SU1451208A1 - Method of consolidating shore soil - Google Patents

Abstract

The invention relates to the field of hydraulic engineering. The purpose of the invention is to increase the reliability and reduce the cost of strengthening in saline soils with a negative temperature. From the surface of the earth, in water-saturated saline soils having a negative temperature, they lower the shell 4 and the support plates 5 loaded with ballast 6 are attached to the upper rtsu of the upper layer of the soil, and before the beginning of the excavation of each layer to a depth greater than layer, made fixing by freezing the soil. At the same time, the soil freezes around the exposed shell. Reinforcement meshes P are welded to the brackets 10, after which the lower part of the shell is filled with hardening material 12. Next, the cavity of shell 4 is filled with porous hardening material 13 having a density less than the density of saturated saline soils. Thereafter, reinforcing mesh 11 is welded to the brackets 10 located at the upper end of the shell 4 and the upper part of the shell 4 is filled with hardening material 12. 1 Cp f-ly. 2 Il. ((L

Description

The invention relates to hydraulic engineering, in particular to the strengthening of coastal soil massifs, composed of saline soft soils, and can be used in the construction of bases, supports for various purposes, such as pipelines, bridges, masts, power lines, etc.

The purpose of the invention is to increase reliability and reduce the cost of strengthening in saline soils with negative temperature.

In FIG. 1 shows a fortified coastal massif, section; in FIG. 2 - sequence of development and fixing of soil in the shell.

The proposed method of strengthening the coastal soil massif is as follows.

From the surface of the earth 1 through the active layer 2 into the water-saturated saline weak soils 3, which have a negative temperature, lower the shell 4 under their own weight or under the influence of external forces, after which the base plates 5 are attached to the upper end of the shell 4 and loaded with ballast 6. Then shells 4 perform layer-by-layer excavation of soil 7. Before the excavation of each layer of soil 7, layer by layer, it is secured to a depth of 8 exceeding the thickness of the layer of developed soil 7. The soil is secured by freezing Nia by circulating cold air. In this case, simultaneously freezing the soil 3 occurs around the exposed part of the shell within the volume 9.

As the development of soil 3 in the cavity of the shell 4 at the bottom of the bottom of the bottom of the soil and the upper end of the shell 4 attach the bracket 10 to the inner surface of the shell 4.

Reinforcing meshes II are welded to the brackets 10 located at the bottom of the soil 3, covering the cross-sectional area of the sheath 4, after which the lower part of the sheath 4 is filled with hardening material (for example, concrete) 12. Next, the cavity of the sheath is filled with porous hardening material 13 having a density less than the density of water-saturated saline soft soils 3. After that, a reinforcing mesh 11 is also welded to the brackets 10 located at the upper end of the shell 4, which also covers the entire cross-sectional area of the shell 4, and t the verdant material of the upper part of the shell cavity 4.

Example During the construction of temporary bridges in the Far North in the presence of a significant thickness (below the active layer) of silty saline water-saturated soils having a negative temperature, they lower the sheath under their own weight or when exposed to external forces, to which the base plates are rigidly attached and load them with ballast .

After that, they begin to develop the soil layer by layer inside the shell, preliminarily freezing it. At the end of soil development, the shell cavity is filled with porous material.

The obtained fixed soil mass can be used in the construction of a bridge support, pipeline, masts, power lines, etc.

Claims (2)

Claim 1. The method of strengthening the coastal soil massif, including the construction of the shell, immersing it in the massif, excavation from the bottom of its inner cavity and filling the shell with building material, characterized in that, in order to increase reliability and reduce the cost of strengthening in saline soils with a negative temperature, during the construction of the shell outside it, at the upper end end, base plates are attached, which, at the end of the immersion, are loaded with ballast, the excavation is performed in layers, while before excavation of each layer The soil is fixed to a depth exceeding the thickness of this layer, and upon reaching the specified depth, tiers of brackets are attached to the inner surface of the shell at the bottom face and its upper end, after which the inner cavity of the shell is filled with hardening material, and before filling in the horizontal areas of the inner cavity located on the level of the tiers of the brackets, reinforcing meshes overlapping the sheath are connected to the latter, and the hardening material laid between these areas before laying odvergayut porization. 2. The method according to p. 1, characterized in that the soil is fixed by freezing, and when excavating the soil, the array is frozen by exposed walls of the shell by circulation of cold air. Compiled by A. Kozlovsky Editor M. Petrova Order 7041/23 Tehred I. Veres Corrector M. Samborskaya Circulation 588 Subscription VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and printing company, Uzhhorod, st. Project, 4