SU1392203A1 - Method of producing cast-in-place anchor - Google Patents

Abstract

The invention relates to a method for making a brown injection anchor and allows an increase in the carrying capacity of the anchor while reducing the consumption of cement. A column consisting of a cuff injection pipe 2 and a steel rod 5 with a shell 6 of porous elastic material and bandages 7 put on it is lowered into the borehole 1. The elastic sheath is expanded, with the formation of broadening 9. zp f-ly, 1 ill. with SL - / with

Description

The invention relates to construction and can be used for fastening in the ground structures, which are leveled, shifting or tipping loads.

The purpose of the invention is to increase the vital ability of the anchor while reducing cement consumption. Yu

The drawing shows an anchor made by the proposed method.

The method is as follows.

A borehole 1 passes from the soil surface. A column consisting of an injection tube 2 with holes 3, closed by cuffs 4, and a steel rod 5 is lowered into the well 1. Before the column is immersed in 20 boreholes, a shell 6 of porous elastic material is put on the column and at the ends and along its length, bandages 7 are installed at a distance from each other so that the casing 25 between the upper and adjacent bandages forms a packer, which is filled with porous easily compressible material 8. After lowering the column into the cement is injected into the well through an injection tube 2, while the elastic sheath 6 expands in the sections between the bandages placed between the pressure and the lower end of the anchor with the formation of broadenings 9.

The elastic shell is expanded to a diameter determined from the ratio

1,5'l _K R _f where D is the shell diameter m;

F - design bearing capacity d, anchor, kN;

k is the length of the anchor root, m;

R ^ is the ultimate contact resistance of the soil to shear, kPa.

After that, the free part of the well is filled with easily compressible material.

After hardening the mortar and gaining the Strength Root with a cement stone, the anchor is tensioned and its upper end is fixed on the anchored ^ 5 structure.

The presence of an expanding and draining shell at the anchor allows drainage of excess moisture from the mortar and shortens the setting time of the mortar, cement strength and mobilization of shear resistance along the contact of the root with traction and soil, which ultimately increases the rate of anchor erection and load bearing capacity. Created along the length of the root of local broadening due to the use of broadening limiters, it increases the bearing capacity of the anchor over the ground due to the possibility of transmitting to the ground, in addition to tangential, also compressive stresses.

Using the method of arranging a boroinjection anchor with injecting a cement mortar for the root portion into an expanding drainage sheath eliminates uncontrolled leakage of the hole in the direction of fractures or weak and strongly filtering interlayers. In this case, it becomes possible to improve the quality of traction in the root cement stone, and it is more reliable to fix the root frames in the ground at a lower cement consumption.

Claims (2)

Claim 1. A method of performing a boroinjection anchor, including the formation of a well in the ground, immersion of a string in it, consisting of an injection sleeve tube and steel rod, and a packer fixed around the string and dividing it into the root and free parts, filling the packer, securing the working part in the well columns by injecting a cement mortar through an injection tube and filling a well in the area where the free part of the column is located in it, characterized in that, in order to increase the bearing capacity of the anchor at the same time To reduce the cement consumption, before immersing the column in the well around the column, a sheath of elastic drainage material is placed around the column and the packer, and bandages are installed at the ends of the sheath and along its length at a distance from each other with the formation of a packer between upper and adjacent bandages, moreover, filling the shell at the packer site and filling the well in the area of the free part of the column is made by porous easily compressible material, and the injection is solid developing solvent in a shell on the root portion of the column produced between - bandages. 2, The method of π. 1, characterized in that when 10 cement mortar is injected, the shell is expanded to a diameter determined from the formula ^{D =} ; 51; r _£ ”'where D is the diameter of the shell, m; F is the calculated bearing capacity of the anchor, kN; 1 _k - anchor root length, m; Rj, is the ultimate contact resistance of the soil to shear, kPa.