RU192203U1 - Sealing device with installation and extraction through plungers, for closing the internal cavity of pipelines - Google Patents

Abstract

The utility model relates to sealing devices for temporarily blocking the internal cavity of pipelines from oil vapor or oil product with the ability to install and remove two elements that expand in place, and can be used for repair and restoration work on pipelines. The device includes two sealing elements, a pressure and vacuum control unit, a housing with a connected input and output pipe, the main and duplicating sealing elements are placed in the input and output pipe connected to the guide tubes, while the guide tubes in the upper part contain connection units with pressure gauges , the pressure and vacuum control unit is located in the upper part of the input and output pipes with the possibility of measuring pressure and vacuum between the sealing elements when they are installed in the working position in the floor the spine of the pipeline, and the housing at the bottom contains a flange. The technical result of the utility model is to increase the reliability of pipeline sealing.

Description

The utility model relates to sealing devices for temporarily blocking the internal cavity of pipelines from oil vapor or oil product with the possibility of installing and removing two sealing elements expanding in the cavity of the pipeline, and can be used for repair and restoration work on pipelines.

A device is known “Pneumatic sealing cylinder for temporary closure of pipelines” (patent RU 50277 U1, publication 12/27/2005, IPC F16L 55/12, E03F 7/02) which relates to construction and is used during emergency recovery and repair work on gas pipelines and oil pipelines under pressure. The utility model solves the problem of constant pressure control inside the device, the ability to automate the maintenance of a given pressure and increase the reliability of pipeline sealing during basic and gas hazardous work on gas and oil pipelines. The solution to this problem is achieved by the fact that the pneumatic sealing cylinder fixed in the pipe by supplying pressurized air to the elastic cylindrical sealed chamber through a flexible inlet hose connected to the compressor is equipped with an additional flexible outlet pipe.

The invention is known "Device for blocking the internal cavity of the pipeline" (patent RU 2187744 C2, publication 20.10.2000, IPC F16L 55/32) related to pipeline transport and can be used to block the pipeline, especially during emergency recovery work, in particular when replacement of damaged areas. The purpose of the invention is to increase the efficiency of the device by increasing the reliability, tightness and reducing its size. This goal is achieved in that the metal frame is made in the form of a coil with blind flanges and is equipped with an elastic chamber, and on the outer surface of the latter there are friction pads articulated by means of levers with a coil. Tightness is achieved due to the pressure inside the device, which slightly exceeds the overpressure in the pipeline. The device is held from longitudinal movement by means of friction pads pivotally connected to a metal coil. This device requires the installation of a pipe with large diameters of the hole and pipe. Overlap of the internal cavity occurs with one sealing element.

The invention is known "Method for the liquidation of an accident on a technological pipeline" (patent RU 2241170 C2, publication 20.06.2004, IPC F16L 55/103), intended for sealing pipelines during repair and restoration work, according to which the damaged section is cut off from the rest of the pipeline without removal from it a product artificially created by temporary plugs of solid carbon dioxide (dry ice). New in the invention is the operation of cutting off the damaged section from the entire pipeline with special plugs, which are created by phase transition of carbonic anhydride from liquid to solid.

The closest analogue to the utility model is an elastic sealant for an oil pipeline, disclosed in patent RU 180820 U1 (publication June 25, 2018, IPC F16L 55/10). An elastic sealant for an oil pipeline contains a cylindrical flexible shell, a pressure and vacuum control unit. The elastic sealant also includes a pressure and pressure control line consisting of a pressure injection tube and a pulse tube. In this case, the cylindrical flexible shell consists of external and internal chambers. The pressure and vacuum control unit includes a pressure gauge, a manovacuum meter, a pressure gauge configured to pump liquid into the impulse tube, and shut-off valves for pumping pressure into the cylindrical flexible shell and to pump liquid into the impulse tube. Part of the impulse tube passes inside a cylindrical flexible shell. The technical result of the utility model is to provide pressure and vacuum control at the site of repair work.

When using the above devices, one sealing element (pneumatic, mechanical or cork from various chemical compositions) is used to overlap the internal cavity of one end of the pipeline with installation through the open end of the pipeline, for the chemical compositions of the hole or nodes of the introduction of the composition and the need for their transportation through the pipeline. Also, on a blocked section of the pipeline, pressure or vacuum control is required, for which control technological holes with a diameter of 12 mm are prepared at a distance of at least 40 m from the sealing point with the further elimination of the hole with a chop. This complicates the technology of sealing the pipeline during repairs and requires additional time and makes it difficult to control the pressure or vacuum in the working area of the pipeline.

