RU157150U1 - FACING THE CHANNEL - Google Patents

Abstract

The lining of the channel, including an antifiltration coating of monolithic plastic sheets with hermetic fastening of materials to each other at the places of transverse and longitudinal seams by welding or gluing and fixing the antifiltration coating along the channel profile using anchors, characterized in that the channel has a trapezoidal cross section; plastic sheets used in white; a straight section of the channel down the slope is completed by a silt collector in the form of an inverted truncated quadrilateral pyramid; the sludge collector is lined on all sides - in the lower part with reinforced sheets of polymer materials, in the upper part with a rolled rubber reinforced anti-slip coating; the dimensions of the upper base of the sludge pyramid are greater than the width of the channel along the top.

Description

The utility model relates to hydraulic engineering, in particular to the construction of antifiltration coatings for irrigation canals and ponds of polymeric materials laid on a soil base.

A well-known channel lining, including facing plates laid along the channel profile with the formation of transverse and longitudinal seams, characterized in that monolithic plastic sheets with a thickness of 0.02-0.05 m and a length of 3.0-6 are used as facing plates and an anti-filter element. 0 m wide 1.0-2.0 m wide with hermetic fastening of sheets to each other in places of transverse and longitudinal seams, while fastening sheets along the channel profile is carried out using anchors monolithic in the slopes and bottom of the channel. As monolithic plastic sheets, monolithic reinforced or unreinforced sheets of polymer materials are used. The tightness of fastening sheets in places of longitudinal and transverse seams is provided by welding or gluing (patent for utility model No. 132093, published September 10, 2013 bul. No. 25).

The disadvantages of this technical solution are: high throughput of plastic sheets for sunlight, causing the development of weeds under the sheets, which can break welds and break the tightness in the joints, as well as the lack of protection of the channels from siltation.

The task is to cover the channel with high technical and technological characteristics.

The technical result is the protection of irrigation canals with a plastic coating from overgrowing and siltation while at the same time the safe exit of animals and people from them.

The technical result is achieved by lining the channel, including an antifiltration coating of monolithic plastic sheets with hermetic fastening of materials to each other at the places of transverse and longitudinal seams by welding or gluing and fixing the antifiltration coating along the channel profile using anchors, while the channel has a trapezoidal cross-sectional shape; plastic sheets are used in white; the straight section of the channel down the slope ends with a sump in the form of an inverted truncated four-sided pyramid, lined on all sides in the lower part with reinforced sheets of polymer materials, in the upper part with a rolled rubber reinforced anti-slip coating; the dimensions of the upper base of the sludge pyramid are greater than the width of the channel along the top.

The problem of overgrowing irrigation canals with weeds is very acute. The dynamics of their overgrowing was investigated in detail in the dissertation for the degree of candidate of technical sciences A. Solovyov on the topic “Improving the technology for cleaning irrigation canals by hydraulic and mechanical means” (Volgograd, 2006). He also found that evaporation losses from overgrowing channels with different slopes are increased in proportion to an increase in evaporation area by 20-30% compared with evaporation losses in ungrown channels.

In the claimed technical solution for lining the channels, white plastic sheets are used to reflect sunlight, causing the development of weed vegetation under the sheets during photosynthesis, which can break welds and break the tightness at the joints.

The experience of operating irrigation canals in concrete cladding shows that, “despite the high water speeds, up to 50% of the length of the lined canals is wilted. Sediment entering the canals mainly from the coastal surface as a result of water and wind erosion, as well as with irrigation water from the irrigation source, is distributed along the bottom and slopes. The thickness of the soil layer at the bottom of the canals can reach 0.15-0.50 m per year, and on slopes up to 0.1-0.3 m ”(Bagrov MN, Kruzhilin IP Irrigation systems and their operation / Textbook for high schools - M .: Agropromizdat -254 p.).

In the claimed technical solution, the straight section of the channel downhill ends with a sump, in the form of an inverted truncated expanded four-sided pyramid. In this case, the dimensions of the upper base of the pyramid of the sludge are laid greater than the width of the channel at the top to damp the energy of the water flow in the channel and further increase the efficiency of the process of deposition of suspended particles in water to the bottom of the sludge. Such a constructive implementation, instead of accumulating silt sediment at the bottom and slopes, provides for the collection of suspended sediment in one place - the lowest point of the channel section for subsequent removal by any known method.

A serious problem in the operation of irrigation canals is the ingress of animals and humans. People are attracted to canals by the possibility of summer bathing and water intake for household needs. Animals go to canals at a watering place, as well as to cross them on a migration path. Regarding animals, in paragraph 8.28 of SNiP 2.06.03-85 “Meliorative systems and structures” (Moscow, 19856), given the severity of the problem, it is separately emphasized that “for watering and ungulate animals entering the canals, it should be provided on the main canal route through every 800 m laid out areas. "

In the claimed technical solution for the possibility of safe exit of animals and people caught in the channels, sludges are lined in the upper part with a rolled rubber reinforced anti-slip coating.

The utility model is illustrated by the drawings:

In FIG. 1 shows a plan of the channel section.

In FIG. 2 shows a longitudinal section of a section of the channel (AA).

The lining of the channel includes an antifiltration coating of white plastic sheets 1, and the straight section of the channel downhill (i) ends with a sump 2 in the form of an expanded inverted truncated four-sided pyramid, lined on all sides in the lower part 3 with reinforced sheets of polymeric materials, in the upper part 4 - rolled rubber reinforced anti-slip coating.

Execution example.

For lining the channel with a trapezoidal cross-sectional shape, an antifiltration coating was used in the form of plastic sheets hermetically fastened to each other in the places of transverse and longitudinal seams by welding or gluing and securely fixed along the channel profile using anchors. At the same time, plastic sheets were used in white. Below the slope of the rectilinear section of the canal, a sump was made in the form of an inverted truncated four-sided pyramid, lined on all sides in the lower part with reinforced sheets of polymeric materials, in the upper part with a rolled rubber reinforced anti-slip coating. In this case, the dimensions of the upper base of the pyramid of the silt collector were made greater than the width of the channel along the top.

The claimed technical solution in the form of a channel lining can be reproduced industrially, which meets the criterion of "industrial applicability".

Thus, the claimed technical solution in the form of a canal lining provides protection of irrigation canals with a plastic coating from overgrowing and silting, while at the same time the possibility of safe exit of animals and people from them.

Claims (1)

The lining of the channel, including an antifiltration coating of monolithic plastic sheets with hermetic fastening of materials to each other at the places of transverse and longitudinal seams by welding or gluing and fixing the antifiltration coating along the channel profile using anchors, characterized in that the channel has a trapezoidal cross section; plastic sheets used in white; a straight section of the channel down the slope is completed by a silt collector in the form of an inverted truncated quadrilateral pyramid; the sludge collector is lined on all sides - in the lower part with reinforced sheets of polymer materials, in the upper part with a rolled rubber reinforced anti-slip coating; the dimensions of the upper base of the sludge pyramid are greater than the width of the channel along the top.

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