WO2008008001A1

WO2008008001A1 - Method for producing external thread on the end section of a tubular billet

Info

Publication number: WO2008008001A1
Application number: PCT/RU2007/000360
Authority: WO
Inventors: Albert Sergeevich Ezhev
Original assignee: Nauchno-Vnedrencheskiy Tsentr Mashiny I Oborudovanie Dlya Energetiki'
Priority date: 2006-07-12
Filing date: 2007-07-04
Publication date: 2008-01-17
Also published as: RU2006124852A; RU2323058C1

Abstract

The invention relates to obtaining tubular products by mechanical chipless shaping, more specificly to forming an external thread on the end section of a tubular billet, mainly on the pin-pipe end of a tubing string sub. The inventive method for producing external thread on the end section of a tubular billet by press forming consists in producing a tubular billet, the diameter of the end section of which is equal to the internal diameter of a thread die and the internal diameter of which is determined according to a formula, and in expanding the end section in one operation by means of a cone-shaped punch provided with a drawing cylinder, the diameter of which is equal to the diameter of a finished part. The invention makes it possible to increase the reliability of a threaded connection for tubing strings and to simplify the thread production process.

Description

METHOD FOR FORMING EXTERNAL THREAD AT THE END PLOT OF PIPE BILLING

(i) Field of use The invention relates to the field of manufacturing pipe products by pressure machining methods, and more particularly, to forming an external thread at an end portion of a pipe billet, preferably at the nipple end of a sub for tubing.

(ii) BACKGROUND OF THE INVENTION A tubing with an external thread at the nipple end obtained by a cutting method is known (see US 2006/0118340 Al, U.S. C1. 175/320, published on 08.06.2006.). A tubing is a critical part, loaded during operation by internal pressure and external forces that cause bending and tension in it. The strength and durability of such a pipe largely depends on the quality of the thread. The thread obtained by cutting is a stress concentrator, the metal structure in the thread zone has cut fibers, which reduces the strength characteristics of the part.

A known method of forming an external thread at the end of a pipe billet by knurling with threaded rollers (see RU 2253532 Cl ₅ B21HZ / 02, 02.04.2004.). This method is free from the drawbacks of the previous method of producing thread by cutting, since the strain hardening of the surface layer during knurling, as well as the preservation of the fibrous structure of the metal structure increase the cyclic strength of such threaded joints in comparison with the thread obtained by cutting the metal. The disadvantages of this method of thread formation include a small range of rolled threads (up to 35 mm), low productivity and the presence of slippage of the workpiece during rolling, which reduces the quality of the resulting thread and its durability during operation.

A known method of forming an external thread on a tubular workpiece of a part used in sub for tubing, comprising placing a tubular workpiece in a matrix with a threaded hole corresponding to the required parameters of the resulting thread and distributing from the inside of the specified tubular workpiece, mainly by the method of “large magnetoforming”, giving a thin wavy wall close to the thread profile, both from the inside and from the outside (see RU 2259459 C2, 7 B21D 51/10, publ. 08.27.2005). This method is the closest analogue of the claimed invention in terms of features (prototype).

The disadvantages of the prototype should include a limited area of use - only for the formation of threads on thin-walled (up to 0.5 mm) tube blanks, while the wall of the tube blank takes on a wavy shape over the entire cross section. The resulting wavy thin-walled products are used only as threaded spacers in threaded connections of tubing. It should be noted that full threaded grooves on the outer surface of both pipes and sub for tubing cannot be obtained in this way.

(iii) SUMMARY OF THE INVENTION The technical effect achieved by using the developed technical solution is to eliminate the noted disadvantages analogues and prototype by creating a more productive and progressive method of forming the external thread at the ends of the pipes by providing optimal conditions for the flow of metal of the walls of the pipe billet into the threaded grooves of the stationary tool with a complete profile of the external thread while maintaining smooth walls inside the pipe billet, which can be widely used in the production of critical parts such as sub for tubing.

The achievement of the technical effect of the proposed invention is based on the fact that pre-made tubular workpiece with an outer diameter of the end section equal to the inner diameter of the threaded matrix, and the inner diameter determined from

D ² - D ² expressions: D ₃₁₁ = JD _n ² -, and the distribution of the end section

carry out in one pass a conical punch with a calibrating girdle, the diameter of which is equal to the inner diameter of the finished part, where D _sv is the inner diameter of the workpiece;

D _n is the diameter of the punch;

D _pн - the outer diameter of the manufactured thread;

D _pв - inner diameter of the manufactured thread.

