RU204536U1 - Sealer for technological pipelines of oil pumping stations and tank farms - Google Patents

Abstract

The utility model is intended for sealing during repair work of technological pipelines of oil pumping stations (OPS) and tank farms (RP). The technical result of the utility model is to provide the possibility of removing the dock seal from the inner cavity of the process pipelines after repair work. The hermetic sealer is made in the form of a closed elastic shell, consisting of a cylindrical and two end walls, with a reinforcing rubber-cord frame inside the walls. The hermetic sealer is equipped with mounting ends led out through the technological hole in the longitudinal part of the pipeline for connection to a pulling device for removing the hermetic seal. In one of the mounting ends, a pneumatic line is fixed, at the outer end of which there is a fitting for supplying compressed air. Reinforcing rubber-cord frame is a rubber cord placed over the entire surface inside the walls of the dock shelter in a spiral, and the ends of the rubber cord are installed in the mounting ends. In this case, the rubber cord is placed in the walls of the sealant in a spiral with a pitch, the width of which does not exceed the diameter of the technological hole, and the wall thickness of the sealant in the sections between the spiral turns of the rubber cord is less than the diameter of the cord. 2 ill.

Description

The utility model is intended for sealing during repair work of technological pipelines of oil pumping stations (OPS) and tank farms (RP).

When carrying out repair work on main oil pipelines and oil product pipelines for their reliable sealing in order to prevent the release of flammable gases, oil and oil vapors, the following devices are known: rubber-cord dock (GRK), designed to temporarily close the inner cavity of an emptied oil pipeline during planned and emergency recovery operations, performed by replacing the "coil" of the pipeline, a pneumatic plugging device (PZU), which is a hydraulic seal for shutting off a pipeline, a functional universal sealing device (FUGU) with replaceable disposable sealing shells, designed to close the internal cavity of main oil pipelines. All of the above devices GRK, ROM, and FUGU are used to seal the internal cavity of the pipeline, and after repair work and welding, the "coils" remain inside the pipelines of the linear part of the main oil pipelines (LPM), and are subsequently removed through the chamber for receiving cleaning and diagnostic tools.

The above devices cannot be used in technological oil pipelines of PS and RP due to the impossibility of removing them from the pipeline cavity after repair work.

The main method, widely used in repair work on technological pipelines of PS and RP, is packing clay plugs (tampons) (for example, "Device for sealing the pipeline cavity" under the patent for invention RU 2176354 C1, IPC: F16L 55/10, F16L 55 / 16, publ. 27.11.2001). The main disadvantage of using the known device is the contamination of pipelines and equipment of PS and RP after erosion of clay plugs, which reduces the service life of the equipment and leads to the need for additional cleaning and repair. The use of a clay swab during repair work increases the total time of repair work, and, accordingly, the time of stopping the operation of the technological pipeline.

From the prior art, elastic shells are known for hermetically sealed pipeline (patent for invention RU 2484357 C1, IPC F16L 55/12, publ. 06/10/2013, utility model patent RU 116960 U1, IPC F16L 55/12, publ. 06/10/2012) containing a cylindrical, two end parts, a connection for supplying compressed air and a group of sealing annular protrusions on the outer surface of the cylindrical part.

A damping device is also known from the prior art (patent for invention RU 2636958 C2, IPC F16L 55/134, F16J 15/46, publ. 11/29/2017), consisting of a cylindrical and two end walls, a pipe fitting, an inner sealing chamber, an outer rubber a shell with annular rubber projections and a reinforcing rubber-cord frame located between the inner sealing chamber and the outer rubber shell. The device contains two main layers of rubber-cord fabric on the cylindrical wall of the damping device, separate radially directed rubber-cord strips on the end walls of the device. The sealing annular rubber projections with a triangular cross-section of radius R smoothly transition to the outer rubber sheath.

