RU2113776C1 - Polyconic gully strengthening method - Google Patents

Abstract

FIELD: forestry. SUBSTANCE: method involves forming cascade of earth dams along main bed; constructing water retaining and water drain swells in gully cones and branches so that swells are spaced from gully cones or branches by distance equal to 2.5-3.5 of gully depth; planting ameliorating plants on dams and swells; flattening gullies by moving ground onto gully bottom to provide gully slope inclination angle of 12-15 deg; laying out flattened gully surface with humus-incorporated soil layer. EFFECT: increased efficiency and simplified method. 3 cl, 1 dwg

Description

 The invention relates to agriculture and forestry, and in particular to methods of fixing gullies and the restoration of ravine lands.

 There is a method of securing ravines, which consists in the fact that along the bottom of the main channel a cascade of earthen dams is performed, ameliorative plantings are planted on them, and bulk drainage sites are constructed at the tops of the ravine and its screwdrivers [1].

 The disadvantage of this method is that it does not carry out the whole range of measures for fixing gullies.

 Closest to the proposed one is a method in which a cascade of bottom dams is constructed along the main channel to secure the bottom of the ravine from erosion, shafts-channels are constructed at the tops of the ravine to intercept the flow of water, dams and shafts are planted with shrubs. In addition, the bottom and slopes of the ravines are flattened and fixed with tinning [2].

 However, when using this method, part of the area occupied by screwdrivers remains unused, since they do not carry out the necessary measures.

 The objective of the invention is the most complete use of the areas occupied by screwdrivers.

 The drawing shows a diagram of the implementation of the proposed method.

The method includes securing the multi-cascade cascade of earth dams 1 along their main channel, constructing water-retaining 2 and drainage shafts 4 at the tops of the ravine and its screwdrivers 4, landing on the dams and shafts of ameliorative stands and flattening the ravines 5 with fixing the bottom and slopes of the ravine, and positioned from the top of the ravine or screwdriver at a distance equal to 2.5-3.5 of its depths, the ravine 5 is flattened by moving the soil to the bottom of the ravine to give its slopes an angle of inclination to the horizontal surfaces 12-15 ^o, and prior to fixing the bottom and the slopes of the ravine surface configured gully bottom and spread humified soil layer; position 3 - dam dam with the top of the ravine laid out.

 When a ravine is flattened, the top of its screwdriver is first flattened and, according to one option, it is separated from the rest by erecting an earthen dam, according to the second option, it is covered with a humusized layer of soil with a thickness of at least 30-40 cm and then the watercourse bed is sod.

 The method is as follows.

 At the tops of the screwdrivers, drainage 4 and water retention shafts 2 are arranged in order to prevent water flowing from the catchment into the screwdrivers. From the top of the ravine the shaft is placed at a distance equal to 2.5-3.5 depths of the ravine; predominantly the shafts are placed on a non-arable land in an area with a slight slope (the smaller the slope, the greater the capacity of the pond). For filling the water-retaining shaft after 15-25 m determine the location of the shaft, while the height of the landmarks is equal to the height of the shaft. After determining the contours, plowing is carried out by the tractor plow of the strip, which will go under the base of the shaft, and the area of the mirror of the pond for reliable articulation of the shaft with the ground, and to facilitate the movement of the humus (plant) layer. Plowing is repeated until the plant layer is eliminated.

 At the end, plant the bottom of the pond, the slope and the crest of the shaft with plant soil and finally plan them. The surface of the shafts and the ponds are inoculated with a mixture of perennial cereal and leguminous grasses, the predominant species are the bonfireless fire, alfalfa, sainfoin, clover, and in the ponds, in addition, clover and ryegrass. Then carry out the construction of a cascade of earthen dams.

 The cascade of dams is arranged so that the upper dam begins immediately behind the backwater mirror formed by the lower dam.

The distance between the dams (L in m) is determined by the formula:
L = h / i,
Where
h = working height of the dam;
i is the slope of the ravine bed, defined as the ratio of the difference between the elevations of the beginning and end of the fixed section to its length.

 The first dam is poured so that the mirror of the pond floods the top and prevents its further growth. An inclined tubular catchment with welded diaphragms is installed in the dam body, which prevents water breakthrough along the spillway. The upper end of the pipe determines the water level. In case the water supply will be greater than the discharge capacity, emergency plums are made on one or two sides of the ravine in the dam body.

