RU156148U1 - LINEAR ELEMENT OF ASSEMBLY PIPELINE - Google Patents

Abstract

A linear element of a collapsible pipeline containing a central part made in the form of a fiberglass pipe, at one end of which a bell is rigidly fixed, having a rectangular annular protrusion on the outer surface closer to the pipe for interaction with the assembly-disassembling tool, and on the inner surface a lead-in chamfer and two successive annular grooves, the first of which has a microporous rubber lining with a steel locking ring, and the second has a figured rubber seal a ring, on the other end of the fiberglass pipe, a cone is rigidly fixed, on the outer surface of which a lead-in section and a hollow are made, having a concave radial surface on the side of the lead-in section for contact with the steel locking ring of the socket and ending with a rectangular annular protrusion for interaction with the assembly-disassembly tool, the portions of the bell and cone behind the rectangular protrusions have a length of not less than the inner diameter of the fiberglass pipe, characterized in that the bell and cone made of fiberglass and on the outer surface of the sections behind the rectangular protrusions have a conical threaded surface, the length of which is (0.7 ... 0.9) of the inner diameter of the pipe, which on the inner side above these sections of the socket and cone has a threaded conical surface identical to threaded outer conical surface of the sections of the bell and cone.

Description

The utility model relates to the field of pipeline transport, in particular to collapsible pipelines with a bell-shaped connection.

The existing collapsible pipelines with a diameter of 100, 150 and 200 mm with a socket connection are made of metal, have a large mass of linear elements and their layout along the route is associated with great difficulties. Prototypes of linear elements of collapsible pipelines made of fiberglass, metal and other composite materials are susceptible to frequent damage, the reasons for which are the design of the places of molding to the fiberglass pipe of the end parts (socket and cuff) made of metal.

The authors were faced with the task of developing a linear element of a collapsible pipeline made of fiberglass or hybrid composite materials with end parts of the same material, which ensures reliable and durable operation of the pipeline.

When viewing patent and scientific and technical literature, technical solutions were identified that partially solve the problem.

So known is a linear element of a collapsible pipeline containing a fiberglass pipe with curly end parts, one of which is made in the form of a cuff, and the other in the form of a bell having a rectangular annular groove on the outer surface closer to the pipe for interaction with the assembly-disassembly tool. On the inner surface of the bell there is a lead-in chamfer and two successive annular grooves, the first of which has a microporous rubber lining with a steel locking ring, and the second has a figured rubber o-ring. On the outer surface of the cuff, a lead-in section and a depression are made, having a concave radial surface on the side of the lead-in section for contact with a steel locking ring of the socket and ending with a rectangular annular protrusion for interaction with the assembly-disassembly tool. The outer part of the socket to a depth of h _{1 the} inner part of the cuff with a wall thickness of h ₂ and the pipe are made in the form of a single structure made of fiberglass, rigidly connected to the metal nodes of the socket and cuff. The cuff inlet section made of fiberglass has a protrusion that is rigidly connected to the end of the metal cuff assembly, the opposite end of which has a ring l ₁ wide through the rectangular protrusion, through holes and is sealed to a depth l ₁ in the fiberglass pipe, while the metal nodes of the socket and cuffs on surfaces that are rigidly connected to fiberglass assemblies have annular protrusions (RU No. 2543921, IPC F16L 9/14, 03/05/2014).

The disadvantage of this linear element is the great complexity of manufacturing the end parts of the linear element, structurally consisting of a fiberglass bell and cuff and molded metal nodes to them, providing a connection of linear elements with each other.

Closest to the claimed utility model in technical essence and taken as a prototype is a linear element of a collapsible pipeline containing a central part made in the form of a pipe, at the ends of which end parts are rigidly fixed, one of which is made in the form of a cone, and the other in in the form of a bell, on the inner surface of which there is a lead-in chamfer and two consecutive grooves, the first of which has a microporous rubber gasket with a snap ring, and the second p rubber sealing cuff. A rectangular protrusion is made at the end of the outer surface of the socket closest to the pipe. On the outer surface of the cone, a lead-in section and a hollow are made, having a concave radius surface on the side of the lead-in section for contact with the retaining ring of the socket during assembly of the pipeline and ending with a rectangular protrusion. The central part of the linear element of the collapsible pipeline is made of fiberglass with an outer diameter equal to the inner diameter of the rear end of the bell and cone. The portions of the bell and cone behind the rectangular protrusions are increased by segments whose lengths are not less than the diameter of the central part of the linear element and in which direct radial holes are made directly behind the rectangular protrusions, and spiral channels are made on the inner sides of these sections, the input of each of which is placed on the end parts a bell and a cone, and the output of each spiral channel is in communication with a corresponding radial hole. End parts - bell and cone are made of metal. (RU No. 56444, class F16L 9/14, 04/07/2006 - prototype).

