RU191872U1 - Thermal insulating direction of the borehole - Google Patents

Abstract

The thermally insulating direction of the borehole relates to the oil and gas industry and is used, in particular, for connecting pipes when drilling wells in areas of permafrost. The technical result of the utility model is to simplify the design and installation. The technical result is achieved in that in the thermally insulating direction of the borehole, consisting of by means of flange connection of sections, each of which contains internal and external pipes and heat-insulating material placed between them second material, according to the utility model, the flange is rigidly attached to both the inner and the outer pipe of each section, with the areas for fastening elements on the outer pipe sections are each box-shaped groove with inner walls.

Description

The thermally insulating direction of the borehole refers to the oil and gas industry and is used, in particular, when connecting pipes when drilling wells in areas of permafrost.

According to patent RU 74415, a thermally insulating direction is known containing inner and outer pipes and a heat insulating material placed between them, characterized in that the direction is collapsible from the upper and lower parts, in the joint zone of which the inner pipes protrude from the outer pipes and are interconnected flanges, the joint zone is overlapped by the shell, while the cavity between the shell and the inner pipe is filled with insulating material, and fasteners for temporary fixation are made on the outer pipe of the lower part ation ribs for support in the borehole wall during the mounting direction.

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.

Closest to the claimed technical solution is the well-known heat-insulating direction of the borehole, known according to the patent RU 158353, made collapsible from the upper and lower sections, each section of which contains an inner and outer pipe with heat-insulating material placed between them, in the joint zone of the sections, the inner pipes protrude from outer pipes and provided with interconnected flanges, consisting of two or more sections, each of which, in the joint zone, has ends of the inner pipe protruding from the outer pipe besides, the lower end of the inner pipe of the upper section is connected to the upper end of the inner pipe of the lower section by means of a flange connection, the cavity in the joint zone of the upper and lower sections between the outer pipes and connected by means of a flange connection by the inner pipes of the upper and lower sections is blocked at least two heat-insulating shells, which are externally covered by a shell, and fasteners for temporary fixing of ribs for support are installed on the outer pipes of each of the lower sections thermally insulating directions to the walls of the well during installation.

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 in that in the thermally insulating direction of the borehole, consisting of sections connected by means of a flange connection, each of which contains an inner and an outer pipe and a heat-insulating material placed between them, according to a utility model, the flange is rigidly attached to both the inner and the outer the pipe of each section, while in the sections for fasteners on the outer pipe of each section box-shaped grooves are made with inner walls.

The presence of a flange rigidly attached to both the inner and outer pipes allows the pipe sections to be joined end-to-end without the use of additional insulation of the joint zone, while the presence of box-shaped grooves with internal walls on the sections intended for fasteners on the outer pipe allows the presence of thermal insulation material between the outer and inner pipes in the fastening zones. The claimed combination of essential features of the utility model allows to simplify the design due to the elimination of the use of additional structural elements designed for thermal insulation of the joint, to simplify the installation of sections with each other, due to the reduction in the number of work operations.

In FIG. 1 shows a sectional view of a thermally insulating direction of a borehole.

The thermally insulating direction of the borehole consists of sections 1 and 2 connected by means of a flange connection, each of which contains an inner 3 and an outer 4 pipe and a heat-insulating material 5 placed between them, the flange 6 is rigidly attached to both the inner 3 and the outer pipe 4 of each section while in sections for fasteners on the outer pipe 4 of each section box-shaped grooves 7 with inner walls 8 are made, threaded fasteners 9.

In the joint zone, the outer and inner pipes are welded to the plane of the flange, and the sections are connected closely by the flange of the upper section to the bottom flange. The sections are connected with threaded fasteners, for example, bolts and nuts through holes made in the flanges. The threaded connection is accessible for working with the tool and is located inside the outer contour of the outer pipe and does not go beyond the diameter of the outer pipe. In the area of the threaded connection there is a heat-insulating layer, and the volume of the structurally specified non-heat-insulated volume in this place does not exceed 0.1% of the total volume of thermal insulation of the heat-insulating direction.

Claims (1)

The thermally insulating direction of the borehole, consisting of sections connected by means of a flange connection, each of which contains an inner and outer pipe and a heat-insulating material placed between them, characterized in that the flange is rigidly attached to both the inner and outer pipes of each section, while sections for fasteners on the outer pipe of each section are made box-shaped grooves with inner walls.

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