RU2599159C1 - Foundation and method of its construction - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used in designs of pile-plate foundations, intended for construction of buildings and structures. Foundation consists of base plate and piles, arranged outside the base plate and connected with flexible links, located above or below of the ground level. Flexible links are made of prestressed metal cables. Piles are composed of bored piles with cores from metal thick-walled pipes, to external cylindrical surface of each of which are rigidly attached on opposite sides two lengthwise metal plates, located in the plane passing through the longitudinal axis of the pipe and perpendicular to direction of link.

EFFECT: technical result consists in improvement of reliability and bearing capacity of foundation, reduction of material consumption of its construction.

8 cl, 6 dwg

Description

The invention relates to the construction, in particular, to the construction of pile-slab foundations intended for the construction of buildings and structures, and methods for the construction of such foundations.

The foundation design is known, described in the USSR author's certificate No. 8555129 for the invention “Foundation for buildings and structures” according to class E02D 27/12, announced on 02.10.1979 and published on 08.15.1981.

A well-known foundation includes a grillage (foundation slab), supported by piles, and additional piles placed outside the grillage and connected to the grillage by bonds made obliquely downward to the grillage. Connections can be made in the form of plates placed in the ground, or in the form of flexible rods located above the ground or in the ground. The connection of the ties with the grillage can be articulated or rigid.

The disadvantages of the foundation described above are the complexity and high cost of construction, as well as insufficient reliability and bearing capacity, due to the need for high material costs for the device of inclined connections in the form of plates or flexible rods placed in or above the ground, low reliability of the hinged or rigid connection with a grillage, insufficient bearing capacity of piles due to the inclined arrangement of bonds, in which horizontal and vertical forces act on the piles, which t to the vertical movement of piles and, as a result, to the need to increase the length of piles to increase the area of bearing of their lateral surface on the ground and increase their bearing capacity.

There is a method of erecting a foundation, described in the USSR author's certificate No. 8555129 for the invention "Foundation for buildings and structures" according to class E02D 27/12, announced on 02.10.1979 and published on 08.15.1981.

A known method of erecting the foundation includes the construction of piles for supporting the grillage, the construction of additional piles placed outside the grillage, the construction of the grillage (foundation slab) and the connection of the grillage with additional piles, inclined, descending to the grillage ties, which are made in the form of plates placed in the ground, or in the form of flexible rods located above the ground or in the ground. The connection of bonds with the grillage is performed in the form of a hinge or rigid connection.

The disadvantages of the above method of construction of the foundation are the complexity and high cost, insufficient reliability and bearing capacity of the foundation constructed in this way, due to the high cost of making oblique connections in the form of plates or flexible rods with insufficiently reliable hinged or rigid connection with a grillage, unsatisfactory bearing capacity of piles due to the oblique execution of ties, which leads to the need to increase the length of piles to increase the area of support of their lateral surface ited on the ground and to increase their load capacity.

The task of the invention is to reduce the cost of the construction of the foundation, increasing the reliability and bearing capacity of the foundation, made using the proposed method.

The technical result that allows us to solve this problem is to simplify and reduce the material consumption of the foundation, increase the area of support of piles on the ground.

The specified result is achieved by the fact that:

1. In the well-known foundation, consisting of a foundation plate and piles placed outside the base plate and connected to it by flexible ties located above or below the ground, according to the invention, the flexible ties are made of prestressed metal cables, and the piles are made in the form of bored piles with cores made of thick-walled metal pipes, to the outer cylindrical surface of each of which two longitudinal metal plates located in opposite directions are rigidly attached a plane passing through the longitudinal axis of the pipe and perpendicular to the direction of communication.

2. In the foundation according to claim 1, according to the invention, piles are placed at a distance of 3-4 m from the edge of the foundation plate.

3. In the foundation according to claim 1, according to the invention, the metal plates are made in the form of rectangles.

4. In the foundation according to claim 1, according to the invention, the metal plates are made in the form of rectangular trapezoid with a smaller base down.

