RU2252356C1 - Sealing members - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: sealing members comprise rings made of flexible and durable material. The rings are made of one or multilayer belt whose ends are interconnected. The belt is fit to the pipeline and is provided with pockets. The sizes of the belt transverse to the pipeline differ from the length of the periphery of the outer surface of the insulated pipeline by 50-100 mm. Each belt is provided with bearing members set in the pockets. The pockets are arranged over the belt with a given step, and their longitudinal axes are oriented along the generatrices of the pipeline. The pockets are made for permitting the bearing members to be locked inside them.

EFFECT: enhanced reliability.

9 cl, 4 dwg

Description

The invention relates to the construction and is used in the construction and repair of transitions of underground pipelines on flooded soils, swamps, as well as when crossing water barriers.

The prior art device for protecting the outer surface of the pipeline when laying pipelines is carried out, previously protecting the insulation of the pipeline with a lining of wooden blocks, tightened with steel clamps or wire, and the ballasting of pipelines is carried out by reinforced concrete or cast iron ring loads. Pipeline lash pre-lined and laid out along it at the estimated distance of half the cargo. A lined pipe lash is laid on the laid out cargo halves and the upper cargo halves are hung on it, after which the cargo halves are bolted (see BORODAVKIN P.P. et al. “Underwater pipelines”, Moscow, “Nedra”, 1979, p. 179- 181).

A disadvantage of the known device relates to the need to re-tighten the fastening of the pipeline lining due to relaxation of the tightening force, damage to the insulation coating when pulling the cargo halves together with bolts, as well as the possible displacement of the lining and cargo along the pipeline when laying it by pulling or during longitudinal operational movements of the pipeline. In addition, the disadvantage of this device is the need to use lumber prone to rot.

A device is known for protecting insulation of the outer surface of an underground pipeline, composed of two sheets of non-woven synthetic material bonded together and provided with prismatic supports filled with sand. Sheet material fits the outer surface of the pipeline, while the supporting elements are located along the generatrix of the pipeline. The height of the supporting elements is 2-5 cm (see EP 0546934 A1, 12/09/1992, F 16 L 57/00). A disadvantage of the known solution is the difficulty of manufacturing the supporting prismatic elements from the cover sheet, as well as the low mechanical strength of the device, especially with axial movements of the pipeline.

A device is known from the prior art for protecting the insulation coating of ballastable floodplain and marshy sections of pipelines. In a known solution, pipelines are ballasted by hanging concrete loads of various designs on a pipeline laid in a trench. To protect the pipeline insulation from damage, a safety mat consisting of several layers of brisol or roofing material with a layer of bitumen is glued to each of its cargo installation sections (see BORODAVKIN P.P. et al. P. 181-182). The known device is characterized by the above disadvantages, as well as the complexity of the work to protect the insulation of the pipeline.

Closest to the claimed invention is a solution known from RU 22203522 C1, 12/27/2003. In the known solution for protecting the insulation of the pipeline, sealing mats for ring weights and cast iron weights were used. Known sealing mats contain lining elements located with a calculated pitch on the outer surface of the pipeline in places where ballasting loads are secured thereon. The latter are two half-cylinders - rugs located under the weights and covering the pipeline, each of which is made of elastic porous material in the form of a single or double-layer sheet adjacent to the pipeline. Transverse to the pipeline, the dimensions of the edges of the rugs are 50-100 mm less than half the circumference of the outer surface of the insulated pipeline, and the side of each rug facing the weighting unit is equipped with supporting elements (OE) made of sheet material. The mats are impregnated with urea-formaldehyde resin with a hardener followed by curing, and the OEs are located along the transverse pipeline edges of the sheet of the carpet or along its longitudinal edges relative to the pipeline. A disadvantage of the known solution is its increased material consumption and considerable complexity in the manufacture.

The objective of the invention is to create a simple to use and not complicated device that provides a reliable and stable position of ballasting goods on the pipeline during its construction and during the period of operation of the pipeline.

This problem is solved in that the sealing elements of Mukhametdinov for ring weights or cast-iron weights (BU) contain lining elements located with a calculated step on the outer surface of the pipeline in the places of fixing the BU on it, while the latter are made in the form of BU located under each supporting belt and covering a pipeline of rings made of flexible, elastic and durable material in the form of a single or multilayer tape adjacent to the pipeline and equipped with pockets, the ends of which are fastened, the dimensions of the tape transverse to the pipeline differ by 50-100 mm from the circumference of the outer surface of the insulated pipeline, with each tape provided with support elements (OE) embedded in its pockets, with the pockets placed on the tapes with a calculated pitch, their longitudinal axes are located along the pipe forming, and the pockets are made with the possibility of fixing them OE.

OE embedded in the pockets of tapes are made in the form of a sealed multilayer liner filled with granular material, while the ratio of its volume to the volume of the pocket does not exceed 0.8.

In addition, the OE taped into the pockets of the tapes are made prismatic from a material with design characteristics for compression: from hard wood, rubber, and polymeric materials.

