RU2219423C2 - Polymer coupling for repair of pipes having local corrosion defects and method of mounting such coupling - Google Patents

Abstract

FIELD: construction engineering; operation and repair of pipe lines having non-through corrosion defects on outer surfaces. SUBSTANCE: adhesive primer is applied on prepared outer surface of pipe and coupling is secured on it; coupling consists of several layers of glass tape which are connected with adhesive layer embracing pipe line over circumference. Coupling has two separate molded halves with hinges at their ends. Both halves of polymer coupling are fitted on pipe in heated state at coinciding of holes of hinges, after which hinges are secured by means of insertion axles. EFFECT: extended functional capabilities. 3 cl, 2 dwg

Description

 The invention relates to pipeline transport and can be used for repair of pipes of main pipelines having persistent corrosion damage on the outer surface.

 Known steel repair structure in the form of two parts, the connection of which to ensure the necessary compression of the pipe is carried out using fastening threaded parts (Ermakov A.A. et al. Repair of pipe defects using a brace. / Gas industry. - 1989. - 8. - with . 58-68). The disadvantage of steel repair structures is the heavy weight that requires the use of lifting equipment, and the need to create corrosion protection for the structure itself. In addition, the use of threaded fasteners complicates the assembly process carried out in the road conditions.

 Known composite coupling, taken as a prototype, consisting of several turns of a polymer tape rolled spirally around a pipe, with an adhesive layer between the turns and the pipe surface (BCH 39-1.10-001-99. Instructions for repairing defective pipes of main gas pipelines with polymer composite materials . - M .: PO Spetsneftegaz, VNIIGAZ, IRC Gazprom, 2000. - 15 p.).

 The disadvantage of this coupling is the low level of compression of the pipe and a slight increase in the bearing capacity of the defective pipe.

 There is a known method of applying a polymer composite sleeve, taken as a prototype, which consists in applying an adhesive primer to the prepared outer surface of the pipe and then wrapping a high-strength fiberglass material, impregnating it with an adhesive composition during winding, and the number of turns depends on the characteristic dimensions defect and can reach 12 (BCH 39-1.10-001-99. Instructions for repairing defective pipes of main gas pipelines with polymer composite materials. - M .: PO Spetsneftegaz, VNIIGAZ, IRC GAZPROM, 2000. 15 s.).

 The disadvantage of this method is the impossibility of manufacturing couplings that significantly increase the strength of pipes with defects, since the coupling is wound manually and the small mechanization tools used do not allow significant tension to be created, providing only mutual adjacency of the layers without distortions and air bubbles, moreover, this method involves a large the volume and complexity of work carried out in the field conditions.

 The objective of the invention is to increase the reliability of the defective section of the pipeline by increasing the degree of compression of the pipe and simplifying the installation of the coupling on the defective section of the pipeline.

 The problem in the polymer sleeve for repairing pipes with local corrosion defects, consisting of several layers of fiberglass, connected to each other by an adhesive layer and covering the pipe around the circumference, is solved by the fact that the sleeve is made of two separate preformed halves, provided at the ends of each other each other with loop blocks fixed between each other by embedded axes oriented parallel to the axis of the pipeline.

 The problem in the method of installing a polymer coupling on a defective area, including preparing the outer surface of the pipe, applying an adhesive primer to it and fixing the polymer coupling, is solved by the fact that both halves of the polymer coupling are installed on the pipe in a heated state, ensuring that the axes of the holes of the loop blocks of the connected halves coincide , after which the loop blocks are fixed with embedded axes.

The salient features of the claimed polymer sleeve for pipe repair with local corrosion defects are:
- the polymeric coupling is made of two separate preformed halves, provided at the ends with looping blocks entering each other, fixed with each other by embedded axes oriented parallel to the axis of the pipeline.

Salient features of the claimed method of installing a polymer sleeve in a defective area are:
- both halves of the coupling are installed on the pipe in a heated state, ensure the coincidence of the axes of the holes of the loop blocks of the connected halves;
- loop blocks are fixed with embedded axes.

 The above significant distinguishing features of a polymer coupling for repairing pipes with local corrosion defects and the method of installing this coupling on a defective area were not known to us from the patent and scientific and technical information and, therefore, are new and not obvious to the average person skilled in the art, which corresponds to the criterion of "Inventive step".

 The claimed polymer sleeve for repair of pipes with local corrosion defects with the proposed method of its installation can be manufactured and used to repair the pipeline in route conditions using domestic equipment, which fully meets the criterion of "Industrial applicability".