5. In the foundation according to claim 1, according to the invention, the length of the metal plates is 0.4-0.9 pipe length.

6. In the known method of construction of the foundation, including the construction of piles placed outside the base plate, the construction of the foundation plate and the connection of the piles with the foundation plate with flexible ties located above or below the ground level, according to the invention, cores in the form of thick-walled metal pipes are preliminarily prepared for piles , to the outer cylindrical surface of each of which on the opposite sides two longitudinal metal plates located in the plane are rigidly attached, passing to it through the longitudinal axis of the pipe, compact the soil base under the foundation plate, then, at a distance from the foundation plate along its perimeter, drill holes with a diameter of 8-10 cm more than the outer diameter of the pipe core cores, fill the wells to the top with concrete mixture and coaxially immerse the cores into them, Orienting longitudinal metal plates perpendicular to the direction of flexible connections, metal cables are fixed on the ends of piles opposite to the foundation plate and they are pulled over prepared ground the base with the formation of the grid, for the construction of the foundation slab, pour the concrete mixture into the installed formwork with a metal frame inside.

7. In the method according to claim 6, according to the invention, the wells are drilled at a distance of 3-4 m from the edge of the foundation plate.

8. In the method according to claim 6, according to the invention, immersion in the wells of the cores of the piles is carried out using a vibrator.

The implementation of flexible ties pre-stressed from metal cables, and the implementation of piles in the form of bored piles with cores of metal thick-walled pipes, to the outer cylindrical surface of each of which are two longitudinal metal plates rigidly attached on opposite sides, located in a plane passing through the longitudinal axis of the pipe and perpendicular to the direction of communication, makes it possible to cheapen the construction of the foundation, increase its reliability and bearing capacity by simplifying the foundation cient and to reduce its consumption of materials, increasing the area of bearing piles on the ground.

At the same time, piles can be placed at a distance of 3-4 m from the edge of the foundation plate.

In this case, metal plates can be made in the form of rectangles.

In this case, metal plates can be made in the form of rectangular trapezoid with a smaller base down.

The length of the metal plates may be 0.4-0.9 pipe lengths.

Preliminary preparation of cores for bored piles in the form of thick-walled metal pipes, to the outer cylindrical surface of each of which two longitudinal metal plates are rigidly attached on opposite sides, located in a plane passing through the longitudinal axis of the pipe, compaction of the soil base under the foundation plate, drilling at a distance from foundation plate along its perimeter of wells with a diameter of 8-10 cm larger than the outer diameter of the pipes of the cores of piles, filling wells to the top concrete the mixture and coaxially immersing the cores in them with the orientation of the longitudinal metal plates perpendicular to the direction of the flexible connections, securing the metal cables to the ends of the piles opposite the foundation plate, and tensioning them over the prepared soil base with the formation of a mesh, filling concrete formwork with a metal frame inside for concrete foundation slab constructions make it possible to reduce the cost of foundation construction, increase the reliability and bearing capacity of the foundation, ying using the claimed method by simplifying the foundation and reducing its consumption of materials, increasing the area of bearing piles in the soil.

In this case, wells can drill at a distance of 3-4 m from the edge of the foundation plate.

In this case, immersion in the wells of the cores of piles can be done using a vibro driver.

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

1. Flexible ties are made pre-stressed from metal cables, and piles are made in the form of bored piles with cores of thick metal thick-walled pipes, to the outer cylindrical surface of each of which two longitudinal metal plates are located on opposite sides, located in a plane passing through the longitudinal axis pipes and perpendicular to the direction of communication,

