RU2535556C1 - Pile and its erection method - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used in structures of floating piles intended for construction of pile foundations, and erection methods of such piles. A pile having a shaft with an internal longitudinal cavity filled with concrete and a carrying capacity increasing device located in its lower part. The pile shaft is made in the form of a polymer pipe having external and internal longitudinal ribs, and the pile carrying capacity increasing device is made in the form of a support concrete bearing plate located under the pile shaft.

EFFECT: improvement of adhesion of pile surface with surrounding soil, increase of carrying capacity and reduction of material consumption.

8 cl, 5 dwg

Description

The invention relates to the construction, in particular, to the designs of suspended piles intended for the construction of pile foundations, and to methods of construction of such piles.

A known construction of piles described in the patent of the Russian Federation No. 2386751 for the invention "Method of immersion of a hollow pile (options)" according to class E02D 7/02, announced on January 29, 2009 and published on April 20, 2010.

The known pile is a reinforced concrete barrel with an internal longitudinal cavity filled with concrete with reinforcement, while the pile is equipped with a means of increasing bearing capacity in the form of an elastic shell fixed to its lower end in the region of radial holes in the barrel filled with hardened cement or cement-sand mortar.

The disadvantages of the pile described above are the insufficient bearing capacity and the high cost of construction, due to insufficient adhesion of the surface of the pile to the surrounding soil and the difficulty of transportation without damaging long heavy hollow concrete piles and manipulating them during the construction process, the need to reinforce them to increase strength and provide the piles with means to increase the bearing abilities in the form of an elastic shell filled with cement or cement-sand mortar.

A known method of construction of piles described in the patent of the Russian Federation No. 2386751 for the invention "Method of immersion of a hollow pile (options)" according to class E02D 7/02, announced on 01.29.2009 and published on 04.20.2010.

A known method of erecting a reinforced concrete hollow pile under the action of a static or dynamic load created by a unit with a loader includes installing soil piercing means (immersion means) into the pile cavity, fixing its position relative to the pile, installing the pile with the soil piercing means fixed in it in a vertical position relative to the surface of the earth with equipment for immersing piles, immersing piles and at the same time means of piercing the soil into the ground to a predetermined level under the action we have a static, dynamic or combined load on the pile, removing the means of puncturing the soil from the cavity of the pile, filling the cavity with concrete solution, while installing in the cavity of the pile means of piercing the soil, consisting of a rod and a pointed tip in the form of a cone, or a pyramid, or wedge, sharp the angle at the apex of which is in the range from 15 to 30 °, and the distance from the upper end of the rod to the base of the tip is greater than the length of the pile, the base of the tip is set at a certain distance from the lower end piles, and after installing and fixing the means of piercing the soil in the cavity of the pile, a cone-shaped ring or a cone-shaped casing made of sheet material, the shape and dimensions of the base of which are identical with the shape and dimensions of the bottom end of the pile, are put on the part of the tip protruding from the pile to the base of the pile, and the height is determined depending on the thickness of the hollow wall of the pile and the angle of sharpness of the tip, after removing the means of piercing the soil, the pile is additionally immersed to a depth not less than the height of the casing from the foxes finished material for crushing it, after which fittings are installed in the cavity of the piles and the cavity is filled with concrete mortar.

A method of erecting a pile having means for increasing the bearing capacity fixed in its lower end in the form of an elastic shell filled with cement or cement-sand mortar through the pile cavity and radial holes in its wall extending under the elastic shell includes, in addition, filling the pile cavity with concrete before the start of the radial holes, after the concrete has hardened, injection of the hardening mortar through the cavity and radial holes under the elastic shell in an amount sufficient to form a support belt a.

The disadvantages of the method of pile construction described above are the unsatisfactory bearing capacity of the pile obtained in this way and its high cost, due to the insufficient adhesion of the surface of the pile to the surrounding soil, the difficulty of transporting without damaging the long concrete hollow piles and manipulating them during the construction process, the need to strengthen them with metal reinforcement and the need in additional operations to supply piles with special means to increase the bearing capacity in the form of a flexible shell, filled during the construction of piles with cement or cement-sand mortar through radial holes in the pile shaft.

The objective of the invention is to increase the bearing capacity of piles, built using the proposed method, and the cost of its manufacture.

The technical result that allows us to solve this problem is to improve the adhesion of the surface of the pile with the surrounding soil, reducing metal consumption and reducing the weight of the trunk of the pile made using the proposed method.

The specified result is achieved by the fact that:

1. In a known pile having a barrel with an internal longitudinal cavity filled with concrete and a means for increasing the bearing capacity located in its lower part, according to the invention, the pile shaft is made in the form of a polymer pipe having external and internal longitudinal ribs, and a means for increasing the bearing capacity piles made in the form of a supporting concrete heel located under the pile shaft.

