RU158470U1 - FACING THE CHANNEL - Google Patents

Abstract

The lining of the channel, including an antifiltration coating of polymeric materials with hermetic fastening of materials to each other in places of transverse and longitudinal seams by welding or gluing and fastening the antifiltration coating along the channel profile using anchors, characterized in that the reinforced polyvinyl chloride roll material is used as an antifiltration coating at least 50 m long, which is laid along the entire bottom of the channel, and on slopes, parallel to the bottom of the channel; the antifiltration coating is fastened along the channel profile with the help of anchors screwed through the reinforced coiled polymer material into the slopes and the bottom of the channel, while a sealing gasket is installed on the upper end of the anchor and the nut is screwed to seal the connection.

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: increased installation time of the structure, determined by the need for preliminary monolithic anchors in the slopes and the bottom of the channels; the complexity of installation of the structure, caused by the need for precise penetration of holes made in plastic sheets into pre-installed anchors, as well as a large number of horizontal and vertical seams when welding plates together, causing a risk of violation of the antifiltration protection of the channels.

The task is to create a channel lining with high technical and technological characteristics.

The technical result is to increase the reliability of the impervious protection of irrigation canals and reduce the installation time of the structure.

The technical result is achieved by lining the channel, including an antifiltration coating of polymeric materials with hermetic fastening of materials to each other in places of transverse and longitudinal seams by welding or gluing and fastening the antifiltration coating along the profile of the rope using anchors, while a reinforced roll material of polyvinyl chloride or other polymers with a length of at least 50 m, which is laid along the entire bottom of the channel, and on the slopes - parallel The bottom of the channel; the antifiltration coating is fastened along the channel profile with the help of anchors screwed through the reinforced coiled polymer material into the slopes and the bottom of the channel, while a sealing gasket is installed on the upper end of the anchor and the nut is screwed to seal the connection.

The use of reinforced roll material of polyvinyl chloride or other polymers with a length of at least 50 m as an anti-filter coating reduces the number of connecting elements, as well as the number and length of horizontal and vertical joints for welding or gluing them to each other, which significantly increases the reliability of the structure.

Laying reinforced roll material along the entire bottom of the channel, and on the slopes parallel to the bottom of the channel with subsequent fastening of the antifiltration coating along the channel profile with anchors screwing through the reinforced roll polymer material into the slopes and the bottom of the channel, reduces installation time. In this case, there is no need for preparatory work, including the installation of pits in the soil of slopes and the bottom of the channel; preparation and pouring concrete mortar into them; the installation of metal anchors in them, followed by waiting for 3 days for the initial setting of concrete, as well as the need for installation, the complexity of which lies in the exact coincidence of all the holes drilled in the plates with pre-installed anchors.

Installing a gasket on the upper end of each anchor and screwing the nut on top provides reliable sealing of the fastening of the antifiltration coating to the slopes and the bottom of the channel.

The utility model is illustrated by drawings:

In FIG. 1 shows a section of a longitudinal channel profile.

In FIG. 2 shows the transverse profile of the channel (section AA).

In FIG. 3 shows the connection of a screw anchor with soil and a polymer coating.

The lining of the channel includes an antifiltration coating of reinforced roll polymer material 1 with hermetically fastening the materials to each other in the places of transverse 2 and longitudinal 3 seams by welding or gluing and fastening the antifiltration coating along the channel profile using anchors 4, screwed through the rolled polymer material into the slopes and bottom channel, while on the upper end of the anchor a gasket 5 is installed and a nut 6 is screwed on to seal the connection.

An example of a specific implementation.

Comparison of the two prototype variants (control) and the claimed technical solution was carried out in three sections of the irrigation canal having the same dimensions along the length (100.0 m), the width of the channel along the bottom (b = 3.0 m), the length of the slopes (l = 6, 0 m).

In the first control section for antifiltration cladding along the channel profile, plastic sheets 3.0 * 2.0 m in size were laid and welded together, with 1 row of plates passing along the bottom of the channel, and 2 rows of plates 3.0 wide along the slopes m

For the same purpose, plastic sheets 6.0 * 1.0 m in size were laid and welded together on the channel profile for the same purpose, with 3 rows of plates passing along the bottom of the channel, and 6 rows of plates 1 wide on the slopes, 0 m

In the third section, instead of plastic sheets, reinforced polyvinyl chloride rolls of 3.0 * 50.0 m in size were laid and welded together along the channel profile, with 1 row of roll material passing along the channel bottom, and 2 rows of roll material parallel to the slopes the bottom of the channel is 3.0 m wide.

Comparison of options is presented in the table.

Thus, the calculations showed that for every 100 m of the length of the irrigation canals, 10 rolls of PVC coating will replace laying an average of 252 pcs. plates made of polymeric materials, which allows to reduce the number of connecting elements by 25 times at the same time as reducing the length of the joints on average from 1602 to 630 m, that is, 2.5 times and the number of joints - from 111 to 12 pieces, that is, almost 10 time. This significantly reduces the installation time and increases the reliability of the design to protect the slopes and the bottom of the channels from filtering.

The use of screw anchors, screwed into the slopes and bottom of the channel through the holes cut in the PVC coating (Fig. 4), also contributed to the speed and mobility of the installation of the channel’s antifiltration lining, since there was no need for a 3-day preparation of anchors for work and additional time spent on the exact coincidence of all the openings of the channel lining elements with pre-installed anchors along the channel profile.

In this regard, the use of reinforced rolls of PVC coating in conjunction with screw anchors has reduced the installation time of the antifiltration lining of the entire channel section by almost 2 times.

Thus, the claimed technical solution in the form of a channel lining made of reinforced polymer roll materials provides increased reliability of the antifiltration protection of irrigation canals and a reduction in the construction installation time.

Claims (1)

The lining of the channel, including an antifiltration coating of polymeric materials with hermetic fastening of materials to each other in places of transverse and longitudinal seams by welding or gluing and fastening the antifiltration coating along the channel profile using anchors, characterized in that the reinforced polyvinyl chloride roll material is used as an antifiltration coating at least 50 m long, which is laid along the entire bottom of the channel, and on slopes, parallel to the bottom of the channel; the antifiltration coating is fastened along the channel profile with the help of anchors screwed through the reinforced coiled polymer material into the slopes and the bottom of the channel, while a sealing gasket is installed on the upper end of the anchor and the nut is screwed to seal the connection.

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