SU1167254A1 - Method of erecting earth dam by hydraulic mechanisation techniques - Google Patents

Abstract

1. METHOD OF CONSTRUCTION OF GROUND DAMS BY MEANS OF HYDRO-MECHANIZATION, mainly in the northern construction-climatic zone, including the construction of dike embankments in each river, alluvium, characterized in that then they are washed down, one part being washed out in the winter with freezing of the washed up soil, and the other part in the summer. 2. A method according to claim 1, characterized in that, in order to increase the filtration strength, the base is frozen under the frozen part of the dam.

Description

The invention relates to the erection of earth dams by means of hydromechanization, mainly in the northern building-climatic zone. There is a known method of damming in the dam in winter, which includes the erection of dam embankments, the installation of a pond, the supply of pulga to the surface of the ice, the heating of the soil with an electric heating cable 1. The method allows to produce high-quality laying of the soil in the form of a dam into the dam body in winter, however, the method is characterized by high power consumption and complexity of laying the heating cable into each Russian alluvium. The operation of the electric cable complicates the requirements for work safety. There is also known a method of erecting a ground dam using hydromechanization, mainly in the northern construction and climatic zone, including the construction of embankment dams in each river having washed in 2. The disadvantage of this method is the impossibility of erecting a dam without clogging the permafrost. In this case, the dam body is alternating layers of ice-ground and non-frozen soil. During operation, inevitably uncontrollable thawing of frozen ground (ice soil), which lowers the reliability of the dam. Frozen soil of winter alluvium is not compacted by 10%, and in the presence of frost, sediment can be 50-80% of the layer thickness. If we build a dam in the North in this way, then it can only be built in summer, therefore, the construction period is significantly lengthened. The purpose of the invention is to increase the reliability of the dam and reduce the construction period. This goal is achieved by the fact that each Russian wash is divided into two parts, then they are washed down, one part being washed up in winter with freezing of the soil, and the other in summer. In addition, in order to increase the filtration strength, the base is frozen under the frozen part of the dam. FIG. 1 shows a dam with large coats, a transverse section; in fig. 2 - a dam with small elevations, a transverse section. The dam consists of base 1 below the frozen part of the profile 11lot -, us, spillway wells 2, embankment dam 3, additional (separation) dam 4, interdibal space of measures:; sing part of the profile of the annual Rus 5, interdumb of the thawed part of the profile of the annual Rus 6 The method is carried out as follows. Before the construction of the dam begins, the base 1 is frozen in under the frozen part of the dam profile. Water discharge wells 2 are installed. Dam embankment 3 and additional (dividing) dam 4 are poured. The milling space of the frozen part of the annual rus 5 profile is washed away, for example, by gravel-sand m in winter in layers with the freezing of each layer. In the summer, the inter-ambient space is washed out by the thawed part of the profile of the annual Rus, for example, loam. The following year, water discharge wells 2 are increased, dumping embankments 3 are poured, additional dam 4 and alluvium are made in the same order: in winter, the interstand space 5 is frozen in layers, and in the summertime, the interstand space is erected 6. The third and subsequent Rus built up similarly. In this way, a year-round dam is washed, half of which is ice-covered. Due to the narrowing of the work front, the dam crest is washed in winter or layered in layers with soil soaking with water and freezing. To reduce the volume of dipping dams erected dry, they are dumped to a lesser height with a parallel increase as needed (Fig. 2). In this case, the annual volume of alluvialized soil is composed of several uplifts. After the reservoir has been filled, the interdigital space of the frozen part of profile 5 is an impervious element for the period of self-compacting the soil of the inter-ambient space of the thawed part of profile b, which performs the functions of the impervious element after self-consolidation. The dimensions of the interdibal space of the frozen profile 5 are assigned so that the time of its thawing is greater than or equal to the self-compaction time of the ground of the interdustical space of the thawed part of profile 6. As the frozen part thaws, the gravel-sand mixture mixes under its own weight and thus the precipitation. If the cold supply in the frozen part of the profile is insufficient (in the case of high dams), then freezing installations should be used, which can be installed along the axis of the separation dams. With their help, additional freezing of both the dam and the base is carried out. After self-compacting the thawed part of the profile and its base, the freezing system shuts down from the bottom up in the design mode, which ensures optimal conditions for the thawing of the ice soil and its self-sealing under the protection of the formed anti-filtration element - g: | dam thawed type. If you build a dam of frozen type, then you should apply the freezing system. The method allows eliminating the seasonality of work during the construction of dams by means of hydromechanization in the North. The right-bank dam, which was built only in summer, was used as the base object of the Ust-Ilimsk Prison. If it is erected according to the proposed method, it is possible to shorten the construction period by 1.5-2 times, since the summer season has a duration of only 4.5 months.

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Claims (2)

1. METHOD FOR CONSTRUCTING THE SOIL DAM BY MEANS OF HYDROMECHANIZATION, mainly in the northern construction and climatic zone, including the construction of embankment dams in each tier of the alluvium, characterized in that, in order to increase the reliability of the dam and reduce the construction period, each alluvial tier is divided into two parts, then they are washed, and one part is washed in the winter with freezing of the washed soil, and the other in the summer. 2. The method according to π. 1, characterized in that, in order to increase the filtration strength, the base under the frozen part of the dam is frozen. - \ s 1 B / ~ 4 \ 5 / 4 \ ^ <1 2 5 / s 5/3 ^^ 1 figure 1 11672 1 167254