SU1527375A1 - Method of consolidating soil foundattion - Google Patents

Abstract

The invention relates to methods for strengthening a subgrade and allows for greater efficiency. The foundation is strengthened by freezing the soil with atmospheric air through the wells. The wells are bent in a vertical plane and consisting of sections 1.2 drilled from the surface of the soil and connected at the bottom. After the soil has cooled, the wells are filled with non-bonded material. At the same time, within the seasonally thawing layer 5, the bulk material is placed in the shells 7. 1 Cp f-ly, 3 ill.

Description

Fig-1

The invention relates to the field of construction and relates to the strengthening of a soil base by freezing.

The purpose of the invention is to increase the effectiveness of strengthening the base by creating self-drilling in the wells.

FIG. 1 shows the base reinforced by the proposed method, a cross-section; in fig. 2 - time cut AA on -fig 1; in fig. 3 is a variant of well completion when the base is made on the roof of the ledge

The foundation is reinforced by cooling the soil with atmospheric air circulating in the well. The wells make it bent in a vertical plane. In order to strengthen the wellbore in terms of the base, they are made of a series of differently inclined sections 1 and 2, drilled from above and connected below, while sections 1 are made vertical, and sections 2 are inclined (Fig. 1). If the reinforced base is located on the roof of the scarp, the extreme end of the ridge to the slope is formed from vertical or inclined sections 3, drilled from the surface, and horizontal sections 4 drilled from the surface of the slope (Fig. 2). Sections 4 can be made weakly inclined towards the ledge - for groundwater flow. Soil cooling and ice freezing of soil cylinders is carried out in the cold period of the year due to natural convection.

After the formation of ice-ground cylinders 5, the wells are filled with bulk material 6 (gravel, slag, frozen ground). In the upper part of the well sections, for example, trimming of reinforced concrete or tree1 is used. A method of strengthening a soil base by cooling it with atmospheric air through the walls of wells, which in order to increase the efficiency of the process by creating a pull in the wells, the soil base is cooled through wells that are bent in a vertical plane and having a height on the ground surface. both ends, and after cooling the soil of the well, the wells are filled with non-bonded material, with

2, the method according to claim 1, wherein; that when filled piles, or the same on the surface of the wells, there is an unrelated material

placed on the part of their length located within the seasonally defrosting layer adjacent to the walls

Ter-ial, sealed with cement mortar. You can also make a shell 7, for example, of roofing material, which prevents the spreading of bulk material.

50

shell wells.

0

five

0

about 35

five

in the thaw layer when it is loaded from above.

The prepared base can be used both in the D cold period and in the warm one. When using the base in the warm season, it is advisable to make a draft of gravel or slag 0.2–0.3 m thick over its surface. The upper horizons of the base are thawed, since the load is transferred to the bottom of the frozen-out cylinders through the filling of wells. However, if necessary, the base is insulated about

Thus, strengthening the base in the proposed method through the wells, both ends of which are brought to the surface of the soil, allows to create cool atmospheric air in the wells, which increases the effectiveness of freezing the soil, and filling the wells with flowing soil allows transferring the load to the lower non-heatable soil layers. This allows a significant increase in the bearing capacity of the soil base

Invention Formula

1. A method of strengthening a soil base by cooling it with atmospheric air through the walls of a well, characterized in that, in order to increase the efficiency of the method by creating self-mounts in the wells, the soil base is cooled through wells that are bent in a vertical plane and having the soil day surface is both ends, and after cooling the soil of the well, the wells are filled with non-bonded material, with

2 "The method according to p. 1, distinguished parts of their length, the limits of the seasonal-about place adjacent

shell wells.

FIG. g

-four

Claims (2)

Claim 1. The method of strengthening the soil base by cooling it with atmospheric air through the walls of the well, characterized in that, in order to increase the efficiency of the method by creating self-traction in the wells, the soil base is cooled through wells bent in a vertical plane and having displayed on the day surface both ends of the soil, and after cooling the soil, the wells are filled with incoherent material. about 2. The method of pop. 1, characterized in that when filling the wells with incoherent material, shells adjacent to the walls of the wells are placed on a part of their length located within the seasonal-thawing layer. ''