EA020732B1 - Method to erect pile foundation - Google Patents

Abstract

The invention relates to construction, in particular, to a method for erecting a pile foundation of buildings and structures mainly on subsidence soils. The technical effect provides increased efficiency of soil strengthening around a pile, higher bearing capacity of piles, reduced labour intensiveness and material intensity. To achieve that a method for erecting a pile foundation includes installation of piles and reinforcement of a near-pile soil by means of its reinforcement with a solution of a hardening material. Prior to installation of a pile a well is drilled with a diameter of not more than 1/3 of the pile diameter. The well is filled with a strengthening solution. The pile is submerged into the well filled with the strengthening solution to form a strengthened (2) and a compacted (3) zones under a foot and around the pile shaft (1), and such zones are shaped as a hemisphere below with a truncated cone above, besides, the strengthened zone (2) reinforced with the strengthening solution and arranged in the volume of the compacted zone is adjacent to the pile (1). A guide washer (4) can be used in submerging a pile and liquid glass can also be used as a strengthening solution.

Description

The invention relates to the field of construction, and in particular to methods of construction of pile foundations of buildings and structures mainly on subsiding soils.

There is a method of constructing a pile foundation on subsidence soils, including the formation of wells to the entire depth of subsidence soil with deepening in the underlying non-subsidence soil, filling wells with drainage material, bunding the area around the perimeter of the structure, soaking by pouring water into the bunded area with holding for 15-30 days and immersion of piles into wells (a. from the USSR No. 885446, priority date 03/19/1980, publication date 11/30/1981, authors Rudenko L.K. et al.).

The disadvantage of this method is the limited scope in connection with the possibility of its effective implementation only at positive temperatures.

A known method of construction of a pile foundation, adopted as a prototype, in which the installation of piles is carried out, followed by their strengthening by feeding into the soil in two stages of a hardening mortar under pressure, and first, the supply of a hardening mortar is carried out on the periphery of the reinforced piles, and after hardening the solution along the peripheral contour hardening mortar is supplied into the zone limited by the peripheral contour, including the inter-pile space, at the same time, at both stages, the introduction of a strengthening solution into the soil thieves are carried out either with the help of injectors that are driven into the ground to a depth of compaction, or wells are first drilled around the periphery of the group of reinforced piles and inside the inter-pile space, into which hardening solution is supplied under pressure (RF patent No. 2379419, priority date 11.27.2007, publication date 06/10/2009, authors A. Lubyagin et al., Prototype).

The disadvantage of the prototype is the heterogeneous strengthening of the soil around the pile, due to the fact that during hydraulic fracturing under the action of a hardening solution supplied to the soil under pressure due to a change in the stress state, the crack path will bend and bend around this obstacle, finding weaker sections in inter-pile space, moreover, the method may be economically disadvantageous due to the high consumption of inefficiently hardening mortar and labor costs its introduction into the ground.

The objective of the invention is to increase the effectiveness of strengthening the soil around the pile while reducing labor costs and reducing the consumption of hardening material.

To solve the problem in a method of constructing a pile foundation, including installing piles and strengthening the near-pile soil by reinforcing it with a solution of hardening material, according to the invention, before installing the piles, they drill a well with a diameter of not more than 1/3 of the diameter of the pile, fill the well with a fixing solution, immerse the pile in a filled fixing well solution with the formation under the fifth and around the trunk piles of fixed and compacted zones in the form of a hemisphere below and a truncated cone above it, and adjacent to the pile There is a fixed zone reinforced with a fixing solution and located in the volume of the compacted zone.

According to the invention, when immersing the piles, a guide washer installed at the place of driving the piles can be used.

According to the invention, liquid glass is used as the fixing solution.

The method is illustrated by drawings, in which a diagram of soil compaction around a pile is shown: in FIG. 1 is a longitudinal section of a pile; in FIG. 2 is a transverse section aa in FIG. one.

The method of construction of the pile foundation is as follows. At the location of each pile 1 in the soil, a well is drilled with a diameter of not more than 1/3 of the diameter of the pile (not shown conditionally). Fixing solution having adhesion to the soil is injected into the drilled well, for example, using liquid glass (sodium silicate). Pile 1 is immersed in the well filled with liquid glass by indentation or driving. As a result of exposure to the pile, respectively, of a static or dynamic load under the fifth and around the trunk of the pile, two zones are formed in the form of a hemisphere under the pile below and a truncated cone above the hemisphere above, namely, adjacent to the pile shaft, fixed zone 2, reinforced with liquid glass, and compacted zone 3. The volumes of fixed 2 and compacted 3 zones are determined by calculation and depend mainly on the porosity of the soil, its rheological properties and other technological process parameters. The fixed zone 2 adjacent to the pile shaft, formed as a result of filling pores under pressure with liquid glass and setting it with soil, is characterized by the fact that the radius of its hemisphere will not exceed the radius of the compacted zone 3, covering the fortified zone 2, and will depend on the amount of pore filling fixing solution, which mainly depends on the porosity of the soil and other factors. One of them is, for example, the use of a guide washer 4 when immersing piles to center the load and prevent the outflow of fixing solution from the well. The use of the guide washer 4 is especially important when diving piles by driving, i.e. with dynamic immersion. At the same time, above the well after filling it with liquid glass at the place of pile driving, a removable metal clip with a hole for the pile is installed as a guide washer. Next, a reinforced concrete pile prefabricated and soaked with a 1% hydrochloric acid solution is immersed by driving, indenting or vibration dipping to a predetermined depth, forming under it

- 1,020,732 the fifth sealed hemispherical zone with a radius of at least 2.75 of the diameter of the pile, and the sealed zone around the pile shaft in the form of a truncated cone with base diameters equal respectively to the two hemisphere radii in the lower part and the pile diameter in the upper part. In this case, the sealed zone is reinforced directly under the fifth and around the pile shaft with liquid glass and is thereby fixed, forming inside the adjacent zone 2 adjacent to the pile.

The advantage of the proposed method of construction of the pile foundation is its high efficiency, due to the high bearing capacity of the piles, reduced labor costs and reduced consumption of hardening material, due to more technological reinforcement with hardening material, ensuring uniformity of the fixed soil around the pile in the volume of compacted soil, as well as reducing labor costs and reducing consumption of hardening material due to the exclusion of soil strengthening operations along the periphery of the group of reinforced piles and inside the interspace.

Claims (3)

CLAIM 1. The method of erection of a pile foundation, including the installation of piles and the strengthening of near-soil soil by reinforcing it with a solution of hardening material, characterized in that before installing the pile a hole is drilled with a diameter of not more than 1/3 of the pile diameter, the hole is filled with a fixing solution, the pile is filled in with a fixing solution a well with the formation of a hemisphere-shaped fixed zone filled with a reinforcing fixing solution, facing the heel to the heel and a truncated cone, under the heel and around the pile shaft, suspended on the base of the hemisphere, and a fixed zone is surrounded by a compacted zone repeating its shape. 2. The method of construction of pile foundations according to claim 1, characterized in that the pile is immersed using a guide washer. 3. The method of construction of pile foundations according to claim 1, characterized in that the fixing solution is a liquid glass.