CN217093925U - Tailing discharging structure of flotation machine - Google Patents

Abstract

The utility model discloses a flotation device tailing ore discharge structure relates to flotation device technical field. The device comprises a reaction box, wherein an opening is formed in the top of the reaction box, a mine discharging square pipe communicated with the interior of the reaction box is fixedly connected to the bottom end of one side of the exterior of the reaction box, and a driving unit is installed at one end of the top of the reaction box; the output end of the driving unit is fixedly connected with a stirring impeller, and the stirring impeller is contacted with the bottom end in the reaction box; the inside of the reaction box is fixedly connected with a separation net which is arranged between the driving unit and the stirring impeller. The utility model discloses an electric hydraulic cylinder promotes to dial the arm and makes the gathering remove the setting of the filtration pore separation of the separation net other end at the large granule mineral that can suspend of separation net bottom, has realized that the flotation device tailing when ore discharge, and the liquid level can tend to a comparatively stable state, has reduced the production of the phenomenon that the ore pulp splashes, has increased the stability of flotation device when ore discharge.

Description

Tailing discharging structure of flotation machine

Technical Field

The utility model relates to a flotation device technical field specifically is flotation device tailings ore discharge structure.

Background

At present, a flotation machine is commonly used for mineral separation, when the flotation machine works, an inner impeller of the flotation machine rotates to generate a centrifugal effect to form negative pressure, on one hand, sufficient air is sucked to be mixed with ore pulp, on the other hand, the ore pulp is stirred to be mixed with medicines, meanwhile, foams are refined, the minerals adhere to the foams and float to the surface of the ore pulp to form mineralized foams, and useful foams are scraped out by a scraper plate, so that the mineral separation is realized.

Most flotation devices on the market are in actual use, and the arrangement of ore pulp particles inside the flotation devices is complicated, so that the phenomenon that the flotation liquid level is unstable and ore pulp splashes often occurs when the flotation devices discharge ores, and a novel device is provided for solving the existing problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flotation device tailing ore discharging structure to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the tailing discharging structure of the flotation machine comprises a reaction box, wherein an opening is formed in the top of the reaction box, a discharging square pipe communicated with the inside of the reaction box is fixedly connected to the bottom end of one side of the outside of the reaction box, and a driving unit is installed at one end of the top of the reaction box;

the output end of the driving unit is fixedly connected with a stirring impeller, and the stirring impeller is contacted with the bottom end in the reaction box;

a separation net is fixedly connected inside the reaction box, the separation net is arranged between the driving unit and the stirring impeller, and two ends inside the separation net are respectively provided with filtering holes with different sizes;

an electric hydraulic cylinder is fixedly mounted on the other side of the outer portion of the reaction box, the output end of the electric hydraulic cylinder penetrates through the inner portion of the reaction box and is fixedly connected with a poking arm, and a gap is reserved between the top of the poking arm and the bottom of the separation net.

Preferably, one end of the top of the reaction box is fixedly connected with an assembly frame, the driving unit is arranged at two ends outside the assembly frame, and the driving unit is connected with the reaction box through the assembly frame;

the drive unit comprises a rotating motor and a drive shaft, the rotating motor and the drive shaft are driven by a triangular belt, and the bottom end of the drive shaft is fixed with the top end of the stirring impeller.

Preferably, one end of the outside of the reaction box is fixedly connected with a liquid injection pipe communicated with the inside of the reaction box, and electronic shutoff valves are fixedly installed in the liquid injection pipe and the ore discharge square pipe respectively;

the circulation breach has been seted up on the top of reaction box one side, the top fixedly connected with steadying frame of the square pipe of ore discharge, the basin has been placed at the top of steadying frame, the laminating of the outside of one side of storing the basin and reaction box, the total height that stores basin and steadying frame will be less than the lowest height of circulation breach.

Preferably, a kickoff is fixedly mounted at one end of the top of the reaction box, and the kickoff comprises an output motor, a rotating shaft and a kickoff scraper mounted outside the rotating shaft;

the output motor is fixed at the top of one end of the reaction box, the output end of the output motor is fixed with one end of the rotating shaft, and the other end of the rotating shaft is rotatably connected with the top of the other end of the reaction box.

Preferably, the bottom end inside the reaction box is fixedly connected with a plurality of flow distribution heads which are uniformly arranged at equal angles outside the stirring impeller.

Preferably, the electric hydraulic cylinder is formed by connecting two small-sized voltage cylinders in parallel, the number of the poking arms is two, and the top parts of the two poking arms are fixedly connected with grinding steel brushes.

Compared with the prior art, the beneficial effects of the utility model are that:

this flotation device tailing ore discharge structure promotes through electric hydraulic cylinder and dials the setting that the movable arm makes the large granule mineral that can suspend of gathering in the separation net bottom remove the filtration pore separation of the separation net other end, has realized that the flotation device tailing when ore discharge, and the liquid level can tend to a comparatively stable state, has reduced the production of the phenomenon that the ore pulp splashes, has increased the stability of flotation device when ore discharge.

