CN203682652U - Cylindrical storing cabin for mineral separation - Google Patents

Abstract

The utility model provides a cylindrical storing cabin for mineral separation applied to the technical field of mineral engineering. The cylindrical storing cabin for mineral separation comprises a hollow storing cabin body (1), wherein a belt head wheel inlet (2) is formed in an inlet of the storing cabin body (1); a plurality of unloading openings (3) are formed in the bottom of the storing cabin body (1); a disk feeding machine (4) is arranged below each unloading opening (3). The cylindrical storing cabin is characterized in that an inclined material mixing plate (5) is arranged in the belt head wheel inlet (2), so that the cylindrical storing cabin is not blocked in a using process by one or more technical characteristics in the technical scheme, the cylindrical storing cabin is not cleaned any more, the production efficiency of mineral separation is greatly improved, the monthly yield is increased, and the production cost is reduced.

Description

A kind of ore dressing cylinder storage bin

Technical field

The utility model belongs to Mineral Engineering technique of preparing field, more particularly, relates to a kind of ore dressing cylinder storage bin.

Background technology

Cylinder storage bin is the intermediate bunker that enrichment plant stores the ore supply ball grinding mill raw material after fragmentation, and its effect is to regulate crushing system and milling system to produce, and at the bottom of storehouse, is ball grinding mill feed by two disk feeders.After putting into operation for many years, attractive mineral raw material often stops up at cylinder storage bin feed opening, for guaranteeing to produce, adopt and manually disclose the way that ore deposit, Qing Kuang combine, worker Yong Tie pavilion, spade, pick are disclosed ore deposit, Qing Kuang, make the ore blanking of flowing, according to how many frequent start-stop milling systems of ore blanking, stopping up when serious also to organize explosion personnel to blow outlet with a small amount of explosive, detonator blasting, then adopt labor cleaning's way, labour intensity is large, equipment attrition is serious and be absolutely unsafe, and has a strong impact on normal production, and production efficiency is low.For the problems referred to above, feed bin structure and increase Cleaning device for pipeline change in prior art: if patent (application) number is that 200820011767 patents are settings of bin device, its constructional feature is, on the sidewall of feed opening top of feed bin, breather pipe is set, on the wall of breather pipe, being air extractor vent, is a kind of bin device that prevents that alumina powder from piling up, stopping up; And for example " sulphur phosphorus design and powder technology " article of 31 pages at the bottom of the 1st phase in 2007: the application of light-duty air cannon block clearer in building materials of gypsum silo design, illustrated that air cannon block clearer is a kind of desirable Cleaning device for pipeline, and have energy consumption low, invest the features such as little, easy care.Above-mentioned two schemes all has specific specific aim, and single scheme is difficult to form actv. prevention, processes the obstruction of sticking attractive mineral.Fig. 1 is the structural representation of a kind of cylinder storage bin of the prior art.

Utility model content

Technical problem to be solved in the utility model is: for prior art deficiency, provide one can prevent that cylinder storage bin from stopping up, and guarantees the ore dressing of normally the carrying out cylinder storage bin of safety in production.

Solve above-described technical matters, the technical scheme that the utility model is taked is:

The utility model is a kind of ore dressing cylinder storage bin, comprise the storage bin body of hollow, storage bin body import position arranges belt great wheel feed openings, described storage bin body bottom arranges multiple feed openings, the below of each feed opening arranges respectively a disk feeder, in described belt great wheel feed openings, arranges and is the batch mixing plate being in tilted layout.

Described storage bin body comprises body bottom, body bottom is set to be circular cone hole shape structure, the surface of body bottom arranges along the circular cone hole shape structure Polymer slide plate of a week, and the angle between described body lower surface and discharging opening end face is arranged between 55 °-70 °.

Multiple air bubble I that extend to storage bin body interior are set on the body sidewall of described storage bin body, between described multiple air bubble I, be set to the structure of arranging by levels, multiple gun muzzle I of multiple air bubble I are all set to downward-sloping structure, between multiple air bubble I of arranging by levels, form an air bubble assembly.

Described multiple disk feeders comprise respectively taper bucket, and multiple air bubble II are respectively set on the sidewall of each taper bucket, and gun muzzle II of air bubble II is set to downward-sloping structure.

On the body sidewall of described storage bin body, within one week, arrange many group air bubble assemblies along body sidewall, the pressure of each air bubble I is arranged between 0.8-1.6MPa, and the angle between gun muzzle I and the sled surface of each air bubble I is arranged between 40 °-50 °.

Angle between described batch mixing plate and feed openings end face is arranged between 25 °-50 °.

Described multiple air bubble big gun I are all set to the structure through the slide plate of body bottom.

