RU2788557C1 - Sealed threaded pipe connection - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the field of construction and repair of oil and gas wells and can be used in casing and other technological pipes with sealed threaded connections. Sealed threaded connection of pipes includes male and female parts of pipes connected by tapered threads and contacting support surfaces, of which the first surfaces in contact with each other are made respectively on the outer surface of the male and inner conical surfaces of the female parts of the pipes in the area between the tapered thread and the pipe. In this case, the second contact surfaces are made, respectively, on the male part of the pipe in the form of a conical end surface with a taper angle in the direction of the conical thread on this pipe, made at the transition section of the first conical surface of this pipe to its body. In the connection, the third contact surfaces are made in the form of a conical surface with a taper angle in the direction of the conical thread on the female pipe and a mating conical surface on the male part of the pipe.

EFFECT: increasing the reliability of the tightness of the connection; increasing the transmitted torque of the connection; the ability to work in wells with a small gap between the diameters of the well and the string while maintaining a constant inner diameter equal to the inner diameter of the pipe body; improving manufacturability; facilitating the make-up of the connection; technological simplicity of connection; positive impact on reliability indicators, in particular indicators of resource and endurance; increasing the operational manufacturability of the connection; expansion of the scope of this threaded connection design.

3 cl, 4 dwg

Description

Field of technology: the present invention relates to the field of construction and repair of oil and gas wells and can be used in casing and other technological pipes with tight threaded connections. The sealed threaded connection of casing pipes is intended for use in wells with a high degree of curvature of the wellbore and / or with difficult operating conditions (high values of tensile, compressive loads, excessive internal and external pressure, the need to apply torque).

Prior art: a tight threaded connection of oilfield pipes is known, including male and female pipes with tapered threads and conical bearing surfaces, the first contacting of which are made, respectively, on the outer surface of the end section 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 pipe in the area between the tapered thread and the pipe body, and the second contact surfaces are made, respectively, on the male pipe in the form of a conical end surface with a taper angle in the direction of the tapered thread on this pipe and a counter end conical surface on the female pipe, made in the area transition of the first conical surface of this pipe to its body FR 2798716 B1, F16L 15/004, publ. 03/23/2001. The disadvantage of the connection FR 2798716 B1 is insufficient tightness due to the design features of the design (due to the small taper angle of the supporting conical surfaces, it is not possible to obtain a given interference value with small axial displacements of the nipple, which increases the period from the first contact of the sealing surfaces to ensure the specified interference) .

The closest analogue, taken as a prototype, is a tight threaded connection of drill pipes RU 2310058, F16L 15/00, E21B 17/042, 09/15/2005, including male and female pipes with tapered threads and support surfaces, of which the first contacting surfaces are made respectively, on the outer surface of the male and on the inner conical surface of the female pipe in the area between the tapered thread and the pipe body, and the second contact surfaces are made respectively on the male pipe in the form of a conical end surface with a taper angle in the direction of the tapered thread on this pipe and the counter end conical surface on a female pipe made at the transition section of the first conical surface of this pipe to its body, characterized in that the conical threads in the form of a trapezoid in cross section are made with a taper of 1:16, the thread profile has a negative angle along the reference face and an increased angle along the embedded face, and the height The thread profile of the male pipe is less than the height of the thread profile of the female pipe, while the bearing surface of the male pipe in the zone of contact with the inner conical bearing surface of the female pipe is made spherical.

The disadvantage of the connection described in the prototype RU 2310058 is the impossibility of applying a relatively high torque to the connection while maintaining sufficient tightness and the impossibility of working in wells having a small gap between the diameter of the well and the string while maintaining a constant inner diameter equal to the inner diameter of the pipe body.

Existing solutions do not provide the necessary characteristics of a sealed threaded connection.

The technical problem, the solution of which is provided by using the present invention, and which could not be solved by using analogues of the invention, is the insufficient reliability of the tightness of the connection, the insufficient torque transmitted by the threaded connection and the inability to operate in wells with a small gap between the diameter of the well and the column with the constancy of the inner diameter, equal to the inner diameter of the pipe body, in comparison with threaded connections known from the prior art.

The essence of the invention as a technical solution is expressed in the totality of a group of essential features sufficient to solve a technical problem and obtain a technical result provided by the invention.

