RU94992U1 - DEVICE FOR PRIMING BASIS FOR BUILDING OR STRUCTURE ON PERMANENTLY FROZEN SOILS - Google Patents

Abstract

 Arrangement of a soil base for a building or structure on permafrost soils, mainly during installation work, while the soil is in a thawed state containing the parent soil below, the soil of the base of the building or structure treated with a fixing water-soluble polymer solution, including cryostructural water-soluble polymer components, mainly based on an aqueous solution of polyvinyl alcohol and dispersed soil, and laid on top of the prepared soil base f basement, characterized in that in the array of mother soil at the depth of the seasonal freezing-thawing layer, under the foundation and along the perimeter of the foundation there is a waterproofing layer in shape made as shown in the drawing, position 2, covering part of the soil mass, limited by the outer contour the foundations of the building or structure, as well as the area of the parent soil adjacent to the foundation at the level of its surface, and isolating this inner part of the soil mass with the foundation plate from the rest of the mat of the Yerinsky soil, in the inner zone limited by the waterproofing layer, several layers are horizontally layered in layers - on the surface of the waterproofing layer there is a layer of sandy base soil treated with a fixing water-soluble polymer solution, mainly 1-2% aqueous solution of polyvinyl alcohol, with the formation of hardened polymer the soil layer after freezing of water in the soil, then there is a reinforcing layer formed by an isotropic reinforcing element, made mainly in the form

Description

The utility model relates to construction in the Northern regions, namely to the device of the soil foundation of a building or structure on permafrost soils, and can be used in the construction of buildings and structures of general purpose in areas using permafrost soils used as a foundation in the frozen state, preserved in the construction process and during the entire period of operation of the structure.

The foundations of residential and industrial construction facilities located in the permafrost distribution zone are often laid with preservation of the state of permafrost soil (1 principle), i.e. soil used as the base of buildings and structures erected in permafrost areas [1]. To increase the bearing capacity of frozen soils, their negative temperature is artificially reduced by using the installation of cooling devices in drilled wells. However, such activities are time-consuming and costly.

Due to the local thawing of the bases, a significant part of the buildings and structures undergo large deformations (even emergency ones), and therefore, the problem of keeping the soil under the entire area of the building in a frozen state, as well as increasing the bearing capacity of the soil base, is urgent.

A known method of increasing the bearing capacity of frozen soils under the foundation of the structure, including the preparation of the fixing solution in the form of a cement-sand mixture with water, pumping it into the contact zone of the soil and foundation, setting cement and freezing the solution [2]. This method has a small effect of increasing the freezing strength of the foundation with soils, only up to 1.5-1.8 times.

Closest to the technical nature of the proposed is a known method of increasing the bearing capacity of frozen soils [3] used as the foundations of buildings and structures, including the preparation of the contact zone of the soil and the foundation of the building and structures by loosening or thawing to increase its permeability, or including only cooking fixing mortar and forcing it into the near-contact zone of the soil and the foundation of the building and structures for introducing the solution into the surrounding soil, freezing the solution by the foundation and the base, wherein the fixing solution is prepared based on an aqueous polyvinyl alcohol solution and particulate soil. As a result of the implementation of the known method receive a device of the soil base for the building or structure, including natural (parent) soil, the soil of the base of the building or structure treated with a fixing polymer solution based on an aqueous solution of polyvinyl alcohol and dispersed soil, and the foundation. Application of a solution of polyvinyl alcohol (PVA) for soil treatment of the base allows you to increase the resistance of the base soil to normal pressure and shear along the freezing surface up to 4-6 times, while m, the freezing and thawing temperature of the treated PVA soils does not decrease.

The disadvantages of the known technical solutions include the low bearing capacity of the soil base under the building or structure on permafrost soils, especially for the period of installation work, while the soil is in a thawed state.

The utility model is based on the task of improving the structure of the soil base of a building or structure on permafrost soils, in which, due to the different design of the entire soil base and the presence of an additional reinforcing isotropic element, the bearing capacity of the soil base under the building or structure on permafrost is increased by increasing bearing capacity of thawed base soil under a monolithic foundation slab for the period of installation work, while the ground is tsya in the thawed state, and the entire lifetime of a building or structure, after the ground frost, which leads to ensure the reliability of the gain and to prevent deformation of foundation and basement of the building or structure, providing greater durability of the building or structure.

The problem is achieved in that in the device of the soil foundation of a building or structure on permafrost soils, mainly during installation work, while the soil is in a melt condition containing the mother soil below, the soil of the base of the building or structure treated with a fixing water-soluble polymer solution, including cryostructural water-soluble polymer components, mainly based on an aqueous solution of polyvinyl alcohol and dispersed soil, and laid on top of prepared soil base, the foundation, according to the utility model, in the array of mother soil at the depth of the seasonal freezing-thawing layer, under the foundation and along the perimeter of the foundation there is a waterproofing layer -shaped, covering part of the soil mass, limited by the external contour of the base of the building or structure, as well as the area of the mother soil adjacent to the foundation at the level of its surface, and isolating this internal part of the soil with the foundation slab from the rest of the mother soil in the inner zone, limited by a waterproofing layer, several layers are horizontally layered in layers - on the surface of the waterproofing layer a layer of sandy soil of the base is laid, treated with fixing water solution polymer solution, mainly 1-2% aqueous solution of polyvinyl alcohol, with the formation of a hardened polymer-soil layer after freezing of water in the soil, then there is a reinforcing layer formed by an isotropic reinforcing element, made mainly in the form of a geogrid, placed in plan over the entire area inside a layer of soil treated with a fixing water-soluble polymer solution and being in a thawed state, and on top of the soil thus strengthened in the soil base in a limited guide A foundation in the form of a monolithic foundation slab is located with a waterproofing layer in the zone.

