SU700601A1 - Method of making foundation - Google Patents

Description

one

The invention relates to the field of construction, and more specifically to methods for the construction of foundations.

A well-known mechanical method of building a foundation, including the improvement of the foundation of a gravel and sand pillow and the laying of concrete 1 |.

The disadvantages of this method are the relatively low bearing capacity of the foundations and the greater work capacity.

The closest technical solution is the method of erecting the foundation, including the formation of a cottage by dropping a punch to the surface of the ground and laying the concrete 2.

The disadvantages of this method are the limited bearing capacity of the foundation due to the small size of the earth core and the need to use high capacity lifting means in the production of works.

The purpose of the present invention is to increase the bearing capacity of the foundation by increasing the size of the earth core.

This goal is achieved by the fact that in a known method of erecting a foundation, in which the formation of a pit is formed by dropping a chip on the ground surface and laying concrete, the wells are drilled without digging the soil and filled in before the punch. oil-squeeze: m loose. m. materials, and the wells are placed inside the zone, protruding beyond the contour of the stamp at 0.15 - 0.25 of their bottom. meter.

FIG. 1 shows the general scheme of the excavation device; in fig. 2 — nlan well location; in fig. 3 shows the formation of a soil core.

The method is carried out as follows.

On the soil surface 1, detached from the vegetation layer and the planned surface, the center of the foundation to be built is marked. In the center of the set tamper-shtamp and outline the contour 2 of its soles. Then proceed to the drilling of wells without excavation using attachments to the basic lifting machine 3, which consists of a guide 4 and the working body-projectile (not shown) for punching. The snare is attached to the cable of the main winch of the base machine 3 and, during operation, interleaves along the vertical guide 4 pivotally connected to the boom of the base mask. Directional dropping of the projectile into the same spot leads to the formation of holes 5 with a diameter equal to the diameter of the shell. In this case, the most optimal diameter of the well is a diameter equal to 0.20–0.25 d (where § is the diameter of the round, or square side, or the larger side of the rectangular base of the tamper-stamp 6). At the site, within the marked contour 2, vertical wells 5 are evenly distributed so that the minimum distance in the plan between the axes is equal to two diameters of these wells, while the wells adjacent to the marked contour 2 of the tamper-die are so that their edges protrude beyond contour 2 by 0.15 - 0.25 borehole diameter 5. After the borehole has been drilled, low-compressible bulk material with a high angle of internal friction, mainly crushed stone, is poured into them. The thickness of the tank is 1.5-2.0 times the diameter of the well 5. When the wells 5 have been drilled without excavation and their faces are covered with a layer of low-compressible bulk material 7, the formation of a trench 8 is started and the directional drop of the tamper die 6 is the same. with a form and the sizes of a sole of the base. In this case, the same basic load-lifting machine 3 is used. In the process of punching out, a trench is created in form and dimension. Corresponding to the design dimensions of the foundation, with the simultaneous formation of 9 larger dimensions at the base of the trench. In the pit formed by punching 8, the foundation body is erected.

The principle of operation of the foundation, constructed in the manner described here, is as follows. In the process of stamping the pit at its base, an earth core 9 of increased size is formed, which increases its carrying capacity.

Using the described method of building a foundation provides an increase in the carrying capacity of the foundation.

Claims (2)

1. Kosterin E. V. Foundations and Foundations. M., “Higher School, 1966, p. 73 175. 2. The author's certificate Law 314856, cl. E 02 D 27/28, 1971.