The solution to this technical problem is achieved due to the fact that in the proposed hermetic threaded connection of pipes, including the male and female parts of the pipes connected by tapered threads and having, in addition to two pairs of contacting support surfaces, of which the first contacting surfaces are made respectively on the outer surface of the male and on the inner conical surface of the female parts of the pipes in the area between the tapered thread and the pipe, the second contact surfaces are made, respectively, on the male part of the pipe in the form of a conical end surface with a taper angle in the direction of the tapered thread on this pipe, made in the transition area of the first conical surface of this pipe to its body, a third pair of contacting support surfaces is used, which are made respectively on the female pipe in the form of a conical surface with a taper angle in the direction of the tapered thread on this pipe and the mating conical surface on the male pipe, and the conical thread is made in the form of a trapezoid along the entire length of the thread with a taper of 1:28.64, the height of the thread profile of the male pipe is greater than the height of the thread profile of the female pipe, while the value of the outer and inner diameters of the nipple and coupling parts is made the same , and landing is carried out: along the outer apex of the nipple forming a conical surface, working edges, along the outer and inner thrust joint and along the conical surface with a taper angle in the direction of the tapered thread.

The technical result is the creation of a sealed threaded connection using three sealing elements, which ensures reliable tightness of the connection, retains the possibility of applying torque and retains the possibility of operation in wells with a small gap between the diameter of the well and the string with a constant inner diameter equal to the inner diameter of the pipe body .

The disadvantage of the connection described in the prototype RU 2310058 is also the lack of manufacturability of the connection, the complexity and inconvenience in the operation of the connection, in comparison with the proposed design of a sealed threaded connection.

Also, a technical problem, the solution of which is provided by using the present invention, is the insufficient manufacturability of the threaded connection, in comparison with the threaded connections known from the prior art.

In the course of our own research, another technical result was revealed that is achieved when using the proposed threaded connection, which consists in increasing manufacturability, simplicity of the connection design, and, as a result, facilitating work during its operation.

The specified technical result is achieved due to the fact that in the proposed sealed threaded pipe connection, the conical thread is made in the form of a trapezoid along the entire length of the thread with a taper of 1:28.64, the height of the thread profile of the male pipe is greater than the height of the thread profile of the female pipe, which makes it possible to work in wells that have a small gap between the diameter of the well and the string while maintaining a constant internal diameter equal to the internal diameter of the pipe body, simplicity of design and ease of maintenance during operation of a sealed threaded connection, facilitating the screwing of the connection, has a positive effect on reliability indicators, in particular, resource indicators and endurance, as well as by reducing the taper of the thread, it is possible to place a third sealing element in the design of the threaded connection.

The disadvantage of the connection of the prototype RU 2310058 is the insufficient operational manufacturability of the connection, the limited scope of such a design of the connection, as well as the complexity and inconvenience during the operation of the connection.

The technical problem, the solution of which is provided by using the present invention, and which could not be solved by using analogues of the invention, is the insufficient operational manufacturability of the connection and the limited scope of this connection design, compared with threaded connections known from the prior art.

As a result of the applicant's own research, it was additionally found that in the proposed invention, the achieved technical result is an increase in the operational manufacturability of the connection, which determines its suitability for achieving optimal costs in the production, operation and repair of the connection for the given values of quality indicators, work conditions, as well as expansion of the scope of this threaded connection design.

This technical result is achieved due to the fact that in the proposed hermetic threaded pipe connection, the outer and inner diameters of the nipple and coupling parts are the same, and the landing is carried out: along the outer apex of the nipple forming a conical surface, working edges, along the outer and inner thrust joint and small taper, which makes it possible to use the design of a smooth threaded connection, as a result of which, work is facilitated during the assembly and disassembly of the connection during its operation.

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

The presented invention of a sealed threaded connection of pipes with tapered threads with a taper of 1:28.64 and three pairs of supporting contact surfaces (sealing elements) is illustrated by the drawings, where in Fig. 1 shows a threaded connection in a screwed state, FIG. 2 shows a male part, FIG. 3 shows a female part, FIG. 4 shows the thread profile.

The first sealing element 3 represents supporting surfaces in contact with each other, made respectively on the outer conical surface of the end section of the male part of the pipe and on the inner conical surface of the female part of the pipe in the area between the tapered thread and the pipe body.

The second sealing element 4 consists of surfaces in contact with each other, made respectively on the male part of the pipe in the form of a conical end surface 10 with a taper angle of 15° in the direction opposite to the conical thread on this part of the pipe and the mating end conical surface 11 on the female part of the pipe, made on section of the transition of the first conical surface of this pipe to its body.

The third sealing element 5 represents surfaces in contact with each other, made respectively on the female part of the 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 the counter end conical surface on the male part of the pipe.