As a result of using the inventive utility model, a technical result is obtained that consists in increasing the bearing capacity of a soil foundation under a building or construction on permafrost soils by increasing the bearing capacity of a thawed soil base under a monolithic foundation slab for the period of installation work, while the soil is in a thawed state, and for the entire life of the building or structure, after freezing the soil.

Between the essential features of the claimed utility model and the achieved technical result, there is the following causal relationship. The presence in the mother soil under the foundation and along its perimeter of the waterproofing layer -shaped shape, allows to isolate the reinforced soil base and the monolithic foundation slab from the rest of the soil, helping to increase the bearing capacity of the soil base under the building or structure, which leads to an increase in their reliability and prevent their destruction. The location in the bounding waterproofing layer of the inner zone of the sandy soil layer of the base treated with a fixing polymer solution, in which, with its melt state, an isotropic reinforcing element is placed over the entire area, and the basement in the form of a monolithic foundation slab is placed on top of the soil thus strengthened in the soil base, the ability to increase the bearing capacity of a soil base under a building or structure on permafrost, by increasing the bearing capacity of melt soil for the period of installation work, while the soil is in a thawed state. At the same time, reinforcing the sandy soil layer with an isotropic element due to its tensile work in the horizontal plane allows us to strengthen its strength and significantly increase the strength characteristics of the upper soil base layer during the construction of the foundation slab and until the upper soil layer treated with reinforcing is completely frozen polymer solution, which leads to an increase in the bearing capacity of the soil base. And the processing of a layer of sandy soil of the base under the foundation plate with a fixing polymer solution in the form of a 1-2% aqueous solution of polyvinyl alcohol (PVA) allows you to increase the maximum long-term freezing strength of the mortar with the foundation by more than five times, due to the occurrence of a chemical-physical effect hardening arising due to the properties of the PVA solution, i.e. to strengthen the soil base after freezing, which also helps to increase the bearing capacity of the soil base. In General, the distinguishing features of the claimed device are essential and necessary to achieve a new technical result.

According to the information available to the applicants, the set of essential features characterizing the essence of the claimed utility model is not known from the prior art, which allows us to conclude that the utility model meets the criterion of “novelty”. The inventive utility model can be repeatedly implemented and manufactured by methods known in construction using known means, which allows us to conclude that it meets the criterion of “industrial applicability”. Thus, the claimed utility model meets all the conditions of its patentability. From the foregoing, it follows that the claimed utility model has an element of novelty and surpasses the well-known design in terms of characteristics and technical result achieved.

The essence of the claimed utility model is illustrated in the drawing, which shows a schematic frontal view of the General view of the design of the device of the soil base in cross section.

On the drawing, indicated: 1 - the parent soil of the base; 2 - waterproofing layer; 3 - a layer of sandy soil, impregnated with a fixing water-soluble polymer solution; 4 - reinforcing isotropic element; 5 - foundation monolithic slab.

In the proposed device of the soil foundation of a building or structure on permafrost soils, during installation, while the soil is in a thawed state, in the array of mother soil 1 at the depth of the layer of seasonal freezing-thawing, under the foundation 5 and along the perimeter of the foundation is located any known structure waterproofing layer 2 -shaped, covering part of the soil mass, limited by the external contour of the base of the building or structure, as well as the natural soil zone adjacent to the foundation at the level of its surface, and isolating this internal part of the soil mass with the foundation slab 5 from the rest of the parent soil. In the inner zone limited by the waterproofing layer 2, several layers are horizontally layered in layers. On the surface of the waterproofing layer 2, a layer of sandy soil of base 3 is laid, treated with a fixing water-soluble polymer solution, mainly 1-2% aqueous solution of polyvinyl alcohol, with the formation of a hardened polymer-soil layer after freezing of water in the soil. Then there is a reinforcing layer formed by an isotropic reinforcing element 4, made mainly in the form of well-known structures of geosynthetic lattices, for example, TENSAR geogrid, or mesh (see). An isotropic reinforcing element 4 is placed in a plan over the entire area inside a part of the soil treated with a fixing water-soluble polymer solution and in a thawed state. Geogrids - geosynthetic materials that perform the function of reinforcing a soil base. And on top of the soil 3 thus strengthened, in the soil base in a limited waterproofing layer 2 there is a foundation in the form of a monolithic foundation plate 5.

The implementation of the reinforced soil base, according to the claimed design, is as follows.

