US1250303A - Flotation apparatus. - Google Patents
Flotation apparatus. Download PDFInfo
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- US1250303A US1250303A US6499615A US6499615A US1250303A US 1250303 A US1250303 A US 1250303A US 6499615 A US6499615 A US 6499615A US 6499615 A US6499615 A US 6499615A US 1250303 A US1250303 A US 1250303A
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- atomizers
- liquid
- tank
- gas
- gangue
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03D—FLOTATION; DIFFERENTIAL SEDIMENTATION
- B03D1/00—Flotation
- B03D1/14—Flotation machines
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03D—FLOTATION; DIFFERENTIAL SEDIMENTATION
- B03D1/00—Flotation
- B03D1/14—Flotation machines
- B03D1/1443—Feed or discharge mechanisms for flotation tanks
- B03D1/1456—Feed mechanisms for the slurry
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03D—FLOTATION; DIFFERENTIAL SEDIMENTATION
- B03D1/00—Flotation
- B03D1/14—Flotation machines
- B03D1/24—Pneumatic
- B03D1/245—Injecting gas through perforated or porous area
Definitions
- My invention relates to the separation of mineral values from their gangue by flotation, and has for its object the cheap and effective recovery of the mineral values by flotation in an apparatus which is cheaply installed and which is simple in its operation.
- Figure 1 represents a longitudinal section of the apparatus; Fig. 2, a cross-section, and Figs. 3,4, and 5, a detail section taken longitudinally, a detail cross-section,
- hoppered bottom of the tank is designated.
- 17. 3 represents a series of atomizers, which may be arranged horizontally or at an incline. These atomizersare used to introduce a gas into the liquid in the tank and are, preferably, each composed of a perforated pipe 4, which is supplied with air or gas under pressure through the pipes 6 and the main 18.
- a perforated pipe 4 Surrounding theperforated pipes 4, is a porous material, or fabric, 5, through which the gas is passed into the liquid in the tank in a finely divided condition, or atomized. In order that the gas may escape entirely in a finely divided con-- dition, the ends of the porous material are securely clamped to theperforated pipe 4,
- a screen, or wlre netting 10 is interposed between the pipe and the porous materialo
- the ends of the pipe 4 are secured by caps 13', into which the pipe is screwed.
- 14 represents a feeder for supplying the material to be treated to the tank.
- the resulting froth is represented by 20, on top of the liquid, and the gangue, or waste material by 21, in the hopper.
- the mineral The waste material, or gangue, dropping into the hopper 17, is removed through the pipe 15, and its amount is regulated by the valve 16.
- a small air or water jet may be introduced into the pipe 15 through the pipe 29, to remove or prevent clogging of the outflowing waste material.
- the atomizers are preferably moved in the liquid, depending upon the results desired and the ore treated. If the atomizers are reciprocated, as shown in the drawings, they are suspended by suspenders 22, and the spacing between the atomizers adjusted by the bars 24, so that the atomizers act as a whole when reciprocated.
- the suspenders 22 and the spacing bars 24 are attached to the atomizers by the bolts 23.
- 25 is a top crossbar, from which the atomizers and connecting parts aresuspended as a whole by the suspenders 26, oscillating about the pivotal points 27, which are suspended. from the supports 32, and vertically adjustable by means of the screws 28.
- 18 is a flexible pipe used to conduct the gas into the atomizers when the atomizers are reciprocating, and 30 represents the mechanism by means of which the atomizers are given a reciprocal motion. If it is desired to re-treat the ore in the same apparatus, or to pass it on to another similar apparatus, it 'is elevated by means of the centrifugal pump 31. It is very desirable to regulate the height of the liquid above the atomizers: this is done by the screws 28, by means of which the atomizers maybe raised or lowered as desired.
- the atomizers themselves, may be variously constructed.
- a good arrangement is shown in the drawings, in which two pipes 4, are screwed into a T, 19, and caps 13, screwed on the ends of the pipes.
- the gas supply pipe 6, is'also screwed into the T. Perforations are made in the pipes 4, as de 4 sired.
- Wire screen is then wrapped around each pipe, shown by 10, and a woven cloth of the desired porosity placed over the wire screen, as shown by 5.
