CN209020582U - A kind of fluidization coarse flotation equipment - Google Patents

Abstract

The utility model discloses a kind of fluidization coarse flotation equipment, comprising: flotation cylinder, top are equipped with overflow launder and charging gear；Bubble generator is arranged on the flotation cylinder；Bubble distributer is arranged in the flotation column body and is connected with the bubble generator, the bubble that bubble generator generates is uniformly distributed in flotation column body；It further include being connected to flotation cylinder lower end inlet to form the liquid feed device for rising liquid stream in flotation column body, the bubble distributer is located at the top of the inlet, is equipped with turbulence plate between the inlet and bubble distributer in the flotation column body.The utility model forms the solution-air compound flowing stateization interference bed of bubble and ascending current by the combined use of bubble distributer and turbulence plate in cylinder, realize to grade 150 μm of -1000 μm or so coarse granule mineral flotation recovery.

Description

A kind of fluidization coarse flotation equipment

Technical field

The utility model belongs to mining equiment flotation technology field more particularly to a kind of fluidization coarse flotation equipment.

Background technique

In mineral manufacture field, flotation is the recycling most common method of valuable mineral.And flotation is for the grain of selected mineral Spend it is more demanding, material size usually require that the specific gravity of 74 μm or less grades 60%~90% or so, the material size upper limit Usually at 100~150 μm, and the particle relatively thick for 150 μm or more granularities, flotation recovery effect are poor, therefore thick Particle usually requires to return to material size of the ball mill fine grinding to reach flotation.And for grade at 150 μm~1000 μm or so Ore, regrind be easy to cause ore cross crush, lead to the unnecessary increase of thin mud amount, at the same increase again ore grinding at This.The grade of valuable mineral is usually lower with respect to fine fraction ore in coarse granule ore, and grinding operation is all carried out to it and is caused A degree of energy dissipation.Therefore, in the process flow of " ore grinding-flotation ", to grade on 150 μm~1000 μm left sides Right ore carries out throwing tail in advance and has important practical significance.

Coarse granule is ineffective using traditional floatation equipment recycling.Coarse granule ore liberation degree of minerals is poor, ore The exposure of surface valuable mineral is relatively low, poor with the function and effect of collecting agent, causes the hydrophobicity on ore particles surface inadequate, It is smaller with the sticking probability of bubble；Coarse granule weight is relatively large, floats and needs the bubble of more volume and intensity, general gas Bubble is formed by buoyancy and is not enough to bring coarse granule into froth bed；Coarse granule specific surface area is relatively small, the adhesion strength with bubble It is relatively poor, adhesion time needed for cannot keep flotation and intensity, it is easy to fall off from bubble.Therefore, coarse granule mineral Often sink to entering tailing in floatation process, causes the loss of valuable mineral.And for sorting coarse grained interference bed Sorting machine, separating effect depend on the partial size and density of mineral, since the grade of valuable mineral in coarse granule is usually lower, divides It is thin to dissipate disseminated grain size, causes the specific gravity of same particle size ore particles almost without difference, therefore hindered bed separator is to coarse granule In valuable mineral recognition capability it is poor, equally will cause the loss of valuable mineral.Therefore, single traditional floatation equipment and again Optional equipment all cannot achieve the high efficiente callback to coarse granule target minreal.

Utility model content

The application aims to solve at least one of the technical problems existing in the prior art.For this purpose, the purpose of this utility model One of be to provide a kind of fluidization coarse flotation equipment, the flotation recovery to coarse granule target minreal may be implemented, and will be thick Particle gangue mineral carries out throwing tail, realizes the pretreatment of ore.

In order to solve the above technical problems, the utility model adopts the following technical solution:

A kind of fluidization coarse flotation equipment, comprising:

Flotation cylinder, top are equipped with overflow launder and charging gear；

Bubble generator is arranged on the flotation cylinder；

Bubble distributer is arranged in the flotation column body and is connected with the bubble generator；

Flotation cylinder lower end is equipped with inlet, and the bubble distributer is located at the top of the inlet, described floating It selects and is equipped with turbulence plate in cylinder between the inlet and bubble distributer.