In the particular case of the implementation of the claimed device, the OE tapes embedded in the pockets are made of a non-woven synthetic material (NSM) impregnated with resin, followed by its curing.

In addition, in the particular case of tape, pockets and the outer layer of each multilayer liner is made of polymer-fabric material or technical fabric, and the inner layer of the liner is made of polyethylene.

The longitudinal dimensions relative to the generatrices of the pipeline exceed the size of the width of the support belt of the control unit by at least 100 mm.

In the particular case of the device, each pocket for the MA is preliminarily folded up with a web forming the tape and stitched with seams located with a calculated pitch and transverse to the fold line. In the particular case of the device, each pocket for the MA is made overhead.

The ends of each provided with pockets made in the form of a ring of tape connected on the pipeline with a gap by means of sewn on the indicated ends of the ties.

In addition, in the particular case of execution, each tape equipped with pockets is made of two half rings, the ends of which are connected to the overlap on the pipeline by means of “Velcro” sewn-on connecting ends.

The sealing elements are not subject to decay under operating conditions and have good dielectric properties, which is important when protecting the pipeline transition from stray currents. In addition, the sealing elements have high mechanical strength, good adhesion to the pipeline and weights, as well as durability under operating conditions, remaining a sufficiently flexible structure, which facilitates the installation of sealing elements and weighting agents on the pipeline.

The manufacture of pockets and supporting elements (OE) according to the claimed invention allows to obtain OE oriented along the longitudinal axis of the pipeline and located under the supporting belts of ballasting weights, which perceive high contact pressures as a result of tightening the bolted joints of the cargo halves.

The invention is illustrated by drawings, where in Fig.1 shows a longitudinal section of a pipeline with a ballasting weighting agent; figure 2 is a cross section aa in figure 1; figure 3 is a scan of a sealing element made of durable material; figure 4 is a transverse section bb in figure 2.

Cast iron or reinforced concrete loads 1 (ballasting devices - BU) are secured with a calculated step on the outer surface of the pipeline 2, on which under the load support belts 3 there are sealing elements 4 made in the form of a ring 5 or two half rings of flexible, elastic and durable material in the form adjacent to the pipeline and equipped with pockets 6 of single or multi-layer tape 7. In the case of using tape in the form of a whole ring, the dimensions of the tapes transverse to the pipeline by 50-100 mm do not exceed a length less than the circumference of the surface of the insulated pipe 2 and are connected to the gap by means of ties.

In the case of using a composite ring of two half rings, their sizes transverse to the pipeline are 50-100 mm larger than the circumference of the outer surface of the insulated pipeline and are connected to the overlap by means of Velcro fasteners 8 sewn onto the ends of the tapes.

Each tape 7 is equipped with support elements (OE) 4 embedded in its pockets 6. The pockets 6 on the tapes 7 are placed with a calculated step, and their longitudinal axes are located along the generatrices of the pipeline.

OE embedded in the pockets of ribbons are made of prismatic material with design characteristics for compression, for example, of hard wood, rubber, and polymeric materials.

In addition, the OE embedded in the pockets of tapes are made in the form of a sealed multilayer liner filled with bulk material, for example sand, rubber crumb, granules of polymeric materials, while the ratio of the liner volume to the volume of pocket 6 does not exceed 0.8.

Tapes, pockets and the outer layer of each multilayer liner are made of polymer-fabric material or technical fabric, and the inner layer of the liner is made of polyethylene.

OE tapes embedded in pockets in the particular case of the claimed device are made of a non-woven synthetic material (HCM) impregnated with resin, followed by its curing. Inserts can be delivered separately, and at the installation site they are placed in pockets with subsequent fixation in pockets, for example by bending the edge of the tape, applying it to the tape and fastening it with tape with a Velcro joint. In addition, pockets can be closed with valves according to the technologies known today by means of Velcro, buttons, ties, etc. elements.

For reliable placement of the control unit on the pipeline without damaging its insulation, the longitudinal dimensions relative to the pipeline generators exceed the width of the support belt of the control unit by at least 100 mm, preferably 200 mm.

The execution of the pockets 6 may also be different. Each pocket for OE, in particular, is made by preliminary bending with the overlapping of the longitudinal side of the tape forming the web and its stitching with seams located with a calculated step and transverse to the fold line. The magnitude of the bent and superimposed parts is, for example, 1/3 of the width of the canvas.

The longitudinal arrangement of the OE along the generatrices of the pipeline provides good flexibility of the sealing elements, which is important when installing ballasting devices on pipelines of large diameters.

The device operates as follows. The lower halves of ballasting loads are laid along the pipeline whip prepared for laying at the calculated distances. Tapes 7 - sealing elements - are laid on the laid out cargo halves so that the longitudinal axes of the support belts 3 of the control unit and the tapes 7 are combined.

In the case of using the whole ring 5, it is stacked based on the closure of the ends of the tape on the horizontal diameter of the pipeline in the area of the cargo connector.

If composite rings of two half rings are used, then the ends of the lower tape are bent and fixed on the surfaces of the connector of the cargo halves.

