CN205851115U - A kind of gas-liquid convection formula efficient mine foam flotation device device - Google Patents
A kind of gas-liquid convection formula efficient mine foam flotation device device Download PDFInfo
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- CN205851115U CN205851115U CN201620672043.9U CN201620672043U CN205851115U CN 205851115 U CN205851115 U CN 205851115U CN 201620672043 U CN201620672043 U CN 201620672043U CN 205851115 U CN205851115 U CN 205851115U
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- pipe
- cell body
- fixedly connected
- air
- filled media
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Abstract
A kind of gas-liquid convection formula efficient mine foam flotation device device that this utility model provides, compressed air sprays from center air ejector and ambient air ejector, raw ore slurry is sized mixing in surge tank after mixing and is entered cell body, pressure-air, flushing water and raw ore slurry be bidirectional-movement in filled media I and filled media II, pressure-air forms convection current with flushing water and raw ore slurry, air is rinsed the water attack uniform tiny bubble of broken formation and sticks to be formed on ore particle froth concentrate, efficiency is high, and flotation effect is good.Regulator enters pipe and raw ore slurry enters pipe and is connected on surge tank, paddle is fixedly connected on the lower end of puddler, air flow collection device is connected to compressed air and enters on pipe, compressed air enters the upper end connection of pipe center air ejector, the upper end of air hose connects ambient air ejector, filled media II and filled media I are arranged in cell body, and deflection plate and deflector are connected on the inwall of cell body, and distributor is connected to the lower end of water inlet pipe.
Description
Technical field
This utility model relates to mine equipment field, floats more specifically to a kind of efficient mine foam of gas-liquid convection formula
Select machine.
Background technology
In 19 end of the centurys, froth flotation starts formally to be used widely in selecting factory as a kind of industry beneficiation method, warp
Going through development for many years, at present, foam flotation method has become and has sorted one of topmost method of raw mineral materials in the world, and flotation device
It is the most important equipment of floatation process.Floatation equipment can be divided into two classes, i.e. mechanical type floatation equipment, flotation column and reactor type
Floatation equipment.Flotation column because of its uniqueness flotation feature in recent years oneself become floating apparatus develop focus, various novel, efficiently float
Select post constantly develop and apply, make flotation technology enter a brand-new stage.But apply at most in China, be most widely
Mechanical type flotation device, its structure is complicated, and purchase cost is expensive, and efficiency is low, and using effect is poor.
Utility model content
(1) the technical problems to be solved in the utility model
This utility model mainly solving the technical problems that: a kind of gas-liquid convection formula efficient mine foam flotation device dress is provided
Putting, compressed air sprays from center air ejector and ambient air ejector, and raw ore slurry is sized mixing after mixing in surge tank
Enter cell body, pressure-air, flushing water and raw ore slurry be bidirectional-movement in filled media I and filled media II, pressure-air with
Flushing water and raw ore slurry form convection current, and air is rinsed the water attack uniform tiny bubble of broken formation and sticks to be formed on ore particle foam
Concentrate, efficiency is high, and flotation effect is good.
(2) technical scheme
For solving above-mentioned technical problem, this utility model relates to mine equipment field, more specifically a kind of gas-liquid pair
Streaming efficient mine foam flotation device device, including: cell body, compressed air enter pipe, air flow collection device, centrifugal pump I, to ore deposit
Pipe, surge tank, paddle, regulator enter pipe, raw ore slurry enters pipe, motor, puddler, deflection plate, deflector, water inlet
Pipe, distributor, concentrate discharge pipe, filled media I, filled media II, center air ejector, ambient air ejector, air
Pipe, ore discharge pipe and centrifugal pump II, described centrifugal pump I is arranged on described mineral-feeding pipe, and one end of described mineral-feeding pipe is fixedly connected on
The lower end of described surge tank, the other end of described mineral-feeding pipe is fixedly connected on the outer wall of described cell body right-hand member, and described gives
The two ends of pipe connect with described surge tank and described cell body respectively;Described regulator enters pipe and is fixedly connected on described surge tank
On the outer wall of left end, and described regulator enters pipe and connects with the inside of described surge tank;It is fixing that described raw ore slurry enters pipe
It is connected to the upper end of described surge tank, and described raw ore slurry enters pipe and connects with the inside of described surge tank;Described motor
Being arranged on the upper end of described surge tank, described paddle is fixedly connected on the lower end of described puddler, the upper end of described puddler
It is fixedly connected on the axle of described motor;Described air flow collection device is fixedly connected on described compressed air and enters on pipe, described
Compressed air enters the upper end of pipe and is fixedly connected with described center air ejector, and the lower end of described air hose is fixedly connected on institute
Stating compressed air to enter on the outer wall of pipe, the upper end of described air hose is fixedly connected with described ambient air ejector, described pressure
Contracting air enters the left end of pipe through the outer wall of described cell body, and fixing with described cell body is connected;Described centrifugal pump II is installed
On described ore discharge pipe, the upper end of described ore discharge pipe is fixedly connected on the lower end of described cell body, and described ore discharge pipe is with described
The inside connection of cell body;Described filled media II is arranged in described cell body, and described filled media I is arranged in described cell body,
And described filled media I is positioned at the top of described filled media II;Described deflection plate is fixedly connected on the inwall of described cell body
On, described deflector is fixedly connected on the inwall of described cell body, and described deflector is positioned at the top of described deflection plate;Institute
State water inlet pipe through the outer wall of described cell body left end and fixing with described cell body to be connected, described distributor be fixedly connected on described in enter
The lower end of water pipe;Described concentrate discharge pipe is fixedly connected on the outer wall of described cell body right-hand member, and described concentrate discharge pipe with
The inside connection of described cell body.
