CN211914557U - Screening device for copper ore dump leaching slag - Google Patents

Abstract

The utility model relates to a slay field of handling, and a sieving mechanism of copper mine heap leaching sediment is disclosed, including the first screening frame of copper mine heap leaching sediment, the first screening frame of copper mine heap leaching sediment is square frame column structure, the inside of the first screening frame of copper mine heap leaching sediment is hollow, the first screening frame of copper mine heap leaching sediment is made by the metal, the bottom surface fixed mounting of the first screening frame of copper mine heap leaching sediment has the first screening frame filter screen of copper mine heap leaching sediment, the first screening frame filter screen of copper mine heap leaching sediment is the cuboid structure, the first screening frame filter screen of copper mine heap leaching sediment is made by the metal, the filtration pore has been seted up on the surface of the first screening frame filter screen of copper mine heap leaching sediment, the right side limit fixed mounting of the first screening frame of copper mine heap leaching sediment has right electric telescopic handle, right side is electronic for the cuboid structure. The utility model discloses in, through making copper ore heap leach the sediment through the first screening frame filter screen of copper ore heap leaching sediment and copper ore heap leaching sediment second screening frame filter screen respectively, reached the effect of leaching the sediment multilayer screening with the copper ore heap.

Description

Screening device for copper ore dump leaching slag

Technical Field

The utility model relates to a slay field of handling especially relates to a sieving mechanism of copper mine heap leaching sediment.

Background

Heap leaching is a process in which a heap of ore is sprayed with a leaching solution to selectively leach out the valuable components of the ore during the downward infiltration process, and the valuable components are recovered from the pregnant solution flowing out of the bottom of the heap. According to different ore grades, the method can be divided into ore heap leaching and waste rock heap leaching; depending on the location of the yard, there are categories of surface heap leaching and underground heap leaching. The heap leaching method is mainly applied to the mining of copper ores, uranium ores, gold ores and silver ores and the treatment of smelting plant slag and dressing plant tailings containing used components. The heap leaching method has simple process, less equipment and low energy consumption, so the capital investment and the production cost are low; the main disadvantage is the low leaching rate of the useful components in the ore. The existing screening device for the copper ore heap leaching slag in the current market cannot carry out multilayer screening on the copper ore heap leaching slag. Therefore, the screening device for the copper ore heap leaching slag is provided.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problems in the prior art and provides a screening device for copper ore heap leaching slag.

In order to achieve the above purpose, the utility model adopts the following technical scheme, a screening device of copper ore heap leaching residue, which comprises a first screening frame of copper ore heap leaching residue, wherein the first screening frame of copper ore heap leaching residue is in a square frame structure, the inside of the first screening frame of copper ore heap leaching residue is hollow, the first screening frame of copper ore heap leaching residue is made of metal, a first screening frame filter screen of copper ore heap leaching residue is fixedly arranged on the bottom surface of the first screening frame of copper ore heap leaching residue, the first screening frame filter screen of copper ore heap leaching residue is in a cuboid structure, the first screening frame filter screen of copper ore heap leaching residue is made of metal, the surface of the first screening frame filter screen of copper ore heap leaching residue is provided with filter holes, the right side edge of the first screening frame of copper ore heap leaching residue is fixedly provided with a right electric telescopic rod, the right electric telescopic rod is in a cuboid structure, and the right electric telescopic rod can vibrate up and down under the action of a controller, the right electric telescopic rod is a disclosed technology and is not described in detail herein, a left electric telescopic rod is fixedly installed at the left side edge of the first screening frame for copper ore heap leaching residue, the left electric telescopic rod is of a cuboid structure, can vibrate up and down under the action of the controller, is a disclosed technology, not described in detail, a second screening frame for leaching residues in the copper ore heap is arranged below the first screening frame for leaching residues in the copper ore heap, the second screening frame for the leaching residues in the copper ore heap is of a square frame structure, the interior of the second screening frame for the leaching residues in the copper ore heap is hollow, the second screening frame of the copper ore heap leaching residue is made of metal, a second screening frame filter screen of the copper ore heap leaching residue is fixedly arranged on the bottom surface of the second screening frame of the copper ore heap leaching residue, the second screening frame filter screen of the leaching residue is of a cuboid structure, and is made of metal.

