RU183818U1 - HEAVY DUTY FLEXIBLE DESIGN - Google Patents

Abstract

The utility model relates to hydrotechnical construction and can be used to protect coastal slopes of river beds in flat areas. The technical result is expressed in increasing the efficiency of the structure to protect the flat sections of the rivers. The heavy fascia of a flexible design contains bags from a geogrid filled with local soil mixed with dry grass and leaves located inside a shell of two layers of geomats. The fascines in three places are tied with galvanized wire, and in the places of bandaging on both sides (extreme) there are loop handles for stacking and bundling the fascines together. Heavy fascines are laid on the coastal slope in parallel rows and are interconnected at the dressing sites. In necessary cases, on the slope above the fastening, concrete anchors are arranged at a certain distance from each other, where rows of fascines are attached. The sloping fastening of heavy fascines, of the proposed design, provides reliable protection to the coastal slopes, where erosion and collapse under the influence of flood waters are possible. Over time, such a mount is overgrown with grass and shrubs and turns into a biopositive structure that does not interfere with the natural environment and is perceived by nature as akin to it. 4 ill.

Description

The utility model relates to hydraulic engineering construction and can be used to protect the coastal slopes of river beds in their flat areas.

An analogue is the well-known heavy fascia, used for attaching coastal slopes, consisting of coarse-grained soil aggregate and brushwood; made a fascin cylindrical shape with a diameter of 0.6-1.0 m, tied with soft wire in several places / Altunin S.T. Regulation of channels. - M.: “Selkhozizdat”, 1962 352 s /.

The disadvantages of this technical solution are: unreliability and short service life; the complexity and complexity of manufacturing and installation.

The closest analogue is a heavy fascia of a biopositive structure, consisting of soil aggregate and a flexible shell, tied in two places / Patent for the invention. No. 2396391. Heavy fascin biopositive design. Publ. 07/19/2007. Bull. No. 20 /.

The disadvantage of the closest analogue is the need for reeds and plant soil, which is not always possible to find on site, as well as significant weight, which makes it difficult to mount them without the use of construction equipment.

The technical result is expressed in increasing the efficiency of the structure to protect the flat sections of the rivers.

The essence of a heavy fascia is characterized by a set of common features with the closest analogue, containing a soil aggregate and a flexible cylindrical shell tied with wire in two places, and differing from the closest analogue in that bags filled with local soil mixed with dry leaves and stacked inside the fascia are stacked grass, and its shell is made of two layers of geomats, tied in three places, while the length of the fascia is 1.5-2 m, and the diameter is 0.4-0.6 m.

The essence of the heavy fascia is illustrated by drawings, where in FIG. 1 shows a heavy fascin in a perspective view and with cuts; in FIG. 2 - node connecting bags with local soil mixed with dry leaves and grass; in FIG. 3 - sloping fastening of heavy fascines in the context; in FIG. 4 - a fragment of a geomat.

A heavy fascia of flexible construction contains bags 1 of a geogrid, filled with local soil mixed with dry grass and leaves located inside a shell of two layers of geomats 2. The fascines in three places are tied with galvanized wire 3, and in the places of dressing 3 on both sides (extreme) are provided loop handles 4 for stacking and bundles of fascia with each other. Bags 1 inside the fascia shell are stacked in one dense row in length and interconnected by nodes 5. Heavy fascines are laid in parallel rows on the coastal slope and connected to each other at dressing points 3. If necessary, they are arranged on a slope above the mount at a certain distance from each other concrete anchors 6, where rows of fascines are attached.

The design and calculation of the elements of heavy fascia is carried out in accordance with the current building codes and rules, taking into account the actual natural conditions (topographic, hydrological, geological and hydrogeological) on the flat sections of rivers where coastal erosion and sloping erosion processes are observed.

A heavy fascia is assembled from various elements that fulfill their common task - the creation of a building lightweight product to strengthen and protect coastal slopes from erosion and water erosion. At the same time, all the elements of the mattress are made mainly at the place of laying using hand tools and devices. Initially, a platform is planned at the sole of the reinforced slope. Prepare the required number of bags 1 from the geogrid and fill them with local soil, prepared in a mixture with dry leaves and grass in a ratio of 50 to 50 by volume. Next, geomats 2 are cut and harvested according to the size of fascines. Then, according to the size of the fascines, geomats 2 are laid out, on top of which bags 1 are laid (several bags in each fascia) and tightly bind them together. After that, geomats are wrapped around the bags in two layers and tied in three places with galvanized wire 3 to give a cylindrical shape to the fascia. Thus, several fascines are simultaneously produced to the required amount to strengthen the coastal slope. From the sole of the mount to its upper line on the slope, sand preparation 10-15 cm thick is poured. Next, heavy fascines are mounted in dense rows on the protected slope. The heavy fascia laid on the slope are interconnected by means of galvanized wire through their handle-loops 4. If necessary, the mounted heavy fascia on the slope is attached to the anchors 6 located on the slope above the mount. Geomats 2 are a material that is made of polypropylene yarns. Geomat is a flexible and lightweight material that effectively replaces heavy and environmentally problematic structures made of stone, concrete and asphalt. They are designed to protect slopes, soil from the appearance and development of erosion, due to plant roots and high resistance to rainfall. Well suited for flexible shell heavy fascia. Through them well grow green plants and shrubs. Small particles of soil and seeds are fixed between the threads, subsequently the roots of the plants are firmly fixed. The length of heavy fascines is 1.5-2 m, and the diameter is 0.4-0.6 m from the conditions of facilitating the design and the possibility of their installation manually, without the use of construction equipment.

Heavy hulls of flexible (lightweight) construction are especially effective in conditions of inaccessible plain sections of rivers with slopes i <0.001. During floods, loads of water flows are dispersed and partially extinguished due to the flexibility of fastening from heavy fascines. A part of the stream of the coastal water flow passes through the mount into the soil base of the shore, without the occurrence of filtration deformation of the soil. The presence of a flexible shell of fascines from geomats 2 in contact with the base of the mount prevents possible contact erosion of underlying soils. Heavy fascines on the slope create a protective mount for coastal areas. When the channel is eroded below the bottom of the anchorage, the bottom row of heavy fascines will fall into the erosion funnel (under the influence of gravity). And in this case, the sliding of the fastener will not occur, only the connecting wires in the places of the bundles 3 and the fastening wires of the anchors 6 will be tightened more. At the same time, heavy fascines retain their shape due to the flexibility and strength of the geomats. The sloping fastening of heavy fascines of the proposed design provides reliable protection to coastal slopes, where erosion and collapse under the influence of flood waters are possible. Over time, such a mount is overgrown with grass and shrubs and turns into a biopositive structure that does not interfere with the natural environment and is perceived by nature as akin to it.

Claims (1)

A heavy fascia, consisting of a soil aggregate and a flexible cylindrical shell, tied with wire in two places, characterized in that bags filled with local soil mixed with dry leaves and grass are stacked inside the fascia, and its shell is made of two layers of geomats tied up in three places, with the length of the fascia taken 1.5-2 m, and a diameter of 0.4-0.6 m.

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