CN220803768U - Automatic slag remover of slag separating screen of overflow trough of classifier for mineral separation - Google Patents

Abstract

The utility model discloses an automatic slag remover of an overflow trough slag separating screen of a classifier for mineral separation, which relates to the technical field of mineral production, and comprises an ore pulp box, a slag removing device and a driving device; the two sides of the pulp box are respectively provided with a sundries box, the top of the pulp box is provided with a baffle plate, and the baffle plate is provided with a plurality of first small holes for pulp to flow through; the slag removing device is arranged on the partition board and can transversely reciprocate, and is used for scraping sundries left on the partition board into the sundries boxes at two sides of the ore pulp box; the driving device is used for driving the slag removing device to transversely reciprocate. The utility model can remove sundries on the slag separating screen of the overflow trough of the classifier, avoid influencing the subsequent process, improve the production efficiency, and reduce the maintenance cost and the labor intensity of workers.

Description

Automatic slag remover of slag separating screen of overflow trough of classifier for mineral separation

Technical Field

The utility model relates to the technical field of ore production, in particular to an automatic slag remover of an overflow trough slag separating screen of a classifier for mineral separation.

Background

Many impurities are mixed in the ore production process, and the impurities are doped in ore pulp along with the ore entering a mill and are difficult to grind. If not cleaned out in time, the subsequent flotation operation is greatly influenced, including blocking the ore pulp conveying pipeline to influence the production process, adsorbing a large amount of flotation agents to influence the flotation recovery rate, and even influencing the subsequent regrinding effect.

The existing classifier is generally provided with a slag separation sieve in an overflow groove, and then manual timing slag removal is adopted, so that the slag removal mode has low slag removal efficiency, incomplete slag removal and increased labor intensity of operators.

In order to solve the problems, the utility model of the company, namely automatic slag removal equipment of a classifier (patent application number: 202220222080.5), mainly utilizes the sand returning principle of a spiral classifier, and impurities are lifted to the upper part of a slag remover tank body by an operating spiral to be discharged, and mixed ore pulp is discharged to a specified ore pool from the lower part of the tank body. The automatic deslagging equipment realizes automation, reduces the labor intensity of workers, has low deslagging efficiency, and still has partial impurities which can not be cleaned and enter ore pulp.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide an automatic slag remover for a slag separating screen of an overflow trough of a classifier for mineral separation, which has the advantages of simple structure, high slag removing efficiency, large treatment capacity and small occupied area.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an automatic slag remover of an overflow trough slag separating screen of a classifier for mineral separation comprises an ore pulp box, a slag removing device and a driving device; the two sides of the ore pulp box are respectively provided with a sundries box, the top of the ore pulp box is provided with a baffle plate, and the baffle plate is provided with a plurality of first small holes for ore pulp to flow through; the slag removing device is arranged on the partition board and can transversely reciprocate, and is used for scraping sundries left on the partition board into the sundries boxes at two sides of the ore pulp box; the driving device is used for driving the slag removing device to transversely reciprocate.

The further improvement is that: the slag removing device comprises a movable seat and a dustpan arranged on two sides, and the movable seat is connected with the driving device; the dustpan is connected with the movable seat through a connecting rod.

The further improvement is that: the dustpan is connected with the connecting rod through the hinged support, and a cushion block for adjusting the inclination angle of the dustpan is arranged at the bottom of the dustpan.

The further improvement is that: a frame is arranged above the ore pulp box, and the driving device comprises a motor and pulleys which are oppositely arranged; the pulleys are respectively arranged at two sides of the frame, a steel wire rope is connected between the two pulleys, and the slag removing device is connected with the steel wire rope; the motor is connected with one of the pulleys and is used for driving the pulley to rotate.

The further improvement is that: and a tensioner is arranged on the steel wire rope.

The further improvement is that: the trigger is arranged on the steel wire rope, and travel switches matched with the trigger are respectively arranged on two sides of the frame.

The further improvement is that: the bottom of the pulp tank is provided with a first pulp outlet.

The further improvement is that: the bottom of the pulp box is an inclined plane, and the first pulp outlet is positioned at the lowest position of the inclined plane.

The further improvement is that: and a second ore pulp outlet is formed in the bottom of the tidy.

The further improvement is that: a sundries basket is arranged in the sundries box, and a plurality of second small holes for ore pulp to flow through are formed in the sundries basket.