- Clamps 12 are then placed on the pipe and the porous fabric tightly clamped to the pipe, so .that all the air admitted to the pipe must escape through the pores of the porous material,
- the passage of the material over the porous surface in either Figs. 1 and 2, or in Figs. 6 and 7, may be governed by the inclination of the porous surface and by the air blast, or by the regulation of the air. If, in Fig. 1, the air is varied so as to be stronger at one end than at the other, only the gangue which is quite unaffected by flotation will pass through the region of intensified action of the first space, and as the intensity of the action is diminished more 'of the gangue will pass through the suc-,
- the reciprocating motion on an inclined surface, tends to advance the material, and this advance can be regulated to a nicety.
- the action is somewhat similar to some form of concentrating tables, except that in my apparatus the surface is porous and submerged, and air is passing through the submerged porous surface.
- the exact nature of the reciprocating motion need not be here considered but such a motion as used. in
- atomizers are reciorocated. th gas is introduced into the atomizers through a flexible tubing 18*.
- the feeder 14 is so arranged as to spread the material to be treated in a thin sheet or layer into the liquid of the tank and on the porous surface.
- the ore crushed to 60 or 80 mesh In operating the apparatus in the treatment of ores by flotation, the ore crushed to 60 or 80 mesh, usually mixed with from two to five times its weight of water, and having thoroughly incorporated in it-frothing ingredients such as oil and possibly a small amount of acid, is introduced into the tank 1, through the feeder 14. The air flowing through the main 18 and pipe 18 is distributed to the pipes 6 through the pipe 8,
- Figs. 6 and 7 represent a modified arrangement of the apparatus, in which a rectangular air chamber 3 provided with a fiat perforated surface 4 takes the place of the round atomizers as shown by 3 and 1, in Figs. 1, 2, 3, and 4.
- the screen, or wire netting, is indicated by 10, and the porous fabric by 5*.
- a coarse wire screen is also preferably placed on'top of the porous fabric to'hold it down, or prevent it from bulging, as shown at 10, and this is furtherpulp is fed into the tank by the feeder 14 and, in passing through the liquid charged with air, the finer particles are held in suspension, from which the mineral is floated, while the coarser particles settle on the flat porous surface, and, due to the combined action of the air and oscillating motion, are gradually worked toward the discharge end and into thehopper 17, while the floatable material rises and is recovered as froth 20, in the launder 11.
- the rate of flow of the material over the porous surface is governed by the rate of oscillation, and theinclination, so that the rate of flow is at all times under. control.
- oscillatory motion serves three well defined tus, either as set forth in Figs. 1 and 2, or
- the spacing of the porous arms, or atomizers, in Fig. 1, mayvary.
- the escaping jets may commlngleor not: in either case the thorough mixlng or commingling of the gas is effected afterward by the reciprocatmg motion of the atomizers, and none of the material being treated can pass downwardly through a zone Where there is no gas.
- the reciprocating mo Neither is it necessary to have the atomizers tion' of the atomizers causes a uniformity of action not 'ca able of-being obtained with stationary atomlzers.
- the degree to which mixing of the gas takes place is governed by the speed of reciprocation and the amplitank, a porous material, surrounding the pipes, means for passing a gas into the pipes tude of oscillation.
- the reciprocal move ment of the atomizers also keeps the pores of theatomizers free from settled solids.
- I claim5 In apparatus for separating minerals from their gangue by flotation, a tank adapted to contain aliquid, a series of pipes suspended within the tank and submerged in the liquid and arranged transversely ofthe and through the porous material into the liquid in the tank thus gaseating the liquid, means for introducing the material to 'be treated into the tankand passing it through the gaseated liquid, means for imparting to the pipes a reciprocal motion transversely of the axes of the pipes and across the path of sinking particles, means for withdrawing the gangue from below the level of the introduction of the gas through the porous surface into the liquid, and means for re covering the mineral froth from the surface of the liquid in the tank.