Further, the bubble generator includes the collapsible tube, trunnion and diffuser being sequentially connected to, the diffuser Output end docked with efferent duct, the input end of the collapsible tube is docked with closed gas-liquid mixed room, the gas-liquid mixed room Be equipped with pressed gas air inlet pipe and fluid injection pipe, be equipped with helical blade in the efferent duct, the efferent duct with it is described The bubble import of bubble distributer is docked.

Further, the bubble generator is arranged circumferentially along flotation cylinder, and the bubble distributer includes concentric At least two annular gas distribution pipes that are horizontally disposed and being connected by connecting tube are evenly equipped with outlet on each annular gas distribution pipe Hole is located at outermost annular gas distribution pipe and is equipped with and each one-to-one bubble import of bubble generator.

Further, the axis of the fluid injection pipe is overlapped with the axis of the trunnion, the fluid injection pipe and institute It states air inlet pipe to arrange in angle, the size of the angle is 40-45 °.

Further, the cone angle of the collapsible tube is 30-35 °, and the cone angle of the diffuser is 35-40 °, the contraction The longitudinal length ratio of pipe, trunnion and diffuser is 1:4:2.

Further, the spout of the fluid injection pipe is the conical nozzle that cone angle is 15-20 °.

Further, tripper is equipped in the feeding inlet at the top of flotation cylinder.

Further, the turbulence plate is in the taper of falling water chestnut, is evenly equipped with the perforation that feed flow stream passes through on the turbulence plate, described The cone bottom of turbulence plate is directly connected to flotation cylinder bottom gape, and the ore discharge valve automatically controlled is equipped at the gape.

Further, the inlet is evenly arranged along flotation cylinder peripheral wall.

Further, the flotation column is arranged with annular inlet tube in vitro, the annular inlet tube be equipped with it is each described Inlet correspond connection liquid outlet, it is described annular inlet tube be equipped with the total mouth of feed liquor, the axis of the total mouth of feed liquor with The axis of the annular inlet tube is tangent.

A kind of method for floating using above-mentioned fluidization coarse flotation equipment, includes the following steps:

S1: liquid feed device is opened, pressurised stream enters flotation column body from flotation cylinder lower end inlet, through turbulence plate Afterwards, uniform ascending current is formed in flotation column body；

S2: air enters bubble generator through bubble generator air inlet after air compressor compresses, and foaming agent is through cream It is added in the water flow pressurizeed by the second force (forcing) pump after changing device emulsification, and enters in microvesicle generators through bubble generator water inlet, A large amount of micro air bubbles that bubble generator generates are passed through bubble distributer, and bubble is dispersed in flotation cylinder by bubble distributer Interior, bubble and ascending current form stable gas-liquid compound flowing stateization interference bed in flotation column body；

S3: ore pulp and floating agent are sized mixing after agitator sufficiently acts on and are divided by charging gear from flotation cylinder top warp Enter in flotation column body after the dispersion of mine device and slowly decline along the entire section of flotation cylinder, interferes bed in gas-liquid compound flowing stateization Ore particle and bubble and ascending current act in layer, and the vertical lift of buoyancy and ascending current of the final purpose mineral through bubble is continuous Rise and then overflow cylinder and enter overflow launder as concentrate, and gangue mineral sinks in cylinder and finally from gape discharge at For tailing.

Compared with prior art, it is had the beneficial effect that brought by the utility model

1. passing through the comprehensive function of bubble and ascending current, the solution-air that bubble and ascending current are formd in cylinder is multiple It closes fluidization and interferes bed, given full play to the dense medium grading principle of interference bed and the advantage of floating principle, realized to grain Flotation recovery of the grade in 150 μm~1000 μm or so coarse granule mineral.