Preferably, the surface of the second screening frame filter screen for the copper ore heap leaching residue is also provided with filter holes, and the diameter of the filter holes in the surface of the second screening frame filter screen for the copper ore heap leaching residue is half of that of the filter holes in the surface of the first screening frame filter screen for the copper ore heap leaching residue.

Preferably, the copper ore heap leaching residue second screening frame is located between the left electric telescopic rod and the right electric telescopic rod, the outer side edge of the copper ore heap leaching residue second screening frame is fixedly connected with one side, close to the center of the interior of the copper ore heap leaching residue second screening frame, of the right electric telescopic rod and the left electric telescopic rod, and the copper ore heap leaching residue collecting box is fixedly mounted on the bottom surface of the left electric telescopic rod.

Preferably, the copper ore heap leaching residue collecting box is of a cuboid structure, the copper ore heap leaching residue collecting box is made of metal, and the interior of the copper ore heap leaching residue collecting box is hollow.

Advantageous effects

The utility model provides a sieving mechanism of copper mine heap leaching sediment. The method has the following beneficial effects:

(1) the copper ore heap leaching slag screening device places the copper ore heap leaching slag in a first screening frame of the copper ore heap leaching slag, enables a right electric telescopic rod and a left electric telescopic rod to work and move up and down through a controller, so that the copper ore leaching residues in the first screening frame of the copper ore leaching residues are shaken to fall into the second screening frame of the copper ore leaching residues through the filtering holes arranged on the surface of the filtering net of the first screening frame of the copper ore leaching residues, because the diameter of the filter hole on the surface of the filter screen of the second screening frame for leaching the copper ore heap leaching residue is half of the diameter of the filter hole on the surface of the filter screen of the first screening frame for leaching the copper ore heap leaching residue, the second screening frame for leaching the copper ore heap leaching residue is driven by the right electric telescopic rod and the left electric telescopic rod to continuously vibrate, and the filter screen of the second screening frame for leaching the copper ore heap leaching residue on the bottom surface of the second screening frame for leaching the copper ore heap leaching residue shakes and falls the finer copper ore heap leaching residue into the copper ore heap leaching residue collecting box, so that the effect of carrying out multilayer screening on the copper ore heap leaching residue is achieved.

(2) The copper ore heap leaching slag screening device places the copper ore heap leaching slag in a first screening frame of the copper ore heap leaching slag, enables a right electric telescopic rod and a left electric telescopic rod to work and move up and down through a controller, so that the copper ore leaching residues in the first screening frame of the copper ore leaching residues are shaken to fall into the second screening frame of the copper ore leaching residues through the filtering holes arranged on the surface of the filtering net of the first screening frame of the copper ore leaching residues, because the diameter of the filter hole on the surface of the filter screen of the second copper ore heap leaching residue screening frame is half of the diameter of the filter hole on the surface of the filter screen of the first copper ore heap leaching residue screening frame, the second copper ore heap leaching residue screening frame is driven by the right electric telescopic rod and the left electric telescopic rod to continuously vibrate, and the filter screen of the second copper ore heap leaching residue screening frame positioned on the bottom surface of the second copper ore heap leaching residue screening frame shakes and falls the finer copper ore heap leaching residue into the copper ore heap leaching residue collecting box, so that the convenient use effect is achieved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a second screening frame for leaching slag in a copper ore heap according to the present invention;

fig. 3 is the first screening frame filter screen structure schematic diagram of the copper ore heap leaching sediment of the utility model.

