SU1728493A1 - Lining of shaft - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to mining and for barrel trunks. The purpose of the invention is to increase reliability by increasing the carrying capacity. The lining of the barrel includes rings 1 of the inner 3, outer 4 cylinders with stiffeners 5 and radial joints 6. Opposite stiffeners 5 are connected by joints 6 and are set at a distance less than the thickness of the liner. The ribs 5 of the outer cylinder 4 are made of angles, the upper edge of the inner cylinder 3 is made of a brand, and the remaining edges are made of circular strips. The upper ribs 5 protrude above the end of the rings 1 and are connected to the cylinders of the overlying ring. 1 il.

Description

FIELD OF THE INVENTION The invention relates to mining and is concerned with lining of trunks constructed by drilling as well as by the bottoming method.

A known lining consisting of two coaxially arranged cylinders, the outer one of which is made of cast iron, and the inner one of reinforced concrete tubings.

The peculiarity of this lining is that in order to exclude groundwater from penetrating through it, the space between the inner and outer cylinders is divided into compartments with the help of hermetic diaphragms that are filled with non-solidifying liquid. This lining eliminates the penetration of groundwater through it, but far from sufficiently provides an increase in high bearing capacity when exposed to large hydrostatic, soil and seismic loads, since it does not work as a single structural element, since

the space between the lining cylinders is filled with a liquid medium, the joints between the tubings are not equal in strength to the latter, and the distance between the diaphragms forming the compartments is larger than the total (of two cylinders) lining thickness. Closest to the proposed technical essence and the achieved result is a steel concrete lining consisting of rings made of coaxially arranged steel cylinders with anchors in concrete placed between the cylinders.

A disadvantage of the known lining is that the cylinders are interconnected by stiffeners, the distance between which is several times greater than the distance between the cylinders, which sharply limits its reliability and carrying capacity when exposed to large hydrostatic,

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groundwater, including seismic loads.

The purpose of the invention is to increase the carrying capacity of the lining.

This is achieved due to the fact that in the steel-concrete lining, including rings, made of internal and external steel cylinders with stiffeners and radial connections, opposite stiffeners; radially interconnected and mounted at a distance from one another, less lining thickness, with the ribs of the outer cylinder made of angular cross-section, the upper ribs of the inner cylinder - T-shaped cross-section, and the other ribs of the inner cylinder - in the form circular strip, with the upper ribs of the cylinders of each ring protruding above its end and connected to the cylinders of the overlying ring.

The drawing shows a steel concrete lining, being erected, in the process of building the trunk in a downward manner.

The steel lining consists of rigidly interconnected rings 1, each of which is made of an internal steel cylinder 2, equipped with stiffening ribs 3, and an external steel cylinder 4 with stiffening ribs 5, which are fixedly attached to the ribs 3 by links 6. As you dive knife part 8 with lining last increase in the level of forshakhty 9,

The ring is assembled from several single size elements, each of which is made up of the respective parts of the inner 2 and outer 4 cylinders with stiffeners 3 and 5 interconnected by links 6. The elements in the ring and the stiffener ring are connected tightly with a shzom, whereupon the concrete mix 7 is placed in the space between the cylinders 2 and 4 at the level of the cylinder end and again as the lining is immersed, the process of increasing it at the level of the forshakhty 9 is repeated.

In the manufacture of elements of the lining ring, each of the outer sheets forming the cylinder 4 is made shortened at the ends, which makes it possible

maintenance of welding operations. when docking stiffeners of adjacent elements.

For attachment to the ribs of the outer sheet, the slits are made at intervals through the latter. The edges of the slots are welded to the ribs 5, while filling the entire slot with a welding seam. After assembling the elements into ring 1 and joining all the stiffeners between the elements, the opening formed by the shortened sheets on the elements is covered with one sheet, welding it through the slots to the ribs and to the ends of the shortened sheets. If necessary, the outer surface of the lining may be coated with anti-corrosion

by layer.

The proposed steel concrete lining of the barrel with cylinders equipped with stiffening ribs and radial links fixedly fastened to each other through the ribs fully accomplishes the set goal — an increase in the carrying capacity.

Formula of invention

Barrel lining including rings made of inner and outer steel cylinders with stiffeners and radial braces, characterized in that, in order to increase reliability

lining due to the increase of its carrying capacity, opposite stiffening ribs are interconnected by radial connections and set at a distance from one another, less lining thickness, with

In this case, the stiffeners of the outer cylinder are made of angular cross-section, the upper stiffener of the inner cylinder is made of T-shaped cross section, and the remaining stiffeners of the inner

the cylinder is in the form of a circular strip, with the upper ribs of the cylinders of each ring protruding above its end and connected to the cylinders of the overlying ring.

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Claims (1)

Claim The lining of the barrel, including rings made of inner and outer steel cylinders with stiffeners and radial connections, characterized in that, in order to increase the reliability of the lining by increasing its bearing capacity, opposite stiffeners are interconnected by radial connections and are installed at a distance of one from another, smaller than the thickness of the lining, while the stiffeners of the outer cylinder are made of angular cross section, the upper stiffener of the inner cylinder is T-shaped transverse with cheniya and the rest of the inner cylinder ribs - in the form of a circular strip, the upper stiffener ring of cylinders each formed protruding over its end and connected with the cylinders of the overlying ring.