RU2514079C1 - Method to erect bored pile - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the field of construction, namely, to technology for manufacturing of bored reinforced concrete piles in erection of bases and foundations. In the method for erection of a bored reinforced concrete pile formed in soil, including formation of a well, its filling with a hardening, preferably, concrete, mix and submersion of a reinforcement frame, it is monitored, so that the volume of the hardening mixture pumped into the well, exceeds the volume of soil extracted from the well, they install, preferably, by suspension above the well filled with concrete mix, the reinforcement frame or its separate section, with installed fixators of the protective concrete layer, they match the longitudinal axis of the reinforcement frame with the longitudinal axis of the well, they submerge the frame or the section under gravity during rotary or return-rotary movement of the frame or the section around its longitudinal axis. At the same time to monitor continuity of the entire pile shaft, they submerge the reinforcement frame or its section to the bottom end of the pile, and the frame is made with dimensions of the well in the bottom part of the frame or its section. And in case of section-by-section submersion of the reinforcement frame, each new section is temporarily suspended above the well, the match the longitudinal rods of the upper and lower sections, they match the longitudinal axis of the new section with the longitudinal axis of the well, they join the upper and lower sections of the reinforcement frame, the frame is submerged for the length or larger part of the length of the new section. When required, the lower sections of the reinforcement frames before submersion are cooled. And in case of unauthorised stopping of frame or its section submersion, it is extracted, a filling string is submerged into the well, and the well is pumped with a new concrete mix, afterwards the reinforcement frame is again submerged. Or in case of unauthorised stopping of the frame submersion or its section submersion, due to produced throat, the frame or its section is extracted, the electrode system is submerged into the well in the stopping area, and treated with series of electric discharges, adding the concrete mix, then the filling string is submerged, and the well is pumped with a new concrete mix, afterwards the reinforcement frame or its section is again submerged. The hardening mix is cement mortar or plastic fine-grained concrete mix with mobility of P4?P5, which may contain coarse filler of fraction of up to 10 mm. At the same time in those cases, when the reinforcement frame, in process of repeated submersion, for instance, after additional working of the well, is not submerged freely, then submerged parts of the reinforcement frame are extracted, and the well is redrilled immediately or after concrete gains minimum strength, providing for stability of well walls, and after redrilling of the well, they repeat operations of submersion of the reinforcement frame under gravity. Besides, before submersion of the reinforcement frame, an injection pipe is installed into the well head.EFFECT: elimination of the possibility of contact between a reinforcement frame with base soil by provision of efficient control of continuity of bored pile shaft, control of no throats in a well, and accordingly provision of reliability and durability of a pile.9 cl

Description

The invention relates to the field of construction, and in particular to the manufacturing technology of reinforced concrete drilling piles in the construction of foundations.

A known method of manufacturing a printed reinforced piles, when the reinforcing cage is immersed in the ground before the formation of the well, and the well is rammed inside the reinforcing cage (AS USSR No. 1677180, E02D 5/34, 09/15/1991).

In piles made in this way, there is no protective layer of concrete and the reinforcement is in contact with the soil, therefore, the integrity of the pile shaft is not controlled, which reduces its durability.

A known method of manufacturing piles in a pre-sold well, according to which the reinforcing cage is immersed in freshly laid concrete using a vibrator (patent RU No. 2231596, E02D 5/34, 06/27/2004).

The soil containing the well formed by pressing, tends to return to its original state, while the well is filled with concrete mixture. When the reinforcing cage is immersed in freshly laid concrete with a vibrator, it cannot be ruled out that in some places the reinforcing cage may come into contact with the soil in the area of the formed clamps, because in weakly stable and low-strength soils, the strength properties of which differ little from the strength of freshly laid concrete, it is impossible to distinguish whether the reinforcing cage is immersed in freshly laid concrete or in low-strength soil.

In piles made in this way, it is impossible to control the integrity of the pile shaft during their manufacturing, which negatively affects its durability.

A known method of forming a bored pile, including the introduction of a continuous hollow auger into the soil to the design depth, followed by its extraction and the simultaneous supply of concrete mixture through the auger cavity under the end part of the auger. After removing the auger from the well, a three-dimensional reinforcing cage is vibro-immersed in the concrete mixture, made in the form of parallel-mounted longitudinal reinforcing bars joined by transverse bonds, while the borehole walls are supported from collapse and pinching by the auger blades and soil located on the blades, and the borehole walls are underneath supported by a concrete mixture, which is simultaneously fed through the cavity of the screw under its end part (Japanese application N 63-51208, E02D 5/34, 1988).