 A general view of the polymer sleeve mounted on the pipe is shown in FIG. The polymer coupling half in axonometric projection is shown in figure 2.

 The polymer coupling, covering the pipe around the circumference, consists of two preformed polymer half-couplings 1, each of which is a laminated glass tape with thickenings at the ends in the form of loop blocks 2 with holes 3 for embedded axes 8. On the inner surfaces of the polymer coupling halves 1 are provided longitudinal grooves 4.

 After cleaning the surface of the pipe 5 in the repaired area and filling the corrosion recesses, an adhesive primer is applied 6. Then, heated polymer coupling halves 1 are mounted on the pipe in the defect zone 7, ensuring that the longitudinal grooves 4 provided on their inner surface coincide with the reinforcing rollers of the longitudinal welded seams 9. The polymer coupling halves 1 are preheated to the desired temperature, determined taking into account the increased temperature coefficient of linear expansion of the coupling material, exceeding th linear expansion coefficient of steel is 4-5 times. At the end, the polymer sleeve is fixed to the pipe with the help of loop units 2 located at each other located at the ends of the polymer coupling halves 1 and the longitudinal embedded axes 8 passing through the holes in the loop blocks 2 parallel to the longitudinal axis of the pipe. At the end of the curing process of the adhesive composition and equalization of the temperature of the polymer coupling halves 1 and the surface of the pipe 5, the coupling will ensure the preservation of the defect and a specified increase in the bearing capacity of the repaired pipe.

 The effect of the application of the claimed invention is manifested in that it provides uniform compression of a given level, increasing the survivability of the defective pipe and ultimately leading to an increase in the operational reliability of the pipeline.

Example. The use of the claimed invention for repair of pipe 5 with a diameter of 1220 mm with corrosion damage 7, the reduction of bearing capacity from which was 15%. The operating pressure in the pipeline is assumed to be 5.4 MPa. The necessary unloading pressure created by the coupling is determined from the ratio:
p _discharge = 0.15 • 5.4 = 0.81 (MPa).

и принимают равным 5,0 мм.The estimated wall thickness of the polymer coupling halves 1 with an allowable voltage of 100 MPa is calculated by the formula:

and taken equal to 5.0 mm.

 For the terminal parts of the polymer coupling halves 1, a three-fold thickening is prescribed in comparison with the wall thickness. Holes 3 of rectangular section with dimensions 10 • 20 mm are provided here.

 Thus, it is possible to determine the optimal dimensions for forming polymer coupling halves 1 under stationary conditions.

 The surface of the pipe 5 in the repaired area is cleaned to a metallic luster. Then fill the corrosion recesses 7, apply an adhesive primer 6. At the same time, the coupling halves 1 are heated.

где k - коэффициент, учитывающей охлаждение в процессе монтажа.The heating temperature of the coupling halves 1 before installing them on the pipe is determined by the formula:

where k is a coefficient taking into account cooling during installation.

Taking α = 6.0 • 10 ^-5 1 / deg, E = 17000 • 10 ⁶ Pa, t _tr = 10 ^o C, k = 1,1, get a numerical value t = 126 ^o C.

The final heating temperature of the polymer coupling halves 1 is taken equal to 130 ^o C. The ends of the polymer coupling halves 1 are connected in series, inserting the embedded axis 8 with the adhesive primer applied on their surface into the holes 3 of one pair of loop blocks 2, and then the other, pressing 5th place to the pipe surface connection of the first pair of loop blocks 2.

 The application of the claimed invention allows to improve the quality of repair of corrosion-damaged pipes, and therefore, ultimately to increase the operational reliability of pipelines.

Claims (2)

1. A polymer sleeve for repairing pipes with local corrosion defects, consisting of several layers of glass tape connected to each other by an adhesive layer, and covering the pipe around the circumference, characterized in that the sleeve is made of two separate, preformed halves, provided at the ends of the incoming into each other with loop blocks fixed between themselves by embedded axes oriented parallel to the axis of the pipeline. 2. A method of installing a polymer sleeve in a defective area, including preparing the outer surface of the pipe, applying an adhesive primer to it and securing the sleeve, characterized in that both halves of the polymer sleeve are installed on the pipe with local corrosion defects in the heated state, ensuring that the axes of the holes of the loop blocks are aligned connected halves, after which the loop blocks are fixed with embedded axes.

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