Pipeline lash 2 is laid on the laid out lower halves of goods with sealing elements, and the end of the whole tape is laid on top of it with an envelope, after which its ends are connected with a gap by ties 7.

In the case of using a composite ring (of two half rings), after laying the pipeline whip, the upper sealing elements are hung on it, the ends of which overlap overlap the ends of the previously installed lower sealing elements. Connect the ends of the tapes (the whole ring) by means of ties.

In the case of using a composite ring (of two half rings), the ends are connected by means of “fasteners” sewn to the ends of the tapes, while the overlapped ends of the tapes are also located at the horizontal diameter of the pipeline in the plane of the BU connector.

After that, the upper halves of 11 cargoes are hung on the pipeline, after which the upper and lower halves of the cargo are bolted, and the bolted joints are filled with bitumen or bituminous mastic. Since the width of the OE 4 exceeds the transverse dimension of the support belts 3 BU, the tightening torque of the bolted connection of the cargo halves is perceived by the supporting elements 8, which have a significant thickness: 30-50 mm

This ensures the integrity of the support elements and the transmission of the tightening force more evenly through the sealing elements to the lining or insulation of the pipeline 3 without damage, and the material structure of the sealing elements 4 provides the necessary adhesion to the lining or insulation of the pipeline, eliminating the slipping of goods when pulling the pipeline whip or during operation of the pipeline with its longitudinal movements.

The ratio of the volumes of the pockets and liners 9 provides unloading the tissue of the pockets from the tightening force and the perception of its liners. In this case, the outer layer of the liner made of polymer-fabric material or technical fabric, for example, TBG-360 has high strength and elongation not exceeding 30-35%. The inner layer made of polyethylene provides the necessary tightness of the liner and prevents leakage of sand and burning from it during the manufacture and operation of OE.

The choice of the type of fixing elements is due to the flexibility of the tapes, which in turn depends on the choice of material for its manufacture and its processing technology. When choosing a material, the diameter of the pipeline, the loads acting on it, and operating conditions should be taken into account. For flexible tapes, fixing elements in the form of ties are most suitable, and for tapes with relatively lower flexibility, Velcro-based joints are preferred.

Particularly reliable securing of cargoes on the pipeline is ensured by lining the pipeline with a “rock sheet” known in the art. The sealing elements made according to the claimed invention have high mechanical strength and durability under operating conditions, remaining a sufficiently flexible structure, which facilitates the installation of ballasting weights on the pipeline.

In addition, the sealing elements according to the claimed invention have good dielectric properties, which is important when protecting the pipeline transition from stray currents.

An additional area of use of Mukhametdinov’s sealing elements is the transportation of long loads of the “pipe in pipe” type. In this case, the sealing elements are fixed on the transported products, thereby eliminating possible damage to their surfaces during transportation.

Claims (10)

1. Sealing elements for ring weighting compounds and cast-iron weights (BU), containing lining elements located with a calculated step on the outer surface of the pipeline in the places where the BU is fixed on it, characterized in that the latter are made in the form of rings located under each supporting belt and covering the pipeline made of flexible, elastic and durable material in the form of a single or multilayer tape adjacent to the pipeline and equipped with pockets, the ends of which are fastened and the dimensions are transverse to the pipeline tapes differ by 50 - 100 mm from the circumference of the outer surface of the insulated pipeline, with each tape provided with support elements (OE) embedded in its pockets, the pockets on the tapes being placed with a calculated pitch, their longitudinal axes are located along the pipe forming, and the pockets made with the possibility of fixing them OE. 2. Sealing elements according to claim 1, characterized in that the OE embedded in the pockets of the tapes are made in the form of a sealed multilayer liner filled with granular material, while the ratio of its volume to the volume of the pocket does not exceed 0.8. 3. The sealing elements according to claim 1, characterized in that the OE tapes embedded in the pockets are made prismatic from a material with calculated compression characteristics of solid wood, rubber, and polymeric materials. 4. Sealing elements according to claim 2, characterized in that the tapes, pockets and the outer layer of each multilayer liner are made of polymer-fabric material or technical fabric, and the inner layer of the liner is made of polyethylene. 5. Sealing elements according to claim 1, characterized in that the OE tapes embedded in the pockets are made of a resin impregnated with its subsequent curing non-woven synthetic material (HCM). 6. The sealing elements according to claim 1, characterized in that the longitudinal dimensions relative to the pipe forming the OE exceed the width of the support belt of the control unit by at least 100 mm. 7. The sealing elements according to claim 1, characterized in that each pocket for the OE is made by preliminary folding with the imposition of the tape forming the web and its stitching with seams located with a calculated step and transverse to the fold line. 8. The sealing elements according to claim 1, characterized in that each pocket for OE is made patch. 9. Sealing elements according to claim 1, characterized in that the ends of each tape provided with pockets are connected on the pipeline with a gap by means of ties sewn at the indicated ends. 10. The sealing elements according to claim 1, characterized in that each tape equipped with pockets is made of two half rings, the ends of which are connected to the pipe overlap by means of “Velcro” sewn on the indicated ends.

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