As the further optimization of the technical program, this utility model one gas-liquid convection formula efficient mine foam flotation device
The described filled media II of device is positioned at the top of described center air ejector, and described deflection plate is positioned at described filled media I
Top, described distributor is positioned at the top of described deflector.
As the further optimization of the technical program, this utility model one gas-liquid convection formula efficient mine foam flotation device
The described ambient air ejector of device is identical with described air hose quantity, is respectively arranged with four.
As the further optimization of the technical program, this utility model one gas-liquid convection formula efficient mine foam flotation device
The described cell body of device, described deflection plate, described deflector, described filled media I and described filled media II are coaxial.
(3) beneficial effect:
Use the technical scheme that this utility model provides, compared with prior art, there is following remarkable result:
A kind of gas-liquid convection formula efficient mine foam flotation device device that this utility model provides, compressed air is empty from center
Gas blowout emitter and the ejection of ambient air ejector, raw ore slurry is sized mixing in surge tank after mixing and is entered cell body, pressure-air, punching
Wash water and raw ore slurry bidirectional-movement in filled media I and filled media II, it is right that pressure-air and flushing water and raw ore slurry are formed
Stream, air is rinsed the water attack uniform tiny bubble of broken formation and sticks to be formed on ore particle froth concentrate, and efficiency is high, flotation effect
Good.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model a kind of gas-liquid convection formula efficient mine foam flotation device device;
In figure: 1-cell body;2-compressed air enters pipe;3-air flow collection device;4-centrifugal pump I;5-mineral-feeding pipe;6-sizes mixing
Groove;7-paddle;8-regulator enters pipe;9-raw ore slurry enters pipe;10-motor;11-puddler;12-deflection plate;13-leads
Stream plate;14-water inlet pipe;15-distributor;16-concentrate discharge pipe;17-filled media I;18-filled media II;19-center air
Ejector;20-ambient air ejector;21-air hose;22-ore discharge pipe;23-centrifugal pump II.
Detailed description of the invention
Detailed description of the invention one:
Illustrate that present embodiment, this utility model relate to mine equipment field below in conjunction with Fig. 1, more specifically a kind of
Gas-liquid convection formula efficient mine foam flotation device device, including: cell body 1, compressed air enter pipe 2, air flow collection device 3, are centrifuged
Pump I 4, mineral-feeding pipe 5, surge tank 6, paddle 7, regulator enter pipe 8, raw ore slurry enters pipe 9, motor 10, puddler 11, folding
Stream plate 12, deflector 13, water inlet pipe 14, distributor 15, concentrate discharge pipe 16, filled media I 17, filled media II 18, center
Air ejector 19, ambient air ejector 20, air hose 21, ore discharge pipe 22 and centrifugal pump II 23, compressed air is empty from center
Gas blowout emitter and the ejection of ambient air ejector, raw ore slurry is sized mixing in surge tank after mixing and is entered cell body, pressure-air, punching
Wash water and raw ore slurry bidirectional-movement in filled media I and filled media II, it is right that pressure-air and flushing water and raw ore slurry are formed
Stream, air is rinsed the water attack uniform tiny bubble of broken formation and sticks to be formed on ore particle froth concentrate, and efficiency is high, flotation effect
Good.
Centrifugal pump I 4 is arranged on mineral-feeding pipe 5, and centrifugal pump I 4 enters cell body 1 for the raw ore slurry in surge tank 6 and provides power.
