RU131448U1 - PIPELINE REPAIR ASSEMBLY - Google Patents

Abstract

The utility model relates to repair nodes of the pipeline, and can be used to repair damaged sections of main oil pipelines without stopping the pumping of the product. The technical result is an increase in the operational reliability of the repair unit. The claimed repair unit contains a cylindrical sleeve mounted on the damaged section of the pipeline with a gap filled with a composite composition based on epoxy resin, and a conductor, one end of which is connected to the sleeve and the other to the pipe. A protective layer of insulating material is applied to the surface of the coupling by means of an adhesive primer. 9 s.p. f-ly, 2 ill.

Description

The utility model relates to repair nodes of the pipeline and can be used to repair damaged sections of main oil pipelines without stopping the pumping of the product.

A piping repair unit is known from the prior art, comprising a cylindrical sleeve mounted on a defective portion of the pipeline with a gap filled with an epoxy composite, and a conductor for draining the protective current, one end of which is connected to the sleeve and the other to the pipe (see description of the patent of the Russian Federation for utility model RU 113811, 01/01/2011).

A disadvantage of the known design is the low level of corrosion protection.

The objective of the claimed utility model is to create a reliable and durable repair unit of the pipeline.

The technical result of the claimed utility model is to increase the operational reliability of the repair node of the pipeline.

The specified technical result is achieved due to the fact that the repair unit of the pipeline contains a cylindrical sleeve mounted on the damaged section of the pipeline with a gap filled with a composite composition based on epoxy resin, a conductor, one end of which is connected to the sleeve and the other to the pipe, and a protective layer insulation material deposited on the outer surface of the coupling by means of an adhesive primer.

In addition, the specified technical result is achieved in particular forms of the implementation of the utility model due to the fact that:

- as an insulating material used polymer-bitumen insulating tape,

- as the insulating material used cuff or tape made of heat-shrinkable polymeric material,

- as an insulating material a polyurethane coating is used,

- the coupling is installed on the pipeline with a gap of 6-40 mm,

- a cylindrical coupling consists of two coupling halves interconnected by welding,

- the edges of the gap between the coupling and the pipe are filled with sealant to a depth of 25 mm,

- the sealant is placed in the gap with the formation of an external bevel, providing a transition between the external surfaces of the coupling and the pipeline,

- the bevel has an angle of inclination with respect to the perpendicular to the axis of the pipeline at least 30 °,

- the conductor is made in the form of an insulated steel wire with a diameter of at least 8 mm or an insulated copper wire with a diameter of at least 5 mm,

The design of the claimed repair unit is schematically shown in figure 1, while figure 2 shows the coupling of the repair unit installed on the damaged section of the pipeline.

The device in question comprises a cylindrical sleeve 1 mounted on a damaged portion of the pipe 2 with a gap filled with an epoxy resin-based composite 3. At the same time, a layer of insulating material 5 is deposited on the outer surface of the coupling by means of an intermediate layer of adhesive primer (not shown in the drawings). As the insulating material, in particular, a polymer-bitumen insulating tape, a sleeve or a tape of heat-shrinkable polymeric material, a polyurethane coating or any other insulating material suitable for repairing a pipeline can be used. In addition, in the claimed repair unit provides a conductor 4, one end of which is connected to the coupling, and the other to the pipeline. The specified conductor is necessary for ejection from the pipeline protective current generated by means of cathodic protection of the pipeline (station cathodic protection and anode ground electrode). In this case, the conductor of the repair unit in this case is a drainage line for the composite coupling and reduces the corrosion effect on the repair unit, which in turn leads to an increase in its service life. As a conductor, in particular, an insulated steel wire with a diameter of at least 8 mm or an insulated copper wire with a diameter of at least 5 mm can be used.

According to a preferred embodiment of the utility model, the edges of the gap between the sleeve 1 and the pipe 2 are filled with sealant 6 to a depth of 25 mm to form an external bevel 7, which provides a smooth transition between the external surfaces of the sleeve 2 and the pipe 1. The bevel has an angle of inclination with respect to the perpendicular to the axis of the pipeline not less than 30 °. This bevel configuration allows high-quality application of insulating material (coating) on the surface of the coupling.

The cylindrical coupling 1, preferably, consists of two half-couplings - the upper 8 and lower 9, interconnected by means of a weld 10.

The claimed repair unit is installed as follows.

