SU1114740A1 - Method for compacting sagging loess soil - Google Patents

Abstract

A METHOD OF SEALING A PASSING LESS GROUND, including a passage of contour trenches, waterproofing a compacted array of soil around the perimeter of the contour trenches, formation of wells, placing explosive charges in them, filling wells with coarse-grained drainage material, soaking the soil to the flow of the flow of the flow of the flow of the workflow with ground draft under its own weight, characterized in that, with a chain of reducing the cost of work and improving the quality of compaction, the placement of charges, filling drainage material, soaking soil and initiating a blast are carried out in layers, starting from the bottom of the compacted array, and after the formation of boreholes, their walls are attached, and before initiating the blast% of charges, the walls are freed from layer, and the thickness of each layer of soil C is equal to its depth, at which the rock pressure increases by 0.9-0.975 kgf / cm 1 1 Yu

Description

"1 The invention relates to the construction of buildings and structures on loess subsidence soils, in particular to their compaction by soaking and exposure to explosive charges of explosive. There is a known method for compacting loess subsiding soils, including the formation of a well, placing an explosive charge in it, exploding a charge with a cavity, filling it with local soil, placing a charge, compacting the local soil by exploding a charge charge weak loosening and the implementation of its explosion 1. The disadvantage of this method is that the soaking of the soil and its compaction under its own weight is carried out to the full depth of the compacted layer, which does not provide the necessary uniformity of the soil carrying capacity. The closest to the present invention is a method for compacting loess soil, including a fragment of contour trenches, hydro-insulating a foro array of soil around the perimeter of contour trenches, forming wells, placing explosive charges in them, filling wells with coarse-grained drainage material, soaking the soil to Neither the current consistency and the initiation of the explosion of charges with the sedimentation of the soil under its own weight 2. The disadvantage of the known method is the low quality of the KS compaction, for the precipitation of the soil immediately for its entire depth, while there remains a significant portion of the unconsolidated soil from the surface, which is about 1/5 of the entire soil mass, significant compaction of such a mass of soil is required energy, the cost of labor. . , The purpose of the invention is to reduce the cost of work and increase the quality of compaction. The goal is achieved by the fact that, according to the method of compaction of subsiding loess soil, including a passage of contour trenches, waterproofing the compacted array of soil along the perimeter of the contour trenches, the formation of wells, placement

in a moss-laden soil with a volume of water that is wetted to a fluid conductivity, with a volume of W. feecoM 1800–1950 kg / m with 0 charges of explosive, filling of wells with coarse drainage material, soaking the soil to the current consistency, and initiating a charge explosion with soil sinking under its own weight, placing the charges, filling the wells with drainage material, soaking the soil and initiating the explosion of charges are carried out in layers, starting from the bottom of the compacted mariel, and after the formation of the boreholes, their walls d explosion initiating charge wells free walls from their attachment to the height of the seal release layer and the thickness of each primer layer is taken equal to its depth, at which the overburden pressure increases on 0,9-0,975 kgf / cm. FIG. Figure 1 shows the profile of the area to be compacted, divided into three layers of equal thickness, when the lower layer is moistened; in fig. 2 - the same at the moment of explosion of charges in the bottom:. the layer as well as the migration of the pressed after compaction of the lower layer of water into the intermediate layer; in fig. 3 - the same at the time of soaking the intermediate layer; in fig. 4 - the same, at the moment of charging up of charges and compaction of the intermediate layer and migration of pressed water to the overlying layer; in fig. 5 - the same, at the time of soaking the upper layer; in fig. 6 - the same, at the moment of explosion, the charges in the upper layer and compaction of the last layer. At site 1, located on site 2, there is a subsurface soil 3 to be compacted, on which the contour trenches 4 at the border of section 1 are initially torn off. Then, the compacted soil massif 3 is waterproofed by installing trenches 5 through trenches 4, for example, from polyethylene film. Then, before drilling the wells 6 in the compacted soil mass 3, the number of successively compacted horizontal layers 7 is determined, based on the magnitude of the rock pressure at the bottom of the layer 7, the value of which, according to experimental data, is more rational within 0 j Oh, 975 kgf / cm. Such pressure may / .a31

layer of about 5 m. With a rock pressure of more than 0.975 kg / cm, the effective compaction in the lower layers 7 increases due to the simultaneous processing of a greater mass of soil, however, the thickness of the layer 7 is more than 5 m, and the thicker the layer 7, the more powerful layer of unconsolidated soil on the surface of section 1 of the work, and this leads to a significant expenditure of energy to compact the loosened layer. When the rock pressure is less than 0.9 kgf / cg, the thickness of the horizontal layers 7 is less than 5 m, which leads to an increase in the duration of the compaction process and an insufficient degree of compaction of the upper layer 7 under its own weight.

After determining the number of compacted layers 7, they start drilling wells 6, the bottom of which is placed at a depth equal to 2/3 of the thickness of the lower layer 7, walls of wells 6 are protected from deformation and melting by fastening, for example casing 8. Charges are placed at the bottom of wells 6 9 explosives, charges of coarse-grained drainage material 10, for example, from rubble, pebbles, are arranged over charges 9 to the upper edge of the lower layer 7. Then, through the wells 6, this layer is soaked to a fluid consistency. In this case, the pipes 8 are raised to the height of the outliers of the material 10, and the boundary 11 of the water spreading away from the compacted array of soil 3 deviates slightly, which, when wetted by the peeling layers 7, will be limited by the curtain 5.

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The layer 7 prepared for compaction initiates an air charge of charge 9, under the influence of which the bonds in the massif of layer 7 are broken and it compresses under the own weight and the weight of the overlying layers 7, while free water migrates to the overlying layer 7, partially soaking it.

After the process of sedimentation of the soil is stabilized in the lower layer 7, a charge is placed through the wells 6 with casing 8 in the overlying layer 7

9 explosive to a depth equal to 2/3 of the thickness of this layer. Further, the sequence of operations should be the same as in the lower layer 7.

When the upper layer is compacted after placement of charges 9, the walls of well 6 are completely released from the redness of the reservoir, in particular from the drainage pipes 8, and the water that is released after the explosion of charges 9 is drained from the surface of the work area 1 to the side. The unconsolidated upper layer is additionally compacted by mechanical means (tampers).

Such a sequence of works does not effectively compact subsidence loess soils with a depth of 10 meters or more, and the level of soil compaction increases due to repeated seismic effects of charging charges in horizontal layers, and also by reducing the amount of additional compaction of the top layer of soil. At the same time, the cost of additional compacting is reduced three times.

Claims (1)

METHOD FOR SEALING LANDING FOREST SOIL, including extracting contour trenches, waterproofing the compacted soil around the perimeter of contour trenches, forming wells, placing explosive charges in them, filling the wells with coarse-grained drainage material, soaking the soil to a state of fluid sedimentation with initiation and initiation soil under its own weight, characterized in that, in order to reduce the cost of work and improve the quality of compaction, placement of charges, filling with wells with drainage material, soil soaking and the initiation of explosion of charges is carried out in layers, starting from the bottom of the compacted array, and after the formation of wells, their walls are fastened, and before initiating the explosion of charges, the walls are freed from their attachment to the height of the compacted layer, and the thickness of each soil layer is taken equal to its depth at which the mountain pressure increases by 0.9-0.975 kgf / cmU> "1114740 2