RU139345U1 - COUPLING FLANGE PROTECTED FROM INTERNAL CORROSION - Google Patents

Abstract

Usage: the manufacture of a flange with a pipe that is protected from internal corrosion, which can be used in the construction of pipelines using steel pipes lined with plastic pipes in various industries for the transportation of aggressive environments, for example, oil, gas, chemical, oil refining and housing and communal services the farm. EFFECT: increased reliability of corrosion protection of a welded joint of a flange with a nozzle, as well as their welded joint with a pipe lined with a plastic pipe. The essence of the invention: that in a flange with a pipe protected from internal corrosion, including a flange, pipe, welded joint and inner coating, where it is new that a steel sleeve is installed and fixed inside the flange with pipe, the inner end of which is glued with sealant to inner coating of the end of the flange, weldment and part of the pipe. In the flange, a smooth transition is made using sealant from the inner surface of the sleeve to the inner surface of the flange with an inner coating. In the flange, the inner end of the sleeve is protected against corrosion by coating. In the flange, at the ends of the nozzle and the steel sleeve, a chamfer is made for welding. 3 s.p. f-ly, 1 ill.

Description

The utility model relates to the manufacture of fittings with an internal coating that can be used in the construction of pipelines using steel pipes lined with plastic pipes in various industries for transporting aggressive media, for example, the oil, gas, chemical, oil refining and housing and communal services .

A utility model is known: Combined flange, characterized in that the shaped profile of the housing with a central passage hole, two opposed projections with conical surfaces with generators located at an acute angle to the axis of the flange, containing an annular protrusion with holes of a combined flange containing an annular protrusion with an end made with the possibility of rigid connection with a sleeve of a ring shape, with a bevel at the end with an inner and outer coating. (RF patent for utility model No. 59191, IPC F16L 13/02 “Combined flange”, by application No. 2006103809/22, 02/08/2006, published on 12/10/2006).

This utility model has the following disadvantages. Very low reliability of protection against corrosion damage of the welded joints of the tee pipes. That is, in a flange with a welded nozzle protected from internal corrosion, the bottleneck is the welded joint of the flange with nozzles. Stripping of welded joints is a very time-consuming process and requires special equipment to remove the internal burr forming during electric arc welding. However, the uniformity of the internal coating in the flange is not ensured due to the remaining sharp edges in the welded joint, which causes the welded joint of the flange to the nozzle to exit during the operation of the pipeline. In addition, the flange with a welded branch pipe itself is intended only for connecting pipes with an internal coating using a liner, protected from corrosion by a polymer coating. But they can not be used when connecting steel pipes lined with plastic pipes, where the ends of the plastic pipes are fixed inside the ends of the steel pipes with steel sleeves and connect such pipes by arc welding.

The technical task of the utility model is to increase the reliability of corrosion protection of a welded joint of a flange with a pipe, as well as their welded joint with a pipe lined with a plastic pipe.

The task is achieved in that in the flange with a pipe protected from internal corrosion, including the flange, pipe, welded joint and the inner coating, where new is that inside the flange with pipe installed and fixed steel sleeve, in which the inner end is glued with sealant to the inner coating of the end of the flange, welded joint and part of the pipe. In the flange, a smooth transition is made using sealant from the inner surface of the sleeve to the inner surface of the flange with an inner coating. In the flange, the inner end of the sleeve is protected against corrosion by coating. In the flange, at the ends of the nozzle and the steel sleeve, a chamfer is made for welding.

Such a design of a flange with a pipe protected from internal corrosion can improve the reliability of corrosion protection of welded joints of the flange with the pipe, as well as their welded connection to the pipe lined with a plastic pipe.

The installation and fastening of the steel sleeve inside the flange with a nozzle, in which the inner end is glued with a sealant to the inner coating of the end of the flange, the welded joint and part of the nozzle, allows you to further protect the welded joint of the flange with the nozzle from internal corrosion. Reliable sealing occurs, eliminating the ingress of the transported medium to the welded joint of the flange with the pipe. Making smooth transitions using sealant from the inner surface of the sleeve to the inner surface of the flange with the inner coating allows you to improve the dynamics of the medium transported through the pipeline. Protection of the inner end of the sleeve against corrosion by coating allows to increase its service life. The execution of the chamfer for welding at the end of the pipe and the steel sleeve allows you to reliably connect the flange with the pipe with a pipe lined with a plastic pipe during the construction of the pipeline.

The utility model is illustrated by a drawing of a flange with a pipe that is protected against corrosion. The figure shows a flange with a pipe that is protected from internal corrosion, which consists of a flange 1, pipe 2, weld 3, inner coating 4, sealant 5, steel sleeve 6 and coating 7.

The assembly of the flange with a pipe protected from internal corrosion is carried out in the following sequence. An electric arc is welded to the flange 1 of the pipe 2 with the formation of the welded joint 3. Remove the inner fillet in the welded joint 3, clean the inner surface of the flange 1 with the welded pipe 2 using a shot blasting machine and apply the inner coating 4 to the surface of the flange 1, welded joint 3 and parts nozzle 2. The nozzle 2 is left unprotected by the inner coating 4 on the propagation length of the heat of welding, during which the destruction of the material of the inner coating may occur 4. Apply sealant 5 to the inner nets of the sleeve 6 and the inner coating 4 of the end of the flange 1, the welded joint 3 and part of the pipe 2. Install the steel sleeve 6 inside the flange 1 with the pipe 2. Fasten the steel sleeve 6 inside the flange 1 with pipe 2 by distributing in the radial direction using a hydraulic press, equipped with a mandrel. In this case, the inner end of the sleeve 6 is glued with a sealant 5 to the inner coating 4 of the end of the flange 1, the welded joint 3 and part of the pipe 2. Make a smooth transition with sealant 5 from the inner surface of the steel sleeve 6 to the inner surface of the flange 1 with an inner coating 4 A coating 7 is applied to the inner ends of the sleeve 6. Make welding chamfers at the ends of the pipe 2.

A flange with a pipe, protected from internal corrosion, is connected to pipes lined with plastic pipes by electric arc welding, where the ends of the plastic pipes are also fixed by steel sleeves.

Using this design of a flange with a nozzle protected from internal corrosion, the reliability of corrosion protection of the welded joint of the flange with the nozzle, as well as their welded connection to the pipe lined with a plastic pipe, is increased.

Claims (4)

1. A flange with a pipe that is protected from internal corrosion, including a flange, pipe, a welded joint and an inner coating, characterized in that a steel sleeve is installed and fixed inside the flange with the pipe, the inner end of which is glued with the sealant to the inner coating of the end of the flange, welded joint and parts of the pipe. 2. The flange according to claim 1, characterized in that a smooth transition is made using sealant from the inner surface of the sleeve to the inner surface of the flange with an inner coating. 3. The flange according to claim 1, characterized in that the inner end of the sleeve is protected against corrosion by coating. 4. The flange according to claim 1, characterized in that at the end of the pipe a chamfer is made for welding.

Images