RU2156398C1 - Multi-layer protection of local cracks and corrosion defects on walls of pipe lines - Google Patents

Abstract

FIELD: construction engineering; repair of pipe lines. SUBSTANCE: multi-layer protection includes band-type coat made from elasto-flexible tape spiral applied on pipe line. This spiral is multi-layer at circumferential position of warp fibers and their volumetric ratio ranges from 1:1 to 3:1. Volumetric ratio of layer of fabric and polymer binder ranges from 1:0.37 to 1: 0.57; polymer binder is made in form of composition from epoxy resin, 70% and phenol-formaldehyde lacquer, 30%. Tape spiral may be narrowed lengthwise or may be provided with axial slots for adaptation of tape on repairable section of pipe line and reduction of concentration of stresses. EFFECT: enhanced reliability of pipe line. 5 cl, 4 dwg

Description

 The invention relates generally to the multilayer protection of local crack-like and corrosive defects of the walls of the pipeline by means of an elastic flexible tape spiral made of composite materials and can be used in the form of a retaining band around it, fastened together with a adhesive composition along the coils with the pipeline.

 Bandage belts made of an elastic flexible tape spiral of a composite material are subject to increased demands on the rigidity, strength and reliability of weakened zones of pipelines. When solving issues of reliable protection of pipelines, there is a danger of their premature destruction, despite the measures taken according to the principle scheme of amplification, quality and reliability of repairs. Therefore, reinforcing systems of fibers passing along the spiral of the tape are introduced into tape spirals from composite materials, providing them with a “shape memory effect”. However, the manufacturing methods of such spirals are complex and time-consuming, especially at the stage of their formation. The tendency to obtain tape spirals from composite material for repair retaining bands of as high strength as possible in the circumferential direction of the retaining belt has led to the fact that shrink stresses are actively manifested in the tape spirals, which lead to cracking of the tape spiral even at the stage of its application to the pipeline being repaired, which weakens its axial strength and reliability. The introduction of intersecting fibers in relation to spiral fibers did not solve the problem of providing increased strength of the tape itself and the pipeline section being repaired due to the weakness and low bond strength between them, determined only by the strength of the adhesive composition.

Known is the multilayer protection of local pipeline walls cracked in corrosion defects, containing a strip coating of an elastic-flexible tape spiral of a composite material based on thread systems and a polymeric binder, applied to the pipeline, glued together along the pipeline with the adhesive composition (US patent N 4700752, NKI 138-172, 138-178, 1987). Known similar multilayer protection using an elastic flexible tape spiral made of composite material (RF application N 95108322/06, IPC ⁶ F 16 L 55/18, 1992).

Known multilayer protection using wound fiberglass (RF patent N 2097646, IPC ⁶ F 16 L 57/00, 58/16, 1997).

Also known is shielding from heat-shrinkable material with a "memory effect" (USSR author's certificate N 1009788, IPC ⁶ B 29 C 63/06, 1983).

 The closest analogue of multilayer protection, selected as a prototype, is US patent N 4700752.

SUMMARY OF THE INVENTION
The main task is to create a multi-layer girdle protection of the repaired pipeline using a multilayer tape spiral made of composite materials with a high degree of accuracy of the location of the reinforcing threads on the layers of the tape, which is highly competitive compared to its market counterparts.

 The technical result from the use of the invention is to increase the strength, reliability and quality of repairs due to the highly efficient distribution of reinforcing threads without cracking the turns of the tape spiral, tightly fitting them around the pipe being repaired, increasing the elastic-flexible properties of the tape over the entire surface of the spiral.

 The main problem is solved and the technical result is achieved by changing the design and structure of reinforcing the tape spiral, choosing the effective volumetric ratio of the thread systems, binder and its composition, the ratio with the reinforcing filler, introducing the features of the tape edges and its geometry along the length of the spiral.

 To do this, in the multilayer protection of local crack-like and corrosion defects of the walls of the pipeline, containing a strip coating of an elastic-flexible tape spiral spiral of a composite material based on thread systems and a polymer binder, applied to the pipeline, bonded along the coils with the adhesive composition, the elastic-flexible tape spiral coating is made of multi-layer 2-10 layers of fabric, with a volume ratio of warp and weft from 1: 1 to 3: 1 with the warp threads in the spiral direction, and the thread th duck in the axial direction of the girdle coating, and as a polymer binder it contains a composition of epoxy binder - 70% and phenol-formaldehyde varnish - 30% with a volume ratio of fabric layers and polymer binder from 1: 0.37 to 1: 0.57. The fabric of the layers of the tape spiral can be made plain, satin or twill weave twisted glass. The tape spiral of the girdle coating can be made tapering in the direction from the minimum radius of curvature to the maximum. The transverse edges of the ends of the tape spiral of the girdle coating are made with an arrangement in its axial direction. The lateral edges of the ends of the tape spiral of the girdle coating can be made with axial cuts.