The disadvantages of the above devices are:

- unreliability of overlapping by one sealing element in case of damage, loss of tightness due to the influence of excess pressure or vacuum above the operating range of the device and, as a result, the need to stop scheduled work to restore operability or reinstall a new sealant;

- the need to control excess pressure or vacuum through the technological hole at a distance of not less than 40 m from the place of work complicated by cramped conditions;

- a decrease in the quality of the pumped medium due to the need to transport the sealing element through the pipeline, the impact on the uninterrupted operation of the mechano-technological equipment of the oil pumping / oil product pumping station (hereinafter referred to as LPS) when the sealant is received by the filtering units of the LPS

- the effect of chemical composition when washing off the cork on the pumped medium.

The technical problem of the proposed technical solution is to improve the technology of sealing the pipeline during repair work, with the following tasks:

- safe emergency repair work by shutting off the internal cavity of the pipeline with two sealing elements using an input and output device of sealing elements through plungers (pipes, tees or fittings) with control of excess pressure or vacuum between the sealing elements;

- preservation of the quality of the oil product during emergency recovery operations with depressurization of the pipeline due to the installation and removal through the plungers of sealing elements that are resistant to oil and oil products, including jet engine fuel.

The technical result of the utility model is to increase the reliability of pipeline sealing.

The indicated technical problem, which is aimed at solving the utility model, is solved, and the technical result is achieved by the fact that the sealing device includes a main sealing element, a pressure and vacuum control unit, while it contains an input and output pipe installed in the housing, a duplicating sealing element, and guide tubes duplicating and main sealing elements, connected respectively to the main and duplicating sealing elements, while sealing elements and guides the tubes are placed inside the inlet and outlet pipes, the pressure and vacuum control unit is located in the upper part of the inlet and outlet pipes with the possibility of measuring pressure and vacuum between the sealing elements when they are installed in the working position in the cavity of the pipeline, each of the guide tubes in the upper part contains the connection unit with a pressure gauge, and the housing at the bottom contains a flange.

The development and refinement of the proposed utility model are the following features:

- the input and output pipe contains a section of the input and output pipes;

- the inner cavity of the input pipe section is symmetrically divided by a partition with the formation of two parts for placement and movement of the main and duplicate sealing elements;

- the lower part of the partition is made in the form of a bell;

- the lower part of the input-output pipe section is made with oval-shaped cutouts;

- the input and output pipe is made with the possibility of axial movement inside the housing;

- the main and backup sealing elements are made of elastic and oil-resistant material.

The claimed utility model is illustrated by the following drawings:

in FIG. 1 shows a General view of the sealing device in position before installing the sealing elements;

in FIG. 2 is a view of the sealing device in position with the main sealing element installed;

in FIG. 3 view of the sealing device in the working position, the main and duplicate sealing elements are installed;

in FIG. 4 is a view of a section of an input and output pipe with a partition.

In FIG. 1-4 the following items are indicated:

1 - housing;

2 - pipe input and output;

3 - the main sealing element;

4 - duplicate sealing element;

5 - guide tube of the main sealing element;

6 - guide tube of the backup sealing element;

7 - connection node with a pressure gauge of the main sealing element;

8 - connection unit with a manometer of the backup sealing element;

9 - node control pressure and vacuum;

10 - pipeline;

11 - plunger;

12 - a partition;

13 - a flange;

14 - cutout oval;

15 - bell;

16 - section of the pipe input and output;

17 - seal assembly

The sealing device (Fig. 1) is mounted on the plunger 11 using a flange connection. The sealing device includes a housing 1 with an input and output pipe 2 assembled with the main 3 and duplicating 4 sealing elements, on which there is a pressure and vacuum control unit 9, consisting of shut-off valves and a pressure gauge.

The input and output pipe 2 is installed in the housing 1 through the seal assembly 17, with the ability to move along the axis relative to each other according to the principle of a telescope.

The input and output pipe 2 contains a section of the input and output pipe 16 (Fig. 4), the upper end of the input and output pipe section 16 is fixed by a flange 13 to the input and output pipe 2, and the lower end contains oval cutouts 14 with a bell 15 for positioning and the direction of the main 3 and backup 4 sealing elements (Fig. 3) to the exit through the corresponding cutouts of the oval shape 14.

The section of the input and output pipes 16 in the inner cavity is symmetrically divided by a partition 12 for placement and movement of the main 3 and duplicating 4 sealing elements in it.

The sealing elements of the main 3 and the backup 4, consisting of an elastic and oil-resistant material, are connected to the guide tubes 5 and 6, respectively, which serve to guide the sealing elements 3, 4 in the inner cavity of the inlet and outlet pipe section 16 and to supply the working gas medium to the sealing elements 3 and 4.

