RU202360U1 - BANDAGE FOR PIPELINE REPAIR - Google Patents

Abstract

The utility model relates to pipeline transport and can be used in the repair of operating pipelines with defects, predominantly crack-like, in particular, operating gas pipelines, oil pipelines. The task of creating a utility model: increasing the strength of the band. The achieved technical result: increasing the strength of the band. The solution of this problem was achieved in a bandage for pipeline repair, containing a tape wrapped around the pipeline, while the tape is made of three-layer, with the middle layer made of carbon fiber, and the inner and outer layers of fiberglass, characterized in that one of the layers of fiberglass is calendered. layer. The thickness of the middle layer of carbon fiber is made in the range from 30 to 70% of the thickness of the tape. The bandage can be made with the number of turns of the tape no more than two. The bandage can be made with the number of turns of the tape more than two. The tape can be made in the form of a roll. 5 p.p. f-ly, 4 dwg.

Description

The utility model relates to pipeline transport and can be used in the repair of operating pipelines with defects, mainly crack-like ones, in particular, gas pipelines and oil pipelines. The technical solution is aimed at strengthening the corroded or otherwise damaged section of the pipeline without stopping the pumping of the product.

Known similar solutions containing a tape wrapped around the pipeline (see, for example, the description of the invention to the patent of the Russian Federation No. 2249752, IPC F16L 55/175, publication date 10.04.2005, description of the invention to the patent of the Russian Federation No. 2156398, IPC F16L 58/16, F16L 57/00, publication date 09/20/2000).

The disadvantage of similar solutions is the lack of strength due to the use of tape based on glass filaments to obtain fiberglass.

Known bandage for repairing a pipeline is an analogue containing a tape wrapped around the pipeline (see, for example, the description of the invention to the patent of the Russian Federation No. 2108514, IPC F16L 55/18, publication date 10.04.1998).

Known bandage for repairing a pipeline under the RF patent for utility model No. 130033. IPC F16L 55/18, publ. 10.07.2013

This bandage for pipeline repair contains a tape wrapped around the pipeline, while the tape is made of three layers, the inner layer of carbon fiber, and the outer layers of fiberglass.

The disadvantage is insufficient strength due to the use of tape based on glass filaments to obtain fiberglass.

The task of creating a utility model: increasing the strength of the band.

The achieved technical result: increased strength of the band.

The solution to this problem is achieved in a pipeline repair band containing a tape wrapped around the pipeline, while the tape is made of three layers, with the middle layer made of carbon fiber, and the inner and outer layers of fiberglass, characterized in that one of the fiberglass layers is calendered.

The outer layer can be calendered.

The thickness of the CFRP middle layer is made in the range from 35 to 70% of the tape thickness.

The bandage can be made with no more than two turns of the tape.

The bandage can be made with more than two turns of the tape.

The tape can be made in the form of a roll.

The essence of the claimed bandage for pipeline repair is illustrated by drawings (Fig. 1 ... 4), which show the following:

in fig. 1 is a longitudinal section of the tape;

in fig. 2 is a cross-sectional view;

in fig. 3 - top view,

in fig. 4 - view of the roll.

Description notation:

1 - tape

2 - pipe,

3 - middle layer,

4 - inner layer,

5 - outer layer,

6 - strips of glue,

7 - reel.

Н ₀ - total belt height,

H ₁ - middle layer thickness,

H ₂ - the thickness of the inner layer,

H ₃ - the thickness of the outer layer.

The bandage for pipeline repair (Fig. 1) contains a tape 1 wrapped around the pipeline 2. The tape 1 is made of three-layer, the middle layer 3 is made of carbon fiber, and the inner and outer layers 4 and 5 are made of fiberglass. Taking into account the known properties of fiberglass and carbon fiber as materials, it is possible to obtain a tape 1 with the required strength characteristics for specific pipelines 2 with specified wall thicknesses, internal limiting values of fluid pressures, taking into account the nature and magnitude of the forces of external influences on pipeline 2 and should be produced immediately tape with increased middle layer thickness 3:

H ₁ = (35% ... 70%) H ₀ , where:

H ₁ - middle layer thickness,

H ₀ is the total height of the tape.

Fiberglass layers 4 and 5 are pre-calendered.