The distinctive features of the multilayer protection of local crack-like and corrosion defects of the pipeline walls are the following features:
- the implementation of the elastic flexible tape spiral belt coating multi-layer of 2-10 layers of fabric;
- the location of the warp threads of the fabric layers in the direction of the spiral, and the weft threads in its axial direction;
- the volume ratio of warp and weft in the layers of the tape from 1: 1 to 3: 1;
- the content as a polymer binder composition of epoxy resin - 70% and phenol-formaldehyde varnish - 30%;
- the volume ratio of the layers of fabric and the specified polymer binder in the composite material of the tape spiral from 1: 0.37 to 1: 0.57;
- the implementation of the layers of the tape spiral linen, satin or twill weave twisted fiberglass;
- the implementation of the tape spiral of the belt covering tapering in the direction from the minimum radius of curvature to the maximum;
- the location of the transverse edges of the ends of the tape spiral in the axial direction of the girdle coating;
- the implementation of the lateral edges of the ends of the tape spiral girdle coating with axial cuts.

 These distinctive features of the multilayer protection of local crack-like and corrosion defects of the walls of the pipeline are significant, since each of them individually and jointly aims to solve the problem and achieve a new technical result.

 The interweaving of the threads located along the spiral with the threads located in its axial direction is caused by the need to give the tape spiral elastic flexibility, eliminating its destruction both during technological operations of manufacturing the tape and during repair work on pipelines. In addition, the interweaving of threads in the form of fabric allows to achieve a stable arrangement of threads in each layer of the tape and, therefore, to achieve stability of the thickness of the tape along the entire length of its spiral. The most technologically advanced in use is a multilayer ribbon spiral with the number of layers from 2 to 10. Over 10 layers in the tape, it exhibits large shrink stresses associated with the "memory effect", such a tape is not technologically advanced, because of its large thickness it is necessary to apply large efforts to open the spiral when applied to the repaired pipeline. Less than 2 layers of fabric in a tape spiral is undesirable, since when it is opened, cracking and drying of the cured binder is possible, the time of applying such a tape to the repaired pipeline is increased. The ratio of warp and weft threads ranging from 3: 1 to 1: 1 allows you to get a flexible tape of different nomenclature, in addition, the fabric in such a tape holds the binder well. The volume ratio of the fabric layers and the polymer binder in the range from 1: 0.37 to 1: 0.57 allows you to get the highest and most stable strength characteristics of the plastic of the tape with its increased elastic and flexible properties. Such a tape well and effectively strengthens the pipeline at the place of the defect in both circumferential and axial directions. The presence of axial slots on a flexible tape spiral allows it to tightly cover the curved profile of the defective area and adapt to the relief of the pipeline. The introduction of a narrowing along the length of the tape spiral allows us to eliminate the overlapping of the edges of its turns, to spread the reinforcement and reduce the stress concentration at the junction of the belt reinforcement on the pipe wall, thereby improving the reliability of the repair.

 These significant distinguishing features are new, since their use in the prior art, analogues and prototype was not found, which allows us to characterize the proposed multilayer protection in combination with common known essential features according to the criterion of "novelty."

 A single set of new essential features with common known essential features allows us to solve the problem and achieve a new technical result, which characterizes the proposed multilayer protection by significant differences from the prior art, analogues and prototype. Multilayer protection is the result of experimental work and creative contribution, it is an original and non-obvious solution, it did not use any standard developments or recommendations in this technical field, the set of essential features meets the criterion of "inventive step".

Description of drawings
In FIG. 1 shows a general view of the multilayer protection of corrosion and crack-like defects in the walls of a pipeline; FIG. 2 - features of the execution of an elastic flexible tape spiral coating, in FIG. 3 - tape spiral coating with a varying width along the length, in FIG. 4 - tape spiral coating with axial cuts and / or grooves on its lateral edges.

