RU2106457C1 - Method for stabilizing foundation base particularly after freezing of ground - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to repair of foundations laid on clayey ground after its heaving especially due to its freezing. According to method, ground is excavated at least along one of foundation sides with subsequent compaction of ground under it. Compaction zone limited by pads of foundation being repaired and ground to be compacted are divided into sections and their length is determined by following formula: B_f, where B_f - width of foundation, K - factor of dependence of section length on ground consistency. Compaction of foundation base ground is effected by forcing into base ground of incompressible material, and its volume is determined according to formula: V = K_o•B_f•(H_freezing-H_f), where B_f - width of foundation; K_o - factor of dependence of incompressible material volume on ground consistency; H_freezing - ground freezing depth; H_f - foundation lying depth. EFFECT: higher efficiency. 1 cl, 4 dwg

Description

 The invention relates to the field of construction and can be used, in particular, in the repair of foundations on clay soils after heaving of the latter, for example, as a result of freezing.

 There is a method of stabilizing the base of a repaired foundation, in which an annular beam is made around the foundation on incompressible soil, then hydraulic jacks are installed between the foundation and the annular beam, with which the foundation is pressed tightly against the annular beam [1].

 The disadvantage of this method is the complexity of its implementation.

 There is also known adopted as a prototype method of stabilizing the base of the repaired foundation, including an excerpt of the omitted sections of the foundation and compaction of the base soil under it [2].

 In this method, compaction of the soil of the base is carried out by excitation of pulsed oscillations in it.

 The disadvantage of this method is the weakening of the foundation structure from shock and vibration. In addition, this method can be used in those cases when the bases are folded sensitive to vibrations by soils, such as sand.

 The technical result of the present invention is to increase the reliability of stabilization of the base under the repaired foundation and expand the scope of its application, since the proposed method can be used in the base of clay soils that are not sensitive to vibrations.

The specified technical result is achieved by the fact that in the method of stabilization of the base of the repaired foundation, mainly after freezing of the soil, including a fragment of the soil along at least one of the sides of the foundation and compaction of the soil of the base under it, while the compaction zone limited by the soles of the repaired foundation and loose, for example frozen soil is divided into sections, the length of which is determined by the formula
L = B _f : K,
Where
B _f - the width of the foundation;
K is the coefficient of dependence of the length of the plot on condensation of soils,
and compaction of the base soil in series at each of the sections is carried out by pressing the base of an incompressible material, such as crushed stone, into the soil, the volume of which is determined by the formula
V = K _o • B _f • H _prom -H _f ,
Where
B _f - the width of the foundation;
K ₀ - coefficient of dependence of the volume of incompressible material on the consistency of the soil;
H _prom - the depth of frozen soil;
H _{f - the} depth of the foundation,
moreover, before pressing an incompressible material in the area, wells can be drilled with a step determined by the formula
S = 10 • K _w • D
where D is the diameter of the well;
K _W - the coefficient of dependence of the step on the consistency of soils,
then through the wells cyclic layer-by-layer filling of incompressible material and its indentation is carried out.

 In the study of the technical level of the proposed solution, no technical solution was found that has features similar to the proposed solution, on the basis of which it can be considered that the proposed solution meets the criterion of "technical level".

 In FIG. 1 shows a longitudinal section through the foundation of a building being repaired after frost heaving of clay soils of the base; in FIG. 2 - the same, transverse section; in FIG. 3 - plot compacted foundation, performed according to claim 2 of the claims; FIG. 4 - the same, transverse section.

 The method is as follows.

The foundation to be repaired 1 is torn from at least one of the sides and the foundation soil 2 is compacted under the foundation, the sealing zone limited by the sole 3 of the foundation to be repaired and the sole 4 of the unconsolidated, for example frozen ground, is divided into sections, the length of which is determined by the formula
L = B _f : K, (1)
Where
B _f - the width of the foundation;
K is the coefficient of dependence of the length of the plot on the consistency of soils,
and compaction of the base soil sequentially in each of the sections is carried out by pressing the base of an incompressible material 5, for example, crushed stone, the volume of which is determined by the formula:
V = K _about • B _f • H _prom- H _f , (2)
Where
B _f - the width of the foundation;
K _o - coefficient of dependence of the volume of incompressible material on the consistency of soils;
H _prom - depth of frozen soil;
H _f - the depth of the foundation.

Incompressible material can be pressed directly into the base soil; or through wells 6, which are drilled before pressing an incompressible material in the area with a step determined by the formula
S = 10 • K _w • D, (3)
Where
D is the diameter of the well;
K _W - the coefficient of dependence of the step on the consistency of the soil,
then through the wells cyclic layer-by-layer filling of incompressible material and its indentation is carried out.

 The conclusion of the applied calculation formulas is based on the results of a special analytical and experimental study.

 When implementing the method, it is important not to aggravate the condition of the repaired foundation. This is possible when a fragment of the latter is carried out not in full length, but in sections. In this case, the more the soil base plate, the less should be the length of the section of its fragments.