If a defective section of the pipeline 2 is detected as a result of, for example, corrosion or a dent, the damaged section is cleared of insulation. The surface of the pipeline in the damage zone, as well as the inner surface of the coupling, is shot blasted using a pneumatic shot blasting machine. Then, the cylindrical sleeve 1 is mounted on the pipe 2. For this, the coupling halves 8 and 9 are mounted on the pipe and connected to each other by welds 10, while the sleeve 2 itself is not welded to the pipe 1.

After the installation of the coupling is completed, the conductor 4 in the form of an insulated wire is welded at one end to the upper coupling half 8 by means of thermite welding.

The internal diameter of the installed coupling 1 exceeds the external diameter of the pipe 2 by an amount sufficient to form an annular gap, the value of which is set in the range from 6 to 40 mm. The clearance between the pipe and the coupling is adjusted using the mounting bolts provided for this, taking into account the geometry of the pipe. The control of the size of the established gap is carried out in several places on each side of the coupling through the technological holes in it.

After setting the required annular gap, the ends of the sleeve 2 are sealed to create a closed volume between the pipe and the sleeve for subsequent filling with composite 3. For this purpose, quick-hardening sealant 6 is placed at the edges of the annular gap (for example, based on polyester resin). It is preferable to carry out the sealing in two layers: the first gap of the sealant directly fills the lateral gap between the pipe 2 and the sleeve 1 to a depth of 25 mm, and the second layer forms the external bevel 7 of the repair structure, which provides a smooth transition from the outer cylindrical surface of the sleeve 1 to the outer cylindrical surface of the pipe 2 required for high-quality application of insulating material (coating) 5 on the repair structure. When forming a bevel, the angle between the perpendicular to the axis of the pipeline and the line formed by the bevel should be at least 30 °.

Next, the annular gap is filled with the composite composition 3, through the nozzles provided in the coupling. The coupling filling technology (composite coupling repair) is widely known in the art and is described, in particular, in RF patent No. 2191317.

The composite material hardens to the required strength in about 24 hours. After curing, all protruding parts on the outer surface of the coupling are removed. Then connect the free end of the conductor 4 to the pipe 1.

The final operation is the application of a protective layer of insulating material (coating) on the surface of the coupling and on the adjacent section of the pipeline. To do this, the surface of the coupling is cleaned of impurities, the coating zone is heated to a predetermined temperature (if necessary), an adhesive primer is applied to the prepared surface, and then the protective insulating layer (coating) is applied according to the technology adopted for this type of coating and design.

As a protective material can be used:

- polymer-bitumen insulating tapes,

- cuffs or ribbons made of heat-shrinkable polymeric material,

- polyurethane coatings.

When spiral winding the insulation tape, the overlap of the turns should be within 4-5 cm, and when installing the cuffs "cigarette method" - 75 mm. When applying a polyurethane coating, its thickness should be at least 2 mm.

The resulting repair unit has increased resistance to corrosion, as well as to the effects of the pressure of the fluid of the pipeline, and, therefore, is characterized by high operational reliability and durability.

It should be noted that the claimed utility model is not limited to the particular forms of its implementation disclosed in the description. Other forms of execution of the utility model in the scope of the essential features are also possible.

Claims (10)

1. A pipeline repair assembly comprising a cylindrical sleeve mounted on a damaged section of the pipeline with a gap filled with an epoxy resin composite and a conductor, one end of which is connected to the sleeve and the other to the pipe, characterized in that it further includes a protective a layer of insulating material deposited on the outer surface of the coupling by means of an adhesive primer. 2. The repair unit according to claim 1, characterized in that a polymer-bitumen insulating tape is used as the insulating material. 3. The repair unit according to claim 1, characterized in that a cuff or tape made of heat-shrinkable polymeric material is used as an insulating material. 4. The repair unit according to claim 1, characterized in that a polyurethane coating is used as the insulating material. 5. The repair unit according to claim 1, characterized in that the sleeve is installed on the pipeline with a gap of 6-40 mm. 6. The repair unit according to claim 1, characterized in that the cylindrical coupling consists of two coupling halves interconnected by welding. 7. The repair unit according to claim 1, characterized in that the edges of the gap between the sleeve and the pipe are filled with sealant to a depth of 25 mm. 8. The repair unit according to claim 7, characterized in that the sealant is placed in the said gap with the formation of an external bevel that provides a transition between the external surfaces of the coupling and the pipeline. 9. The repair unit according to claim 8, characterized in that said bevel has an angle of inclination with respect to the perpendicular to the axis of the pipeline of at least 30 °. 10. The repair unit according to claim 1, characterized in that the conductor is made in the form of an insulated steel wire with a diameter of at least 8 mm or an insulated copper wire with a diameter of at least 5 mm.

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