RU89539U1 - PILING (OPTIONS) - Google Patents

Abstract

1. A pile, which is an elongated body of revolution such as a pipe of constant or variable cross-section, the cavity of which is filled with filler, characterized in that the filler is a foam filler such as foam concrete, or expanded polystyrene, or expanded polystyrene foam, or expanded polystyrene foam, or expanded polystyrene, or foam, or solid filler from foam materials, while the cavity of the pipe is filled with filler along the entire height of the pile. ! 2. A pile, which is an elongated body of revolution such as a pipe of constant or variable cross-section, the cavity of which is filled with filler, characterized in that the filler is a foam filler such as foam concrete, or expanded polystyrene, or expanded polystyrene foam, or expanded polystyrene foam, or expanded polystyrene, or foam, or solid filler made of foam materials, while the cavity of the pipe is filled with filler, at least one part of the height of the piles. ! 3. The pile according to claim 2, characterized in that the pipe cavity is filled with filler from the side of one end of the pipe and from the other end of the pipe to a total depth less than the height of the pipe. ! 4. The pile according to claim 2, characterized in that the individual parts of the foam filler are located in the pipe through a distance from each other.

Description

The utility model relates to the field of industrial and civil construction and can be used both in the construction of new and in the strengthening of the foundations of previously constructed buildings and structures, as well as in the construction of supports accepting alternating loads, or in the construction of sheet piling of a foundation pit made of pipes.

Known screw pile, consisting of a hollow shaft with a screw thread along its entire length, with a tapered run at the tip, equipped with a nut located and fixed on the soil surface, through which a pile shaft is passed (SU No. 727750, publ. 04/15/1980).

During the construction of buildings and structures in permafrost, piles made of steel pipes, including screw ones, are widely used as foundations. To ensure the bearing capacity of piles, it is necessary to prevent erosion of permafrost. To solve this problem, the cavities of the pile foundations according to the current regulatory documents must be filled after installation with cement mortars. Given the specifics of construction in permafrost conditions, when construction is carried out mostly in the winter period at negative air temperatures, it is problematic to ensure the implementation of this type of work, as the work is associated with wet construction processes. It is possible to fill the cavity of piles from steel pipes with cement mortars in the factory and then deliver them to the object, however, the weight of the piles significantly increases, which makes them more expensive to transport and install.

For example, a pile-sheath of an intermediate support of a bridge of a standing type adopted as a prototype is known, containing a metal sheath in the form of a pipe filled with concrete with a reinforcing cage made of longitudinal reinforcement rods located along the contour of the sheath and spiral reinforcement entwined around them (RU No. 63367, E01D 19/14, publ. 05.27.2007). This decision was made as a prototype for the declared objects.

This utility model is aimed at solving the technical problem of filling the cavity with pile fillers, which are of light weight, but at the same time providing the ability to perform this operation both in the factory and at low temperatures.

The technical result achieved in this case is to increase operational performance, durability and weight reduction.

The specified technical result is achieved in that in a pile, which is an elongated body of revolution such as a pipe of constant or variable cross section, the cavity of which is filled with filler, foam filler is used as filler, such as foam concrete or expanded polystyrene, or foam, or solid filler made of foam materials while the cavity of the pipe is filled with filler, at least one part of the height of the piles.

In this case, the pipe cavity can be filled with filler from the side of one end of the pipe and from the other end of the pipe to a total depth less than the height of the pipe.

In addition, the individual parts of the foam filler are located in the pipe through a distance from each other.

These signs are essential and sufficient to obtain the desired technical result.

The utility model is illustrated by drawings, where

Figure 1 - pile with foam filler along the entire height of the barrel;

figure 2 - pile with foam filler at a portion of the height of the barrel.

According to this utility model, the construction of piles (Figs. 1, 2) used for the construction of foundations in the ground is considered. The pile consists of a hollow pipe, which is a hollow cylindrical barrel 1, on the outer surface of which a screw winding 2 can be made (on the outer side surface - the side wall) along its entire length or part of its length and with or without a tool 3 at one end him (not shown) a rotation drive (not shown) at the other end.

During the construction of buildings and structures in permafrost, piles made of steel pipes, including screw ones, are used as foundations. To ensure the bearing capacity of piles, it is necessary to prevent erosion of permafrost. To solve this problem, the cavities of the pile foundations according to the current regulatory documents should be filled after their installation with filler, which excludes the ingress of water into the cavity of the pile and reduces heat transfer to the frozen ground.

In order to solve the problem, it is proposed to completely fill the cavity of piles made of steel pipes, including screw pipes, along their entire height with any foam fillers 5 (Fig. 1), at least on one part of the height of the pile, for example, such as foam concrete, polystyrene foam , expanded polystyrene foam, expanded polystyrene concrete, polyurethane foam, foam or any other similar fillers. Since the internal cavity of the pile is not subject to any mechanical stress, no requirements for the strength of the filler material are imposed. The only requirement for the filler material is low thermal conductivity, low water absorption and specific gravity, which provide foams. Filling can be performed in separate parts of the "traffic jams", (figure 2), located after some distance from each other, because this filling method also dramatically reduces convective heat transfer.

The pipe cavity can be filled with filler from the side of one end of the pipe and from the side of the other end of the pipe to a total depth less than the height of the pipe.

Given that all construction foam materials are non-hygroscopic, there is no need to seal such piles with plugs on both the lower and upper sides.

The present utility model is industrially applicable. The effectiveness of the use of the foam-filled pipe was confirmed by the construction work carried out to form the pile foundation and the construction of the enclosing and enclosing bearing structures of the foundation pits in the northern regions of the country.

Claims (4)

1. A pile, which is an elongated body of revolution such as a pipe of constant or variable cross-section, the cavity of which is filled with filler, characterized in that the filler is a foam filler such as foam concrete, or expanded polystyrene, or expanded polystyrene foam, or expanded polystyrene foam, or expanded polystyrene, or foam, or solid filler from foam materials, while the cavity of the pipe is filled with filler along the entire height of the pile. 2. A pile, which is an elongated body of revolution such as a pipe of constant or variable cross-section, the cavity of which is filled with filler, characterized in that the filler is a foam filler such as foam concrete, or expanded polystyrene, or expanded polystyrene foam, or expanded polystyrene foam, or expanded polystyrene, or foam, or solid filler made of foam materials, while the cavity of the pipe is filled with filler, at least one part of the height of the piles. 3. The pile according to claim 2, characterized in that the pipe cavity is filled with filler from the side of one end of the pipe and from the other end of the pipe to a total depth less than the height of the pipe. 4. The pile according to claim 2, characterized in that the individual parts of the foam filler are located in the pipe through a distance from each other.