SU1654418A1 - Culvert - Google Patents

Abstract

The invention relates to the construction of culverts on railways and highways. The purpose of the invention is to increase the reliability in working on thick earth soils. The water throughput construction contains a pipe 1 installed in the body of the foundation on base 3, which is formed by prisms 4. A flexible material 5 is placed on the lateral surfaces of the prisms 4, the outer layer 7 of the flexible material is connected to the base 3, and the lateral surfaces of the prisms 4 orthogonal to the outer surface of the pipe 1. In winter, the forces of frost heaving are perceived by the side surfaces 6 of the prisms 4, made of flexible material 5, to prevent the raising of the pipe 1. 1 Il.

Description

The invention relates to the construction of culverts on railways and roads.

The purpose of the invention is to increase reliability in work on heaving soils.

The drawing shows a culvert, cross section.

The culvert includes a pipe 1 located in the body of the embankment 2 on the base 3. The base 3 consists of soil layers forming prisms 4 of a trapezoidal cross section. Prisms 4 are enclosed one into the other, with each prism 4 being surrounded along its perimeter by flexible material 5. The lateral surfaces 6 of the prisms 4 are orthogonal to the outer surface of the pipe 1. In this case, the outer layer 7 of the flexible material 5 is connected to the base

3.

A culvert is constructed in the following order.

Open the pit and prepare the platform for the base 3. On the prepared base 3, flexible material 5 is laid sequentially in several layers of different lengths, for example strips of synthetic geotextile material dornite, bilim and other tensile materials. Shields are installed along the pipe and the panels of flexible material 5 are inserted, limiting the internal prism 4 of the trapezoidal section. After layer-by-layer filling and tamping of the incompressible soil of prism 4, the edges of the canvases are connected to each other. The shields are removed and installed again to form the prism 4 external relative to the previously formed. The process is repeated until the last prism 4 of the base 3 is laid. The last panel bounding the external prism 4 is brought to the side of the foundation pit. The pipe 1 is installed and the joints of the pipe sections are waterproofed 1. The outer layer 7 of the flexible material 5 is formed around the pipe 1. Then, the embankment 2 is poured in layers and compacted.

Culvert works as follows.

In the autumn period, characterized by intensive accumulation of moisture in the soil, the outer layer 7 and panels of flexible material 5 of the base 3 work as drainage elements that contribute to the removal of moisture from the soil surrounding the pipe 1.

In winter, at the first stage of freezing, characterized by the occurrence of initial heaving at the surface of embankment 2 and soil around the pipe 1, the pipe body is compressed by the heaving forces acting in the same direction as the heat flux.

In the second stage, at the time of the formation of a single permafrost front around the pipe 1, the forces of frost heaving act perpendicular to the outer surface of the pipe

1. At the same time, the forces of frost heaving are perceived by the side surfaces 6 of the prisms 4 made of flexible Material 5. preventing the tube from being lifted.

The outer layer 7 of the flexible material 5, as a waterproofing pipe 1, redistributes the load from the soil of the embankment 2 to the base 3 and prevents stretching of the links of the pipe 1.

The increase in the size of the sole of the base 3 contributes to an even distribution of the load from the moving load, the soil of the embankment 2, pipe 1, reduces the settlement of the culvert.

Claims (1)

Claim A water throughput construction containing a pipe installed in an embankment on a foundation formed by a primer enclosed between layers of flexible material, characterized in that, in order to improve the reliability of working on heaving soils, closed prisms placed one into another are formed, the lateral surfaces of which are orthogonal to the outer pipe surface.