RU2011124898A

RU2011124898A - CONTINUOUS DRAWING

Info

Publication number: RU2011124898A
Application number: RU2011124898/03A
Authority: RU
Inventors: Фернандо ГЕЙСТЕР; Фидель БАЭС; Эрнесто АРАНСИБИЯ; Алехандро МОЙЯНО; Карло ЧЕРРУТТИ
Original assignee: Корпорасион Насиональ Дель Кобре Де Чили; Институто Де Инновасион Эн Минерия И Металургия
Priority date: 2008-11-28
Filing date: 2009-11-25
Publication date: 2013-01-10
Also published as: AU2018202700A1; WO2010061274A1; MX2011005722A; CA2745066A1; EP2370673B1; EP2370673A1; CA2745066C; AU2016222451A1; RU2015126488A; AP2011005750A0; RU2702494C2; US20120181844A1; RU2015126488A3; AU2009321259A1; CL2008003560A1; PL2370673T3; CN102264998A; AP3679A; PE20120378A1

Abstract

1. Способ, применимый при непрерывном извлечении руды при подземных работах, предназначенных для постоянного производства извлечения из пунктов выпуска или траншей, согласно которому:сооружают выработки уменьшенного размера, причемчерез центр, образованный группой выработок проходит выработка, предназначенная для транспортировки руды,такая выработка последовательно пересекает все группы выработок, образованные на эксплуатационной поверхности;такие пункты извлечения расположены с формированием систематической схемы [m2] на определенных расстояниях, совместимых с согласованным гравитационным потоком; апосле сооружения таких выработок, траншей и транспортировочных выработок производят:а. предразрушение, включающее изменение горной породы, находящейся на месте, посредством увеличения степени ее трещинообразования до достижения уровней, приводящих к преобразованию такой горной породы в толщу горной породы с признаками породы, подвергнутой вторичному предразрушению;b. обрушение, включающее обрушение толщи горных пород подрывом ее основания известными способами в среде мелко раздробленной породы; ис. извлечение, включающее одновременную эксплуатацию нескольких пунктов выпуска, образованных на этапе сооружения такой эксплуатационной выработки.2. Способ по п.1, в котором после сооружения таких траншей на них устанавливают стационарное оборудование для производства извлечения руды.3. Способ по п.1, в котором в таких транспортировочных выработках используют средства постоянной транспортировки, транспортирующие материал, извлеченный из траншей, пересекающих такие выработки.4. Способ по п.3, в котором �1. The method applicable to the continuous extraction of ore during underground mining, intended for the continuous production of extraction from points of issue or trenches, according to which: build workings of reduced size, and through the center formed by the group of workings there is a workout designed to transport ore, this workout sequentially crosses all groups of workings formed on the production surface; such extraction points are located with the formation of a systematic pattern [m2] for a certain nnyh distances compatible with the coherent gravitational flow; after the construction of such workings, trenches and transport workings produce: a. pre-fracture, including changing the rock in situ by increasing the degree of crack formation to levels leading to the conversion of the rock into a rock mass with signs of secondary pre-fracture rock b. collapse, including the collapse of the rock mass by undermining its base by known methods in a finely divided rock environment; ex. extraction, including the simultaneous operation of several points of release formed at the stage of construction of such operational production. 2. The method according to claim 1, in which, after the construction of such trenches, stationary equipment is installed on them for the production of ore extraction. The method according to claim 1, in which in such transporting workings use means of constant transportation transporting material extracted from trenches crossing such workings. The method according to claim 3, in which �

Claims

1. The method applicable to the continuous extraction of ore during underground operations intended for the continuous production of extraction from points of release or trenches, according to which:

build workings of reduced size, and

through a center formed by a group of workings, a mine is designed to transport ore,

such a mine successively intersects all groups of mine workings formed on the production surface;

such extraction points are located with the formation of a systematic pattern [m2] at certain distances compatible with the coordinated gravitational flow; but

after the construction of such workings, trenches and transport workings produce:

but. pre-fracture, including a change in the rock in situ by increasing the degree of crack formation to reach levels leading to the conversion of such a rock into a rock mass with signs of a rock subjected to secondary pre-fracture;

b. collapse, including the collapse of the rock mass by undermining its base by known methods in a finely divided rock environment; and

from. extraction, including the simultaneous operation of several points of release formed at the stage of construction of such operational development.

2. The method according to claim 1, in which after the construction of such trenches they are installed stationary equipment for the production of ore extraction.

3. The method according to claim 1, in which in such transportation workings use means of constant transportation, transporting material extracted from trenches crossing such workings.

4. The method according to claim 3, in which such means used in the transport workings are belt conveyors or endless belt-chain conveyors, usually called "armored" in the field of mining.

5. The method according to claim 1, according to which an additional level is constructed for the material to be moved, located at a lower level relative to the level formed by such production workings and therefore at a lower level relative to such trenches.

6. The method according to claim 6, in which between such a level of production output and such a level of movement, a passage is constructed in which the material falls from the trenches to such a level of movement and which allows the accumulation of material.

7. The method according to claim 1, in which such pre-fracture is performed by hydraulic fracturing.

8. The method according to claim 1, in which such pre-fracture is performed by explosions in a closed volume or controlled explosive dynamic softening.

9. The method according to claim 1, in which such pre-fracture is performed by combining hydraulic fracturing and controlled explosive dynamic softening.

10. The method according to claim 1, in which such a systematic scheme [m3] is made with points of excavation at distances in the range from 8 to 15 m

11. The method according to claim 1, in which such pre-fracture ensures the production of fragments of such a size that ensures their extraction and transportation by the specified system.

12. The method according to claim 1, in which each outlet is equipped with a stationary extraction unit that extracts ore from the trench and feeds it to a collecting system located at the exit of the trench for transporting ore to such a transport mine continuously, delivering ore to the destination.

13. The method according to item 12, in which the means of extraction, collection and transportation are provided with an automatic remote control device that receives commands and is controlled from a control point.

14. The method according to item 13, in which at each end of such a collecting system, crushers are installed for production at the extraction site of a fraction suitable for supply to a processing plant.