Calendering, material processing (fabric, paper, rubber) on a calender. In the paper industry, calendering is carried out on machine calenders at the end of the dryer section of the paper machine, or on free-standing supercalenders. Supercalendered paper is called calendered or glazed; paper passed through a machine calender and having a lower gloss - paper of "machine smoothness". The smoothness of the paper obtained by calendering depends on the type of rolls (it is higher when a combination of cast iron and paper rolls), their temperature (when heated, the smoothness increases), the composition and moisture of the paper (paper containing more kaolin is better calendered), as well as pressure between the calender shafts. Calendering in rubber production is used for the manufacture of rubber sheets and plates of various thicknesses, for plasticizing and heating rubber mixtures, for smearing fabrics with rubber mixtures, etc. In textile production, cotton, linen, jute and other fabrics are compacted by calendering, give them shine, apply embossed pattern.

The bandage for pipeline repair can be made with the number of tape turns 1 not more than two. For example, when the ends of a tape wrapped around a pipeline are butted or overlapped.

The bandage for pipeline repair can be made with more than two turns of tape 1. In this case, higher strength characteristics of the band are achieved.

The inner end of the tape 1 can be made with a bevel angle of the order of 30 ° or less. Preferably 5-15 °.

The use of a bandage for pipeline repair is carried out as follows. Previously, taking into account the nature of the pipeline 2 defect identified by known methods, a tape 1 of the required length and width is prepared. Reduce the pressure of the product in the pipeline 2. Remove the soil around the pipeline 2, revealing the damaged area. Remove the anticorrosive coating from the pipeline 2 and clean the surface of the pipeline 2. Prepare the required amount of composite material based on epoxy resin. Cover the cleaned surface of the pipeline 2 with an epoxy-based composite material. The section of the pipeline 2 being repaired is wrapped with one layer of tape 1. The initial end (in most cases, the inner one) of tape 1 is placed on the side of pipeline 2 opposite to the side on which the identified pipeline defect is located. pipeline 2.

On the outer surface of the outer layer 5 is applied a composite material based on epoxy resin.

When joining the ends of the tape 1 with an overlap, a composite material based on epoxy resin is also applied to the facing sides of the tape 1.

The outer layer of the band is coated with a composite material based on epoxy resin. The tension of the tape 1 is carried out by crimping it on the pipeline 2 with external devices, for example, contractable metal tape couplings with a bolted connection of the ends of the bandage tape. In this case, a part of the composite material is squeezed out from under the tape 1. Surplus of the composite material can be removed from the surface of the pipeline 2 outside the place where the tape 1 is pressed. The tape 1 is crimped while the epoxy resin-based composite material hardens. After the epoxy composite has cured, the external devices are removed.

In the case of winding tape 1 on a pipeline 2 with more than two turns, the crimping of the wound tape 1 by external devices is carried out in the same way. On the contacting sides of the turns of the tape 1, a composite material based on epoxy resin is preliminarily applied.

It is possible to connect the ends of the tape 1 with a single-turn version of winding by means of bolted connections with pre-installed on the ends of the tape 1 overlays. In this case, the tension of the tape 1 is provided by the indicated bolted connections without being crimped by external devices.

The tape is stored in bobbins of 7 different widths.

The use of the utility model allowed:

simplify the process of making a bandage by working with one tape in a reel,

ensure greater tightness by calendering the glass cloth layer,

to increase the strength of the band due to the large thickness of the middle carbon layer and calendering of glass cloth layers.

Claims (6)

1. A bandage for repairing a pipeline, containing a tape wrapped around the pipeline, while the tape is made of three layers, and the middle layer is made of carbon fiber, and the inner and outer layers are made of fiberglass, characterized in that one of the layers of fiberglass is calendered. 2. A bandage for repairing a pipeline according to claim 1, characterized in that the outer layer is made calendered. 3. A bandage for pipeline repair according to claim 1, characterized in that the thickness of the middle layer of carbon fiber is made in the range from 35 to 70% of the height of the tape. 4. A bandage for repairing a pipeline according to claim 1, characterized in that it is made with no more than two tape turns. 5. Bandage for repairing a pipeline according to claim 1, characterized in that it is made with more than two tape turns. 6. A bandage for repairing a pipeline according to claim 1, characterized in that the tape is made in the form of a roll.

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