CN204448495U - A kind of energy-conservation ore screening device - Google Patents

Abstract

A kind of energy-conservation ore screening device, relate to mine equipment field, it comprises ores lifting machine (1), hopper (2), multipass sort storehouse (3), one-level sorting sieve plate (4), spring (5), expansion link (6), secondary sorting sieve plate (7), retractor device (8), large ore blanking storehouse (9) and intermediate ore blanking bin (10), the charging aperture of hopper (2) is positioned at the below of ores lifting machine (1) discharge end, (3) are respectively equipped with charging aperture in multipass sort storehouse, little ore discharging opening, large ore discharging opening (3-1) and intermediate ore discharging opening (3-2), popularization of the present utility model, can provide a kind of ore self gravitation that utilizes to carry out the energy-conservation ore screening device screened, greatly can reduce the energy consumption of screened ore, can avoid the generation of airborne dust simultaneously, have good market popularization value.

Description

A kind of energy-conservation ore screening device

Technical field

The utility model relates to mine equipment field, is specifically related to a kind of energy-conservation ore screening device.

Background technology

Ore screening equipment is the common plant equipment that bargh uses, and in order to utilize ore fully, carrying out sorting to ore is an important step; At present, in the ore screening apparatus and method had now, be all generally take the mode of vibration screening to carry out, this screening mode has used powerful motor, therefore can consume a large amount of energy, and can vibrate and take up a large amount of airborne dusts, pollute mining area working environment.

Utility model content

The purpose of this utility model is exactly in order to at present, in the ore screening apparatus and method had now, general is all take the mode of vibration screening to carry out, this screening mode has used powerful motor, therefore a large amount of energy can be consumed, and can vibrate and take up a large amount of airborne dusts, pollute the deficiency of mining area working environment, and a kind of energy-conservation ore screening device is provided.

The utility model comprises ores lifting machine, hopper, multipass sort storehouse, one-level sorting sieve plate, spring, expansion link, secondary sorting sieve plate, retractor device, large ore blanking storehouse and intermediate ore blanking bin, the charging aperture of hopper is positioned at the below of ores lifting machine discharge end, storehouse is respectively equipped with charging aperture to multipass sort, little ore discharging opening, large ore discharging opening and intermediate ore discharging opening, one-level sorting sieve plate is movably arranged in the top inner wall of multipass sort storehouse respectively by spring and expansion link, one-level sorting sieve plate tilts to be positioned at multipass sort storehouse, and the low order end of one-level sorting sieve plate is positioned at above large ore discharging opening, secondary sorting sieve plate is movably arranged on the inwall of side, multipass sort storehouse by retractor device, and the low order end of secondary sorting sieve plate is positioned at above intermediate ore discharging opening, large ore blanking storehouse and intermediate ore blanking bin are fixedly mounted on the outer wall in multipass sort storehouse respectively, the charging aperture in large ore blanking storehouse communicates with the large ore discharging opening in multipass sort storehouse, the charging aperture of intermediate ore blanking bin communicates with the intermediate ore discharging opening in multipass sort storehouse.

Large ore discharging opening and intermediate ore discharging opening lay respectively at the symmetrical both sides in multipass sort storehouse.

Ores lifting machine is belt conveyor.

Also have three hoppers, three hoppers lay respectively at the below of the discharging opening of the little ore discharging opening in multipass sort storehouse, large ore blanking bin discharge port external and intermediate ore blanking bin.

The utility model has the following advantages: popularization of the present utility model, a kind of ore self gravitation that utilizes can be provided to carry out the energy-conservation ore screening device screened, greatly can reduce the energy consumption of screened ore, the generation of airborne dust can be avoided simultaneously, there is good market popularization value.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

In figure: 1, ores lifting machine; 2, hopper; 3, multipass sort storehouse; 3-1, large ore discharging opening; 3-2, intermediate ore discharging opening; 4, one-level sorting sieve plate; 5, spring; 6, expansion link; 7, secondary sorting sieve plate; 8, retractor device; 9, large ore blanking storehouse; 10, intermediate ore blanking bin; 11, three hoppers.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described further.

