SU996620A1 - Method of consolidating sagging soil body - Google Patents

Description

The invention relates to the construction of civil and industrial buildings and structures on weak soils, in particular to the strengthening of soils by the dynamic effect of tamping with the formation of columnar structures

There is a method of hardening the soil by the formation in it of evenly spaced soil piles with the help of tamper equipment.

A disadvantage of the known method is that the soil piles are placed from the condition of increasing the strength of the soil in the intersway intervals, which makes it necessary to place them at relatively small distances from each other, and this leads to high cost and laborious work and reduced productivity.

The closest to. The invention is a method of hardening an array of i subsiding soil, including the formation of a squashkin with a uniform pitch, the drilling of wells with strong material, and its formation with the formation of strengthened zones with a diameter of 2 along the depth of the array.

A significant disadvantage of this method is the placement of columnar structures in an array without taking into account the possibility of forming evenly spaced supports for unconsolidated soil on columnar structures, which leads to a different depth of the Soil in depth with incomplete use of the carrier

10 ability to increase the pitch of the column structures.

The purpose of the invention is to increase the strength of the soil in depth.

15

The goal is achieved by the fact that according to the method, which includes the formation of wells with uniform pitch, filling them with durable material, its requirement of forming reinforced zones with different diameters over the depth of the array, the distinct zones form equal depth increments of the array and The reinforced array is 0.25-0.35.

The method is performed in the following sequence.

At the site of work, the places of formation of wells are evenly drawn in a chess order.

At the planned points, a vertical well bore is punched through the well, 6 1, 0 m to the full depth of the substation. A layer of slightly compressible material, such as rubble, 0.8-1.2 times the diameter of the impact shell, is poured at the bottom of each well. This layer is tamped down before drowning; it is next to the initial bottom hole mark. Then the backfilling and tamping operations are repeated, while the intensity of the tamping of the second and subsequent portions of the material is increased by increasing the impact impulse to increase the drop height of the impact projectile. Widening is created. Ramming is stopped when the diameter of the spherical broadening exceeds the diameter of the well by 1.5-2.5 times. The control of the dimensions of the broadening is carried out according to the amount of material consumed. This layer is compacted to the full by tamping, the intensity of which is reduced by a factor of 3-5 compared with the previous one, which makes it possible to form a hardened area of smaller diameter in this area than in the next section,

This cycle of operations is repeated until the level of formation of the next widening broadening. To create it, a layer of material with a height of 0.8-31.0 diameters of the impact projectile is poured into the well and tamped at an increased intensity of impact.

A series of hardening zones with different diameters form a columnar structure in the ground. In the same sequence form a columnar; construction at other points.

The distance between the centers of the wells is calculated on the basis of the formation of a non-reinforced soil arrays, supported on the broadening near the located columnar structures. At the same time, this broadening: along the height of the structure, which is formed over the entire depth of the subsidence, are placed evenly with a distance equal to 1/3 to 1/5 of the depth of the strengthened soil mass.

As a result of this arrangement of the columnar structures, the load transferred to the reinforced array is resumed by the columns and structures in conjunction with the non-reinforced natural folding.

It is empirically tested that its reinforcement formed by such hardening with columnar structures is expedient within the ratio of the volume of hardened soil to the total volume of strengthened Soil 0.25-0.35. If this ratio is less than 0.25, there is a significant reduction in the coagulation effect, which excludes the possibility of increasing the capacity of the reinforced array, which is necessary for the erection and construction.

In the case of a ratio of more than 0.35 weeks, the hardened ability is not used, i.e. expenditures of manpower and resources

The application of the proposed method | In practice, it provides the possibility of increasing the distance between the centers of the columnar structures to; 3-5 m instead of the used 1.2-1.5 m. This reduces the cost of work j by 1.5-2 times and reduces 2-3 times labor costs.

Claims (2)

1. Kosterin E.V. Foundations and foundations. M., Higher School, 1978. with. 130-134. 2. The author's certificate of the USSR 718541, cl. E 02 D 3/046, 1978.