When vibro-immersed in the reinforcing cage, it may be deflected and immersed in the soil with the formation of the pinch zone of the well. In piles made in this way, the integrity of the pile shaft is not controlled, which negatively affects its durability.

The closest technical solution is the method of forming a bored pile using the continuous hollow auger (NPS) method (CFA abroad), which involves introducing a continuous hollow auger into the soil, mainly by screwing it to the design depth, then removing the auger while feeding concrete through its cavity under the end of the auger. At the same time, the pressure of the mixture is at least 1.5 atm. After removing the auger from the well into the concrete mixture, a rigid volume reinforcing cage is immersed in the form of parallel longitudinal reinforcing bars joined by transverse ties (RU No. 2127345, MKP E02D5 / 36, 1999).

When drilling piles are constructed using this method, concrete mixtures with a draft of 20–22 cm cone are used, having a coarse aggregate fraction of up to 20 mm. Immersion of the reinforcing cage in such concrete mixtures is possible only with the help of sufficiently powerful vibration dampers, supplied complete with drilling rigs for piling using the CFA method. To immerse the reinforcing cage in the concrete mixture, it is made quite rigid: parallel longitudinal reinforcing bars are joined by transverse ties made in the form of annular pipe segments located along the axis of the frame at a distance from each other not exceeding thirty arithmetic mean lengths of the annular segments. Longitudinal reinforcing bars are welded from the outside of the annular pipe segments, and the ends of the reinforcing bars in the lower part of the frame are bent under an acute, mainly 15-30 °, angle to its longitudinal axis, that is, the frame is pointed to reduce the likelihood of it being immersed by a powerful vibrator in the soil of the borehole walls .

When a rigid reinforcing cage is immersed in a freshly laid concrete mix with a vibrator, it is impossible to detect that in some places the cage will pass through the clamps that often form in the pile body when the auger is lifted in a zone of weakly stable soils, especially at depths where the household pressure significantly exceeds the specified pressure of the injected concrete mixture . Often this happens in sections of the pile shaft, where the well intersects the layers of weakly stable and low-strength soils, the strength properties of which differ little from the properties of the freshly laid concrete mixture, and the operator of the vibrator (vibrator) cannot determine which medium the reinforcing cage is immersed in - in freshly laid concrete or in low strength soil. It is impossible to immerse the reinforcing cage without a vibrator in a freshly laid concrete mixture containing crushed stone up to 20 mm in size. In piles made in this way, the integrity of the trunk is not controlled during their manufacturing, which negatively affects the durability of the pile.

Thus, the known methods do not allow any reliable determination of the presence of pinches of the pile shaft with soil, and even more so, a decrease in the value of the protective layer of concrete. In addition, when installing a pile using the continuous screw method, all known methods for checking the integrity of a pile shaft are performed at the stage when the concrete in the piles has gained strength and it is very laborious to fix the marriage.

The objective of the present invention is to eliminate the possibility of contact of the reinforcing cage with the soil of the base by providing operational control of the continuity of the shaft of the drill pile, control the absence of pinch in the well, and therefore ensuring the reliability and durability of the pile.

This is achieved by the fact that in the method of constructing a reinforced concrete pile pile formed in the soil, which includes forming a well, filling it with a hardening, preferably concrete mixture, and immersing the reinforcing cage, it is controlled that the volume of the hardened mixture pumped into the well exceeds the volume of soil extracted from the well, preferably by hanging over a well filled with concrete mixture, the reinforcing cage or its separate section, with the installed clamps of the concrete protective layer, combine the product battening reinforcing cage axis with the longitudinal axis of the well, dipped or frame section under its own weight when the rotary or reciprocating rotary motion of the frame or section around its longitudinal axis. Moreover, to control the integrity of the trunk of the entire pile, the reinforcing cage or its section is immersed to the lower end of the pile, made with the overall dimensions of the well in the lower part of the frame or its section. And when sectional immersion of the reinforcing cage, each next section is temporarily hung over the well, the longitudinal rods of the upper and lower sections are combined, the longitudinal axis of the next section is combined with the longitudinal axis of the well, the upper and lower sections of the reinforcing cage are joined, the cage is immersed for a length or for most of the length next section.

