

The cross-shaped proppant 3 (6) has the shape of a truncated cone, which additionally has four identical wedges, while the 15 wedge is parallel to the generatrix 16 of the truncated cone, and the generators 19 and 20 form a converging wedge, the axes 17 and 18 are the axes of symmetry of the wedges and a cross-shaped proppant as a whole and are located in mutually perpendicular planes. The cross-shaped proppant 3 in the form of a cross-shaped cone is installed in the blind hole 4 and in the grooves 5 of the rod 1 so that the truncated cone fills the blind hole and the wedges fill the cut surfaces of the grooves 5. Adhesive 21 connects the surfaces of the cross-shaped proppant 3 with the rod 1 and c the inner conical surface of the first part 11, as well as the rod 1 with the inner surface of the first part of the nipple.

The rod 1 can be made of corrosion-resistant polymer materials, such as fiberglass, basalt plastics, the wear-resistant coating is made of wear-resistant material, such as polyamide, nipple 2 and the proppant 3, from metal, for example steel.

The nipple and the cross-shaped proppant at the other end of the rod 1 (not shown in FIG. 1) are made similarly.

The ratio of the diameter of the rod D ₀ to the diameter d _{0 of the} blind hole 4 is 4-9, and the optimal value from this range depends on the diameter of the rod. This ratio is selected from the conditions of the strength of the rod and the manufacturability of the blind hole.

The first part of the nipple 7 has a cylindrical surface 10 at one end with an inner diameter D ₁ equal to the diameter D ₀ in the middle part of the rod 1, and at the other end, a conical surface 11 at a length L = (2.5-4.0) D ₁ with a half-angle of cone β ₁ = 2-4 °.

The length L of the conical surface 11 of the first part of the nipple 7 is equal to the length L _{11 of the} cross-shaped proppant 3, the length L _{0 of the} slots 5 in the shaft 1, the length L _{3 of the} blind hole 4 and is equal to (2.5-4) D ₀ , while the optimal value of this range depends on the diameter of the rod.

The angle β _{1 of the} half-solution of the conical surface 11 of the first part of the nipple is equal to the angle β _{2 of the} half-solution of the cross-shaped proppant 3 and is 2-4 °, while the optimal value from this range depends on the diameter of the rod.

The length of the thread L ₁ in the first part of the nipple must be greater than the length of the conical surface L, and the length of the thread L ₁₂ in the second part of the nipple must be at least L ₁ . The length of the blind hole L ₂ should be greater than L ₁₂ .

The maximum size of the cross-shaped proppant h must be less than the maximum diameter D of the inner conical surface of the first nipple part. The maximum wedge width b must satisfy the following relation

b = (0.25-0.3) ((DD ₀ ).

If the width is greater than in the given ratio, then the rod can be destroyed during assembly from compressive forces, if the width is smaller, the joint stiffness will decrease.

The given ratios of the angles and lengths of the conical surfaces of the nipples and the cross-shaped proppant details are due to the strength requirements for the rod and structural features. For example, if the taper angle is reduced, then the strength of the joint will decrease due to a decrease in the effect of the wedge connection, but if the taper angle is increased, the thickness of the first part of the nipple will tend to zero, which will also reduce the strength. If the size of the cross-shaped proppant h is larger than D, then assembly will not be possible. If the size L is larger than L ₁ , then a concentration of axial tensile stresses will occur.

The sucker rod is made as follows.

A wear-resistant coating 6 is applied to the outer surface of the rod 1, no wear-resistant coating is applied to the ends of the rod. An adhesive 21 is applied to the inner surface of the first part 7, to all surfaces of the cross-shaped proppant 3 and to the ends of the rod 1. Then the first part 7 is installed on the end of the rod 1. Then, a cross-shaped proppant 3 is installed in the blind holes 4 and in the grooves 5 of the rod 1 , while the ends of the rod 1 are wedged and a cross-shaped proppant with adhesive applied to it fills all the voids in the rod that are formed when it is wedged. Next, an adhesive is applied to the thread 12 of the first part 7 and to the thread 14 of the second part 8, after which the parts 8 and 7 are screwed together. The second nipple is assembled similarly, after which the adhesive cures.

Sources of information

1. RF patent No. 02117132, IPC F 16 V 11/00.

2. RF patent No. 2182642, IPC F 16 V 11/00.

Claims (1)

A sucker rod containing a rod with blind holes and slots at its ends, nipples at the ends of the rod with a cylindrical and conical inner surfaces on each nipple having a common axis, and a connecting thread on the side of the conical inner surface, adhesive, proppants, characterized in that each nipple is made of two parts, while the first part is connected to the rod by means of a cross-shaped proppant, which has four identical wedges made with the possibility of filling the voids in the rod formed when it is wedged by connecting the surfaces of the wedges by means of adhesive with the inner conical surface of the first part and with the surfaces of the slots in the rod after it is wedged, the length of the wedge being equal to the length of the internal conical surface of the first part, and the forming surfaces of the wedges that are made with the ability to fit to the inner surface of the first part, parallel to the generatrices of the inner conical surface of the first part and the surface of the wedges, which They are made with the possibility of adhering to the rod, also parallel to the surface of the slots after the rod is wedged, with the maximum width of each wedge not exceeding 25-30% of the difference between the length of the inner circle with the maximum diameter in the conical hole of the first part and the circumference of the rod, and the maximum the depth of the cross-shaped proppant is less than the maximum internal diameter in the conical hole of the first part, while it contains a metal sleeve with a thread on its outer surface of connection for the second part and the length of this thread is not less than the length of the inner conical surface of the sleeve, the second part of the nipple on one side is made with an external connecting thread, and on the other hand it has a blind hole with an internal thread for connection with the first part, and, when the length of this thread is not less than the length of the thread on the first part, and the depth of the blind hole is greater than the length of the thread on the first part, while the first and second parts are screwed into each other using adhesive, forming an integral soy pressure, and the outer surface of the rod is protected by a wear-resistant material that covers at least 70% of the outer surface of the rod.

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