SU1301904A1 - Retaining wall - Google Patents

Abstract

The invention relates to the field of hydraulic engineering, in particular to the construction of shore retaining walls designed to protect the base from undermining. The purpose of the image reteni - reducing material consumption. The upper part of the structure is made in the form of a cantilever wall 4 located above the vertical diaphragm 1 and enclosing the backfill 5. The reinforced concrete slab 11 is located on a layer of pliable soil 12 and with its other end zankerken the slope of the pit 10. In the concrete layer of the slab 11 transverse expansion joints 14 are made. The backside of the cantilever wall 4 is attached 5 ti gi 15 located in the backfill, which with opposite ends using anchors 16 are anchored to the slope of the excavation 10, and on the top of the 15 g are discretely placed transverse elements in the form of beams 17. Under the action of vertical and horizontal loads and the resulting lateral pressure on the basis of the foundation pit, the soil prism of the base exerts horizontal shear pressure on the diaphragm 1. These anchorage forces are prevented by anchors 7, embedded in the foundation wall and base of the foundation pit Yu. 1 z.p. f-ly, 1 ill. S S 1G-CO o; o o 4; / J

Description

The invention relates to hydraulic engineering, to the construction of onshore retaining walls and is intended for the protection of the foundation from undermining.

The purpose of the invention is to reduce material consumption.

The drawing shows schematically a longitudinal wall, a longitudinal section.

The device includes a vertical diaphragm 1 buried in the base 2 below the scouring funnel 3, a cantilever wall 4 connected to the top of the diaphragm 1 and holding the backfill 5. The fundamental part 6 of the cantilever wall 4 is attached to the base 2, anchors 7 that are inclined deep into the base 2 structures and cross the line 8 of the prism 9 possible movement of the base part. The fundamental part 6 of the cantilever wall 4 is connected to the slope of the excavation 10 by a reinforced concrete slab 11, which is located on a layer of pliable (for example, under-compacted clay) soil 12 and its other end is anchored by means of the anchor 13 attached to the slope of the excavation 10, transverse deformation grooves 14. A layer of flexible soil 12 can be made of varying thickness, increasing from the edges of the slab to the middle. To the rear edge of the cantilever wall 4 are attached the gigs 15 (in one or several Rus)., Which are fixed by opposite anchors with the help of anchors 16 in the slope of the pit 10. Discretely transverse elements in the form of beams 17 are placed at the top of the t 15 g. Dimensions all elements of the device are determined by calculation or on models, for example, from equivalent materials.

The device works as follows.

When the cantilever wall 4 is erected and the soil 5 is returned to the ground under the action of vertical and horizontal loads and the resulting side pressure at the base 2, the bottom prism 9 of the base exerts horizontal shear pressure on the diaphragm 1 embedded in the upper part of the fundamental

part 6 of the wall. Anchors 7, embedded both in the fundamental slab and in the potentially fixed base 2, reinforced concrete slabs 11, embedded in the anchors prevent these shearing forces.

13c slope pit 10; The glands 15, embedded with anchors 16 in the slope of the pit 10. The connecting reinforced concrete slab 11 is located on the pliable layer 12. Under the influence of the load, the slab sags, increasing the holding horizontal force. The presence in the concrete layer of the plate 11 transverse expansion joints

14 provides a smooth deflection of plate 11 without kinks. In the process of backfilling, 5 tons of hectares 15 with transverse beams 17 laid on them, following sediments of the backfill body, bends, thus increasing the holding force acting on the cantilever wall 4.

Claims (2)

1. Substructure wall, including a vertical diaphragm, recessed into the base below the washout funnel, and a reinforced concrete slab located between the upper part of the structure and the diaphragm, which, in order to reduce the material intensity, the upper part of the structure is made in the form of a cantilever wall located above the vertical diaphragm, and enclosing the backfill, and the fundamental part of the cantilever wall is fastened to the base with inclined anchors, the reinforced concrete plate is located on a layer of pliable soil and its other The end of the anchor is covered with a corner of the pit, and transverse expansion joints are made in the concrete layer of the slab. 2. The wall according to claim 1, characterized in that the rear side of the retaining wall is attached to the rod, which is located in the backfill, which are opposite ends of &