One end of mineral-feeding pipe 5 is fixedly connected on the lower end of surge tank 6, and the other end of mineral-feeding pipe 5 is fixedly connected on the outer wall of cell body 1 right-hand member
On, and the two ends of mineral-feeding pipe 5 connect with surge tank 6 and cell body 1, respectively by mineral-feeding pipe 5 by the mix and blend in surge tank 6
Good raw ore slurry sends into cell body 1.Regulator enters pipe 8 and is fixedly connected on the outer wall of surge tank 6 left end, and regulator enters
Pipe 8 connects with the inside of surge tank 6, enters pipe 8 by regulator and adds regulator in cell body 1.Raw ore slurry enters pipe 9 and fixes
Be connected to the upper end of surge tank 6, and raw ore slurry enter pipe 9 and connects with the inside of surge tank 6, by raw ore slurry entrance pipe 9 to
Cell body 1 adds raw ore slurry.Motor 10 is arranged on the upper end of surge tank 6, and paddle 7 is fixedly connected on puddler 11 times
End, the upper end of puddler 11 is fixedly connected on the axle of motor 10, and motor 10 rotarily drives puddler 11 and paddle 7 stirs
Mix mixing raw ore slurry and regulator.Air flow collection device 3 is fixedly connected on compressed air and enters on pipe 2, and air flow collection device 3 has gathering
The effect of air.Compressed air enters the upper end of pipe 2 and is fixedly connected with center air ejector 19, and the lower end of air hose 21 is fixed
Being connected to compressed air and enter on the outer wall of pipe 2, the upper end of air hose 21 is fixedly connected with ambient air ejector 20, compression sky
Gas enters the left end of pipe 2 through the outer wall of cell body 1, and fixing with cell body 1 is connected, and compressed air is from compressed air entrance pipe 2
Enter, finally spray from center air ejector 19 and ambient air ejector 20.Centrifugal pump II 23 is arranged on ore discharge pipe 22,
The upper end of ore discharge pipe 22 is fixedly connected on the lower end of cell body 1, and ore discharge pipe 22 connects with the inside of cell body 1, centrifugal pump II 23
Offer power is discharged along ore discharge pipe 22 for the slag after flotation.Filled media II 18 is arranged in cell body 1, and filled media I 17 is pacified
It is contained in cell body 1, and filled media I 17 is positioned at the top of filled media II 18.Deflection plate 12 is fixedly connected on the interior of cell body 1
On wall, deflector 13 is fixedly connected on the inwall of cell body 1, and deflector 13 is positioned at the top of deflection plate 12, deflection plate 12
There is baffling effect.Water inlet pipe 14 is through the outer wall of cell body 1 left end and fixing with cell body 1 is connected, distributor 15 be fixedly connected on into
The lower end of water pipe 14, injects flushing water by water inlet pipe 14 in cell body 1.Concentrate discharge pipe 16 is fixedly connected on cell body 1 right-hand member
Outer wall on, and concentrate discharge pipe 16 connects with the inside of cell body 1.From center air ejector 19 and ambient air ejector
The pressure-air of 20 ejections, the flushing water from distributor 15 ejection and the raw ore slurry from mineral-feeding pipe 5 entrance are at filled media I 17 and
Bidirectional-movement in filled media II 18, pressure-air forms convection current with flushing water and raw ore slurry, and it is broken that pressure-air is rinsed water attack
Forming uniform tiny bubble and stick to be formed on the ore particle of raw ore slurry froth concentrate, final concentrate passes through concentrate discharge pipe 16 row
Go out cell body 1.
Detailed description of the invention two:
Below in conjunction with Fig. 1, present embodiment being described, embodiment one is described further by present embodiment, and described fills out
Filling medium II 18 is positioned at the top of center air ejector 19, and deflection plate 12 is positioned at the top of filled media I 17, distributor 15
Top in deflector 13.
Detailed description of the invention three:
Below in conjunction with Fig. 1, present embodiment being described, embodiment one is described further by present embodiment, described week
Limit air ejector 20 is identical with air hose 21 quantity, is respectively arranged with four, increases the throughput of pressure-air so that pressure-air,
Raw ore slurry and flushing water contact area increase, and improve the efficiency of mining flotation device.
Detailed description of the invention four:
Below in conjunction with Fig. 1, present embodiment being described, embodiment one is described further by present embodiment, described groove
Body 1, deflection plate 12, deflector 13, filled media I 17 and filled media II 18 are coaxial, are favorably improved gas-liquid convection formula efficient
The stability of mine foam flotation device device.
Certainly, described above is not limitation of the utility model, and this utility model is also not limited to the example above, this skill
Change that the those of ordinary skill in art field is made in essential scope of the present utility model, retrofit, add or replace, also belong to
In protection domain of the present utility model.
