RU178729U1 - CUTTED TEE WITH STAMPED TUBE - Google Patents

Abstract

The utility model relates to repair systems for oil pipelines and oil product pipelines, and specifically to split tees for pipelines. A split tee with a stamped pipe consists of a half-coupling of the lower and a half coupling of the upper welded in a longitudinal butt joint, in which a technological hole is made, and a stamped pipe made with a cylindrical part and a flange welded from the flange to the half-coupling of the upper two-sided butt weld along the contour of the technological hole, and a pipe for welding the branch pipe is welded on top of the stamped pipe, while the entire structure is welded to the pipe being repaired by circular global seams. EFFECT: increased reliability of a split tee with a stamped nozzle. 6 c.p. f-ly, 1 ill.

Description

The utility model relates to repair structures of oil pipelines and oil product pipelines, namely to split tees for pipelines that can be used in the construction, reconstruction and repair of pipeline systems designed for the transport of oil and oil products.

Known split tee with a reinforcing pipe for pipelines, consisting of lower and upper half-couplings, while the reinforcing pipe is mounted on the defective pipe section and welded at one end to the pipe, the upper half-coupling is installed on the reinforcing pipe, and the upper half-coupling is manufactured by stamping in the factory, and the lower coupling half is connected to it, and the entire construction is welded to the pipe being repaired by circular fillet welds, and the upper coupling coupling is welded to the pipe by a reinforcing circular fillet weld, on top of the reinforcing pipe butt welded seam elliptical annular bottom [patent RU 114 744 U1, publication date 10.04.2012].

The disadvantage of this design is that in the welds of the pipe welded to the upper coupling half, welding defects appear, leading to a violation of the tightness and destruction of the welded joint.

Known split die-welded tee for pipelines, consisting of a lower coupling half and an upper coupling coupling, the lower coupling coupling being butt welded to the upper coupling coupling, then the structure is welded to the pipe being repaired by circular fillet welds [patent RU 116953 U1, publication date 10.06.2012].

The disadvantage of this design is that in the welds of the pipe welded to the upper coupling half, welding defects appear, leading to a violation of the tightness and destruction of the welded joint.

The technical problem to which the claimed utility model is directed is to create a split tee with a stamped nozzle of increased reliability.

The technical result achieved by the implementation of the utility model is to increase the reliability of the split tee with a stamped pipe.

The technical result is achieved due to the fact that the split tee with a stamped pipe consists of a half-coupling of the lower half and a half coupling of the upper welded in longitudinal butt joints, and a stamped pipe made with a cylindrical part and a flange welded from the flanging side to the upper half coupling a butt ring seam along the contour of the technological hole, and on top of the stamped pipe a butt pipe is welded by a butt ring seam for welding the pipe it is a phenomenon, while the whole structure is welded to the repaired pipe with circular fillet welds.

In addition, in the particular case of the implementation of the utility model, an elliptical bottom is welded onto the pipe for welding the branch pipe with an annular butt weld.

In addition, in the particular case of the implementation of the utility model, a flange with mounting holes is welded onto a pipe for welding a branch pipe with an annular butt weld.

In addition, in the particular case of the implementation of the utility model, the wall thickness of the upper and lower coupling halves is 5-15 mm.

In addition, in the particular case of the implementation of the utility model, the wall thickness of the cylindrical part of the stamped pipe is 5-15 mm.

In addition, in the particular case of the implementation of the utility model, the flanging width of the stamped pipe is 30-50 mm.

In addition, in the particular case of the implementation of the utility model, the flanging radius is at least two wall thicknesses of the stamped pipe.

The utility model is illustrated by the drawing, which shows a diagram of a split tee with a stamped pipe.

In the drawing, the positions have the following notation:

1 - upper coupling half, 2 - lower coupling half, 3 - circular fillet welds of a split tee with a stamped pipe to the main pipe, 4 - main pipe being repaired, 5 - double-sided butt welded ring of a stamped pipe to the upper coupling half, 6 - stamped pipe of a split tee , 7 - pipe for welding the branch pipe, 8 - annular butt weld of the pipe branch to the stamped pipe of the split tee, 9 - flare of the stamped pipe; 10 - longitudinal butt weld, 11 - defective area (hole, which may also be a defect), d _n - outer diameter of the pipe for welding the branch pipe, mm; S _Tr - wall thickness of the pipe repaired trunk, mm; D _Tr - the outer diameter of the pipe repaired trunk, mm; d _B is the outer diameter of the stamped pipe of the split tee with the stamped pipe, mm; S - wall thickness of the coupling halves, mm; D is the outer diameter of the split tee with a stamped pipe, mm; L is the length of the coupling half, mm; S _B - wall thickness of the stamped nozzle of the split tee, mm; S _n - pipe wall thickness for welding the branch pipe, mm; R is the radius of the flange of the stamped nozzle of the split tee, mm; L _from - the thickness of the flanging of the stamped pipe, mm; L _W - flanging width of the stamped pipe, mm

The proposed design is used for pipes with a diameter of 159 to 426 mm and a wall thickness of the pipe being repaired by trunk S _tr equal to 5-15 mm.

The split tee with a stamped pipe consists of the lower and upper parts that form the pipeline repair structure.

The lower part is the lower coupling half 2, which is welded to the half coupling of the upper 1 and circumferential fillet welds 3 by the longitudinal butt welds 10 to the pipe being repaired by the main 4. The upper part of the repair construction includes the upper coupling half 1 with a cut-out technological hole and a butt welded to it two-sided circular seam 5 along the contour of the technological hole stamped pipe 6. The presence of a pressed pipe 6, welded to the coupling half of the top 1 two-sided circular butt joint 5 prepares a better welded joint "stamped pipe - upper coupling half" due to the use of a welded butt joint. The use of a butt weld allows two-sided welding of the joint (instead of one-sided with angular connection) and reduces the defectiveness of the weld, simplify the welding technology and increase the productivity of welding, increase the structural strength of the split tee under the action of bending loads due to the absence of a welded joint with metal zones with different structure and, accordingly, with different strengths.