- a tank adapted to contain a liquid, a porous surface suspended Within the tank and submerged in the liquid, means for passing a gas through the porous surface into the liquid, means for introducing the material to be treated into the tank and passing it through the gaseated liquid, means for imparting to the porous surface a reciprocal motion in a direction of the flow of the liquid and across the path of the sinking particles of material, means for withdrawing the gangue from below the j level of the introduction ofthe gasthrough the porous surface into the liquid, and means for recoveringthe mineral froth from-th surface of the liquid in the tank.
- a tank adapted to contain a liquid, a series of atomizers arranged transversely of the tank suspended within the tank and submerged in the liquid,
- a tank adaptedto contain a liquid, a series of atomizers suspended .within the tank and submerged in the. liquid, means for. passin a gas tank, means for adjusting the atomizers to varying depths of liquid,'mean s for varying through the atomizers into the liquid in thethe volume and pressure'qf the gas delivered to the respective atomizers, means for introducing the material to be treated into the tank to pass through the gaseated l1qu1d,
- a tank adapted to contain a liquid and having a tailings outlet at the lower portion and a froth overflow at the upper portion, a series ofatomizers suspended within the tank and submerged in the liquid and arranged trans: versely of thetank, flexible means for supplying the atomizers with gas, means for introducing the material to be treated into' the tank and into the gaseated'liquid, and I means for reciprocating the atomizers transversely of their longitudinal axes and across the path of sinking particles of material.
- V 7 In apparatus for separating minerals from their gangue'by flotation, a tank adapt:
- a series of atomizers suspended within the tank extending transversely of the tank at a distance from thebottom thereof, means for maintaining the zone occupied by the atomizers free from settled solids, means for supplying ages to the atomizers, means for introducing the material to be treated into the tank to am through the gaseated liquid, and means for reciprocating the atomizers transversely of their longitudinal axes and across the path of sinking particles of material.
- a tank adapted to contain a liquid and having a t ailings outlet at the lower portion and a froth overfiow at the upper portion, gas atomizers suspended within the tank and submerged in the liquid, means for supplying the atomizers with a gas, means forintroducin the material to be treated into the tank an into the gaseated liquid, means for removing the gangue from below the level of the atomizers, means for reciprocating the atomizers, and means attached to the suspenders of the atomizer-s for Working the mineral froth toward the froth overflow at the upper portion of the tank.
- a tank adapted to contain a liquidand having a tailings outlet at the lower portion and a froth overflow at the upper portion, gas atomizers suspended within-the tank and submerged in messes the liquid, means for supplying the atomizers with gas, means for varymg the intensity of gaseation in the liquid, means for introducing the material to be treated into the tank in the region of the greatest intensity of gaseation so as to cause a selective action toward the region of diminishing intensity of gaseation, and means for reciprocating the atomizer in a direction of the flow of the liquid and across the path of sinking particles of material being treated.
- a tank adapted to contain a liquid and having a tailings outlet. at the lower portion and a froth overflow at the upper portion, a series of gas atomizers arranged with spaces between them, means for supplying the atomizers with gas, means for varying the intensity of the gaseat-ion in the spaces between the respective atomizers so as to produce a selective action of the material being treated from one end of the series of atomizers toward the other end, means for introducing the material to be treated into the tank and into the gaseated liquid, means for reciprocating the atomizers'transversely of their longitudinal axes and across the path of sinking particles, and means for removing the gangue from below the atomizers.
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Description
W. E. GREENAWALT. FLOTATION APPARATUS.
APPLICATION FILED DEC.4. I915. v 1,250,303, v Patented Dec. 18,1917.
2 SHEETS-SHEET I.
MTNESSES UNITED STATES PATENT OFFICE.
FLOTATION APPARATUS.
Specification of Letters Patent.
Patented Dec. 18, 1917.
Application filed December 4, 1915. Serial No. 64,996.
To all whom it may concern:
Be it known that 1, WILLIAM E. GREENA- WALT, a citizen of the United States, residing in the city and county of Denver and State'of Colorado, have invented certain new and useful Improvements in Flotation Apparatus, of which the following is a specification. I
My invention relates to the separation of mineral values from their gangue by flotation, and has for its object the cheap and effective recovery of the mineral values by flotation in an apparatus which is cheaply installed and which is simple in its operation.