2. In the pile according to claim 1 according to the invention, the outer and inner longitudinal ribs are distributed evenly around the circumference of the wall of the polymer pipe so that the protrusions of the inner ribs are located opposite the gaps between the protrusions of the outer ribs.

3. In the pile according to claim 1 according to the invention, the cross-sections of the outer and inner longitudinal ribs of the polymer pipe are in the form of isosceles trapezoid faces facing the pipe wall with large bases.

4. In the pile according to claim 1 according to the invention, the internal cavity of the polymer pipe is filled with high-quality fine-grained concrete.

5. In the known method of pile construction, including immersion of the pile with the immersion means located in the internal longitudinal cavity of its trunk into the soil to a predetermined point under the influence of a static, dynamic or combined load, removing the immersion means from the pile cavity, the formation of means for increasing the bearing capacity of the pile and filling the inner longitudinal cavity of the pile concrete mixture, according to the invention pre-drill a well with a diameter equal to 0.85-0.90 the outer diameter of the shaft of the pile in the form of poly A black tube having external and internal longitudinal ribs and a depth shorter than the length of the pile shaft is filled with a soil reinforcing composition, and after immersion in the well with the help of pile shaft immersion means and extraction means from it are filled, one third of the height of the internal longitudinal cavity of the pile shaft is filled with concrete mix it and ram it with an immersion tool into the soil bottom of the well to form a supporting concrete heel under the pile shaft, after which the immersion tool is removed from the pile shaft and fill it with concrete mix.

6. In the method according to claim 5 according to the invention, the depth of the pre-drilled well is 0.20-0.30 m less than the length of the pile shaft.

7. In the method according to claim 5 according to the invention, the pre-drilled well is filled with an clay-cement aqueous solution.

8. In the method according to claim 5 according to the invention, the piles are immersed using an immersion device, which is a thick-walled metal pipe with a pointed tip at the lower end and a platform fixed to the upper end.

The implementation of the pile shaft in the form of a polymer pipe having external and internal longitudinal ribs, and the implementation of the means of increasing the bearing capacity of the pile in the form of a supporting concrete heel located under the pile shaft makes it possible to increase the lateral surface area of the pile and compact the soil under the pile, thereby improving the adhesion of the pile surface with surrounding soil, reduce metal consumption and reduce the weight of piles, which allows to reduce the cost of manufacturing piles and increase its bearing capacity.

While the outer and inner longitudinal ribs can be distributed evenly around the circumference of the wall of the polymer pipe so that the protrusions of the inner ribs are located opposite the gaps between the protrusions of the outer ribs.

In this case, the cross sections of the outer and inner longitudinal ribs of the polymer pipe can be in the form of isosceles trapezoid facing large bases to the pipe wall.

In this case, the internal cavity of the polymer pipe can be filled with high-quality fine-grained concrete.

Preliminary drilling of a well with a diameter equal to 0.85-0.90 of the outer diameter of the pile shaft in the form of a polymer pipe having external and internal longitudinal ribs and a depth shorter than the length of the pile shaft, filling the well with a soil strengthening composition, filling a third of the height of the internal longitudinal cavity of the shaft piles of rigid concrete mixture after immersion in the well with the help of immersion means of the pile shaft and extraction of immersion means from it, ramming of concrete mixture with the help of immersion means into the soil bottom with boreholes for forming a supporting concrete heel under the pile shaft, subsequent extraction of the immersion agent from the pile shaft and filling of the shaft with concrete mixture can improve the adhesion of the surface of the pile to the surrounding soil by increasing the area of the side surface of the pile and impregnation of the ground space around the pile to be strengthened, reduce metal consumption and the weight of the pile, reducing the cost of its transportation and handling during the construction of the pile, to ensure the formation of a simple means of increasing I am bearing capacity of piles. All this makes it possible to reduce the cost of manufacturing piles, erected by the claimed method, and increase its bearing capacity.

At the same time, the depth of the pre-drilled well can be 0.20-0.30 m less than the length of the pile shaft.

In this case, a pre-drilled well can be filled with an clay cement aqueous solution.

In this case, the piles can be immersed with the help of an immersion device, which is a metal thick-walled pipe with a pointed tip at the lower end and fixed to the upper end of the platform.

The inventive pile has a novelty in comparison with the prototype, differing from it in that:

1) the pile shaft is made in the form of a polymer pipe having external and internal longitudinal ribs, and the means of increasing the bearing capacity of the pile is made in the form of a supporting concrete heel located under the pile shaft,

2) the outer and inner longitudinal ribs are distributed evenly around the circumference of the wall of the polymer pipe so that the protrusions of the inner ribs are located opposite the gaps between the protrusions of the outer ribs,

3) the cross sections of the outer and inner longitudinal ribs of the polymer pipe have the form of isosceles trapezoid, facing large bases to the pipe wall,

4) the inner cavity of the polymer pipe is filled with high-quality fine-grained concrete.