2. Piles are placed at a distance of 3-4 m from the edge of the foundation plate,

3. The metal plates are made in the form of rectangles,

4. The metal plates are made in the form of rectangular trapezoid with a smaller base down,

5. The length of the metal plates is 0.4-0.9 pipe length.

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

1. Cores in the form of thick-walled metal pipes are preliminarily prepared for bored piles, to the outer cylindrical surface of each of which two longitudinal metal plates are rigidly attached on opposite sides located in a plane passing through the longitudinal axis of the pipe, the soil base is compacted under the foundation plate, then wells with a diameter of 8-10 cm greater than the outer diameter of the pipes of the cores of the piles are drilled along the perimeter of the foundation plate along its perimeter; wells are filled to the top b the toned mixture and coaxially immersed in them the cores, orienting the longitudinal metal plates perpendicular to the direction of flexible connections, metal cables are fixed on the ends of piles opposite to the foundation plate, and they are pulled over a prepared soil base with the formation of a mesh, concrete construction is poured into the foundation plate formwork with a metal frame inside,

2. Wells are drilled at a distance of 3-4 m from the edge of the foundation plate,

3. Immersion in the wells of the cores of piles is carried out using a vibrator.

The applicant does not know the foundation and the method of its construction, possessing the above distinctive essential features, allowing to explicitly achieve the same technical result, therefore, the applicant believes that the claimed invention meets the criterion of "inventive step".

The inventive foundation and the method of its construction can be widely used in construction, in particular, in the construction of pile-plate foundations intended for the construction of buildings and structures, and methods of construction of pile-plate foundations, so they meet the criterion of "industrial applicability".

The inventive method of erecting a foundation is a set of operations that simplify and reduce the material consumption of the foundation, improve the adhesion of the surface of the piles to the surrounding soil, and consist in pre-preparing cores in the form of thick-walled metal pipes for bored piles, to the outer cylindrical surface of each of which are opposite the sides are rigidly attached to two longitudinal metal plates located in a plane passing through the longitudinal axis t loss, compact the soil base under the foundation plate, then, at a distance from the foundation plate along its perimeter, drill holes with a diameter of 8-10 cm more than the outer diameter of the pipe core cores, fill the wells to the top with concrete mix and coaxially immerse the cores in them, orienting the longitudinal metal plates perpendicular to the direction of flexible connections, metal cables are fixed at the ends of piles opposite to the foundation slab and stretched over a prepared soil base to form nets, for the construction of the foundation slab, pour the concrete mixture into the installed formwork with a metal frame inside, and the wells are drilled at a distance of 3-4 m from the edge of the foundation slab, and the cores of the piles are immersed in the wells using a vibrator.

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

FIG. 1. General view with a cut of the claimed foundation with connections above the ground.

FIG. 2. Top view of the foundation with connections above ground level.

FIG. 3. A fragment with a cut of the claimed foundation with links below ground level.

FIG. 4. Top view of a fragment of the claimed foundation with connections below the ground.

FIG. 5. General view of the bored pile with a cut.

FIG. 6. Possible configurations of the claimed foundation.

The foundation shown in the drawings (see Fig. 1-4) contains a foundation plate 1, bored piles 2, placed around the perimeter of the foundation plate 1 at a distance of 3 m from its edges and connected to the foundation plate 1 by flexible connections 3. Configuration of the foundation plate 1 may be circular in plan, square or otherwise (see FIG. 6).

Flexible connections 3 are made of metal cables with their prestressing. Piles 2 (see Fig. 5) have cores of metal thick-walled pipes 4, to the outer cylindrical surface of each of which two longitudinal metal plates 5 are rigidly attached on opposite sides, located in a plane passing through the longitudinal axis of the pipe 4 and perpendicular to the direction of connection 3 The metal plates 5 have the shape of a rectangular trapezoid with a smaller base down, their length is 0.8 pipe lengths. Depending on the density and bearing capacity of soils, the length of the metal plates 5 may be 0.4-0.9 pipe lengths.

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

Pre-prepare for the construction of bored piles 2 cores in the form of metal thick-walled pipes 4, to the outer cylindrical surface of each of which are welded on opposite sides two longitudinal metal plates 5 in the form of rectangular trapezoid with a smaller base down, located in a plane passing through the longitudinal axis of the pipe 4 .

