RU170885U1 - DIELECTRIC PIPELINE CONNECTION - Google Patents

Abstract

The utility model relates to the field of mechanical engineering, namely to sealing joints and can be widely used in pipelines with cathodic devices for corrosion protection. The dielectric connection of pipelines contains two nozzles, an insulating shaped insert, sealing dielectric means, crimping, while the insulating shaped insert is made in the form of a sealing electrical insulating ring with a cross-section such as an I-profile with a vertical wall and two horizontal shelves with the possibility of self-sealing when transporting the working medium under pressure sealing dielectric means comprise a power dielectric element made of a composite material the coping, which covers the sealing insulating ring and the end parts of the nozzles after gluing them, crimping is made in the form of a power casing, fitting on one side the end part of the nozzle, and on the other hand a power dielectric element. Technical result - simplification of the design and manufacturing technology, reducing material consumption , improving tightness, strength and reliability, increasing the efficiency of the cathodic protection of pipelines against corrosion, increasing the life of use, use in the manufacture and simpler and cheaper equipment, improvement of working conditions and safety. 5 cp f-ly, 1 ill.

Description

The utility model relates to the field of mechanical engineering, namely to sealing joints and can be widely used in pipelines with cathodic devices for corrosion protection.

Known sealing connection of pipelines with flanges and a sealing ring (USSR author's certificate No. 237502, CL F16L 23/02, F16J 15/12, 1968). The connection has a complex structure and does not provide electrical isolation between the connected sections of the pipeline.

A sealing connection of pipelines with flanges is known, between which a sealing ring is located with an intermediate sealing device in the form of a pin (USSR author's certificate No. 675262, class F16L 23/02, F16J 15/12, 07.25.79). However, such a connection has a complex structure and does not provide electrical insulation protection of the connected pipelines from each other.

To increase the efficiency of the cathodic protection of pipelines against corrosion, a dielectric pipe connection is used, containing two pipes, an insulating shaped insert, sealing dielectric means, crimping (EP 1091157 A1, F16L 25/02, 04/11/2001). However, the disadvantages of this connection are the complex design and manufacturing technology, requiring the use of expensive equipment and sophisticated instrumentation, highly skilled workers, low tightness.

In its technical essence, the indicated dielectric connection of pipelines is the closest to the proposed utility model and is taken as a prototype. The utility model was tasked with simplifying the design and manufacturing technology, using simpler and cheaper equipment, reducing the cost of operating pipelines, increasing the efficiency of cathodic protection of pipelines against corrosion, improving tightness, improving reliability and safety.

The technical result is to simplify the design and manufacturing technology, reduce the consumption of materials, improve the tightness, strength and reliability, increase the efficiency of the cathodic protection of pipelines against corrosion, increase the operating life, use more simple and cheap equipment in the manufacture, improve working conditions and safety procedures.

The technical result is achieved due to the fact that in a dielectric connection of pipelines containing two nozzles, an insulating shaped insert, sealing dielectric means, crimping, an insulated shaped insert is made in the form of a sealing electrical insulating ring with a cross-section such as an I-beam with a vertical wall and two horizontal shelves with the possibility of self-sealing during transportation of the working medium under pressure, the sealing dielectric means contain ozitnogo material dielectric strength member which covers the electrically insulating sealing ring and end parts of the pipes after their gluing, crimping is designed as a power housing overlying the one side end portion of the nozzle and, on the other hand a dielectric strength member.

The drawing shows the dielectric connection of pipelines (General view, section). The dielectric connection of pipelines contains nozzles 1 and 2, a power dielectric element 2, a sealing electrical insulating ring 3, a power casing 4.

Using the proposed dielectric connection, the sections of the pipelines are electrically isolated from each other, preventing their direct electrical contact. The insulation of the conductive electric pipes from each other is carried out by means of non-conductive materials. As such materials for the manufacture of the power dielectric element 2, composite materials are used that impede the passage of electric current through them, in particular, fiberglass, glass-basalt plastic on an epoxy binder. Insulating shaped inserts in the form of a sealing electrical insulating ring are made of an elastomer having not only dielectric properties, but also highly elastic properties, which increases the effect of self-sealing when pressure arises or increases in the pipeline. To simplify the design and manufacturing technology, the sealing insulating ring 3 is performed with a cross-section of the type of an I-beam profile with a vertical wall and horizontal shelves with parallel faces.

