RU2614072C1 - Combined drainage of earthworks - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: combined drainage containing two types of drains, consisting of interconnected flexible and gabion mattresses made of dense rows of light fascines, perforated pipes and lattice shells. One of these types - the batter drainage 1 is arranged in staggered stacked gabion mattresses 3 with drainage devices and flexible meshes 8 of fiberglass materials reinforcing the ground mass. Gabion mattresses 3 are made of light fascines and perforated pipes, which are laid in alternating rows into gabion mesh shell to which along the base 3 of the mattresses and throughout their length the flexible reinforcing meshes 8 of fiberglass material are attached. The flexible reinforcing fiberglass meshes 8 of gabion mattresses 3 in step manner are cut into the soil mass of lower slope at the altitude of drainage to form reinforced ground structure. The second kind of drainage - horizontal 2 - is arranged at the base of the lower slope with access to the downstream along its bottom and is made of two layers of mattresses, the first layer - water intake part 9 of flexible mattresses 4, laid horizontally along the base of the lower slope and the bottom of the downstream, and the second layer of gabion mattresses 3 is laid above rows of the first layer of flexible mattresses 4 along the normal line to it and along the seepage output line. At the foot of batter drainage 1 at the bottom and on top of the output end of the horizontal drainage 2 the stone backfill 11 is arranged. the combined drainage can be most effectively used in critical conditions of rivers of plains and foothill areas, where low pressure earthen dams and dikes of fine sand and clay soils are erected.

EFFECT: improved operating efficiency of the drainage device.

5 dwg

Description

The invention relates to drainage devices and can be used to protect low-pressure earthen dams and dams from possible filtering deformations of the soil of the body and the foundations of structures.

Known combined drainage device containing banquet and overflow drainage made of sand-gravel and stone materials [1]. The main disadvantages of this technical solution are the need for a large amount of stone and sand-gravel material and the complexity of the work on laying inverse filters.

The closest technical solution is “Combined drainage of biopositive design”, which contains banquet and overflow drainage [2]. The overhead and banquet drains consist of flexible and gabion mattresses, interconnected and attached to anchor devices laid above the overhead drainage in the lower slope. Flexible and gabion mattresses are made of dense rows of light fascines, perforated pipes and mesh shells.

The disadvantage of the closest technical solution is the complexity of the design, as well as low operating efficiency in the presence of ascending filtration flows at the base of the structures.

The purpose of the invention is improving the efficiency of the drainage device.

This goal is achieved by the fact that in a combined drainage containing two types of drainage, consisting of flexible and gabion mattresses, interconnected and made of dense rows of light fascines, perforated pipes and mesh shells, one of these types of layered drainage is made up of stepwise laid gabion mattresses with drainage devices and flexible reinforcing ground mass nets made of fiberglass materials, the gabion mattresses themselves are made of light fascin and perforated pipes, which are laid in alternating rows ladies in a gabion net shell, to which flexible reinforcing nets made of fiberglass materials are attached at the base of the mattresses and along their entire length, 3 or more times wider than the width of the mattresses, and at the same time, flexible reinforcing fiberglass nets of gabion mattresses are stepped into the ground mass of the bottom slope along the drainage height so that the depth of cuts goes beyond the line of the depression curve of the filtration flow, and the second type of drainage - horizontal is arranged at the bottom of the slope with access to the downstream along the bottom and is made of two layers of mattresses, the first layer of flexible mattresses is laid horizontally along the bottom of the bottom slope and the bottom of the lower pool, and the second layer of gabion mattresses is folded on top of the rows of the first layer of flexible mattresses normal to them and along the outlet line of the filtration flow, and stone filling soles at the bottom and on top of the output end of the horizontal drainage have a stone backfill of gravel and pebble soils.

In FIG. 1 shows a cross section of an earth structure (dam or dam) along the axis of the combined drainage; in FIG. 2 - a fragment of a plan of combined drainage with a horizontal section; in FIG. 3 - a gabion mattress made of light fascines and perforated pipes wrapped in a gabion net; in FIG. 4 - flexible mattress made of light fascia wrapped in a geogrid; in FIG. 5 - light fascia.

Combined drainage consists of overhead drainage 1 and horizontal drainage 2 made of gabion mattresses 3 and flexible mattresses 4. Gabion mattresses 3 are made of light fascin 5, perforated polymer pipes 6, gabion (metal) mesh 7 and flexible mesh grids 8 of 8 reinforcing fiberglass materials. The horizontal drainage 2 is made up of two layers of mattresses, the first layer is the water intake part 9 made of flexible mattresses 4 made of light fascines 5 and the geogrid 10. On top of the water reception part 9 a second layer of drainage 2 is made of gabion mattresses 3 laid normally to the rows of the first layer (water receiving part) 9 and in the direction of the outlet line of the filtration stream. At the base of the overflow drainage 1 and on top of the end part of the horizontal drainage 2, a stone backfill 11 from gravel-pebble soils is provided.

Combined drainage of earthworks is constructed as follows.

