WO2017135843A2 - Pipeline connection assembly - Google Patents

Abstract

The invention relates to connecting major pipelines. A pipeline connection assembly for separating one pipeline into two (a main pipeline and a parallel secondary pipeline, having the same diameter D and an isolation valve) and for joining two pipelines into one comprises a housing with a lower bearing assembly and three branches of the same diameter D, one of which is coaxial with the main pipeline, while the other two branches are arranged at an angle to one another, symmetrically about the axis of the main pipeline, and a cover with an upper bearing assembly. Enclosed between the housing and the cover is a chamber, which is formed by two outlets having a diameter D and a bend radius R, which is determined by the requirements with respect to the passage of inline cleaning and inspection pigs, and a ball, in which is disposed a swivel that turns in the above-mentioned bearings, the flow passage of which is likewise comprised of an outlet having a diameter D and a bend radius R and of flow channels for the uninterrupted switching of the pipelines. The axes of the outlets are a continuation of the axes of the branches. The axis of rotation of the swivel is perpendicular to the plane in which the branches are situated and intersects the axis of the main pipeline.

Description

 Pipeline Connection

 The invention relates to connections of trunk pipelines and can be used in pipeline transport in the construction of underwater crossings.

It is known to connect pipelines of an underwater passage containing the main and parallel laid backup pipelines of the same diameter, pipe connection units and stop valves, while pipe connection units are made in the form of a hollow truncated cone with flanges at the ends connected respectively to mating flanges of the main pipeline and a convex cover equipped with nozzles arranged at an angle to each other symmetrically with respect to the axis of the main pipeline, the continuation of which is I have the main and reserve pipelines, the small base of the cone and the central protrusion of the lid are equipped with cylindrical supports on which a swivel with snug elements is mounted inside the cone, a curved tubular sub is built into the swivel so that one end of it constantly communicates with the main pipeline, and the opposite end alternately communicates with the indicated nozzles, with the help of which angular forks of pipelines are formed, which curvilinearly turn into parallel sections, the inner diameter of the wire one is equal to the corresponding diameters of the pipeline, the cylindrical support on the small base of the cone is equipped with rollers, and the connection is equipped with a drive located on the lid and interacting with the swivel support (see the description of the invention to the patent of the Russian Federation JN ^» 2223438, IPC F 16 L 1/12, publication of 02/10/2004)

It is also known to connect the pipelines of the underwater passage, containing the main and parallel laid backup pipelines of the same diameter, the connection nodes of the pipelines and stop valves, while the connection nodes of the pipelines are made in the form of a hollow truncated cone with flanges at the ends connected respectively to the mating flanges of the main pipeline, and convex a lid equipped with nozzles arranged at an angle to each other symmetrically with respect to the axis of the main pipeline, the continuation of which I main and standby pipelines. The small base of the cone and the central protrusion of the cover are provided with cylindrical supports on which a swivel with sealing elements is mounted inside the cone. The integrated swivel curved tubular sub in such ^'a manner that one end thereof is always in communication with the main conduit, and the opposite end alternately in communication with said nozzles, by which the angle formed by the fork pipes passing in parallel curvilinear portions. The curved tubular sub mainly on the convex side contains longitudinal slotted holes (see description of the invention to RF patent N ° 2309320, IPC F 16 L 1/12, publication of 10.27.2007).

A technical drawback of both known connections is the location of the drive in the plane of the nozzles, which requires either placement a pipeline connection node above the ground level, or well equipment for servicing the drive.

 The task of the invention is to improve operating conditions due to the top location of the drive.

The essence of the invention lies in the fact that the node connecting pipelines, which serves to disconnect one pipeline into two (the main and parallel laid backup pipelines of the same diameter D with stop valves) and to connect two pipelines into one, contains a housing with a lower bearing support and with three nozzles of the same diameter D, one of which is coaxial with the main pipeline, and the other two nozzles are located at an angle to each other symmetrically relative to the axis of the main pipeline, the cover is on top her bearing support. A cavity is formed between the body and the lid, formed by two bends with a diameter D, a bend radius R determined by the requirements for the passage of in-pipe cleaning and diagnostic shells, and a ball in which a swivel is deployed in the said supports, the flow part of which is also a bend with a diameter D, radius bend R and flow channels, used for non-stop switching of pipelines. The axis of the bends are a continuation of the axes of the nozzles. The axis of rotation of the swivel is perpendicular to the plane of placement of the nozzles and intersects with the axis of the main pipeline. The switching of pipelines is carried out by turning the swivel with the help of a drive so that one of its ends alternately communicates with the main pipe the pipeline and one of the nozzles, the continuation of which is one of the parallel pipelines, and the opposite end is also alternately connected with the main pipeline and the second nozzle.