The cross section of the sealing electrical insulating ring 3 of the type of I-profile is performed with different widths of horizontal shelves. At the same time, the horizontal shelf closest to the centerline of the pipeline is wider.

The dielectric connection of pipelines is as follows.

By means of the proposed dielectric connection, a connection is made between the individual sections of the pipeline, combining them into one.

When passing through the pipeline and the dielectric connection of the working medium in the form of pressurized gaseous or liquid products, the pressure is evenly distributed on the inner walls of the pipeline and acts on the sealing insulating ring 3, pressing it to the power dielectric element 2 and the corresponding sections of the nozzles 1 and 5. Additional pressing sealing insulating ring 3 to the power dielectric element 2 and the corresponding sections of the nozzles 1 and 5 in the presence of the casing 4, limiting their displacement to the side external from the pipeline, improves the tightness of the connection, excluding the ingress of the working medium. The tightness is also facilitated by the compression of the sealing electrical insulating ring 3 to the end sections of the nozzles 1 and 5 in the longitudinal direction, leading to the extrusion of the sealing electrical insulating ring 3 towards the power dielectric element 2. Obviously, with an increase in the pressure of the working medium inside the pipeline and, accordingly, the pipes 1 and 5, the pressure force on the sealing electrical insulating ring 3 increases, which leads to improved tightness of the proposed connection.

Thus, under the pressure of the working medium, self-sealing of the electrical insulating ring 3 made of elastomer occurs. The specific choice of material of the insulating ring 3 depends on the operating conditions and the temperature of the working medium. In particular, sealing insulating rings 3 in the case when the temperature of the working medium does not exceed 150 ° C is made of polyurethane, at a temperature of the working medium up to 230 ° C is made of silicone, and when the temperature of the working medium is increased to 250 ° C - from fluororubber rubber.

The use of a sealing electrical insulating ring with a cross-section of the type of an I-profile is an important significant feature of the proposed technical solution. This is due to the fact that the I-beam profile is the most economical profile. The manufacture of a sealing electrical insulating ring 3 requires less material while maintaining its strength characteristics. The use of the cross-section of the O-type sealing ring 3 of the I-profile with a vertical wall and two horizontal shelves provides the joint strength required when axial and radial loads, torsion, and bending forces are applied to the pipeline. Annular recesses made at the ends of the opposite ends of the pipe sections 1 and 5, allow to increase the contact area between the power dielectric element 2 and the pipes 1 and 5, which is very important for their strong bonding.

Electrical separation of pipeline sections from each other increases the efficiency of cathodic protection of pipelines against corrosion, reduces the accumulation of static electricity charges arising from the movement of oil and gas products on the pipeline surface, which improves the working conditions and safety precautions of personnel serving the pipeline.

The proposed device is made to increase the effectiveness of protecting pipelines against corrosion by sequentially installing one another on one another and gluing the upright pipe 1, electrical insulating ring 3, pipe 5 and further execution from the outside of the power dielectric element 2 and power casing 4. After the indicated operations, the dielectric connection of pipelines is sent to the place of use for its intended purpose.

The proposed technical solution is new, industrially applicable.

Claims (6)

1. A dielectric pipe connection comprising two nozzles, an insulating shaped insert, sealing dielectric means, crimping, characterized in that the insulating shaped insert is made in the form of a sealing electrical insulating ring with a cross section such as an I-profile with a vertical wall and two horizontal shelves with the possibility of self-sealing when transporting the working medium under pressure, the sealing dielectric means contain a power di an electric element that covers the sealing insulating ring and the end parts of the nozzles after gluing, crimping is made in the form of a power casing, fitting on one side the end part of the nozzle, and on the other hand the power dielectric element. 2. The dielectric connection of pipelines according to claim 1, characterized in that the composite material is fiberglass. 3. The dielectric connection of pipelines according to claim 1, characterized in that the composite material is glass-basalt plastic. 4. The dielectric connection of pipelines according to claim 1, characterized in that the insulating shaped insert is made of elastomer. 5. The dielectric connection of pipelines according to claim 1, characterized in that the horizontal shelves are made with parallel faces. 6. The dielectric connection of pipelines according to claim 1, characterized in that the cross section is made with different widths of horizontal shelves, while the horizontal shelf closest to the axial line of the pipeline is wider.

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