The guide tubes 5 and 6 have connection units with pressure gauges 7 and 8 for connecting sources of a working gas medium, forcing, discharge and monitoring the gas medium in sealing elements 3 and 4.

The principle of operation of the sealing device is given below.

At the site of the emergency repair work with the notch of the coil, to close the inner cavity of one end of the pipeline 10, one sealing device is used, which is installed on a newly mounted or existing plunger 11.

Thus, to ensure the overlap of the two ends of the pipeline 10 at the same place of work requires two sealing devices with installation through plungers.

Before installation on the plunger 11, the sealing device is prepared, the sealing elements 3 and 4 are threaded into the input and output pipe 2, each separately divided into 12 parts in the section of the input and output pipe 16, the guide tubes 5 and 6 are removed from the input and output pipe 2, and the tightness of the cavity between the housing 1 and the inlet and outlet pipe 2 is provided by the seal assembly 17 (stuffing box).

After releasing the pipeline 10 from the pumped medium, cutting the coil (shutoff valves) and preparing the inner surface of the pipeline 10, the sealing device is installed on the plunger 11 with the shut-off valve of the plunger closed. The shutoff valves of the plunger 11 are opened, the input and output pipe 2 is manually inserted into the internal cavity of the pipeline 10, then the main sealing element 3 is inserted into the internal cavity of the pipeline using the guide tube 5 and is positioned closer to the working area of the pipeline due to the presence of a bell 15.

To pressurize the main sealing element 3, a compressor or a source with a working gas medium under pressure is connected to the connection unit with a pressure gauge of the main sealing element 7. The installation of the inlet and outlet pipes 2, the inlet and injection of the working gas medium in the main sealing element 3, its positioning and its closure of the internal cavity of the pipeline 10 are controlled from the open end of the pipeline and by the pressure gauge located on the connection unit of the main sealing element 7. After checking the tightness of the main the sealing element 3 begin to enter the backup sealing element 4 using the guide tube 6 and the socket 15, duplicating the sealing element 4 is positioned reaches the open end of the pipeline 10 and the working gas medium is pumped into it through the connection unit with a pressure gauge of the backup sealing element 8. The control of the working gas medium in the backup gas sealing element 4 is provided by a pressure gauge, which is located on the connection site of the pressure gauge of the backup sealing element 8.

After checking the tightness of the duplicate sealing element 4, proceed to control the tightness of the pipeline shut-off (measurements MPC content of hydrocarbon vapor) to determine the feasibility of hot work. During the repair work, the working pressure of the gas medium is mainly monitored, mainly 3 and duplicating 4 sealing elements according to manometers 7 and 8, the presence of pressure or vacuum between the sealing elements is monitored by a vacuum gauge and, if necessary, pressure is relieved or the vacuum is removed through the shutoff valves of the assembly pressure and vacuum control 9.

After completion of the repair work, the removal of the sealing elements 3 and 4 is carried out in the reverse sequence using a vacuum pump (not shown in Fig.) To discharge the working gas medium of the sealing elements 3, 4.

The use of the proposed sealing device with installation and removal through the plungers 11, provides control of the pressure level and / or the vacuum value in the cavity between the sealing elements 3 and 4, thereby ensuring reliable sealing of the internal cavity of the pipeline and increasing the level of safety of work, while maintaining quality product and uninterrupted operation of the mechano-technological equipment of the NPS due to the lack of the need to transport sealing elements through the pipeline.

Claims (7)

1. A sealing device comprising a main sealing element, a pressure and vacuum control unit, characterized in that it comprises an input and output pipe installed in the housing, a duplicating sealing element, guide tubes of the duplicating and main sealing elements, connected respectively to the main and duplicating sealing elements while sealing elements and guide tubes are placed inside the input and output pipes, the pressure and vacuum control unit is located in the upper part of the pipe ode and output with the possibility of measuring pressure and vacuum between the sealing elements when installing them in the working position in the cavity of the pipeline, each of the guide tubes in the upper part contains a connection unit with a pressure gauge, and the housing in the lower part contains a flange. 2. The sealing device according to claim 1, characterized in that the input and output pipe contains a section of the input and output pipes. 3. The sealing device according to claim 2, characterized in that the internal cavity of the input and output pipe section is symmetrically divided by a partition with the formation of two parts for placement and movement of the main and duplicate sealing elements. 4. The sealing device according to p. 3, characterized in that the lower part of the partition is made in the form of a bell. 5. The sealing device according to claim 2, characterized in that the lower part of the input and output pipe section is made with oval-shaped cutouts. 6. The sealing device according to claim 1, characterized in that the input and output pipe is made with the possibility of axial movement inside the housing. 7. The sealing device according to claim 1, characterized in that the main and duplicate sealing elements are made of elastic and oil-resistant material.

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