RU2041577C1 - Device for control of gully erosion - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device comprises cantilevered suspended drop structure whose outlet part is installed on upper ends of inclined perforated panels provided with projections on the working surface while the bottom part of structure has rectangular holes before upper ends of panels. EFFECT: improved design. 2 dwg

Description

 The invention relates to agriculture, in particular to devices for combating ravine erosion, and can be used to safely pass large volumes of melt and storm water through the tops of the ravine, as well as for the natural flattening of ravines.

 A device for combating ravine erosion is known, comprising a cantilever suspended drop made in the form of a gutter open at both ends, a water flow energy damper installed under it, the surface of which is perforated, and a drainage pad filled at the bottom of the ravine filled with non-capillary filtering material.

 The main disadvantages of the known device are as follows. With periodically repeated frosts and thaws in spring, the spillways freeze, clog, silt and cease to function, and therefore the newly arriving stream overflows over the upper edge of the tower and thereby forms a concentrated stream of water directed down the stream of the ravine; the cantilever delta, made in the form of an open trough from the top of the ravine, is washed off by a water stream from the lower side, which leads to the failure of these devices.

 A device for controlling gully erosion is also known, comprising a cantilever suspended drop, a water flow energy damper installed under it, made in the form of an inclined perforated shield with damper-protrusions fixed to its front surface, fascin dams and a water-repellent film laid in width along the top of the ravine and the profile of the ravine.

 The main disadvantages of the known devices include the fact that with a sufficient amount of melt or storm water, as well as with prolonged use of this device, the space between the perforated shield and the top of the ravine is filled with sediments and other deposits. This leads to the fact that the water flow will drain over the newly formed surface through the perforated shield, forming a new water well located below the perforated shield.

 The purpose of the invention to increase the reliability and efficiency of flattening a ravine in a natural way.

 The goal is achieved by the fact that in the device for controlling ravine erosion containing a cantilever suspended drop, a water flow energy damper made in the form of an inclined perforated shield with damper protrusions fixed to its front surface, fascin dams and a water-repellent film laid at the top of the ravine along the width and profile of the ravine, perforated panels located at the same distance from each other are installed along the bottom of the ravine from the water well; rectangular holes are cut out in the bottom of the cantilever delta, located at the places where the perforated panels are installed, and the cantilever delta with its output part is mounted on the upper ends of the perforated panels.

 Comparative analysis with the prototype shows that the claimed device is characterized by the presence of new elements: installation of perforated panels located at the same distance from each other from the water well at the bottom of the ravine; cutting out rectangular holes located in the places where the console differential is installed at the bottom of the cantilever delta with the outlet part on the upper ends of the perforated panels.

 Thus, the claimed device meets the criteria of the invention of "novelty."

 Comparison of the proposed solution not only with the prototype, but also with other technical solutions in this technical field did not allow us to identify in them the features that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "significant differences".

 In FIG. 1 shows the proposed device, side view; in FIG. 2 same, top view.

 The device for combating ravine erosion contains a cantilever suspended drop, made in the form of an open channel at both ends of the gutter 1, in the bottom of which rectangular holes 2 are cut, located at the locations of the perforated panels 3. The cantilevered drop 1 with its output part is mounted on the upper ends of the perforated shields. Perforated shields 3 are installed on the bottom of the ravine along its width at the same distance from each other and backed up on inclined supports anchored into the ground 4. The water well 5, the area around the shields 3 and down the watercourse are covered with a drainage pad 6 made of non-capillary filtering material. Downstream of the watercourse from shield 3, there are fascin dams 7 buried in the ground below the bottom of the drainage pillow 6. Under the cantilever groove 1 at the top of the ravine, a water-repellent film 8 is laid along its width and cliff profile, fixed to the bottom of the ravine with non-capillary material of the drainage pillow 6, and in the top of the ravine is buried in the ground.

 The device operates as follows. Melt or storm water, flowing down from the catchment, enters the cantilever suspended drop, made in the form of an open channel at both ends of the gutter 1, in the bottom of which rectangular holes 2 are cut out, located in the places where the perforated panels are installed 3. At low flow rates, the water stream pours out completely the first rectangular hole 2 of the groove 1 and, meeting with the perforated shield 3, spreads and is sprayed. The large sediment contained in the water flow gradually settles on the surface of the drainage cushion 6, gradually filling the space between the precipice and the first inclined perforated shield 3. With a sufficiently large flow power or filling the space between the precipice and the first shield 3, a stream of water with sediment is poured out already from the second, third etc. holes 2 of the gutter 1. Therefore, with such an installation of perforated shields 3 along the bottom of the ravine, the water flow is sequentially distributed and the top of the ravine is successively filled with sediments and other other deposits, which ultimately contributes to their overgrowing and fixing by plant roots. The sequence of filling the space between the perforated shields 3 with sediment and deposits is also achieved by installing the shields 3 at the same distance from each other, and the execution of them (boards) along the width of the ravine contributes to the uniform filling of the space between the perforated shields with sediments 3. Fixing the outlet of the cantilevered edge 1 at the upper ends perforated panels 3 gives the proposed design rigidity and reliability. The fascin dams 7, located downstream of the inclined shields 3, contribute to the deposition of smaller sediments. Laying under the gutter 1 at the top of the ravine along its width and the profile of the cliff of the water-repellent film 8 and fixing its free ends to the bottom with non-capillary material, and at the top of the ravine by deepening it into the ground prevents the lower part of the cliff from the folded rock from being washed out.

 The use of this device not only prevents the growth of ravines, but also allows you to naturally flatten ravines and ultimately eliminate them. A sharp reduction in sediment runoff protects ponds, ponds, and especially small rivers from siltation.

Claims (1)

 A device for controlling erosion containing a cantilever suspended drop, a water damper with a perforated surface mounted underneath it on a drainage cushion, characterized in that the water damper is made in the form of a series of inclined perforated rails located at equal distances from each other along the width of the ravine shields with protrusions on their working surface, while the cantilever drop with its output part is installed on the upper ends of the perforated panels, and in its bottom in front of the upper ends The perforated shields made rectangular holes.

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