SU1180519A1 - Method of relieving and strengthening a rock body - Google Patents

Abstract

1. METHOD OF UNLOADING AND STRENGTHENING THE MASSIF OF MOUNTAIN BREEDS, including the installation of support-formwork, drilling of radial discharge holes, blasting in them camouflage charges, installation of tubular anchors and injectors in the holes, and injection of hardening mortar into unloaded rocks differing in those In order to reduce the labor intensity and improve the quality of work, the tubular anchors are installed in radial relief holes before saping the camouflage charges and are tensioned to compress the marginal zone of the rocks, then fill ribbed anchors with loose material, which, after detonating camouflage charges, are removed. 2. A method according to claim 1, characterized in that the hardening is carried out in two stages: first, at a higher injection pressure in the depth of the rocks outside the marginal zone, and then strengthen the marginal zone of the rocks, first loosening the tension of the tubular anchors, and Injectors and tubular anchors are removed for reuse.

Description

The invention relates to mining, in particular to methods of preventing occurrence of rock pressure and ensuring the stability of mining operations, and can be used in underground construction. The purpose of the invention is to reduce the labor consumption and improve the quality of work. The drawing shows the production with an array before loading and after the injection of the hardening solution. The method is carried out as follows. Radial bore-holes 1 are drilled in a mine workout, friction anchors 2 are installed in them and tensioned, compressing the rock and creating a marginal zone 3 of the rock mass from 0.5 to 1.0 m. A hole is drilled with a single cartridge 4 BB weighing from 0.2 ro 0.4 kg, and then to create a hole in the hole 1, the hole 1 is filled with sand (sand, charcoal and t, n,). Ascending holes are filled with bulk material, for example, in paper cartridges. The blasting of charges 4 under the protection of mobile support-formwork 5, which is installed in the factory, left a gap (approximately 0.05 m) between it and the breed contour, taking into account the expected expansion of the rocks during a camouflage explosion. The explosion creates a zone 6 of rocks unloaded from stresses, in which a system of radial and tangential cracks is formed around the camouflage cavity 7, which interlock with cracks from explosion of adjacent charges 4. After actively unloading the rocks, they remove from the hole 1 by blowing, for example, by blowing compressed air into the pipe anchor 2 set-. The injector 8 is pushed in and the unloaded rocks are strengthened, pumped by means of the mortar pump 9 through the pipeline 10, the strengthening solution, the boundary zone 3 is strengthened, the tension in the tubular anchor 2 is relaxed and the compression of the rock is removed. It is advisable to harden the rocks through the injectors 8 according to the bottom injection scheme, fill the zone 11 of the strengthened rocks from the bottom upwards. After the injection is completed, the injectors 8 and the tubular anchors 2 are removed for reuse, and if necessary, the permanent anchors are installed. anchors 2 allows you to create a compression of the marginal zone 3 rocks and thereby eliminate the spalling phenomena and the destruction of the contour of production when camouflet blasting charges 4, This greatly increases the safety The ability to conduct blasting operations to actively relieve rocks from stresses in zone 6 reduces shsh completely eliminates shock loads on the mobile formwork 5, which makes it possible to drastically simplify and simplify its design, reduce its cost, and reduce the laboriousness of its movement. In order to avoid damage to the tubular anchors 2 by explosion of charges 4 and to ensure their repeated use, they are made of a small length and are set so that the distance from the end of the anchor 2 to charge 4 is not less than 0.7-1.0 m. 1 granular material, reliable operation of charge 4 through cracking while maintaining the walls of the hole 1 while deeper than the end of the tubular anchor 2. In this case, after removing the loose material, for example, blowing, reusing hole 1 to strengthen the rocks . The tubular anchor 2 is used as a reliable basis for installing the injector 8, and the process of injecting the hardening solution directly into the camouflage cavity 7 and further into the radial and tangential cracks adjacent to it ensures high quality of their filling and, therefore, reliable and effective hardening of the rocks . The preservation in the first stage of hardening of rock reduction by tubular anchors 2 in the marginal zone 3 makes it difficult for the hardening solution to flow into the excavation, forcing it to expand under increased pressure to crack along the cracks to the border of the 1T hardening zone. This further improves the quality of the cementing. In the second stage of hardening, the tension of the tubular anchors 2 is relaxed, this leads to the opening of cracks in the marginal zone 3 and filling them with a hardening solution at the minimum injection pressure. The excess solution is fed to the fixture-formwork 5 and the gap between it and the rock production contour is filled, creating

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smooth inner surface vfa-providing them with guaranteed conservation with minimal aerodynamic properties and reuse

resistance. for injection strengthening solution,

The application of the proposed method to improve the quality of hardening, re-unloading and hardening of rocks in comparable rocks due to better filling

with the known permits the preservation of cracks in the solution. This increase in the marginal zone of the rocks eliminates the load-carrying ability of the unharmonized destruction, increase the groundless and hardened rocks and the precautionary nature of the work on the rock (|

take a shot in the mine work, reduce the labor output with less labor

drill hole drilling capacity, and higher quality of work.

Claims (2)

1. METHOD FOR UNLOADING AND STRENGTHENING OF MASSAGE OF ROCKS, including installation of support formwork, drilling of radial unloading holes, blasting of camouflage charges in them, installation of tubular anchors and injectors into holes and injection of hardening solution into unloaded rocks, characterized in that, in order to reduce laboriousness and improving the quality of work, tubular anchors are installed in radial unloading holes before camouflage charges are blown up and tensioned to compress the marginal zone of the rocks, then fill the tube These anchors are bulk material that is removed after the camouflage charges are blown up. 2. The method of pop. 1, characterized in that the hardening is carried out in two stages - first, at an increased injection pressure in the interior of the rocks outside the marginal zone, and then reinforce the marginal zone of the rocks, having first weakened the tension of the tubular anchors, while after injecting, the injectors and tubular anchors are removed for repeated use. >