RU188535U1 - Thermal insulation pipe module - Google Patents

Abstract

Thermal insulation pipe module refers to the oil and gas industry and is used, in particular, when connecting pipes when drilling wells in permafrost areas. The technical result of the utility model is to simplify the design and installation. of which contains inner and outer pipes and heat insulation material placed between them, according to the utility model, is rigidly fixed on the first outer pipe ene sleeve for connecting and centering parts which comprises openings aligned with the openings in the second outer pipe, wherein the connection with the second sleeve outer pipe effected by means of bolts.

Description

Thermal insulation pipe module relates to the oil and gas industry and is used, in particular, when connecting pipes when drilling wells in permafrost areas.

According to patent RU 160010, the thermally insulating direction of the borehole is known; it is made collapsible, each section of which contains an internal and external pipe and an insulating material placed between them, characterized in that it consists of two or more sections, each of which, in the joint zone, has an end of the inner pipe protruding from the outer pipe, the lower end of the inner pipe of the upper section being connected to the upper end of the inner pipe of the lower section by means of a threaded coupling of the joint, and the joint zone is external x pipes of each section is blocked by a shell, and each cavity between the shell and connected to each other by means of a threaded coupling connection of the inner pipes is filled with insulating material.

A disadvantage of the known device is the complexity of the design of the connection and the complexity of installation.

The closest to the claimed technical solution is a thermally insulated direction, known from patent RU 74415, which contains an inner and outer pipe and an insulating material placed between them, characterized in that the direction is made collapsible from the upper and lower parts, in the joint zone of which the inner pipes protrude from external pipes and fitted with interconnected flanges, the joint zone is blocked by a shell, while the cavity between the shell and the inner pipe is filled with insulating material, and The outer pipe of the lower part is equipped with fasteners for temporary fixation of the ribs to support the walls of the well during the mounting process.

A disadvantage of the known device is the complexity of the design of the connection and the complexity of installation, due to the need to isolate the joint.

The technical result of the claimed utility model is to simplify the design and installation.

The technical result is achieved by the fact that in a thermally insulating pipe module consisting of sections, each of which contains an inner and outer pipe and an insulating material placed between them, according to the utility model, a sleeve is rigidly fixed on the first outer pipe to contain parts , combined with the holes in the second outer pipe, while connecting the sleeve with the second outer pipe through bolts.

The implementation of the connecting element in the form of a sleeve rigidly fixed on the first outer pipe, allows you to clearly position the pipe relative to each other during installation, the presence of the sleeve allows you to connect the pipe butt, which eliminates the need for additional isolation of the joint zone, the mounting of the sleeve located on the first outer pipe the outer pipe by means of bolts eliminates the use of flange connections, this simplifies the design of the connection and simplifies installation.

The essence of the claimed utility model is illustrated by the figure:

FIG. 1 shows a thermally insulated tubular module in section.

Thermal insulating pipe module consists of sections, each of which consists of inner 1 and outer 2 pipe and insulated material 3 placed between them, the sleeve 4 is rigidly fixed on the outer wall of the first outer pipe to connect and center the parts, which contains holes 5, aligned with the holes 6 in the second outer tube, wherein the sleeve 4 is connected to the second outer tube by means of bolts 7.

To connect the sleeve with the second outer pipe by means of bolts on the inner side of the holes in the second outer pipe, nuts can be fixed by welding, or threads can be cut in the holes. A sleeve for connecting and centering the parts is fixed to the outer part of the first outer pipe by welding.

The constituent elements of the structure are manufactured in the factory and used in finished form. The Assembly (installation) of the insulating pipe module is as follows. A second (upper) pipe is installed in the sleeve on the first (lower) pipe, the sleeve is connected to the second pipe using bolts, the direction is lowered to a predetermined depth, and further drilling is performed through the direction. For flange connection, bolts (nuts) are tightened with an open-end wrench. With the transverse arrangement of the bolts can be tightened with an end wrench or head using a wrench.

Claims (1)

Thermal insulating pipe module consisting of sections, each of which contains an inner and outer pipe and an insulating material placed between them, characterized in that a sleeve for connecting and centering parts is rigidly fixed on the outer wall of the first outer pipe, which contains openings aligned with holes in the second outer tube, wherein the sleeve is connected to the second outer tube by means of bolts.

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