Claims (4)
1. a gas-liquid convection formula efficient mine foam flotation device device, it is characterised in that including: cell body (1), compressed air are entered
Enter pipe (2), air flow collection device (3), centrifugal pump I (4), mineral-feeding pipe (5), surge tank (6), paddle (7), regulator entrance pipe
(8), raw ore slurry enters pipe (9), motor (10), puddler (11), deflection plate (12), deflector (13), water inlet pipe (14), divides
Cloth device (15), concentrate discharge pipe (16), filled media I (17), filled media II (18), center air ejector (19), periphery
Air ejector (20), air hose (21), ore discharge pipe (22) and centrifugal pump II (23), described centrifugal pump I (4) be arranged on described in
On pipe (5), one end of described mineral-feeding pipe (5) is fixedly connected on the lower end of described surge tank (6), described mineral-feeding pipe (5) another
One end is fixedly connected on the outer wall of described cell body (1) right-hand member, and the two ends of described mineral-feeding pipe (5) respectively with described surge tank
(6) connect with described cell body (1);Described regulator enters pipe (8) and is fixedly connected on the outer wall of described surge tank (6) left end,
And described regulator enters pipe (8) and connects with the inside of described surge tank (6);Described raw ore slurry enters the fixing connection of pipe (9)
In the upper end of described surge tank (6), and described raw ore slurry enters pipe (9) and connects with the inside of described surge tank (6);Described electricity
Motivation (10) is arranged on the upper end of described surge tank (6), and described paddle (7) is fixedly connected under described puddler (11)
End, the upper end of described puddler (11) is fixedly connected on the axle of described motor (10);Described air flow collection device (3) is fixing even
Being connected on described compressed air and enter on pipe (2), described compressed air enters the upper end of pipe (2) and is fixedly connected with described center air
Ejector (19), the lower end of described air hose (21) is fixedly connected on described compressed air and enters on the outer wall of pipe (2), described sky
The upper end of trachea (21) is fixedly connected with described ambient air ejector (20), and described compressed air enters the left end of pipe (2) and wears
Cross the outer wall of described cell body (1), and fixing with described cell body (1) be connected;Described centrifugal pump II (23) is arranged on described ore discharge
On pipe (22), the upper end of described ore discharge pipe (22) is fixedly connected on the lower end of described cell body (1), and described ore discharge pipe (22) with
The inside connection of described cell body (1);Described filled media II (18) is arranged in described cell body (1), described filled media I (17)
It is arranged in described cell body (1), and described filled media I (17) is positioned at the top of described filled media II (18);Described folding
Stream plate (12) is fixedly connected on the inwall of described cell body (1), and described deflector (13) is fixedly connected on the interior of described cell body (1)
On wall, and described deflector (13) is positioned at the top of described deflection plate (12);Described water inlet pipe (14) passes described cell body (1)
The outer wall of left end also fixing with described cell body (1) is connected, and described distributor (15) is fixedly connected under described water inlet pipe (14)
End;Described concentrate discharge pipe (16) is fixedly connected on the outer wall of described cell body (1) right-hand member, and described concentrate discharge pipe (16)
Connect with the inside of described cell body (1).
A kind of gas-liquid convection formula efficient mine foam flotation device device the most according to claim 1, it is characterised in that: described
Filled media II (18) is positioned at the top of described center air ejector (19), and described deflection plate (12) is positioned at described filled media
The top of I (17), described distributor (15) is positioned at the top of described deflector (13).
A kind of gas-liquid convection formula efficient mine foam flotation device device the most according to claim 1, it is characterised in that: described
Ambient air ejector (20) is identical with described air hose (21) quantity, is respectively arranged with four.
A kind of gas-liquid convection formula efficient mine foam flotation device device the most according to claim 1, it is characterised in that: described
Cell body (1), described deflection plate (12), described deflector (13), described filled media I (17) and described filled media II (18) are same
Axle.
Priority Applications (1)
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CN201620672043.9U CN205851115U (en) | 2016-06-27 | 2016-06-27 | A kind of gas-liquid convection formula efficient mine foam flotation device device |
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CN201620672043.9U CN205851115U (en) | 2016-06-27 | 2016-06-27 | A kind of gas-liquid convection formula efficient mine foam flotation device device |
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CN201620672043.9U Expired - Fee Related CN205851115U (en) | 2016-06-27 | 2016-06-27 | A kind of gas-liquid convection formula efficient mine foam flotation device device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108772203A (en) * | 2018-07-01 | 2018-11-09 | 张大伟 | A kind of tin ore mine factory ore dressing flotation device |
CN114599452A (en) * | 2019-12-18 | 2022-06-07 | 株式会社德山 | Method for producing modified fly ash |
-
2016
- 2016-06-27 CN CN201620672043.9U patent/CN205851115U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108772203A (en) * | 2018-07-01 | 2018-11-09 | 张大伟 | A kind of tin ore mine factory ore dressing flotation device |
CN114599452A (en) * | 2019-12-18 | 2022-06-07 | 株式会社德山 | Method for producing modified fly ash |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170104 Termination date: 20170627 |
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CF01 | Termination of patent right due to non-payment of annual fee |