RU184062U1 - Pile Driving - Google Patents

Abstract

The utility model relates to construction and is used as a foundation base for metal or wooden pillars-racks of various sections. The solution to the technical problem in a pile pile containing made of sheet steel, interconnected and vertically elongated upper and lower parts, the upper part being configured to install a column having a rectangular cross section and has a rectangular cross section, and the lower the part has a cross-shaped cross section, the lower part is made in the form of four flat blades and has a taper to the bottom, formed by bevels on the blades, is achieved by the fact that the angle of the bevel of each the mouth relative to the vertical axis lies in the range from 2 to 6 degrees, the sharpening is blunted with the formation of a horizontal section, the blades of the lower part are formed by the shelves of two angular profiles elongated in the vertical direction, the upper part is deepened into the lower one with the formation of contact not only in the horizontal section, but also along verticals. The size of the horizontal section by which the blunting of the point is carried out can be 30 ± 2 mm. The thickness of the steel of which the lower part is made may lie in the range of 1.5-6 mm. The cross section of the upper part may be square with a side of the square equal to 100 ± 2 mm. The cross section of the upper part may be square with a side of a square equal to 80 ± 2 mm. The cross section of the upper part may be square with a side of a square equal to 60 ± 2 mm. The cross section of the upper part may be square with a side of a square equal to 50 ± 2 mm. The cross section of the upper part may be square with a side of a square equal to 40 ± 2 mm. The rectangular cross section of the upper part may have side sizes of 40 ± 2 mm and 60 ± 2 mm. 4 ill.

Description

The utility model relates to construction and is used as a foundation base for metal or wooden pillars-racks of various sections.

A known analogue is a metal pile with vertical blades - patent for a utility model of the Russian Federation No. 52412, November 2, 2015, consisting of a hollow tubular shaft, characterized in that it has vertical blades welded along the pile shaft, the lower edge of the blade being beveled, and the upper edge of the blade is 2-3 m below the head of the pile.

The disadvantage of the analogue is the low penetration ability of the piles, which reduces the efficiency of its installation in frozen soil, which is located for a long time at temperatures below zero Celsius. Low penetrating ability is characterized, firstly, by increased frontal drag of the pile due to the angle of inclination of the blades close to 90 degrees, and secondly, by low structural strength due to the transfer of force to the blades through the welded joint.

Known analogue - pile driving for a pillar - US patent No. US20080104899, 05/08/2008, adopted as a prototype, containing made of sheet steel, interconnected and vertically elongated upper and lower parts, the upper part being made with the possibility of installation it has a square column and has a square cross section, and the lower part has a cross-shaped cross section, the intersecting lines of which coincide with the diagonals of the square section of the upper part, the lower part is made in the form of three flat blades and has a taper to the bottom, formed by bevels on the blades.

The disadvantage of the prototype is the low penetration ability of the piles, which reduces the efficiency of its installation in frozen soil, which is located for a long time at temperatures below zero Celsius. Low penetrating ability is characterized, firstly, by an increased frontal resistance of the pile due to the large angle of inclination of the blades close to 90 degrees, and secondly, by the low strength of the connection of the upper and lower parts of the pile.

The technical task of the utility model is to provide the possibility of using piles in the extreme north, characterized by the need to install it in frozen ground, which has been located for a long time at temperatures below zero Celsius.

The technical result of the proposed utility model is to provide the ability to install piles in a frozen pound.

The solution to the technical problem in a pile pile for installation in a frozen pound containing made of sheet steel, interconnected and vertically elongated upper and lower parts, the upper part being configured to install a column having a rectangular cross section and has a rectangular cross section, and the lower part has a cross-shaped cross section, the lower part is made in the form of four. flat blades and has a taper to the bottom, formed by bevels on the blades, is achieved by the fact that the bevel angle of each blade relative to the vertical axis is in the range from 2 to 6 degrees, the taper is blunted with the formation of a horizontal section, the blades of the lower part are formed by shelves of two vertically elongated angular profiles, the upper part is deepened into the lower one with the formation of contact not only in the horizontal section, but also vertically, the size of the horizontal section by which the blunting was carried out Ia is 30 ± 2 mm, the thickness of steel, which is formed lower part is in the range of 1.5-6 mm.

The cross section of the upper part may be square with a side of the square equal to 100 ± 2 mm.

The cross section of the upper part may be square with a side of a square equal to 80 ± 2 mm.

The cross section of the upper part may be square with a square side of 60 ± 2 mm.

