RU2746135C1 - Method for establishing anti-erosion fixing of ecological trails of mountain zones - Google Patents

Abstract

FIELD: hydraulic engineering and environmental construction

SUBSTANCE: invention can be used to protect and restore eroded sections of ecological paths and recreation areas for tourists. In the method of erosion protection fastening of ecological paths, which includes stepped laying in the form of a ladder, the steps of the stairs are erected using bottom thresholds from flexible mattresses, which are made of perforated drainage pipes wrapped around with geomats and geogrid, and which are laid across the path and at a certain distance from each other along the entire length of the eroded area. Thresholds made of mattresses form step platforms, which are made of volumetric geogrids laid horizontally, filled to the top with rubble. Two continuous longitudinal rows of similar flexible mattresses are laid along the steps of the path, the first row is laid along the slope of the path under the slope and on top of the transverse mattresses, and the second row is laid along the steps along the edge of the path and the edge of the transverse mattresses, while both rows of flexible mattresses pass from the first step to the last one within the eroded section of the trail. Along the slope above the first row and below the second row of mattresses, geomats are laid in two or three layers of a certain width and nailed to the ground with stakes, wooden or metal.

EFFECT: method of anti-erosion fortification of an ecological path can be most effectively used in hard-to-reach mountain areas of recreational and protected areas, where ecological routes and paths are paved.

1 cl, 6 dwg

Description

The invention relates to hydraulic engineering and environmental construction, and can be used to protect and restore eroded sections of ecological paths and recreation areas for tourists.

Known anti-erosion structure, made in the form of a rapid flow consisting of twigs fascines, wooden stakes, stone and soil [1 p. 65-68]. The main disadvantages of this structure are low efficiency and service life of the structure. The twigs and wood elements of the structure rot and decay within a short period of time (4-5 years).

The closest technical solution is the anti-erosion fastening of the section of the ecological path of the mountainous zone, made of a stepped shape in the form of a staircase, consisting of wooden elements and drainage backfills from crushed stone and sand [2]. The main disadvantages of this technical solution are low efficiency and service life, as well as the need for a large number of high quality wooden boards and beams.

The purpose of the invention is to improve the efficiency and service life of the anti-erosion mount.

This goal is achieved by the fact that in the method of erecting anti-erosion fastening of ecological paths, including stepped laying in the form of a ladder, the steps of the stairs are erected using bottom thresholds from flexible mattresses, which are made of perforated drainage pipes wrapped around with geomats and geonets, and which are laid across paths and at a certain distance from each other along the entire length of the eroded area, while the thresholds made of mattresses raise the platforms of the steps, which are made of volumetric geogrids laid horizontally, filled to the top with rubble, along the steps of the path two continuous longitudinal rows of similar flexible mattresses are laid, the first the row is laid along the slope of the path under the slope and on top of the transverse mattresses, and the second row is laid along the steps along the edge of the path and the edge of the transverse mattresses along the line of their levels, at the same time, both rows of flexible mattresses pass from the first step to the last within the eroded and eroded section of the trail, along the slope above the first row and below the second row of mattresses, geomats are laid in two or three layers of a certain width and nailed to the ground with stakes, wooden or metal.

FIG. 1. shows a longitudinal section of the anti-erosion fastening along the axis of the stepped path; in fig. 2 - the same in the plan; in fig. 3. shows a cross-section along the middle of the fastening step; in fig. 4. - flexible mattress with a cut in perspective view; in fig. 5. - geogrid; in fig. 6. - geomat.

The anti-erosion fastening of the ecological path consists of steps 1, formed with flexible mattresses 2, laid across the path in the form of thresholds at a distance of step length from each other, and the mattresses 2 themselves consist of perforated polymer pipes 3, wrapped with geomats 4 and geogrid 5. Steps 1 are made (stacked) of volumetric geogrids 6, the cells of which are filled to the top with crushed stone 7. Along the stepped path, two rows of flexible mattresses are laid, the first row 8 is laid under the slope and on top of the transverse mattresses 2, and the second row 9 is along the steps 1 along the edge of the path and the edge of the transverse mattresses 2. Along the slope above the first row 8 and below the second row 9 of mattresses, geomats 10 are laid in two or three layers of a certain width and nailed to the ground using stakes 11, wooden or metal.

The method of erection of the anti-erosion fastening of the ecological path is carried out and works as follows.

