RU2057848C1 - Building or construction erected on swelled soils - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: air-tight screen is installed at lower portion of contact plane between cushioning layer and foundation. Artificial bed is in building foundation. The bed is made of drain material. The bed foot is placed on even surface of construction site and connected through volumetric filter to water discharge passage. Bed thickness is defined using relationship presented in the description. EFFECT: decreased impact of frost initiated swelling to the building or construction with cushioning layer along perimeter using local soil of the height not less than active zone of the swelling and width on the top of not less than freezing depth. 1 dwg

Description

 The invention relates to the construction, namely, to the construction of light buildings and structures built on heaving soils.

A known method of protecting the foundations from the influence of the tangential forces of frost heaving of the soil by creating under the blind area an artificial pillow, for example, from slag [1]
This event has low reliability and durability, since it does not provide technical solutions for draining the pillow and preventing its clogging with clay particles coming from surface (storm, melt, etc.) waters. These shortcomings cause the development of the tangential forces of frost heaving at the side surface of the foundation when the pillows freeze and ultimately lead to the destruction of the building or structure.

 Also known is a building erected on heaving soils, including a pillow of rubble and a drainage ditch.

 Its main drawback is the lack of anti-cremation protection of the pillow, which ultimately leads to the above consequences.

Closest to the invention in technical essence and the achieved result is the foundation of the structure for the device in heaving soils, including sprinkling it with foundation soil with a height of at least the active heaving zone and a width of at least freezing depth on top [2]
In the present invention, the proof of the stability of such a foundation is based on the concept that, due to the curvature of the freezing front in the dusting (concavity to the foundation), the horizontal forces of frost heaving transmitted to the foundation are very small, and therefore the freezing strength of the soil sprinkling with the foundation insignificant. Thus, it is assumed almost complete exclusion of the influence of the forces of frost heaving of the soil sprinkling on the foundation.

 The main disadvantage of this technical solution is its low efficiency in the formation of a sufficiently powerful and stable snow cover around the structure at the beginning (in the first half) of winter or when it is close to the base of the groundwater foundation. The effectiveness of the event is further reduced when these conditions are combined.

 In the first case, snow, being a good heat insulator, will help level the freezing depth along the width of the dusting. And then, according to the above concept, such a development of the process will lead to the formation of significant horizontal and, as a result, tangential forces of frost heaving at the side surface of the foundation. The latter, under certain conditions, can take values sufficient to buckle the entire structure. Verification calculations made according to existing methods (see the Guide to designing the foundations of buildings and structures (NIIOSP named after N.P. Gersevanov. M. Stroyizdat. 1977 376 p. Manual for designing the foundations of buildings and structures) to SNiP 2.02.01 -83 M. Stroyizdat. 1986, 415 pp.), Showed that when freezing to a depth of 1.3 m, a sprinkling of weakly grained soil was made around the building with a basement formed as a result of the sprinkling device, the tangential force acting on 1 line. m. the length of the foundation, can be 78 kN. This is 4-5 times more than the limit values for typical structures of single-story wooden houses and almost 1.5 times for single-story brick buildings with a wall thickness of 0.64 m.

 Thus, even when the soil from which the sprinkling is made is characterized by a weakly porous condition, the sprinkling device without additional anti-spill measures is not a reliable guarantee of the stability of light buildings and structures.

 The reliability of the above structures is further reduced by the close location relative to the bottom of the foundation of the ground or soil-ground ("top water") waters. In this case, the migration of water in the liquid phase to the front of freezing sharply increases, which leads to a significant increase in the intensity of heaving of freezing ground sprinkling and at least a step increases the degree of heaving of the underlying layers that are still in a thawed state. Due to the marked nature of the process, the rate of water inflow in a vaporous state into the plane of contact of the hard-frozen layer of soil with dust and the foundation increases. Here it condenses on concrete and freezes, causing secondary freezing of hard-frozen soil with a foundation. This ultimately leads to a general increase in the tangential forces of frost heaving developing on the lateral surface of the foundation structure.

 The invention is aimed at solving the problem of improving the reliability of a building or structure by reducing the forces acting on it of frost heaving of soil sprinkling.

This is achieved by the fact that in a building or structure that includes a foundation structure and foundation with sprinkling along the perimeter of local soil with a height not less than the active heaving zone and a width not less than the freezing depth on top, an airtight screen is arranged in the lower part of the contact plane of the sprinkler with the foundation, and at the base sprinkling there is an artificial pillow made of draining material and located sole on the level of the planned surface of the construction site, and the pillow by means of volumetric fil tra connected to a drainage channel, arranged around a building or structure, and its thickness is defined by the relation
t _p ≥h _k + l δ l where t _{p is the} thickness of the cushion of draining material;
h _{to the} height of the capillary rise of water in the cushion material from the water-saturated soil of the natural base;
l δ l the absolute value of the sum of the accuracy of the vertical layouts of the surfaces of the construction site and pillows, taken with the same signs.

Distinctive features of the "prototype" are
airtight screen in the plane of contact of the dusting with the foundation;
the screen is arranged in the lower plane of contact of the dusting with the foundation;
artificial pillow made of draining material at the base of the dusting;
the pillow is located with the sole at the level of the planned surface of the construction site;
drainage channel;
a canal is arranged around a building or structure;
the cushion is connected to a drainage channel;
the cushion is connected to the drainage channel through a volumetric filter;
the thickness of the pillow is greater than or equal to the sum of the height of the capillary rise of water in the material of the pillow with the absolute value of the sum of the accuracy of the vertical layout of the surfaces of the construction site and the pillow, taken with the same signs.