Detailed description of the invention with reference to the drawings
The multilayer protection of local crack-like and corrosion defects of the walls of the pipeline contains a girdle coating 1 of an elastic flexible tape spiral 2 of a composite material based on a 3.4 thread system and a polymer binder 5, applied to the pipe 6, fastened along the turns 7 with the pipe 6 by the adhesive composition 8. The elastic flexible tape the spiral 2 of the girdle coating 1 is multilayered, from 2-10 layers of fabric 9, with a volume ratio of warp and weft 3.4 from 1: 1 to 3: 1 with the weft 4 located in the axial direction 10 belt 1, and warp threads 3 in a spiral direction 11. As the polymer binder of the fabric layers 9, the tape spiral 2 contains a composition of epoxy binder and phenol-formaldehyde varnish, respectively 70% and 30%, with a volume ratio of fabric layers 9 and the specified polymer binder from 1: 0.37 to 1: 0.57. The fabric of the layers 9 of the tape spiral 2 is made plain, satin or twill weave twisted glass fibers 3, 4 and with a twist of threads 3, 4 from 30 to 200 twists / meter. The tape spiral 2 can be made tapering in the direction 11 from the minimum radius of curvature to the maximum. The transverse edges 12,13 of the ends of the tape spiral 2 of the strip coating 1 can be oriented parallel to each other and to the longitudinal axis of symmetry 10 of the pipeline. The lateral edges of the 14.15 ends of the tape spiral 2 of the girdle coating 1 can be made with axial cuts 16 and / or through grooves 17, evenly or with an estimated step located along the length of the tape spiral 2. The elastic spiral tape 2 is applied to the pipe 6 by wrapping it around pipeline 2 using appropriate adhesive compositions. In the initial state, the elastic flexible ribbon spiral 2, manufactured in the factory, has a multilayer structure in the amount of 2-10 layers, has high quality, it is convenient to repair with it, does not crack and does not delaminate.

Information confirming the possibility of carrying out the invention
Varying the volume ratio of warp and weft threads 3, 4, their interweaving by the number of twists of the threads with a volume ratio of polymer binder within the specified limits makes it possible to obtain a wide range of repair material with high strength in both annular and axial directions. The tensile strength of such material in these directions varies in the range of 230-600 MPa. The previously created elastic stresses in the coils obtained during the formation of the tape spiral allow to stably maintain its elastic properties during repair work and operation. Such properties are achieved using plain, satin or twill weave of twisted glass fibers, the number of twists is in the range from 30 to 200 twists / meter. The protection made using the prototype has an axial tensile strength of up to 30 MPa. Protection made using the proposed technical solution has increased strength in the axial direction. Conducted experimental work on the Avangard software with the manufacture and use of elastic flexible tapes in repair work with pipelines showed high efficiency, quality and reliability. Thus, the new multi-layer protection of cracks, defects of pipelines, described above, is structurally new, technologically advanced and effective in comparison with the prior art.

 The scope of the invention should be understood broader than the specific implementation of the multilayer protection given in the description, formula and drawings.

 It should be borne in mind that the form of the invention is only possible preferred options for its implementation, and can be used and other (and various) variants of the invention in relation to the shape, size and location of individual elements, if all this does not go beyond the scope, set forth in the claims.

 In addition, the proposed technical solution is not limited to its use in repairs of trunk pipelines, for example, from the outside, it can also be used to repair defective areas of the pipeline formed internally on its internal surfaces.

 The proposed technical solution can be used in other areas of technology, where the use of multilayer protection with increased strength properties and reliability, and other properties described in the materials of this application is required. Such protection can be used, for example, in the repair of shafts, rotating axles, couplings, gun shafts, wheelsets, etc. It can be used in agriculture (forestry) - to protect trees, and in medicine, for example, in the formation of plaster casts, etc.

 The new technical solution in the proposed combination of features of multilayer protection meets the criterion of "Industrial applicability", that is, the level of the invention.

Claims (5)

 1. Multilayer protection of local crack-like and corrosion defects of the walls of the pipeline, containing a strip coating of an elastic flexible tape spiral of a composite material based on thread systems and a polymer binder, applied to the pipe, bonded along the coils with the pipeline with an adhesive composition, characterized in that the elastic flexible tape spiral of the coating made of multilayer, from 2-10 layers of fabric, with a volume ratio of warp and weft of 1: 1 to 3: 1 with the arrangement of warp threads in a spiral direction tape, and weft threads in the axial direction of the coat, moreover, as a polymer binder contains a composition of an epoxy binder and phenol-formaldehyde varnish, respectively 70 and 30%, with a volume ratio of fabric layers and the specified polymer binder from 1: 0.37 to 1: 0.57.  2. Protection according to claim 1, characterized in that the fabric of the layers of the tape spiral is made of plain, satin or twill weave of twisted glass fibers and with a twist of threads from 30 to 200 twists / m.  3. Protection according to claims 1 and 2, characterized in that the tape spiral of the girdle coating is made tapering in the direction from the minimum radius of curvature to the maximum.  4. Protection according to claims 1 to 3, characterized in that the transverse edges of the ends of the tape spiral of the girdle coating are oriented parallel to each other and to the longitudinal symmetry of the pipeline.  5. Protection according to claims 1 to 4, characterized in that the lateral edges of the ends of the tape spiral of the girdle coating are made with axial cuts and (or) non-through grooves uniformly or with a design step located along the length of the tape spiral.

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