CN113210141B - Mineral flotation machine of high efficiency flotation - Google Patents

Abstract

The invention discloses a mineral flotation machine with high-efficiency flotation, which comprises a flotation barrel, a guide chute, a foam material removing component and a control box, wherein a square plate is fixed on the upper side of the flotation barrel, a stirring material scraping component is fixed on the upper side of the square plate, meanwhile, a water level sensor is embedded on the inner wall of the flotation barrel, the flotation barrel is communicated with an air adding component, a discharge hole penetrates through the lower side of the flotation barrel, the guide chute is communicated with the square plate, a supporting plate is fixed on the rear side of the square plate, a foaming agent quantitative component is positioned on one side of the feed hole, and the foam material removing component is used for treating foam attached with mineral powder. According to the mineral flotation machine for high-efficiency flotation, the foam agent can be prevented from splashing under the auxiliary action of the guide chute and the conveying pipe, the foam material removing assembly, the guide chute and the conveying pipe can be cleaned, the foam scraping can be ensured to be thorough under the auxiliary action of the blowing assembly, and the foaming agent can be quantified through the foaming agent quantifying assembly.

Description

Mineral flotation machine of high efficiency flotation

Technical Field

The invention relates to the technical field of flotation machines, in particular to a mineral flotation machine with high-efficiency flotation.

Background

The flotation machine is short for floating ore dressing machine and refers to the mechanical equipment for finishing the flotation process. In a flotation machine, the ore pulp treated by adding the medicament is stirred and aerated, so that some ore particles are selectively fixed on bubbles; the floating slurry is scraped to form foam products, and the rest part of the foam products are remained in the slurry so as to achieve the purpose of separating minerals.

The existing flotation machine is easy to splash when scraping materials, is inconvenient to clean in the later stage, and floating foam is scattered to the periphery, so that the scraping effect cannot be guaranteed, the later stage floating quality is influenced, meanwhile, a foaming agent cannot be quantified according to the field requirement, the floating effect is influenced by too little foaming agent, and the whole processing cost is increased by too much foaming agent.

Disclosure of Invention

The invention aims to provide a mineral flotation machine with high efficiency flotation, which solves the problems that the existing flotation machine in the background technology is easy to splash when scraping materials, is inconvenient to clean in the later stage, and the flotation foam is scattered around, the scraping effect is not guaranteed, the later stage flotation quality is affected, meanwhile, a foaming agent cannot be quantified according to the field requirement, the flotation effect is affected by too little foaming agent, and the whole processing cost is increased by too much foaming agent.

In order to achieve the above purpose, the present invention provides the following technical solutions: a mineral flotation machine with high-efficiency flotation comprises a flotation barrel, a guide chute, a foam material removing assembly and a control box,

the flotation barrel, the flotation barrel upside is fixed with square board, and square board upside is fixed with the stirring and scrape the material subassembly, inlay on the flotation barrel inner wall simultaneously and have water level sensor, the flotation barrel is linked together with the air entrainment subassembly, and the flotation barrel downside runs through there is the discharge gate, all is fixed with the subassembly of blowing on the outer wall around the flotation barrel simultaneously;

the material guiding groove is communicated with the square plate, the material guiding groove is communicated with the material conveying pipe, meanwhile, the upper side of the material guiding groove is rotationally connected with the sealing cleaning assembly, the back side of the square plate is fixedly provided with the supporting plate, the supporting plate is fixedly provided with the feed inlet and the foaming agent quantitative assembly, the feed inlet is communicated with the flotation barrel, and the foaming agent quantitative assembly is positioned on one side of the feed inlet;

the foam material removing assembly is used for treating the foam attached with the mineral powder, and the flotation barrel is rotationally connected with the foam material removing assembly.

Preferably, the stirring scraping assembly comprises a first driving motor, a stirring rod, a supporting rod and a scraping plate, wherein the output end of the first driving motor is rotationally connected with the stirring rod, the supporting rod is fixed on the stirring rod, and the scraping plate is fixed on the supporting rod.

Preferably, the air adding assembly comprises a first air adding pump, a first air conveying pipe and a first air outlet pipe, wherein the first air adding pump is communicated with the first air outlet pipe through the first air conveying pipe, and the first air outlet pipe is fixed on the inner wall of the flotation barrel.

Preferably, the air blowing component comprises a second air increasing pump, a second air conveying pipe, a third air conveying pipe and a second air outlet pipe, wherein the second air increasing pump is communicated with the third air conveying pipe through the second air conveying pipe, and the second air outlet pipe penetrates through the lower side of the third air conveying pipe.