2. ascending current increases mineral grain in the climbing power of vertical direction, target minreal averag density is greatly reduced, Valuable mineral is compensated for because of particle the is relatively thick defect weaker with bubble adhesive force, target minreal is allowed to increase with bubble Into concentrate, and gangue mineral sinks due to not by bubble buoyancy into tailing, to realize that the flotation to coarse granule mineral is returned It receives.

3. grade of the tailing containing target minreal obtained by the equipment is extremely low, can be direct in the beneficiation flowsheet of " ore grinding-flotation " Throwing tail is carried out as true tailings, gangue mineral is removed from process in time, reduces the load of ball mill, is reduced floating Flow processing amount is selected, energy consumption is significantly reduced.

4. the equipment has the oxide ores such as the sulphide ores such as copper-sulphide ores, molybdenite and scheelite, cassiterite, cerussite Good separating effect.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is annular inlet tube schematic diagram in the utility model；

Fig. 3 is the utility model turbulence plate schematic diagram；

Fig. 4 is the utility model bubble generator schematic diagram；

Fig. 5 is that schematic diagram is applied in combination in the utility model bubble generator and bubble distributer；

Fig. 6 is the specific implementation process equipment connection schematic diagram of the utility model.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

Referring to Fig. 1-Fig. 6, a kind of fluidization coarse flotation equipment, including flotation cylinder 1, bubble generator 14 and bubble Distributor 15,1 bottom of flotation cylinder be bracket 7, the top of flotation cylinder 1 be equipped with overflow launder 2 and with flotation cylinder feeding inlet 3 The charging gear of docking, overflow launder 2 are equipped with overflow port 6.Bubble generator 14 is mounted on the outer wall of flotation cylinder 1, bubble Distributor 15 is horizontally set in flotation cylinder 1 and is connected with bubble generator 14, the bubble that bubble generator is generated It is uniformly distributed in flotation cylinder 1.1 lower end of flotation cylinder be equipped with inlet 11, bubble distributer 15 be located in the liquid inlet 11 it is upper Side is equipped with turbulence plate 12 being located in the liquid inlet between 11 and bubble distributer 15 in flotation cylinder 1, the liquid entered from inlet 11 Body forms in flotation column body after turbulence plate 12 and rises liquid stream.

The present embodiment rises liquid stream by being formed inside flotation cylinder 1, by the comprehensive function of bubble and ascending current, The solution-air compound flowing stateization interference bed that bubble and ascending current are formd in cylinder, has given full play to the weight of interference bed The advantage of Jie's grading principle and floating principle realizes the flotation recovery to coarse granule mineral.Ascending current increases mineral grain In the climbing power of vertical direction, target minreal averag density is greatly reduced, compensates for valuable mineral due to particle is relatively thick and bubble The weaker defect of adhesive force, allows target minreal to ascend into concentrate with bubble, and gangue mineral is not because by bubble floating Power and sink into tailing, to realize to the flotation recoveries of coarse granule mineral.

It should be noted that in practical applications, bubble generator 14 includes tube body 19, and tube body 19 is by the receipts that are sequentially connected to The draw, trunnion and diffuser composition, the output end of diffuser are docked with efferent duct, the input end of collapsible tube and closed gas-liquid Mixing chamber docking, gas-liquid mixed room are equipped with pressed gas air inlet pipe 22 and fluid injection pipe 21, are equipped with spiral in efferent duct Blade 29, efferent duct are docked with the bubble import of bubble distributer 15.The bubble generator of above structure combines high pressure solution gas The method that deposition method and Venturi tube jet stream are formed at two kinds of microvesicles of bubble, the bubble size of formation are stablized in 0.1-0.3mm.

It should be noted that bubble generator 14 is arranged circumferentially along flotation cylinder 1 in actual design, bubble point Cloth device 15 includes at least two annular gas distribution pipes 152 that are horizontally disposed with one heart and being connected by connecting tube 151, each annular gas distribution It is evenly equipped with venthole (not shown) on pipe 152, is located at outermost annular gas distribution pipe 152 and is equipped with and each bubble generator 14 one-to-one bubble imports.