The stamped pipe 6 is welded to the coupling half of the upper 1 with a pre-cut technological hole in the factory, and not on the track.

The wall thickness S of the coupling half of the lower 2 and coupling halves of the upper 1 is determined by calculation depending on the pressure in the pipeline, the wall thickness and the strength class of the pipe and is in the range of 5-15 mm, which ensures the bearing capacity of the pipe in the installation area of the tee at the level of regulatory requirements.

The coupling half of the upper 1 with pre-welded stamped pipe 6 is installed on the main pipe 4, on which there is a defective zone 11, and then the coupling half of the lower 2 is connected to the coupling half of the upper 1, and longitudinal joints are welded to form longitudinal butt welds 10 of the coupling halves 1 and 2. After performing longitudinal butt welds 10, a split tee is welded on both sides to the pipe being repaired by the main 4 ring corner seams 3. After welding, the coupling halves 1 and 2 onto the stamped pipe 6 rings 8 m butt seam welded pipe 7 for welding pipe branches further pipe 7 for welding the pipe branch can be welded or elliptical bottom flange with mounting holes (not shown).

The stamped pipe 6 is made in the form of a cylinder with a flange 9, on which a bevel is welded around the circumference with an annular butt weld with cutting edges for welding on both sides. The wall thickness S _{in the} stamped pipe 6 in the cylindrical part is 5-15 mm, which ensures the carrying capacity of the pipeline in the installation area of the tee connection at a working pressure in the pipeline of up to 6.3 MPa. The dimensions of the stamped pipe 6 are determined depending on the pressure in the pipeline and the strength of the steel from which it is made, and the size of the defect being repaired. The radius R of the flange 9 of the stamped pipe 6 is at least two thicknesses S _{in the} walls of the stamped pipe 6, which ensures the absence of technological cracks and high stress concentrations arising in the manufacture of the product in the bending zone.

The width L _{w of the} flanging 9 of the pressed pipe 6 is 30-50 mm, which ensures that there are no unacceptable effects of welding stress on the perpendicularity of the pressed pipe 6 with respect to the coupling half of the upper 1, providing deviations from the perpendicularity of not more than 1 degree. The length of the stamped pipe 6 is 250-300 mm, which prevents deformation and the formation of ellipse at the other end of the pipe. The outer diameter d _{in the} extruded nozzle 6 is 57-219 mm, the wall thickness S of the coupling half of the upper 1 corresponds to the thickness L _{from the} flange 9, which ensures joint welding of two equally thick elements and allows for uniform distribution of residual welding stresses along the joint perimeter and to prevent warping of thinner item.

The operation of the device is as follows.

In the field, the defective section 11 of the pipe (through hole, nozzles, abnormal structures, plungers, pass indicators for cleaning and diagnostic tools, etc.) install the upper coupling half 1 with a stamped pipe 6 welded in the factory, and then connect the coupling half to the upper coupling 1 lower 2 and with the help of an external centralizer equalize the gap at the longitudinal joints between the pipe being repaired by trunk 4 and coupling halves 1 and 2, making it uniform. Then, the longitudinal joints of the coupling halves 1 and 2 are welded on the spacer plates located along the joint between the outer surface of the pipe being repaired by the main 4 and the inner surface of the split tee with a stamped pipe. In this case, longitudinal seams should not be melted to the surface of the pipe. After performing two longitudinal butt welds 10, the structure is welded on both sides to the pipe being repaired by the main 4 ring corner welds 3. After welding, the coupling halves 1 and 2 are welded to the upper end of the stamped pipe 6 with a circular butt weld 8 to the branch pipe 7, to which the branch pipe is welded further welded branch pipe or elliptical bottom, or a flange with mounting holes (not shown).

Welded field samples were tested on a specialized stand for static strength and cyclic durability.

The application of the proposed technical solution provides increased reliability of the split tee with a stamped pipe.

The proposed split tee with a stamped nozzle can be used when performing repair work on pipelines (sealing of nozzles, plungers, non-rated structures, signaling devices for cleaning and diagnostics passes, etc.).

Claims (7)

1. A split tee with a stamped pipe, consisting of the lower half coupling and the upper half coupling, welded by longitudinal butt welds, in which the technological hole is made, and a stamped pipe made with a cylindrical part and flanging, welded from the flanging side to the half-coupling of the upper double-sided butt weld along the contour a technological hole, and a pipe for welding a branch pipe is welded on top of a stamped pipe, while the entire structure is welded to the pipe being repaired evymi fillet welds. 2. A split tee with a stamped pipe according to claim 1, characterized in that an elliptical bottom is welded to the pipe for welding the branch pipe with an annular butt weld. 3. A split tee with a stamped pipe according to claim 1, characterized in that a flange with fixing holes is welded to the pipe for welding the branch pipe with an annular butt weld. 4. A split tee with a stamped pipe according to claim 1, characterized in that the wall thickness of the upper and lower coupling halves is 5-15 mm. 5. A split tee with a stamped pipe according to claim 1, characterized in that the wall thickness of the cylindrical part of the stamped pipe is 5-15 mm. 6. A split tee with a stamped pipe according to claim 1, characterized in that the flanging width of the stamped pipe is 30-50 mm. 7. A split tee with a stamped pipe according to claim 1, characterized in that the flange radius is at least two wall thicknesses of the stamped pipe.

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