All elements of combined drainage are made manually at the installation site with the partial use of mechanical devices. Initially, for the manufacture of light fascia 5, gabion 3 and flexible 4 mattresses, dry reeds are pre-harvested in the required volume, as well as geogrids and gabion nets are cut in the required quantity according to the size of the flexible and gabion mattresses. Then fiberglass flexible reinforcing nets (basalt mesh) 8 and perforated polymer pipes 6 (diameter 40-50 mm) according to the size of gabion mattresses 3 are cut to size and prepared. Flexible and gabion mattresses 4 and 3 are prepared from these materials. Gabion mattresses 3 and flexible mattresses 4 can have the following sizes: 30 × 20 × 120 cm, 35 × 25 × 150 cm, 40 × 30 × 200 cm, and others. After that, the required number of gabion mattresses 3 with reinforcing flexible nets 8 attached to them is made for in-line drainage 1. Next, a foundation pit is developed at the bottom of the lower slope and a platform is planned at the base for erecting horizontal drainage 2. Throughout the entire area of the base in the area of the outlet of the bottom filtration flow downstream (NB) and along the direction of the bottom of the bottom slope lay the first layer of horizontal drainage of flexible mattresses 4. A second layer is normally laid on top of the first layer to them the third layer of horizontal drainage 2 of the gabion mattresses 3, interconnected using galvanized wire. Further, the horizontal drainage 2 is filled with soil (with compaction) to the downhill line so that the end (output) part of the horizontal drainage 2 at the bottom of the sewer remains open. Then, along the entire length of the overhead drainage, a downhill slope is developed to the depth of insertion of the reinforcing elements (flexible nets) 8, then, starting from the bottom of the slope and the second row of horizontal drainage 2, stepwise gabion mattresses 3 with flexible nets reinforcing the soil are laid in dense rows along the slope line 8 At the same time, the first layer of ramp mattresses 3 is laid at the level of the top of horizontal drainage 2 with an inset of reinforcing flexible nets 8 in the lower slope (further than the outlet line of the filtration stream) and the developed one is poured on top of them Runt sealingly and leveling to the level of the top of the mattresses 3. The second layer 3 mattresses stacked to form a step, i.e., with moving to the side of the ground mass of the bottom slope up to half the width of the mattresses 3 of the first layer, then the soil is also poured and compacted on top of the reinforcing flexible grids 8 to the level of the top of the mattresses 3 of the second layer. Thus, all the other stages of the overhead drainage 1 are built to a level of 1.5-2 m above the level of the possible output of the filtration stream. The type and thickness of the flexible reinforcing mesh 8 (made of fiberglass materials) is taken from the condition of ensuring the stability of the bottom slope and the filtration strength of the soil. The width of the reinforcing nets 8 should be no less than three times wider than the width of the gabion mattress 3. In the lower pool, a stone prism (backfill) 11 from gravel-pebble soils is arranged on top of the horizontal drainage 3.

Combined drainage as part of earthworks works as follows.

During operation, filtration water, moving under the influence of hydrostatic pressure from the upstream side (WB) through the soil pores of the dam or dam body and their base, enters the zone of water-receiving parts of drains 1 and 2. Then gabion mattresses 3 with drainage devices and flexible mattresses 4 freely take water because of their high water permeability and pass part on the downhill slope, and part in the drainage row of horizontal drainage 2, consisting of gabion mattresses 3. And when the mattresses 3 are saturated to the top, water will easily flow through the pipe bam 6 and fascin 5 on a bias in NB. Flexible mattresses 4 and gabion mattresses 3 provide a safe intake and removal of filtered water through the body and foundation of the earthen structure. Stability and durability of the drainage structure is ensured by mattresses 3 and 4, reinforcing the bottom slope soil with fiberglass elements (nets) 8. In the design of the drainage, the main filtration material is dry reeds - a fairly resistant and durable natural material that works effectively in an aqueous environment and is a highly draining material . Flexible and gabion mattresses used in drainage, including play a reclamation role, retaining moisture for a long time. Over time, overhead drainage 1 and partially horizontal drainage 2 will overgrow with green plants. As a result, combined drainage will turn into a biopositive structure that does not impede the circulation of substances and energy, helps the development of nature and is included in the river’s ecosystem, and is also perceived by nature as a related element.

The combined drainage of the proposed design can be most effectively used in difficult-to-reach conditions of rivers in their flat and foothill sections, where low-pressure earthen dams and dams from fine sand and clay soils are erected.

Information sources

1. Waterworks. Designer reference. / Under the general editorship of Dr. tech. sciences, prof., V.P. Nedrigi. - M .: Stroyizdat, 1983, p. 172-173, p. 491.

2. Patent No. 2400596, Е02В 3/00, 2010. Combined drainage of a biopositive structure / Kurbanov S.O., Kurbanov K.S.

Claims (1)

Combined drainage containing two types of drainage, consisting of flexible and gabion mattresses, interconnected and made of dense rows of light fascines, perforated pipes and mesh shells, characterized in that one of these types of layered drainage is made up of stepwise laid gabion mattresses with drainage devices and flexible grids reinforcing the soil massif of fiberglass materials, the gabion mattresses themselves are made of light fascines and perforated pipes, which are laid in alternating rows in the gabion a mesh shell to which flexible reinforcing nets made of fiberglass materials with a width of 3 or more times the width of the mattresses are attached at the base of the mattresses and along their entire length; at the same time, the flexible reinforcing fiberglass nets of gabion mattresses are stepped into the ground massif of the bottom slope along the drainage height so that the depth of the cuts goes beyond the line of the depression curve of the filtration flow, and the second type of drainage - horizontal is arranged at the bottom of the slope with access to the downstream along its bottom and is made of two layers of mattresses, the first layer of flexible mattresses is laid horizontally along the bottom of the downhill slope and the bottom of the lower pool, and the second layer of gabion mattresses is folded on top of the rows of the first layer of flexible mattresses normal to them and along the outlet line of the filtration flow, and at the bottom of the overflow drainage at the bottom and top of the output end part of the horizontal drainage, a stone backfill of gravel and pebble soils is arranged.

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