SU1320679A1 - Device for tightness check of pipeline - Google Patents

Abstract

The invention relates to the monitoring of the tightness of a pipeline and allows it to expand its operational capabilities by providing control over the length of the pipeline sections and movement of the device without a special drive. The cylindrical body is made in the form of a bellows 13, on the ends of which there are hollow plugs 1 and 2, on which annular seals 11 and 12 are mounted. A spring 14 is fixed between plugs 1 and 2. Flexible pipes 15, 16, 17, 29 connect the source compressed gas with a bellows cavity 13, plugs 1, 2, cavity 28 between the outer wall of the bellows 13 and plugs 1, 2. Shut-off and drain valves are installed on all pipelines. After the pipeline 27, which is far from the source of compressed gas, is introduced into the test pipe, the plug 2 is sealed by feeding compressed gas into its cavity, then the latter is fed into the cavity of the bellows 13, as a result of which the free plug 1 is moved. in the direction of the source for a given distance. Zagludak 1 is sealed by supplying a compressed gas to its cavity and a leak test is performed by creating excessive pressure in the cavity 28. Alternately discharging and applying pressure in the cavity of the plugs 1.2 and the bellows 13 move the device along the test pipeline 27 with a predetermined pitch. 1 pe. (g SO about

Description

The invention relates to a testing technique and can be used to monitor the tightness of pipelines.

The purpose of the invention is to expand the operational capabilities by providing control over the length of the pipeline sections and moving the device without a special drive.

The drawing shows the scheme of the proposed device.

The device for testing the tightness of the pipeline contains plugs 1 and 2, consisting respectively of two disks and 5.6, connected by rigid straps 7 and 8 and flexible elements 9 and 10. The disks 3,4 and 5,6 are tightly attached (for example, radial annular seals 11 and 12 glued from an elastic material (e.g. rubber) are glued. The plugs J and 2 are connected by a bellows 13, inside of which a spring 14 is placed, attached to the disks 4 and 5. The internal cavities of the bellows 13 and plugs 1 and 2 are connected to a collector 18 connected through a locking device 19 with a source of compressed gas through flexible pipes 15-17. (not shown). The manifold 18 is provided with a pressure gauge 20. The pipes 15-17 are provided with shut-off valves 21-23 for supplying pressure and drain valves 24-26.

The plugs 1 and 2, the bellows 13 and the test pipeline 27 form a cavity 28, which is connected to the source of compressed gas by the supply pipe of the test medium in the form of a flexible pipe 29 with a shut-off valve 30 and a pressure indicator 31. A drain valve 32 is provided for pressure relief. A plug 33 of the position indicator (not shown) of the piston 1 is attached to the plug 3.

As valves 19, 21-26, 30 and 32, for example, manual valves or electrically controlled valves can be used, as compressed gas — for example, compressed air.

The device works as follows.

The plugs 1 and 2 are inserted into the test pipe 27. In the initial position, the annular seals 11 and 12 are not tightly pressed to the pipe wall.

the wires 27, the bellows 13 under the action of the spring 14 are in the compressed position, the gas pressure in all cavities and pipes is equal to atmospheric, all valves are closed,.

Open the locking device 13 and create in the collector 18 the necessary pressure of compressed gas P. Pressure control is made according to pressure indicator 20.

Open the shut-off valve-22 and create in the inner cavity plugs 1

With this flexible

0

pressure J element 9 is bent in radial

5 and tightly presses the seal 11 to the wall of the test pipeline 27.

Cushion 7 eliminates axial movement of discs 3 and 4. After creating

0 pressure in the internal cavity

bellows 1 and tight seal 11 against the wall of the pipeline 27, the friction between them increases significantly and the plug 1 is fixed

5 in line 27 from axial movement. In this case, the joint of the plug 1 and the pipeline 27 is sealed.

The shut-off valve 21 is opened and a pressure P is created in the inner cavity of the bellows 13. In this case, the bellows 13 expands and moves the plug 2 along the axis of the test pipeline 27. The movement is relatively easy, since

5, the seal 12 is loosely pressed against the wall of the pipeline 27 and its strength is about the pipeline 27 is small. The flexible pipe 17 also does not prevent the movement of the plug 2. The shut-off valve 23 is opened and the pressure plug P is created in the internal cavity of the plug 2. In this case, the flexible element 10 is bent in the radial direction and tightly presses

5, the seal 12 against the wall of the pipeline under test 27. In this case, the plug 2 is fixed in the pipeline 27 from axial movement and the joint between the plug and the pipeline 27 is sealed.

Open the shut-off valve 30 and create pressure 28 in cavity 28,.

A shut off valve 30 is closed, and a pressure drop in cavity 28 is judged over a certain period of time by 5 for tightness of the section of the test pipeline 27 between plugs 1 and 2. The pressure is controlled by

0

pointer 31 pressure. To more accurately determine the location of the leak, as well as to find very small leaks, a test gas (e.g., helium) is fed into the cavity-28, and the external surface of the test pipeline 27 is examined by a leak detector.

After a predetermined time has elapsed, pressure is released from cavity 28 by means of a drainage valve 32, after which it is closed. Close the drain valve 22. Close the shut-off valve 21, open the drain valve 24 and relieve pressure from the inner cavity of the bellows 13, after which the valve 24 is closed.

