RU2554368C2 - Method of pile production by impression - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method of pile production by impression involves well formation without ground excavation by impression of a pipe with an end cap diameter exceeding pipe diameter, and pipe filling with mortar. End cap is pointed and features a borescope with diameter exceeding pipe diameter, for formation of a gap between well wall and pipe body. The gap is filled with a mortar with hardening retarder through flexible hose connected to nozzle attached inside the borescope.

EFFECT: enhanced pile reliability, reduced construction period, simplified manufacturing technology.

4 cl, 1 dwg

Description

The invention relates to construction, in particular to methods for the construction of pile foundations and foundations mainly in soft soils, and can be used in industrial and civil engineering both in the construction of new buildings and structures, and in strengthening foundations of old, damaged or requiring reconstruction. A method of manufacturing an injection pile includes pre-extrusion of a well without extracting soil by pressing a tip and injecting a hardening fixing solution through an injection pipe.

Currently, several methods are known for delivering a hardenable fixing solution to a pushed well.

"A method of manufacturing piles in a previously sold well" according to the patent of the Russian Federation for the invention No. 2231596, publ. 06/27/2004, includes the formation of a well by forcing a casing with a lost shoe, filling it to the full height with concrete, removing the casing and installing a reinforcing cage. At the same time, the casing is pushed into the ground with a sealed head and a valve in the upper part, through which the casing is filled with concrete, for which the casing is raised to a height of 1.5-2.0 times the diameter of the pipe while the concrete is completely filled. By pushing the casing of the concrete into the ground, a broadening is arranged. The result is a printed pile with a broadened heel in weak clay soils near existing buildings, which has high bearing capacity and is more economical in the consumption of cement and metal compared to a factory-made pile.

The disadvantage of this method is the complexity of the process.

The closest technical solution to the proposed method can be considered the method of device injection piles according to the patent of the Russian Federation for invention No. 2238366, publ. 10/20/2004, the Method includes the formation of a well without removing soil by pressing the tip and filling the well with a fixing solution through an injection pipe. To do this, use a perforated injection tube along the entire length, on the end of which a conical tip is fixed, consisting of a disk whose diameter is larger than the diameter of the injection pipe and cutting inserts whose edges protrude beyond the base of the disk. An injection pipe with a tip is pressed into the soil while cutting longitudinal grooves on the walls of the well and forming a gap between the walls of the well being formed and the injection pipe. The gap is filled with a fixing solution through the perforations in the pipe. At the end of the injection process, the pipe with the tip is left in the well.

The invention allows to reduce the construction time of piles, but the implementation of a perforated pipe leads to a rise in price, reduces its reliability and reduces its bearing capacity, in addition, the flat tip does not calibrate the wellbore, and the flow of solution from above does not guarantee the formation of plugs and constrictions of the well in height.

The objective of the proposed method is to simplify manufacturing technology, increase the reliability of piles and accelerate the timing of its construction.

To solve the problem in the proposed method of producing piles by pressing, including the formation of a well without extracting soil by pressing a pipe with a tip whose diameter exceeds the diameter of the pipe trunk, and filling the pipe with a fixing solution, the process of filling a well with a fixing solution has been changed, and the shape of the tip has been changed. The tip has a pointed shape and is equipped with a calibrator with a diameter exceeding the diameter of the pipe trunk. The calibrator forms a gap between the borehole wall and the pipe bore. The resulting gap is filled with a delayed hardening solution through a hose that is connected to the fitting fixed inside the calibrator. After the process of filling the gap with the solution, the hose is removed.

The time before hardening of the solution in the gap is calculated to be greater than or equal to the time of pressing the piles to the calculated depth.

The pointed tip is made in the form of a regular pyramid with an angle at the apex from 30 ° to 90 °.

The calibrator is mounted coaxially with the pipe and is made of a pipe with a length not less than the length of the tip and with a diameter equal to the diameter of the tip.

The flow of the solution into the gap between the wall of the well and the pipe bore through the hose from the bottom to the bottom allows you to keep the borehole from collapsing and increases the bearing capacity of the piles.

