SU1101506A1 - Earth-fill dam - Google Patents

Abstract

GROUND DAM, erected from different-grained sandy-pebble soils by way of their bilateral washing with a pond, consists of lateral resistant prisms and a central (turf) zone, which is designed to increase reliability and efficiency. the dam by erecting it from strongly different-grained soils without their prior sand-dust fractionation, the central zone is made in the form of a prism from a rough draft, the pores of which are filled with particles of sandy-dust fractions of the soil.

Description

The invention relates to hydraulic engineering and relates to deaf dams erected from local soils.

Dams of local materials are known, including lateral prisms and a core formed by washing a homogeneous cohesive soil into a stone sketch [1].

The disadvantages of such dams are the low filtration strength of the core, caused by insufficient compaction of the soil to be washed, as well as the need 1 for complex inverse filters around the core zone.

Soil dams are also known, constructed from different-grained sand and pebble soils by the method of their double-sided washing with a pond, consisting of lateral persistent prisms and a central (nuclear) zone [2].

The smallest particles of sandy-dusty fractions of the soil are concentrated in the central zone. 2

However, not all natural peschanogalechnye primers are suitable for the construction of dam precoat, since the total content of fractions peschanopylevyh often does not exceed 15%, and for the formation of the central zo- ² us (for reclamation conditions with settling Prudkyy) must be at least 30%. It is on this basis that soil suitability is assessed in accordance with SNiP. Therefore, before using sand and pebble soils for the construction of the dam, they must be enriched in small fractions, which is not always possible or complicates the work. In addition, with the fine alluvial dam .yadernoy zone has poni- zhennoy seismic resistance _3, since abrupt shocks during an earthquake pore pressure increases in this zone, and in some cases there is a partial or complete liquefaction of the soil.

The nuclear zone of the dam, consisting of 4 fine-grained and poorly permeable soil, is relatively easily deformed under the influence of loads (dead weight, filtration forces, etc.), which also significantly impairs the strength characteristics of the structure, and ultimately its ⁴ reliability.

The aim of the invention is to increase the reliability and profitability of the dam by erecting it from very differently grained soils without first enriching them with sand and dust fractions.

This goal is achieved by the fact that the central zone is made in the form of a prism from a stone outline, the pores of which are filled with particles of sand-dusty fractions of the soil.

The design of the dam and the technology of its construction are illustrated in the drawing.

The drawing shows the lateral (upper and lower) prisms 1, prism 2 made of stone outline, the pores of which are filled (washed out) by particles of sand-dust fractions of the soil, the upper bulk part 3 of the dam, perforated pipe 4, acting as a well, along which ⁵ flows water from the pond, pipeline 5, through which pulp is fed during soil washing, pipe 6 for water drainage, settling pool 7, transition zones 8 formed from intermediate fractions of soil along the boundaries of the settling pool.

Preliminarily (prior to alluvial), prism 2 is poured along the axis of the dam along the dam axis from a stone outline and perforated drainage pipes 4 are installed (during filling) through which ⁵ water will be drained from the pond 7 during two-sided washing. Two-sided washing is carried out using pipeline 5 on which the pulp is fed. When alluvial, the lateral prisms 1 are formed from large gravel-pebble fractions, and small prisms are involved by a turbulent flow into the pores of the stone outline of the central prism 2 and fill them. The washing is continued until the conditions for laying out the soil on the beaches are fulfilled and the stable maintenance of the settling pool 7 is ensured. In this case, the pool 7 can be maintained within the boundaries of the stone-prism prism. Along the boundaries of the settling pond from intermediate fractions of the soil. transitional zones are formed 8. The upper 0 part of the dam 3 is sprinkled dry, and in the middle part of the poorly permeable soil, thereby creating a water-resistant element in the form of a composite core.

Taking into account that the rock porosity is approximately equal to 0.35, fine-grained material (sand-dust fractions contained in the washed-up soil) will be required three times less for the formation of the nuclear zone of the dam.

Claims (1)

SOIL DAM, erected from different-grained sand and pebble soils by the method of their two-sided washing with a pond, consisting of lateral thrust prisms and a central (nuclear) zone, characterized in that, in order to increase the reliability and efficiency of the dam by ₇ by erecting it from highly different-grained soils without their preliminary enrichment with sand-dust fractions, the central zone is made in the form of a prism from a stone outline, the pores of which are filled with particles of sand-dust fractions of the soil.