RU135061U1 - TEE WITH BRANCHES PROTECTED FROM CORROSION BY INTERNAL COATING AND UNDERBOARD BIMETAL BUSHES - Google Patents

Abstract

1. A tee with nozzles, protected from corrosion by the inner coating and the bimetallic liners, including a tee, welds, nozzles and an inner coating, characterized in that the tee and their welded joints with the nozzles are covered with bimetallic liners and the inner ends of the liners are bimetallic and tee with nozzles glued together using sealant. 2. A tee according to claim 1, characterized in that the bimetallic bushings protrude beyond the ends of the tee tubes and rubber cuffs are installed on their outer surface. A tee according to claims 1 and 2, characterized in that the bimetallic bushings have annular protrusions on the outer surface, which abut against the ends of the tee tubes.

Description

The utility model relates to the manufacture of internally coated tees that can be used in the construction of pipelines in various industries for the transport of aggressive media, for example, in the oil, gas, chemical, oil refining and housing and communal services.

A useful model is known: a combined pipe tee, where adapters are welded to the ends from the side of 3 end protrusions, the welds are cleaned from the inside, and a protective coating is applied along the outer contour, the boundary zones of which are limited by the parameters of the welded joint, the inner surfaces of the nozzles are prepared for hard compounds with protective shells, the internal profile of the combined pipe tee is cleaned and provided with a corrosion-resistant coating. (RF patent for utility model No. 55920, IPC F16L 13/02 “Combined pipeline tee”, by application No. 2006104152/22, 02.10.2006, published on 08.27.2006).

This utility model has the following disadvantages. Very low reliability of the protection against corrosion damage of welds of nozzles with a tee. That is, in a tee with welded nozzles, protected from internal corrosion, the bottleneck is the welds of the nozzles with a tee. Stripping welds is a very time-consuming process and requires special equipment to remove the internal burr forming during electric arc welding. At the same time, the uniformity of the internal coating in the tee is not ensured due to the remaining sharp edges in the welds, which is the reason for the welded joints of the nozzles with the tee to exit during operation of the pipeline. In addition, the tee itself with welded nozzles is designed to connect to the pipeline using liners, protected by corrosion. They are very complex and time-consuming to manufacture and very inconvenient to install. The above design of welded joints with liners, protected from corrosion by a polymer coating showed very low reliability during the operation of oil field pipelines. There is a large gap between the inner surface of the nozzles and the outer surface of the liners, in order to protect the polymer coating from destruction by the heat of the electric arc welding process. This leads to a decrease by a large amount of the cross section of the pipeline, and especially in pipelines of small diameters. The decrease in the cross section of the pipeline in the places where the liner sleeves are installed on pipelines with a diameter of 89 mm is more than 45%. In addition, liners are attached to the weld of the pipeline by welding corner transitions, which does not ensure their reliability of fastening, which leads them to disrupt the flow of the transported medium.

The technical task of the utility model is to increase the reliability of corrosion protection of welded joints of nozzles with a tee, as well as their welded joints with pipes of the linear part of the pipeline during operation.

The task is achieved in that in the tee with nozzles, protected from corrosion by the internal coating and the bimetal liners, including the tee with welded nozzles and the inner coating, where the new is that the tee and their welded joints with the nozzles are covered with bimetallic liners and the inside the ends of the bimetallic liners and tee with nozzles are glued together with a sealant. In the tee, the bimetal underlay bushings protrude beyond the ends of the tee pipes and rubber cuffs are installed on their outer surface. In the tee, the bimetallic bushings have annular protrusions on the outer surface, which abuts against the ends of the tee nozzles.

This design of a tee with nozzles protected from corrosion by an internal coating and bimetallic liners allows to increase the reliability of corrosion protection of welded joints of nozzles with a tee, as well as their welded joints with pipes of the linear part of the pipeline during operation. The overlapping of the tee and their welded joints with bimetallic sleeve bushings and gluing with each other the internal ends of the bimetallic sleeve bushings and the tee with nozzles allows the welds to be sealed with the inner coating of the tee with nozzles. This is an additional protection for welds from internal corrosion. In the tee, the bimetal underlay bushings protrude beyond the ends of the tee nozzles and rubber cuffs are installed on their outer surface, which serve to protect the welded joint of the tee with the welded nozzles with the pipeline from corrosion. In the tee, the bimetal underlay bushings have annular protrusions on the outer surface, which abut against the ends of the tee nozzles and serve to secure the bimetallic underlay bushings to the welds of the pipeline.

The utility model is illustrated in the drawing. The figure shows a tee with nozzles, protected from corrosion by the inner coating and bimetal liners, consisting of a tee 1, nozzles 2, welds 3, inner coating 4, sealant 5, bushings 6 made of carbon steel, shells 7 made of stainless steel and cuffs 8 made of rubber.

Assembly is carried out in the following sequence. An arc is welded to the tee 1 of the nozzle 2 with the formation of welds 3. Remove the inner fillet in the welds 3, clean the inner surface of the tee 1 with the welded nozzles 2 using a shot blasting machine and apply the inner coating 4 to the surface of the tee 1, welds 3 and parts branch pipes 2. Branch pipes 2 are left unprotected over the propagation heat of the weld, at which destruction of the material of the inner coating may occur 4. Apply sealant 5 to the welds 3 and to the weld zones near the weld tee 1 of the connections with pipe 2. Install sleeve skid bimetal, consisting of carbon steel sleeves 6, which are internally clad shells 7 of stainless steel. The ends of the carbon steel sleeves 6 move the sealant 5. The protruding ends of the stainless steel shells 7 behind the ends of the carbon steel sleeves 6 form spaces with a tee 1 with welded nozzles 2 that fills the sealant 5. The ends of the shell 7 of stainless steel overlap the welds 3, and the sealant 5 glues the inner ends of the shells 7 with the surface of the ends of the tees 1, welds 3 and part of the nozzles 2, which allows for reliable sealing and to prevent the transported medium from getting between bechaykami 7 of stainless steel and the tee 1 with 2 nozzles.

During installation, a tee with nozzles, protected from corrosion by the internal coating and bimetal liners, is connected to the pipes of the linear part of the pipeline by electric arc welding using the well-known technology for connecting two-layer steels.

Using this design of a tee with welded nozzles, an inner coating protected from corrosion and bimetallic bushings increases the reliability of corrosion protection of welded joints of nozzles with a tee, as well as their welded joints with pipes of the linear part of the pipeline during operation.

References:

RF patent for utility model No. 55920, IPC F16L 13/02 “Combined pipeline tee”, by application No. 2006104152/22, 02/10/2006, published on 08/27/2006.

Claims (3)

1. A tee with nozzles, protected from corrosion by the internal coating and bimetallic liners, including a tee, welds, nozzles and an inner coating, characterized in that the tee and their welded joints with nozzles are covered with bimetallic liners and the inner ends of the liners are bimetallic and tee with nozzles glued together with a sealant. 2. The tee according to claim 1, characterized in that the bimetallic bushings protrude beyond the ends of the tee tubes and rubber cuffs are installed on their outer surface. 3. A tee according to claims 1 and 2, characterized in that the bimetallic bushings have annular protrusions on the outer surface, which abut against the ends of the tee tubes.

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