Illustration of the drawings:

1 first screening frame of copper ore heap leaching sediment, 2 first screening frame filter screens of copper ore heap leaching sediment, 3 right electric telescopic handle, 4 left electric telescopic handle, 5 second screening frames of copper ore heap leaching sediment, 6 second screening frame filter screens of copper ore heap leaching sediment, 7 copper ore heap leaching sediment collecting boxes.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example (b): a screening device for copper ore heap leaching residues is disclosed, as shown in figures 1-3, and comprises a first screening frame 1 of copper ore heap leaching residues, wherein the first screening frame 1 of copper ore heap leaching residues is of a square frame structure, the inside of the first screening frame 1 of copper ore heap leaching residues is hollow, the first screening frame 1 of copper ore heap leaching residues is made of metal, a first screening frame filter screen 2 of copper ore heap leaching residues is fixedly arranged on the bottom surface of the first screening frame 1 of copper ore heap leaching residues, the first screening frame filter screen 2 of copper ore heap leaching residues is of a cuboid structure, the first screening frame filter screen 2 of copper ore heap leaching residues is made of metal, filter holes are formed in the surface of the first screening frame filter screen 2 of copper ore heap leaching residues, a right electric telescopic rod 3 is fixedly arranged on the right side edge of the first screening frame 1 of copper ore heap leaching residues, the right electric telescopic rod 3 is of a cuboid structure, the right electric telescopic rod 3 can vibrate up and down under the action of a controller, the right electric telescopic rod 3 is a disclosed technology, and details are not repeated here, the left side edge of the first copper ore heap leaching residue screening frame 1 is fixedly provided with a left electric telescopic rod 4, the left electric telescopic rod 4 is of a cuboid structure, the left electric telescopic rod 4 can vibrate up and down under the action of a controller, the left electric telescopic rod 4 is a disclosed technology, details are not repeated here, a second copper ore heap leaching residue screening frame 5 is arranged below the first copper ore heap leaching residue screening frame 1, the second copper ore heap leaching residue screening frame 5 is of a square frame structure, the inside of the second copper ore heap leaching residue screening frame 5 is hollow, the second copper ore heap leaching residue screening frame 5 is made of metal, a second copper ore heap leaching residue screening frame filter screen 6 is fixedly arranged on the bottom surface of the second copper ore heap leaching residue screening frame 5, and the second copper ore heap leaching residue screening frame filter screen 6 is of a cuboid structure, the second screening frame filter screen 6 of the copper ore heap leaching residue is made of metal, the surface of the second screening frame filter screen 6 of the copper ore heap leaching residue is also provided with filter holes, the diameter of the surface filtering hole of the second screening frame filter screen 6 of the copper ore heap leaching residue is half of the diameter of the surface filtering hole of the first screening frame filter screen 2 of the copper ore heap leaching residue, the second screening frame 5 for the leaching residues of the copper ore heap is positioned between the left electric telescopic rod 4 and the right electric telescopic rod 3, the outer side edge of the second screening frame 5 for the leaching residues of the copper ore heap is fixedly connected with the right electric telescopic rod 3 and one side of the left electric telescopic rod 4 close to the inner center of the second screening frame 5 for the leaching residues of the copper ore heap, the bottom surface of the left electric telescopic rod 4 is fixedly provided with a copper ore heap leaching residue collecting box 7, the copper ore heap leaching residue collecting box 7 is of a cuboid structure, the copper ore heap leaching residue collection box 7 is made of metal, and the interior of the copper ore heap leaching residue collection box 7 is hollow.

