SU1693256A1 - Rock-securing device - Google Patents

Abstract

The invention relates to the mining industry. The goal is to increase the fixing radius of rocks by increasing the reliability of sealing the hole during injection. The device for securing rocks includes an injection pipe (IT) 1, polymer concrete 2 for monolith IT 1 in the hole, an elastic cylindrical sealant (G) 3 and a support plate 4. Moreover, the GB is fitted on IT 1, the Support plate 4 is installed on the projecting end / "; -H.-C..U; l .ЈЈ S. Lgl-H “W .:: -d .-; .- f.f. “..;. -. -., v .. s -, -, o. . .-. ,:, - -, -. % "," V: J,. “-, ........“ “. Y ///////////// / Я7ЯУ / 7 ////////// Ј {J 7 ---- Figure 2 IT 1. The device is additionally equipped with a spacer element, made in a pair of conical sleeves 5 and b with a finished outer surface. The 8 ends of the GZ are parallel to its longitudinal axis, the annular slots 8. The total length of the latter is less than the length of G 3. The sleeves 5 and 6 are put on IT 1 with the ability to interact with their tapered vertices with the annular slots 8 in the ends of the GB. The sleeve 6 on the side of the protruding end IT 1 is connected to the base plate 4. Before installing the device into the hole, the latter is filled with a bulk component 9 and insert IT 1 with the sleeve 5, GZ and the base plate 4 with the sleeve 6 sequentially worn on it. IT 1 is hammered into the hole. At the same time, the sleeves 5 and 6 enter into 8 GZ annular slots and wedge it between the walls of the hole and IT 1. Then a pump is connected to IT 1 and the polymer bond component of polymer concrete is injected. The device is fixed in the hole, the polymer composition penetrates the rock. Due to the high injection pressure (15-17 MPa), an increase in the radius of the rocks around the hole is achieved. 2 Il. (L S o o W w ate about

Description

The invention relates to the mining industry, in particular to methods of securing fissured rock with the help of anchors during underground and open-pit mining.

The aim of the invention is to increase the fixing radius of rocks by increasing the reliability of sealing the hole during injection.

FIG. 1 shows a device for securing rocks prior to its installation in the hole, general view; in fig. 2 - the same, after installation,

The device for securing rocks consists of an injection pipe 1, polymer concrete 2 for its monolithing in the bore-hole of an elastic cylindrical sealant 3 fitted on the pipe 1, a spacer element and a support plate 4 installed on the projecting end of the pipe 1 sleeves 5 and 6 with a burr outer surface 7, At the ends of the sealant 3, annular slots 8 are made parallel to its longitudinal axis, the total length of which is less than the length of the sealant 3. The sleeves 5 and 6 are put on the injection pipe 1 s zmozhnostyu reacting their cone vertices with annular slots 8 at the ends of the sealant 3. The sleeve 6 projecting from the base end of the pipe 1 is connected to the base plate 4.

The installation of the device and the injection are carried out as follows.

A hole with a diameter of 36-42 mm is filled with a bulk component 9, and an injection pipe 1 is inserted with a conical sleeve 5, a sealant 3 and a support plate 4 with a conical sleeve 6 sequentially mounted on it. After that, blows (for example, a perforator) on the anvil 10 and clog the injection pipe 1. At the same time, part of the loose filler 9 fills the pipe, and the other part is displaced and fills the annulus in the hole. As the injection pipe 1 is clogged, the sealant 3 is dispersed by the conical sleeve 5, which fits into its annular slot 8, on the bulk filler 9, and the sleeve 6, which also enters the seal 3, 8, on the side. allow it to exit the sealant slot and ensure the preservation of the thrust. After that, the anvil 10 is removed, to inject

A pipe 1 is connected to the pump and a liquid polymer bonding component is injected under a pressure of 5-15 MPa. The bulk component 9 presses against the conical sleeve 5 under high pressure, which even more spreads the sealant 3 into the walls of the hole and presses it against the injection pipe 1. This ensures reliable sealing of the hole. The polymer bond component, seeping through the grains of sand of the bulk component 9, sticks them together throughout the hole, inside the pipe 1, and also penetrates into the microcracks around the hole. This gives the device an increased carrying capacity and

increases the adhesion radius around the bore-hole and gluing together the cracks of individual structural blocks of the array. When the optimum injection pressure is reached (15-17 MPa), the pump is turned off, the

pressure in the hydraulic system and the pump switch to another hole.

Claims (1)

Apparatus of the Invention A device for securing rocks, including an injection pipe, polymer concrete for embedding it in a hole, an elastic cylindrical sealant worn on the pipe and a support plate mounted on the projecting end of the pipe characterized in that, in order to increase the fixing radius of rocks by increasing the reliability of sealing the hole during injection, the device is additionally equipped with a spacer element made as a pair of conical sleeves with protrusions on the outer surface, and at the ends of the sealant, circular slots are made parallel to its longitudinal axis, total the depth of which is less than the length of the sealant, while the sleeves are put on the injection pipe with the ability to interact with their conical tops with annular cuts in the ends of the sealant, and the sleeve with side of the protruding end of the pipe base is connected to the base plate. 1