This flotation device tailing ore discharge structure through the setting at the fixed grinding steel brush in the top of stirring the arm, has realized that the device can be with some suspensible large granules by grinding the steel brush and grind and be less suspended particle when ore discharge to separate along the separation net midway, improved and separated efficiency, increased the stability of flotation device when ore discharge.

Drawings

Fig. 1 is an isometric view of the present invention;

FIG. 2 is an internal assembly diagram of the present invention;

fig. 3 is an exploded view of the internal assembly of the present invention.

In the figure: 1. a reaction box; 2. a liquid injection pipe; 3. a mine discharging square pipe; 4. storing the basin; 5. a kickoff machine; 6. an assembly frame; 7. driving the machine set; 8. an electric hydraulic cylinder; 9. a separation net; 10. a stirring impeller; 11. separating the pulp; 12. a poke arm.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that, in the description of the present invention, the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for the convenience of description and simplification of the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Further, it will be appreciated that the dimensions of the various elements shown in the figures are not drawn to scale, for ease of description, and that the thickness or width of some layers may be exaggerated relative to other layers, for example.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus, once an item is defined or illustrated in one figure, it will not need to be further discussed or illustrated in detail in the description of the following figure.

As shown in fig. 1-3, the utility model provides a technical solution: the tailing discharging structure of the flotation machine comprises a reaction box 1.

It should be noted that, in the embodiments provided in the present application, the reaction chamber 1 has the following features:

first, an opening is provided at the top of the reaction chamber 1.

It should be noted that, in the embodiment provided in the present application, the opening provided at the top of the reaction box 1 enables the staff to directly add the suspension chemical into the reaction box 1 through the opening, thereby improving the working efficiency.

Secondly, the bottom end of one side outside the reaction box 1 is fixedly connected with a mine discharging square pipe 3 communicated with the inside of the reaction box, and one end outside the reaction box 1 is fixedly connected with a liquid injection pipe 2 communicated with the inside of the reaction box.

In the embodiment provided by the present application, electronic shutoff valves are fixedly installed inside the liquid injection pipe 2 and the ore discharge square pipe 3, respectively.

It should be further explained that, in the embodiment provided by the present application, the top of the ore discharge square pipe 3 is fixedly connected with a stabilizing frame, a storage basin 4 is placed on the top of the stabilizing frame, and one side of the storage basin 4 is attached to the outer side of the reaction box 1.

Thirdly, a driving unit 7 is arranged at one end of the top of the reaction box 1.

It should be noted that, referring to fig. 1, in the embodiment provided in the present application, the driving units 7 are installed at both ends of the outside of the jig frame 6, and it should be emphasized that the driving units 7 are connected to the reaction tank 1 through the jig frame 6.

It should be further noted that, in the embodiment provided in the present application, the driving unit 7 includes a rotating motor and a driving shaft, wherein the rotating motor and the driving shaft are driven by a triangle belt, and wherein the bottom end of the driving shaft and the top end of the stirring impeller 10 are fixed.

It should be noted that, in the embodiment provided in the present application, the type of the mechanical device of the driving unit 7 may be various.

For example: in some embodiments, the rotating motor in the driving unit 7 may be a parallel shaft helical gear speed reducer motor, wherein it should be further explained that the parallel shaft helical gear speed reducer motor has the advantages of strong overload bearing capability, space saving and high energy saving, which makes the device more effective in reducing energy consumption in practical use.

Fourthly, a separation net 9 is fixedly connected inside the reaction box 1.

It should be noted that, in the embodiment provided in the present application, the separation net 9 is disposed between the driving unit 7 and the stirring impeller 10, and two ends inside the separation net 9 are respectively provided with filtering holes with different sizes.

It should be further noted that in the embodiment provided by the present application, the mineral particles in the reaction chamber 1 are layered by the separation net 9, specifically, fine particles are moved above the separation net 9, and large particles are moved below the separation net 9, and the flotation liquid level can be stabilized by this modification, and it should be emphasized that this phenomenon can only occur when the suspending agent is added into the reaction chamber 1 and the stirring of the reaction chamber 1 is started.

Fifthly, an electric hydraulic cylinder 8 is fixedly arranged at the other side outside the reaction box 1.

In the embodiment provided in the present application, the electric hydraulic cylinder 8 is formed by connecting two small-sized electric hydraulic cylinders in parallel, and the output end of the electric hydraulic cylinder 8 penetrates through the interior of the reaction chamber 1 and is fixedly connected with the toggle arm 12.

It should be further noted that two shift arms 12 are also provided, and the top parts of the two shift arms 12 are fixedly connected with grinding steel brushes, and it should be emphasized that a gap is left between the grinding steel brushes on the top parts of the shift arms 12 and the bottom part of the separation net 9.

Sixthly, one end of the top of the reaction box 1 is fixedly connected with an assembly frame 6.

Eighth, a circulation gap is arranged at the top end of one side of the reaction box 1.

It should be noted that, referring to fig. 1, in the embodiment provided by the present application, the total height of the storage basin 4 and the stabilizing frame is lower than the lowest height of the flow gap.

