SU1428802A1 - Reinforcement for lower slope of earth structure - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to hydraulic engineering. The purpose of the invention is to increase the reliability of the protection of the Structure against destruction during the period when water and ice flow through the ridge is passed. Fastening the bottom slope includes a through structure, made in the form of a rigid, hinged or rigid-hinged beam frame of longitudinal elements in the form of beams 2 and transverse elements in the form of beams 3, anchors 4 and anchor plates 5, and is loaded with stone 6. Frame design the longitudinal beams 2 abut against the thrust structure 7, which is executed in the form of horizontally located cells, recessed in the lower part into the body of the lower slope. The connection of the frame structure with the bottom slope is made in the form of anchors and anchor plates. To reduce flow rates, vacuums and ice load, the transverse beams are made with slots with beveled walls, and a reinforcing mesh anchored behind frame elements, or a layer of bonding material such as asphalt concrete, or a layer of frozen frozen ice are laid over the stone. the entire thickness of the stone mount with drainage holes, 2 3.p. f-ly, 5 ill.

Description

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The invention relates to hydraulic construction, for example, dams made of soil materials, allowing water and ice to pass through a ridge,

The purpose of the invention is to increase the reliability of the protection of the structure against destruction during the period when water and ice flow through the ridge is passed.

FIG. 1 shows a soil structure with a girder frame, cross section; Fig 2 is a view A ya of fig 1; in FIG. 3, node I in FIG. 15 in FIG. 4 — view B in FIG. 3 | FIGS. 5-8B, FIGS. 3,

A hydraulic structure made of ground materials, which allows water to overflow through ridge 1, includes a Prostrashnicheskoe bgshochny frame structure, consisting of longitudinal

2 and transverse 3 beams, anchors 4 and anchor plates 5, and the load of the flow, ice and loaded stone 6 is transmitted through transverse 3 and longitudinal 2 beams to the supporting structure 7.

Anchors 4 can be installed perpendicular to the slope line or to the horizontal plane (Fig.),

Dd1I of reducing the speed of flow around the surface of the stone load 6, reducing the magnitude of the vacuums behind the beams 3 and reducing the ice load over the anchors 4 are installed alky 3 with beveled slots. The design works as follows.

When skipping costs through the soil structure, the load from the impact of water, ice and stone is perceived by transverse beams 3 from the latter, this load is transmitted by anchors 4 to longitudinal beams 2, which transfer the load to the supporting structure 7 at the base of the structure. The upper transverse beams 3 are cut through ( Fig. 3) and are installed in such a way as to reduce the pressure of ice. Upper beams

3 split the flow reduce its velocity on the surface of the stones and vacuums

behind the beam.

In case of uneven settlement of the structure during the passage of water, the structure of the attachment follows the construction, the structural elements are rigidly connected, hinged or subject to a rigid or articulated connection in the appropriate directions. The methods of fastening the rods are chosen depending on the specific conditions.

Claims (1)

Invention Formula 1, Fastening of the bottom slope of a soil structure, including a through-cell construction with slotted holes in their walls, filled with stone and associated with the slope soil, characterized in that, in order to increase the reliability of the structure protection from destruction during the period of water and ice consumption through the ridge, the through structure is made in a vizhe rigid, hinged or rigidly hinged beam frame structure made from all-longitudinal and transverse elements, abutted by longitudinal elements along the flow, laid in planes, -parallel surfaces or the construction slopes, into a thrust structure, made in the form of horizontally located cells buried in the lower part of the body of the lower slope, and the connection with the lower slope is made using anchors and anchor plates buried in the slope soil, 2, Mount according to claim 1, characterized in that, in order to reduce the flow rates on the surface of the stone mount, vacuums and ice load, the slit in the transverse rollers are made in the form of slots with beveled walls, 3, Mounting on PP. I and 2, different on top the stone is laid reinforced, anchored for the elements of the frame structure, the s-shee layer of binder material from asphalt concrete. or ice frozen with apMi-ipoBaJttioro for the entire thickness of the ca- fssHHoro mount with draining holes. Ooodo iiiiiinon , 1111111 ijni 111111 r I oooopooa and oh oh OQO Bpp ooooo oseo wed (2 but f 5 4 3 Compiled by R. Nagorn Editor A. Motyl Tehred M. Khodanich Proofreader G, Reshetnik Ie.5 5 hell 6 f SZE "5