SU1719544A1 - Ground anchor - Google Patents

Abstract

This invention relates to the construction of ground anchors. The purpose of the invention is to increase the bearing capacity of the anchor and expand its use. The soil anchor has a composite trunk, made in the form of two straight 1 and reverse 2 prismatic wedges installed opposite each other. The angle between the working surfaces of each wedge is equal to the difference between the friction angles of the wedge, respectively, on the ground and on the wedge material. The lower end of the reverse wedge is made with a double-sided bevel 3. Weights 4 and 5 serve to submerge and extract the reverse and forward wedges to the required depth. ate jb

Description

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This invention relates to the construction and construction of ground anchors.

The purpose of the invention is to increase the carrying capacity of the anchor and expand its use area.

Figure 1 shows the proposed anchor, a longitudinal section; figure 2 - section aa in figure 1.

The anchor has a composite trunk, made in the form of two straight 1 and reverse 2 wedges installed towards each other. The wedge is made prismatic. The angle a between the working surfaces of each wedge is equal to the difference between the friction angles of the material of the wedge, respectively, over the ground and the material of the wedge, and the lower end of the wedge 2 is made with a double-sided bevel 3.

Sectional rigid rods 4 and 5 are used for immersing, jamming, extracting the components of the anchor, as well as for putting the anchor into operation.

Ground anchor works as follows.

By means of a driving device, for example, a standard installation of AVB-2M, a wedge 2, which has a two-way bevel 3 in the lower part, is immersed in the ground. To increase the bearing capacity of the anchor, the upper end of the reverse wedge should be located at a depth of not less than 1 m from the ground surface. In this connection, as the return wedge is driven into the ground to the required depth, a sectional extension of the rods 4 is performed. In the cavity formed after the reverse wedge driving, using the rods 5, the wedge 1 is lowered and the ground anchor is wedged down by a straight down wedge to ground to failure. After the wedging of the components, the anchor force is applied to the rods 4.

The removal of the soil anchor can be carried out in two ways, of which the second method is more preferable:

a) applying a significant pulling force to the rods 5;

b) driving a reverse wedge through the rods 4 at some depth (3-5 cm) down

and thus eliminating the wedging effect.

Further operations to dismantle the ground anchor are reversed with a winch.

The use of a ground anchor in the form of straight and reverse prismatic wedges allows a significant increase in the carrying capacity of the ground

an anchor due to the double compaction of the walls of the soil cavity, first when blocking the return wedge, and then when the components of the anchor are wedged.

Performing a reverse wedge with a double-sided bevel not only facilitates the process of driving, but also sets the correct vertical direction for the movement of the return wedge, and hence the entire ground anchor down, which allows you to do without drilling the leading wells and thus increase productivity. In addition, compaction of the walls of the cavity when moving down a bilateral bevel increases the bearing capacity of the soil anchor.

The prismatic shape of the wedges allows to completely eliminate the voids in the working space of the anchor body - the ground, which also increases the bearing capacity of the ground anchor by more fully utilizing the strength properties of the soil during its deep compaction.

Positive and highly technological is the ability of the ground anchor to self-sealing due to the targeted choice of the angle between the working surfaces of the wedge-shaped spacers. The self-sealing effect allows not only to maintain the value of the anchor force at a certain level, but also to increase it during the operation of the anchor. It should be taken into account that the very significant positive points achieved in this case are realized by simplifying the design of the ground anchor and consequently increasing its reliability compared to the prototype.

The proposed soil anchor does not require the construction of special leading workings, which expands the scope of its application with almost any soil conditions in which driving of longitudinal elements like driving piles is possible.

The closure of the entire technological process during the installation and dismantling of a ground anchor for only two technological cycles (driving and lifting and lifting operations) makes it possible to use most standard driving machines for working with a ground anchor, which facilitates the introduction of a ground anchor into practice.

F o r mula inventions

A ground anchor comprising a composite shaft recessed into the ground from forward and reverse wedges mounted with each other with rods, characterized in that, in order to increase the carrying capacity of the anchor and to expand

the area of its use, the wedge is prismatic, and the angle between the working surfaces of each wedge is equal to the difference between the friction angles of the material of the wedge, respectively, on the ground and on the wedge material, and the lower end of the reverse wedge is made with a double bevel.

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Claims (1)

Claim 55 Soil anchor, including a composite trunk buried in the soil from forward and reverse wedges with rods mounted towards each other, characterized in that, in order to increase the bearing capacity of the anchor and expand its area of use, the wedges are prismatic, with the angle between the working surfaces of each the wedge is equal to the difference between the friction angles of the wedge material, respectively, on the ground and on the wedge material, and the lower end of the inverse wedge is made with a two-sided bevel. ..... AA figure 2