RU151445U1 - LOST TIP FOR CONSTRUCTION OF DRILLING PILES - Google Patents

Abstract

1. Lost tip for the construction of bored piles, including a round base, equipped with a means of fixing the tip on the casing, made with the possibility of disconnecting from the pipe when it is raised from the well; and rigidly attached to the bottom of the base of the body of the tip with a decreasing cross-sectional area from the base to the top of the tip, made of composite concrete material, characterized in that the base and means for fixing the tip on the pipe are made of metal, the base has a flat shape, and the means fixation is made of at least one pair of diametrically fixed on the basis of the elements; the body of the tip is made in the form of a pyramid, and fiber concrete is used as a composite concrete material for its manufacture. 2. Lost tip according to claim 1, characterized in that the fiber concrete is made on the basis of metal fibers. 3. Lost tip according to claim 1, characterized in that the element of the means for fixing the tip on the pipe is made with a T-shaped radial section. Lost tip according to claim 1, characterized in that the tip body is fixed to the base by means of at least one reinforcing rod. Lost tip according to claim 4, characterized in that the reinforcing rods are cantilevered on the base of the tip.

Description

The utility model relates to the field of construction, in particular to technical means for the construction of a pile foundation constructed from bored piles using Fundex technology (Fundeke).

Known steel lost tip, as part of a device for creating a bored pile [1], consisting of a cylindrical part, through which the tip is installed on the casing, and a hollow cone-shaped part, which immerses the pipe in the ground. When raising the casing, the tip is disconnected from the pipe and remains in the bottom of the well, filled with cement-sand mortar entering the well and serves as the foundation for the pile.

The disadvantage of this technical solution is the high metal consumption of the product, and, as a consequence, its high cost.

Also known is the lost tip for the manufacture of printed piles [2], consisting of rigidly interconnected conical and cylindrical rollers.

The disadvantage of this technical solution is that in the process of immersion of the drill rod in the soil on the lost tip, it is necessary to overcome significant ground resistance due to the not streamlined shape of the tip.

Known lost tip for the construction of bored piles [3], made of two parts in the form of a conical body, the upper part is a truncated cone, and the lower part is formed cantilevered from the side of the smaller base along its axis of symmetry with a support rod with cultivators in the form of a radially installed plates.

The disadvantage of this technical solution is the lack of structural strength of the tip.

Closest to the technical nature of the claimed utility model is a lost reinforced concrete tip [4], including a cylindrical base, which ensures the fixation of the tip on the pipe, and the body of the tip in the form of a cone.

The disadvantage of this technical solution is its low strength.

The objective of the utility model is to create a lost tip with low material consumption while maintaining high strength properties.

The problem is solved due to the fact that in the lost tip for the construction of bored piles, including a round base equipped with a means for fixing the tip on the casing, made with the possibility of disconnecting from the pipe when it is lifted from the well, and the body of the tip rigidly attached to the bottom of the base with decreasing cross-sectional area from the base to the tip tip, made of composite concrete material, according to a utility model, the base and tip fixing means a pipe made of metal, wherein the base has a planar shape, and fixing means is made of at least one pair of diametrically fixed to a base of the battery; the tip body is made in the form of a pyramid, and fiber concrete is used as a composite concrete material for its manufacture.

Preferably, fiber-reinforced concrete based on metal fibers is used.

In addition, the element of means for fixing the tip on the pipe can be made with a T-shaped radial section.

In addition, the body of the tip can be fixed to the base by means of at least one reinforcing rod.

Reinforcing rods can be fixed to the base of the tip cantilever.

The technical essence of the utility model consists in the fact that during the progressive movement of the casing with the pyramidal lost tip, intensive loosening of the soil is carried out, which allows, ultimately, to destroy the compacted soil in front of the tip, and, therefore, reduce drag and facilitate the introduction of the casing into the soil. In addition, the manufacture of the base of the tip from a flat metal billet, as well as the use of fiber concrete as the material of the body of the tip, allows to reduce the material consumption of the product, while maintaining its high strength properties.

