RU98104193A - METHOD FOR CONSTRUCTION OF THE MINING FOR SMALL KIMBERLITE TUBES USING SELF-PROPELLED MINING EQUIPMENT AND DEVICE FOR ITS LIFTING AND LIFTING AND EXTRACTION OF ORE TO THE SURFACE - Google Patents

Claims (6)

1. A method of constructing a mine for small kimberlite pipes using self-propelled mining equipment, including dividing the kimberlite pipe (field) vertically into floors, sinking auxiliary and main shafts interconnected by failures at the floor boundary, drilling chambers along the trunk, drilling the rock wells along the trunk path, blasting charges in the wells, loading the rock, the borehole under the protection of the pillars, sinking of boreholes, characterized in that the auxiliary trunk pass ahead of the main one at least to the height of one floor and from the auxiliary trunk under the main trunk track there is a transport fault for transporting the rock from the main trunk penetration, and a protective rock pillar is left over the transport fault along the main trunk path, in which the cross is made for bypass rocks, while the upper part of the dam is cut with a funnel and the section of the main shaft of the mine is cut, and the section of the main shaft should provide the launch and lift of the self-propelled gun In the cage, wells are drilled and the rock is destroyed by explosion in the cross section of the trunk between the floor and when the broken rock is released through the dam, the barrel is fastened and reinforced, after the rock is released over the funnel in the near-barrel part, a chamber for receiving self-propelled mining equipment is passed and opening mine workings in the kimberlite pipe, and on the opposite side, chambers for receiving self-propelled equipment pass a loading chamber to accommodate an ore-lifting tank for delivering ore from the mine and draw egruzochny node Scooptrams in ore-capacity.  2. The method according to p. 1, characterized in that the entire barrel is cut above the protective shaft to form a drilling chamber for drilling blast holes ascending to the boundary of the overlying floor along the main trunk.  3. The method according to p. 1, characterized in that the transport fault in the area of the main trunk route is expanded to the size of the drilling chamber and downhole blast holes are drilled to drill the shaft to the underlying floor, while the ascending wells are drilled to destroy the protective pillar, and the charges Explosives explode in one go.  4. The method according to claims 1 to 3, characterized in that explosive charges are drilled and detonated along the contour of the main trunk using the technology of smooth blasting.  5. The method according to claim 1, characterized in that the funnel in the protective pillar is filled with elements of damping means.  6. A device for launching and lifting self-propelled mining equipment and delivering ore to the surface, including the installation of a cage hoist, mechanisms for unloading vehicles on the surface, loading and loading machines for loading in the face and delivery to the mine shaft, characterized in that it is equipped with an ore lifting a container with dimensions that ensure its placement and fastening in the crate, with support moving elements and a device for its fastening in the crate, and loading nodes for loading pores are made on the loading floors odes from self-propelled loading and delivery vehicles to the ore lifting capacity and mechanisms for moving the ore lifting capacity from the cage under the loading unit and vice versa were mounted; an unloading device of the ore lifting capacity and a mechanism for moving it from the cage to the unloading device and vice versa were mounted on the surface of the mine and in the borehole, and the size crates should provide descent and ascent of self-propelled mining equipment in a form ready for operation.