First, the required number of flexible mattresses 2 is made, consisting of perforated polymer pipes 3, tightly wrapped with geomats 4 and geogrid 5, which were brought to the place of laying in advance. Then the eroded section of the ecological path is planned, small depressions are made in the boundary places of steps 1 and flexible mattresses 2 are laid, the gaps between which are filled with local soil to the middle of the mattress, i.e. arrange partial backfilling of the steps 1. And on top of the backfill of each step, lay geogrids 6, prepared in advance according to the size of the steps, the cells of the geogrids are filled to the top with crushed stone 7. The number of steps and the distance between them are chosen depending on the length of the eroded section of the ecological path and the hydrological characteristics of the maximum surface water runoff ... Further, along the steps, the eroded surface of the slope is cleared and planned, and along the steps of the path two continuous longitudinal rows of similar flexible mattresses 2 are laid, the first row 8 is laid along the slope of the path under the slope and on top of the transverse mattresses 2, and the second row 9 is laid along the steps along the edge paths and the edge of the transverse mattresses 2. In this case, both rows of flexible mattresses are arranged from the first step to the last within the eroded and eroded section of the path. Geomats 10 are placed along the slope above the first row 8 and below the second row 9 mattresses in two or three layers, 1-1.5 meters wide and nailed to the ground using wooden or metal stakes 11. The width and thickness of the geomat 10 are selected depending on the width of the eroded section of the ecological path and the eroded ability of surface water runoff. To attach the slope fasteners from the geomat 10 to the surface of the earth, wooden or metal stakes 11 are used, which are hammered at a distance of 70 - 100 cm from each other, starting from the lines of the first 8 and second 9 rows of flexible mattresses, the length of the stakes should be at least 40 cm.

The anti-erosion mount has a high degree of flexibility and water permeability, and works in this way. The main hydrodynamic loads of surface water runoff are perceived by flexible mattresses 2 and rows of them 8 and 9, as well as the steps of the path made of geogrids 6 and rubble 7. Due to the flexibility and water permeability of the structure, it works as a protective fastening and as a drainage, providing safe reception and diversion of slope (surface and ground) water runoff. At the same time, the acting loads of surface runoff are evenly distributed along the entire length of the ecological path attachment.

The use of drainage polymer (perforated) pipes, geomat and geonets in the manufacture of mattresses 2, provide them with flexibility and plasticity, good water intake and filtering properties. They are environmentally friendly, odorless, do not emit harmful and toxic substances, are resistant to liquid hydrocarbons, solar ultraviolet light. These geosynthetic products are highly durable and have a service life of over 25 years. Structures made of them work stably at temperatures ranging from -20 degrees to +40 degrees. Mattresses and geomats on slopes are biopositive to the soil layer, they contribute to the preservation of moisture for a long time and the germination of green plants (with the strengthening of their root system), and their protection from erosion processes. Geomats and geonets are made from inexpensive raw materials, production in our country is well-established, the products are practical and durable, easy to use. For use, the most suitable geomat brand CMT 400, thickness 15 mm, and geogrids are suitable for different brands.

Volumetric geogrids 6 used in the fastening consist of tapes connected to each other in a checkerboard pattern using welding, chemicals or weaving technologies. The belts used in this case are perforated, which improves the interface of the finished product with the soil and other inert materials at the location at the construction site. They are made from environmentally friendly polymer materials. The rough surface of the geogrid tape increases the adhesion of the aggregate to the cell walls. For the arrangement of the steps of the 1st ecological path, geogrids of the 100 / 220P and 150 / 220P brands are most suitable, with a rib height of 100 mm and 150 mm, and a mesh size (honeycomb) of 220 × 220 mm.

Thus, the anti-erosion fastening erected by the proposed method provides reliable protection and restoration of eroded sections of ecological paths. It increases the environmental friendliness of tourist trails, does not interfere with the circulation of substances and energy, helps the development of nature and is included in the ecosystem of the territory.

The method of erosion protection fastening of ecological paths can be most effectively used in hard-to-reach mountain areas of recreational and protected areas, where ecological routes and paths are laid and laid.

Sourse of information.

1. P.M. Stepanov, I.Kh. Ovcharenko, P.S. Zakharov HYDRAULIC ANTI-EROSION STRUCTURES. - M .: Kolos, 1980, p. 65-68.

2. www.ecosystema.ru Paths, stairs and platforms.

Claims (1)

A method for the construction of an anti-erosion fastening of ecological paths, including a stepped laying in the form of a staircase, characterized in that the steps of the stairs are erected using bottom thresholds from flexible mattresses, which are made of perforated drainage pipes wrapped around with geomats and geogrid, and which are laid across the path and on a certain distance from each other along the entire length of the eroded area, while the thresholds of mattresses raise the platforms of the steps, which are made of volumetric geogrids laid horizontally, filled to the top with rubble, along the steps of the path two continuous longitudinal rows of similar flexible mattresses are laid, the first row is laid along the slope paths under the slope and on top of the transverse mattresses, and the second row - along the steps along the edge of the path and the edge of the transverse mattresses along the line of their levels, at the same time, both rows of flexible mattresses pass from the first step to the last within the eroded and eroded section of the path, along slope above ne In a ditch row and below the second row of mattresses, geomats are laid in two or three layers of a certain width and nailed to the surface of the earth using stakes, wooden or metal.

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