Ninth, a kick-out machine 5 is fixedly arranged at the other end of the top of the reaction box 1.

It should be noted that, in the embodiment provided in the present application, the kickoff unit 5 includes an output motor, a rotating shaft, and a kickoff blade mounted outside the rotating shaft.

It should be further noted that, the output motor is fixed on the top of one end of the reaction box 1, the output end of the output motor is fixed on one end of the rotating shaft, and the other end of the rotating shaft is rotatably connected with the top of the other end of the reaction box 1.

Tenth, a pulp separating liquid 11 is fixedly connected to the bottom end inside the reaction box 1.

Referring to fig. 3, in the embodiment provided in the present application, the distribution flow 11 is provided in a plurality and is uniformly arranged at equal angles outside the stirring impeller 10.

In actual use, the device drives the stirring impeller 10 through the driving unit 7, and adds a suspension chemical into the reaction chamber 1.

It should be noted that, when the driving unit 7 works, the internal stirring impeller 10 rotates to generate a centrifugal effect to form a negative pressure, on one hand, sufficient air is sucked to mix with the ore pulp, on the other hand, the ore pulp is stirred to mix with the suspension reagent, and meanwhile, the foam is refined, so that the mineral injected into the ore pulp in the reaction box 1 from the liquid injection pipe 2 is adhered to the foam and floats to the surface of the ore pulp to form mineralized foam, and useful foam is scraped into the storage basin 4 by using the material stirring scraper on the material stirring machine 5 to realize ore dressing.

It should be further noted that in the process, the electric hydraulic cylinder 8 pushes the toggle arm 12 to make the suspensible large-particle minerals gathered at the bottom of the separation net 9 move to the filter holes at the other end of the separation net 9 for separation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Flotation device tailing ore discharge structure, including reaction box (1), its characterized in that: an opening is formed in the top of the reaction box (1), a mine discharging square pipe (3) communicated with the interior of the reaction box (1) is fixedly connected to the bottom end of one side of the exterior of the reaction box (1), and a driving unit (7) is installed at one end of the top of the reaction box (1);

the output end of the driving unit (7) is fixedly connected with a stirring impeller (10), and the stirring impeller (10) is contacted with the bottom end in the reaction box (1);

a separation net (9) is fixedly connected inside the reaction box (1), the separation net (9) is arranged between the driving unit (7) and the stirring impeller (10), and two ends inside the separation net (9) are respectively provided with filtering holes with different sizes;

an electric hydraulic cylinder (8) is fixedly mounted on the other side of the outer portion of the reaction box (1), the output end of the electric hydraulic cylinder (8) penetrates through the inner portion of the reaction box (1) and is fixedly connected with a poking arm (12), and a gap is reserved between the top of the poking arm (12) and the bottom of the separation net (9).

2. The flotation machine tailing discharging structure according to claim 1, characterized in that: one end of the top of the reaction box (1) is fixedly connected with an assembly frame (6), the driving unit (7) is installed at two ends of the outer portion of the assembly frame (6), and the driving unit (7) is connected with the reaction box (1) through the assembly frame (6);

the driving unit (7) comprises a rotating motor and a driving shaft, the rotating motor and the driving shaft are driven by a triangular belt, and the bottom end of the driving shaft is fixed with the top end of the stirring impeller (10).

3. The flotation machine tailing discharging structure according to claim 1, characterized in that: one end of the outside of the reaction box (1) is fixedly connected with a liquid injection pipe (2) communicated with the inside of the reaction box, and electronic shutoff valves are respectively and fixedly installed in the liquid injection pipe (2) and the ore discharge square pipe (3);

the circulation breach has been seted up on the top of reaction box (1) one side, the top fixedly connected with steady rest of the square pipe in ore discharge (3), the top of steady rest has been placed and has been stored basin (4), the outside laminating of one side and reaction box (1) of storing basin (4), the total height that stores basin (4) and steady rest will be less than the lowest height of circulation breach.

4. The flotation machine tailing discharging structure according to claim 3, characterized in that: a kick-out machine (5) is fixedly mounted at one end of the top of the reaction box (1), and the kick-out machine (5) comprises an output motor, a rotating shaft and a kick-out scraper mounted outside the rotating shaft;

the output motor is fixed at the top of one end of the reaction box (1), the output end of the output motor is fixed with one end of the rotating shaft, and the other end of the rotating shaft is rotatably connected with the top of the other end of the reaction box (1).

5. The flotation machine tailing discharging structure according to claim 1, characterized in that: the bottom end of the interior of the reaction box (1) is fixedly connected with a flow distribution liquid (11), the flow distribution liquid (11) is provided with a plurality of flow distribution liquids, and the flow distribution liquids are uniformly arranged outside the stirring impeller (10) at equal angles.

6. The flotation machine tailing discharging structure according to claim 1, characterized in that: the electric hydraulic cylinder (8) is formed by connecting two small-sized voltage cylinders in parallel, the number of the poking arms (12) is two, and the top parts of the two poking arms (12) are fixedly connected with grinding steel brushes.

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