The cross section of the upper part may be square with a square side of 50 ± 2 mm.

The cross section of the upper part may be square with a square side of 40 ± 2 mm.

The rectangular cross section of the upper part may have side sizes of 40 ± 2 mm and 60 ± 2 mm.

In FIG. 1 shows a side view of a driven pile for installation in frozen ground.

In FIG. 2 shows a top view of a driven pile for installation in frozen ground.

In FIG. 3 shows a cross section of the bottom of a pile pile for installation in frozen ground.

In FIG. 4 is a view normal to the surface of a pile driving blade for installation in frozen ground.

Pile driven for installation in frozen ground, shown in Figures 1-4 contains made of sheet steel, interconnected and vertically elongated upper 1 and lower 2 parts, as shown in Figure 1, and the upper part 1 is made with the possibility of installation in of a column having a rectangular cross section and has a rectangular cross section 3, as shown in Figure 2, and the lower part 2 has a cross-shaped cross section 4, as shown in Figure 3, the intersecting lines 5 of which coincide with diagonals 6 of a rectangle 3 of the cross section of the upper part 1, the lower part 2 is made in the form of intersecting blades 7 and has a point 8 to the bottom, as shown in Figure 4, formed by bevels 9 on the blades, the angle α of the bevel of each blade relative to the vertical axis 10 lies in the range from 2 to 6 degrees, the pointed 8 is blunted with the formation of a horizontal section 11 of size Г = 30 mm, the blades 7 of the lower part 2 are formed by the shelves 12 (Fig. 3) of two angular profiles elongated in the vertical direction 13, the upper part 1 is recessed into the lower 2 with the formation to ntakta not only in the horizontal section 14, but also vertically at the portion A (Fig. one).

Consider an example of a specific implementation of a driven pile for installation in frozen ground. The upper 1 and lower 2 parts are made of sheet steel 3 mm thick. In the manufacture of the lower part 2 of steel with a thickness of less than 1.5 mm, its rigidity will be insufficient to ensure the installation of piles in frozen soil. The blades in this case are bent and pile installation is not possible. In the manufacture of the lower part of steel more than 6 mm, the construction process is much more complicated - it becomes impossible to provide the required bending radius R of the angular profile 13. Due to the increased radius R, the drag resistance of the pile increases when installed in the ground. The upper part 1 is made of a rectangle by bending it in three places and welding to form a closed profile with a square section 3. The dimensions of the section are 60 × 60 mm. The ability to achieve the specified technical result was tested with a cross section of the upper part with a square side equal to 100 mm, 80 mm, 60 mm, 50 mm, 40 mm, as well as with a rectangular section with side sizes of 40 mm and 60 mm. The lower part 2 consists of two corner profiles 13. Each of the corner profiles 13 is made by preliminary cutting the steel sheet by laser cutting, and then bending the resulting workpiece along the bend line 15 (Fig. 1) with the formation of two shelves 12 located at an angle of 90 degrees . This design provides the necessary rigidity of the lower part, and also eliminates the stress concentrators that would have occurred in the manufacture of the lower part by connecting two flat sheets of spike into the groove. The presence of a long groove along the length of the sheet would weaken the structure. The bevels 9 and the groove 16 for installing the upper part 1 are obtained at the stage of cutting a sheet of steel. The pointed 8 to the bottom is formed by bevels 9 on the blades, the angle α of the bevel of each blade relative to the vertical axis 10 is 3 degrees. When the angle α is less than 2 degrees, the ratio of the height of the lower part to the size of the shelves 13 is such that the lower part 2 has insufficient rigidity, which makes it impossible to install piles in frozen ground with a selected range of steel thicknesses, with such dimensions, if installed, the lower part loses stability and deformed. When the angle α is more than 6 degrees, the installation of piles is difficult due to an increase in drag during installation. Point 8 is blunted with the formation of a horizontal section 11 of size Г = 30 mm to prevent deformation of the point during installation. In the presence of a sharp end in the case of installation in frozen soil, the end bends and, as a result, a significant increase in drag, which makes it impossible to install piles. With a size of G = 30 mm, the achievement of the specified technical result is ensured. With a smaller size, deformation of the taper is possible, as with an absolutely sharp end, with a larger one, the resistance increases when the pile is installed in the ground. Corner profiles 13 are joined by welding. In the process of assembling the upper 1 and lower 2 parts, the upper part 1 is installed in the groove 16 of the lower part 2 and a weld is applied at the contact points. Due to the deepening of the upper part 1 into the lower 2 with the formation of vertical contact in section D, an increase in the length of the weld is provided, which contributes to a reliable connection of parts 1 and 2 and the stability of the profile of the upper part relative to the lower part. This is necessary, since when a pile is installed in frozen ground, shock loads arise, which often deviate from the vertical axis 10 and in the absence of the described features of the device, the connection of the upper and lower parts along the cross section 14 is destroyed, as well as the deformation of the upper part 1.

