RU2240466C2 - Device for opened pipeline end interior resealing - Google Patents

Abstract

FIELD: building, particularly for pipeline repairing.

SUBSTANCE: device has rubber-cord casing connected by hose with pressurized gas source, pressure-gauge, three-way valve and hose section detachably connected to casing so that hose section remains inside pipeline after its detachment. Casing is tore-like and encloses sealed cylindrical body in air-tight manner. Arranged on cylindrical body are at least two elastic annular centering supports located coaxially with casing and spaced a distance one from another. The distance is greater than width of under-wedge space of pipeline gate. Outer support diameter is less than inner pipeline diameter, but greater than outer diameter of casing not subjected to pressurized gas pressure. Hose section connected to casing may be automatically retracted into cylindrical body after detachment thereof from hose. Installed on device end is connection mechanism for device engagement with another similar device for their movement inside pipeline.

EFFECT: widened range of technical means.

4 cl, 2 dwg

Description

The device relates to means for stopping the flow of liquid or gas from pipes by introducing an element expanding in place into the pipe and can be used during pipeline repairs in the oil, gas, and chemical industries.

Known devices / 1, 2 /, made in the form of a tampon (plug), installed in the pipeline through the open end of the pipe, formed after the pumped product was cut off on the defective section of the pipeline, the remaining pumped product was removed and the defective section was cut out without fire.

Devices / 1, 2 / are installed for sealing the inner cavity of the open end of the pipeline, which prevents the ingress of combustible and explosive product residues (oil, gas, explosive chemicals), for example, flowing from elevated sections and from the walls of the pipeline, and its vapor into the welding zone during subsequent welding operations.

The device / 1 / for sealing the inner cavity of the open end of the pipeline, emptied from the product, provides for the implementation of a sealing tampon (plug) of clay. The disadvantages of the device / 1 / are the complexity and duration of the installation, insufficient reliability, clay contamination of the pipeline and the difficulty of cleaning it from the pumping product at the pump station.

The device / 2 / for sealing the inner cavity of the open end of the pipeline, emptied from the product of pumping, provides for the implementation of a sealing tampon (plug) in the form of a cylinder with flanges, one of which has through holes. Between the flanges, a polymer pre-wetted in water is smeared. The device / 2 / is installed in the open end of the pipe. Through the holes in one of the flanges, the polymer is additionally impregnated with water, as a result of which the pipeline cavity is sealed. The disadvantages of the device / 2 / are the complexity in its installation, the inability to reuse the same sealing substance (polymine), which leads to higher cost of work, as well as the difficulty in removal after completion of repair work.

A device / 3 / is known, where the sealing swab (plug) is made in the form of a cylindrical rubber cord shell connected to a source of pressure of the working medium (air or inert gas) using a hose on which a pressure gauge is installed to determine the pressure in the rubber cord shell. The pressure gauge is taken out of the pipeline. A portion of the hose attached to the rubber-cord sheath is adapted to disconnect from the hose. At the end of this section of the hose opposite from the rubber cord sheath there is a check valve. After pumping is stopped and the closest linear valves are closed, the repaired pipeline section is emptied from the product (oil). A defective section is cut out on the pipeline, which makes it possible to install a cylindrical rubber-cord casing of the device / 3 /. Next, the cylindrical rubber-cord casing is introduced into the pipeline from its open end, connect it to the air or inert gas pressure source with a hose, then the compressor is turned on and the pressure in the cylindrical rubber-cord casing is increased to a working value, as a result of which the cylindrical rubber-cord casing increases in size and seals the pipeline . A portion of the hose attached to the rubber-cord sheath is disconnected from the hose. This section remains inside the pipeline along with the check valve. Next, they begin to perform welding work. Upon completion of welding and repair work, the repaired section of the pipeline is filled with the product of pumping (oil) and pumping is resumed. The cylindrical rubber-cord casing is pushed out by the flow of the pumped product into the receiving and starting chamber of the pipeline cleaning devices. The disadvantage of the device / 3 / is the inability to re-use the cylindrical rubber cord shell due to damage during expulsion by the flow of the product of transfer to the receiving / starting chamber of the treatment devices. The device / 3 / is selected for the prototype.

The objective of the invention is to achieve reusable use of the device, which reduces the cost of the work on sealing the internal cavity of the open end of the pipeline. The technical result consists in increasing the wear resistance of the device due to its structural improvement.

