RU126417U1 - WELDED PIPES WITH INTERNAL ANTI-CORROSION COATING - Google Patents

Abstract

A welded pipe joint with an internal anti-corrosion coating, including butt-welded pipes with an anti-corrosion coating, which is removed from the ends of the pipes, and a sleeve placed therein under the joint, which protects the pipe joint from corrosion, having a heat-resistant composition on the outside in the middle in the middle of the length of the clamps, and it is symmetrical at the edges outside, annular cavities are made, filled with sealant, and the clamps are made with the possibility of interaction with the ends of the anticorrosive coating of pipes, characterized in that the sleeve made of wear-resistant material with sockets at the ends, coated externally with a corrosion-resistant coating similar to the inner coating of pipes, which is removed from the pipe ends by the distance of thermal destruction of the anticorrosion coating, while the annular cavities at the ends of the sleeve are formed by sockets and clamps of the heat-resistant composition, which are made in the form of washers at the ends of the heat-resistant composition or the ends themselves of the heat-resistant composition, and the sealant is in the form of hot-melt adhesive, made with the possibility of tight connection with anticorrosive coatings of pipes and sleeves under the influence of melting temperature.

Description

The technical solution relates to a welded permanent connection of pipes, namely the connection of pipes with an anti-corrosion inner coating for the transport of chemically active liquids.

Known annular collection of welded grant (patent of the Russian Federation PM No. 71915, B23C 37/00, publ. March 27, 2008) of the welded joint of the pipeline containing metal pipes coated with a protective coating on their inner surface and a sleeve coated with a 1-2 mm layer of insulating anticorrosive coating and placed inside the pipes, while the welded joint is made by manual and / or automatic welding to obtain a weld, the area of which exceeds the area of the normal section of the pipes, and the site has ring elements, ring non-reinforced and / or reinforced rubber seals, heat-insulating material, sealing material, an annular stop or at least three stops equally spaced in the radial plane, used to set the centers of mass, the sleeve located inside the pipes is made with a cylindrical section and mated with it and / or machined with a blade tool , conical sections and placed inside the pipes so that the edges of the pipes are in contact with the ring stop or stops, a protective coating on the inner surface these pipes are applied at a distance from their ends with the formation of a thermally loaded zone in the application zone, an annular stop or stops are placed on half the length of the sleeve and rigidly fixed on its outer surface, a protective coating is applied on the inner surface of the cylindrical and conjugated conical sections of the sleeve, ring elements rigidly fixed on the outer surface of the cylindrical section of the sleeve, equally offset from its ends and installed opposite each other, annular unreinforced and / or reinforced rubber seals are placed on the outer surface of the sleeve between the protective coating applied to the inner surface of the pipes, the ends of the ring elements and the conical sections of the sleeve and are tightly in contact with them, the heat-insulating material is rigidly fixed to the outer surface of the cylindrical section of the sleeve between the ends of the ring elements, the sealing material is applied to the outer surface of the aforementioned conical sections of the sleeve.

The disadvantages of this connection node are low corrosion resistance due to the presence of stops rigidly connected to the surface of the sleeve, located in the welding zone, having much smaller dimensions than the distance from them to the rubber seals, and as a result being a thermal bridge to the surface of the sleeve, warming up its high temperatures in the connection zone with the stops, which often leads to a violation of the integrity of the inner anti-corrosion coating of the sleeve and, as a consequence of the entire connection, and the inability to use such compounds in the presence of a solid abrasive in the pumped liquid (for example: sand, slag, solid inclusions, etc.), because the inner anti-corrosion coating of the sleeve is in the narrowing zone and the abrasive which quickly abrases the coating constantly acts on its end areas, and As the sleeve narrows the pipe bore, the flow rate inside it is higher than in the pipe and, according to Bernoulli’s law, the pressure is lower, which leads to the “collapse” (overlapping of the pipe’s internal section) of the inner shell in the area of the sleeve.

The welded joint assembly of the pipeline is also known (Patent PM of the Russian Federation No. 89656, F16L 13/02, publ. 10.12.2009) containing welded pipes with an internal polymer coating and a sleeve installed in them with an internal polymer coating, on the outer surface of which are elastic sealing cuffs and a centering ring, wherein the sleeve is made with a central annular groove in which the heat-insulating gasket is located, and two annular grooves made on opposite sides of the central annular groove and rednaznachennymi for loading the elastic sealing cuffs, the centering ring at an annular projection, which ends are summed welded pipes, the centering ring is split along a generatrix and placed on top of the thermal insulating liner.

