CN203430566U - Intensive mine filling system - Google Patents

Abstract

The utility model discloses an intensive mine filling system. The intensive mine filling system comprises a binding material supplying device, a filling aggregate supplying device, a water supplying device and a stirring device, wherein a feed inlet of the binding material supplying device, a feed inlet of the filling aggregate supplying device and a feed inlet of the water supplying device are all arranged above the ground, and the stirring device is arranged under the ground. According to the intensive mine filling system, a part of the devices are arranged under the ground, other production work on the ground is not affected, the occupied area is small, only underground heat insulation is needed due to the fact that the stirring slurrying part is arranged under the ground and no water exists in the overground part, and the underground heat insulation is easy to achieve and low in cost; meanwhile, the intensive mine filling system is compact in structure, the technique is simple, automation can be achieved easily, and a small number of maintainers are needed. The intensive mine filling system is suitable for being applied to small mines and is used according to the conditions of the mines, and investment is controlled effectively.

Description

A kind of intensive mine filling system

Technical field

The utility model relates to a kind of mine filling system.

Background technology

Mine filling system mainly comprises cementitious material feeding device, filling aggregate feeding device, water supply installation and mixing plant, and it forms filling in mine material, for filling mine worked-out section by a certain proportion of cementitious material, filling aggregate and water mix and blend.Current mine filling system is built on the ground, and floor space is large, and need add Insulation winter, and to be incubated above cost higher on ground, is not suitable for using on small mine.

Utility model content

The technical problems to be solved in the utility model is: the intensive mine filling system that a kind of floor space is little and Thermal insulation Expense is low is provided.

In order to solve the problems of the technologies described above, the utility model comprises cementitious material feeding device, filling aggregate feeding device, water supply installation and mixing plant, described cementitious material feeding device, filling aggregate feeding device, water supply installation three's charging aperture is all arranged on ground, and described mixing plant is arranged on underground.

In order to make casting resin, stir more evenly, described mixing plant is arranged in the well chamber of underground, mixing plant comprises one-level mixing plant and secondary mixing plant, secondary mixing plant is positioned at lower one deck well chamber of one-level mixing plant, and the discharging opening of one-level mixing plant is connected with the charging aperture of secondary mixing plant.

For the ease of filling, being provided with below towards the feeding in filling in mine district of described well chamber, secondary mixing plant place holed, and secondary mixing plant communicates with feeding boring.

For accurate proportioning, described cementitious material feeding device comprises cementitious material feed bin, helix transporting device and screw metering device, cementitious material feed bin, helix transporting device is connected successively with screw metering device, screw metering device connects one-level mixing plant by feeding inclined tube, filling aggregate feeding device comprises filling aggregate feed bin and constant feeder, filling aggregate feed bin connects constant feeder, constant feeder connects one-level mixing plant, cementitious material feed bin, helix transporting device and screw metering device are positioned on ground, the charging aperture of filling aggregate feed bin is positioned on ground, part and constant feeder under the charging aperture of filling aggregate feed bin are positioned at underground, part under the charging aperture of filling aggregate feed bin and constant feeder are positioned at the top of one-level mixing plant.

For accurate proportioning, described water supply installation comprises the feed pipe that connects one-level mixing plant, and feed pipe is provided with flow meter, electrically operated valve and manually-operated gate, and flow meter, electrically operated valve and manually-operated gate are positioned on ground.

The beneficial effects of the utility model are: the utility model equipment component, at below ground, does not affect other production works of ground, takes up an area little, stirring pulping part is underground, overground part does not have mixing of water, so only need below ground insulation, below ground insulation easily realizes and spends less, and the utility model compact conformation, technique is simple, automaticity be easy to realize and required maintainer less, and be suitable for the upper application at small mine, because of ore deposit suiting measures to different conditions, effectively controlled investment.

Accompanying drawing explanation

Fig. 1 is the novel structural representation of this reality;

In figure: 1, cementitious material feed bin, 2, helix transporting device, 3, feed pipe, 4, flow meter, 5, electrically operated valve, 6, manually-operated gate, 7, screw metering device, 8, constant feeder, 9, filling aggregate feed bin, 10, well chamber, 11, feeding boring, 12, secondary mixing plant, 13, one-level mixing plant, 14, feeding inclined tube.

The specific embodiment

A kind of specific embodiment as shown in Figure 1, it comprises cementitious material feeding device, filling aggregate feeding device, water supply installation and mixing plant, cementitious material feeding device comprises cementitious material feed bin 1, helix transporting device 2 and screw metering device 7.