Like the prototype, the device for reusable sealing of the inner cavity of the open end of the pipeline contains a rubber-cord casing connected to a gas pressure source using a hose on which a pressure gauge is installed to determine the pressure in the casing, carried outside the pipeline, a hose section connected to the casing, made with the possibility of disconnection from the hose and remaining inside the pipeline. In contrast to the prototype, the shell is made toroidal and hermetically enclosing a cylindrical body, hermetically sealed inside, at each end of which at least two elastic ring-shaped centering supports spaced apart from each other by a distance greater than the width of the wedge the pipeline, while the outer diameter of the supports is less than the inner diameter of the pipeline, but larger than the outer diameter of the toroidal shell, which is not under gas pressure.

The device may include a three-way valve mounted on a hose, placed outside the pipeline and located next to the pressure gauge.

A portion of the hose attached to the sheath can be automatically retracted into the cylindrical body when it is disconnected from the hose.

At the end of the device, an automatic clutch mechanism can be installed with another device for sealing when moving them inside the pipeline.

The device is shown in figures 1 and 2 with the following notation: 1 - pipeline, 2 - shell, 3 - gas pressure source, 4 - hose, 5 - pressure gauge, 6 - section of the hose attached to the shell, 7 - cylindrical body, 8 - elastic ring-shaped centering bearings, 9 - valve, 10 - automatic clutch mechanism.

The rubber-cord sheath 2 installed in the inner cavity of the open end of the pipeline 1 (Fig. 1) communicates with a gas pressure source 3, for example, with a cylinder of compressed air or an inert gas equipped with a balloon reducer, using a hose 4, for example, a low-pressure hose. A pressure gauge 5 is installed on the hose 4 to determine the pressure in the rubber-cord sheath 2. The pressure gauge 5 is placed outside the pipe 1, for example, on the outer surface of the pipe 1. The hose portion 6 is connected to the sheath 2, is made to disconnect from the hose 4 and remains inside the pipe 1. The rubber-cord casing 2 is made toroidal. It tightly covers the cylindrical body 7, for example, vulcanized on the cylindrical body 7. The cylindrical body 7 is hermetically sealed inside, for example, by a partition. At least two elastic ring-shaped centering supports 8 are mounted coaxially with the shell 2 at each end of the cylindrical body 7. The elastic material of the supports 8, for example polyurethane, allows the supports 8 to pass through narrowed distorted sections of the pipeline 1. Permissible distortion of the inner diameter of the pipe 1, not affecting the movement of the device, up to 20% of the normal diameter of the pipe. The material of the supports, in addition, must be resistant to the effects of the pumping product and to mechanical stresses when moving the device in the pipeline over long distances (up to 1000 km). The ring-shaped shape of the supports 8 and their coaxial arrangement with the toroidal shell 2 provides centering of the toroidal shell 2 in the pipe 1 and the movement of the device under the action of the pumped product stream. The elastic ring-shaped centering bearings 8 are spaced from each other at each end of the cylindrical body 7 by a distance greater than the width of the wedge-shaped space of the valve of the pipeline 1. This separation of the supports 8 allows the device to move freely through the pipeline 1 after repair under the influence of the pumping product flow valves on the pipeline 1, preventing distortion of the device for sealing.

The outer diameter of the supports 8 is less than the inner diameter of the pipeline 1, which leads to the free movement of the device in the pipeline. The outer diameter of the supports 8 is at the same time larger than the diameter of the torus of the toroidal shell 2, which is not under gas pressure. Thus, when the device is removed after repair due to the flow of product pumping through the pipeline 1 to the receiving / starting chamber of the treatment devices, the device relies on centering supports 8, that is, the centering supports 8 protect the rubber cord shell 2, which is not under gas pressure, from damage. The device may include a three-way valve 9 mounted on a hose 4, taken out of the pipeline 1 and located next to the pressure gauge 5.

Section 6 of the hose connected to the shell 2 is configured to automatically retract into the cylindrical body 7 when it is disconnected from the hose 4. Retraction can be carried out, for example, due to installed on section 6 of the spring or by winding section 6 of the hose on an automatically rotating drum, located inside the cylindrical body 7.

A device for sealing the internal cavity of the open end of the pipeline may contain at its end an automatic coupling mechanism 10 with another device for sealing when they are moved inside the pipeline 1 (Fig. 1), for example in the form of a ball coupling.

The device operates as follows. After loading the device into the internal cavity of the open end of the pipeline 1, formed after cutting the coil or defective section, compressed gas (air, inert gas) is supplied to the toroidal rubber cord shell 2 from the pressure source 3. The toroidal rubber cord shell 2 increases in size and seals the inner cavity of the pipeline 1. During welding and repair work, the device holds the static pressure of the pumped product or its explosive and combustible gases. At the end of welding and repair work, the device is transferred to the transport position. To do this, bleed gas from the shell 2, which leads to depressurization of the internal cavity of the pipeline 1. The hose portion 6 connected to the shell 2 is disconnected from the hose 4. The hose portion 6 remains inside the pipe 1. Under the influence of the working pressure of the pumping product flow, the device moves through the pipeline 1 to the receiving / starting chamber of the treatment devices. In this case, the claimed device, in contrast to the prototype, relies on elastic ring-shaped centering bearings 8, and not on the rubber-cord casing 2, which helps to maintain its integrity and, therefore, reusable (at least 10 times).