 The invention is illustrated by drawings, where: in FIG. 1 shows a General view of the connection of pipelines, a plan view; in FIG. 2 - sectional connection of pipelines (callout I in Fig. 1); in FIG. 3 - also, a vertical section.

The essence of the invention lies in the fact that the connection node of the pipelines 1, which serves to disconnect one pipeline 2 into two (the main 3 and parallel laid backup 4 pipelines of the same diameter D with stop valves 5, 6) and to connect two pipelines 3, 4 into one pipeline 2, comprises a housing 7 with a lower bearing support 8 and with three nozzles 9, 10, 1 1 of the same diameter D, one of which is aligned with the main pipe 2, and the other two nozzles are located at an angle to each other symmetrically relative to the axis of the bases pipeline, cover 12 with upper bearing support 13. Between the housing 7 and cover 12 there is a cavity formed by two bends of diameter D, bending radius R, determined by the requirements for the passage of in-pipe cleaning and diagnostic shells, and a ball in which the swivel 14 is placed, flow part of which also represents a branch with a diameter D, bending radius R and flow channels 1 5, which serve for non-stop switching of pipelines. The axis of the bends are a continuation of the axes of the nozzles. The axis of rotation of the swivel 14 is perpendicular the plane of placement of the pipes 9, 10, 1 1 and intersects with the axis of the main pipeline 2. Switching of the pipelines 3, 4 is carried out by turning the swivel 14 using the actuator 16 so that one end of it alternately communicates with the pipe 9 of the main pipe 2 and the pipe 10, the continuation of which is the pipeline 3, and the opposite end is also alternately connected with the pipe 9 of the main pipe 2 and the pipe 1 1, the continuation of which is

 pipeline 4.

 Node pipe connection is used as follows.

When pumping the product through pipeline 2, depending on the position of the shutoff valves 5, 6, swivel 14 of the connection unit 1, the product is passed through one of the pipelines 3 or 4. If the swivel 14 communicates with the pipe 9 at one end of the flow part and the second end of the flow part communicates with the pipe 10 and, therefore, with the pipe 4 (shown in figure 2), the shut-off valve 6 must be open, and the valve 5 is closed. In this case, the product is passed through pipeline 4 (pipeline 3 is in reserve). To enable the operation of pipeline 3 (instead of pipeline 4), shutoff valves are opened 5. The product is pumped further through flow channels 15 and pipeline 3. Swivel 14, the axis of rotation of which is perpendicular to the plane of the nozzles 9, 10, 1 1 and intersects with the axis of the main pipeline 2, through the drive 3 6 deploy in the cavity between the housing 7 and the cover 12 in the bearing bearings 8, 1 3 nodes connecting the pipelines 1 in such a way that the end of the flowing part communicating with the pipe 10 communicates with the pipe 9, and the end of the flowing part communicating with the pipe 9 communicates with the pipe 1 1 and, accordingly, with the pipe 3. After this, the stop valves 6 are closed and the product is passed through pipeline 3 (pipeline 4 is in reserve). Flow channels 1 5 make it possible to switch pipelines without stopping pumping.

 The implementation of the invention will improve the operating conditions of the main pipelines due to the upper location of the drive.

Claims

Claim

The pipeline connection unit, which serves to disconnect one pipeline into two and to connect two pipelines into one, contains a housing with a lower bearing support and three nozzles of the same diameter D, one of which is aligned with the main pipeline, and the other two nozzles are angled to each other symmetrically with respect to the axis of the main pipeline, a cover with an upper bearing support, between which a swivel is deployed in the bearing supports by means of a drive, characterized in that the cavity and the lid, the cavity is formed by two bends with a diameter D, a bend radius R, determined by the requirements for the passage of in-pipe shells for cleaning and diagnostics, and a ball in which the swivel is placed, the flow part of which also represents a bend with a diameter D, bend radius R with flow channels, axis the rotation of the swivel is perpendicular to the plane of placement of the nozzles and intersects with the axis of the main pipeline, and the switching of pipelines is carried out by turning the swivel using a drive so that one e end pipe alternately communicates with the main pipe and one of the nozzles, which is a continuation of one of the parallel lines, and the opposite end is also in turn communicates with the nozzle main pipe and the second pipe conduit.