On the taper bucket of each disk feeder, multiple residue-removing openings are set respectively, each residue-removing opening be all set to this taper bucket on gun muzzle II be not arranged in the structure of same level.

Adopt the technical solution of the utility model, can obtain following beneficial effect:

Ore dressing described in the utility model cylinder storage bin, by adopting a kind of or its combination of the technical characterictic in technique scheme, cylinder storage bin in use no longer stops up, need not clear up it again, improve greatly mineral processing production efficiency, improved monthly output, reduced productive costs.

Accompanying drawing explanation

Mark in the each accompanying drawing of this specification sheets expressed content and figure is made to brief description below:

Fig. 1 is the structural representation of ore dressing described in the utility model cylinder storage bin;

Fig. 2 is the structural representation of a kind of embodiment of ore dressing of the prior art cylinder storage bin;

Mark in accompanying drawing: 1, storage bin body; 2, belt great wheel feed openings; 3, feed opening; 4, disk feeder; 5, batch mixing plate; 6, body bottom; 7, Polymer slide plate; 8, discharging opening end face; 9, feed openings end face; 10, body sidewall; 11, air bubble I; 12, gun muzzle I; 13, air bubble assembly; 14, taper bucket; 15, air bubble II; 16, gun muzzle II; 17, residue-removing opening.

The specific embodiment

Contrast accompanying drawing below, by the description to embodiment, the specific embodiment of the present utility model is described in further detail as effect and the principle of work etc. of the mutual alignment between the shape of related each member, structure, each several part and annexation, each several part:

As shown in Figure 1, the utility model is a kind of ore dressing cylinder storage bin, comprise the storage bin body 1 of hollow, storage bin body 1 import position arranges belt great wheel feed openings 2, described storage bin body 1 bottom arranges multiple feed openings 3, the below of each feed opening 3 arranges respectively a disk feeder 4, and described belt great wheel feed openings 2 interior settings are the batch mixing plate 5 being in tilted layout.

Described storage bin body 1 comprises body bottom 6, body bottom 6 is set to be circular cone hole shape structure, the surface of body bottom 6 arranges along the circular cone hole shape structure Polymer slide plate 7 of a week, and the angle between described 6 surfaces, body bottom and discharging opening end face 8 is arranged between 55 °-70 °.

Multiple air bubble I 11 that extend to storage bin body 1 inside are set on the body sidewall 10 of described storage bin body 1, between described multiple air bubble I 11, be set to the structure of arranging by levels, multiple gun muzzle I 12 of multiple air bubble I 11 are all set to downward-sloping structure, between multiple air bubble I 11 of arranging by levels, form an air bubble assembly 13.

Described multiple disk feeders 4 comprise respectively taper bucket 14, and multiple air bubble II 15 are respectively set on the sidewall of each taper bucket 14, and gun muzzle II 16 of air bubble II 15 is set to downward-sloping structure.

On the body sidewall 10 of described storage bin body 1, within 10 1 weeks, arrange many group air bubble assemblies 13 along body sidewall, the pressure of each air bubble I 11 is arranged between 0.8-1.6MPa, and the angle between gun muzzle I 12 of each air bubble I 11 and slide plate 7 surfaces is arranged between 40 °-50 °.

Angle between described batch mixing plate 5 and feed openings end face 9 is arranged between 25 °-50 °.

Described multiple air bubble big gun I 11 are all set to the structure through the slide plate 7 of body bottom 6.

Multiple residue-removing openings 17 are set respectively on the taper bucket 14 of each disk feeder 4, each residue-removing opening 17 be all set to this taper bucket 14 on gun muzzle II 16 be not arranged in the structure of same level.

Ore dressing described in the utility model cylinder storage bin, by adopting a kind of or its combination in technique scheme, all can reach and stop cylinder storage bin that the object of stopping up in use occurs, but adopt technique scheme more, the effect that prevents the obstruction of raw material storage bin is just better, 5 kinds of technical schemes below the present invention being taked are described in further detail, to help those skilled in the art to have more complete, accurate and deep understanding to inventive concept of the present invention, technical scheme.

1) raw material that, enters cylinder storage bin forms after 4 belts are had bad luck, become thick, thin two parts directly to enter cylinder feed bin at this process Raw along belt centerline Natural classification, wherein coarse fraction feed opening 3 is difficult for stopping up, fine fraction feed opening 3 stops up gradually, until block completely.Add batch mixing plate (angle between batch mixing plate 5 and feed openings end face 9) at belt great wheel feed openings place for this reason, make raw material enter cylinder storage bin from belt one side after batch mixing plate mixes, mixed raw material is homogeneous material substantially and is difficult for stopping up.

