RU2303106C1 - Method for highly-rigid plate foundation erection - Google Patents

Abstract

FIELD: construction, particularly to erect multistory buildings on non-uniformly compressible clay base.

SUBSTANCE: method involves excavating crossing trenches in ground; filling the trenches with concrete and joining thereof with slab covering the trenches. Trenches are excavated from pit bottom for different depths. Lower trench parts are provided with widened abutment sections having reinforcement bars included therein. The reinforcement bars are used as non-stretched threads. Trenches and slab are reinforced with nettings. Cell centers of the slab are anchored.

EFFECT: increased rigidity of foundation slab due to provision of ribs in ground.

5 dwg

Description

The invention relates to the construction and can be used in the construction of multi-storey buildings on an unevenly compressible clay base.

It is known that the maximum precipitation of buildings can be increased if efforts from uneven precipitation do not arise in the structures of the above-ground part (see SNiP 2.02.01-83 * Appendix 4 Ultimate deformations of the base, item 2.). In addition, in Note 5. for foundations in the form of continuous slabs, the limit values of average sediments may be increased by 1.5 times.

The rigidity of the slabs, ensuring uniform precipitation of the aboveground part of the building, can be achieved by increasing their thickness, but then the foundation's own weight will increase, and a significant part of the bearing capacity of the foundation soil will be spent on its compensation.

Known gap spatial foundations, made as shallow foundations, designed to absorb loads from columns (E. Sorochan, Foundations of industrial buildings. M .: S.I., 1986, p. 24, Fig. 1.10). These foundations are prepared by filling the intersecting slots formed in the ground by bar, concrete and placing a glass above them to install the column.

A disadvantage of the known solution with respect to slab foundations is the relatively low stiffness of the ribs and, therefore, the entire foundation.

Closest to the proposed invention is a method of erection of monolithic structures (patent RU No. 2079617 C1, E04G 11/02, E02D 5/20, 05/20/1997), including the development of trenches around the perimeter of the structure, reinforcing them with frames and concreting.

The disadvantage of this method is that the spatial monolithic structure formed in the ground is then removed and installed on the prepared foundation, or not removed, removing soil from its inner part, depriving structural elements of interaction with the surrounding soil.

The technical solution to the problem is to increase the rigidity of the foundation slab due to the work of ribs arranged in the ground.

The objective is achieved in that in the method of erecting a slab foundation of increased rigidity, including the development of trenches intersecting in the soil, filling them with concrete, uniting on top of the slab, according to the invention, trenches are torn from the bottom of the foundation pit to various depths, the bottom of the trenches is made with broadening in the form of heels which lay the reinforcement, which serves as an inextensible thread, and the heels are filled with fiber-reinforced concrete, while the trenches and the slab are reinforced with nets, and the centers of the slab cells are anchored.

The novelty of the proposed proposal is due to the fact that a spatial thin-walled monolithic structure is formed in the earth, working in an elastic-plastic medium together with soil, the deformations of which are limited by intersecting reinforced concrete walls.

The invention is illustrated by drawings, where figure 1 shows a diagram of a plate in plan; figure 2 and figure 3 is a longitudinal and cross section of fragments of the plate; figure 4 and figure 5 - the location of the reinforcement of the heels in the trench and the cross section of the heel, respectively.

The method of erecting a slab foundation of increased rigidity is performed in the following sequence. In clay soils, pit 1 is first torn off and wells 2 are made along its longitudinal sides. Then trenches 3 are torn off, connecting wells 2, which are located opposite each other. An extender projectile (not shown) is lowered into the wells 2 and dragged along the bottom of the trench 3. In the lower part of the trench 3, a broadening 4 is formed in the form of a heel, and the surrounding soil is compacted. In the formed broadening 4, reinforcement 5 of large diameter is laid onto which the retainer elements 6 are pre-welded, providing the necessary thickness of the protective layer, and to ensure the "inextensibility" of the reinforcement 5 of the broadening 4 in the longitudinal and transverse directions, its ends are folded into loops 7, which are placed in previously drilled well 2. Next, broadening 4, with reinforcement 5 located in it, is filled with fiber concrete 8. Then, in a similar manner, arrange the second system of wells and trenches perpendicular to the first one only once down, that the mark of the sole of the broadening of the second system is equal to the mark of the top of the broadening of the first. Next, the unfilled part of the trench 3 is reinforced with nets and concreted. As a result, a network of trenches 3 with broadening 4 is formed, dividing the base within the stain of the building into cells 9. At the centers of gravity of the cells 9 thus constructed, anchors 10 are arranged so that there is no bending of the thin plate 11. Then, the plate 11 is reinforced and concreted.

Claims (1)

A method of erecting a staff foundation of increased rigidity, including the development of trenches intersecting in the soil, filling them with concrete, uniting on top with a slab, characterized in that the trenches are torn from the bottom of the pit to a different depth, the bottom of the trenches is made with broadening in the form of heels in which the reinforcement is laid, playing the role of an inextensible thread, and the heels are filled with fiber-reinforced concrete, while the trenches and the slab are reinforced with nets, and the centers of the slab cells are anchored.

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