RU2605238C2 - Structure foundation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used during arrangement of shallow foundations in construction of industrial, civil and transport facilities. Foundation structure includes ground bed, crushed rock pillow, structure foundation. Base along the perimeter of the foundation is made in the stage of semi-created rigid compacted core in the form of a hip pyramid with ledges of lumpy clay fractions and cement-sand mortar.

EFFECT: technical result consists in improvement of carrying capacity of foundation structure, reduction of yield of structure during operation, wider field of use.

1 cl, 6 dwg

Description

The invention relates to the field of construction and can be widely used in the construction of foundations for shallow laying of industrial and civil buildings and structures.

Known prefabricated reinforced concrete foundation, including prefabricated reinforced concrete shell in the form of a hyperbolic paraboloid, the cavity of which is filled in the factory with a material that replaces the soil (Tetior A.N. Design and construction of economic structures of foundations. - Kiev: Budivelnik, 1975, pp. 76-150) . The disadvantage of the foundation is that the aggregate is supple and allows an arbitrary change in the stress-strain state in its body.

Also known is a monolithic foundation, including a monolithic reinforced concrete truncated-conical shell with a broadening of the lower part of the wall, filled with two lower layers of material vertically and one upper layer of material horizontally, and a compacted core in the form of a tangent of rotation (Patent RU No. 2367743 C2, IPC: E02D , 2009). The disadvantage of such a foundation is that the foundation requires large costs for its manufacture from heavy and expensive aggregate materials, and it has a flat sole, which forms a sealed core of soil at the base in the form of a tangent of rotation around its vertical axis.

Closest to the invention and adopted as a prototype is the foundation, which includes the preparation of the bottom of the pit for the sole, the manufacture of its rigid aggregate and the outer shell of a truncated-conical shape with the broadening of the lower part of its wall and the formation of a compacted soil core. The foundation is constructed from structural and soil building elements. The bottom of the pit is prepared under the sole of the structural element with a recess in the soil of a given geometric shape, its rigid aggregate is made in a sectional conical formwork from lump clay fractions and cement-sand mortar with a sole of a given geometric shape. The broadening of the lower part of the wall of the outer monolithic reinforced concrete shell is carried out with the sole also of a given geometric shape. A soil building element is formed under the sole of the structural element with the calculated pressing load from the structure as a rigidly conjugated compacted core in the form of a circular cone (Patent RU 2482245, IPC: E02D, 2011).

The disadvantage of this design is its complexity of construction and the fact that the base for the foundation is not made over the entire geometry of the triangular rigid core from durable materials, which causes a drawdown of the structure during operation.

The aim of the invention is to improve the construction of the foundation of the structure, to achieve its maximum load-bearing capacity with the optimal arrangement of the formed hard core of the base, to reduce drawdown during operation of the structure, to reduce the cost of construction and expand the scope.

The goal is achieved by erecting a structure with a device along the perimeter of the foundation of a semi-formed compacted hard core of its base in the form of a hip pyramid with ledges from lump clay fractions and cement-sand mortar, taking into account φ - the angle of internal friction of the base soil and C - the adhesion of the base soil.

For sand and clay, for example, the difference in the outline of the graphs (having the ability to adhere) is due to their properties (Fig. 3, Fig. 4). We obtain the maximum tangential stresses at the moment of destruction (soil shear).

The essence of the invention consists in the following: when constructing the foundation of a structure where the upper soil layer is better (low compressible), that is, E ₁ is the soil deformation modulus of the upper layer is greater than E ₂ is the soil deformation modulus of the lower layer, then the diagram δ under the center of gravity the foundation of the structure will fade faster with depth (settlement is minimal). And vice versa, if the top soil layer is weaker (with a small value of the deformation modulus), then the plot δ under the center of gravity of the foundation of the structure will damp more slowly with depth, and therefore, the sediment on such soil will be more. Thus, the construction of a structure with a device under its foundation of a formed rigid core made of strong materials, in the zone of highest stresses, will ensure its optimal drawdown. A change in the plot of the vertical compressive stresses depending on the deformability of the soil layers is shown in FIG. 5. The depth (N) of the laying of the semi-formed hard core under the building is 0.25-0.75 H _{P of the} estimated depth of the formed hard core (Fig. 2), which is determined by the width of the foundation, φ is the angle of internal friction of the soil and C is the adhesion of the soil. The more C is the adhesion of the soil, the less is the depth (H) of the formation of the hard core. The dependence of the depths (H ₁ ) and (H ₂ ) of the formation of a hard core on soil adhesion is shown in FIG. 6.

The invention is illustrated by drawings, where in FIG. 1 and FIG. Figure 2 shows the foundation of the structure with a half-formed compacted hard core of the base in the form of a hip pyramid with ledges from lump clay fractions and cement-sand mortar, and the lateral faces of the ledges have a slope that takes into account the angle of internal friction φ and adhesion C of the base soil. Elements of the foundation of the structure include an earthen base, the foundation construct itself, a crushed stone pillow, a base under the foundation in the form of a hip pyramid with ledges from a structural rigid composition of lump clay fractions and cement-sand mortar, and coating waterproofing of the foundation.

The foundation of the structure 1 with a width of a and a length of b with the body of the support 2 is arranged in the traditional way. In the earthen base of the structure, a foundation pit is first developed for the foundation below the depth of freezing of the soil. Then, in the zone of the calculated hard core 3, the soil of the outline zone of the semi-formed hard core with steps 4 is developed. In this case, the lateral faces of the steps in the earthen base are given a slope taking into account the angle of internal friction φ and adhesion C of the soil. The zone of the shape of a semi-formed rigid core under the foundation of the structure is a geometric pyramid with hip-shaped ledges for the base of the rectangle and pointed - under the foundations with the size of a square.

After the development of the pit, a compacted hard core wedge is made from a structurally rigid composition of lump clay fractions of solid or semi-solid consistency 5, followed by pouring the outline with cement-sand mortar 6. After hardening the first section of the compacted hard core wedge, the second section of the hard core base with a step is similarly arranged and so on to the device base to the design height. On the prepared compacted base with a hard core, gravel cushion 7 and the foundation of the structure 1 are arranged sequentially with the support body 2, followed by coating the foundation with waterproofing and backfilling with drainage soil 8.

This construction foundation construction works as follows: in the area immediately below the foundation a semi-formed rigid hip core is formed with steps from a structural rigid composition of lump clay fractions of solid or semi-solid consistency and cement-sand mortar. With the formation of its base under the foundation has a greater bearing capacity, works as a whole, and the pressure from it is transmitted to the sides of the soil. During the operation of the structure, the subsidence of the foundation is minimal and is within acceptable limits.

Currently, all means and methods of implementing the claimed invention are known.

The use of the invention leads to lower costs for the construction of foundations of buildings and other structures by their manufacture from a structural building element, performed using filling material, for example, from a clay-cement-sand composition.

Application of the proposed construction foundation structure allows to increase its bearing capacity of the foundation, reduce the drawdown during operation, partially expand the scope instead of foundations on a pile foundation.

The present invention is intended for use in the construction of foundations of industrial, civil and transport facilities.

Claims (2)

1. The foundation of the structure, including an earthen base, crushed stone pillow, foundation construction, characterized in that the foundation along the perimeter of the foundation is made in the stage of a semi-formed compacted hard core in the form of a hip pyramid with ledges from lump clay fractions and cement-sand mortar. 2. The foundation of the structure according to claim 1, characterized in that the lateral faces of the semi-formed compacted hard core of the base in the form of a hip pyramid are made with a slope that takes into account the angle of internal friction and adhesion of the base soil.

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