The proposed method is illustrated in figure 1, which shows a longitudinal section of a well and equipment for the manufacture of injection piles.

For the manufacture of piles, an indentation unit is used, which is mounted on the surface of the grill 1. The installation contains rods 2 fastened by a traverse 3, and a hydraulic cylinder 4 mounted on the traverse. the help of the sleeves 6 and provide a strictly horizontal position of the traverse and a strictly vertical movement of the hydraulic cylinder 4 acting on the indented pipe 5. Before starting the indentation, in order to set the direction of the indentation and to exclude curvatures of piles, drill a leader well. Then begin the indentation of the piles.

To do this, install a pipe 5 on the soil surface, at the end of which a calibrator 7 and a pointed tip 8 are mounted. The calibrator 7 is mounted coaxially with the pipe 5 and is made of a pipe with a length not less than the length of the tip 8 with a diameter equal to the diameter of the tip exceeding the diameter of the pipe 5. The pointed tip 8 can be made in the form of a pyramid with an angle at the apex from 30 ° to 90 °. The pipe 5 is a continuous pipe of high bearing capacity, because through it, an indenting load is transferred to the tip when pressed into the ground. The diameter of the pipe, in particular, may be 219 mm, the diameter of the calibrator 273 mm.

A bay with a flexible hose 9 and a mortar pump 10 is also installed on the grillage surface. A flexible hose from the mortar pump is connected to the fitting 11, which is located inside the calibrator 7.

The immersion of the pipe 5 with the tip 8 and the calibrator 7 in the soil is carried out using the hydraulic cylinder 4 of the pressing unit. Since the diameter of the pipe 5 is smaller than the diameter of the calibrator and the tip, a gap is formed between the pipe 5 and the wall 12 of the well 13 during the immersion of the pipe. The calibrator with the tip, when pressed into the ground, ensures the formation of the walls of the well (calibration). Through a flexible hose 9 in the process of indentation of the pipe 5, a solution with a hardening retarder is fed into the gap of the well 13 with a solution pump 10. The start time of the hardening of the solution (setting) is calculated so that it must be at least the time of immersion of the pipe 5 to the calculated depth. Filling the gap with cement mortar protects the walls of the forming well from collapse due to the hydrostatic pressure of the mortar on the ground, and the mortar removes the friction forces of the pipe on the ground when pressed. To achieve the design level, the letter pipe 5 is increased by welding the following pipe elements to its upper end.

After the pipe 5 reaches the design mark, the hardening solution supply hose 9 is pulled out, twisted and washed. The pile pile is filled with concrete mixture.

At the end of the indentation, the pipe 5 with the tip and the calibrator is left in the well - they perform the function of the reinforcing cage in the pile created by the proposed method, and this, in turn, increases its bearing capacity. As a result, the pile is obtained with a diameter equal to the diameter of the calibrator, and the solution fed through the hose into the gap formed by the calibrator after hardening increases the bearing capacity of the pile and guarantees reliable protection of the pipe from corrosion.

Thus, the proposed method is simpler than the known and provides higher operational reliability of the pressed pile.

Claims (4)

1. The method of producing piles by pressing, including the formation of a well without extracting soil by pressing a pipe with a tip whose diameter exceeds the diameter of the pipe bore, and filling the pipe with a solution, characterized in that the tip has a pointed shape and is equipped with a calibrator with a diameter exceeding the diameter of the pipe bore, to form a gap between the borehole wall and the pipe bore, the gap is filled with a hardening moderator solution through a flexible hose connected to a fitting that is mounted inside the calibrator but. 2. The method according to claim 1, characterized in that the curing time of the solution exceeds the time of indentation of the piles to the calculated depth. 3. The method according to claim 1, characterized in that the pointed tip is made in the form of a regular pyramid with an angle at the apex from 30 ° to 90 °. 4. The method according to claim 1, characterized in that the calibrator is mounted coaxially with the pipe and made of pipe with a length not less than the length of the tip and with a diameter equal to the diameter of the tip.