Consider an example of operating a driven pile for installation in frozen ground. Piles are used to install fence posts in them. Piles are delivered to the installation site along with wooden poles. Mark the area with the designation of the installation sites of piles. The pile pile is placed vertically resting in the ground with a horizontal section 11, the force of the pneumatic driven tool is applied to the upper part and the pile pile is immersed in the soil with shock pulses. In other examples, instead of a pneumatic driven tool, an electric driven tool and a sledgehammer are used. Due to the presence of the horizontal section 11, the piling of the pile is resistant to bending and its bending is excluded at the initial moment of driving. Due to the selected range of angle α of the bevels 9, a low frontal resistance of the soil to the installation of the driven pile is ensured.

The technical result of the utility model is achieved due to the fact that - the angle of inclination of each blade relative to the vertical axis lies in the range from 2 to 6 degrees, which ensures low frontal resistance of the soil to the installation of the pile, which is an important factor for the possibility of installing a driven pile in frozen soil on the installed pile is not affected by winter heaving of soil (frozen) due to the angle of inclination,

- the sharpening is blunted with the formation of a horizontal section of 30 mm in size, excluding the sharpness of the sharpening when installing the pile in a frozen ground,

- the blades of the lower part are formed by the shelves of two angular profiles elongated in a vertical direction, providing the required rigidity of the lower part of the pile and excluding stress concentrators, which would reduce the strength of the pile necessary to install the pile into frozen ground,

- the upper part is deepened into the lower one with the formation of contact not only in the horizontal section, but also vertically, providing the stability of the upper part necessary for the installation of a pile driven into frozen ground and the reliability of the connection of the upper and lower parts,

- the thickness of the steel from which the lower part is made lies in the range of 1.5-6 mm, which eliminates the deformation of the driven pile when installed in frozen soil, which occurs when leaving the range in a smaller direction and allows the blades to be made at two corners, which is impossible when leaving the range up.

Additional benefits of a pile pile are

- the possibility of installation within one minute,

- a special tool is not required to install a pile, it is possible to use the simplest tool - a sledge hammer, - a pile easily cuts through the roots of trees when installing, providing the possibility of installing piles in forests and parks, due to the fact that the pile easily cuts through the roots of trees,

- the possibility of self-assembly is provided.

Claims (7)

1. Pile driven for installation in frozen ground, containing made of sheet steel, interconnected and vertically elongated upper and lower parts, the upper part being configured to install a column having a rectangular cross section and has a rectangular cross section and the lower part has a cross-shaped cross section, the lower part is made in the form of four flat blades and has a pointed to the bottom, formed by bevels on the blades, characterized in that the bevel angle The bottom of the blade relative to the vertical axis lies in the range from 2 to 6 degrees, the sharpening is blunted with the formation of a horizontal section, the bottom of the blade is formed by the shelves of two angular profiles elongated in the vertical direction, the top part is deepened into the bottom with the formation of contact not only in the horizontal section, but also vertically, the size of the horizontal section by which blunting of the taper is carried out is 30 ± 2 mm, the thickness of the steel of which the lower part is made lies in the range of 1.5-6 mm. 2. Hammer pile according to claim 1, characterized in that the cross section of the upper part is square with a side of a square equal to 100 ± 2 mm. 3. A driven pile according to claim 1, characterized in that the cross section of the upper part is square with a side of a square equal to 80 ± 2 mm. 4. Driving pile according to claim 1, characterized in that the cross section of the upper part is square with a side of a square equal to 60 ± 2 mm. 5. A driven pile according to claim 1, characterized in that the cross section of the upper part is square with a side of a square equal to 50 ± 2 mm. 6. Driving pile according to claim 1, characterized in that the cross section of the upper part is square with a side of a square equal to 40 ± 2 mm. 7. A driven pile according to claim 1, characterized in that the rectangular cross section of the upper part has side sizes of 40 ± 2 mm and 60 ± 2 mm.

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