The inventive method of construction of piles has a novelty in comparison with the prototype, differing from it in that:

1) pre-drill a well with a diameter equal to 0.85-0.90 of the outer diameter of the pile shaft in the form of a polymer pipe having external and internal longitudinal ribs and a depth shorter than the length of the pile shaft, fill it with a soil strengthening composition, and after immersion in the well using the pile shaft immersion means and extracting the immersion means from it, fill a third of the height of the inner longitudinal cavity of the pile shaft with a rigid concrete mixture and ram it with the immersion means into the soil bottom of the borehole for forming Nia under the barrel concrete piles supporting the heel, and then is recovered from the immersing means and the pile shaft is filled with concrete mix it,

2) the depth of the pre-drilled well is 0.20-0.30 m less than the length of the pile shaft,

3) a pre-drilled well is filled with an clay cement aqueous solution,

4) the piles are immersed using an immersion device, which is a metal thick-walled pipe with a pointed tip at the lower end and fixed to the upper end of the platform.

The applicant is not aware of the pile and the method of construction of piles that have the above distinctive essential features, which allow to explicitly achieve the same technical result, therefore, the applicant believes that the claimed invention meets the criterion of "inventive step".

The inventive pile and the method of its manufacture can be widely used in construction, in particular in the construction of suspended piles intended for the construction of pile foundations, and methods of construction of such piles, so they meet the criterion of "industrial applicability".

The inventive method of construction of the pile is a set of operations that improve the adhesion of the surface of the pile to the surrounding soil, reduce metal consumption and reduce the weight of the shaft of the pile made using the proposed method, and that pre-drill a well with a diameter equal to 0.85-0 , 90 of the outer diameter of the pile shaft in the form of a polymer pipe having external and internal longitudinal ribs, and with a depth less than 0.20-0.30 m of the length of the pile shaft, fill it with a soil reinforcing composition in the form of clay cement water solution, and after immersion in the well with the help of the pile shaft immersion means and extracting the immersion means from it, one third of the height of the internal longitudinal cavity of the pile shaft is filled with rigid concrete mixture and rammed with the immersion means into the soil bottom of the well to form a concrete support under the pile shaft heels, after which the immersion agent is removed from the pile shaft and filled with concrete mixture, and the immersion of the pile is carried out using an immersion device representing about a metal thick-walled pipe with a pointed tip at the lower end and a pad fixed on the upper end.

The inventive pile, constructed using the proposed method, is illustrated by drawings, which are presented on:

Figure 1. General view of the inventive piles with a cut.

Figure 2. Section AA in Figure 1.

Figure 3. Dive into the borehole of the pile shaft.

Figure 4. Formation of a supporting concrete heel under the pile shaft.

Figure 5. Filling the pile shaft with concrete mixture.

The pile shown in the drawings (see FIGS. 1, 2) contains a barrel in the form of a polymer pipe 1 made of polypropylene with an internal longitudinal cavity 2 filled with high-quality fine-grained concrete. The polymer pipe 1 has outer 3 and inner 4 longitudinal ribs distributed evenly around the circumference of the wall of the polymer pipe 1 so that the protrusions of the inner longitudinal ribs 4 are located opposite the gaps between the protrusions of the outer longitudinal ribs 3. Cross sections of the outer 3 and inner 4 longitudinal ribs of the polymer pipe 1 have the form of isosceles trapezoid facing large bases to the wall of the pipe 1.

Under the shaft of the pile is a means of increasing the bearing capacity, made in the form of a supporting concrete heel 5.

The inventive method of construction of piles is implemented using well-known and widely used in the industry devices and appliances. The construction of the claimed piles and the implementation, thereby, the claimed method of its construction is as follows.

A well is pre-drilled with a diameter equal to 0.87 (0.85-0.90 can be achieved with the same result) of the outer diameter of the polymer pipe 1 of the pile shaft without taking into account the protrusions of the outer longitudinal ribs 3, and a depth of 0.25 m ( can be 0.20-0.30 m) of a shorter pile shaft. The well is filled with a soil-strengthening composition in the form of a clay-cement aqueous solution, which, under the influence of its own weight, penetrates the soil of the walls and bottom of the well, saturating and softening it.

An immersion means 6 is placed in the inner longitudinal cavity of the polymer pipe 1 of the pile shaft, which is a metal thick-walled pipe with a pointed tip at the lower end and a platform for the pile hammer fixed on the upper end. The outer diameter of the pipe immersion means 6 is equal to 0.95 the diameter of the inner lumen of the polymer pipe 1, taking into account the protrusions of the internal longitudinal ribs 4. The pointed tip of the immersion means 6 at 0.20-0.30 m extends beyond the lower base of the polymer pipe 1.

