RU197033U1 - DRILLING SOIL ANCHOR - Google Patents

Abstract

The utility model relates to construction and relates to the implementation of soil anchors used for attaching various structures to the soil. The technical result consists in expanding the arsenal of technical means used as a driven soil anchor, which simplifies the technology of erection of the anchor, as well as expanding its scope. To achieve a technical result, a driven soil anchor is proposed, including a metal cylindrical shell (2) placed in a well (1) with anchor elements (3), a rod (4) for load transfer, and a hardening solution (6) for filling the well. What is new is that it additionally contains a punch (5) rigidly and coaxially mounted on the rod (4), having the shape of two cones united by a common base, and intended to form a well (1) when impacted on the rod (4) and for opening anchor elements (3) at the design depth during impact on a metal cylindrical shell (2), which is made with an outer diameter smaller than the diameter of the punch (5) forming the well, and is located coaxially on the rod (4) above the punch (5), and punch (5 ) is located between the open anchor elements (3) of the shell (2). 2 s.p. f-ly, 3 ill.

Description

The utility model relates to construction and relates to the implementation of soil anchors used for attaching various structures to the soil.

A soil anchor is known, including opposite rotary-sliding blades pivotally connected to a hollow cylindrical body, a rod with pushers fixed to it, made in the form of large bases of truncated cones adjacent to each other and serving to open and fix the rotary-retractable blades (copyright certificate USSR No. 1 557 259 A1, priority date: 12/04/1987, publication date: 04/15/1990, authors: Kobylyatsky E.K. et al., RU).

A disadvantage of the known analogue is its low bearing capacity in loose soils, due to the insufficient penetration of blades into the soil due to structural limitations of their sizes, as well as the difficulty in manufacturing due to the large number of elements.

Closest to the claimed technical solution is a driven soil anchor, including a thrust placed in the well, attached to the anchor lock, made in the form of a pipe with triangular shapes at the bottom of the well, between which there is a conical insert, and a hardening filling solution (RF Patent No. 164337 U1 , priority date: 01/26/2016, publication date: 08/27/2016, authors: Pinchuk P.S. et al., RU, prototype).

The disadvantage of the prototype is the increased labor costs due to the necessity of drilling the well, as well as the limited scope due to the inability to fix the liner in the working position with a horizontal location of the well.

A technical problem is the need to expand the arsenal of technical means to simplify the construction of a driven soil anchor and expand its scope.

To solve this technical problem, a driven soil anchor is proposed, which includes a metal cylindrical shell placed in the well with anchor elements, a rod for transferring the load, and a hardening solution for filling the well. What's new is that it additionally contains a piercer rigidly and coaxially mounted on the rod, having the shape of two cones, united by a common base, and designed to form a well during impact impact on the rod and to open anchor elements at the design depth when impact on a metal cylindrical shell , which is made with an outer diameter smaller than the diameter of the punch forming the well, and is located coaxially on the rod above the punch, and the punch is located between the races covered anchor elements of the shell.

According to a utility model, the upper cone of the punch is made with a concave surface to form arcuate anchor elements.

In FIG. 1 schematically shows a driven soil anchor during installation, a longitudinal section; in FIG. 2 - driven soil anchor after installation is completed, working position, longitudinal section; in FIG. 3 is a cross section AA in FIG. 2.

The driven soil anchor comprises a metal cylindrical shell 2 located in the well 1 with anchor elements 3, covering the rod 4 with a punch 5 rigidly fixed thereon and a hardening solution for filling the well 6. In this case, the punch 5 is made in the form of two cones, united by a common a base with a coaxial arrangement with respect to the rod 4. The upper cone of the punch 5 can be made with a concave surface to form more efficient arcuate anchor elements 3. Metal nical cylindrical shell 2 covering the rod 4 is formed with slots in the bottom (conventionally not shown) to form the anchoring elements 3, and with an outer diameter smaller than the diameter of the punch 5, the punch 5 is disposed between the anchoring elements 3 open shell 2.

Installation of a driven soil anchor is as follows. The rod 4 with a rigidly fixed punch 5 is immersed in the ground to the design depth by driving. In this case, a well 1 is formed in which a metal cylindrical shell 2 is placed with slots made in the lower part, stringing it onto the rod 4, as shown in FIG. 1. Next, using a percussion device (for example, a pneumatic punch) with a special nozzle for transmitting force, an impact is produced on the metal cylindrical shell 2, as a result of which the anchor elements 3 formed by longitudinal slots on the metal cylindrical shell 2 slide along the upper cone of the punch 5 and penetrate into the soil mass in the radial direction from the axis of the well 1, thereby assuming the operating position, as shown in FIG. 2. At the end of the installation, the percussion device with a special nozzle is removed and, to prevent soil soaking around the working part of the anchor, the remaining space of the well is completely or partially filled with a hardening filling solution 6.

Thus, the achieved technical result consists in expanding the arsenal of technical means used as a driven soil anchor, which simplifies the construction of the anchor, as well as expanding its scope, including horizontal or other location of the well.

Claims (3)

1. Hammering soil anchor containing a metal cylindrical shell placed in the well with anchor elements, a rod for transferring load and a hardening solution for filling the well, characterized in that it further comprises a piercer rigidly and coaxially mounted on the rod, having the shape of two cones, united by a common base , and intended for well formation during impact on the rod and for opening anchor elements at design depth when impact on metal cylin -parameter envelope which is formed with an outer diameter smaller than the diameter of the punch forming the hole and is arranged coaxially on the rod of the punch, wherein the punch is located between the disclosed anchor shell elements. 2. Hammer soil anchor according to claim 1, characterized in that the upper cone of the punch is made with a concave surface. 3. The driven soil anchor according to claim 2, characterized in that it contains arched anchor elements.

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