SU1708987A1 - Device for consolidating coast-protecting structures - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to hydraulic construction, in particular, to protective devices of shore protection structures. The purpose of the invention is to increase work efficiency. The device for fastening the coastal protection structures is combined and consists of reinforced concrete slabs and gabions located on the slope in alternating parallel rows and pivotally interconnected. Anti-sweep plates are located at the bottom of the river bed. The invention relates to hydraulic engineering, in particular, to protective devices of bank protection structures. The protective covering of a hydraulic structure's slope, including a mounting of a slope, filter preparation under the fastening, is known. A disadvantage of the known coating is the unreliability of working under conditions quick drawdown of water levels, since they are even filled with gabion bags and connected to reinforced concrete slabs by means of hinged connections. In addition, flexible reinforced concrete gratings are hingedly attached to the top and to the side of the entire area of the bags. Combined mounting perceives the impact of the flow and reliably protects the structure from erosion. At the same time, the flow of water, terred part of the energy, passes through gabions into the body of the structure and saturates it with water. With a sharp decrease in the water level in the structure, a reverse filtration flow occurs. In this case, gabions work as drains, provide reception and removal of filtered water, and remove the resulting backpressure under the plates. The presence of filter preparation and the implementation of the gabion with layers provide direct and reverse movement of water through the mounting without the occurrence of filtration deformations of the soils of the structure and high filtration back pressure under the mounting. 3 ill. Coarse fractional material does not provide the necessary rate of change of water level in the body of the slope, i.e. slowly removes the seepage back pressure under the mount due to high fluctuations in water levels. A gabion is known, consisting of a metal mesh sheath and a filler. In this case, gravel, crushed stone or rubble is used as a filler, and the grid is made of galvanized or coated - • ^ s ^^^ o00о00VJ > &

Description

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a rough gravel (gravel-pebble soil (d 50 - 200 mm). A part (second half) of the grid 11 is worn over the stone entrance. In this case, the reinforced concrete plate 2 and gabions 3 should fit tightly to each other without the formation of large gaps between them .

Next, the y4actoK channel 7 at the foot of the fortified slope is cleared and delimited, and the sequence is similar to that of the gabions, the gabion stump 6 is mounted on the slope tightly tied with galvanized reinforcing wire 13 and fixedly connected to the fastening with the help of hinges 9. on the top and on the side of the bags 6, flexible reinforced concrete bars of the lattice 8 are assembled, assembled from separate links (reinforced wire beads), hinged together with each other. Arrange them in such a way that each link or through one passes through the line of the reinforcing wire 13 so that they can be pivotally attached to this wire and to the fastening on the slope.

The device for fastening the shore protection works as follows.

Hydrodynamic (wave) impact of the flow perceives the combined mount and reliably protects the structure 1 from erosion. At the same time, the flow of water, ter of the energy passes through the gabions into the body of the structure and saturates it with water. And with a sharp decrease in the level of water (pool) in the building there is a reverse filtration flow. Immediately in this case, the gabions begin to work as drains, provide reception and removal of filtered water, quickly remove and minimize the resulting filtration back pressure under the plates. The presence of filter preparation and gabion layers ensure the direct and reverse movement of water through the mount without the occurrence of filtration deformations of the building soil and high filtration back pressure under the mount.

When skipping flood costs due to increased roughness of the anti-sweep device, speeds decrease in the bottom-coastal flow layers (flow into the grating w / c cell), which leads to a decrease in the transporting capacity of the flow and deposition of large fractions, transported sediments into the cells reinforced concrete lattice. In connection with this, formation of the channel takes place outside the protective device. 5 At the same time, reinforced concrete grids 8 attached to the bottom of the bridges, loaded with bottom pumps, provide reliable protection of the mesh shell of the 11 gabion bales 6 against abrasive and dynamic flow. The main loads from the dead weight of the anti-sweep device and the dynamic effect of the flow are perceived by the reinforcing wires 13 and the joints.

5 between reinforced concrete elements. When the channel 11 is eroded, the syringe will be immersed into the formed funnel with loading, beginning with its end. If the erosion of the bed 7 occurs to the calculated depth Hp, then the gabion tuif to 6 with loading will lie along the slope of the angle line equal to or less than the angle of natural slope of the underlying soil to the erosion line. For this, the length of the bag 6 must

5 be equal to (2-3) Nr.

The location of the bag at an angle of the plane of collapse greatly reduces the active pressure of the soil.

Bending design combined

0 fasteners of reinforced concrete slabs with gabions and anti-scrubber devices. provide efficient and reliable operation of the entire shore protection structure in the conditions of rivers, flood flows

Claims (1)

5 of which are characterized by rare fluctuations in water level and high abrasive and conveying abilities. Claims of the Invention A device for fastening coastal protective structures, made combined of interconnected fastening elements, differing in the fact that, in order to increase the work efficiency, the fastening elements are made in 5 as reinforced concrete slabs, gabions and anti-abrasive slabs, with reinforced concrete slabs and gabions arranged on a slope in alternating parallel rows and pivotally interconnected, 0 and the anti-breaker plates are made in the form of gabion pouches, are located at the bottom of the river bed and are shernically attached to reinforced concrete slabs, besides, from above and on the side across the entire area of pouches to them 5 hinged flexible reinforced concrete grilles,