Empirically, the dependence of the length of the section of fragments of the base on the consistency of the soil of this base and on the width B _{f of the} foundation
L = B _f : K,
Where
L is the length of the section of the fragment of the repaired foundation to stabilize its foundation;
B _f - the width of the repaired foundation;
K is the coefficient of the dependence of the length of the plot on the base.

 Moreover, when the consistency of soil 1 is less than 0.05, the coefficient K should be taken equal to 0.05; in all other cases, when the consistency 1 is greater than or equal to 0.05, the coefficient K should be taken numerically equal to the value of the consistency.

 The stabilization of the base depends on the density of the soils composing it. With frost heaving, there is a decompaction of soils and a decrease in their density; after thawing the base, the pressure from the foundation is usually not enough for the soil to reach its original density.

Therefore, to increase the density of the base soil under the foundation, an incompressible material is pressed into the unconsolidated soil. Empirically established the relationship between the volume of the pressed incompressible material on the volume of unconsolidated soil under the foundation, equal to the product of the width of the foundation by the difference between the depth of the frozen soil and the depth of the foundation, and on the consistency of the base soil
V = K ₀ • B _f • H _prom. -H _f
Where
V is the volume of the pressed incompressible material into the soil of the base under the foundation;
B _f - the width of the foundation;
K _o - coefficient of dependence of the volume of incompressible material on the consistency of soils I, taken equal to 1, in all cases when the value of I is greater than or equal to 0.05. When the consistency I is less than 0.5, the value of K ₀ should be taken equal to 0.5.

 The step between the wells through which incompressible material is pressed into the soil also depends on the consistency of the soil.

Empirically, this dependence is defined by the formula
S = 10 • K _w • D
Where
K _W - coefficient of dependence of the step on the consistency of soils.

When the consistency is less than or equal to 0.25, take K _W = 0.25, in all other cases, when the consistency I is more than 0.25, take K _W = 1
An example of the proposed method.

A repaired foundation 12 m long, 1 m wide, 1.5 m deep in refractory clay with a consistency of I = 0.3, in areas with a freezing depth of 1.8 m, they are torn from the outside of the building and the base soil is compacted, and the compaction zone, limited by the soles of the foundation under repair and the depth of freezing of the soil is divided into sections, the length of which is determined by the formula
L = B _f : K = 1.2: 0.3 = 4 m
Therefore, stabilization of the base with a length of 12 m is carried out in three sections of 4 m each.

The compaction of the base soil sequentially in each of the sections is carried out by pressing the base of an incompressible material, for example crushed stone, into the soil, the volume of which is determined by the formula
V = K ₀ • B _f • (H _prom -H _f ) = 0.3 • 1.2 • (1.8-1.5) = 0.108 m ³ .

Before pressing incompressible material in the area, wells are drilled with a step determined by the formula
S = 10 • K _sh • D = 10 • 0.3 • 0.2 = 0.6 m.

At the compaction section 4 m long, the number of wells is n = 4: 0.6 = 6 pcs. The amount of soil drilled from 6 wells with a length of 1.2 is 1.2 • 6 • pD254 = 1.2 • 6 • 3.14 • 0.2 • 0.2: 4 = 0.2 m ³
Through these wells, an incompressible material, such as crushed stone, should be pressed into the soil in a volume equal to the sum of the volume of the extracted soil and the volume determined by the formula (2).

 The incompressible material is pressed into the wells by cyclically layer-by-layer filling of crushed stone with layers equal to (1 ... 2) D = (1 ... 2) 0.2 = 0.2. . .0.4 m, and squeezing it into the base at least half the thickness of the layer, after which the cycle is repeated until the well is completely filled.

 The invention allows to obtain the following positive technical results: to increase the reliability of stabilization of the base under the recommended foundation; reduce the complexity of the work; reduce the time of their holding.

Claims (2)

1. A method of stabilizing the base of a repaired foundation, mainly after freezing the soil, comprising tearing off the soil along at least one of the sides of the foundation and compaction of the soil of the base under it, characterized in that the compaction zone limited by the soles of the repaired foundation and softened, for example, frozen soil, divided into sections, the length of which is determined by the formula
L = B _f : K,
where B _f - the width of the foundation;
K is the coefficient of dependence of the length of the plot on the consistency of soils,
and compaction of the base soil in series at each of the sections is carried out by pressing the base of an incompressible material, such as crushed stone, into the soil, the volume of which is determined by the formula:
V = K _o • B _f • (H _{p r about m} - H _f ),
where B _f - the width of the foundation;
K _about - the coefficient of dependence of the volume of incompressible material on the consistency of the soil;
H _{p r about m} - the depth of frozen soil;
H _f - the depth of the foundation. 2. The method according to claim 1, characterized in that before pressing an incompressible material in the area, wells are drilled with a step determined by the formula
S = 10 • K _w • D,
where D is the diameter of the well;
K _W - the coefficient of dependence of the step on the consistency of soils, after which through the wells cyclically layer-by-layer filling of incompressible material and its indentation is carried out.

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