The utility model has the beneficial effects that:

The utility model can remove sundries on the slag separating screen of the overflow trough of the classifier, avoid influencing the subsequent process, improve the production efficiency, and reduce the maintenance cost and the labor intensity of workers.

Drawings

FIG. 1 is a front view of an automatic slag remover for an overflow launder slag screen of a classifier for ore dressing in an embodiment of the utility model;

FIG. 2 is a side view of an automatic slag remover for an overflow launder slag screen of a classifier for ore dressing in an embodiment of the utility model;

FIG. 3 is a top view of an automatic slag remover for an overflow launder slag screen of a classifier for ore dressing in an embodiment of the utility model;

Fig. 4 is a schematic structural diagram of a slag removing device in an embodiment of the present utility model.

Reference numerals:

1-a frame; 11-a travel switch;

2-a pulp tank; 21-a separator; 22-a first aperture; 23-a first slurry outlet; 24-inclined plane;

3-a glove box; 31-a second slurry outlet; 32-sundry basket; 33-a second aperture;

4-a slag removing device; 41-a mobile seat; 42-connecting rods; 43-a hinged support; 44-dustpan; 45-cushion blocks;

5-a driving device; 51-pulley; 52-wire rope; 53-motor; 54-tensioner; 55-flip-flop.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout.

In the description of the present utility model, it should be noted that, for the azimuth words such as the terms "center", "transverse (X)", "longitudinal (Y)", "vertical (Z)", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the azimuth and positional relationships are based on the azimuth or positional relationships shown in the drawings, only for convenience of describing the present utility model and simplifying the description, but do not indicate or imply that the apparatus or element to be referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and should not be construed as limiting the specific protection scope of the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features. Thus, the definition of "a first", "a second" feature may explicitly or implicitly include one or more of such feature, and in the description of the present utility model, the meaning of "a number", "a number" is two or more, unless otherwise specifically defined.

The technical scheme and the beneficial effects of the utility model are more clear and definite by further describing the specific embodiments of the utility model with reference to the drawings in the specification. The embodiments described below are exemplary by referring to the drawings for the purpose of illustrating the utility model and are not to be construed as limiting the utility model.

Referring to fig. 1 to 3, the embodiment of the utility model provides an automatic slag remover of an overflow trough slag separating screen of a classifier for mineral separation, which comprises a mineral slurry box 2, a slag removing device 4 and a driving device 5;

The two sides of the pulp box 2 are respectively provided with a sundries box 3, the top of the pulp box 2 is provided with a baffle plate 21, and the baffle plate 21 is provided with a plurality of first small holes 22 for pulp to flow through; specifically, the bottom of tank 2 is provided with a first slurry outlet 23. The bottom of tank 2 is sloped 24 and first slurry outlet 23 is located at the lowest point of sloped 24.

The slag removing device 4 is arranged on the baffle plate 21 and can transversely reciprocate, and is used for scraping sundries left on the baffle plate 21 into the sundries boxes 3 at two sides of the ore pulp box 2; specifically, the bottom of the glove box 3 is provided with a second slurry outlet 31. A trash basket 32 is arranged in the trash box 3, and the trash basket 32 is provided with a plurality of second small holes 33 for ore pulp to flow through.

The driving device 5 is used for driving the slag removing device 4 to transversely reciprocate.

Referring to fig. 4, the slag removing device 4 comprises a movable seat 41 and a dustpan 44 arranged on two opposite sides, wherein the movable seat 41 is connected with the driving device 5; the dustpan 44 is connected to the movable base 41 through the connecting rod 42. Specifically, the dustpan 44 is connected with the connecting rod 42 through the hinge bracket 43, and a cushion block 45 for adjusting the inclination angle of the dustpan 44 is provided at the bottom of the dustpan 44.

Referring to fig. 1-3, a frame 1 is disposed above a tank 2, and a drive unit 5 includes a motor 53 and a pulley 51 disposed opposite to each other; the pulleys 51 are respectively arranged at two sides of the frame 1, a steel wire rope 52 is connected between the two pulleys 51, and the slag removing device 4 is connected with the steel wire rope 52; a motor 53 is connected to one of the pulleys 51 for driving the pulley 51 to rotate. Specifically, a tensioner 54 and a trigger 55 are arranged on the steel wire rope 52, and travel switches 11 matched with the trigger 55 are respectively arranged on two sides of the frame 1.