The invention is best described by referring to the accompanying drawings, in which Figure 1 represents a longitudinal section of the apparatus; Fig. 2, a cross-section, and Figs. 3,4, and 5, a detail section taken longitudinally, a detail cross-section,
hoppered bottom of the tank is designated.
by 17. 3 represents a series of atomizers, which may be arranged horizontally or at an incline. These atomizersare used to introduce a gas into the liquid in the tank and are, preferably, each composed of a perforated pipe 4, which is supplied with air or gas under pressure through the pipes 6 and the main 18. Surrounding theperforated pipes 4, is a porous material, or fabric, 5, through which the gas is passed into the liquid in the tank in a finely divided condition, or atomized. In order that the gas may escape entirely in a finely divided con-- dition, the ends of the porous material are securely clamped to theperforated pipe 4,
by means of the clamps 12. In order that the gas may flow freely from the holes 9,
in thepipe 4, to all parts of the porous covering, a screen, or wlre netting 10, is interposed between the pipe and the porous materialo The ends of the pipe 4, are secured by caps 13', into which the pipe is screwed. 14 represents a feeder for supplying the material to be treated to the tank. The resulting froth is represented by 20, on top of the liquid, and the gangue, or waste material by 21, in the hopper. The mineral The waste material, or gangue, dropping into the hopper 17, is removed through the pipe 15, and its amount is regulated by the valve 16. A small air or water jet may be introduced into the pipe 15 through the pipe 29, to remove or prevent clogging of the outflowing waste material. I The atomizers are preferably moved in the liquid, depending upon the results desired and the ore treated. If the atomizers are reciprocated, as shown in the drawings, they are suspended by suspenders 22, and the spacing between the atomizers adjusted by the bars 24, so that the atomizers act as a whole when reciprocated. The suspenders 22 and the spacing bars 24 are attached to the atomizers by the bolts 23. 25 is a top crossbar, from which the atomizers and connecting parts aresuspended as a whole by the suspenders 26, oscillating about the pivotal points 27, which are suspended. from the supports 32, and vertically adjustable by means of the screws 28. 18 is a flexible pipe used to conduct the gas into the atomizers when the atomizers are reciprocating, and 30 represents the mechanism by means of which the atomizers are given a reciprocal motion. If it is desired to re-treat the ore in the same apparatus, or to pass it on to another similar apparatus, it 'is elevated by means of the centrifugal pump 31. It is very desirable to regulate the height of the liquid above the atomizers: this is done by the screws 28, by means of which the atomizers maybe raised or lowered as desired.
The atomizers, themselves, may be variously constructed. A good arrangement is shown in the drawings, in which two pipes 4, are screwed into a T, 19, and caps 13, screwed on the ends of the pipes. The gas supply pipe 6, is'also screwed into the T. Perforations are made in the pipes 4, as de 4 sired. Wire screen is then wrapped around each pipe, shown by 10, and a woven cloth of the desired porosity placed over the wire screen, as shown by 5. Clamps 12, are then placed on the pipe and the porous fabric tightly clamped to the pipe, so .that all the air admitted to the pipe must escape through the pores of the porous material,
and in an atomized, or finely divided condition.
The passage of the material over the porous surface, in either Figs. 1 and 2, or in Figs. 6 and 7, may be governed by the inclination of the porous surface and by the air blast, or by the regulation of the air. If, in Fig. 1, the air is varied so as to be stronger at one end than at the other, only the gangue which is quite unaffected by flotation will pass through the region of intensified action of the first space, and as the intensity of the action is diminished more 'of the gangue will pass through the suc-,
cessive spaces until finally all the gangue that is eliminated will be eliminated toward or at the end. The currents of atomized air, passing up through the spaces 3*, between the atomizers, give an intensified action at the spaces, and thus the material which is affected by flotation will pass on over the atomizers until it is either finally floated or passes ofi" with the gangue. In Fig. 6, much the same results may be obtained by varying the inclination of the porous surface, and this inclination in both Figs. 1 and 6 can be regulated by the adjusting screws 28.
The reciprocating motion, on an inclined surface, tends to advance the material, and this advance can be regulated to a nicety. The action is somewhat similar to some form of concentrating tables, except that in my apparatus the surface is porous and submerged, and air is passing through the submerged porous surface. The exact nature of the reciprocating motion need not be here considered but such a motion as used. in
many of the standard concentrating tables will give excellent results.