In FIG. 1 shows a vertical section of a lost pyramidal tip, with a portion of the casing on which the tip is attached; in FIG. 2 is a section Α-A in FIG. one; in Fig.3 - section bB in Fig. one; in FIG. 4 is a section through a portion of the casing pipe in the ground with a lug installed on it; in FIG. 5 is a sectional view of a portion of an extracted casing pipe with a tip left in the bottom of the well; in FIG. 6 is a view B in FIG. 5.

In the technological process of construction of a bored pile, a casing 1 is used, on the immersed end of which a lost tip 2 is installed. The latter consists of two parts, the upper of which 3 is a round flat metal base with a diameter comparable with the diameter of the casing, equipped with a means for fixing the tip 4 in a pipe and made of one pair of diametrically fixed on the basis of elements with a T-shaped radial section (Fig. 3). The second part of the tip is a pyramidal body 5 (Fig. 2) made of fiber-reinforced concrete based on metal fibers and reinforced with longitudinal rods 6, through which it is fixed on the metal base 3 of tip 2, while one of the rods 6 is located along the axis of symmetry of the tip body and other rods are fixed on the base 3 at an equidistant distance from the axis of symmetry of the tip body and as cantilever as the central rod. The rods 6 can be fixed at any angle to the base 3 and in any other spatial position. The radial part 4.1 (the longest) of the T-clamp 4 is welded cantilever to the upper surface of the base of the tip. Before drilling the soil with this part, the retainer 4 engages with the pipe 1 by means of a groove 7 (Fig. 6), respectively arranged on the casing 1. Part 4.2 of the retainer serves to limit the radial movement of the tip 2 relative to the pipe 1, thereby fixing the tip in the pipe and restricting the rotational movement of the tip inside the pipe 1.

The proposed lost tip works as follows.

The casing pipe 1 with the tip 2 fixed to it by means of the fixing elements 4 is installed on the axis of the future bored pile and the longitudinal axial load is reported. The tip 2, connected with the pipe 1, is embedded in the soil and, making a translational movement with its lower part, destroys the soil, loosening it. As you move the lost tip 2 is fully embedded in the soil, loosening the latter with the faces of the pyramidal body 5, the loosened soil pushes in the radial direction and compacts it, creating residual stresses. It is known that loosened soil is more amenable to compaction. Upon reaching the design mark for the depth of immersion of the future bored pile, the casing 1, using translational motion in the opposite direction, is removed, but not earlier than it will be filled with a reinforcing cage or without it and concrete mass. The tip 2, disconnected under the weight of the concrete mass, remains in the bottom of the well, formed by lowering the pipe, and serves as the basis for the pile.

The main advantage of using fiber-reinforced concrete is that when it is used, it is not necessary to use special reinforcing parts in construction work, such as reinforcing bars or mesh. Accordingly, several other consequences follow from this advantage, namely, that production costs are significantly reduced, and secondly, the time interval for work is shortened, since there is no need to carry out additional work on laying reinforcement in concrete.

Information sources:

1. GB 1352064 (A), IPC B02D 5/38, E02D 5/46, publ. 05/04/15.

2. RU 2278212, IPC B02D 5/56, B02D 5/66, publ. 2006.06.20.

3. RU 2353729, IPC B02D 5/38, publ. 2007.04.

4. RU 2139974, IPC E02D 5/34, publ. 1999.10.20.

Claims (5)

1. Lost tip for the construction of bored piles, including a round base, equipped with a means of fixing the tip on the casing, made with the possibility of disconnecting from the pipe when it is raised from the well; and rigidly attached to the bottom of the base of the body of the tip with a decreasing cross-sectional area from the base to the top of the tip, made of composite concrete material, characterized in that the base and means for fixing the tip on the pipe are made of metal, the base has a flat shape, and the means fixation is made of at least one pair of diametrically fixed on the basis of the elements; the tip body is made in the form of a pyramid, and fiber concrete is used as a composite concrete material for its manufacture. 2. Lost tip according to claim 1, characterized in that the fiber concrete is made on the basis of metal fibers. 3. Lost tip according to claim 1, characterized in that the element of the means for fixing the tip on the pipe is made with a T-shaped radial section. 4. Lost tip according to claim 1, characterized in that the tip body is fixed to the base by means of at least one reinforcing rod. 5. Lost tip according to claim 4, characterized in that the reinforcing rods are cantilevered on the base of the tip.

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