SU1666729A1 - Method of working driving in hard rock mass - Google Patents

Abstract

The invention relates to the mining industry, can also be used for emergency recovery operations in the nuclear power industry. The goal is to increase the safety of work in areas of high radiation by reducing the number of operations for extracting the saw rope and rearranging the feed posts. The method includes drilling wells / C / 1 along the contour of the production, cutting out the core to the depth of penetration and removing the cut core. The sawing is performed by rope 2 by means of a drive unit 3. In this case, the sawing rope is fed along C 1 by feed stands with pulleys 5 and blocks 6. First, at the same time, all but one interwell hole is cut through. One of the upper or side gaps is left intact. Then, a kerf was performed along the plane of the core end. After that, the remaining gap is sawn and the core is removed. 4 il.

Description

The invention relates to the mining industry and may find application in the excavation of mines or the extraction of natural stone.

The invention can also be used for emergency recovery operations in the nuclear power industry.

The aim of the invention is to increase the safety of work in areas with increased radiation by reducing the number of operations for extracting the saw rope and rearranging the feed posts.

Figure 1 shows a pattern for drilling horizontal wells; Fig. 2 is a diagram of sawing along three intersecting planes; on fig.Z - scheme pileny on the rear plane; Fig. 4 is a diagram of the final cutting out of a concrete block in a production loop.

At the beginning, the remotely controlled equipment is drilled along the well production contour 1, the direction of which coincides with the direction of penetration. All subsequent cycle operations are carried out with the cutting cable 2 using the drive unit 3. The sawing is performed through the drilled wells 1 using the feed racks fixed above wellheads 1

The feed posts have a support column and a hydraulic drive for moving the guide rods (not shown), which are controlled from the remote control 4 of the unit 3. A pulley 5 or a slider is attached to the end of each guide rod.

The ov block 6, which serves to change the direction of movement of the rope 2. The sawing rope 2 is pulled on the pulleys 5, blocks 6, as well as on the outgoing and supporting pulleys 7 and on the drive pulley 8 of the installation 3. Initially, all the intercut holes, except for one. One side or top gap is left intact. For example, when penetrating a rectangular cross section of an excavation, concrete is sawn at the same time in three intersecting planes: on the roof 9 of the excavation, on the lateral surface 10 and on the sole 11. At the same time, in each of the three intersecting planes it is sawn with a straight rope contour, four times changing its direction of movement. After completion of the sawing operation, the tension of the rope is relaxed in three planes to a predetermined depth and roller blocks 6 are removed from the wells. Then, increasing the tension of the rope, they are sawn with a free loop along the back plane of the core 12 end cut in the working contour. After the sawing process has been completed, the pulleys 5 are removed from the wells at the end face 12 and the final core cutting out is performed with the free loop of the rope along the side plane 13. The cut core is removed from the mine.

When using the method for emergency recovery operations in the nuclear power industry during the drilling of wells 1, the dependence of the degree of radioactive contamination of the array on the depth is established. Based on the established dependence, the array is conditionally divided into lengths (zones) for the purpose of selectively sawing them for separate burial. Sawing is done with the obligatory

cooling the rope. The radioactive sludge formed during the sawing process is removed by blowing a stream of cooled compressed air using dry dust pressure.

The method provides an increase in the safety of excavation works by creating conditions for a minimum time for personnel in the danger zone, since the core cutting out in the production loop is performed in one pass of the saw rope.

Claims (1)

The invention method of excavation of production in a solid array, including the drilling of wells the production contour, the installation of feed racks with pulleys and a sawn rope in the wellheads, cutting the core to the depth of the runway by feeding the posts through the wells and removing the sawn core, so that, in order to increase the safety of work in areas with increased radiation by reducing the number of operations for removing the saw-rope and rearranging the feed racks, at the beginning at the same time, all but one interwell holes are cut through to the depth of entry, and one side or top gap is left intact, then the kerf is cut along the plane of the core end face, after that, the remaining inter-well span is sawed through. - i / l  / // Gf -I I I I / s: / / / / / / I I / & - --A Rig .1 / - Sl  , I I / / / / / ten Fig 2 figs Schi C