Preferably, the sealed clean subassembly includes hinge, closing plate, handle, inlet tube and clean shower nozzle, the closing plate is connected with the baffle box through the hinge rotation, and is fixed with the handle on the closing plate, it has the inlet tube to run through on the closing plate, and the inlet tube downside is linked together with clean shower nozzle.

Preferably, the foam removes material subassembly includes second driving motor, bull stick, dead lever, connecting rod, spring, scrapes bubble board and pivot, second driving motor output rotates and is connected with the bull stick, and is fixed with dead lever and connecting rod on the bull stick, and the dead lever is located between the connecting rod simultaneously, be fixed with the spring on the connecting rod, and be fixed with on the spring and scrape the bubble board, scrape the bubble board simultaneously and rotate through the pivot and be connected with the dead lever.

Preferably, the foaming agent quantitative assembly comprises a foaming agent storage barrel, a liquid level sensor and a liquid conveying pipe, wherein the liquid level sensor is embedded on the inner wall of the foaming agent storage barrel, and the foaming agent storage barrel is communicated with the flotation barrel through the liquid conveying pipe.

Preferably, the control box is fixed at the front side of the flotation tank.

Compared with the prior art, the invention has the beneficial effects that: the mineral flotation machine for high-efficiency flotation,

(1) The foam scraping device has the advantages that the foam can be prevented from splashing under the auxiliary action of the guide chute and the conveying pipe, the foam scraping assembly, the guide chute and the conveying pipe can be cleaned, the foam scraping thoroughly can be ensured under the auxiliary action of the blowing assembly, the foaming agent can be quantified through the foaming agent quantifying assembly, the splash prevention effect can be achieved under the auxiliary action of the guide chute and the conveying pipe when the foam scraping assembly scrapes materials, the guide chute, the conveying pipe and the foam scraping assembly can be cleaned in an auxiliary mode under the auxiliary action of the cleaning spray nozzle, the sealing plate is opened manually, the foam scraping assembly can be overhauled by staff, and the practicability is improved;

(2) According to the invention, under the auxiliary action of the second air increasing pump, the foam attached with the metal powder is blown through the plurality of second air outlet pipes, and finally the foam attached with the metal powder moves to the left and right sides, so that the foam attached with the metal powder can be thoroughly scraped under the auxiliary action of the two groups of foam material removing components, and the flotation efficiency is ensured;

(3) The invention drives the foam scraping plate to rotate under the auxiliary action of the second driving motor, so that the foam scraping plate can scrape the foam attached with metal powder, the baffle strips are fixed at the lower side of the inner part of the joint of the square plate and the guide groove, thus mineral slurry can be prevented from entering the guide groove to influence the flotation quality, and meanwhile, the foam scraping plate can quickly rebound to the original position after scraping under the auxiliary action of the rotating shaft and the spring, thus ensuring the scraping quality, and the arrangement of two groups of foam material removing assemblies can improve the mineral flotation efficiency and increase the practicability;

(4) The invention can quantify the foaming agent under the auxiliary action of the liquid level sensor in the foaming agent storage barrel, so that the influence on the later flotation quality caused by too little foaming agent entering the flotation barrel is avoided, and the whole cost is increased by too much foaming agent.

Drawings

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

FIG. 2 is a schematic rear view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a right side view of the present invention;

FIG. 5 is a left-hand structural schematic diagram of the present invention;

FIG. 6 is a schematic view of a foam removal assembly according to the present invention;

fig. 7 is an enlarged schematic view of the structure of fig. 1 a according to the present invention.