Specifically, this implementation, using two annular gas distribution pipes 152, the diameter ratio of two annular gas distribution pipes 152 is 1:2, even Adapter tube 151 is evenly arranged in the annular space between two annular gas distribution pipes, sets that there are four air inlets on outermost layer annular gas distribution pipe 152 Mouthful, to being connected to a bubble distributer on each air inlet.Pressurised stream enters from the fluid injection pipe of bubble generator, adds It presses air to enter from the air inlet pipe of bubble generator, forms a large amount of micro-bubbles at diffuser, bubble is entered by air inlet Shape gas distribution pipe, and sprayed by the venthole on shape gas distribution pipe, the rising bubble for being evenly distributed stable is formed in flotation column body.

It preferably, is further bubble disintegration, the axis of fluid injection pipe 21 is overlapped with the axis of trunnion, fluid injection pipe 21 arrange with air inlet pipe 22 in angle, and the size of angle is 40-45 °, and the cone angle of collapsible tube is 30-35 °, and the cone angle of diffuser is 35-40 °, the longitudinal length ratio of collapsible tube, trunnion and diffuser is 1:4:2, and the spout of fluid injection pipe 21 is that cone angle is 15-20 ° of conical nozzle, by above-mentioned setting, bubble size can be refined further.

As a kind of preferred embodiment of the utility model fluidization coarse flotation equipment, turbulence plate 12 is obliquely installed by three pieces Fanning strip head and the tail be mutually spliced, shape be in the taper of falling water chestnut, fanning strip tilt angle angle with horizontal plane be 30~35 °, it is disorderly The perforation 13 that feed flow stream passes through is evenly equipped in flowing plate 12, perforate 13 axis it is parallel with the axis of flotation cylinder 1, turbulence plate 12 Cone bottom be equipped with and be connected to outlet 8 with flotation cylinder bottom gape, the ore discharge valve 18 of automatic control is equipped at gape.Flotation column It is equipped with the sensor 17 for detecting composite interference bed density in cylinder in body 1, is installed at the top of flotation cylinder 1 by bracket 4 There is the controller 5 communicated to connect with sensor 17, controller 5 carries out ore discharge work according to the density domination ore discharge valve 18 of interference bed Industry, when density reaches a certain level, controller opens ore discharge valve 18 and tailing is discharged.

To improve the stability for rising liquid stream, inlet 11 is evenly arranged along 1 peripheral wall of flotation cylinder, 1 housing of flotation cylinder Equipped with annular inlet tube 10, annular inlet tube 10, which is equipped with, corresponds the liquid outlet being connected to each inlet 10 by branch pipe, Annular inlet tube 10 is equipped with the total mouth 9 of feed liquor, and the axis of the total mouth 9 of feed liquor and the axis of annular inlet tube 10 are tangent, the total mouth 9 of feed liquor It is connected to by tube body with liquid feed device.

The working principle of the utility model is as follows: when fluidization coarse flotation equipment works, pressurised stream and pressurization are empty Gas enters mixed foaming in bubble generator from fluid injection pipe 21 and air inlet pipe 22 respectively, is formed largely in efferent duct output end Micro-bubble, bubble enter bubble distributer 15 by air inlet, are sprayed by the venthole on bubble distributer 15, and be full of The cross section of entire cylinder, forms the stable micro air bubble that is evenly distributed in cylinder.Water flow is total through feed liquor driven by pressure Mouth 9 enters after annular inlet tube 10 and enters cylinder bottom along each inlet 11, then vertical from the perforation 13 on turbulence plate 12 It sprays upwards, forms stable ascending current in cylinder, and be full of the cross section of entire cylinder.What bubble distributer 15 generated The ascending current that micro-bubble and turbulence plate 12 are formed, which exists simultaneously in cylinder and forms collaboration, rises situation, by rationally adjusting Section feeds the air pressure of air and the hydraulic pressure of water flow, and stable gas-liquid compound flowing stateization interference bed can be formed in cylinder, In the gas-liquid compound flowing stateization interference bed, the coarse granule containing target minreal by simultaneously by bubble buoyancy and rising The vertical lift of water flow, thus particle can adhere to bubble and constantly rise and enter overflow launder 2 as concentrate, and gangue mineral does not have Bubble adhesion, final subsidence become tailing through the discharge of gape 8.

