RU2297512C2 - Air-tight threaded oil-field pipe connection - Google Patents

Abstract

FIELD: oil and gas well construction, particularly threaded couplings and joints between rod and bit, or between rod and rod.

SUBSTANCE: air-tight threaded connection includes male and female pipes with conical threading and conical seat surfaces. The first conical surfaces cooperate with each other and are correspondingly made on outer surface of female pipe end as conical surface oblique along pipe axis and on inner surface of female pipe between conical threading and pipe body. The second conical surfaces are created on male pipe as end conical surface with oblique angle defined in pipe axis and mating end conical surface made on female pipe in transition pipe section between the first conical surface and the pipe body. Conical threading has 1:16 obliquity. Conical seat surfaces formed on outer surface of male pipe end and on inner surface of female pipe end have 1:10 obliquity in pipe axis direction. Conical end surfaces have 15° angle of taper in direction of conical threading made in corresponding pipe. Annular groove for oil forcing is made in female pipe in transition section between conical threading and pipe body. Conical Battress-type threading having 13° threading angle has threads with cross-section defining unequal-sided trapeze. Support edge of each thread extends at increased angle to load application direction.

EFFECT: increased efficiency.

3 dwg

Description

The invention relates to the field of construction of oil and gas wells and can be used in casing, tubing and other pipes for technological purposes with highly tight threaded connections.

A sealed threaded connection of oilfield pipes is known, including male and female pipes with tapered threads and tapered abutment surfaces, the first contacting of which are respectively made on the outer surface of the end portion of the male pipe in the form of a conical surface with a taper towards the axis of this pipe and on the inner surface covering the pipe in the area between the tapered thread and the body of the pipe, and the second contacting surfaces are respectively made on oh a rolled pipe in the form of a conical end surface with a taper angle in the direction of the conical thread on this pipe and a mating end conical surface on a female pipe made in the transition area of the first conical surface of this pipe to its body (FR Patent No. 2798716, F16L 15/00, publ. March 23, 2001).

This technical solution was made as a prototype for the claimed invention.

However, the specified threaded connection has the disadvantage of insufficient tightness due to its design with a small taper angle of the supporting conical surfaces, which does not allow to obtain a predetermined interference value with small axial movements of the nipple, which increases the period from the first contact of the sealing surfaces to the specified interference .

The present invention is directed to solving the technical problem of tightening the requirements (tolerances) for ovality, taper, wedge with a taper of 15 ° to form the conditions for obtaining optimal interference between the elements of the radial seal and the optimal stress value in the sealing and thrust elements.

The technical result achieved is to increase the reliability and tightness of the connection, to increase the strength of the connection during its assembly, disassembly and operation.

The specified technical result is achieved in that in a sealed threaded connection of oilfield pipes, including male and female pipes with tapered threads and tapered abutment surfaces, the first contacting of which are respectively made on the outer surface of the end portion of the male pipe in the form of a conical surface with tapering to the side the axis of this pipe and on the inner surface of the female pipe in the area between the tapered thread and the pipe body, and the second The surfaces are respectively made on the male pipe in the form of a conical end surface with a taper angle in the direction of the conical thread on this pipe and the counter end conical surface on the female pipe made at the transition section of the first conical surface of this pipe to its body, the conical threads are made with taper 1 : 16, conical abutment surfaces on the outer surface of the end portion of the male pipe and on the inner surface of the female pipe are made with a taper of 1:10 to the side the axis of this pipe, the conical end surfaces are made with a taper angle of 15 ° in the direction of the conical thread on the corresponding pipe, while the circumferential groove for extruding oil is made on the female pipe at the section of the conical thread to the pipe body, and the Buttress type conical thread with profile angle 13 ° is made with turns in cross section, having the form of an uneven trapezoid with a support face of the turn, located at an increased angle to the direction of the load.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present invention is illustrated by a specific example, which, however, is not the only possible, but clearly demonstrates the possibility of obtaining the desired technical result.

In the drawing (a, b, c) - hermetic threaded connection of oilfield pipes.