In the figure: 1. a flotation tank, 2, a square plate, 3, a stirring scraping component, 301, a first driving motor, 302, a stirring rod, 303, a supporting rod, 304, a scraping plate, 4, a water level sensor, 5, an air adding component, 501, a first air increasing pump, 502, a first air conveying pipe, 503, a first air outlet pipe, 6, a discharge hole, 7, an air blowing component, 701, a second air increasing pump, 702, a second air conveying pipe, 703, a third air conveying pipe, 704, a second air outlet pipe, 8, a guide groove, 9, a conveying pipe, 10, a sealing cleaning component, 1001, a hinge, 1002, a sealing plate, 1003, a handle, 1004, a water inlet pipe, 1005, a cleaning spray head, 11, a foam removing component, 1101, a second driving motor, 1102, a rotating rod, 1103, a fixing rod, 1104, a connecting rod, 1105, a spring, 1106, a scraping plate, 1107, a rotating shaft, 12, a supporting plate, 13, a feed inlet, 14, a foaming agent quantifying component, 1401, a foaming agent storage barrel, 1402, a liquid level sensor, 1403, a transfusion pipe, 15 and a control box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides a technical solution: as shown in fig. 1 and 3, a square plate 2 is fixed on the upper side of a flotation barrel 1, a stirring scraping assembly 3 is fixed on the upper side of the square plate 2, meanwhile, a water level sensor 4 is embedded on the inner wall of the flotation barrel 1, the stirring scraping assembly 3 comprises a first driving motor 301, a stirring rod 302, a supporting rod 303 and a scraping plate 304, the output end of the first driving motor 301 is rotationally connected with the stirring rod 302, the stirring rod 302 is fixedly provided with the supporting rod 303, the scraping plate 304 is fixed on the supporting rod 303, the air adding assembly 5 comprises a first air adding pump 501, a first air conveying pipe 502 and a first air outlet pipe 503, the first air adding pump 501 is communicated with the first air outlet pipe 503 through the first air conveying pipe 502, the first air outlet pipe 503 is fixed on the inner wall of the flotation barrel 1, the stirring rod 302 is driven to rotate under the auxiliary effect of the first driving motor 301, the stirring rod 302 rotates to accelerate the flotation work of minerals, after the whole work is finished, when the first driving motor 301 rotates, the scraping plate 304 can be driven to scrape the inner wall of the flotation barrel 1, excessive adhesion of mineral slurry on the inner wall of the flotation barrel 1 is avoided, the later discharging is thoroughly influenced, unnecessary loss is caused, the air is increased under the auxiliary effect of the first air increasing pump 501 and then enters the first air outlet pipe 503, a plurality of first air outlet pipes 503 are arranged, so that the air bubble quantity is ensured to be more uniform and sufficient, the later flotation quality is ensured, the flotation barrel 1 is communicated with the air adding component 5, the lower side of the flotation barrel 1 is penetrated with the discharge hole 6, meanwhile, the air blowing components 7 are respectively fixed on the front wall and the rear wall of the flotation barrel 1, each air blowing component 7 comprises a second air increasing pump 701, a second air conveying pipe 702, a third air conveying pipe 703 and a second air outlet pipe 704, the second air increasing pump 701 is communicated with the third air conveying pipe 703 through the second air conveying pipe 702, and the second outlet duct 704 runs through in the third gas-supply pipe 703 downside, carry out the supercharging to the air under the auxiliary action of second air pump 701, the air after the pressure boost is blown the bubble that is attached with the mineral powder through second outlet duct 704 to the subassembly 7 of blowing is provided with two sets of, and the foam that is attached with the mineral powder like this blows the gathering in the left and right sides, just can carry out the removal processing to it at the during operation of foam removal subassembly 11, improves flotation efficiency, also can avoid the foam that is attached with the mineral powder to pile up in the front and back both sides simultaneously, can not thoroughly handle the foam of mineral powder, influences flotation quality.

As shown in fig. 2, 3, 4 and 7, a guide chute 8 is communicated with a square plate 2, the guide chute 8 is communicated with a conveying pipe 9, meanwhile, the upper side of the guide chute 8 is rotationally connected with a sealing cleaning assembly 10, the rear side of the square plate 2 is fixedly provided with a supporting plate 12, a feed inlet 13 and a foaming agent quantitative assembly 14 are fixedly arranged on the supporting plate 12, the feed inlet 13 is communicated with a flotation tank 1, the foaming agent quantitative assembly 14 is positioned on one side of the feed inlet 13, the sealing cleaning assembly 10 comprises a hinge 1001, a sealing plate 1002, a handle 1003, a feed inlet pipe 1004 and a cleaning spray nozzle 1005, the sealing plate 1002 is rotationally connected with the guide chute 8 through the hinge 1001, the handle 1003 is fixedly arranged on the sealing plate 1002, the feed inlet pipe 1004 is penetrated through the sealing plate 1002, the lower side of the feed inlet pipe 1004 is communicated with the cleaning spray nozzle 1005, the foaming agent quantitative assembly 14 comprises a foaming agent storage tank 1401, a liquid level sensor 1402 and a liquid conveying pipe 1403, the liquid level sensor 1402 is embedded on the inner wall of the foaming agent storage bucket 1401, the foaming agent storage bucket 1401 is communicated with the flotation bucket 1 through the infusion tube 1403, the effect of preventing splashing can be achieved when the foam is processed through the arrangement of the guide chute 8 and the delivery pipe 9, pressurized high-pressure water enters the cleaning nozzle 1005 through the water inlet pipe 1004, the guide chute 8, the delivery pipe 9 and the foam material removing assembly 11 can be cleaned under the auxiliary effect of the cleaning nozzle 1005, the practicability is improved, the handle 1003 is manually pulled, the sealing plate 1002 is opened, the operator can overhaul the foam material removing assembly 11, the operation is simple and convenient, the foaming agent can be quantified under the auxiliary effect of the liquid level sensor 1402 in the foaming agent storage bucket 1401, unnecessary loss caused by excessive or insufficient foaming agent can be avoided, an operator can observe the using amount of the foaming agent through the scale engraved on the foaming agent storage barrel 1401, thereby increasing the practicability.