In the first year of construction, intensive soil freezing is carried out by regularly clearing the building area from snow in the winter. Simultaneously with the beginning of the summer period, work is underway on the installation of a waterproofing layer 2 on the parent soil of the base 1. For this, the waterproofing material is laid -shaped in a prepared pit. Also, a layer of sandy soil 3 is laid, pretreated with a previously prepared known aqueous solution of polyvinyl alcohol (PVA) in layers, with compaction and laying of a layer of isotropic reinforcing element 4 in the middle of a layer of sandy soil 3. Processing of a layer of sandy soil 3 with an aqueous solution of PVA increases the extremely long-term strength freezing mortar with a foundation. This treatment can be carried out using a mortar mixer. However, if there is no clay fraction in the soil, for example, in sand, then PVA soil can be impregnated from the surface by sprinkling. In this case, the ratio is used: 1 cm of the solution impregnates 2.5-3 cm of soil. To maintain the conditions of the regulation for polymer concentration, the initial soil moisture is taken into account, which should not exceed the humidity of capillary saturation, that is, waterlogged soil is pre-drained. To transfer the base of the foundation and the foundation itself to a working state, the fixing composition is frozen and kept at the temperature of the surrounding frozen soils for at least five days until the crystallization of the PVA in the frozen ground solution is complete. After the start of the work of the known freezing system described in the prototype, the strength of the soil of the base increases by 4-6 times due to the occurrence of a chemical-physical hardening effect arising due to the properties of the PVA solution. The effect of the use of PVA occurs after freezing of water in the soil.

As long as the soil 3 treated with PVA is in a thawed condition and work is being done on it to install the foundation plate 5 by methods known in the construction industry, it is necessary to provide high bearing capacity of the thawed soil of the base. To this end, it is proposed to use reinforcement of the layer of sandy melt soil 3 of the base treated with PVA by reinforcing the above layer with an isotropic reinforcing element 4, for example, a TENSAR geogrid. Reinforcement is performed as follows: after laying half the height of the layer of sandy soil 3, a layer of an isotropic reinforcing element 4 is laid, for example, a TENSAR geogrid, after which the laying of a layer of sandy soil is finished 3. The isotropic reinforcing element 4 can significantly increase the strength characteristics of the upper layer of the soil base 3 for the duration of the work on the construction of the foundation slab and until the top layer of the soil base treated with PVA is completely frozen.

The claimed utility model, when used, allows, in comparison with known structures, to significantly improve the technical characteristics of the base of a building or structure, its reliability and durability in permafrost regions, where soils are used as the basis for a building or structure according to the first principle, i.e. with the maintenance of soils in the frozen state during the construction of the building and during the entire period of operation. Moreover, as shown by the calculations, a significant reduction in the cost of the building being built is achieved by reducing earthworks and using a simpler and cheaper foundation, while increasing the pace of construction of the zero cycle of a building or structure compared to using traditional designs and their construction technologies in the present time.

The proposed utility model is socially significant and can be used in the construction of cheaper and more reliable residential and industrial buildings and structures in permafrost regions with prevailing difficult soil conditions, where soils are used according to the first principle as the basis for a building or structure.

Information sources.

1. SNiP 2.02.04-88 "Foundations and foundations on permafrost soils", Moscow, 1990.

2. Guidance on the design of foundations and foundations on permafrost soils. M., Stroiizdat, 1980, p. 64-65, 68-69, 110.

3. RF patent No. 2064555 C1, IPC ⁶ E02D 27/35, E02D 3/115, decl. 03/31/1992, publ. July 27, 1996, Bull. No. 21 (prototype).

Claims (1)

Arrangement of a soil base for a building or structure on permafrost soils, mainly during installation work, while the soil is in a thawed state, containing the mother soil below, the soil of the base of the building or structure treated with a fixing water-soluble polymer solution, including cryostructural water-soluble polymer components, mainly based on an aqueous solution of polyvinyl alcohol and dispersed soil, and laid on top of the prepared soil base f basement, characterized in that in the array of mother soil at the depth of the seasonal freezing-thawing layer, under the foundation and along the perimeter of the foundation there is a waterproofing layer in shape made as shown in the drawing, position 2, covering part of the soil mass, limited by the outer contour the foundations of the building or structure, as well as the area of the parent soil adjacent to the foundation at the level of its surface, and isolating this inner part of the soil mass with the foundation plate from the rest of the mat of the Yerinsky soil, in the inner zone limited by the waterproofing layer, several layers are horizontally layered in layers - on the surface of the waterproofing layer there is a layer of sandy base soil treated with a fixing water-soluble polymer solution, mainly 1-2% aqueous solution of polyvinyl alcohol, with the formation of hardened polymer the soil layer after freezing of water in the soil, then there is a reinforcing layer formed by an isotropic reinforcing element, made mainly in the form a geogrid placed in a plan over the entire area inside the soil layer treated with a fixing water-soluble polymer solution and in a thawed condition, and on top of the soil thus strengthened in a soil base in a zone limited by a waterproofing layer, there is a foundation in the form of a monolithic foundation slab.