The disadvantages of this connection node are the large linear dimensions due to the presence of a centering split metal ring mounted on top of the heat-insulating gasket and located in the welding zone, which is a thermal bridge in the linear direction, to prevent destruction of the joints of the inner polymer coatings of the sleeve and pipes, the length of the sleeve increases as 1.5 times minimum, low reliability of the connection of polymer coatings of the sleeve and pipes with low-temperature sealants, and the inability to use t compound if there is a solid abrasive in the pumped liquid, because the inner polymer coating of the sleeve is in the narrowing zone and the abrasive is constantly acting on its end regions, which quickly abrades the coating, and since the sleeve narrows the pipe cross section, the flow rate inside it is higher, than in the pipe and, according to Bernoulli’s law, the static pressure is lower, which leads to the “collapse” (overlapping of the pipe’s internal section) of the inner shell in the area of the sleeve.

Closest to the proposed one is an integral connection of pipes with an internal anti-corrosion coating (RF patent No. 2395029, F16L 13/02, published July 20, 2010), including butt-welded pipes with an anti-corrosion coating, which is removed from the pipe ends by the distance of the thermal effect of welding, and a sleeve made of a composite material placed at them under the junction, having in the middle of the length an outer central annular groove with a heat-resistant composition and clamps, and grooves are made symmetrically from the central ring of the groove, filled with sealant, characterized in that the sleeve is made of a thermoplastic material with high adhesion to the pipe material, the latches are made in the form of cylindrical protrusions of the sleeve placed symmetrically at both ends between the annular groove and the grooves, with the heat-resistant composition filling the entire space between the pipes, the annular groove and clamps that are configured to interact with the outer ends with the ends of the anti-corrosion coating, and the outer surface with the inner surface, respectively vuyuschih pipes adhesion to him under the influence of temperature welding.

The disadvantages of this one-piece connection are the low reliability of the connection of the anticorrosion coating of the pipes and the sleeve with low-temperature sealants, and the inability to use such a connection in the presence of a solid abrasive in the pumped liquid, because the sleeve of a relatively soft thermoplastic material is in the narrowing zone and the abrasive is constantly acting on its end areas, which quickly abrades the material of the sleeve, which also has different coefficients of thermal and mechanical expanded relative to the pipe material, which leads to a quick failure of the junction of the sleeve retainers and the inner surface of the pipe, significantly reducing the reliability of corrosion protection of pipe joints.

The technical task of the proposed technical solution is to create a reliable and tight connection of pipe joints, not afraid of changes in temperature and pressure, with enhanced functionality by obtaining a single anti-corrosion coating protected from the inside by a sleeve made of wear-resistant material.

The technical problem is solved by welding pipes with an internal anti-corrosion coating, including butt welded pipes with an anti-corrosion coating, which is removed from the ends of the pipes, and a sleeve placed in them under the joint, protecting the pipe joint from corrosion, having a heat-resistant composition outside the middle of the length between the clamps, moreover symmetrically around the edges of the outside are annular cavities filled with sealant, and the clamps are made with the possibility of interaction with the ends of the anticorrosive coating of the pipes.

What is new is that the sleeve is made of wear-resistant material with sockets at the ends, coated externally with a corrosion-resistant coating similar to the inner coating of pipes, which is removed from the pipe ends by the distance of thermal destruction of the anticorrosion coating, while the annular cavities at the ends of the sleeve are formed by sockets and retainers of the heat-resistant composition which are made in the form of washers at the ends of the heat-resistant composition or the ends of the heat-resistant composition themselves, and the sealant is in the form of hot-melt glue made with possible awn tight connection with anticorrosive coatings of pipes and of the sleeve under the influence of the melting point.

Also new is the fact that high-carbon or stainless steel or composite material can be used as the wear-resistant material of the sleeve.

The drawing shows a diagram of the junction of pipes with a longitudinal section.

Pipes 1 and 1 'with an internal anti-corrosion coating 2 are preliminarily investigated: their ends are joined by welding 3 defining temperature zones: the destruction zone of the inner coating 4 and the heat-affected zone 5, sufficient to melt the hot-melt adhesive 6 (for example: Forbo HD-6880, Purmelt QR-4663, Terokal-1250, Protostik 6503, etc.). Empirically, it was found that the length L1 of the thermal destruction zone 4 depends on the thickness of the pipes 1 (for example: for pipes 1 with a thickness of 5 mm to 20 mm, the length L1 of zone 4 varies from 20 mm to 60 mm, respectively), as well as the length L2 of the heat-affected zone 5 (for example: for pipes 1 with a thickness of 5 mm to 20 mm, the length L2 zone 5, respectively, varies from 20 mm to 40 mm). From the connected pipes 1 and 1 ', the coating is removed at a distance of at least the length L1 of zone 4.

