CN203783634U - Mineral powder recycling structure for underground mine - Google Patents

Abstract

The utility model relates to a mineral powder recycling structure for an underground mine, and belongs to the technical field of mining engineering facilities. The mineral powder recycling structure is used for reducing the construction engineering quantity of a mineral powder recycling facility for the underground mine, so that the engineering investment is saved, the technological process is simplified, and the operation cost is reduced. According to the technical scheme, an elevator shaft, a mineral powder unloading chamber, a mineral powder drop shaft, a mineral powder bin, a mineral powder loading chamber and a mineral powder transportation roadway in the existing mineral powder recycling facility are eliminated, partial mineral powder recycling roadways are remained, an auxiliary shaft extends to the mineral powder recycling roadways and is communicated with the mineral powder recycling roadways, and the shaft bottom of a main shaft is connected with the auxiliary shaft extending to the mineral powder recycling roadways. The auxiliary shaft extends to the mineral powder recycling roadways and is communicated with the mineral powder recycling roadways, a mineral sliding and blasting system and the auxiliary shaft are utilized for recycling mineral powder, only partial mineral powder recycling roadways remain, and other mineral powder recycling facilities are not independently equipped any more, so that the mineral powder recycling function is ensured, the construction engineering quantity is reduced, the engineering investment is saved, the technological process is simplified, and the operation cost is reduced.

Description

A kind of sub-terrain mines fine ore recovery structure

Technical field

The utility model relates to fine ore recvery facility in a kind of sub-terrain mines system of slipping brokenly, belongs to mining engineering facility technology field.

Background technology

In the system of slipping brokenly of underground mining engineering, conventionally all build special fine ore recvery facility, comprise elevator shaft, fine ore transportation lane, fine ore ore dumping chamber, fine ore drop shaft, fine ore bin, fine ore loading chamber etc., under normal conditions, above-mentioned engineering is all to build separately, has not only increased engineering quantity, has also strengthened construction investment, after coming into operation, also increase technological process, improved operation cost.Because fine ore reclaims the part that sub-facility is the system of slipping brokenly, contact between the two closely, therefore can consider by taking certain measure to realize the function of fine ore recvery facility by means of other some tunnel, chamber and equipment in the system of slipping brokenly, thereby reach minimizing construction, cost saving, simplification of flowsheet, the object cutting operating costs.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of sub-terrain mines fine ore recovery structure, and this structure can reduce the construction of sub-terrain mines fine ore recvery facility, cost saving, simplification of flowsheet and cutting operating costs.

The technical characterictic solving the problems of the technologies described above is:

A kind of sub-terrain mines fine ore recovery structure, cancel elevator shaft, fine ore unloading chamber, fine ore drop shaft, fine ore bin, fine ore loading chamber and fine ore transportation lane in existing fine ore recvery facility, reserve part fine ore reclaims tunnel, auxiliary shaft is extended to fine ore and reclaim tunnel and be communicated with fine ore recovery tunnel.

Above-mentioned sub-terrain mines fine ore recovery structure, main shaft shaft bottom is connected with the auxiliary shaft that extends to fine ore recovery tunnel.

The beneficial effects of the utility model are:

The utility model provides the new construction that in a kind of sub-terrain mines system of slipping brokenly, fine ore reclaims, auxiliary shaft is extended to fine ore to be reclaimed tunnel and is communicated with fine ore recovery tunnel, utilize the ore system of slipping brokenly and auxiliary shaft to double as fine ore and reclaim purposes, reserve part fine ore reclaims tunnel, and no longer other fine ore recvery facility of separate configurations, has not only guaranteed that fine ore reclaims function, and reduced construction, save construction investment, simplified technological process, reduced operation cost.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure, mark is as follows: fine ore reclaims that lane 1, ore unloading level 2, ore discharge point 3, mine chute 4, ore reduction chamber 5, bottom ore storage bin 6, ore loading chamber 7, dress mineral water are flat 8, great Jian road level 9, metering ore loading chamber 10, People's Bank of China's vent (-escape) raise 11, main shaft 12, auxiliary shaft 13.

The specific embodiment

The utility model is suitably to extend by auxiliary shaft 13, doubles as fine ore reclaim purposes with the existing ore system of slipping brokenly and auxiliary shaft 13, and a reserve part fine ore reclaims tunnel 1, no longer other fine ore recvery facility of separate configurations.

In figure, show, the utility model has been cancelled elevator shaft, fine ore unloading level, fine ore unloading chamber, the fine ore loading chamber in original fine ore recvery facility, and a reserve part fine ore reclaims tunnel 1.

In figure, show, the utility model extends to fine ore by auxiliary shaft 13 and reclaims tunnel 1, and is communicated with fine ore recovery tunnel 1, and meanwhile, main shaft 12 shaft bottoms are connected with the auxiliary shaft 13 that extends to fine ore recovery tunnel 1.

In figure, show, fine ore removal process of the present utility model is as follows:

The fine ore that main shaft 12 shaft bottoms are piled up is promoted to ore unloading level 2 with auxiliary shaft 13.

The fine ore that rises to ore unloading level 2, enters bottom ore storage bin 6 by ore discharge point 3 through mine chute 4.

The fine ore that enters bottom ore storage bin 6 is transported to earth's surface through links such as ore loading chamber 7 dress ore deposits, belt-conveying, main shaft hooists together with ore.

Claims (2)

1. a sub-terrain mines fine ore recovery structure, it is characterized in that: it comprises auxiliary shaft (13), fine ore reclaims tunnel (1), ore unloading level (2), ore discharge point (3), mine chute (4), ore storage bin (6), ore loading chamber (7), dress mineral water flat (8), the lower end of auxiliary shaft (13) is reclaimed tunnel (1) with fine ore and is connected, the upper end of auxiliary shaft (13) unloads level (2) by ore and is connected with ore discharge point (3), ore discharge point (3) is connected with the ore storage bin (6) of bottom by mine chute (4), ore storage bin (6) bottom connects ore loading chamber (7), ore loading chamber (7) is connected with main shaft (12) by dress mineral water flat (8).

2. sub-terrain mines fine ore recovery structure according to claim 1, is characterized in that: main shaft (12) shaft bottom is connected with the auxiliary shaft (13) that extends to fine ore recovery tunnel (1).