According to the present invention, a hermetic threaded pipe connection includes male and female tubular parts with tapered threads with a taper of 1:16 and tapered abutment surfaces. The first conical contact surfaces contacting each other are respectively made on the outer surface of the end portion of the male pipe in the form of a conical surface with a taper of 1:10 in the direction of the axis of this pipe and on the inner surface of the female pipe in the area between the conical thread and the pipe body. The second contacting surfaces are respectively made on the male pipe in the form of a conical end surface with a taper angle of 15 ° in the direction of the conical thread on this pipe and a mating end conical surface on the female pipe made in the transition section of the first conical surface of this pipe to its body.

A circumferential groove for extruding oil and tool exit is made on the female pipe at the transition section of the conical thread to the pipe body, and the Buttress type conical thread with a profile angle of 13 ° is made with turns in the cross section having the form of an uneven trapezoid with a support face of the turn located at an enlarged angle to the direction of the load.

The following are descriptions of specific implementations of these examples.

The hermetic connection of pipes contains a male part (nipple or nipple end) 1 and female component (socket or bell element) 2, which are engaged with each other by a tapered thread 3. The connection also contains thrust ends 4 and 5 of respectively male and female parts, which are made in the form of conical surfaces, and includes an outer 6 and an inner 7 sealing surface. The ends 4 and 5, as well as the sealing surfaces 6 and 7 interact with each other with a certain tightness and are elements of the main seal, ensuring the tightness of the connection.

The diametrical dimensions of the surface 6 are slightly larger than the diametrical dimensions of the surface 7, so that after screwing the joints due to their deformation in the elastic region, a diametric interference and a metal-metal seal are formed. To ensure high reliability of the tightness of the connection, the sealing surfaces 6 and 7 are performed with high accuracy and purity of processing of their surfaces.

When cutting a thread while retracting a thread-forming tool in a thread run-off area, on the edges of its vertices, along its inner diameter, burrs appear on the female part, which protrude towards the connection axis, and which, being an obstacle, disrupt engagement and affect the compaction mode. To exclude their influence on the female part in the connection from the side of the inner sealing surface 6, a recess is made in the form of a circumferential groove 8 with a diameter exceeding the diameter of the thread 3 on this part. Thus, when screwing the nipple and the socket, the sections of the thread exit are always located in the groove zone, which excludes the influence of the thread surface on the exit section on the accuracy of the interaction of the surfaces of the nipple and the socket.

A thread is used in the connection, similar in design to the “Buttress” (htpp: //www.tagmet.ru/new/product/25.htm), which, in turn, is limitedly sealed due to the presence of a constructive spiral gap on the embedded sides of the profile ( in the screwed-up state), allowing the compound to be screwed up. The main function of the thread is to absorb the tensile load arising from the dead weight of the column when casing the wells. The thread profile of the Buttress type has the form of an isosceles trapezoid with a support face of the turn, located at a significant angle to the direction of the load. The angle of the profile is 13 °, the angle of the support face of the coil (tensile) 3 °, the angle of the persistent face of the coil (compression) 10 °, the thread pitch 5.08 mm.

A metal-to-metal seal is located in front of the nipple thread, on the side smaller than the thread cone forming. Structurally, this is done on a nipple in the form of a wedge with an obtuse angle between the generators, which abuts against the reciprocal wedge groove on the coupling and, due to the occurrence of elastic deformations on the pipe and the coupling, ensures a tight connection.

Through the use of seals, the threaded connection acquires the properties of an oil and gas tight one, capable of working under combined loads in aggressive environments, including those that occur during the construction of deviated wells with a bore rate of up to 10 ° per 10 m and an overpressure of over 250 atm.

The taper along the radial generatrix of the sealing wedge is 1:10, steeper than in known compounds, where the taper is 1:16.

The use of greater taper along the radial generatrix allows you to obtain a specified amount of interference with a relatively small axial movement of the nipple, which reduces the period from the first contact of the sealing surfaces to ensure a given interference. This ensures greater wear resistance of the seal with repeated screwing-unscrewing.