The disadvantage of the devices known from the prior art is the impossibility of using them in the repair of technological pipelines, since they cannot be removed from the cavity of the pipeline after the repair work.

The technical task of the proposed solution is the development of a device for sealing technological pipelines of PS and RP, eliminating the disadvantages of known analogues.

The technical result of the utility model is to provide the possibility of removing the dock seal from the inner cavity of the process pipelines after repair work.

The solution to the problem and the specified technical result is achieved by the fact that the sealant for the process pipelines of the PS and RP is made in the form of a closed elastic shell and consists of a cylindrical wall and two end walls. The hermetic sealer contains a reinforcing rubber-cord frame located in its walls, a pneumatic line fixed in an elastic sheath, at the outer end of which there is a fitting for supplying compressed air. The hermetic sealer is equipped with mounting ends made with the possibility of being connected to a pulling device for removing the hermetic sealer from the process pipeline and designed to be led out into the process opening made in the longitudinal part of the process pipeline. In this case, the reinforcing rubber-cord frame is a rubber cord placed in the walls of the dock sealer in a spiral. The ends of the rubber cord are installed in the mounting ends, in one of which the end of the pneumatic line with a fitting for supplying compressed air is installed. The rubber cord is placed over the entire surface inside the wall of the sealant in a spiral with a pitch, the width of which does not exceed the diameter of the technological hole, and the wall thickness of the sealant in the areas between the spirals of the rubber cord is less than the diameter of the cord.

The utility model is illustrated by drawings (Fig. 1, 2), where Fig. 1 shows the dock seal in longitudinal section, FIG. 2 shows a general view of the dock shelter.

In the drawings, the positions have the following numerical designations:

1 - cylindrical wall of the sealant;

2 - end wall of the dock seal;

3 - connection for compressed air supply;

4 - rubber cord;

5 - mounting ends;

6 - a section of the dock wall between the turns of the rubber cord spiral.

The claimed sealant is designed to temporarily block the internal cavity of the pipeline, emptied of oil, in order to prevent the release of flammable gases, oil and its vapors during repair and restoration work performed by cutting a coil or a section of a pipeline with a defect on the process pipelines of oil pumping stations and tank farms.

The hermetic sealer ensures the safety of repair and restoration work when it is installed into the internal cavity of the pipeline through the open ends of the pipe after cutting out the defective section of the pipeline ("coil", valve or connecting piece). During the cycle of sealing the internal cavity of the pipeline, the elastic shell of the sealant with a reinforcing rubber-cord frame is under the influence of excessive internal pressure of compressed air and external static pressure in the event of the appearance of oil, explosive (combustible) gases or vacuum in the cut-off section of the pipeline.

The hermetic sealer for process pipelines of PS and RP contains a closed elastic shell and consists of a cylindrical wall 1 and two end walls 2. The hermetic sealer has mounting ends 5 installed on the cylindrical wall 2, intended for connection to a pulling device (not shown in the drawing) for removing the sealant from technological pipeline after repair work. The pulling device can be, for example, a drum-type hand winch or an explosion-proof electric winch. Mounting ends 5 are designed to lead out into the technological hole, made in the longitudinal part of the process pipeline.

In one of the mounting ends 5, a pneumatic line is fixed (not shown in the drawing), at the outer end of which there is a fitting 3 for supplying compressed air, intended for pumping the dock seal and maintaining the working pressure during work. The placement of the end of the pneumatic line with the nozzle 3 for supplying compressed air in one of the mounting ends for removing the dock seal eliminates the need to make additional holes in the longitudinal part of the pipeline.