The drain valve 25 is opened and pressure is released from the inner cavity of plug 1. In this case, the force of pressing the seal 11 against the wall of the pipeline 27 and, accordingly, the force of friction between them is significantly reduced and plug 1 by the spring 14 is pulled to plug 2. The flexible pipes 15-17 and 29 practically do not interfere with the movement of the piston 1. Close the valve 25.

Open the shut-off valve 22 and create in the inner cavity plugs. 1 pressure P. In this case, it is fixed in the pipe 27, and the junction between them is sealed.

Close the shut-off valve 23, open the drainage valve 26 and collect 40.

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pressure is drawn from the inner lane - 35, the pipeline 29 and the flexible pipeline, such as plugs 2, and then valve 26 is closed.

The shut-off valve 21 is opened and a pressure P is created in the inner cavity of the bellows. The bellows 13 is then expanded and the bellows 2 is moved one more step along the axis of the pipeline 27.

Open the shut-off valve 23 and create in the inner cavity of the plug 2 pressure P. In this case, the plug 2 is fixed in the pipe 27, and the junction between them is sealed. I

The shut-off valve 30 is opened, a pressure P is created in the cavity 28 and the tightness of the next section of the pipeline 27 is checked. By moving the plugs 1. and 2 along the test line 27 in the described manner, its tightness is checked along the entire length. In case of detection of a leaking area using decree 50

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connected to the collector 18,

In the third version of the cart. H which is mounted collector 18, equipped with a mechanism for moving

Vozmolsen is also an option, when the cat is equipped with a moving mechanism to provide cables and cables that are needed behind the cart.

In addition, the design of the device may provide for installation on a cart with a mechanism for moving not only the collector, but also autonomous pressure sources. In this case, all device control is remote. The device is a completely autonomous mobile unit capable of operating fully automatically.

The proposed device has high functional and operational characteristics and ensures the position associated with the piston of the first 33, determines its position and takes measures to eliminate the leak.

The device can also be moved in the opposite direction along the test pipeline 27. For this, supply pressure in the cavities of plugs 1 and 2 and bellows 13 and release pressure

of these cavities are carried out in the reverse order of that described.

Various design options are possible. In one embodiment, the pipes 15-17 are long (w) along the length of the test pipe 27. In this case, valves 21-26 can be either electrically controlled or manual. The pressure gauge 20 can be either directly or remotely monitored. Behind the moving plugs 1 and 2 of the device, there are four flexible lines 15-17 and 29.

Alternatively, conduit 15-17 is short. In this case, the collector 18 is fixed on the plug 1 or mounted on a trolley attached to the plug 1,

All valves are electrically controlled, the pressure gauge is supplied with an external remote control device. Behind the moving plugs 1 and 2 tons of nuts flexible pipe

pipe 29 and flexible pipe

connected to the collector 18,

In the third version of the cart. On which the collector 18 is mounted, is provided with a displacement mechanism.

It is also possible that the movement mechanism is supplied with cables, which are needed behind the trolley.

In addition, the design of the device may provide for installation on a trolley with a mechanism for moving not only the collector, but also autonomous pressure sources. All device control in this case is remote. The device is fully autonomous mobile unit capable of fully automatic operation.

The proposed device has high functional and operational characteristics and makes it possible to accurately determine the location of a leak and to find very small leaks of any test gas (for example, gels) and a leak detector — to conduct tests at an operating pressure and even at a pressure slightly higher than the working, quantitative determination of the value of virtually any furnaces (large and small), the need to: fill with compressed gas only the tested part of the pipe under test at that time, as the main part of it is at atmospheric pressure and is not filled with either working or any other medium, a significant change in the force of pressing the elastic rings (its increase during leakage testing and decrease when the device is moved along the pipeline being tested), while the force required for moving the device along the conduit, and increasing the duty ratio of the elastic rings. In addition, the invention allows the device to be moved along the test pipeline without the use of any additional mechanisms.

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Formula of the invention The device for testing the tightness of a pipeline, comprising a cylindrical body, caps mounted on its ends, having cavities, two radial ring seals mounted on caps, a source of compressed gas connected by pipelines to the cavity of the caps, supply line test medium connected to the cavity formed by the outer wall of the cylindrical body and plugs, characterized in that

expanding operational capabilities by providing control over the length of the pipeline sections and moving the device without a special drive, the casing is made in the form of a bellows, the pipeline connecting the source of compressed gas with the plug located farther from it, is made flexible, the cavity is 25

the background is connected by a pipeline with a source of compressed gas, each pipeline is made with shut-off and drain valves, and the device is equipped with a spring fixed on the plugs.

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Editor A. Ogar

Compiled by L.Vihl ev

Tehred M. Khodanich Proofreader A. Zsh-YUKOSOE

Order 2650/45 Circulation 776 Subscription

VNISh State Committee of the USSR

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

. Production and printing company, Uzhgorod, Projecto st., 4

Claims (1)

Claim A device for checking the tightness of the pipeline containing a cylindrical body, mounted on At its 5 ends, there are plugs having cavities, two radial ring seals mounted on the plugs, a compressed gas source connected by pipelines to the plug cavities, a supply medium for the test medium connected to the cavity formed by the outer wall, a cylindrical body and plugs, characterized in that, with the aim 15 expanding operational capabilities by providing control of length-adjustable pipeline sections and moving the device without a special drive, the housing is made in the form of a bellows, the pipeline connecting the compressed gas source with a plug located further from it is flexible, the bellows cavity is connected by a pipeline with a source compressed gas, each pipeline is made with shut-off and drain valves, and the device is equipped with a spring mounted on plugs.