The working principle of the utility model is as follows:

The device is connected to an overflow weir of the classifier, ore pulp flows to an ore pulp box body through the overflow weir of the classifier, a stainless steel baffle plate with a plurality of small holes is arranged at the upper part of the ore pulp box body, ore pulp flows to the lower part of the box body through the small holes and flows to the next procedure through an ore pulp outlet, sundries in the ore pulp are separated on the baffle plate by the baffle plate, and sundries left on the baffle plate are scraped into sundry baskets in sundry cavities at two sides of the box body by a reciprocating sundry scraping dustpan. Sundries in the sundry basket are cleaned manually and regularly.

In the description of the present utility model, a description of the terms "one embodiment," "preferred," "example," "specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model, and a schematic representation of the terms described above in the present specification does not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

From the above description of the structure and principles, it should be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, but rather that modifications and substitutions using known techniques in the art on the basis of the present utility model fall within the scope of the present utility model, which is defined by the appended claims.

Claims (10)

1. The utility model provides an automatic scarfing cinder ware of classifier overflow launder slag screen for ore dressing, includes ore pulp case (2), its characterized in that: the device also comprises a slag removing device (4) and a driving device (5);

The two sides of the ore pulp box (2) are respectively provided with a sundries box (3), the top of the ore pulp box (2) is provided with a baffle plate (21), and the baffle plate (21) is provided with a plurality of first small holes (22) for ore pulp to flow through;

The slag removing device (4) is arranged on the partition plate (21) and can transversely reciprocate, and is used for scraping sundries left on the partition plate (21) into the sundries boxes (3) at two sides of the ore pulp box (2);

the driving device (5) is used for driving the slag removing device (4) to transversely reciprocate.

2. The automatic slag remover for the slag separating screen of the overflow trough of the classifier for mineral separation according to claim 1, wherein the automatic slag remover is characterized in that: the slag removing device (4) comprises a movable seat (41) and a dustpan (44) arranged on two sides, wherein the movable seat (41) is connected with the driving device (5); the dustpan (44) is connected with the movable seat (41) through a connecting rod (42).

3. The automatic slag remover for the slag separating screen of the overflow trough of the classifier for mineral separation according to claim 2, wherein the automatic slag remover is characterized in that: the dustpan (44) is connected with the connecting rod (42) through the hinged support (43), and a cushion block (45) for adjusting the inclination angle of the dustpan (44) is arranged at the bottom of the dustpan (44).

4. The automatic slag remover for the slag separating screen of the overflow trough of the classifier for mineral separation according to claim 1, wherein the automatic slag remover is characterized in that: a frame (1) is arranged above the ore pulp box (2), and the driving device (5) comprises a motor (53) and pulleys (51) which are oppositely arranged; the pulleys (51) are respectively arranged at two sides of the frame (1), a steel wire rope (52) is connected between the two pulleys (51), and the slag removing device (4) is connected with the steel wire rope (52); the motor (53) is connected with one pulley (51) and is used for driving the pulley (51) to rotate.

5. The automatic slag remover for the overflow trough slag separating screen of the classifier for mineral separation according to claim 4, wherein the automatic slag remover is characterized in that: a tensioner (54) is arranged on the steel wire rope (52).

6. The automatic slag remover for the overflow trough slag separating screen of the classifier for mineral separation according to claim 4, wherein the automatic slag remover is characterized in that: the trigger (55) is arranged on the steel wire rope (52), and travel switches (11) matched with the trigger (55) are respectively arranged on two sides of the frame (1).

7. The automatic slag remover for the slag separating screen of the overflow trough of the classifier for mineral separation according to claim 1, wherein the automatic slag remover is characterized in that: the bottom of the pulp box (2) is provided with a first pulp outlet (23).

8. The automatic slag remover for the slag separating screen of the overflow trough of the classifier for mineral separation according to claim 7, wherein the automatic slag remover is characterized in that: the bottom of the ore pulp box (2) is an inclined plane (24), and the first ore pulp outlet (23) is positioned at the lowest position of the inclined plane (24).

9. The automatic slag remover for the slag separating screen of the overflow trough of the classifier for mineral separation according to claim 1, wherein the automatic slag remover is characterized in that: the bottom of the glove box (3) is provided with a second ore pulp outlet (31).

10. The automatic slag remover for the slag separating screen of the overflow trough of the classifier for mineral separation according to claim 9, wherein the automatic slag remover is characterized in that: a sundries basket (32) is arranged in the sundries box (3), and a plurality of second small holes (33) for ore pulp to flow through are formed in the sundries basket (32).