2) when, the body of cylinder storage bin bottom is flat, raw material is easily slowly piled up, the space of feed opening can be more and more less, finally form and stop up, make body bottom into circular cone hole shape structure for this reason, for reducing friction coefficient, Polymer slide plate is installed in body lower surface, after transformation, raw material is just difficult for piling up simultaneously.

3), in process of production,, in order to prevent that cylinder storage bin from stopping up or having fraction latch up phenomenon on the Polymer slide plate at the bottom of cone row, while needing external force cleaning, point air bubble that upper and lower multilayer is arranged is installed on the bulkhead of cylinder storage bin.Operative employee needs operation in time according to the not smooth abnormal condition of blanking, utilizes the high blast air of high pressure to be used as power, and destroys the foundation that buildup goes out, and solves in time latch up phenomenon.

4) the capable bucket of cone of the disk feeder, under cylinder storage bin also easily buildup result in blockage, on tapered headwall, air bubble is installed, while running into the not smooth situation of blanking for this reason, first drive air bubble, break up buildup, then the vibrator of open disk feeder, make supports for material down-sliding, reach the object of smooth feeding.

5), in order to prevent that sometimes raw material viscosity is large and moisture is also larger, after all being used, above way also has obstruction, the not smooth situation of blanking, knowhow during according to labor cleaning before, on cone row bucket, output residue-removing opening (for avoiding air bubble position, each residue-removing opening 17 be all set to this taper bucket 14 on gun muzzle II 16 be not arranged in the structure of same level), process latch up phenomenon in the outer way of carrying out manual breakage buildup foundation of cone row bucket, so not only safely but also can guarantee normally carrying out of production.

Ore dressing described in the utility model cylinder storage bin, by adopting a kind of or its combination in technique scheme, cylinder storage bin in use no longer stops up, and need not clear up it again, improve greatly mineral processing production efficiency, improved monthly output, reduced productive costs.

By reference to the accompanying drawings the utility model is carried out to exemplary description above; obviously the concrete realization of the utility model is not subject to the restrictions described above; as long as the various improvement that adopted method design of the present utility model and technical scheme to carry out; or without improving, design of the present utility model and technical scheme are directly applied to other occasions, all in protection domain of the present utility model.

Claims (8)

1. an ore dressing cylinder storage bin, comprise the storage bin body (1) of hollow, storage bin body (1) import position arranges belt great wheel feed openings (2), described storage bin body (1) bottom arranges multiple feed openings (3), the below of each feed opening (3) arranges respectively a disk feeder (4), it is characterized in that: in described belt great wheel feed openings (2), arrange and be the batch mixing plate (5) being in tilted layout.

2. ore dressing according to claim 1 cylinder storage bin, it is characterized in that: described storage bin body (1) comprises body bottom (6), body bottom (6) is set to be circular cone hole shape structure, the surface of body bottom (6) arranges along the circular cone hole shape structure Polymer slide plate (7) of a week, and the angle between described surface, body bottom (6) and discharging opening end face (8) is arranged between 55 °-70 °.

3. ore dressing according to claim 1 and 2 cylinder storage bin, it is characterized in that: multiple inner air bubble I (11) of storage bin body (1) that extend to are set on the body sidewall (10) of described storage bin body (1), between described multiple air bubble I (11), be set to the structure of arranging by levels, multiple gun muzzle I (12) of multiple air bubble I (11) are all set to downward-sloping structure, between multiple air bubble I (11) of arranging by levels, form an air bubble assembly (13).

4. ore dressing according to claim 3 cylinder storage bin, it is characterized in that: described multiple disk feeders (4) comprise respectively taper bucket (14), multiple air bubble II (15) are respectively set on the sidewall of each taper bucket (14), and gun muzzle II (16) of air bubble II (15) is set to downward-sloping structure.

5. ore dressing according to claim 4 cylinder storage bin, it is characterized in that: the body sidewall (10) of described storage bin body (1) is upper along (10) one weeks layout many groups air bubble assemblies (13) of body sidewall, the pressure of each air bubble I (11) is arranged between 0.8-1.6MPa, and the angle between gun muzzle I (12) of each air bubble I (11) and slide plate (7) surface is arranged between 40 °-50 °.

6. ore dressing according to claim 5 cylinder storage bin, is characterized in that: the angle between described batch mixing plate (5) and feed openings end face (9) is arranged between 25 °-50 °.

7. ore dressing according to claim 5 cylinder storage bin, is characterized in that: described multiple air bubble big gun I (11) are all set to the structure through the slide plate (7) of body bottom (6).

8. ore dressing according to claim 6 cylinder storage bin, it is characterized in that: on the taper bucket (14) of each disk feeder (4), multiple residue-removing openings (17) are set respectively, each residue-removing opening (17) be all set to this taper bucket (14) on gun muzzle II (16) be not arranged in the structure of same level.

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