The reciprocating motion of the atomizers and accessory parts will tend to aid the escape of the froth into the launder 11, but
this can be expedited by blades 36, Fig. 6,
working on pivots, and attached to the reciprocating suspenders 22. If the atomizers are reciorocated. th gas is introduced into the atomizers through a flexible tubing 18*.
The feeder 14, is so arranged as to spread the material to be treated in a thin sheet or layer into the liquid of the tank and on the porous surface.
In operating the apparatus in the treatment of ores by flotation, the ore crushed to 60 or 80 mesh, usually mixed with from two to five times its weight of water, and having thoroughly incorporated in it-frothing ingredients such as oil and possibly a small amount of acid, is introduced into the tank 1, through the feeder 14. The air flowing through the main 18 and pipe 18 is distributed to the pipes 6 through the pipe 8,
and is regulated by the valves 7. The air thus introduced into the pipes 4, or air chambers, passes out through the perforations 9, and, due to the pressure, is forced through the porous material 5, in finely divided bubbles, or in an atomized condition. These bubbles rise'through the water, and under the conditions, float the floatable mineral particles, while the waste material, or gangue, passes overthe porous surface and down through the ends, or spaces between the atomizers into the hopper 17 and is removed through the pipe 15. The mineral froth 20, on top of the water, flows with the overflow water into the launder 11 and is removed from the apparatus. The reciprocal motion of the porous surface tends to give uniformity to the operation, and in the modification as shown in Fig. 6, the reciprocal motion and the inclination can be so arranged that the material will travel slowly or rapidly over the porous surface, so that the apparatus can readily be adjusted to the results desired.
Figs. 6 and 7 represent a modified arrangement of the apparatus, in which a rectangular air chamber 3 provided with a fiat perforated surface 4 takes the place of the round atomizers as shown by 3 and 1, in Figs. 1, 2, 3, and 4. The screen, or wire netting, is indicated by 10, and the porous fabric by 5*. A coarse wire screen is also preferably placed on'top of the porous fabric to'hold it down, or prevent it from bulging, as shown at 10, and this is furtherpulp is fed into the tank by the feeder 14 and, in passing through the liquid charged with air, the finer particles are held in suspension, from which the mineral is floated, while the coarser particles settle on the flat porous surface, and, due to the combined action of the air and oscillating motion, are gradually worked toward the discharge end and into thehopper 17, while the floatable material rises and is recovered as froth 20, in the launder 11. i
The rate of flow of the material over the porous surface is governed by the rate of oscillation, and theinclination, so that the rate of flow is at all times under. control. The
oscillatory motion serves three well defined tus, either as set forth in Figs. 1 and 2, or
in Figs. 6 and 7 these difliculties are largely overcome, if not entirely eliminated.
The spacing of the porous arms, or atomizers, in Fig. 1, mayvary. The escaping jets may commlngleor not: in either case the thorough mixlng or commingling of the gas is effected afterward by the reciprocatmg motion of the atomizers, and none of the material being treated can pass downwardly through a zone Where there is no gas.
' parallel although it is desirable not to have, them vary too much. The reciprocating mo Neither is it necessary to have the atomizers tion' of the atomizers causes a uniformity of action not 'ca able of-being obtained with stationary atomlzers. The degree to which mixing of the gas takes place is governed by the speed of reciprocation and the amplitank, a porous material, surrounding the pipes, means for passing a gas into the pipes tude of oscillation. The reciprocal move ment of the atomizers also keeps the pores of theatomizers free from settled solids.
I claim5 1. In apparatus for separating minerals from their gangue by flotation, a tank adapted to contain aliquid, a series of pipes suspended within the tank and submerged in the liquid and arranged transversely ofthe and through the porous material into the liquid in the tank thus gaseating the liquid, means for introducing the material to 'be treated into the tankand passing it through the gaseated liquid, means for imparting to the pipes a reciprocal motion transversely of the axes of the pipes and across the path of sinking particles, means for withdrawing the gangue from below the level of the introduction of the gas through the porous surface into the liquid, and means for re covering the mineral froth from the surface of the liquid in the tank.
