RU189478U1 - Device for a tight overlap of the internal cavity of the pipeline or pipeline - Google Patents

Abstract

The utility model can be used in the repair of oil product pipelines, oil pipelines, other pipeline networks and refers to the means for stopping the flow from pipes or into pipes by introducing into the pipe an element expanding in place. The device for hermetic overlapping of the inner cavity of the pipeline contains a closed hermetic inflatable casing (1) made on the basis of an elastic synthetic fabric (2) with a polyurethane coating (3) and (4) of thermoplastic polyurethane applied on both sides of the fabric (2). A sealing belt (5) of polyurethane elastomer with ribs (6) running along its length is attached to the outer surface of the shell (1). The belt (5) passes along that part of the shell (1), which, when inflated, comes into contact with the wall of the pipeline. In the shell (1) there is a fitting (7) for supplying gas to it. The shell (1) is made on the basis of elastic synthetic fabric (2) with a breaking load of at least 300 daN / 5 cm in the longitudinal and transverse directions and with a resistance to tearing of at least 35 daN in the longitudinal direction and 30 daN in the transverse direction. The device for hermetic overlapping of the internal cavity of the pipeline achieves its oil and petrol resistance, slow-burning, frost resistance up to -60 degrees C. 3 hp f-ly, 1 ill.

Description

The utility model can be used in the repair of oil product pipelines, oil pipelines, other pipeline networks and refers to the means for stopping the flow from pipes or into pipes by introducing into the pipe an element expanding in place.

A device is known for hermetic sealing of the internal cavity of an oil pipeline or oil product pipeline (RF patent # 121892, IPC F16L 55/00, publication 10/11/2012), which contains a closed inflatable shell, to the outer surface of which a reinforcing wall is attached, while the device has an opening for feeding expanding medium in an inflatable shell. The material of the inflatable casing is a thermoplastic polyurethane film, for example, the Vitour brand (Russia) 900 microns thick, and the reinforcing wall material is a polyurethane elastomer. The reinforcing wall of polyurethane elastomer serves to mechanically strengthen the shell of a thermoplastic polyurethane film and protect it from external damage. The reinforcing wall is made of polyurethane thermoplastics or of polyurethane thermoset plastics. The wall thickness is chosen depending on the diameter (with a pipeline diameter of up to 300 mm, the wall thickness can be 8 mm, and with a pipeline diameter of 300 mm and more, a wall thickness of 13 mm). On the outer surface of the reinforcing wall, sealing protrusions (fins) are enclosed, encircling the casing in the place of its contact with the walls of the pipeline and forming a sealing belt.

The material of the shell and its reinforcing wall, made on the basis of polyurethane, is slow-burning, oil- and petrol-resistant, ensures the device's performance in the conditions of the Far North, as it retains its strength and elasticity at ambient temperatures down to -60 degrees C. However, due to a considerable thickness of the reinforcing wall and, as a result, poor flattening of the shell in a flattened form, this device is difficult or even impossible to install through a plunger (a lateral branch pipe installed perpendicular to to the pipeline axis, with a plunger valve, having one side for welding, and the other flanged or having flanges on both sides). Therefore, to install this device in the pipeline, block the segment of the pipeline on which the section being repaired is located, with two standard valves, and release this segment from the product being pumped (oil or oil products). Since the distance between the valves in the pipeline that cut off the flow of oil / oil products in this section of the pipeline can be several tens of kilometers, it is necessary to carry out significant work to free it from oil or oil products. After that, a cutting of the pipe section being repaired (“coils”) is made. In one of the holes formed in the cross section of the pipeline, put the first device for a tight ceiling, and in the second hole - another one such device. Both devices are connected to a source of compressed gas (air) and inflated. The devices expand and seal the open ends of the pipeline. Then, a new section of the pipeline is installed, gas (air) is drained from the devices for hermetic shut-off, the valves on the pipeline are opened and the pumping of oil or oil products is resumed.

In the flow of the product being pumped, the sealing devices are moved to a special chamber for receiving cleaning, diagnostic, separation and sealing devices. Installation of the device according to the patent of the Russian Federation # 121892 is laborious and costly. In addition, moving erratically after use through the pipeline to the receiving chamber, the device hits its walls and separates scale, rust, deposits from them, littering the medium being pumped through the pipeline. In the case of transfer of light aviation fuel such clogging is particularly undesirable.

Known inflatable shell (pneumoblocking) brand CTS company Ravetti (Ravetti), Italy (http://www.mtools.ru/component/jshopping/product/view/72/159?ltemid=0, designed for the tight overlap of the internal cavity of the drain pipe when conducting hydraulic tests, chosen for the closest analogue (prototype). The inflatable shell includes an elastic synthetic fabric coated with a plastic polymer (polyvinyl chloride), welded into a closed shell by hot welding. In the flat form, the inflatable shell is a soft bag with In order to better seal, two rubber sealing belts are attached to the inflatable shell, covering the part of the shell that touches the pipe wall when it is inflated (i.e., the belts are attached to the cylindrical surface along the circumference of the inflated shell.) On the outer surface of each belt there are ribs running along the belt length.

Due to the fact that this shell in the deflated form is a soft bag, it can be easily installed in the pipeline through the plunger.

But this sealing device is not oil- and petrol-resistant, combustible and loses its strength and elasticity at low ambient temperatures (for example, it is inoperative in the conditions of the Far North at air temperatures down to -60 degrees C).

The task of the utility model is to expand the field of use of the device for hermetically sealing the internal cavity of a pipeline with an inflatable casing based on synthetic fabric with a polymer coating for oil pipelines or oil pipelines, including for use in the Far North at air temperatures down to -60 degrees C.