A kind of method of fluidization coarse flotation equipment flotation, water flow 23 is after the pressurization of the first force (forcing) pump 24, through feed liquor Total mouth 9 enters in flotation cylinder 1 through annular inlet tube 10, and, cylinder in shape spouting through the perforation 13 on turbulence plate 12 At ascending current.Air 29 enters bubble generator 14 after the compression of air compressor 28, through air inlet pipe 22, and water flow 23 is by the The pressurization of two force (forcing) pumps 25, foaming agent 27 is added in the water flow pressurizeed by the second force (forcing) pump 25 after the emulsification of emulsifier 26, through fluid Injection pipe 21 enters bubble generator 14, and bubble generator 14 generates a large amount of micro air bubbles and is passed through bubble distributer 15, bubble Bubble is dispersed in cylinder by distributor 15.Bubble and ascending current form stable gas-liquid compound flowing state in cylinder Change interference bed.Ore pulp 30 is delivered in mixing cirtern 32 through the first delivery pump 31, is added pH regulator 33 into mixing cirtern 32, is stirred Rear ore pulp to be mixed to enter in mixing cirtern 32, addition collecting agent 35 stirs, it is delivered in feed barrel 37 after sizing mixing through the second delivery pump 36, Feed barrel 37 is fixed on cylinder top, and the ore pulp in feed barrel 37 is entered in feeding inlet 3 by pipeline 39, by mine distributor 16 Enter in cylinder after (mine distributor is preferably umbrella shape mine distributor) dispersion and slowly declines along the entire section of cylinder, it is compound in gas-liquid Fluidization interferes ore particle and bubble and ascending current in bed to act on, buoyancy and ascending current of the final purpose mineral through bubble Vertical lift, which constantly rises and then overflows cylinder, enters overflow launder as concentrate, and gangue mineral sinks in cylinder and finally from Gape discharge becomes tailing.Obtained concentrate can be further processed recycling, and tailing can be directly as most finality Mine is discharged from the process flow of " ore grinding-flotation ", realizes the throwing tail of gangue mineral.

The utility model is further described below with reference to specific application examples.

Application examples 1

Test material is certain copper-sulphide ores.Ore enters cyclone classification after ball mill ore grinding, obtain granularity 150~ The ore pulp of 1000 μm or so partial sizes gives mine raw material, copper grade 0.52% as experiment, and 600 μm or less grade accountings are 85% Left and right.It is 8.0 that ore pulp, which is added pH regulator and adjusts pH values of pulp, and the stirring of collecting agent butyl xanthate is then added and sizes mixing, terpenic oil is added Foaming agent is passed through sufficiently size mixing after, feed fluidization coarse flotation equipment from feeding inlet and carry out flotation, overflow product is as coarse-fine Mine, and underflow becomes tailing through gape discharge, the tailing is directly as true tailings.Collecting agent is with respect to the additional amount of raw ore 200g/t, foaming agent 30g/t, pH regulator are sodium carbonate, and flotation temperature is 25 DEG C.Test obtains rough concentrate Cu grade 1.29%, the rate of recovery 92.78%, tailing Cu grade 0.06%, yield 62.60%, the copper loss for throwing portion, which is lost, is only 7.22% (such as table 1).

