SU1765288A1 - Water pipeline shaft - Google Patents

Abstract

Usage: in the structures of vertical sections of various steel-concrete hydraulic engineering pressure conduits. SUMMARY OF THE INVENTION: A steel pipe 1 with external annular anchoring elements 5 is mounted in a vertical excavation 2. The space between the pipeline 1 and the walls of the excavation 2 is filled with concrete 3. Elements 5 are made of round reinforcing steel rods located in planes of elements 5 along wavy lines with welding by attaching to the pipeline 1 in separate places adjacent to it. Due to the wavy shape of the elements 5, windows are formed between the walls of the pipeline 1 and the elements 5, which contributes to a more complete filling of the space between the pipeline 1 and the walls of the mine 2 with no voids. 2 ill. YO XI Os SL ND 00 00

Description

Fig 2

FIELD OF THE INVENTION The invention relates to hydraulic engineering, in particular to mines of a hydraulic engineering conduit.

A well-known hydraulic engineering conduit shaft, comprising a steel smooth-walled cylindrical pipeline 1, encased in vertical underground excavation.

A hydraulic engineering conduit shaft is also known, comprising a steel pipeline sealed in vertical development with external annular anchoring elements 2.

A disadvantage of the known construction is the high consumption of sheet metal, a significant amount of work on welding stiffeners to the shell of the pipeline. In addition, air cavities are formed under the stiffeners, to eliminate which cement mortar is injected through holes specially made for this purpose. After completion of the injection, the orifice is sealed. This requires additional overhead.

The purpose of the invention is to increase reliability, reduce metal consumption and simplify construction.

This goal is achieved by the fact that in a hydraulic conduit mine, which includes a steel pipeline in concrete construction with vertical annular anchoring elements, annular anchor elements are made of reinforcing steel rods arranged in the plane of annular anchor elements along wavy lines attached to the pipeline in separate adjacent to him places.

Figure 1 shows the steel concrete lining of the mine, general view; figure 2 is a cross section aa in figure 1.

The lining includes a steel pipeline 1, mounted in a vertical excavation 2 and covered with a layer of concrete 3 in a solution with rock 4. On the outer surface of the pipeline 1, annular anchoring elements 5 are fixed with wavy lines of reinforcing steel rods adjacent to pipeline 1 in separate places.

The dressing is performed as follows.

After penetration of the vertical development 2 in it is mounted steel pipe 1 with annular anchoring elements 5.

Then the annular space is filled with molded concrete 3. The absence of stiffeners allows maximum adhesion of concrete 3 to the shell of pipeline 1 without injecting the annular space and transferring a part of the internal pressure of water to the surrounding rock mass 4. The concrete reinforced (annular anchor - concrete) provide

operational reliability under external pressure.

Thus, the reliability of the mine operation is improved, the metal consumption is reduced, and the construction is simplified.

Claims (1)

The invention of a hydraulic engineering conduit shaft, comprising a vertical pipeline with a steel pipeline with external annular anchoring elements, characterized in that, in order to increase reliability, reduce metal consumption and simplify construction, annular anchoring elements are made of reinforcing steel rods arranged in a plane ring-shaped anchor elements along wavy lines with attachment to the pipeline in separate places adjacent to it. four. Jl 1