The technical result is to achieve its fire retardancy, oil and petrol resistance, cold resistance up to -60 degrees C.

As the closest analogue (prototype), the device for hermetic overlapping of the inner cavity of the pipeline contains a closed hermetic inflatable shell made on the basis of an elastic synthetic fabric with a polymer coating, while at least one sealing belt is attached to the outer surface of said shell with at least one edge running along its length, encircling that part of the shell that, when inflated, touches the wall of the pipeline, and in the said shell there is a hole for the bottom and gas into the inflatable jacket.

In contrast to the closest analogue, this shell is made on the basis of a fabric with a breaking load of at least 300 daN / 5 cm in the longitudinal and transverse directions and resistance to tearing of at least 35 daN in the longitudinal direction and 30 daN in the transverse direction, while The sides of this fabric are coated with thermoplastic polyurethane, and the sealing belt is made of polyurethane elastomer.

In particular cases of use of the claimed device, said coating can be from 0.1 mm (100 microns) to 1.5 mm (1500 microns) thick, which, on the basis of experimental data, is preferable.

Elastic synthetic fabric can be a polyester fabric.

Elastic synthetic fabric can also be aramid fabric.

The device is depicted in the figure with the following notation:

1 - closed hermetic inflatable shell,

2 - elastic synthetic fabric,

3 - a coating of thermoplastic polyurethane,

4 - coating of thermoplastic polyurethane,

5 - sealing belt,

6 - edge on the sealing belt,

7 - a hole for supplying gas (air).

The device for the sealed overlapping of the pipeline contains a closed hermetic inflatable casing 1. As a basis, the casing 1 contains an elastic synthetic fabric 2 with a breaking load of at least 300 daN / 5 cm in the longitudinal and transverse directions and with a resistance to tear at least 35 daN in the longitudinal direction and not less than 30 daN in the transverse direction.

In the preferred embodiment, the base material 2 may be aramid fabric, for example, Kevlar brands, or polyester fabric, for example, polyester.

Said elastic synthetic base fabric 2 has a coating on both sides of a thermoplastic polyurethane elastomer (positions 3 and 4 in the figure). The polyurethane coating 3 and 4 may be applied to the fabric 2 by any known method, for example, by casting, molding, spraying.

The preferred thickness of the coating 3 and 4 on each side is from 0.1 mm to 1.5 mm. Within these limits, there is an optimal combination of the crushability of the shell 1, sufficient for its passage through the plunger in a gas-free form and its strength.

The shell can be designed in such a way that, filled with gas, it has the shape of a cylinder, a ball or a ring (in particular, a torus), depending on the specific conditions of the tight closure of the pipeline.

At least one sealing belt 5 is attached to the surface of the shell 1 with at least one edge 6 running along its length, which facilitates sealing. To improve the sealing, there can be several belts 5 and ribs 6. The sealing belt 5 encircles the shell in that part of it which, when inflated, touches the wall of the pipeline. For example, if, when inflated, the shell takes the form of a cylinder, then the belt 5 may be located around the circumference of the cylindrical surface of the shell; if the shape of the ball is around the circumference of the ball, if the shape of the ring (torus), then around the circumference of the outer surface of the ring (torus).

The sealing belt 5 is made of polyurethane elastomer (thermoplastic or thermoset) and is attached to the inflatable shell by any known method, for example, by casting or molding.

Shell 1 has an opening 7 for supplying gas to the inflatable shell 1. In the specific design, gas is supplied to the inflatable shell 1 by a fitting to which a hose (not shown) connected to a compressed air source (not shown) is connected.

The device works as follows. A segment of the pipeline, on which the repair section is located, is covered with regular valves. Shell 1, unfilled with gas and representing in this form a soft, easily wrinkled bag, is placed in a pre-installed plunger in a pipeline (not shown) on one side of the section being repaired. The same is done on the other side of the repaired area. Both shells 1, installed at the edges of the repaired area, connected to a source of compressed gas (air) and inflate. Shell 1 seal the cavity of the pipeline.

Then the repaired area between shells 1 is emptied of oil or oil product. Then the section is repaired. After the repair, shells 1 are blown off and removed from the pipeline through the corresponding plungers.

The inventive device achieves its oil and petrol resistance, low inflammability, frost resistance up to -60 degrees C. Moreover, the device does not clog the oil product pipeline or oil pipeline after its use and does not require time-consuming and time-consuming multi-kilometer emptying of the oil pipeline or oil product pipeline before its installation.

Claims (4)

1. Device for a tight overlap of the inner cavity of the pipeline, containing a closed hermetic inflatable sheath, made on the basis of elastic synthetic fabric with a polymer coating, while at least one sealing belt with at least one edge along its length is attached to the outer surface of the said shell encircling that part of this envelope which, when inflated, comes into contact with the wall of the pipeline, and on said envelope there is an opening for supplying gas to it, a different one that the casing is made on the basis of a fabric with a breaking load of at least 300 daN / 5 cm in the longitudinal and transverse directions and with a tear resistance of at least 35 daN in the longitudinal direction and 30 daN in the transverse direction, with both sides of a coating of thermoplastic polyurethane, and the said sealing belt is made of polyurethane elastomer. 2. The device according to claim 1, characterized in that said polyurethane coating is made with a thickness of from 0.1 mm to 1.5 mm on each side of said fabric. 3. The device according to claim 1, characterized in that said shell is made on the basis of polyester fabric. 4. The device according to claim 1, characterized in that said shell is made on the basis of aramid fabric.

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