SU977586A1 - Pillar foundation - Google Patents

Description

The invention relates to the construction and relates to the construction of foundations for columns of industrial buildings, supports for high-rise structures.

Known foundation for the column, including the shell and base plate with a glass in the middle. The shell is made with a central support rod, and in its cavity an additional shell is placed, also made with a central support rod f1.

Closest to the present invention is the foundation for the column, including an upwardly cladding shell and a cup, opened in the upper part of the shell and adjoined to it by means of a horizontal plate and a vertical rod 2.

However, the seismic resistance of known foundations is insufficient. In addition, the small footprint of the basement adversely affects its carrying capacity.

The purpose of the invention is to increase the seismic resistance and bearing capacity of the foundation.

This goal is achieved by the fact that the foundation for the column, including the enlarging upward shell

and the glass placed in the upper part of the shell and adjoined to it by means of a horizontal plate and a vertical rod, is provided with an additional shell composed of the upper and lower truncated cones, joined by rigidly smaller bases, and located relative to the main shell with a gap,

10 and a conical truncated sheath made of an elastic material, with a sheath made of an elastic material located in the gap between the upper truncated cone and a conical truncated sheath of elastic material and the main shell, and the gap between the lower truncated cone and the main shell is filled with bulk material.

2Q The drawing shows the proposed foundation for a column, a cross-section.

The foundation for the column includes an expanding obselochka 1 and a glass 2 placed at the top

 parts of the shell 1 and its interface with it through the horizontal plate 3 and the vertical rod 4. With a gap 5 relative to the main shell 1, there is an additional slot.

30 sheath composed of upper

b and lower 7 truncated cones,. rigidly conjugated with less “1 base.

At the same time, in the gap 5 between the upper truncated cone 6 and the main shell 1 there is a conical truncated shell 8 made of an elastic material, which expands upwards A A 5 between the lower truncated cone 7 and the main shell 1 and is filled with bulk material 9.

In glass 2, a column 10 is housed with a fine-grained concrete 11.

When vertically directed seismic vibrations occur, the shell of an elastic material is elastically deformed, the additional shell is immersed in the ground of the base, and the bulk material 9 is compacted, as a result of which the seismic and dynamic vibrations are reduced.

When horizontally directed seismic oscillations occur, the shell 8 of elastic material, mainly working in compression and stretching, is deformed. These forces are transferred to it by the main shell 1, working primarily for compression and bending, while the additional shell works in this case mainly for stretching and bending. .

The lower part of the additional shell, made in the form of a truncated cone 7, expands —below, which significantly increases the bearing area of the foundation, and hence its bearing capacity.

For the construction of the proposed foundation, a flat bottom trapezoid profile is being developed.

On the horizontal base of the pit set additional shell. In its cavity, loose material 9, such as sand, is poured at a predetermined mark. Then, a conical transducer is inserted into the shell cavity, the configuration of which corresponds to the cone shape of the main shell 1, and a conical funnel is formed in the bulk material 9 and the ground.

After this, the main shell 1 is inserted into the cavity of the additional shell, on the surface of which

is the shell 8 of the elastic material. A vibrator is mounted on the central core 4 of the shell 1 and the vibration immersion of the shells 1 and 8 is carried out to ensure a predetermined contact of their surfaces.

Then in the cavity of the shell 1 install a horizontal plate 3, monolith the joints with concrete 11 with the subsequent installation of the column 10.

Backfilling of the additional shell is carried out with a primer with layer-by-layer compaction of it to a given density.

The proposed foundation for the column in terms of static work and in terms of the perception of dynamic loads is more rational, since it relies on the natural basis of not only the shell, but also. artificial

base, made of bulk material, and is also able to perceive seismic loads.

Claims (2)

1. USSR author's certificate No. 540971, cl. E 02 P, 1973. 2. USSR Author's Certificate No. 755956, cl. E 02 D 27/42, 1978. Y //