A three-way valve 9 mounted on a hose 4, placed outside the pipeline 1 and located next to the pressure gauge 5 for determining the pressure in the rubber-cord casing 2, increases the convenience of handling the device and the safety of welding and repair work, especially if the source 3 of gas pressure and pressure gauge 5 carried a long distance. In this case, the device operates as follows. After gas was pumped into the rubber-cord casing 2 and the internal cavity of the pipeline 1 was sealed, a hose portion 6 was disconnected from the gas pressure source 3 by a three-way valve 9.

The pressure gauge 5 and the three-way valve 9 are nearby, which allows, by monitoring the pressure in the rubber-cord casing 2 during the repair, to quickly resume the rubber-cord casing 2 by supplying compressed gas to it using a three-way valve 9 from the gas pressure source 3. At the end of the welding and repair work, it is possible to bleed the rubber-cord sheath 2 using a three-way valve 9, and then disconnect the portion 6 of the hose from the hose 4.

If the device has at its end an automatic coupling mechanism 10 with another device for sealing, then it works as follows. When two devices move in the pipeline, one of the devices may overtake the other. For their coordinated movement and control of the process of their passage through the pipeline 1, the clutch mechanism 10 on one device is engaged with the mating clutch mechanism 10 on another device. The clutch mechanism is made with the possibility of angular rotation of one device relative to another in all planes during the passage of curved sections of the pipeline 1.

Thus, in comparison with the prototype, the rubber-cord casing 2 in the inventive device can be used several times (at least 10) when transporting along the pipeline 1 for at least 1000 km, which reduces the cost of performing work on sealing the inner cavity of the open end of the pipeline 1 when repairing the pipeline 1 .

The elastic ring-shaped centering bearings 8, in addition to the functions described above, perform the function of a scraper. The cuffs of the known scrapers / 4 /, fitting tightly against the wall of the pipeline, smear and rub the dirt into the wall, which makes it difficult to further clean them with brushes. Since the outer diameter of the elastic ring-shaped centering supports 8 is smaller than the internal diameter of the pipe 1, a gap is formed between them and the wall of the pipe, which does not smear the dirt along the wall of the pipe 1, but at the same time, the elastic ring-shaped centering supports 8 effectively remove dirt deposits on the wall pipeline 1. The flow of the pumping product through the gap further contributes to the cleaning of the wall of the pipeline 1.

Literature

1. USSR copyright certificate No. 1832879.

2. RF patent for the invention No. 2032124.

3. Instructions for closing the internal cavity of oil pipelines with tampons-sealants from the rubber-cord shell. RD-39-0147105-009-95. Ministry of Fuel and Energy of the Russian Federation. Academy of Sciences of the Republic of Bashkortostan. Institute for Energy Transport Problems.

4. Transport and storage of oil and gas. M .: Nedra, Authors: L.I. Tugunov, V.F.Novoselov, F.F.Abuzova et al., 1975, pp. 162, 248.

Claims (4)

1. A device for reusable sealing of the inner cavity of the open end of the pipeline, containing a rubber-cord casing connected to a gas pressure source using a hose on which a pressure gauge is installed to determine the pressure in the casing, carried outside the pipeline, a hose section connected to the casing, made with the possibility of disconnection from the hose and remaining inside the pipeline, characterized in that the shell is toroidal and hermetically enclosing a cylindrical body, hermetically sealed inside and, at each end of which at least two elastic ring-shaped centering supports are mounted coaxially with the shell, spaced apart from each other by a distance greater than the width of the wedge-shaped space of the pipeline valve, while the external diameter of the supports is smaller than the internal diameter of the pipeline, but larger than the external diameter of the toroidal shell not under gas pressure. 2. The device according to claim 1, characterized in that it contains a three-way valve mounted on a hose, placed outside the pipeline and located next to the pressure gauge. 3. The device according to claim 1 or 2, characterized in that the portion of the hose attached to the shell is configured to automatically retract into the cylindrical body when it is disconnected from the hose. 4. The device according to claim 1, or 2, or 3, characterized in that at its end there is a mechanism for automatic coupling with another device for sealing when moving them inside the pipeline.

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