The disadvantage of this linear element of a collapsible pipeline is its low reliability, due to the fact that steel and fiberglass have different linear expansion coefficients, which over time leads to a breakdown in adhesion between steel and fiberglass and delamination of fiberglass from metal.

The technical result of the utility model is to increase the reliability and durability of the operation of a linear element of a collapsible pipeline.

This technical result is achieved in that a linear element of a collapsible pipeline containing a central part made in the form of a fiberglass pipe, at one end of which a bell is rigidly fixed, having a rectangular annular protrusion on the outer surface closer to the pipe to interact with the assembly-disassembly tool, and on the inner surface there is a lead-in chamfer and two consecutively located annular grooves, the first of which has a microporous rubber lining with a steel locking collar with a face, and in the second - a figured rubber sealing ring, on the other end of the fiberglass pipe a cone is rigidly fixed, on the outer surface of which a lead-in section and a depression are made, having a concave radial surface on the side of the lead-in section for contact with the steel locking ring of the socket and ending with a rectangular annular protrusion for interaction with the assembly-disassembly tool, while the sections of the bell and cone behind the rectangular protrusions have a length of not less than the inner diameter of the fiberglass according to the utility model, the bell and cone are made of fiberglass and on the outer surface of the sections behind rectangular protrusions have a conical threaded surface, the length of which is (0.7 ... 0.9) the inner diameter of the pipe, which is on the inside above these sections of the cone and the bell has a threaded conical surface identical to the threaded outer conical surface of the sections of the bell and cone.

In FIG. 1 shows a linear element of a collapsible pipeline (sectional view);

FIG. 2 - bell-shaped connection of a collapsible pipeline in assembled form (in section).

The linear element of a collapsible pipeline consists of a central part made in the form of a fiberglass pipe 1, on one end of which a bell 2 is rigidly fixed, and on the other end there is a cone 3. On the outer surface of the bell 3 closer to the pipe 1 there is a rectangular annular protrusion 4 for interaction with the assembly-disassembly tool. On the inner surface of the socket 3 there is an entry chamfer 5 and two successive annular grooves 6 and 7. In the first annular groove 6 there is a microporous rubber lining 8 and a steel locking ring 9. In the second annular groove 7, a figured rubber sealing ring 10 is installed. On the outer surface of the cone 3, a lead-in section 11 and a depression 12 are made, having a concave radial surface 13 for contacting a steel locking ring 9. From the side of the lead-in section, the depression 12 ends rectangular to ltsevym protrusion 14 for interaction with assembly-disassembly tool.

The bell 2 and the cone 3 are made of the same material as the central part of the linear element, i.e. from fiberglass. Portions 15 and 16 of the socket 2 and plug 3 of rectangular projections 4 and 14 have a length not less than the inner diameter D _ext FRP pipe 1. The outer surface portions 15 and 16 is conical threaded length L ₁ of which the inner end of the socket 2 and plug 3 is (0.7 ... 0.9) D _ext . The pipe 1 on the inner side above the sections 15 and 16 of the socket 2 and the cone 3 has an identical threaded conical surface and a length L ₁ from the end face equal to the length of the threaded part of the sections 15 and 16 of the socket 2 and the cone 3.

On the outer surface of the pipe 1, thickened cylindrical zones 17 and 18 are provided, the length l of which corresponds to the width of standard fixtures for assembling threaded joints of a linear element in the factory.

The assembly technology of the linear element in the factory is as follows.