Tamping or rolling with heavy rollers compacts the soil base under the foundation plate 1, performs a sand or gravel pillow 6, then around the perimeter of the foundation plate 1 at a distance of 3 m from its edges, in the plan, drill holes with a diameter of 8-10 cm more than the outer diameter of the pipes of 4 cores piles 2.

The wells are filled to the top with a fine-grained, high-strength movable concrete mixture and, using a vibro driver, they are coaxially immersed in them the cores of piles 2, orienting the longitudinal metal plates 5 perpendicular to the direction of flexible joints 3. With this immersion, the pipe cavity 4 is filled with concrete mixture, and an external protective concrete layer is formed around the pipes 4 4-5 cm thick, protecting pipes 4 from corrosion.

When the ties 3 are located above the ground level, the cores of the piles 2 are not immersed in the well for the entire length, leaving their ends protruding above the ground for fastening the metal cables of the ties 3. After the concrete mixture of piles 2 has the required strength, the metal cables of the bonds 3 are fixed to the ends of the piles 2, opposite relative to the foundation plate 1, longitudinally and transversely pulling them over the prepared pound base with the formation of the grid.

During the construction of the foundation plate 1, concrete mixture is poured into the formwork prepared for this with the metal frame installed in it, and the prestressed metal wire ties 3 are additional reinforcement for the plate 1.

After curing with concrete mixture, the foundation is ready for installation of the necessary structures on it.

When the foundation plate 1 and ties 3 are located below the ground level (see Fig. 3, 4), pits of the required depth are selected in the soil before the construction of piles 2 and the foundation plate 1, in the future, the foundation is erected as described above. To ensure revision and more favorable operating conditions of flexible connections 3, it is possible to place them in concrete trays 7 with covers 8.

The inventive foundation and the method of its construction in comparison with the prototype provide cheaper construction of the foundation, increasing the reliability and bearing capacity of the foundation, made using the proposed method, by simplifying the foundation and reducing its material consumption, increasing the area of support of piles on the ground.

Claims (8)

1. The foundation, consisting of a base plate and piles placed outside the base plate and connected to it by flexible ties located above or below the ground level, characterized in that the flexible ties are pre-stressed from metal cables, and the piles are made in the form of bored piles with cores of metal thick-walled pipes, to the outer cylindrical surface of each of which two longitudinal metal plates located in a plane are rigidly attached to opposite sides passing through the longitudinal axis of the pipe and perpendicular to the connection direction. 2. The foundation according to claim 1, characterized in that the piles are placed at a distance of 3-4 m from the edge of the foundation slab. 3. The foundation according to claim 1, characterized in that the metal plates are made in the form of rectangles. 4. The foundation according to claim 1, characterized in that the metal plates are made in the form of rectangular trapezoid with a smaller base down. 5. The foundation according to claim 1, characterized in that the length of the metal plates is 0.4-0.9 of the length of the pipe. 6. The method of construction of the foundation, including the construction of piles placed outside the base plate, the construction of the foundation plate and the connection of the piles with the foundation plate with flexible ties located above or below the ground level, characterized in that the cores in the form of thick-walled metal pipes are preliminarily prepared , to the outer cylindrical surface of each of which on the opposite sides two longitudinal metal plates located in the plane are rigidly attached, passing to it through the longitudinal axis of the pipe, compact the soil base under the foundation plate, then, at a distance from the foundation plate along its perimeter, drill holes with a diameter of 8-10 cm more than the outer diameter of the pipe core cores, fill the wells to the top with concrete mixture and coaxially immerse the cores into them, Orienting longitudinal metal plates perpendicular to the direction of flexible connections, metal cables are fixed on the ends of piles opposite to the foundation plate and they are pulled over prepared ground the base with the formation of the grid, for the construction of the foundation slab, pour the concrete mixture into the installed formwork with a metal frame inside. 7. The method of construction of the foundation according to claim 6, characterized in that the wells are drilled at a distance of 3-4 m from the edge of the foundation plate. 8. The method of construction of the foundation according to claim 6, characterized in that the immersion in the wells of the cores of the piles is carried out using a vibrator.

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