RU57661U1 - FLANGE - Google Patents

Abstract

The utility model is intended for pipe joints intended for a guaranteed long-term 25-50-year operational period of use when aggressive and / or fluid flowing liquids are supplied through them, at temperatures up to 150 ° C inside the pipeline with the possibility of guaranteed retention of adhesive external and internal coatings - 60 ° С on metal surfaces of pipe joints. Known flange joints according to GOST 12815-70 do not have advantages over welding joints, which are simultaneously predetermined to protect welds from destruction from the inside of the pipe joint. The flange prepared for use is equipped not only with a transition pipe, but also with a special coating that withstands the operating temperature regime in the field from -60 to 150 ° C, which extends the operational period of its interaction with aggressive and ordinary liquid media interacting with internal and external flange surfaces during operation and even during poor storage. The disadvantages of the analogue / 1 / include a shorter service life of the joints of known compounds due to the formation of burrs, which slows down the fluid flow rate and forces unreasonably to increase the working pressure in piping systems, which dramatically reduces the operational performance of not only the passage of fluid flow, but also leads to gusts transport overhead and underwater systems for supplying liquid and particles, which collapses during the operation of the pipes, burrs, which, falling into valves and instrumentation, oputno disables accessories. A tool for automated cutting and hardening of welds is difficult to manufacture and operate and requires significant costs for the use of used aircraft turbines in gas pumping, providing a high-speed flow of air from the blowing-out beads after machining. In addition, the proper use of epoxy (powder and liquid) polyester, polyurethane and

other coatings may contribute to the protection of welded joints of pipe joints from corrosion damage. The possibility of rigid fastening with a flange of the nozzle with a protective coating determines the possibility of installing a protective sleeve in the end of the flange nozzle, which prevents weld beads from entering the fluid or aggressive medium transported through the pipeline immediately after the flange is firmly fixed to the pipeline, which reduces the possibility of failure of the valve shut-off valves, gate valves and reading water-measuring and thermal devices. The objective of the utility model is the versatility of a new technical solution with simultaneous technical excellence in protecting against the destruction of welded joints directly from the inside of the pipe product. The industrial usefulness of the new technical solution lies in the fact that the pipelines are guaranteed to be protected from penetration of weld gratt into the liquid medium supplied through the pipeline, which contributes to the high-quality operation of valve-stop equipment and pressure meters. The economic efficiency of the new technical solution is to increase the durability of the pipeline joints, which ensures the safe operation of pipelines with acids and alkalis, including transportation of other aggressive liquid media, for example, ammonia, benzene compounds and other liquid components through the pipeline overpass.

Description

The utility model is intended for pipe joints intended for a guaranteed long-term 25-50-year operational period of use when aggressive and / or fluid flowing liquids are supplied through them, at temperatures up to 150 ° C inside the pipeline with the possibility of guaranteed retention of adhesive external and internal coatings - 60 ° С on metal surfaces of pipe joints.

Known flange joints according to GOST 12815-70 do not have advantages over welding joints, which are simultaneously predetermined to protect welds from destruction from the inside of the pipe joint.

The flange prepared for use is equipped not only with a transition pipe, but also with a special coating that withstands the operating temperature regime in the field from -60 to 150 ° C, which extends the operational period of its interaction with aggressive and ordinary liquid media interacting with internal and external flange surfaces during operation and even during poor storage.

The disadvantages of the analogue / 1 / include a shorter service life of the joints of known compounds due to the formation of burrs, which slows down the fluid flow rate and forces unreasonably to increase the working pressure in piping systems, which dramatically reduces the operational performance of not only the passage of fluid flow, but also leads to gusts transport overhead and underwater systems for supplying liquid and particles, which collapses during the operation of the pipes, burrs, which, falling into valves and instrumentation, oputno disables accessories. A tool for automated cutting and hardening of welds is difficult to manufacture and operate and requires significant costs for the use of used aircraft turbines in gas pumping, providing a high-speed flow of air from the blowing-out beads after machining. In addition, the proper use of epoxy (powder and liquid) polyester, polyurethane and other coatings can contribute to the protection of welded joints of pipe joints from corrosion damage.