 The foregoing indicates that the invention meets the criterion of "novelty."

 The inventive combination of distinctive features can reduce the impact of the forces of frost heaving soil sprinkling on a building or structure. This is achieved by performing the above features of the following functions.

 An airtight screen during the warm season prevents the clogging of an artificial pillow at the base of the sprinkling with clay particles entering surface water (melt, storm, etc.) into the contact plane of the sprinkling with the foundation. In winter, the screen located in the lower part of this plane protects it from the penetration of water in a vapor state from the side of the groundwater and thereby reduces the possibility of re-freezing of the hard-frozen layer of soil sprinkling with the foundation.

 An artificial cushion of draining material with a thickness greater than or equal to the sum of the height of the capillary rise of water in the material of which it consists, with the absolute value of the sum of the accuracy of the vertical layout of the surfaces of the construction site and pillows taken with the same signs, prevents groundwater migration in the liquid phase to freezing front. As a result of this, the process of frost heaving of the soil sprinkling acquires a decaying character, i.e. heaving occurs in conditions close to a closed frost-hazardous system.

 The location of the cushion sole at the level of the planned surface of the construction site excludes the possibility of its clogging by clay particles entering the drainage channel with surface water and provides reliable drainage of the sprinkling, as well as intensive drainage of ground and domestic waters.

 The volumetric filter in the connection unit of the cushion with the drainage channel protects it from the hydraulic removal (suffusion) of the soil particles from which it is composed. This ensures reliable and durable operation of the cushion as a breaker for the migration of water in the liquid phase to the freezing front from the groundwater.

 Thus, the invention meets the criterion of "positive effect".

A search conducted on patent documentation and literary sources, which consider the construction of buildings and structures on heaving soils, allows us to establish the absence of the following distinctive features:
airtight screen in the plane of contact of the dusting with the foundation;
the screen is arranged in the lower part of the plane of contact of the dusting with the foundation;
artificial pillow made of draining material located at the level of the planned surface of the construction site;
the cushion is connected to the drainage channel through a volumetric filter;
pillow thickness t _p , determined from the ratio
t _p ≥h _k + l δ l, where h _{k is the} height of the capillary rise of water in the cushion material from the water-saturated soil of the natural base;
lδ l the absolute value of the sum of the accuracy of the vertical layouts of the surfaces of the construction site and pillows, taken with the same sign.

 The cushion device, taking into account the above ratio, gives it, in addition to the previously known properties, a new property of the interrupter for water migration in the liquid phase from the groundwater side to the freezing front of the soil in the dusting.

 The above allows us to conclude that the claimed technical solution meets the criterion of "significant differences".

 The drawing schematically shows a fragment of a building, a cross section.

 The building includes residential 1 and production 2 rooms (floors), sprinkling 3 of local soil with fastening on top (for example, tinning), made around the perimeter of the building, a drainage channel 4, arranged around the building, foundation 5, airtight screen 6 (preferably made of hydrophobic elastic material of a plastic film, rubber, etc.), an artificial pillow 7 from a draining material, a volumetric filter 8.

 Sprinkling 3 of the building is local, i.e. heaving soil taken from reserves formed as a result of the construction of the drainage channel 4, as well as industrial facilities (reservoirs, cellars, etc.) and cultural (for example, swimming pools) destination.

 The building operates as follows.

 In the warm season, surface water flows down along the fixed (for example, tinning) surface of dusting 3 into the drainage channel 4 and is removed outside the building. Some of them entering the contact plane of the dusting bed 3 with the foundation 5 is delayed by the screen 6, not having the possibility of direct penetration into the pillow 7. Soil, domestic and other water entering the pillow 7 is drained along it and discharged through the volumetric filter 8 into the channel 4, without being flooded by the latter.

 In winter, the cushion 7, made in compliance with the stated ratio, prevents the migration of groundwater in the liquid phase to the freezing front. The process of frost heaving of soil sprinkling 3 acquires a decaying nature with the formation of the active zone and, therefore, proceeds in conditions close to a closed frost-hazardous system. An airtight screen 6 prevents the possibility of water penetrating in a vapor state from the groundwater side into the contact plane of the sprinkler 3 with the foundation 5, thereby reducing the freezing strength of the latter with a hard-frozen layer of soil of the sprinkler 3.

 The practical use of the invention allows to increase the reliability (stability) of a building or structure on heaving soils, and in some cases it is successful to combine the two functions of housing and production.

Claims (1)

BUILDING OR CONSTRUCTION ESTABLISHED ON PUCULINE SOILS, including overfoundation construction and foundation with sprinkling along the perimeter with local soil not less than the active heaving zone and no less than freezing depth on top, characterized in that air is arranged in the lower part of the contact plane of the sprinkler with the foundation and at the base of the building is an artificial pillow made of draining material, which is placed on the planned surface of the construction site and is connected via a volumetric filter to water vent channel placed around the building or structure, the thickness of the cushion is defined by the relation

where t _{n the} thickness of the drainage material;
h _{to the} height of the capillary rise of water in the cushion material;

the absolute value of the sum of the accuracy of the vertical layouts of the surfaces of the construction site and pillows, taken with the same signs.

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