SU1294910A1 - Method of refining a body of sagging loess soil in foundation of buildings or structures - Google Patents

Abstract

The invention relates to the construction, in particular to the improvement of subsiding soils by the introduction of solutions into them. The invention is aimed at increasing the structural stability of the soil and reducing the cost of the zero construction cycle. This is achieved by creating a frame-cellular structure of compacted and strengthened elements in the soil massif, which are formed by injection of water-soil slurry and hardened material into the wells. Injection of pulp is carried out with hydrofluid of the soil. The volume of compacted zones is up to 0.5 volume of the array. Before the formation of wells on the surface of the array stack distribution carrier. Cost reduction is achieved by reducing the consumption of materials, using local soil in the pulp composition and reducing the number of wells. 2 Il. (L

Description

The invention relates to the construction, in particular, to the improvement of the millet of subsidiaries of soil by the introduction of solutions into them.

The purpose of the invention is to increase the structural stability of the soil and reduce the costs of the zero construction cycle.

Figure 1 shows a diagram of an improved array, an axonometric project; figure 2 - distribution carrier element, the section.

The method is carried out in the same way.

At the construction site of a building or structure, the foundation pit and soil 1 are compacted at its bottom, for example, by tamping. A distribution support element 2 is placed on the surface of compacted soil 1. From its surface we drill well 3 to the full depth of the soil mass to be improved. Simultaneously with drilling or after it, pulp containing 15–30% of the improved soil and water are injected into the wells intermittently. Injection of pulp is carried out with a “hydraulic fracturing of the soil, with an initial elevated pressure. After injecting a predetermined volume of pulp, injection is carried out in the same interval of hardening material, for example, cement mortar.

One row of wells is placed outside the contour of the carrier 2 with the goal of forming a barrier row that reduces the effect of the surrounding pipe when soaked on the compacted array.

In the process of pumping pulp, soaking and sintering are attached to the pumping point of zone A of the soil with filling of cracks and cavities formed during pumping with condensing soil from the composition of the pulp. The hardening material forms rigid elements 5 in the sealed zones 4. As a result, a frame made of compacted elements is formed in the array of subsiding soil. When the volume of compacted zones is up to 0.5 of the volume of the soil mass, its structural stability is sufficient to prevent subsidence during the subsequent possible soaking of the soil and the erection of a building or structure.

Distribution carrier .2 can be made from the bottom 6 and

the top 7 reinforced concrete slabs connected by reinforcement 8, and compacted soil 9 laid between the plates. The compaction of the soil layer 9 can be carried out similarly to the compaction of an array with the formation of compacted 4 and reinforced 5 zones.

Example. In the array of subsidence loess soil with a depth of 24 m, a plot of 30x30 m in size was compacted. After compacting the surface layer of the soil and laying the distribution plate, the well was torn on a 4x4 m grid to a depth of 24 m. The bi-bias is used to inject loess pulp with a soil content of 15 and 30%. The initial discharge pressure is 2-4 MPa. 7 days after the injection of the pulp, cement-sand mortar is injected at the same depth intervals. The pulp flow rate is 2.5-3.5 m per interval, the cement-sand mortar flow rate is 0.5-2 m per interval. A total of 41 wells were formed with injection of 460 m of pulp and 150 m of solution. After the soaking of the massif, the precipitation of its surface does not occur, whereas in the control area, as a result of soaking the sediment, the surface is 20 cm.

By creating in the subsiding soil a frame-cellular structure of compacted and strengthened elements, the structural stability of the array is increased and the cost of the zero construction cycle is reduced.

Claims (1)

Invention Formula A method for improving an array of loess subsided soil at the base of buildings and structures, including the 1st formation of wells with uniform pitch, forcing the improving solution into the soil to form reinforced zones over the depth of the array with a ratio of reinforced soil volumes and the improved array to 0.50, characterized in , in order to increase the structural stability of the soil and reduce the cost of the construction zero cycle, before the formation of wells, the soil surface is sequentially compacted and erected on it spredelitelnogo carrier element on the base area. 3 12949 and after introducing the improvement solution into the soil, a hardening material is injected into it, and the injection of the improvement solution is carried out with hydraulic fracturing of the soil, as 5 104 the soil improvement solution uses pulp from the soil to be improved with a content of 15-30%, and during the formation of wells one of a row is placed outside the contour of the bearing element. yii7 //% / Z / / / mr% // eight I / / Compiled by M. Khasin Editor N. Lazarenko Tehred L. Serdyukova Proofreader C, Cherni Order 569/31. Circulation 607 Subscription VNIIPI USSR State Committee for inventions and discoveries P3035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 FIG. 2