Based on the identified parameters, an inner sleeve 7 is made, consisting of a nozzle 8 made of a wear-resistant material coated externally with a corrosion-resistant coating 9, similar to the inner coating of pipes 2 1. High-carbon steel, stainless steel, black metal, coated can be used as the wear-resistant material of the sleeve 7 protective layer (protective enamel, powder spraying, etc.), or composite material (hard plastic, carbon, etc.). Moreover, the length L of the pipe 8 is chosen at least twice the sum of the lengths L1 and L2 of zones 4 and 5:

L≥2 · (L1 + L2)

Then, on the outer surface of the sleeve 7, a heat-resistant composition 10 (asbestos, foam concrete, basalt wool, etc.) is installed evenly from the edges between the clamps 11 and 11 ', 1-3 mm longer than the total length of the removed coating of the connected pipes 1 and 1' and diameter slightly smaller than the inner diameter of the pipes 1 and 1 '. As clamps 11 and 11 'use the ends (not shown in four) of the heat-resistant composition 11, if it is made of solid material in the form of a hollow sleeve (foam concrete, all foam glass, etc.), or made in the form of washers 12 and 12 'placed at the edges of the heat-resistant composition 11, if it is made in the form of soft material (basalt wool, fiberglass, etc.). After the composition 10 is installed, sockets 13 are formed at the ends of the nozzle 8, expanding to the ends of the nozzle 8 (for metals, by turning or flaring, for composite materials, by the internal shape after preheating). The annular cavity 14 between the sockets 13 and the respective clamps 11 and 11 'is filled with a sealant - hot-melt adhesive 6 in a heated form for reliable connection with the outer coating 9 of the sleeve 7, forming a hot melt 6 with a diameter slightly smaller than the inner diameter of the coating 2 (for example: cutting under the desired size after curing or giving the right size before curing with a cold mold to prevent sticking). The bushings 7 assembled with all elements can be manufactured in stationary (workshop) conditions and delivered ready-made to the junction of pipes 1 and 1 '.

Before connecting, the sleeve 7 is inserted into the pipe 1 until the stopper 11 stops (the end face of the heat-resistant composition 10, which acts as the retainer, or the washer 12) in the end face of the internal anti-corrosion coating 2 of the pipe 1, then the ends of the pipes 1 and 1 'are joined by putting the pipe 1' on the sleeve 7 to the stop of another latch 11 '(the end face of the heat-resistant composition 10, which plays the role of the latch, or washer 12') in the end face of the inner anti-corrosion coating 2 of the pipe 1 '. A gap between the ends of the pipes 1 and 1 'of 1-3 mm is permissible for the welding process. Then the ends of the pipes 1 and 1 'are connected by welding 3, while the heat-resistant composition 11 protects the coatings 2 and 9 from destruction, and the hot melt adhesive 6 melts together with the coating 2 of the pipes 1 and 1' in zone 5 and after cooling, they are hermetically and reliably connects coatings 2 and 9. If necessary, especially when welding pipes 1 and 1 'in cold weather (at ambient temperatures below + 7 ° C), or after ultrasound examination of the joints when poor adhesion of hot-melt adhesive is detected 6 s coating 2 of one of the pipes 1 or 1 ', heat-affected zones 5 are supplemented nomu heating (for example, induction heating by high frequency currents - HDTV) for quality coatings compounds 2 and 9 by means of hot melt adhesive 6.

The result is a sealed protection of the pipe joint from coatings 2 and 9 welded with hot-melt adhesive 6, protected from the inside by a wear-resistant material in the form of a pipe 8 with sockets 13 from the impact of the abrasive pumped through the pipe along with the liquid. Since the inner coating 2 of the pipes 1 and 1 'and the outer coating 9 of the sleeve 7 have the same physical properties, their connection is not threatened by destruction from changes in temperature and / or pressure of the pumped liquid.

The proposed welded connection of pipes with an internal anti-corrosion coating is reliable, hermetic and not afraid of changes in pressure and temperature and pumping liquid with solid abrasive inclusions.

Claims (1)

A welded pipe joint with an internal anti-corrosion coating, including butt-welded pipes with an anti-corrosion coating, which is removed from the ends of the pipes, and a sleeve placed therein under the joint, which protects the pipe joint from corrosion, having a heat-resistant composition on the outside in the middle in the middle of the length of the clamps, and it is symmetrical at the edges outside, annular cavities are made, filled with sealant, and the clamps are made with the possibility of interaction with the ends of the anticorrosive coating of pipes, characterized in that the sleeve made of wear-resistant material with sockets at the ends, coated externally with a corrosion-resistant coating similar to the inner coating of pipes, which is removed from the pipe ends by the distance of thermal destruction of the anticorrosion coating, while the annular cavities at the ends of the sleeve are formed by sockets and clamps of the heat-resistant composition, which are made in the form of washers at the ends of the heat-resistant composition or the ends themselves of the heat-resistant composition, and the sealant is in the form of hot-melt adhesive, made with the possibility of tight connection with anticorrosive coatings of pipes and sleeves under the influence of melting temperature.

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