RU2158870C2 - Electrically welded pipe line for transportation of pulp - Google Patents

Abstract

FIELD: pipe lines for transportation of loose materials. SUBSTANCE: proposed pipe line is made in form of hollow cylinder. Cylindrical portion of pipe line consists of two members of semi-circular profile with different walls interconnected by means of longitudinal side seams. EFFECT: operation of pipe line till complete wear without preventive turning around longitudinal axis. 2 cl, 1 dwg

Description

 The invention relates to the hydrotransport of bulk materials and can be used in the mining industry, in particular in coal for pressure hydrotransport of rock mass from the bottom to the dewatering complex.

 Known seamless hot-rolled, seamless cold-rolled and cold-drawn carbon steel pipes made in the form of hollow cylinders with walls of the same thickness along the entire perimeter (S.P. Turchaninov. Durability of hydrotransport pipelines. "Nedra", M., 1973, p. 129).

 Known electric-welded pipe, adopted as a prototype, made in the form of a hollow cylinder with walls of constant size around the circumference of the pipe with a longitudinal side electric welding seam (see source, mentioned above).

A common drawback of the above pipelines for transporting slurry is that they are made with walls of constant size over the entire circumference of the profile, and therefore the service life of the pipeline is determined by the condition of the lower part of the pipeline, which wears out more intensively than other sections. In order to extend the life of the pipeline, the latter is rotated through an angle equal to 180 ^o , which determines the additional costs of dismantling and installation work.

 The objective of the proposed technical solution is to create a pipeline that works until it is completely worn out without its preventive rotation around the longitudinal axis.

 The task is achieved due to the fact that the cylindrical part of the pipeline is made of two semicircular elements with side walls of different thicknesses connected to each other by two longitudinal side seams, while the thick-walled pipe element occupies the lower (bottom) position when installing the pipeline.

 The proposed design of the pipeline allows to increase its life compared to the prototype without producing a volume of dismantling and installation work on the preventive rotation of the pipes around the longitudinal axis.

 The drawing shows a cross section of a pipe for transporting pulp.

 The pipe (Fig. 1) contains two elements 1 and 2, while element 2 is made with a thicker wall than element 2, by an amount that ensures that both elements are equally resistant to the abrasion process, which is determined by existing methods or from operating experience. The manufacture of elements is carried out by pressing, while ensuring the equality of the radii of the outer surfaces of both elements.

 Elements 1 and 2 are superimposed, clamped and welded on both sides by electric welding, forming two longitudinal side seams 3. Flanges (not shown) are welded to the ends of the pipes for bolt connection, or for connection using a quick-disconnect wedge connection. For the correct orientation of the pipe during installation of the pipe stand on element 2, a mark 4 is provided, for example, in the form of the letter "H", made by electric welding.

 A correctly mounted pipeline ensures operation in the mode of hydrotransport of the pulp during the entire period of its operation without preventive rotation of it around the longitudinal axis, thereby drastically reducing the cost of its operation.

Claims (2)

 1. An electric-welded pipeline for transporting pulp, made in the form of a hollow cylinder, characterized in that the cylindrical part of the pipeline is made of two elements of a semicircular profile with walls of different sizes, connected to each other by two longitudinal side seams.  2. The electric-welded pipeline according to claim 1, characterized in that the thick-walled pipe element is provided with a mark for orienting it in the lower position when mounting the route.