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A downward concave-convex unreinforced mosaic continuous layered filling mining method

A filling mining method and filling body technology, which is applied in underground mining, filling, surface mining, etc., can solve problems such as filling roof caving, stope roof management difficulties, and layered filling body strength that cannot meet production requirements.

Active Publication Date: 2020-07-07
FUZHOU UNIV
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  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

On the one hand, the economic value of this type of ore body is large, and unreasonable mining methods will directly lead to a large loss rate and dilution rate in the mining process of mineral resources, resulting in an extreme waste of mineral resources; on the other hand, the ore rocks are extremely broken. The method cannot guarantee the effective cementation between each filling layer, and the strength of the layered filling body cannot meet the production requirements.
At the same time, it is difficult to effectively control the pressure of the stope, and the management of the stope roof is difficult. During the mining process, the problem of large-area caving of the filling roof often occurs, which brings major safety hazards to mining safety production.

Method used

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  • A downward concave-convex unreinforced mosaic continuous layered filling mining method
  • A downward concave-convex unreinforced mosaic continuous layered filling mining method
  • A downward concave-convex unreinforced mosaic continuous layered filling mining method

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Embodiment Construction

[0017] like Figure 1~4 As shown, a downward concave-convex unreinforced mosaic continuous layered filling mining method includes the following steps: (1) Divide the ore body into stages in the vertical direction, and reserve slanted pillars between the upper and lower adjacent stages, and a The stage is responsible for a reserved slanted top pillar, under the protection of the slanted top pillar, the safe mining of the stage ore body is completed. The stage is divided into multi-layer middle sections in the height direction; (2) The stage is divided into intervals along the ore body. Houses and pillars, a one-step stope is arranged in the mine house, and a two-step stope is arranged in the ore pillar, and every 5-7 room-pillar stopes constitute a panel; Including stage transportation roadway, panel chute, transportation roadway in the middle section outside the vein, and transfer roadway; under the protection of the reserved inclined roof column, firstly realize the mining an...

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Abstract

The invention relates to a downward concave-convex rib-free inlaying continuous layered filling mining method which comprises the following steps: (1) dividing an ore body into stages, and dividing the stages into a plurality of layers of middle sections in the height direction; (2) arranging a first-step stope in an ore room, arranging a second-step stope in an ore pillar, and enabling every 5-7stopes in rooms / columns to form a panel area; (3) adopting an extrapulse trackless accurate mining system, transferring mined ores of a central drift of each middle section and an upper wing ore bodyand an lower wing ore body to a panel draw shaft through a transfer layer connection channel, and completing the ore removal process of the stopes; and (4) guaranteeing that the stope of the middle section of each layer is composed of a central drift, a first layer and a second layer, completing the stoping work of each layer of the ore body of the first-step stope of the stope of the panel area,and conducting stoping on the second-step stope of the ore pillar of the panel area under the lateral protection of a first-step stope filling body. The filling mining method has the remarkable advantages that the production capacity of a panel stope is high, the ore drawing time is short, the mining safety is high, the resource loss is small, and the mining and filling process circulation substitution is reasonable.

Description

technical field [0001] The invention relates to a safe and low-loss mining method for broken ore bodies with extremely unstable ore rocks, high ore grades, and high economic value, and specifically relates to a downward concave-convex non-reinforced mosaic continuous layered filling mining method. Background technique [0002] For ore bodies with high grade and high economic value, especially under the technical conditions of extremely unstable ore rocks and extremely broken ore bodies, how to realize safe, efficient and low-loss mining of ore bodies is a global mining technology problem. On the one hand, the economic value of this type of ore body is large, and unreasonable mining methods will directly lead to a large loss rate and dilution rate in the mining process of mineral resources, resulting in an extreme waste of mineral resources; on the other hand, the ore rocks are extremely broken. The method cannot guarantee the effective cementation between each filling layer,...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E21C41/22E21F15/00E21F15/04
Inventor 刘青灵简文彬陈诗伟楼晓明李兵磊
Owner FUZHOU UNIV
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