If necessary, the lower sections of the reinforcing cages are cooled before immersion. And in case of unauthorized stopping the immersion of the frame or its section, it is removed, the casting column is immersed in the well and the well is pumped with a new concrete mixture, after which the immersion of the reinforcing frame is repeated. Or, in case of unauthorized stopping the immersion of the frame or its section due to the resulting pinch, the frame or its section is removed, the electrode system is immersed in the well in the locking zone and treated with a series of electric discharges, the concrete mixture is added, then the casting column is immersed and the well is pumped with a new concrete mixture, after which repeat the immersion of the reinforcing cage or its section. As a hardening mixture, cement mortar or plastic fine-grained concrete mixture with mobility P4 ... P5, which may contain coarse aggregate fractions up to 10 mm, is used. Moreover, in cases where the reinforcing cage, during re-immersion, for example, after additional development of the well, is not immersed freely, the submerged parts of the reinforcing cage are removed and the well is drilled immediately or after the concrete has set the minimum strength that ensures the stability of the walls of the well after drilling wells repeat the operations of immersion of the reinforcing cage under its own weight. In addition, before immersion of the reinforcing cage, a conductor is installed at the wellhead.

The main criterion for the stability of the walls of the well and, accordingly, the continuity of the trunk of the pile being formed to the depth of reinforcement is the free, under its own weight, immersion of the reinforcing cage in the well filled with concrete mixture, while the rotational or rotational-return movements of the frame around the longitudinal axis of the frame, equipped with centralizers, fixing the minimum value of the protective layer of concrete for working reinforcement, allow you to control the absence of pinches along the perimeter of the pile shaft. According to the results of the nature of the submersion of the frame, the integrity of the walls of the well is judged and the integrity of the pile shaft to the depth of the frame freely immersed in the well is ensured.

When using concrete (reinforced concrete) elements or elements from other materials as fixatives, which can absorb water from the concrete mixture and form clumps of dehydrated concrete around them, creating a piston effect when the frame is immersed in the well, water-absorbing centralizers moisturize in advance.

When drilling piles are installed in hot, dry climates, the lower sections of the reinforcing cage are cooled in advance, for example, by wetting with water.

To control the continuity of the trunk of a long pile, the reinforcing cage is immersed to the full length of the pile to the lower end, while the lower part of the cage has a design to control the cross section of the well.

If there are pinches in the well, the reinforcing cage is not submerged under its own weight, in this case, the casing is removed, additional washing of the well with concrete is performed, immersing the casting column until the bottom of the well, washing the well until the cessation of ascent and leaving the mouth of the well, lumps of soil, lifting the filling column with continued supply of concrete mixture into the well in a volume not less than the volume of the extracted column, so that the horizon of the concrete mixture at the wellhead does not decrease, and after extraction columns repeat the operations of immersing the carcass by its own weight.

In cases where the reinforcing cage after additional washing is not immersed freely, as described above, then the immersed parts of the reinforcing cage are removed, the electrodes are immersed in the well until the first pinch from above, high-voltage current pulses are applied to the electrodes (carry out electrical discharges - electrical explosions), while immersing and raising the electrode system, they compact the soil with electric explosions, restore the well walls along the entire depth of the well, while the trunk integrity of the formed pile is judged by the free loading the reinforcing cage to the design elevation.

In cases where the reinforcing cage after additional development of the well is not immersed freely, as described in the first case, the submerged parts of the reinforcing cage are removed, and the well is drilled immediately or after concrete has set the minimum strength to ensure stability of the walls of the well in specific soil conditions. After drilling the wells, the operations of immersing the reinforcing cage under their own weight are repeated.

If there are pinches in the borehole, narrowing of the borehole diameter at the places where the borehole intersects layers of low-strength soils, or if there are large lumps of soil in the well, separated by a chisel from the array, but not captured by the auger blades and not brought to the surface, then such large lumps of soil with a bulk mass of less than 2 t / m ³ when filling a well with concrete mixture with a bulk density of more than 2 t / m ³ slowly float up the well and often do not have time to float to the wellhead. By this time, small lumps of soil, as a rule, emerge and clean concrete mix already flows out of the wellhead. When the reinforcing cage is immersed in the well, where a lump of soil of significant dimensions slowly emerges, the reinforcing cage may deviate with a lump of soil to the opposite wall of the well, while the cage wedges between the lump and the wall of the well. At the stopping place with the reinforcement cage of the soil lump, the pile will not be continuous. In this case, it is not possible to freely load the reinforcement cage under its own weight, because a lump of soil enters the pile shaft body and the integrity of the shaft will not be ensured. It is necessary to remove the frame from the well, rinse the well with concrete mixture, and then repeat the attempt to freely immerse the frame.