An angle of taper of 15 ° along the end generatrix of the wedge provides an additional “preload” of the radial seal, which reduces the radial interference, which in turn reduces the likelihood of damage to the sealing surfaces and the occurrence of scoring on them. With an increase in the specified angle, significant deformations of the inner diameter of the coupling begin to occur when the joint is compressed or twisted. As the angle decreases, the wedge effect is lost, because The wedge groove of the coupling becomes stiffer in the axial direction.

The increased length of the sealing element in comparison with similar joints with a taper of 1:10 allows you to minimize the effect of radial deformations of the thread on the seal and make it more elastic in the axial direction.

More stringent requirements (tolerances) for ovality, tapering, a 15 ° wedge and providing an optimal interference fit for radial sealing elements than similar known compounds significantly increase the connection efficiency when operating in difficult conditions. Due to these features, the proposed design achieves the optimal value of stresses in the sealing and thrust elements, which makes it possible to efficiently use a tight connection in hydrogen sulfide-containing media without loss of tightness.

Hermetic connection of oil pipes works as follows.

When performing screwing or unscrewing operations, the engagement of the male 1 and female parts 2 with the help of the thread 3 is initially performed. During the screwing process, the outer sealing surface 6 moves along the groove portion 8, then the sealing surface 7 interacts with the sealing surface 6. Due to the diametrical deformations of these of surfaces, a metal-to-metal sealing assembly is created.

With the relative movement of parts 1 and 2, the power contact of the end face 4 of the male part and the end 5 of the female part is carried out, as a result of which contact stresses arise on their surfaces, the magnitude of which must be in the region of elastic deformations. The level of contact stress, under all equal conditions, is determined by the value of the contacting areas of the ends 4 and 5.

Improving the operational reliability of the connection is ensured by increasing the contacting areas of the ends, which allows to increase the torque of makeup while maintaining contact stresses at the required level within the elastic deformation. The end of the make-up process of the male 1 and the female 2 parts is accompanied by the interaction of their thrust ends 4 and 5. The conical surfaces of the thrust ends are made in such a way that when they are subjected to axial force arising from the screwing of threads, the transverse component of this force is directed to the connection axis. This eliminates the so-called "unfolding" phenomenon, i.e. lateral deformation with increasing diameter in the area of the thrust ends, which makes the connection less critical to exceeding the make-up torque and increases its operational reliability.

The thread 3 in the hermetic pipe joint is tapered and has a trapezoidal profile (trapezoidal thread). In addition, the high-tight joint can be screwed using a polymerizable, cured after assembling the threaded joint compound.

The advantage of the inventive threaded connection in comparison with the known one is to increase the reliability of tightness, increase the strength of the connection during its assembly, disassembly and operation, as well as increase its degree of control, which will allow this pipe connection to be used both for liquid and gaseous media.

The present invention is industrially applicable, since, using well-known technologies used for the manufacture of threaded ends of pipes, it can be implemented on a new principle of interaction of contacting surfaces that is fundamentally different from known designs.

Claims (1)

Sealed threaded connection of oilfield pipes, including male and female pipes with tapered threads and tapered abutment surfaces, the first contacting of which are respectively made on the outer surface of the end portion of the male pipe in the form of a conical surface with a taper towards the axis of this pipe and on the inner surface of the female pipes in the area between the tapered thread and the body of the pipe, and the second contacting surfaces are respectively made to cover pipe in the form of a conical end surface with a taper angle in the direction of the conical thread on this pipe and a mating end conical surface on the female pipe made in the transition area of the first conical surface of this pipe to its body, characterized in that the conical threads are made with taper 1: 16, conical abutment surfaces on the outer surface of the end portion of the male pipe and on the inner surface of the female pipe are made with a taper of 1:10 in the direction of the axis of this pipe, the conical ends The conical surfaces are made with a taper angle of 15 ° in the direction of the conical thread on the corresponding pipe, while a circumferential groove for extruding oil is made on the female pipe in the section of the transition of the conical thread to the pipe body, and the Buttress type conical thread with a profile angle of 13 ° is made with turns in cross-section, having the form of an uneven trapezoid with a support face of the coil, located at an increased angle to the direction of the load.