The fluidization coarse flotation equipment test result of 1 certain copper-sulphide ores of table

Application examples 2

Test material is certain molybdenite.Ore enters cyclone classification after ball mill ore grinding, obtain granularity 150~ The ore pulp of 1000 μm or so partial sizes gives mine raw material as experiment, and molybdenum grade is 0.17%, and 600 μm or less grade accountings are 90% Left and right.It is 8.0 that ore pulp, which is added pH regulator and adjusts pH values of pulp, and collecting agent butyl xanthate is then added and black powder stirring is sized mixing, is added Terpenic oil foaming agent is passed through sufficiently size mixing after, feed fluidization coarse flotation equipment from feeding inlet and carry out flotation, overflow product is For rough concentrate, and underflow becomes tailing through gape discharge, and the tailing is directly as true tailings.Collecting agent adds with respect to raw ore Entering amount butyl xanthate is 150g/t, and black powder 50g/t, foaming agent 20g/t, pH regulator is sodium carbonate, and flotation temperature is 25 DEG C. Test obtains rough concentrate Mo grade 0.373%, the rate of recovery 94.21%, tailing Mo grade 0.017%, yield 57.40%, throwing The molybdenum loss of portion is only 5.79% (such as table 2).

The fluidization coarse flotation equipment test result of 2 certain molybdenite of table

Application examples 3

Test material is certain scheelite.Ore enters cyclone classification after ball mill ore grinding, obtain granularity 150~ The ore pulp of 1000 μm or so partial sizes gives mine raw material, WO as experiment₃Grade is 0.41%, and 600 μm or less grade accountings are 78% or so.It is 9.5 that ore pulp, which is added pH regulator and adjusts pH values of pulp, and the stirring of complex collecting agent is then added and sizes mixing, pine is added Alcohol oil foaming agent is passed through sufficiently size mixing after, feed fluidization coarse flotation equipment from feeding inlet and carry out flotation, overflow product is Rough concentrate, and underflow becomes tailing through gape discharge, the tailing is directly as true tailings.Addition of the collecting agent with respect to raw ore Amount plumbi nitras is 600g/t, and benzyl hydroximic acid 500g/t, foaming agent 40g/t, pH regulator is sodium carbonate, and flotation temperature is 25℃.Test obtains rough concentrate WO₃Grade 0.86%, the rate of recovery 87.02%, tailing WO₃Grade 0.091%, yield are 58.50%, throw the WO of portion₃Loss is only 12.98% (such as table 3).

The fluidization coarse flotation equipment test result of 3 certain scheelite of table

Application examples 4

Test material is certain cassiterite mine.Ore enters cyclone classification after ball mill ore grinding, obtain granularity 150~ The ore pulp of 1000 μm or so partial sizes gives mine raw material, SnO as experiment₂Grade is 0.332%, and 600 μm or less grade accountings are 75% or so.It is 8.5 that ore pulp, which is added pH regulator and adjusts pH values of pulp, and the stirring of complex collecting agent is then added and sizes mixing, pine is added Alcohol oil foaming agent is passed through sufficiently size mixing after, feed fluidization coarse flotation equipment from feeding inlet and carry out flotation, overflow product is Rough concentrate, and underflow becomes tailing through gape discharge, the tailing is directly as true tailings.Addition of the collecting agent with respect to raw ore Amount plumbi nitras is 400g/t, and benzyl hydroximic acid 400g/t, foaming agent 50g/t, pH regulator is sodium carbonate, and flotation temperature is 25℃.Test obtains rough concentrate SnO₂Grade 0.78%, the rate of recovery 86.10%, tailing SnO₂Grade 0.073%, yield are 63.30%, throw the SnO of portion₂Loss is only 13.90% (such as table 4).

The fluidization coarse flotation equipment test result of 4 certain cassiterite of table

Application examples 5

Test material is certain cerussite.Ore enters cyclone classification after ball mill ore grinding, obtain granularity 150~ The ore pulp of 1000 μm or so partial sizes gives mine raw material as experiment, and Pb grade is 4.36%, and 600 μm or less grade accountings are 91% Left and right.It is 8.0 that ore pulp, which is added pH regulator and adjusts pH values of pulp, and collecting agent stirring is then added and sizes mixing, terpenic oil foaming agent is added It passes through after sufficiently sizing mixing, feeds fluidization coarse flotation equipment from feeding inlet and carry out flotation, overflow product is rough concentrate, and bottom Flowing through gape discharge becomes tailing, and the tailing is directly as true tailings.Collecting agent is with respect to the additional amount vulcanized sodium of raw ore 4000g/t, butyl xanthate 300g/t, foaming agent 20g/t, pH regulator are sodium carbonate, and flotation temperature is 25 DEG C.Test obtains Rough concentrate Pb grade 7.72%, the rate of recovery 90.60%, tailing Pb grade 0.84%, yield 48.80% throw the lead of portion Loss is only 9.40% (such as table 5).

