SU1013576A1 - Base for installation - Google Patents

Abstract

1. BASIS OF CONSTRUCTION, erected on high-saturated soils, including drainage pipes in the ground of the base, characterized in that, in order to increase the stability of the base when the force and seismic effects are increased, each drain pipe is provided with an elastated closed shell placed in its cavity, filled with compressed gas under pressure equal to the natural vapor pressure of the water in the soil of the base 2. The base according to claim 1 is about the fact that the base soil is provided with a layer of drainage material, and the drainage pipes once escheny the W sloe.o with 00 joint venture of P1:

Description

The invention relates to the construction, in particular to the construction of the foundations of the foundations of structures erected on water-saturated weak soils, in seismic areas. The base of the structure built on water-saturated soils is known, including a sand cushion under the foundation tl.j. However, the base is characterized by insufficient strength when exposed to a dynamic load, possible loss of stability due to the dilution of the base. The closest to the invention is the base of a structure erected on water-filled soils, including drainage pipes in the ground of the base f2j. The disadvantage of this solution is the low stability of the base, due to the high pore pressure in the seismic and dynamic loads. The purpose of the invention is to increase the stability of these bases during dynamic and seismic effects on it. This goal is achieved by the fact that, at the base of a structure erected on water saturated soils, including drainage pipes in the base soil, each drainage pipe is provided with an elastic closed sheath mixed in its cavity, filled with compressed gas under a pressure equal to natural / U by water pressure in the base soil. In addition, the water-filled base soil is provided with a layer of drainage material, and drainage pipes are placed in this layer., FIG. 1 shows the proposed base, a cross-section; Fig. 2 is the same, a variant of placement of pipes in the drainage layer at the location of the latter and the distance from the base of the foundation; Fig. 3 is the same, when located after it directly under the base of the foundation. The base includes soil 1, drainage pipes 2 with elastic closed shells 3 placed inside them, filled with compressed gas under pressure equal to the natural pore pressure of the base water, and drainage layer 4, which can be located in the base soil. at the distance from the bottom of the funeral door 5 or directly below the foundation. In this case, the pipes 2 are located in the drainage layer 4. The principle of operation of such a foundation is to compensate for the excess pore pressure that occurs during seismic or dynamic effects on the base, under which there is a sharp increase in the pore pressure of water, a decrease in the effect, for example. Scientific research institutes and, as a result, soil liquefaction and loss of ground stability. When placed in the base of closed shells filled with compressed gas, rapid automatic compensation of pore pressure occurs as it increases due to compression of elastic shells located in drainage porous or perforated pipes with excess pressure and filling the empty space with water in pipes, at the same time, due to an increase in the volume occupied by water, its pressure on the ground flow rate of the ground is reduced, and the effective stresses in the ground of the base remain the same, the possibility of liquefaction is eliminated Base soil and rubbed its stability. After the termination of the seismic load, the pore pressure decreases and the fluid is displaced by the elastic shell of the pipes. possesses low filtration properties, drainage pipes with elastic shells in the drainage layer, located in the gd-base or directly under the subsurface structure. This provides a faster reduction in the threshold pressure. Thus, by reducing the nopoi pressure of water in the ground of the base by increasing the volume it occupies, the dynamic stability of the base of the structures is increased. The base can be used in the construction of direct and energy facilities on natural and artificially packed water-saturated soils in seismic areas or in the construction of buildings, transferring dynamic loads to the ground.

Claims (2)

1. THE BASIS OF THE CONSTRUCTION erected on water-saturated soils, including drainage pipes in the foundation soil, characterized in that, in order to increase the stability of the foundation during dynamic and seismic impacts, each drainage pipe is equipped with an elastic closed shell located in its cavity filled with compressed gas under Compression equal to the natural vapor pressure of water in the soil base 2. The basis of π. 1, it follows from the fact that the base soil is provided with a layer of drainage material, and drainage pipes are placed in this layer. „ SU-, 1013576