RU2229607C1 - Process filling worked-out area - Google Patents

Abstract

FIELD: mining industry, underground development of deposits of small and mean thickness with filling of worked-out area. SUBSTANCE: process filling worked-out area includes mechanical delivery of material by gravity over holes, formation of filling mass by periodic delivery of filling material and its compaction. Filling mass is erected under pressure of filling material in hole. First elastic close shell is lowered into worked-out area on cable with hose, then filling material is delivered till hole is filled completely and later it is moved to worked-out area, air is injected into shell till it reaches working pressure. Thereafter air pressure in shell is released. Cycles of delivery of filling material, injection of air into shell and its release are repeated till worked-out area is filled completely. Formula of invention gives limits of maximal radius of filling mass and diameter of hole. Elastic closed shell can be produced from rubber cord. EFFECT: enhanced safety of filling operations, raised density of filling of worked-out area with filling material thanks to compaction of filling mass by means of elastic closed shell, decreased labor input to process filling worked-out area. 4 cl, 1 dwg

Description

The invention relates to the mining industry and can be used in underground mining with the laying of the developed space.

Known installation for laying out worked out space. A propelling device with blades and a disk is fixed on the installation frame by means of a drive with a rotational shaft. The latter is mounted on the shaft perpendicular to its axis. The blades are placed on the disk perpendicular to its plane. The lower end of the shaft with a propelling device mounted on it is placed in the under-roof space of the chamber and a hardening mixture is fed onto its soil, forming a bedding. Through the loading pipeline to the throwing device serves the rock and scatter through the chamber within the range of its departure. The disadvantage of this device is that the range of departure of the pieces of the bookmark is small, the filling material is laid in the form of a cone at the well and with a sufficient height of the cone clogs the exit from the well. The contact area of the filling array with the roof of the chamber is small, therefore, the bearing capacity of the filling is insignificant (A.C. 1618895, E 21 F 15/06, 01/07/1991, bull. No. 1).

There is a method of laying the mined-out space with a shield system for developing mineral deposits and a device for its implementation, adopted as a prototype. The stowage massif is erected, periodically feeding for the shield slab after it is planted at the step of erecting the stowage strip of crushed rock. After compaction of the rock, hardening material is injected into it, forming a fence of the massif and rock slopes, which are filled with crushed rock after lowering the shield aggregate to the return horizon. To do this, shields are pivotally attached to the shield overlap with the possibility of contact of the free sides, and power elements are attached to the upper parts of the shields. The other ends of the power elements are pivotally connected to the shield panel. Nozzles for injection of hardening material are placed on the boards on the side opposite to the fastening of the power elements and on the shield panel between the indicated sides of the panels. The disadvantage of this method is the low level of security during the laying work and the high complexity of the laying work (A.C. 1763678, E 21 15/00, 09/23/1992, bull. No. 35).

The technical result of the method is to increase safety during the laying operations and reduce the complexity of their implementation.

The technical result is achieved by the fact that in the method of laying the mined-out space, including the mechanical gravity-free delivery of material through the wells, creating a filling array by periodically supplying filling material, compacting it, according to the invention, the filling array is erected under the pressure of the filling material in the well, and first, it is lowered into the laying space an elastic closed shell on a cable with a hose, after which the filling material is supplied until the c Azhinov and move it to be pledged space, forcing air into the envelope to the operating air pressure, whereupon the air pressure in the shell is released, wherein the loops serving the packing material pumped into a shell and air dropping air pressure is repeated until the complete filling of the pledged space.

The invention is also characterized in that the maximum radius of the filling array L is selected <0.7h _st , where h _st is the height of the column of filling material in the well.

The invention is also characterized in that the borehole diameter d is selected <h _in / 5, where h _in is the height of the space to be laid.

The invention is also characterized in that the elastic closed shell is made of rubber cord.

The application of the proposed method in comparison with the prototype can increase the level of security during the laying work and reduce the complexity of their implementation.

The method for laying out the worked-out space is illustrated by the scheme, where 1 is a device for carrying out hoisting operations, 2 is a conveyor belt, 3 is a compressor, 4 is a hose (for supplying compressed air), 5 is a cable, 6 is a filling material, 7 is an elastic closed shell ( for example rubber cord), 8 - filling array, 9 - laying space, 10 - borehole, 11 - receiving hopper, 12 - grates (for catching oversized items), 13 - conveyor.

The method of laying the mined-out space is carried out as follows: from the surface or from the conveyor excavation 2 overlying horizons, a well 10 passes through the rock massif, and the maximum radius of the filling mass L is chosen <0.7h _st , where h _st is the height of the column of filling material in borehole, and the borehole diameter d is chosen <h _in / 5, where h _in is the height of the laid space (restrictions are caused by the peculiarities of the mechanics of the granular medium and the need to create a directed action of forces for effective use of elastic closed shell 7). A device 1 for hoisting operations is mounted above the well, a hose 4 for supplying compressed air and an elastic closed shell 7 are fixed to the cable 5, the cable 5 is lowered to the soil of the paved space 9, then in the upper part above the well 10, a receiving hopper 11 with a grate screen 12 is installed (for catching oversize).

The filling material is fed through the conveyor 13 to the grate screen 12 (for trapping oversize) and through the receiving hopper 11 is discharged into the well 10. Oversized material is discarded by the grate screen 12 (for trapping oversize), and the conditional filling material 6 enters the filling space 9. After full filling the well 10 with the filling material 6, air is injected using a compressor 3 through a hose 4 for supplying compressed air to the elastic closed shell 7 to the working air pressure This leads to an increase in the volume of the elastic closed shell 7 and extrusion of the filling material 6 into the laying space 9. After this, the air pressure in the elastic closed shell is released, while the cycles of filling the filling material, injecting into the shell of the air and dropping the air pressure are repeated until the filling space 9 is completely filled. filling material 6. As a result, a filling array is formed 8. After filling the laid space 9, the pressure is relieved and the elastic closed shell 7 zvlekaetsya via cable 5. Then the supply of packing material 6 is resumed to completely fill the well 10. When used as a closed flexible envelope 7 rezinokorda working air pressure of 10 MPa, a height of packing material in the hole h post _v = 40 m, height of the space pledged h _in = 3 m, well diameter d = 0.6 m, the maximum size of the massif being laid is L = 28 m.

The use of this method of laying the mined-out space during underground mining provides the following advantages:

- allows you to increase the safety of laying work;

- increasing the completeness of filling the worked-out space with filling material due to compaction of the filling array using an elastic closed shell;

- reduce the complexity of the laying work.

Claims (4)

1. A method of stowing comprising mechanical Samotechnaja material delivery wells, creating filling mass by periodically supplying packing material, compacting it, characterized in that the filling mass erecting the packing material under pressure in the well, wherein the first space is lowered in the pledged elastic closed shell on a cable with a hose, after which they feed the filling material until the well is completely filled and move it in the laying transistor, pumping air into the shell to the working air pressure, after which the air pressure in the shell is released, while the cycles of filing the filling material, injecting air into the shell and dropping the air pressure are repeated until the filling space is completely filled. 2. The method of laying according to claim 1 , characterized in that the maximum radius of the filling array L is selected <0.7h _st , where h _c is the height of the column of filling material in the well. 3. The method of claim 1 bookmarks, characterized in that the borehole diameter d is selected

where h _In - the height of the pledged space. 4. The method bookmark of claim 1, characterized in that the elastic closed shell made of rezinokorda.