RU2032019C1 - Method for erecting embankment from improvised materials - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: method involves filling an embankment in conjunction with railway transport by an excavator moving through drain ditch dug in advance in embankment footing and filled with crushed rock to the excavator level. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to hydraulic engineering construction and can be used in the construction of dams of the landslide of alluvial tailings and hydraulic dumps.

 The purpose of the invention is to reduce the cost of building a dam when erecting it on water-saturated non-rocky soils.

 In FIG. 1 shows a dam, a cross section; figure 2 is a diagram of the development of a drainage ditch at the base of the dam; figure 3 is a diagram of the filling of the drainage ditch with rock, dumping of the lower tier of the anti-filter element of the dam, fastening the upper slope and a persistent prism; in FIG. 4 is a diagram of the dumping of the upper tier of the dam filter element.

 The dam includes the lower tier of the antifiltration element 1, a persistent prism 2, and the upper tier of the antifiltration element 3. A drainage ditch 4 filled with crushed rock is buried at the base of the dam.

 The lower tier of the anti-filtration element is made in the form of an upper prism, and its upper tier is in the form of a screen. The basis of the latter can serve not only as the crest of the lower tier of the antifiltration element, but also washed in front of it when filling the tailings (hydraulic dump) of the material (tails) 5.

 On the upper slope of the anti-filtering element of the dam, a fastening 6 in the form of a stone outline can be placed.

 The method is as follows.

 Initially, with a single-bucket excavator equipped with a dragline or backhoe, a drainage ditch is developed at the base of the dam along the path of movement of a quarry excavator that dumps her body. In this case, the developed soil is moved to a temporary dump located along the drainage ditch 4 or directly to the lower tier of the dam filter element 1.

 As the drainage ditch 4 is developed, it is covered with crushed rock to the level of installation of a dump excavating quarry excavator. The latter is also used to fill the drainage ditch.

 Filling the ditch with a career excavator is carried out to the level of its installation forward along the direction of travel, with the lower sub-stage. The first section of the ditch with a length of 10-20 m can be bombarded with dump trucks and a bulldozer. The device of the drainage ditch allows you to accelerate the consolidation of the soil at the base of the dam and to place a quarry excavator used to fill the dam 1.5-2.0 m below its surface. At the same time, the depth of the drainage ditch should be such that a layer of rock sprinkled under the tracks of a quarry excavator ensures its stable position. The width of the drainage ditch at the excavator installation level must exceed the width of its caterpillar track.

 Water entering the drainage ditch may not be discharged if it does not interfere with the operation of the mining excavator. If necessary, this water is discharged outside the drainage ditch (into the drainage system of the enclosing structures of the tailing dump and the adjacent territory, into the pond of recycled water supply, etc.).

 As a quarry excavator moves along the drainage ditch filled with rock, the latter is broadened above the excavator installation horizon towards the downstream to the bottom of the lower slope of the constructed dam. The trench developed at the base of the dam can be widened by the excavator and towards the upstream to the anti-filter element 1. The soil developed at the base of the dam is poured into the lower tier of the anti-filter element 1. At the same time as the excavator, the dam and soil from the temporary dump are moved to the lower tier of the dam, if the latter is covered during the development of the drainage ditch.

 The persistent prism of the 2 dams is poured back by a quarry excavator along the course of movement along the drainage ditch filled with rocky rocks (upper sub-level).

 At the same time, it is advisable to alternately fill the rocks with the excavator in the drainage ditch and the prismatic prism of the dam without significant advance on the front of the work. In parallel with the dumping of the persistent prism by a mining excavator, it is possible to pour off the fastenings 6 of the lower tier of the dam filter element.

 Material for filling the drainage ditch, as well as the device of the persistent prism and fixing the dam, is delivered directly to the quarry excavator (into the excavation pit) by rail - dump trains (turntables). For its delivery, a railway line is laid along the bottom of the lower slope of the constructed dam. After dumping the thrust prism and the lower tier of the anti-filtration element of the dam, the material 5 stored in the tailing dump (hydraulic dump) is washed before the last, from which the upper tier of the anti-filtration element 3 of the dam is then dumped with an excavator or a bulldozer. A stone sketch can be dumped on its horse slope using dump trucks and a bulldozer.

 The present invention allows the construction of embankment dams with powerful mining equipment in the process of dumping on weak water-saturated soils.

Claims (1)

 METHOD FOR BUILDING A DAM FROM LOCAL MATERIALS, including dumping the lower tier of the dam barrier element from the soils developed at its base, dumping the thrust prism and upper tier of the dam barrier element, characterized in that, in order to reduce the cost of building the dam when erecting it on water-saturated, not saturated the construction of the dam begins with the development of a drainage ditch buried in its base, which is then filled up with crushed rock formations to move ambu excavator.

Images