The utility model discloses a theory of operation:

when in use, the copper ore heap leaching slag is placed in the first screening frame 1 of the copper ore heap leaching slag, at the moment, the right electric telescopic rod 3 and the left electric telescopic rod 4 work and move up and down through the controller, so that the copper ore leaching residues in the first screening frame 1 of the copper ore leaching residues are shaken to fall into the second screening frame 5 of the copper ore leaching residues through the filtering holes arranged on the surface of the first screening frame 2 of the copper ore leaching residues, because the diameter of the filter holes on the surface of the copper ore heap leaching residue second screening frame filter screen 6 is half of the diameter of the filter holes on the surface of the copper ore heap leaching residue first screening frame filter screen 2, the copper ore heap leaching residue second screening frame 5 is driven to continuously vibrate by the right electric telescopic rod 3 and the left electric telescopic rod 4, and the finer copper ore heap leaching residue second screening frame filter screen 6 on the bottom surface of the copper ore heap leaching residue second screening frame 5 shakes and falls into the copper ore heap leaching residue collecting box 7.

Finally, it should be noted that the above embodiments are merely representative examples of the present invention. Obviously, the present invention is not limited to the above-described embodiments, and many modifications are possible. Any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should be considered as belonging to the protection scope of the present invention.

Claims (5)

1. The utility model provides a sieving mechanism of copper ore heap leaching sediment, includes the first screen frame of copper ore heap leaching sediment (1), its characterized in that: the bottom surface fixed mounting that the first screening frame of copper ore heap leaching sediment (1) had the first screening frame filter screen of copper ore heap leaching sediment (2), the first screening frame filter screen of copper ore heap leaching sediment (2) is the cuboid structure, the first screening frame filter screen of copper ore heap leaching sediment (2) is made by the metal, the filtration pore has been seted up on the surface of the first screening frame filter screen of copper ore heap leaching sediment (2), the right side limit fixed mounting that the first screening frame of copper ore heap leaching sediment (1) has right electric telescopic handle (3), the left side limit fixed mounting that the first screening frame of copper ore heap leaching sediment (1) has left electric telescopic handle (4), the below that the first screening frame of copper ore heap leaching sediment (1) is provided with copper ore heap leaching sediment second screening frame (5), the bottom surface fixed mounting that the second screening frame of copper ore heap leaching sediment (5) has copper ore heap leaching sediment second screening frame filter screen (6), the left electric telescopic handle (4) and right electric telescopic handle are located to the second screening frame of copper ore heap leaching sediment (5), the second screening frame (5) of copper ore heap leaching sediment (5) is located 3) The outer side edge of the copper ore heap leaching residue second screening frame (5) is fixedly connected with one side of the inner center of the right electric telescopic rod (3) and the left electric telescopic rod (4) approaching to the copper ore heap leaching residue second screening frame (5), and a copper ore heap leaching residue collecting box (7) is fixedly mounted on the bottom surface of the left electric telescopic rod (4).

2. The screening device of the copper ore heap leaching slag according to claim 1, characterized in that: the first screening frame (1) of the copper ore heap leaching residue is of a square frame-shaped structure, the inside of the first screening frame (1) of the copper ore heap leaching residue is hollow, and the first screening frame (1) of the copper ore heap leaching residue is made of metal.

3. The screening device of the copper ore heap leaching slag according to claim 1, characterized in that: the second screening frame (5) of the copper ore heap leaching residues is of a square frame-shaped structure, the inside of the second screening frame (5) of the copper ore heap leaching residues is hollow, and the second screening frame (5) of the copper ore heap leaching residues is made of metal.

4. The screening device of the copper ore heap leaching slag according to claim 1, characterized in that: copper mine heap leaching sediment second screening frame filter screen (6) is the cuboid structure, copper mine heap leaching sediment second screening frame filter screen (6) is made by the metal, the filtration pore has also been seted up on the surface of copper mine heap leaching sediment second screening frame filter screen (6), the diameter in copper mine heap leaching sediment second screening frame filter screen (6) surface filtration pore is half of the first screening frame filter screen of copper mine heap leaching sediment (2) surface filtration pore diameter.

5. The screening device of the copper ore heap leaching slag according to claim 1, characterized in that: the copper ore heap leaching residue collection box (7) is of a cuboid structure, the copper ore heap leaching residue collection box (7) is made of metal, and the interior of the copper ore heap leaching residue collection box (7) is hollow.

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