SU1055801A1 - Ferroconcrete shell - Google Patents

Abstract

REINFORCED CONCRETE SHELL, containing an anchor plate, housing, reinforced concrete support ring mounted on the upper end of the shell, and drawing, characterized in that, in order to reduce the material consumption, the housing is made of a panel that are interconnected along vertical face face and loosely supported by at least one panel on an anchor plate placed on the backfill side, the anchor plate being connected by spring-loaded rods to a reinforced concrete support ring. . i g (L sKjS

Description

01 SP

00

.f

The invention relates to a hydraulic engineering construction and can be used in berthing structures of the retaining wall type.

The reinforced concrete construction, j of the iladric shell, includes vertical curvilinear in plan and, interconnected along vertical face faces, and anchor lit, hingedly attached to the bottom to toe end of one of the panels located on the backfill side, with heights : And this panel is less than the height of the C 3 3 shell.

The disadvantage of this design is the presence of a hinge joint, through which forces are transmitted from the anchor plate to the vertical panel and butt joints, as a result of which tensile stresses arise in the panel and 20 shears in the butt joints. In this case, with an increase in the height of the shell without changing its diameter, in order to ensure the stability of the structure, it is necessary to increase the dimensions of the anchor plate 25, which causes an increase in the indicated stresses and consequently. The need for reinforced reinforcement is evident. nor is the panel of the swivel section, which is a hub eg - ,,. joints, in order to ensure the strength of the shell, A reinforced concrete shell is also known, comprising a housing, an anchor plate, a reinforced concrete support ring mounted on the upper end of the shell, and C 2 3.

 A disadvantage of the known construction is that it possesses the features inherent in the ankerone bopverk; during compaction of the backfill soil, during the mooring operation, overvoltage and breakage of the anchoring tons take place. Compaction during the construction process is not possible due to the location of the anchoring tons 1p ,,.

The aim of the invention is to reduce

material consumption.

The goal is achieved by the fact that the body is made of panels interconnected by vertical end faces and freely supported by at least one panel1 on the anchor plate placed on the 55 backfill side, with the staff anchor being connected by joints with sandwich-resistant support ring.

FIG. 1 shows the construction of the shell. Installed on the base, general view; in fig. 2 shows section A-A in FIG. one.

The reinforced concrete shell consists of separate panels 1, for example curvilinear in plan, joined by elastically flexible vertical joints 2. Panes pi 3 and 4, the same as panels 1, but located on the backfill side, freely supported by lower ends on anchor state 5, connected gami 6 through the elastic element 7 with the support ring 8, laid on the upper ends of the panels and uniting them.

 the backfill of the retaining wall, acting on the flap, tends {to turn it away from the backfill, at the same time with its mass it also acts on the anchor plate 5, keeping it in the set position. The vertical panels 3 and 4 of the shell, the anchor plate .5 and the tongue 6, which ensure the joint operation of the anchor plate and the shell, form a force triangle, in which there are no bending moments and tensile and compressive forces take place, and in both The anchoring slab and the anchor slab develop aprons of compression, and in tons, tensile stresses develop.

The position of the fixing points on the ankerker plate allows the adjustment of the forces in the vertical sheath panels. When they are located within the half width of the slab, 1 adjoining the shell, the anchor plate, acting on the ends of the panels, creates compressive forces in them, when the mount is shifted to the middle, the longitudinal compressive forces in the panels decrease to zero.

The transfer of forces from the anchor plate, perceiving the load from the mass of the backfill soil, to the supporting reinforced concrete ring 8, mounted on the upper end of the shell, ensures evenly & separation of forces between the panels and the butt elements 2. The forces cross through the elastic Element 7 of a given stiffness, which ensures the wall strength and reduces the ground pressure, thus contributing to the stability of the retaining wall.

The construction of a reinforced concrete shell with a horizontal anchor pin below the lower end, connected by means of a rod with a support ring located on the upper end, allows it to be used in a wide range of heights of the support column without increasing its diameter. I In the case of the use of a shell with a diameter of 10 and 7 and the proposed coherent pattern at a depth of 2O, p m, instead of freely 5

/

FIG. one hundred necks with a diameter of 18 m, optional. The plan is to ensure the stability of the plant for shear and overturning, the economic effect is 2500 rubles. on 1 rm m sooruzkeni.

Claims (1)

REINFORCED CONCRETE SHELL, containing an anchor plate, a housing, a reinforced concrete support ring mounted on the upper end of the shell, and a rod, characterized in that, in order to reduce the material consumption, the housing is made of panels interconnected by vertical end faces and is freely supported at least at least one panel on the anchor plate, located on the backfill side, and the anchor plate is connected by spring-loaded rods to a reinforced concrete support ring. ,. _m SU., „1055801> 1 1055801