RU139125U1 - ANCHOR PILES - Google Patents

Abstract

1. A steel pile, including a barrel made of steel pipe, a tip, an anchor belt, characterized in that the petals are evenly cut along the entire length of the anchor belt in the pile shaft. 2. Pile according to claim 1, characterized in that the petals are bent outward in a direction that prevents pulling the piles.

Description

The utility model relates to construction, namely, anchor piles used to secure various structures such as masts, towers, racks, supports of pipelines and power lines, etc., from the effects of pulling loads in strong and frozen soils, including, and in areas of permafrost soils and is intended for economical, by reducing the consumption of metal, the creation of piles with increased bearing capacity under the action of pulling forces, mainly during construction on permafrost soils.

The load from the piles to the soil of the foundations is transmitted both by the lateral surface due to freezing with permafrost soils, and by the end, and the main part (80-95%) of the load of the piles is transferred to the soil of the foundations by the lateral surface (Yu.O. Targulyan “Installation of pile foundations in permafrost soils ". Leningrad, Stroyizdat, Leningrad Branch, 1978, p. 4).

An increase in the bearing capacity of piles and a decrease in the required laying depth of piles in permafrost soils can be achieved by increasing the area of its lateral surface, for example, by welded ribs in the form of transverse rings (AS Gerasimov, “Foundations of light buildings on permafrost soils.” Leningrad, Stroyizdat , Leningrad Branch, 1984, p. 118. Fig. 3.30). The arrangement of such transverse rings on metal piles is widely used in the practice of construction on permafrost soils in the USA in Alaska (Y. O. Targulyan, “Construction of pile foundations in permafrost soils.” Leningrad, Stroyizdat, Leningrad Branch, 1978, pp. 100-101) .

Such piles have a large bearing capacity, but are very laborious to manufacture and lead to irrational metal consumption in the manufacture of rings. To ensure high load-bearing capacity, ring piles should be located close to the surface of the well, which complicates the filling of the annulus with solutions or soil.

Stuffed piles are also known, having, as a rule, a cylindrical shape with a broadening of the lower end to increase their bearing capacity (Soil mechanics, foundations, and foundations. Edited by Ukhova SV Moscow, Publishing House ASV, 1994, pp. 288-289, fig. . 11.8).

The closest analogue of the proposed pile is a metal pile, which is a vertical metal trunk and vertical longitudinal elements of rolled metal rigidly fixed on it, dividing the space between the external surface of the barrel and the internal surface of the well into open vertical cavities, the longitudinal axis of which is parallel to the axis the barrel, characterized in that it is equipped with a horizontal support element made of metal passing into the well rolled products perpendicular to the axis of the barrel and rigidly attached to the lower end of the barrel (patent of the Russian Federation No. 70521, IPC E02D 5/28, published January 27, 2008).

The disadvantage of this pile is that its installation is possible only by drilling and borehole, and drilling is required, with a diameter much larger than the diameter of the pile, as well as a significant increase in the transverse dimensions of the pile shaft complicates the transportation of the pile to the place of work.

The objective of this utility model is to create an anchor pile having a sufficiently high bearing capacity for pulling loads while reducing the metal consumption for its manufacture and not requiring any special mechanisms other than conventional drilling rigs when it is immersed in strong and frozen soils.

The solution to this problem is achieved by the fact that in the trunk of a steel anchor pile made in the form of a pipe, petals are evenly cut along the entire length of the anchor belt. The petals are bent outward in a direction that prevents pulling out the piles. This design allows you to significantly increase the force holding off the pulling piles. The manufacture of piles does not require the use of special equipment and can be performed not only in the factory, but also in the field.

The essence of the utility model is illustrated by the drawing, which shows a steel pile with an anchor with petals.

An anchor pile contains a trunk 1 and petals 2 cut in the trunk 1; petals are bent outwardly uniformly along the entire length of the anchor belt, bent outward in a direction that prevents the pile from being pulled out.

The use of steel piles with an anchor with petals will increase the bearing capacity of the pulling loads while reducing the metal consumption for its manufacture and achieve easy immersion in the ground, without the use of special mechanisms.

Claims (2)

1. Steel pile, including the trunk of a steel pipe, a tip, an anchor belt, characterized in that the petals are cut uniformly along the length of the anchor belt in the pile shaft. 2. The pile according to claim 1, characterized in that the petals are bent outward in a direction that prevents pulling the piles.

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