RU165292U1 - SELF-LEADING CHANNEL OF COMBINED DESIGN - Google Patents

Abstract

1. Selective channel containing a tray with a polygonal cross section with symmetrical slopes - side and bottom, reinforced with a combined cladding consisting of flexible reinforced concrete grillages and rubble fasteners, characterized in that a horizontal bottom section is provided at the base of the bottom slopes of the polygonal tray, where the flexible grillages arranged dams of reinforced gabions, laid in two or three rows along the entire width of the horizontal section of the channel with a depth below the bottom in two or more layers to the extent possible the depth of the channel erosion, gabions are made 2-2.5 m long, 0.8-1.0 m wide and 0.7-1.0 m high from the reinforcing cage A1 with a diameter of 12-14 mm, galvanized wire mesh and stone aggregate, reinforced concrete grillages are located across the tray section along the line of lateral and bottom slopes and on top of dams at a distance from each other and consist of rows of reinforced concrete prismatic blocks attached to the base and reinforcing cage of dams, interconnected by cables and protruding above the level of dams, bottom slopes and side mounts 30-50 see 2. The screening channel according to claim 1, characterized in that the distance L between the dams and the reinforced concrete grillages (m) does not exceed 2B, where B is the stable width of the channel (m), with L = 50-100 m, and the gaps between the side slopes between the reinforced concrete grillages reinforced with gabion mattresses arranged in rows and made 2-2.5 m long, 1-1.5 m wide and 0.3-0.4 m thick, made of stone aggregate and galvanized wire mesh.

Description

The utility model relates to hydraulic engineering construction and can be used to protect coastal zones of rivers from the flow of powerful mudflows.

A similar solution is known, containing a tray installed in a seleniferous channel, the bottom of which is made of beams freely laid on its sides with cylindrical elements strung on them; at the same time, the bottom is a flexible rough surface with a reverse slope, which provides quenching of the flow energy, (a.s. SU 1645357 A1, Anti-mudflow device; ЕВВ 8/06; bull. image 16 dated 04/30/1991). The disadvantage of this technical solution is that it is very difficult to build such an anti-mudflow device in wide and long trays; to ensure the reliability and stability of its operation, significant material costs are required, that is, it is a rather complicated and unreliable mechanism.

The closest analogue is a screening channel containing a tray of a polygonal cross section with symmetrical slopes - two lateral and two bottom ones; the tray is reinforced with a combined cladding consisting of flexible reinforced concrete grillages and rubble fasteners with a masonry thickness of at least 45 cm, and the reinforced concrete grillages are located across the section of the tray along the side and bottom slopes at a distance from each other and consist of rows of reinforced concrete prismatic blocks anchored to the base, interconnected by cables and protruding above the level of rubble fastening and bottom slopes by 30-40 cm (RF Patent No. 2188277, IPC E02D 17/18, E02B 3/12, E02B 5/02, publ. 2002). The disadvantage of the closest analogue is that when powerful mudflow mudflow flows with high velocities (more than 5 m / s) and channel erosion depths of more than 1.5 m converge, reinforced concrete grillages may not withstand, i.e. can receive large displacements and breaks of flexible nodes, and this in turn will lead to the destruction of the entire structure.

The technical result is expressed in increasing the efficiency of the design.

The essence of the selection channel is characterized by a set of common features with the closest analogue, containing a polygonal cross-section tray with symmetrical slopes - side and bottom, reinforced with a combined lining, consisting of flexible reinforced concrete grillages and rubble fasteners, and differing from the nearest analogue by signs, namely: at the base of the bottom a slope of the polygonal tray provides a horizontal bottom section, where dams of reinforced gabions are arranged along the line of flexible grillages, laid in two or three rows along the entire width of the horizontal section of the channel with a deepening below the bottom in two or more layers to the possible depth of erosion of the channel, gabions are made, 2-2.5 m long, 0.8-1.0 m wide and 0 height , 7-1.0 m from the reinforcing cage A1 with a diameter of 12-14 mm, galvanized mesh and stone aggregate, while reinforced concrete grillages are located across the section of the tray along the line of the side and bottom slopes and on top of the dams at a distance from each other and consist of rows of reinforced concrete prismatic blocks attached to the base and reinforcing cage dams interconnected by cables and protruding above the level of dams, bottom slopes and lateral fastening by 30-50 cm. Moreover, the distance L between dams and reinforced concrete grillages (m) does not exceed 2 V _y , where V _y is a stable channel width (m ), with L = 50-100 m, and the intervals of the side slopes between the grillages are reinforced with gabion mattresses arranged in rows and made 2-2.5 m long, 1-1.5 m wide and 0.3-0.4 m thick stone aggregate and galvanized wire mesh.

The essence of the selector channel is illustrated by drawings, where in FIG. 1. depicts a cross section of 1-1 selector channel along the axis of the reinforced concrete grillage and dam; in FIG. 2 is a plan of the selector channel; in FIG. 3 is a cross section of a channel 2-2 for attaching side slopes of gabion mattresses; in FIG. 4 - longitudinal section 3-3 along the axis of the channel; in FIG. 5 - reinforced gabion.