As shown in fig. 1, 5 and 6, the foam removing assembly 11 is used for treating the foam attached with mineral powder, and the foam removing assembly 11 is rotationally connected with the flotation tank 1, the foam removing assembly 11 comprises a second driving motor 1101, a rotating rod 1102, a fixed rod 1103, a connecting rod 1104, a spring 1105, a foam scraping plate 1106 and a rotating shaft 1107, the output end of the second driving motor 1101 is rotationally connected with the rotating rod 1102, the fixed rod 1103 and the connecting rod 1104 are fixed on the rotating rod 1102, the fixed rod 1103 is positioned between the connecting rods 1104, the spring 1105 is fixed on the connecting rod 1104, the foam scraping plate 1106 is fixed on the spring 1105, the fixed rod 1103 is rotationally connected with the rotating shaft 1107 through the rotating shaft 1107, the control box 15 is fixed on the front side of the flotation tank 1, the fixed rod 1103 and the connecting rod 1104 on the electric rotating rod 1102 rotate under the auxiliary action of the second driving motor 1101, so that the foam scraping plate 1106 rotates, the foam scraping plate 1106 rotates to scrape the foam attached with mineral powder on the flotation tank 1, the baffle plate strips are fixed at the lower side inside the guide chute 8, the effect of blocking mineral slurry from overflowing the flotation tank 1 can be achieved when flotation is carried out in the flotation tank 1, the foam scraping plate 1106 can also play a role in protecting the foam scraping plate 1106 when scraping under the auxiliary action of the rotating shaft 1107, the spring 1105 can ensure that the foam scraping plate 1106 quickly rebounds to the original position after being used, the normal scraping work at the later stage is ensured, the flotation quality is ensured, the foam removing assembly 11 is provided with two groups, and the flotation efficiency can be improved due to the arrangement of the two groups of the foam removing assembly 11.

Working principle: when the mineral flotation machine with high efficiency flotation is used, an external power supply is connected, mineral powder enters the flotation barrel 1 through a feed inlet 13 on a supporting plate 12, a water level sensor 4 in the flotation barrel 1 quantifies liquid used by the mineral powder, a stirring rod 302 is driven to rotate under the auxiliary action of a first driving motor 301 on a square plate 2, the stirring rod 302 rotates to accelerate mineral mixing, air is increased under the auxiliary action of a first air increasing pump 501, finally, the air enters a first air outlet pipe 503 through a first air conveying pipe 502, foaming agent in a foaming agent storage barrel 1401 enters the flotation barrel 1 through a lower side conveying pipe 1403, a liquid level sensor 1402 quantifies the foaming agent, the later flotation quality is ensured, the air is pressurized under the auxiliary action of a second air increasing pump 701, the pressurized air enters a third air conveying pipe 703 through a second air conveying pipe 702, the air in the third air delivery pipe 703 can blow and scatter the foam attached with mineral powder to the left and right ends of the upper side of the flotation tank 1 through the second air outlet pipe 704, the rotating rod 1102 is driven to rotate under the auxiliary action of the second driving motor 1101, the rotating rod 1102 drives the fixed rod 1103 and the connecting rod 1104 to rotate, the fixed rod 1103 rotates to drive the foam scraping plate 1106 to rotate, thus scraping treatment can be carried out, the foam scraping plate 1106 contacts with the baffle strip at the lower side in the guide chute 8, the foam scraping plate 1106 rotates under the auxiliary action of the rotating shaft 1107, finally the foam attached with mineral powder is rebounded to the original position under the auxiliary action of the spring 1105, so that the foam attached with mineral powder can thoroughly enter the feed chute 9 through the guide chute 8 and finally moves to other positions for treatment, after the whole work is completed, when the first driving motor 301 rotates, the scraping plate 304 on the supporting rod 303 can be driven to scrape the inner wall of the flotation barrel 1, excessive adhesion of mineral slurry on the inner wall of the flotation barrel 1 is avoided, the later-stage discharging is affected thoroughly, pressurized high-pressure water enters the cleaning spray nozzle 1005 through the water inlet pipe 1004, the guide chute 8, the conveying pipe 9 and the foam material removing assembly 11 can be cleaned under the auxiliary effect of the cleaning spray nozzle 1005, the handle 1003 is manually pulled, the sealing plate 1002 is opened under the auxiliary effect of the hinge 1001, a worker can overhaul the foam material removing assembly 11, after the whole flotation work is completed, the mineral slurry after the rest flotation can be discharged to other positions through the discharge hole 6 to continue processing, and the content which is not described in detail in the specification belongs to the prior art known to the person skilled in the art.