The hermetic sealer contains a reinforcing rubber-cord frame located in its walls, which is a strong rubber cord 4, which serves to reinforce the walls of the sealant and prevent the strip of the elastic sheath from breaking when the sealant is pulled through the technological hole. The ends of the rubber cord 4 are installed in the mounting ends 5. The rubber cord 4 is placed over the entire surface inside the walls of the dock in a spiral with a predetermined pitch. The pitch width between two adjacent turns of the spiral of the rubber cord 4 does not exceed the diameter of the technological hole to enable the sealant to be removed through the specified hole. At the same time, the wall thickness of the sealant in the sections 6 between the spiral turns of the rubber cord 4 is less than the diameter of the cord 4, which ensures the convenience of cutting and prevents biting of the material from which the elastic casing is made when cutting it with cutting knives during the process of removing the sealant through the technological hole after repair work ...

The claimed device operates as follows.

When installing a sealer for technological pipelines, as well as with other types of sealing, the defective section of the pipe is cut out, the internal cavity of the pipeline is steamed, wax, oil residues, mud deposits and large scale are removed to a metallic sheen.

Further, at the installation site of the dock, mainly in the upper generatrix of the longitudinal part of the process pipeline, a technological hole with a diameter of 30-100 mm is drilled, the sharp edges of the process hole are processed from metal shavings and burrs, in order to avoid damage to the dock during its installation, operation and removal.

Then the sealer is installed in a deflated state through the open end of the pipeline formed after cutting out the defective section. In this case, the mounting ends 5 for removing the dock sealer with the ends of the rubber cord 4 and the pneumatic line with the connection 3 for supplying compressed air are brought out into the technological hole with a diameter of 30-100 mm, made in the longitudinal part of the process pipeline.

After installing the dock in the cavity of the pipeline, compressed air is supplied to the dock through the pneumatic line until the working pressure controlled by the manometer is reached and the tightness of the section of the process pipeline being closed is achieved. Next, they begin to carry out repair work.

At the end of the repair work on the process pipeline and welding of the pipeline coil, the pressure in the sealant is released and it is started to extract it. The principle of retrieving the dock consists in gradually cutting it along the portion 6 of the canal wall between the spirals of the rubber cord 4 and pulling it out through a pre-drilled technological hole in the pipeline. For this, cuts are made under the mounting ends 5 to accommodate the cutting knives. Next, the cutting knives are installed and a pulling device is mounted on the pipeline to extract the sealant. Then, the mounting ends 5 are inserted into the drum of the pulling device for extraction, and the cut strip of the elastic casing with the rubber cord 4 inside is gradually wound onto the drum of the pulling device. When wound, the dock rotates freely around its longitudinal axis.

After complete removal of the dock, the pulling device and cutting knives are dismantled from the process pipeline, and the process hole is welded. The removed strip of elastic casing with rubber cord 4 inside is unwound from the drum of the pulling device and the length of the strip is measured to ensure that the dock seal is completely removed.

Thus, the application of the claimed utility model makes it possible to extract the sealant from the inner cavity of the process pipelines after repair work, which leads to an increase in reliability, acceleration of the process of sealing the process pipelines of the PS and RP and reducing the possibility of contamination of the pipelines and equipment of the PS and RP during the sealing process.

Claims (1)

A hermetic sealer for technological pipelines of oil pumping stations (OPS) and tank farms (RP), made in the form of a closed elastic shell, consisting of a cylindrical and two end walls, and containing a reinforcing rubber-cord frame located in the walls of the sealant, a pneumatic line fixed in an elastic sheath, at the outer end of which a fitting for supplying compressed air is installed, characterized in that the dock is equipped with mounting ends made with the possibility of being connected to a pulling device for removing the dock from the process pipeline and designed to be led out into the process hole made in the longitudinal part of the process pipeline, while the reinforcing rubber-cord frame is a rubber cord placed in the walls of the dock shelter in a spiral, and the ends of the rubber cord are installed in the mounting ends, in one of which the end of the pneumatic line with a union for supplying compression is installed air, while the rubber cord is placed over the entire surface inside the wall of the sealant in a spiral with a pitch, the width of which does not exceed the diameter of the technological hole, and the wall thickness of the sealant in the areas between the spiral turns of the rubber cord is less than the diameter of the cord.

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