The threads on the conical surface of sections 15 and 16 before being screwed into the thread of pipe 1 are pre-lubricated with an epoxy-dianic uncured resin of the grade ED-16 or ED-20 according to GOST 10587 “Epoxy-dianes. Technical conditions ”, while the length L _{2 of the} screwed-in part of the thread must be at least 75% of the total length L _{1 of the} thread.

As the binder material for the manufacture of the central part of the linear elements of collapsible fiberglass pipes, an epoxy-dianic uncured resin of the grade ED-16 or ED-20 is used according to GOST 10587. The thickness h of the wall of the fiberglass pipe 1 is taken equal to 6 mm. The diameter of the cross section of the steel locking ring 9 from the condition for ensuring the reliability of the connection is assumed to be equal for pipelines Du100, Du150 and Du200, respectively, 6, 8 and 12 mm.

After screwing the cone 3 and the socket 2 into the pipe 1 thread, cavities 19 and 20 with open threads are formed in the factory, which are filled on the inside with epoxy-dian resin with finely chopped glass fibers, and on the outside they are molded with glass fibers impregnated with epoxy-diana with resin.

In addition to fiberglass, pipe 1, cone 3 and bell 2 can also be made of hybrid composite materials, layer-by-layer reinforced with fabrics of high molecular weight polyethylene filaments and glass, carbon or basalt fiber. (B.V. Baidakov, V.I. Natrusov, T.E. Shatskaya and others. New materials for UAVs. - M: UAV.RU Special issue INTERPOLITEX - UVS-TECH 2013, p. 25, 26).

In finished form, after the factory assembly, the linear element is a single structure 6 meters long with a nominal diameter of 100, 150 or 200 mm and can be used in sets of field collapsible pipelines for deployment on the ground and pumping oil products and other liquids.

As shown by the results of hydraulic tests of linear elements of a collapsible fiberglass pipe with a nominal diameter of 150 mm and a wall thickness of 6 mm, a cross-sectional diameter of a steel locking ring of 8 mm, a working pressure of up to 7.0 MPa (70 kgf / cm ² ) is provided. In this case, the mass of the linear element 6 m long is 2 times less than the mass of the linear element made of steel.

The linear element collapsible pipeline is operated as follows. The assembly of linear elements with the “bell” connection in the field can be carried out mechanically using pipe-fitting machines or manually using a special tool, while for the assembly and disassembly of the bell-shaped connection of linear elements, special keys interacting with the rectangular annular protrusions 4 and 14 of the bell 2 and cone 3 and with a steel locking ring 9.

In the process of pumping oil through the pipeline, the main axial and radial loads occur at the points of contact of the steel locking ring 9 with the socket 2 and cone 3, in threaded joints and in the wall of the pipe 1. Threaded connections provide a reliable connection between pipe 1 and the socket 2 and cone 3, and the presence of the bell 2 and cone 3 allows you to quickly replace any damaged linear element of the pipeline.

During storage of fiberglass pipes in open areas, corrosion of linear elements is eliminated, which allows to increase the life of the pipeline and increase its reliability.

The use of the utility model will reduce the mass of the linear element, increase reliability and extend the life of pipelines.

Claims (1)

A linear element of a collapsible pipeline containing a central part made in the form of a fiberglass pipe, at one end of which a bell is rigidly fixed, having a rectangular annular protrusion on the outer surface closer to the pipe for interaction with the assembly-disassembling tool, and on the inner surface a lead-in chamfer and two successive annular grooves, the first of which has a microporous rubber lining with a steel locking ring, and the second has a figured rubber seal a ring, on the other end of the fiberglass pipe, a cone is rigidly fixed, on the outer surface of which an inlet section and a hollow are made, having a concave radius surface on the inlet section for contact with the steel locking ring of the socket and ending with a rectangular annular protrusion for interaction with the assembly-disassembly tool, the portions of the bell and cone behind the rectangular protrusions have a length of not less than the inner diameter of the fiberglass pipe, characterized in that the bell and cone made of fiberglass and on the outer surface of the sections behind the rectangular protrusions have a conical threaded surface, the length of which is (0.7 ... 0.9) of the inner diameter of the pipe, which on the inner side above these sections of the socket and cone has a threaded conical surface identical to threaded outer conical surface of the sections of the bell and cone.

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