Under the action of dynamic loading, the polymer pipe 1 is immersed with the immersion means 6 located in its internal longitudinal cavity (see FIG. 3) into the soil to a predetermined mark, while the external longitudinal ribs 3 are included in the soil of the well walls impregnated with a clay-cement aqueous solution. When immersed, the polymer pipe 1 with immersion means 6 exert additional pressure on the clay-cement water solution filling the well, increasing the speed and degree of penetration of the walls and the bottom of the well into the soil with the formation of a shell from the hardened soil around the pile shaft after hardening, which significantly increases the force adhesion of its surface to the surrounding soil.

After removing the immersion means 6 from the cavity of the polymer pipe 1, fill the third of the height of its inner longitudinal cavity with a hard concrete mixture with a low water content and ram the mixture (see Fig. 4) using the immersion means 6 into the bottom of the well impregnated with a clay-cement water solution to form under the pile shaft of the broadened supporting concrete heel 5. Then, the immersion means 6 is removed from the polymer pipe 1 and its internal cavity is filled (see Figure 5) through the concrete pipe 7 of the high-quality fine-grained concrete admixture.

After the hardening of the soil impregnated with an clay-cement aqueous solution around the pile body and a set of rigid and high-quality fine-grained concrete mix of the required strength, the pile is ready to absorb loads and can be transferred to operation as part of the pile foundation.

Using the claimed design of the piles and the method of its construction allows you to:

- eliminate the need for a laborious process of manufacturing heavy reinforced concrete piles with prestressed metal reinforcement, more inconvenient in transportation and immersion in the design position due to the possibility of damage;

- to provide the possibility of flexible variation of the sizes and bearing capacity of piles, since polymer piles with a large range of diameters, lengths and sizes of longitudinal ribs can be made at any enterprise that produces polymer pipes of large diameters;

- eliminate the need to use pile hammers with high impact energy due to preliminary drilling of the well and impregnation of the side walls of the well with a soil reinforcing composition, which allows the construction of the claimed pile near existing buildings;

- increase the durability of the pile due to the stability of its polymer trunk to the aggressive effects of groundwater and stray currents.

The inventive pile and the method of its manufacture in comparison with the prototype provide improved adhesion of the surface of the pile with the surrounding soil, reducing metal consumption and reducing the weight of the pile shaft.

Claims (8)

1. A pile having a trunk with an internal longitudinal cavity filled with concrete and a means of increasing bearing capacity located in its lower part, characterized in that the pile shaft is made in the form of a polymer pipe having external and internal longitudinal ribs, and means for increasing the bearing capacity of piles made in the form of a supporting concrete heel located under the pile shaft. 2. The pile according to claim 1, characterized in that the outer and inner longitudinal ribs are distributed evenly around the circumference of the wall of the polymer pipe so that the protrusions of the inner ribs are located opposite the gaps between the protrusions of the outer ribs. 3. The pile according to claim 1, characterized in that the cross-sections of the outer and inner longitudinal ribs of the polymer pipe are in the form of isosceles trapezoid facing large bases to the pipe wall. 4. The pile according to claim 1, characterized in that the internal cavity of the polymer pipe is filled with high-quality fine-grained concrete. 5. A method of erecting a pile, including immersing the pile with immersion means located in the internal longitudinal cavity of its trunk into the soil to a predetermined point under the influence of a static, dynamic or combined load, removing the immersion means from the pile cavity, forming a means of increasing the bearing capacity of the pile and filling the internal longitudinal the cavity of the pile with a concrete mixture, characterized in that the hole is pre-drilled with a diameter equal to 0.85-0.90 of the outer diameter of the pile shaft in the form of a polymer pipe, having external and internal longitudinal ribs, and a depth shorter than the length of the pile shaft, fill it with a soil strengthening composition, and after immersion in the well with the help of pile shaft immersion means and extracting immersion means from it, fill a third of the height of the internal longitudinal cavity of the pile shaft with rigid concrete mixture and ram it it with the help of an immersion tool in the soil bottom of the well to form a supporting concrete heel under the pile shaft, after which the immersion tool is removed from the pile shaft and filled th concrete mixture. 6. The method of construction of piles according to claim 5, characterized in that the depth of the pre-drilled well is 0.20-0.30 m less than the length of the pile shaft. 7. The method of construction of piles according to claim 5, characterized in that the pre-drilled well is filled with an clay cement aqueous solution. 8. The method of erecting piles according to claim 5, characterized in that the piles are immersed using an immersion device, which is a metal thick-walled pipe with a pointed tip at the lower end and fixed to the upper end of the platform.

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