2. In apparatus for separating minerals from their gangue byflotation, a tank adapted to contain a liquid, a porous surface suspended Within the tank and submerged in the liquid, means for passing a gas through the porous surface into the liquid, means for introducing the material to be treated into the tank and passing it through the gaseated liquid, means for imparting to the porous surface a reciprocal motion in a direction of the flow of the liquid and across the path of the sinking particles of material, means for withdrawing the gangue from below the j level of the introduction ofthe gasthrough the porous surface into the liquid, and means for recoveringthe mineral froth from-th surface of the liquid in the tank.
3. In apparatus for separating minerals from their gangue by flotation, a tank adapted to contain a liquid, a series of atomizers arranged transversely of the tank suspended within the tank and submerged in the liquid,
means for passing a gas through the atomizers into the liquid in the tank, means for in means for reciprocating the atomizers-transversely of their longitudinal axes and across troducing the material to be treated into the tank to pass through the gaseated liquid,
the path of sinking particles of material,
gas delivered to the suspended Within the tank and submerged in the liquid and arranged transversely of the tank, means for passing a gas through the atomizers into the liquid, means for adjusting the atomizers to varying depths of' liquid, means for introducing the material to be treated into the tank to pass through,
the gaseated liquid, means for reciprocating the atomizers across the path of sink ng particles of material, means for recover ng the mineral froth from the surface of the liquid, and means for removing the gangue *from below the level of the atomizers.
5. In apparatus for separating minerals from their gangue by flotation, a tankadaptedto contain a liquid, a series of atomizers suspended .within the tank and submerged in the. liquid, means for. passin a gas tank, means for adjusting the atomizers to varying depths of liquid,'mean s for varying through the atomizers into the liquid in thethe volume and pressure'qf the gas delivered to the respective atomizers, means for introducing the material to be treated into the tank to pass through the gaseated l1qu1d,
means for imparting tothe atomizers a reciprocating motion across the path of sinking particles of material, means for recovering the mineral froth from the surface of the liquid, and means for removing the ganguefrombelow the level of the .atomizers.
'6. In apparatus for separating minerals from their gangue by fiotation,.a tank adapted to contain a liquid and having a tailings outlet at the lower portion and a froth overflow at the upper portion, a series ofatomizers suspended within the tank and submerged in the liquid and arranged trans: versely of thetank, flexible means for supplying the atomizers with gas, means for introducing the material to be treated into' the tank and into the gaseated'liquid, and I means for reciprocating the atomizers transversely of their longitudinal axes and across the path of sinking particles of material. V 7 In apparatus for separating minerals from their gangue'by flotation, a tank adapt:
ed to contain a liquid and having a tailings outlet at the lower portion and a froth overflow at the upper portion, a series of atomizers suspended within the tank extending transversely of the tank at a distance from thebottom thereof, means for maintaining the zone occupied by the atomizers free from settled solids, means for supplying ages to the atomizers, means for introducing the material to be treated into the tank to am through the gaseated liquid, and means for reciprocating the atomizers transversely of their longitudinal axes and across the path of sinking particles of material.
8.' In apparatus for separating minerals from their gangue by flotation, a tank adapted to contain a liquid and having a t ailings outlet at the lower portion and a froth overfiow at the upper portion, gas atomizers suspended within the tank and submerged in the liquid, means for supplying the atomizers with a gas, means forintroducin the material to be treated into the tank an into the gaseated liquid, means for removing the gangue from below the level of the atomizers, means for reciprocating the atomizers, and means attached to the suspenders of the atomizer-s for Working the mineral froth toward the froth overflow at the upper portion of the tank.
9. In apparatus for separating minerals from their gangue by flotation, a tank adapted to contain a liquidand having a tailings outlet at the lower portion and a froth overflow at the upper portion, gas atomizers suspended within-the tank and submerged in messes the liquid, means for supplying the atomizers with gas, means for varymg the intensity of gaseation in the liquid, means for introducing the material to be treated into the tank in the region of the greatest intensity of gaseation so as to cause a selective action toward the region of diminishing intensity of gaseation, and means for reciprocating the atomizer in a direction of the flow of the liquid and across the path of sinking particles of material being treated.
