RU2614337C1 - Dredge work method of watercut placer mineral deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method includes preparation and extraction works, dressing and dumping, the construction of dams around the mining equipment and the stock, prepared for working out during the winter season, upon the occurrence of sustained freezing temperatures the works are carried out in the shed, placed on the dam and mine development is carried out at the maximum possible height of the dredging section freeboard, while moving the shed with dredge begining to move.

EFFECT: reduction of the shed construction costs, which will significantly extend the mining season.

1 dwg

Description

The invention relates to the mining industry, in particular to the development of flooded alluvial deposits and technogenic accumulations of mineral raw materials in the conditions of prolonged negative temperatures.

There is a method of developing flooded alluvial deposits and technogenic accumulations of mineral raw materials, including preparatory and mining operations, enrichment and dumping (Leshkov VG Development of alluvial deposits. M .: Nedra, 1985. - S. 378-488).

However, when applying this method, a number of negative factors arise, such as the impossibility of its application, in the development of flooded alluvial mineral deposits in conditions of negative air temperatures, which sharply reduces the annual productivity of mining and processing equipment.

The closest in terms of the totality of existing signs and the achieved result is a method of developing mineral raw materials in the conditions of prolonged negative temperatures, including quarry preparation, development, enrichment, hydrotransport, hydraulic laying, while before the onset of negative temperatures, a dam is erected around the mining equipment and prepared for mining stocks, and devices on it a hangar on a slide with a transparent heat-insulating roof, after completion Niya construction of mining and dressing works and piling for the winter produce inside the hangar, in the summer transparent hangar set in the circuit land allotment, and early frosts set to be opened in the summer stocks. In the process of mining, processing and dumping, the surface of prepared stocks is given a dark color that provides the best light absorption and heating of the surface of prepared stocks and air inside the hangar (RU 2263786 C1, IPC Е21С 41/30 dated July 14, 2004, published: 10.11.2005) .

However, in the known development method, the creation of a device for extending the dragee production season requires significant investments that affect the long payback period. Also, large volumes of isolated space of the dredge section make it difficult to heat the dredged face, which reduces the duration of the mining season.

The main objective is to develop flooded alluvial mineral deposits under conditions of prolonged negative temperatures, which will reduce the surface area of the hangar structure, which will lead to a reduction in capital investment.

To solve the problem in a method of dredged mining of irrigated alluvial mineral deposits, including preparatory and mining operations, enrichment and dumping, dam construction around mining equipment and reserves prepared for mining for the winter period, when stable negative temperatures occur, work is carried out in a hangar installed on the dam and the development of the deposit is carried out at the maximum possible freeboard height of the dredge section while edvizhenii hangar with zashagivaniem dredger, provided:

H _a = H _{oc et al} -H -H _bmax + ε, m,

where: N _a - the height of the hangar, m; N _dr - overall height of the dredge, m; N _OS - the height of the dredge dredge, m; H _bmax - the maximum height of the freeboard of the placer mined by the dredge, m; ε is the safe clearance between the dredge and the hangar, equal to 0.5 m.

Mining the field at the maximum freeboard height will reduce the height of the hangar, and due to the movement of the hangar, along with the dredging of the dredge, the area of the hangar will decrease.

The method is illustrated in the drawing, where: 1 - dredge, 2 - hangar for isolating dragee landfill.

The method is as follows.

An alluvial gold deposit is developed by multi-dredged dredge 1. During the summer period, preparatory work is carried out: opening a layer of sand to the length of the dredge front, building a dam around mining equipment and prepared for mining for the winter period. With the onset of negative temperatures, hangar 2 is installed on the dam.

The height of the hangar is taken in such a way that it is not less than the height of the dredge when maneuvering in a dredged face and satisfies the condition:

H _a = H _dr -H _OS -H _b + ε, m,

where N _dr - overall height of the dredge, m; N _OS - the height of the dredge dredge, m; N _b - freeboard height of the placer mined by the dredge, m; ε - safe clearance, 0.5 m.

To reduce the size of the hangar during its construction, the maximum freeboard height of the placer should be taken. Moreover, when mining the dredge deposit, it must satisfy this condition. As a result of reducing the height of the hangar, its area will decrease by 15-20%, depending on the model of the dredge.

After the installation of the hangar is completed, mining and concentration works, as well as dumping during the period of negative temperatures, are carried out inside the hangar. To reduce the length of the hangar, it is moved at the same time as the dredge steps. This solution allows you to reduce the length of the structure of the hangar to step dredge, which is 2-7 meters, depending on the size of the dredge. With the onset of stable positive temperatures, the hangar is installed in the land allotment circuit.

The proposed method can significantly reduce the cost of construction of the hangar, which dramatically reduces the payback period, the isolated space of the pellet mine and will significantly extend the mining season.

Claims (3)

The method of dredged development of irrigated alluvial mineral deposits, including preparatory and mining operations, enrichment and dumping, dam construction around mining equipment and reserves prepared for mining for the winter period, characterized in that when stable negative temperatures occur, work is carried out in a hangar installed on the dam and the development of the deposit is carried out at the maximum possible freeboard height of the pellet cut while moving an ara with zashagivaniem dredger, provided: H _a = H _{oc et al} -H -H _bmax + ε, m, where: N _a - the height of the hangar, m; N _dr - overall height of the dredge, m; N _OS - the height of the dredge dredge, m; H _bmax - the maximum height of the freeboard of the placer mined by the dredge, m; ε is the safe clearance between the dredge and the hangar, equal to 0.5 m.

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