 A second, third, etc., which is also equipped with tubular spillways and emergency spillways, is poured below the first dam. In this cascade, the first pond is a kind of sump, where the water is purified from suspended matter.

 A dam bridge is poured onto a previously plowed base. The technology of work coincides with the filling of the retaining shafts. However, during the construction of the dam in the bed of the ravine, the soil for dumping is first moved to its shores, and then they are pushed with a bulldozer into the ravine, where they are carefully rammed in layers. For reliable articulation of the dam with the banks of the ravine, the latter are cut across the entire width of the dam. Since the height of the dam dam reaches 5-8 m, scrapers are used along with bulldozers in construction.

If the container in front of the dam does not accommodate the entire possible volume of runoff, then with the help of the drainage shafts, excess water is diverted to another precinct, where the required number of water-retaining and drainage shafts are erected at the tops of the screwdrivers, they are flattened, which is done as follows: leave 1-1, 5-meter strips of pristine soil when moving to a ravine. When the slopes reach a predetermined angle of 12-15 ^o , all strips with a humus layer are evenly pulled along the slopes. In addition, it is possible to carry out a partial flattening, which is carried out when it is not possible to stop the access of water to the ravine, while only those slopes are flattened, the shifted soil of which does not flood the channel of the watercourse into the ravine. Build an earthen dam. The part of the ravine cut off by the dam is flattened with a bulldozer; the slopes of the ravine give an angle of 12-15 ^o . The pond in front of the dam serves as a reservoir for water, as well as for fine earth carried out from the fields.

If the catchment area is large, then there is no way to protect the ravine from erosion with the help of a water-retaining shaft, then the ravine is flattened, and a soddy stream is arranged at its top. To do this, in the spring after passing spring water using a bulldozer, the top of the ravine is flattened, a gutter-like watercourse with a width of 1 - 2 bulldozer dumps with a longitudinal slope of no more than 5 - 6 ^o , from above the watercourse is covered with a layer of gummed earth 30-40 cm thick.

 To sod the watercourse in places with a well-developed cereal cover, a mounted plow with removed dumps cut the turf. Its tapes are cut with a shovel into pieces and transported to the top of the ravine, where the turf, starting from the bottom, is tightly laid on the bed of the watercourse. From above, pieces of turf are sprinkled with fertile soil, then crushed with straw and watered abundantly.

 Given the shortage of water resources in the Republic of Bashkortostan and the large needs for water for irrigation, the prospect of using regulated spring and stormwater is becoming increasingly important. Therefore, each ravine-girder system should be examined for its suitability for the construction of cascades of ponds in it.

 Ponds are also of great anti-erosion importance, since they raise the local basis of erosion, clean the drainage water from the solid part, due to which bottom gullies cease to grow, the level of groundwater rises, and the hydrological regime of the area improves.

 The depth of the ponds should be between 4.5-5.5 m, the crest of the dam should be 1.5-2.0 m above the constant water horizon.

 Emergency discharges of water into especially high-water and other spring floods and summer rains are envisaged.

 Thus, the proposed method of securing multi-gully ravines makes it possible to turn these areas into producing land.

Claims (3)

1. A method of securing a multi-crevice ravine, including the formation of a cascade of earthen dams along their main channel, the construction of water-retaining and drainage shafts at the tops of the ravine and its screwdrivers, planting of drainage plantations on dams and shafts and flattening ravines with subsequent fixing of the bottom and slopes of the ravine, that each water-retaining shaft is located from the top of the ravine or screwdriver at a distance equal to 2.5 to 3.5 of its depths, the ravine is flattened by moving soil to the bottom of the ravine I make it slopes the angle of inclination to the horizontal surface of 12 - 15 ^o, and prior to fixing the bottom and the slopes of the ravine surface vypolozhennogo gully bottom and spread it humified soil.  2. The method according to claim 1, characterized in that when flattening the ravine, the top of the screwdriver is first flattened out and separated from the rest by erecting an earthen dam.  3. The method according to p., Characterized in that when flattening the ravine, the top of the screwdriver is first flattened out, performed in its middle part of the watercourse, covered with a humusized soil layer with a thickness of at least 30-40 cm, and then the watercourse bed is sod.