SU1689639A1 - Method for consolidating joint rocks - Google Patents

Abstract

This invention relates to the mining industry and can be used to increase the stability of underground mine workings. The purpose of the invention is to increase the efficiency of hardening of the rock mass. To do this, along the contour of the mine workings, drill holes on the grid and an anchor (A) is installed in them. A consists of a tension rod with a channel for the strengthening solution (UR) and a sealer. Tension A is produced with the vibrator on (B). The latter is attached to the projecting part A. Injection of the UR is carried out with constant monitoring of the resonant mode of operation B directly from A. After the injection, the final tension is applied to A.

Description

This invention relates to the mining industry and can be used to increase the stability of underground mine workings.

The purpose of the invention is to increase the efficiency of hardening of the rock mass.

In order to implement the method of drilling a well, the grid installed by the reinforcement passport is maintained, then an anchor is installed in each of them, which is a tension bar with a reinforcement composition and sealant provided for the design. As the rod, you can use metal reinforcement, cable, steel tape, etc. The vibrator can be attached either directly to the protruding portion of the rod, or to the injector, which is used to inject the reinforcement composition.

Since all industrial vibrators have a specific value of the oscillation frequency at which their efficiency is maximum, in order to achieve a resonance of a rod with a vibrator, their total frequency is controlled by tensioning the rod while the vibrator is on. For this purpose, the vibrator and the bar are selected in such a way that the values of their own vibration frequencies are close. For example, when using a rod that has a metal core 2-2.5 mm thick and 1.5-2 m long as a carrier element, a mechanical eccentric vibrator with an oscillation frequency of 200-250 Hz can be used.

After finding the resonance frequency, the hardening composition is injected. In this case, the pressure of the composition in the well may cause additional tension in the anchor, which is eliminated as it is injected.

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Installing a tension injection anchor into a drilled well, tensioning it with the vibrator on until a resonance is reached, and subsequently forcing the reinforcement composition with simultaneous vibration in a resonant mode, allow the anchor to be used as a radiator of mechanical vibrations having a cylindrical distribution. At the same time, the energy distribution of the vibrations in the well is more uniform, and since the vibration emitter is in close proximity to the walls of the well, the places with the greatest hydraulic resistance, i.e. the junction of cracks in the massif with the well, are subjected to the strongest vibration, which helps to improve the penetration of the hardening composition into the cracks. After the injection, the final tension of the anchor is produced, since in order to increase the fastening strength, it is possible that stronger tension is necessary than when it is used as a vibration emitter.

Claims (1)

Invention Formula The method of strengthening fractured rocks, including drilling wells, forcing a hardening composition through them into rocks with simultaneous impact on the surrounding rocks of mechanical vibrations using a vibrator, characterized in that, in order to increase the hardening efficiency, a tension injection anchor is pre-installed in each drilled well and it is tensioned while the vibrator is on until a resonance is achieved in the anchor, while the hardening composition is injected with constant monitoring of the resonant mode of operation the vibrator with the anchor, and after the injection, the final tension of the anchor is performed.