The selector channel contains a polygonal section tray with symmetrical slopes - two lateral 1 and two bottom 2, and a horizontal bottom 3, where dams 4 are arranged at a certain distance from each other. The dams 4 are made of reinforced gabions 5, laid in three rows along the entire width of the horizontal bottom 3 with a depth below the bottom in two or more layers to the possible depth of erosion of the channel. And gabions 5 consist of a reinforcing cage 6, a metal (galvanized) mesh 7 and stone aggregate 8, and are made 2-2.5 m long, 0.8-1.0 m wide and 0.7-1.0 m high. In the cross section of the tray at a distance from each other, reinforced concrete grillages 9 are arranged, passing along the line of the side 1 and bottom 2 slopes and on top of the dams 4. The grillages 9 consist of rows of reinforced concrete prismatic blocks 10 attached to the base and the reinforcing frame 6 of the dams 4, connected between ropes 11 and protruding above the level of dams, bottom slopes and lateral crepe eniya 30-50 cm. of concrete blocks projecting portions 10 on the pressure side faces are inclined against the direction of mud flow at an angle of 30-40 °. Intervals of side slopes 1 between reinforced concrete grillages 9 are reinforced with gabion mattresses 12, arranged in rows and made 2-2.5 m long, 1-1.5 m wide and 0.3-0.4 m thick, made of stone aggregate 13 and galvanized metal mesh 14.

The design and calculation of the selection channels of combined structures is carried out in accordance with current building codes and rules, taking into account the actual natural conditions (climatic, topographic, hydrological, geological, hydrogeological, etc.) in the basin of the selenose river under consideration, where the mud-shelter mounts are being erected. The dimensions of the dams 4, reinforced concrete grillages 9 and the distance between them are determined depending on the possible maximum hydrodynamic characteristics of the mudflow.

A selector channel is constructed as follows. First, a channel of a polygonal section with symmetrical slopes 1 and 2 and a horizontal bottom 3 is developed in the seleniferous channel. In the necessary places of the bottom and slopes, at a distance of 50-100 m from each other, trenches for dams 4 and reinforced concrete grillages 9 are built, built of monolithic concrete - blocks 10 with reinforcement and installation of flexible connections between themselves and cables 11. The protruding parts of reinforced concrete blocks 10 are made of high-strength abrasive-resistant reinforced concrete. After that, fastening is made of gabion mattresses 12, for this, gabion galvanized mesh 14 and stone aggregate 13 (sizes 5-20 cm) are used. Gabion mattresses 12 are made in place, 2-2.5 m long, 1-1.5 m wide and 0.3-0.4 m thick, from stone aggregate 13 and galvanized metal mesh 14, and are arranged in rows along the slope. The distance L between dams and reinforced concrete grillages (m) does not exceed 2 V _y , where V _y is a stable channel width (m), on average, L = 50-100 m. The bottom slopes 2 between reinforced concrete grillages 9 are not strengthened.

When mudflow passed through the channel due to the polygonal shape of its cross section, the maximum specific loads of the mudflow are concentrated in the center of the channel along the horizontal bottom 3. Moreover, the dams 4 and the protruding parts of reinforced concrete grillages 9 perceive the greatest hydrodynamic effects.

The selective channel of combined construction is especially effective in mountain (transit selective conductive) sections of rivers with slopes i = 0.02 ... 0.05. The screening channel of the proposed design provides reliable protection to coastal zones where hydrodynamic effects of powerful mudflows are possible with a flow rate of Q> 50 m ³ / s.

Claims (2)

1. Selective channel containing a tray with a polygonal cross section with symmetrical slopes - side and bottom, reinforced with a combined cladding consisting of flexible reinforced concrete grillages and rubble fasteners, characterized in that a horizontal bottom section is provided at the base of the bottom slopes of the polygonal tray, where the flexible grillages arranged dams of reinforced gabions, laid in two or three rows along the entire width of the horizontal section of the channel with a depth below the bottom in two or more layers to the extent possible the depth of the channel erosion, gabions are made 2-2.5 m long, 0.8-1.0 m wide and 0.7-1.0 m high from the reinforcing cage A1 with a diameter of 12-14 mm, galvanized wire mesh and stone aggregate, reinforced concrete grillages are located across the tray section along the line of lateral and bottom slopes and on top of dams at a distance from each other and consist of rows of reinforced concrete prismatic blocks attached to the base and reinforcing cage of dams, interconnected by cables and protruding above the level of dams, bottom slopes and side mounts 30-50 cm. 2. The screening channel according to claim 1, characterized in that the distance L between the dams and the reinforced concrete grillages (m) does not exceed 2B _U , where B _y is a stable channel width (m), with L = 50-100 m, and the side gaps The slopes between the reinforced concrete grillages are reinforced with gabion mattresses arranged in rows and made 2-2.5 m long, 1-1.5 m wide and 0.3-0.4 m thick, made of stone aggregate and galvanized wire mesh.

Images