Three sealing elements of the threaded connection provide: an increase in the reliability of the tightness of the connection, an increase in the transmitted torque of the connection, the ability to work in wells with a small gap between the diameter of the well and the string while maintaining a constant inner diameter equal to the inner diameter of the pipe body.

The tapered thread is made in the form of a trapezoid along the entire length of the thread, and the height of the thread profile of the male pipe is greater than the height of the thread profile of the female pipe.

The claimed tight threaded connection works as follows.

When performing the operations of screwing or unscrewing the connection, the interaction of the male 1 and female 2 parts is initially carried out using the thread 6. In the process of screwing, the outer sealing surface 7 advances along the section of the cylindrical groove 8, then the sealing surface 7 interacts with the sealing surface 9. Due to diametrical deformations of these surfaces, a metal-to-metal sealing assembly is created.

With the relative movement of parts 1 and 2, the inner end 10 of the male part and the inner ledge 11 of the female part are forcefully contacted, as a result of which contact stresses arise on their surfaces, the value of which should be in the region of elastic deformations. The level of contact stresses, under all equal conditions, is determined by the value of the contact areas of the inner end 10 of the male part and the inner ledge 11 of the female part, at the same time, the external ledge 12 of the male part and the outer end face 13 of the female part are forcefully contacted.

An increase in the operational reliability of the connection occurs due to an increase in the contact areas of the inner and outer ends and ledges, respectively, which makes it possible to increase the screwing torque while maintaining contact stresses within the limits of elastic deformations. The increase in the number of thrust joints is due to the relatively small taper of 1:28.64. The end of the screwing process of the male 1 and female 2 parts is accompanied by the interaction of their inner end 10 of the male part and the inner ledge 11 of the female part, and the outer ledge 12 of the male part and the outer end 13 of the female part. The conical surfaces of the inner and outer ends and ledges, respectively, are made in such a way that when they are subjected to an axial force arising from the screwing of the threads, the transverse component of this force is directed towards the connection axis. This eliminates the so-called "unwinding" phenomenon, i.e. transverse deformation with an increase in diameter in the area of the inner and outer ends and ledges, respectively, which makes the connection less critical to exceeding the make-up torque and increases its operational reliability.

The advantages of the proposed hermetic threaded connection in comparison with the known are: improving the reliability of the tightness of the connection; increasing the transmitted torque of the connection, due to the introduction of a third sealing element into the design of the threaded connection; the ability to work in wells with a small gap between the diameter of the well and the string while maintaining a constant inner diameter equal to the inner diameter of the pipe body; improving manufacturability and facilitating work during assembly and disassembly of the connection during operation; technological simplicity of connection; facilitating the make-up of the connection; positive impact on reliability indicators, in particular, resource and endurance indicators due to the fact that the tapered thread is made in the form of a trapezoid along the entire length of the thread with a taper of 1:28.64, the height of the thread profile of the male pipe is greater than the height of the thread profile of the female pipe, while the bearing surface of the male part of the pipe in the zone of contact with the inner conical bearing surface of the female part of the pipe is made in the form of a conical surface; increasing the operational manufacturability of the connection, which determines its adaptability to achieve optimal costs in the production, operation and repair of the connection for the given values of quality indicators, conditions for performing work; expansion of the scope of this threaded connection design, through the use of a smooth threaded connection design.

The present invention is industrially applicable, since, using 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 (3)

1. Tight threaded connection of pipes, including male and female parts of pipes connected by tapered threads and contacting support surfaces, of which the first surfaces in contact with each other are made respectively on the outer surface of the male and on the inner conical surface of the female parts of the pipes in the area between the tapered thread and the pipe , the second contact surfaces are made, respectively, on the male part of the pipe in the form of a conical end surface with a taper angle in the direction of the conical thread on this pipe, made at the transition site of the first conical surface of this pipe to its body, characterized in that the third contact surfaces are made in the connection in in the form of a conical surface with a taper angle in the direction of the conical thread on the female pipe and a counter conical surface on the male part of the pipe. 2. Tight threaded pipe connection according to claim 1, characterized in that the tapered threads are made in the form of a trapezoid along the entire length of the thread with a taper of 1:28.64, the height of the thread profile of the male pipe is greater than the height of the thread profile of the female pipe. 3. Tight threaded pipe connection according to claim 1, characterized in that the outer and inner diameters of the nipple and coupling parts are the same in size, and the landing is carried out along the outer apex of the nipple forming a conical surface, the supporting surfaces of the thread, along the outer and inner joints.

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