The positive effect of the use of the invention can be enhanced due to the fact that: a conical punch is made with a taper angle of 2 - 3 °; grease is applied to the threaded grooves of the die and the surface of the punch; Before plastic deformation, the preform is heated to a temperature below the temperature of the onset of scale formation, and the thread is formed in the semi-hot stamping mode. Threading can be carried out with using a retaining ring, the inner diameter of which is larger than the diameter of the calibrating punch belt by the amount of the gap, which ensures the flow of excess metal after filling the profile of the threaded matrix.

(iv) Examples of carrying out the invention The invention is illustrated by the drawings in FIG. 1 - 2, where Fig. 1 shows the initial billet and technological equipment for forming a thread according to the method in question in the initial position, and Fig. 2 - a part with a molded thread, as well as technological equipment for forming a thread according to the method in question in the final position.

The pipe billet 1 end (nipple) section is placed inside the threaded matrix 2 having a thread profile corresponding to the required parameters of the resulting thread. Inside the preform 1, a conical punch 3 is inserted with a calibrating girdle 4, the diameter of which is equal to the inner diameter of the finished part 5. The threaded matrix 2 can be mounted on the retaining ring 6.

According to the method under consideration, by any known technology (for example, by crimping the end portion of the pipe), the preform for the external thread is preliminarily prepared with an outer diameter of the end portion equal to the inner diameter of the threaded matrix and the inner diameter determined from the above

above expression: D _sound =

This mathematical expression is obtained by calculation, based on the assumption that all threaded grooves in the threaded matrix are completely filled due to the displaceable volume of the workpiece with radial metal flow in stamping process. In fact, metal flows in both radial and axial directions. Therefore, in some cases, an additional displaced volume may be provided, for example, by reducing the inner diameter, established experimentally. Next, the workpiece 1, made with the above parameters of the end section is placed inside the threaded matrix 2, a conical punch 3 is inserted into the workpiece 1 with a calibrating belt 4, and the end section of the workpiece 1 is distributed on a press (not shown) in one pass with the metal being redistributed into threaded grooves of the die 2. To reduce friction during deformation, grease can be applied to the threaded grooves of the die 2 and the working surfaces of the punch 3. In order to reduce the forces of deformation and increase the ductility of the metal, the workpiece 1 before plastic deformation can be heated to a temperature below the temperature of the onset of scale formation, and thread formation in this case is carried out in the mode of semi-hot stamping. The thread formation can also be carried out using the retaining ring 6 to create an annular gap between the inner surface of the retaining ring and the outer surface of the calibrating girdle 4 of the punch 3, where the excess metal of the workpiece is forced out after the threaded grooves of the matrix 2 are completely filled (see Fig. 2). The threaded matrix 2 can be made detachable to facilitate removal of the finished part 5 from it.

The technical result is to obtain high-quality full-profile external thread at the end section of the pipe billet, in particular, at the nipple end of the sub for tubing, the most productive technological method is the stamping method.

Claims

CLAIM

1. A method of forming an internal thread at an end portion of a tubular billet, preferably at a sleeve end of a sub for tubing, comprising placing an end portion of a tubular billet on a stationary tool with a threaded work surface, the profile of which corresponds to the profile of the thread being manufactured, and plastic deformation of said end portion with filling the workpiece with metal grooves of the tool grooves until the desired thread profile is obtained, characterized in that as of a movable tool with a threaded work surface, a threaded punch is used, the tube stock is made with an inner diameter of the end portion equal to the outer diameter of the threaded punch and the outer diameter,

defined by the expression: D ₃₁₁ = ЛD _λ ² _l Л - - -, and plastic

the end section of the tube billet is deformed by crimping it in one pass with a conical matrix with a calibrating girdle, the diameter of which is equal to the outer diameter of the finished part, where: D _3n is the outer diameter of the workpiece, D _λl is the diameter of the gauge girdle of the matrix, D _pn is the outer diameter of the thread, D _pв - inner diameter of the thread,

2. The method of forming the internal thread according to claim 1, characterized in that the conical matrix is made with a taper angle of 2 to 3 °;

3. The method of forming an internal thread according to claim 1, characterized in that a lubricant is applied to the threaded grooves of the punch and the working surface of the matrix;

4. The method of forming an internal thread according to claim 1, characterized in that the preform is heated before plastic deformation to a temperature below the temperature of the onset of scale formation, and thread formation is carried out in a half-hot stamping mode;

5. The method of forming an internal thread according to claim 1, characterized in that the thread formation is carried out using a retaining ring, the outer diameter of which is less than the diameter of the gauge girdle of the matrix by the amount of the gap allowing excess metal to flow out after filling the punch thread with metal.