RU199158U1 - SEALING CHOPIK FOR PIPELINE REPAIR - Google Patents

Abstract

The utility model relates to devices for the repair of oil pipelines and oil product pipelines, and specifically to sealing chops. The technical result consists in reducing the time spent on repair work to seal the holes on the pipelines being repaired. A sealing chopik for pipeline repair, which is a cylindrical steel rod with threads applied along its entire length. On the upper part of the cylindrical steel rod, a shaped recess is made, at the bottom of which a groove is made with the possibility of screwing a sealing chop along the entire length into a threaded hole in the pipeline wall using a locksmith tool.

Description

The utility model relates to the repair structures of oil pipelines and oil product pipelines, namely, sealing chops that can be used for sealing openings on pipelines intended for the transport of oil and oil products.

The known design of a smooth sealing chop without a fixing head with a "recessed" cylindrical part, while the installation of the sealing chop is done by hammering into the hole, after installing the sealing chop, countersinking and sampling of the protruding part flush with the pipeline surface, and then welding.

The disadvantages of this design are the need, when installing it, to use an additional technological operation to trim the end of the sealing chop protruding above the surface of the pipeline; the need for its countersinking together with the pipeline, which increases the labor intensity and installation time. In addition, the specified design is characterized by a lower, in comparison with threaded sealing chops, guaranteed tightness.

The prior art knows the design of a sealing chop for sealing through holes in the walls of pipelines, made in the form of a cylindrical steel rod with a thread with a fixing hex head applied along the entire length, while the sealing chops are made of bolts according to GOST 7798 from steel of strength class 48 or class 46 (steel 20) with thread along the entire length, and the installation of the sealing chop is made using torque wrenches.

The disadvantages of this design of the sealing chop include the need to perform a large amount of welding work in order to obtain fillet welds with the required legs, depending on the height of the head of the sealing chop and the protrusion formed above the pipe surface, which causes difficulties when applying an external anticorrosive coating in place installation of a sealing chopik, as well as the possible formation of voids under the anti-corrosion coating in the installation area of the repair structure.

The technical problem to be solved by the claimed utility model consists in the elimination of the disadvantages mentioned above, in the creation of the structure of the sealing chopik, the installation of which requires less laboriousness in comparison with the known designs of the sealing chopik.

The technical result achieved by the implementation of the utility model is to reduce the time spent on repair work to seal the holes on the pipelines being repaired.

The technical result is achieved due to the fact that a sealing chop for repairing pipelines, which is a cylindrical steel rod with a thread applied along the entire length, a figured recess is made on the upper part of the cylindrical steel rod, at the bottom of which a groove is made with the possibility of screwing the sealing chop along the entire length into threaded hole in the pipeline wall using a plumbing tool.

The development and refinement of the proposed utility model are the following features:

the outer diameter of the thread of the cylindrical steel rod is 6 ÷ 20 mm;

the height of the cylindrical steel rod is 0.40 ÷ 0.8 of the pipeline wall thickness;

the cross-section of the groove is made in the form of a trihedron or tetrahedron, or hexahedron, or octahedron;

the cross-section of the shaped recess is profiled;

a cylindrical steel bar is made of steel of strength classes K34-K60;

the cylindrical steel rod is made of steel 10 or steel 20, or steel 09G2S, or steel 17G1S.

The essence of the utility model is illustrated by a drawing, where FIG. 1 shows a general view of the sealing chop, and FIG. 2 shows a general view of a sealing chop, installed in the wall of the pipeline being repaired with a through defect.

FIG. 1 and FIG. 2 the following designations are adopted:

1 - sealing chopik; 2 - pipeline; 3 - groove.

Sealing chopik 1 is a cylindrical steel rod with threads applied along its entire length. A shaped recess is made on the upper part of the cylindrical steel rod, at the bottom of which a groove 3 is made for screwing in using a suitable locksmith tool.

The sealing chopik 1 is made of the following steel grades: steel 10, steel 20, steel 09G2S and steel 17G1S and strength classes K34-K60.

The proposed design can be used to repair through holes in oil pipelines and oil product pipelines with a diameter of 219 mm to 1220 mm and wall thicknesses from 6 mm to 25 mm.

In the field, when repairing a through defect in pipeline 2, a hole is made at the site of the defect, the diameter of which is equal to the diameter of the used sealing chop, excluding the thread height, and a metric thread is applied along the entire length of the hole. A sealing chop 1 is screwed into the threaded hole in the pipeline 2 using a plumbing tool, for example, a screwdriver with removable tips or a profile key using a groove 3 located in a shaped recess. The protrusion of the lower part of the sealing bar inside the pipeline 2 should be no more than 3 mm to ensure the passage of pigs and in-line inspection devices inside the pipeline. The size of the protrusion of the sealing bar 1 inside the pipeline 2 can be determined based on the values of the wall thickness of the pipeline 2, the length of the used sealing bar and the depth of its screwing. After screwing the sealing chop 1 into the hole, the wall of the pipeline 2 is countersunk with an angle of 110 ÷ 150 °. Then, the repair site is welded by applying several layers of welded seams (root, surfacing, facing). To ensure a high-quality application of an anti-corrosion coating at the repair site of pipeline 2, after installing the sealing chopik 1, it is possible to clean the facing welding layers to the level of the pipe being repaired without bringing the pipe wall thickness beyond the minus tolerance.

The use of the proposed sealing chop provides a reduction in the time for performing repair work on sealing holes on the pipelines being repaired due to the absence of the need to use hammers to hammer the sealing chops, removing the protruding surface of the sealing chops on the pipeline wall mechanically, cleaning the head of the sealing chop and the pipeline section to a metallic sheen when preparation for welding.

Claims (7)

1. A sealing chop for repairing pipelines, which is a cylindrical steel rod with a thread applied along the entire length, characterized in that a shaped recess is made on the upper part of the cylindrical steel rod, at the bottom of which a groove is made with the possibility of screwing the sealing chop along the entire length into the hole with pipe wall thread by means of a locksmith tool. 2. Sealing chopik according to claim 1, characterized in that the outer diameter of the thread of the cylindrical steel rod is 6 ÷ 20 mm. 3. Sealing chopik according to claim 1, characterized in that the height of the cylindrical steel rod is 0.4 ÷ 0.8 of the pipeline wall thickness. 4. The sealing chopik according to claim 1, characterized in that the cross-section of the groove is made in the form of a trihedron or tetrahedron, or a hexagon, or an octahedron. 5. The sealing chopik according to claim 1, characterized in that the cross-section of the shaped recess is profiled. 6. The sealing chopik according to claim 1, characterized in that the cylindrical steel rod is made of steel of strength classes K34-K60. 7. The sealing chopik according to claim 1, characterized in that the cylindrical steel rod is made of steel 10 or steel 20, or steel 09G2S, or steel 17G1S.

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