As shown in Figure 1, the utility model comprises ores lifting machine 1, hopper 2, multipass sort storehouse 3, one-level sorting sieve plate 4, spring 5, expansion link 6, secondary sorting sieve plate 7, retractor device 8, large ore blanking storehouse 9 and intermediate ore blanking bin 10, the charging aperture of hopper 2 is positioned at the below of ores lifting machine 1 discharge end, multipass sort storehouse 3 is respectively equipped with charging aperture, little ore discharging opening, large ore discharging opening 3-1 and intermediate ore discharging opening 3-2, one-level sorting sieve plate 4 is movably arranged in the top inner wall of multipass sort storehouse 3 respectively by spring 5 and expansion link 6, one-level sorting sieve plate 4 tilts to be positioned at multipass sort storehouse 3, and the low order end of one-level sorting sieve plate 4 is positioned at above large ore discharging opening 3-1, secondary sorting sieve plate 7 is movably arranged on the inwall of side, multipass sort storehouse 3 by retractor device 8, and the low order end of secondary sorting sieve plate 7 is positioned at above intermediate ore discharging opening 3-2, large ore blanking storehouse 9 and intermediate ore blanking bin 10 are fixedly mounted on the outer wall in multipass sort storehouse 3 respectively, the charging aperture in large ore blanking storehouse 9 communicates with the large ore discharging opening 3-1 in multipass sort storehouse 3, the charging aperture of intermediate ore blanking bin 10 communicates with the intermediate ore discharging opening 3-2 in multipass sort storehouse 3.

Large ore discharging opening 3-1 and intermediate ore discharging opening 3-2 lays respectively at the symmetrical both sides in multipass sort storehouse 3.

Ores lifting machine 1 is belt conveyor.

Three hoppers, 11, three hoppers 11 are also had to lay respectively at the below of the discharging opening of the little ore discharging opening in multipass sort storehouse 3, large ore blanking storehouse 9 discharging opening and intermediate ore blanking bin 10.

Working method and principle: ore is fallen into hopper 2 by belt conveyor conveying, gravity, drop on one-level sorting sieve plate 4, tiny ore continues to fall through screen cloth, the ore of bulk is saved bit by bit on one-level sorting sieve plate 4, when weight exceedes certain value, pull spring 5, one-level sorting sieve plate 4 moves down, the low side of now one-level sorting sieve plate 4 communicates with large ore discharging opening 3-1, gravity, lump ore just falls into large ore blanking storehouse 9, finally falls into the hopper 11 be arranged in below the discharging opening of large ore blanking storehouse 9; In like manner drop on secondary sorting sieve plate 7, intermediate ore sorting falls into intermediate ore blanking bin 10, finally fall into the hopper 11 be arranged in below intermediate ore blanking bin 10 discharging opening, and minimum ore is by the little ore discharging opening in multipass sort storehouse 3, finally fall into the hopper 11 be arranged in below the little ore discharging opening in multipass sort storehouse 3, complete sorting.

Above embodiment is only for illustration of the utility model, and be not limitation of the utility model, the those of ordinary skill of relevant technical field, when not departing from spirit and scope of the present utility model, can also make a variety of changes and modification, therefore all equivalent.Technical scheme also belong to category of the present utility model, scope of patent protection of the present utility model should be defined by the claims.

Claims (4)

1. an energy-conservation ore screening device, it is characterized in that it comprises ores lifting machine (1), hopper (2), multipass sort storehouse (3), one-level sorting sieve plate (4), spring (5), expansion link (6), secondary sorting sieve plate (7), retractor device (8), large ore blanking storehouse (9) and intermediate ore blanking bin (10), the charging aperture of hopper (2) is positioned at the below of ores lifting machine (1) discharge end, (3) are respectively equipped with charging aperture in multipass sort storehouse, little ore discharging opening, large ore discharging opening (3-1) and intermediate ore discharging opening (3-2), one-level sorting sieve plate (4) is movably arranged in multipass sort storehouse (3) top inner wall respectively by spring (5) and expansion link (6), one-level sorting sieve plate (4) tilts to be positioned at multipass sort storehouse (3), and the low order end of one-level sorting sieve plate (4) is positioned at large ore discharging opening (3-1) top, secondary sorting sieve plate (7) is movably arranged on the inwall of multipass sort storehouse (3) side by retractor device (8), and the low order end of secondary sorting sieve plate (7) is positioned at intermediate ore discharging opening (3-2) top, large ore blanking storehouse (9) and intermediate ore blanking bin (10) are fixedly mounted on the outer wall of multipass sort storehouse (3) respectively, the charging aperture of large ore blanking storehouse (9) communicates with the large ore discharging opening (3-1) of multipass sort storehouse (3), the charging aperture of intermediate ore blanking bin (10) communicates with the intermediate ore discharging opening (3-2) of multipass sort storehouse (3).

2. the energy-conservation ore screening device of one according to claim 1, is characterized in that large ore discharging opening (3-1) and intermediate ore discharging opening (3-2) lay respectively at the symmetrical both sides in multipass sort storehouse (3).

3. the energy-conservation ore screening device of one according to claim 1, is characterized in that ores lifting machine (1) is belt conveyor.

4. the energy-conservation ore screening device of one according to claim 1, it is characterized in that three hoppers (11) in addition, three hoppers (11) lay respectively at the below of the discharging opening of the little ore discharging opening in multipass sort storehouse (3), large ore blanking storehouse (9) discharging opening and intermediate ore blanking bin (10).