Mixing plant is arranged in the well chamber 10 of underground, mixing plant comprises one-level mixing plant 13 and secondary mixing plant 12, secondary mixing plant 12 is positioned at lower one deck well chamber of one-level mixing plant 13, and the discharging opening of one-level mixing plant 13 is connected with the charging aperture of secondary mixing plant 12.Being provided with below towards the feeding in filling in mine district of secondary mixing plant 12 well chambers, place 10 holes 11, and secondary mixing plant 12 communicates with feeding boring 11.Filling aggregate feeding device comprises filling aggregate feed bin 9 and constant feeder 8.

Cementitious material feed bin 1, helix transporting device 2 is connected successively with screw metering device 7, screw metering device 7 connects one-level mixing plant 13 by feeding inclined tube 14, filling aggregate feed bin 9 connects constant feeder 8, constant feeder 8 connects one-level mixing plant 13, cementitious material feed bin 1, helix transporting device 2 and screw metering device 7 are positioned on ground, the charging aperture of filling aggregate feed bin 9 is positioned on ground, the other parts of filling aggregate feed bin 9 and constant feeder 8 are positioned at underground, the other parts of filling aggregate feed bin 9 and constant feeder 8 are positioned at the top of one-level mixing plant 13.

Water supply installation comprises the feed pipe 3 that connects one-level mixing plant 13, and feed pipe 3 is provided with flow meter 4, electrically operated valve 5 and manually-operated gate 6, and flow meter 4, electrically operated valve 5 and manually-operated gate 6 are positioned on ground.

Operating principle: cementitious material enters the material loading that helix transporting device 2 carries out cementitious material after by 1 discharging of cementitious material feed bin, by screw metering device 7, complete cementitious material and measure, according to the default good cementitious material of proportioning, be delivered to the material loading that completes cementitious material after one-level mixing plant 13; Required filling aggregate enters filling aggregate feed bin 9 after the transhipment of ground, through holding together after material, broken arch of filling aggregate feed bin 9, evenly blanking is to constant feeder 8, constant feeder 8 has mainly ensured the even material loading of aggregate and can complete metering and loading materials according to default proportioning, aggregate proceeds to one-level mixing plant 13 through after the conveying of constant feeder 8 and metering, completes the material loading of aggregate; Water supply installation mainly works to regulate concentration and flushing line, and the water after pumping is controlled its default proportioning flow by feed pipe 3 through flow meter 4, electrically operated valve 5 and manually-operated gate 6, finally enters one-level mixing plant 13, completes the material loading of adjusting dense water; Cementitious material, aggregate, three kinds of fillers of water are according to default proportioning, through metering accurately and after carrying, all enter one-level mixing plant 13, in order to guarantee Pulp preparation quality, after the stirring of one-level mixing plant 13, proceed to secondary mixing plant 12 and carry out secondary agitation, finally through feeding boring 11, be delivered to the goaf of down-hole.

Claims (5)

1. an intensive mine filling system, comprise cementitious material feeding device, filling aggregate feeding device, water supply installation and mixing plant, it is characterized in that: described cementitious material feeding device, filling aggregate feeding device, water supply installation three's charging aperture is all arranged on ground, and described mixing plant is arranged on underground.

2. intensive mine filling system according to claim 1, it is characterized in that: described mixing plant is arranged in the well chamber of underground, mixing plant comprises one-level mixing plant and secondary mixing plant, secondary mixing plant is positioned at lower one deck well chamber of one-level mixing plant, and the discharging opening of one-level mixing plant is connected with the charging aperture of secondary mixing plant.

3. intensive mine filling system according to claim 2, is characterized in that: being provided with below towards the feeding in filling in mine district of described well chamber, secondary mixing plant place holed, and secondary mixing plant communicates with feeding boring.

4. according to the intensive mine filling system described in claim 2 or 3, it is characterized in that: described cementitious material feeding device comprises cementitious material feed bin, helix transporting device and screw metering device, cementitious material feed bin, helix transporting device is connected successively with screw metering device, screw metering device connects one-level mixing plant by feeding inclined tube, filling aggregate feeding device comprises filling aggregate feed bin and constant feeder, filling aggregate feed bin connects constant feeder, constant feeder connects one-level mixing plant, cementitious material feed bin, helix transporting device and screw metering device are positioned on ground, the charging aperture of filling aggregate feed bin is positioned on ground, part and constant feeder under the charging aperture of filling aggregate feed bin are positioned at underground, part under the charging aperture of filling aggregate feed bin and constant feeder are positioned at the top of one-level mixing plant.

5. intensive mine filling system according to claim 4, it is characterized in that: described water supply installation comprises the feed pipe that connects one-level mixing plant, feed pipe is provided with flow meter, electrically operated valve and manually-operated gate, and flow meter, electrically operated valve and manually-operated gate are positioned on ground.