RU133244U1 - SPIRAL PIPE WITH HOLE PROFILE - Google Patents

Abstract

The proposed utility model relates to pipelines and can be used in the construction and repair of spiral-wound pipelines for various purposes from polyethylene, as well as in the manufacture of products using spiral-wound pipes obtained by spiral winding of a hollow profile from polyethylene. The purpose of the utility model is to reduce the cost of construction and operation, as well as to increase the reliability of the spiral pipe and their products. The essence of the utility model lies in the fact that a spiral-wound pipe with a hollow profile, including a double wall with a uniformly wound hollow profile of rectangular cross section, the sides and seams, while the hollow profile is made of polyethylene, locking and regulating devices are located in the upper and lower parts of the pipe while the profile cavity is filled with a liquid or a mixture of liquids with different densities.

Description

The proposed utility model relates to pipelines and can be used in the construction and repair of spiral-wound pipelines for various purposes from polyethylene, as well as in the manufacture of products using spiral-wound pipes obtained by spiral winding of a hollow profile from polyethylene.

Known spiral pipe made of thermoplastic with a hollow wall of a closed profile in the form of a pipe with a rectangular cross section, uniformly wound and fastened together by the sides by extrusion welding, in which the side walls of the wound rectangular profile are fastened together by extrusion welding along its entire height. The inner wall of its profile can be made smoothed from the influx of extrusion welding. At least one end cut perpendicular to the axis of the pipe can be affixed with a thermoplastic overlay of a thickness of at least 3 mm to weld the pipe segments to the joint. A closed hollow rectangular profile can be made with a ratio of height to width in the range from 0.7 ... 1.0. The ratio of the wall thickness of the hollow rectangular profile to the outer diameter of the spiral pipe can be selected in the range of 0.006 ... 0.007 (see the description of utility model No. 72036, IPC F16L 9/133 F16L 9/16, publ. March 27, 2008).

The closest technical solution is an epiral pipe with a rectangular profile of thermoplastic used in the manufacture of spirally wound, having a double wall pipe of thermoplastic of rectangular cross section with uniformly wound and fastened sides, hollow profiles and seams. The wall of the hollow profile, designed to form the inner wall of the pipe, is thicker than the wall of the hollow profile, designed to form the outer wall of the pipe. The radius of the internal rounding of the edges adjacent to the thicker wall of the hollow profile significantly exceeds the radius of the rounding of the other two edges of the cavity (see the description of application No. 2005129718, IPC F16L 9/16, published on January 27, 2006).

However, the well-known spiral-wound pipe with a rectangular profile of thermoplastic does not have the necessary strength, which allows it to be used both in pressure-free and pressure piping systems, as well as as a component in the production of various technical products; subject to frequent floating under the influence of groundwater due to the lightness of the material and the large number of empty cavities; It has low frost resistance, which is why it is necessary to place these products below the level of soil freezing, which increases construction and operating costs.

The objective of the proposed technical solution is to reduce the cost of construction and operation, as well as increasing the reliability of the spiral pipe and products made of them.

The essence of the utility model is that a spiral-wound pipe with a hollow profile, including a double wall with a uniformly wound hollow profile of rectangular cross section, the sides and seams, while the hollow profile is made of polyethylene, locking and regulating devices are located in the upper and lower parts of the pipe while the profile cavity is filled with a liquid or a mixture of liquids with different densities.

The technical result of using a finished spiral-wound pipe made of polyethylene with two locking devices and a profile cavity filled with a liquid or a mixture of liquids allows to minimize production costs, reduce construction and operating costs, reduce the depth of products, increase the service life of products, limiting their service life polyethylene, which can be up to 500 years (or the life of individual components made of polyethylene, if installed on them poured term manufacturer service).

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a side view of a spiral pipe; figure 2 shows a section of a spiral pipe.

The device contains a spiral pipe 1 from a uniformly wound rectangular profile 2, with a double wall 3 and seams 4 made of polyethylene with at least two shut-off and regulating devices of pipe fittings 5, 6, with a fluid filled with a cavity 7 or a mixture of liquids 8.

A spiral pipe 1 made of polyethylene with at least two shut-off and regulating devices of pipe fittings 5, 6 and with a liquid filled with profile cavity 7 or a mixture of liquids 8 can be used as a component in the production of various products for technical purposes, such as wastewater treatment plants, pumping stations for various purposes (sewer, plumbing and others), containers for various purposes (for storing oil products, water and other liquids) located above the level freezing of the soil, since the cavity of the profile 7 is filled with a frost-resistant liquid or a mixture of liquids 8 (ethylene glycol-water) through installed locking devices 5, which prevents the penetration and influence of low temperatures on the pumped or accumulated liquid, while the width of the joints 4 should not exceed 30 mm . At a high level of groundwater, the product is installed at the place of operation, after which the cavity of the profile 7 is filled with water 8 through the locking device 5, which increases the weight of the product and increases the resistance to the buoyancy force of groundwater. Before removing equipment in order to simplify this process, it is necessary to empty the cavity of profile 7 by opening two locking devices 5, 6. When filling cavity 7 with a mixture of liquids of different densities (antifreeze and water) 8, a liquid with a lower density (in this case, antifreeze) is concentrated in the upper part profile cavity, increasing the resistance of the product to low temperatures, and a liquid with a higher density is located in the lower part of the profile cavity 7, increasing the resistance to buoyancy.

Claims (1)

Spiral pipe with a hollow profile, including a double wall with a uniformly wound hollow profile of rectangular cross section, sides and seams, characterized in that the hollow profile is made of polyethylene, locking and regulating devices are located in the upper and lower parts of the pipe, while the profile cavity is filled liquid or a mixture of liquids with different densities.

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