In the case of a quick rise of the auger, the well under the auger does not have time to completely fill up, a lower pressure is created (relative to the household pressure of the soil). Due to the higher domestic pressure of the soil than the pressure in the well, a narrowing of the wellbore occurs. In low-strength soils, the narrowing of the well can reach continuous overlap of the well section. It is almost impossible to freely load the reinforcing cage through the soil pinch of the well under its own weight. Such a well should be expanded to the diameter of the screw. To do this, the electrode system is immersed in the well, abutting it into the ground at the pinch section, from this point the well bore is treated with electric explosions. In this case, the electrode system is installed on the roof of the clamping ground, and after one or two electrical explosions it moves up and is again installed on the ground in the clamping section. If the pinch occurred in the local zone along the length of the well, then after 10 ... 50 electric explosions, the soil around the well becomes denser, shifting radially from the axis of the well to such an extent that the diameter of the well in this section becomes larger than the diameter of the drilled well. The reinforcing cage when immersed in the well after it is processed by electric explosions, as a rule, immerses freely, under its own weight. If even after treatment of the well with electric explosions, the frame does not freely sink, the well must be drilled or an additional pile made.

The main criterion for the stability of the borehole walls and, accordingly, the trunk integrity of the formed pile to the depth of reinforcement is free-of-charge immersion of the reinforcing cage into the well filled with concrete mixture, while the rotational or rotational-return movements of the cage around the longitudinal axis of the cage, equipped with centralizers that fix the minimum value of the protective concrete layer for working reinforcement, allow to control the absence of pinches along the perimeter of the pile shaft. Based on the results of the frame immersion, the integrity of the walls of the well is judged and the integrity of the pile shaft to the depth of the frame freely immersed in the well is ensured.

The advantage of the proposed method for controlling the integrity of the pile shaft is that the control of continuity is carried out in the process of manufacturing the piles and by the time the work on the installation of the entire pile field is completed, it can be confidently stated that the continuity of the shaft for all piles is ensured. Such a system for controlling the body integrity of piles, with 100% coverage of piles in a pile field, can significantly improve the quality of pile foundations, their reliability and durability. At the same time, the claimed quality control system successfully fits into the technology of manufacturing piles and does not entail significant material costs and time.

Claims (9)

1. A method of constructing a reinforced concrete pile pile formed in the soil, including forming a well, filling it with a hardening, preferably concrete, mixture, and immersing the reinforcing cage, characterized in that it is controlled so that the volume of the hardened mixture pumped into the well exceeds the volume of soil extracted from the well, preferably by hanging over a well filled with concrete mixture, the reinforcing cage or its separate section, with the installed latches of the concrete protective layer, combine the longitudinal the axial axis of the reinforcing cage with the longitudinal axis of the well, immerse the cage or section under its own weight when the cage or section is rotated or in the reciprocating movement around its longitudinal axis. 2. The method according to claim 1, characterized in that to control the integrity of the trunk of the entire pile, the reinforcing cage or its section is immersed to the lower end of the pile, made with the overall dimensions of the well in the lower part of the frame or its section. 3. The method according to claims 1 or 2, characterized in that when sectional immersion of the reinforcing cage, each next section is temporarily hung over the well, the longitudinal rods of the upper and lower sections are combined, the longitudinal axis of the next section is combined with the longitudinal axis of the well, and the upper and lower are docked sections of the reinforcing cage, immerse the cage to the length or to most of the length of the next section. 4. The method according to claims 1 or 2, characterized in that the lower sections of the reinforcing cages are cooled before immersion. 5. The method according to claim 1, characterized in that when it is unauthorized to stop the immersion of the frame or its section, it is removed, the casting column is immersed in the well and the well is pumped with a new concrete mixture, after which the immersion of the reinforcing frame is repeated. 6. The method according to claim 1, characterized in that in case of unauthorized stopping of immersion of the carcass or its section due to the resulting pinch, the carcass or its section is removed, the electrode system is immersed into the well in the locking zone and treated with a series of electric discharges, adding concrete mixture, then immerse the casting column and pump the well with a new concrete mixture, after which the immersion of the reinforcing cage or its section is repeated. 7. The method according to PP.1 or 2, characterized in that as the hardening mixture using cement mortar or plastic fine-grained concrete mixture, mobility P4 ... P5, which may contain coarse aggregate fractions up to 10 mm 8. The method according to PP.5 or 6, characterized in that in cases where the reinforcing cage during re-immersion, for example, after additional development of the well, is not immersed freely, the submerged parts of the reinforcing cage are removed and the well is drilled immediately or after set concrete of minimum strength, ensuring the stability of the walls of the well, after drilling the well, repeat the operations of immersion of the reinforcing cage under its own weight. 9. The method according to claims 1, characterized in that before immersion of the reinforcing cage at the wellhead, a conductor is installed.