The fluidization coarse flotation equipment test result of 5 certain cerussite of table

Above-described embodiment is only to clearly demonstrate examples for clearly illustrating the present invention, rather than the restriction to embodiment. For those of ordinary skill in the art, other various forms of variations can also be made on the basis of the above description Or it changes.Here without can not be also exhaustive to all embodiments.And the obvious variation thus amplified out Or it changes among still in the protection scope of the utility model.

Claims (10)

1. a kind of fluidization coarse flotation equipment, comprising:

Flotation cylinder, top are equipped with overflow launder and charging gear；

Bubble generator is arranged on the flotation cylinder；

Bubble distributer is arranged in the flotation column body and is connected with the bubble generator；

It is characterized by: flotation cylinder lower end is equipped with inlet, the bubble distributer is located at the top of the inlet, Turbulence plate is equipped in the flotation column body between the inlet and bubble distributer.

2. fluidization coarse flotation equipment according to claim 1, it is characterised in that: the bubble generator includes sequentially Collapsible tube, trunnion and the diffuser of connection, the output end of the diffuser are docked with efferent duct, the input end of the collapsible tube It is docked with closed gas-liquid mixed room, the gas-liquid mixed room is equipped with pressed gas air inlet pipe and fluid injection pipe, described Helical blade is equipped in efferent duct, the efferent duct is docked with the bubble import of the bubble distributer.

3. fluidization coarse flotation equipment according to claim 2, it is characterised in that: the bubble generator is along flotation column Body is arranged circumferentially, and the bubble distributer includes at least two annulars that are horizontally disposed with one heart and being connected by connecting tube Gas distribution pipe is evenly equipped with venthole on each annular gas distribution pipe, is located at outermost annular gas distribution pipe and is equipped with and each gas Steep the one-to-one bubble import of generator.

4. fluidization coarse flotation equipment according to claim 2, it is characterised in that: the axis of the fluid injection pipe with The axis of the trunnion is overlapped, and the fluid injection pipe and the air inlet pipe are arranged in angle, and the size of the angle is 40- 45°。

5. fluidization coarse flotation equipment according to claim 2, it is characterised in that: the cone angle of the collapsible tube is 30- 35 °, the cone angle of the diffuser is 35-40 °, and the longitudinal length ratio of the collapsible tube, trunnion and diffuser is 1:4:2.

6. fluidization coarse flotation equipment according to claim 2, it is characterised in that: the spout of the fluid injection pipe is The conical nozzle that cone angle is 15-20 °.

7. fluidization coarse flotation equipment according to claim 1, it is characterised in that: in the feeding inlet at the top of flotation cylinder Equipped with tripper.

8. fluidization coarse flotation equipment according to claim 1-7, it is characterised in that: the turbulence plate is in Water chestnut taper, is evenly equipped with the perforation that feed flow stream passes through on the turbulence plate, the cone bottom of the turbulence plate directly with flotation cylinder bottom Gape is connected to, and the ore discharge valve automatically controlled is equipped at the gape.

9. fluidization coarse flotation equipment according to claim 8, it is characterised in that: the inlet is along flotation cylinder week Wall is evenly arranged.

10. fluidization coarse flotation equipment according to claim 8, it is characterised in that: the flotation column is arranged in vitro Annular inlet tube, the annular inlet tube, which is equipped with, corresponds liquid outlet be connected to each inlet, it is described it is annular into Liquid pipe is equipped with the total mouth of feed liquor, and the axis of the total mouth of feed liquor and the axis of the annular inlet tube are tangent.