RU82809U1 - PIPELINE CONNECTION - Google Patents

Abstract

Pipeline connection, comprising flanges fixed at the end sections of the connected pipelines, pressed against each other by means of a fastener, between which a connecting sleeve is installed, between the end surfaces of which and flanges there are sealing rings, characterized in that the connecting sleeve is made in the form of a cylindrical ring mounted the inner surface on both outer surfaces of the joined end sections of the pipelines to be connected, and azmeschena available in each of the flange returns recesses and sealing rings are mounted on the outer surface of the end portions of the connecting piping between the ends of the coupling sleeve and the ends of the recesses in the folding, opposing ends of which are arranged to contact with each other by squeezing the fastening compound.

Description

The utility model relates to pipe connections, including those made of composite materials, and can be used to connect pipes equipped with flanges fixed at their end sections (for example, by means of glue or threaded joints) used in water supply systems, in chemical and other industries for the transportation of both water and chemically aggressive environments.

It is known to connect pipelines containing flanges installed on the end sections of the pipelines being connected, squeezed relative to each other by means of a fastener, between which a connecting sleeve and o-rings are placed (see RF patent for the invention No. 2084744, IPC F16L 19/03, 1994). The disadvantages of the known device include its low reliability, due to the possibility of axial displacement of the end sections of the connected pipelines due to the fact that flanges are not fixed in these sections, and only the friction between the sealing rings and the outer surface of the pipelines prevents axial displacement.

The closest in technical essence to the proposed one is the connection of pipelines, containing flanges fixed at the end sections of the connected pipelines, pressed against each other by means of a fastener, between which a connecting sleeve is installed, between the end surfaces of which and the flanges there are sealing rings (see RF patent for utility model No. 41830, IPC F16L 47/00, 2004). The disadvantages of the known device can be attributed to its low operational characteristics due to the increased hydroresistance of the connection due to the fact that the connecting sleeve partially overlaps the bore of the connected pipelines, as well as the large overall dimensions due to the fact that the connecting sleeve is located between the end sections of the pipelines. In addition, the known device does not exclude the possibility of excessive compression of the sealing rings, which leads to a premature loss of their properties to ensure tightness and, accordingly, reduces the durability and reliability of the connection as a whole.

The proposed utility model is aimed at solving the problem of improving the operational characteristics of a pipe connection by reducing its hydraulic resistance, increasing durability and reliability by controlling the amount of compression of the sealing rings, as well as reducing the overall dimensions of the connection.

This problem is solved in that in the connection of pipelines containing flanges fixed at the end sections of the connected pipelines,

squeezed relative to each other by means of a fastener, between which a connecting sleeve is installed, between the end surfaces of which and flanges are placed sealing rings, the connecting sleeve is made in the form of a cylindrical ring mounted on the outer surface of the two joined ends of the connected pipelines, and is located in existing in each of the flanges of the recesses, and the sealing rings are installed on the outer surface of the end sections with unifying the connecting piping between the ends of the sleeve and recesses in the flanged ends, opposing ends of which are arranged to contact with each other by squeezing the fastening compound.

The implementation of the connecting sleeve in the form of a cylindrical ring mounted on the inner surface on both outer surfaces of the joined end sections of the connected pipelines ensures a reduction in the hydraulic resistance of the connection due to the fact that this sleeve is completely removed from the hydraulic tract of the connected pipelines and, therefore, does not overlap the passage section.

Placing the connecting sleeve in the recesses available in each flanging, while the sealing rings are installed on the outer surface of the end sections of the connected pipelines between the ends of the connecting sleeve and the ends of the recesses in the flanges, allows reducing the overall dimensions of the connection (along the connected pipelines) due to the fact that when In this arrangement, direct coupling of the end sections of the connected pipelines is possible, and the connecting sleeve itself is brought out of the internal cavity of the pipeline in and placed in recesses made in flanges. In essence, the length along the pipeline of such a connection is determined only by the thickness of the flanges, while in the prototype its length is determined by the thickness of the flanges and the length of the connecting sleeve.

The implementation of the counter ends of the flanges with the possibility of contact with each other while tightening the fastening connection eliminates excessive compression of the sealing rings, since the maximum compression will be uniquely determined only by the dimensions of the recesses in the flanges and the connecting sleeve, taking into account, obviously, the size of the sealing rings.

The drawing shows the proposed connection of pipelines.

The pipe connection contains fixed (for example, using an adhesive connection, a threaded connection, etc.) at the end sections 1 and 2 of the connecting flanging pipes 3 and 4, pressed against each other by means of a fixing connection. The fastening connection may be any known flanging connection (for example, bolting the floating flanges as shown in the drawing, with clamps, etc.). Between the flanges 3 and 4, a connecting sleeve 5 is installed, made in the form of a cylindrical ring mounted by an inner surface on both outer surfaces of the docked end

sections 1 and 2 of the connected pipelines. In this case, the connecting sleeve 5 is placed in the recesses 6 and 7 available in each flanging 3 and 4, and the sealing rings 8 and 9 are installed on the outer surface of the end sections of the connected pipelines between the ends of the connecting sleeve 5 and the ends of the recesses 6 and 7 in the flanges.

The assembly of the proposed pipeline connection is as follows.

The end sections 1 and 2 of the connected pipelines with flanges 3, 4 fixed on them, in the recesses of which 6, 7, respectively, sealing rings 8, 9 are installed, are inserted into the connecting sleeve 5. In this case, the pipelines are centered relative to each other and fixed in radial direction. The final screed and sealing of the connection is carried out by pressing the sealing rings 8, 9 to the ends of the recesses 6, 7, made in flanges 3, 4, when screeding these flanges by means of a fixing connection. In this case, after pre-crimping flanges 3, 4 to the contact of their opposite ends, there is clearly a regulated compression of the sealing rings 8, 9. After the final tightening of the pipe connection, the sealing rings 8, 9 prevent fluid leakage from the pipeline outward as in the axial direction through the fastening points of the flanges 3 , 4 at the end sections of the connected pipelines 1, 2, and in the radial - through the interface of the flanges 3, 4 with each other.

The proposed connection of pipelines is reliable in operation, has good operational characteristics, as it does not introduce additional hydraulic resistance to the pipeline highway, great durability and reliability. At the same time, it has a minimum overall dimensions, simple design and is quite easy to assemble even in the absence of the possibility of visual control over the assembly.

Claims (1)

Pipeline connection, comprising flanges fixed at the end sections of the connected pipelines, pressed against each other by means of a fastener, between which a connecting sleeve is installed, between the end surfaces of which and flanges there are sealing rings, characterized in that the connecting sleeve is made in the form of a cylindrical ring mounted the inner surface on both outer surfaces of the joined end sections of the pipelines to be connected, and azmeschena available in each of the flange returns recesses and sealing rings are mounted on the outer surface of the end portions of the connecting piping between the ends of the coupling sleeve and the ends of the recesses in the folding, opposing ends of which are arranged to contact with each other by squeezing the fastening compound.