The possibility of rigid fastening with a flange of the nozzle with a protective coating determines the possibility of installing a protective sleeve in the end of the flange nozzle, which prevents weld beads from entering the fluid or aggressive medium transported through the pipeline immediately after the flange is firmly fixed to the pipeline, which reduces the possibility of failure of the valve shut-off valves, gate valves and reading water-measuring and thermal devices.

The objective of the utility model is the versatility of a new technical solution with simultaneous technical excellence in protecting against the destruction of welded joints directly from the inside of the pipe product.

The problem is achieved in that the flange with a Central passage hole, with a conical surface, the generatrix of which is located to the axis of the flange at an acute angle, with a cylindrical surface of the flange mounted in the inner hole and rigidly connected to the flange, characterized in that, from the inside and The outer surfaces of the sleeve are coated with a range of operating temperatures from -60 to 150 ° C, the coverage area of the welded joint is limited by the section of the weld along the length L.

Graphic images: figure 1 - flange; figure 2 is an example of the practical use of the flange with the sleeve.

The list of digital designations: flange (1); welded unit (2); conical surface (3); ends (4 and 6); cylindrical surface (5); Central passage hole (7); end profile (11); axis (12); sleeve (13); outer surface (14), ends (15 and 16); inner surface (17); ring facet (18); butt (19); pipeline (20); shell (21); outer surface (22); platiks (23); protrusions (24); rubber shaped seals (25 and 26); glue line (27); ends (28 and 29); weld (30); ring risk (31); protective coating (32 and 33).

Flange Description

Flange (1) with a central bore (7), with a conical surface (3), the generatrix of which is located at an acute angle to the axis of the flange, with a cylindrical surface (5) of the flange, with a sleeve (13) installed in the inner hole (7) and rigidly connected to the flange, characterized in that:

- from the side of the inner (17) and outer (14) surfaces of the sleeve (13), a protective coating (32 and 33) is applied with a range of operating temperatures from -60 to 150 ° C;

- the coverage area (33) of the welded joint is limited by the section of the weld (30) along the length L.

An example of practical use.

Flange (1) with a central bore (7), with a conical surface (3), the generatrix of which is located at an acute angle to the axis of the flange, with a cylindrical surface (5) of the flange, with a sleeve (13) installed in the inner hole (7) and rigidly connected to the flange,

performed in such a way that

- from the side of the inner and outer surfaces of the sleeve a protective coating is applied with a range of operating temperatures from -60 to 150 ° C;

- the coating area of the welded joint is limited by the section of the weld along the length L;

- in the inner surface (17) of the sleeve (13), coaxially, along the axis (12), a shell (21) is placed on the outer surface (22) of which the plates (23), protrusions (24) are installed, and / or an annular protrusion (30 ) providing axial fixation of two opposed rubber molded seals (25, 26), which are rigidly and coaxially to the axis (12) of the shell (21) and sleeve (13) are installed in it and glued by an annular seam (27), which ensures the position of the surface (22 ) shell (21) relative to the end face (16) in order to uniformly distribute the temperature from the welded joint and edeleniya burr on the surface (22);

- rubber seals (25, 26) are in contact with the inner surface (17) of the sleeve (13) and the outer surface (22) of the shell (21);

- a sleeve (13) and a sheath (21) with ends (28 and 29) are fixed with an adhesive seam (27), with technologically ensured alignment along the axis (12);

- on the outer surface (22) of the shell (21), in the middle, perform an annular risk (31).

The industrial usefulness of the new technical solution lies in the fact that the pipelines are guaranteed to be protected from penetration of the weld weld in the liquid medium supplied through the pipeline, which contributes to

high-quality operation of valve-stop equipment and pressure meters.

The economic efficiency of the new technical solution is to increase the durability of the pipeline joints, which ensures the safe operation of pipelines with acids and alkalis, including transportation of other aggressive liquid media, for example, ammonia, benzene compounds and other liquid components through the pipeline overpass.

Claims (1)

A flange with a central bore, and with a conical surface, the generatrix of which is located at an acute angle to the axis of the flange, including a sleeve with a cylindrical surface mounted in the inner hole and rigidly connected to the flange, characterized in that a protective coating is applied on the side of the inner and outer surfaces of the sleeve coating with a range of operating temperatures from -60 to 150 ° C, and the coverage area of the welded joint is limited to the area of the weld.