The terms "center," "longitudinal," "transverse," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used for descriptive simplicity and convenience only and not as an indication or implying that the apparatus or element being referred to must have a particular orientation, be constructed and operated for a particular orientation, based on the orientation or positional relationship illustrated in the drawings, and thus should not be construed as limiting the scope of the present invention.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (3)

1. The utility model provides a mineral flotation machine of high efficiency flotation, includes flotation tank (1), baffle box (8), foam removes material subassembly (11) and control box (15), its characterized in that:

the flotation tank (1), flotation tank (1) upside is fixed with square board (2), and square board (2) upside is fixed with stirring and scrapes material subassembly (3), inlays on flotation tank (1) inner wall simultaneously has water level sensor (4), flotation tank (1) are linked together with air entrainment subassembly (5), and flotation tank (1) downside runs through there is discharge gate (6), all is fixed with on the outer wall around flotation tank (1) simultaneously and blows subassembly (7), air entrainment subassembly (5) include first inflation pump (501), first gas-supply pipe (502) and first outlet duct (503), first inflation pump (501) are linked together with first outlet duct (503) through first gas-supply pipe (502), and first outlet duct (503) are fixed on flotation tank (1) inner wall, second inflation pump (701), second gas-supply pipe (702), third gas-supply pipe (703) and second outlet duct (704), second inflation pump (701) are linked together with third gas-supply pipe (703) through second gas-supply pipe (702), and third gas-supply pipe (703) are run through;

baffle box (8), baffle box (8) are linked together with square board (2), and baffle box (8) are linked together with conveying pipeline (9), and baffle box (8) upside rotates simultaneously and is connected with sealed clean subassembly (10), sealed clean subassembly (10) are including hinge (1001), closing plate (1002), handle (1003), inlet tube (1004) and clean shower nozzle (1005), closing plate (1002) are rotated through hinge (1001) and are connected baffle box (8), and are fixed with handle (1003) on closing plate (1002), run through on closing plate (1002) inlet tube (1004), and inlet tube (1004) downside is linked together with clean shower nozzle (1005), square board (2) rear side is fixed with backup pad (12), and is fixed with feed inlet (13) and foaming agent ration subassembly (14) on backup pad (12), and feed inlet (13) are linked together with flotation tank (1) simultaneously, foaming agent ration subassembly (14) are located feed inlet (13) one side, foaming agent ration subassembly (14) are including foaming agent storage tank (1402), liquid level sensor (1402) and liquid level sensor (1401) are inlayed on infusion tube (1401), and the foaming agent storage barrel (1401) is communicated with the flotation barrel (1) through a transfusion tube (1403);

the foam removes material subassembly (11), foam removes material subassembly (11) and is used for handling the foam that is attached with the powdered ore, and foam removes material subassembly (11) rotation and connect flotation barrel (1), foam removes material subassembly (11) including second driving motor (1101), bull stick (1102), dead lever (1103), connecting rod (1104), spring (1105), scrape bubble board (1106) and pivot (1107), second driving motor (1101) output rotation is connected with bull stick (1102), and is fixed with dead lever (1103) and connecting rod (1104) on bull stick (1102), and dead lever (1103) are located between connecting rod (1104) simultaneously, be fixed with spring (1105) on connecting rod (1104), and be fixed with on spring (1105) and scrape bubble board (1106), scrape bubble board (1106) simultaneously and rotate through pivot (1107) and connect dead lever (1103).

2. A high efficiency flotation mineral flotation machine according to claim 1, wherein: stirring is scraped material subassembly (3) including first driving motor (301), puddler (302), bracing piece (303) and scraping board (304), first driving motor (301) output rotates and is connected with puddler (302), and is fixed with bracing piece (303) on puddler (302), is fixed with on bracing piece (303) simultaneously and scrapes flitch (304).

3. A high efficiency flotation mineral flotation machine according to claim 1, wherein: the control box (15) is fixed at the front side of the flotation barrel (1).