RU2037722C1 - Method of permanent joint of lined pipes - Google Patents

Abstract

FIELD: construction of pipelines. SUBSTANCE: pipe ends are worked, circular strips are placed in them. Lining layer is applied to the pipe internal surface and the pipe ends are joined by welding. Heat-insulating cover is applied to the pipe end internal surfaces before strips are placed. After application the lining layer is flanged on the strip end surfaces. Prior to welding, a netted ring is installed in the weld root to overlap the end surfaces of the lining layer. EFFECT: facilitated procedure. 1 dwg

Description

 The invention relates to the field of pipeline transport and can be used in the construction of pipelines from lined pipes in the oil, chemical and other industries.

 Known welded joint of metal pipes containing thermoprotective and fixing elements in the heat-affected zone of welding.

 The disadvantage of this compound is its limited scope and low quality. The connection is suitable for the condition of preliminary calibration of the ends of the connecting pipes with a protective coating having an adhesive bond with their inner surface and the surface of the connecting elements. The most resistant protective coatings are made of chemically inert materials that are difficult to qualitatively bind to metal. The physicochemical bond of the coating, as a rule, is not strong and not durable. The lack of connection is manifested in the fact that when the materials are heated by welding, the gases released do not have a free exit from the zone of its thermal effect and destroy the existing or forming coating, which reduces the quality of the pipe joint as a whole.

 The closest technical solution to the proposed one is a method of permanent connection of pipes with a protective inner surface, which includes making sockets at the pipe ends, placing annular inserts in them, applying a facing layer to the pipe’s inner surface and welding the bells together.

 The main disadvantage of this method is that the lining layer is not attached to the pipe, as a result, during transportation, aggressive liquid penetrates between the pipe and the lining and corrodes the pipe material. In addition, in the seam zone, the facings are not fastened together, but only pressed against each other. The practice of operating such compounds has shown that the lining from such pipes slides in a stocking, i.e. there is a need to attach the shell to the pipe.

 The objective of the invention is to improve the quality of the connection by obtaining a continuous in the weld zone and attached to the pipe lining.

 The technical result is achieved by the fact that by the method of permanent connection of pipes with the inner lining, including processing the ends of the pipes, placing annular inserts in them, applying a facing layer to the inner surface of the pipe and welding the ends of the pipes together, before placing the annular inserts on the inner surfaces of the ends of the pipes heat-resistant, heat-resistant coating, the facing layer after application is flanged to the end surfaces of the inserts, and before assembly, a mesh ring is installed in the root of the seam, cross facing end surfaces of the facing layer.

 The invention is illustrated in the drawing.

 The connection contains pipes 1 and 2, the inner surfaces of the ends of the pipes are coated with a heat-resistant coating 3 and 4, the ring inserts 5 and 6 are placed at the ends of the pipes. Inside the pipes 1 and 2, facing layers 7 and 8 are installed so that part 9 and 10 of each facing layer was flanged to the end surfaces of inserts 5 and 6. Layers 7 and 8 are pinched by rings 11 and 12 by reinforcement.

 The cladding layer can be installed by drawing a polyethylene pipe into a metal one. Between the ends of the pipes 1 and 2 there is a ring 13 made of steel mesh and placed so that it overlaps the end surfaces of the bushings with a facing layer applied to them. Particular attention when installing the ring 13 is paid to ensure that it is the outer part at the root of the future weld, and the inner part does not overlap the pipe bore.

 The method is as follows. A heat-resistant coating 3 and 4 is applied to the inner surface of the pipe ends, namely, molten glass, self-fluxing material, or any other heat-resistant and heat-resistant material. Application can be made by any known method, it is most convenient to carry out this by plasma spraying. Next, ring inserts 5 and 6 are installed at the ends of the pipes, and they are installed in such a way that they adhesively bond to the heat-resistant coating. It is best to heat the ring inserts and place them at the ends of the pipes while the glass coating is in a plastic state. After cooling, a facing layer is applied to the inner surface of the pipes, which is obtained by placing (drawing) inside the pipe a pipe made of polyethylene material. The ends of the polyethylene pipes are flanged to the end surfaces of the annular inserts so that they protrude 1.5-2 mm beyond the ends of the pipes. The lining layers 7 and 8 are jammed by the rings 11 and 12 in one of the known ways. Before welding, the mesh ring 13 is installed between the pipe ends thus prepared and the pipes are pressed against each other in the axial direction. The mesh of the ring 13 is pressed into the polyethylene and at the same time prevents the ends of the pipes from approaching each other, that is, a guaranteed clearance is established between the ends of the pipes. During welding, part of the metal mesh between the ends of the pipes is spent on obtaining a seam, and the remaining transfers heat to the facing layer (polyethylene) at the ends of the ring inserts, melts it, as a result of which the ends are welded together.

 An example of a specific implementation. The ends of the pipes with a diameter of 273 mm and a wall thickness of 12 mm were heated up, a plasma clinker was applied to their inner surfaces with a plasma method of 3-5 mm thickness and an annular insert was immediately inserted into the ends of the pipes, while the glass was evenly redistributed along the annular surface. When installing an annular insert, care should be taken that the end of the insert relative to the end of the pipe is recessed. Then, polyethylene pipes with a diameter of 250 mm and a wall thickness of 6.5 mm were placed into the pipes by drawing. The ends of the polyethylene pipes were flanged to the end surfaces of the annular inserts to a thickness of 3-4 mm (depending on the flanging device). A 150 mm high stainless steel ring with a wall thickness of 3 mm was installed inside the polyethylene lining, and a polyethylene pipe was pinched between the stainless ring, the steel pipe and a heat-resistant, heat-resistant ring made of ceramic or other material with a special dorning device. Before welding, a mesh ring was installed between the pipes thus prepared (mesh material was steel 10, wire diameter 1 mm), the outer diameter of which was 252 mm and the inner diameter was 237 mm. When combined in the axial direction of the pipes, a force of 200-300 kg was developed, while a guaranteed clearance between the ends of the pipes is 2 mm. Electric arc welding was carried out according to existing technology.

Claims (1)

 METHOD FOR IN-DIFFERENT CONNECTION OF PIPES WITH INTERIOR FACING, including processing of pipe ends, placement of annular inserts in them, application of a facing layer on the inner surface of pipes and welding of pipe ends together, characterized in that a heat-resistant coating is applied to the inner surfaces of the pipe ends, after application, the facing layer is flanged to the end surfaces of the annular inserts, and before welding, a mesh ring is installed in the seam root, overlapping the end surfaces of litsovochnogo layer.

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