10. In apparatus for separating minerals from their gangue by flotation, a tank adapted to contain a liquid and having a tailings outlet. at the lower portion and a froth overflow at the upper portion, a series of gas atomizers arranged with spaces between them, means for supplying the atomizers with gas, means for varying the intensity of the gaseat-ion in the spaces between the respective atomizers so as to produce a selective action of the material being treated from one end of the series of atomizers toward the other end, means for introducing the material to be treated into the tank and into the gaseated liquid, means for reciprocating the atomizers'transversely of their longitudinal axes and across the path of sinking particles, and means for removing the gangue from below the atomizers.
WILLIAM E. GREENAWALT.
Witnesses:
Anion B. Ross, Com M. GREENAWALTW
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US6499615A US1250303A (en) | 1915-12-04 | 1915-12-04 | Flotation apparatus. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US6499615A US1250303A (en) | 1915-12-04 | 1915-12-04 | Flotation apparatus. |
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US1250303A true US1250303A (en) | 1917-12-18 |
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US6499615A Expired - Lifetime US1250303A (en) | 1915-12-04 | 1915-12-04 | Flotation apparatus. |
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Cited By (8)
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US3941314A (en) * | 1973-12-26 | 1976-03-02 | The United States Of America As Represented By The Administrator Of Environmental Protection Agency | Nozzle assembly for distributing fluid |
US4117048A (en) * | 1975-07-04 | 1978-09-26 | Linde Aktiengesellschaft | Apparatus for introducing gas into a liquid |
US4156648A (en) * | 1978-05-30 | 1979-05-29 | The United States Of America As Represented By The Secretary Of The Navy | Flotation device with pretreatment |
US4489016A (en) * | 1983-02-11 | 1984-12-18 | Capital Controls Company, Inc. | Apparatus for diffusing gases into liquids |
US6890431B1 (en) * | 2000-02-18 | 2005-05-10 | The F. B. Leopold Co., Inc. | Buoyant media flotation |
US20090051057A1 (en) * | 2006-12-29 | 2009-02-26 | Kms Co., Ltd | Diffuser For Aeration |
US20110101548A1 (en) * | 2006-12-29 | 2011-05-05 | Kms Co., Ltd. | Diffuser for aeration |
US11084003B2 (en) * | 2016-06-15 | 2021-08-10 | Satoshi ANZAI | Ultrafine bubble generation device for aquaculture or wastewater treatment |
-
1915
- 1915-12-04 US US6499615A patent/US1250303A/en not_active Expired - Lifetime
Cited By (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3941314A (en) * | 1973-12-26 | 1976-03-02 | The United States Of America As Represented By The Administrator Of Environmental Protection Agency | Nozzle assembly for distributing fluid |
US4117048A (en) * | 1975-07-04 | 1978-09-26 | Linde Aktiengesellschaft | Apparatus for introducing gas into a liquid |
US4156648A (en) * | 1978-05-30 | 1979-05-29 | The United States Of America As Represented By The Secretary Of The Navy | Flotation device with pretreatment |
US4489016A (en) * | 1983-02-11 | 1984-12-18 | Capital Controls Company, Inc. | Apparatus for diffusing gases into liquids |
US6890431B1 (en) * | 2000-02-18 | 2005-05-10 | The F. B. Leopold Co., Inc. | Buoyant media flotation |
US20050161406A1 (en) * | 2000-02-18 | 2005-07-28 | The F.B. Leopold Co., Inc. | Buoyant media flotation |
US7037432B2 (en) | 2000-02-18 | 2006-05-02 | The F.B. Leopold Co., Inc. | Buoyant media flotation |
US20090051057A1 (en) * | 2006-12-29 | 2009-02-26 | Kms Co., Ltd | Diffuser For Aeration |
US7850151B2 (en) * | 2006-12-29 | 2010-12-14 | Kms Co., Ltd. | Diffuser for aeration |
US20110101548A1 (en) * | 2006-12-29 | 2011-05-05 | Kms Co., Ltd. | Diffuser for aeration |
US20110133348A1 (en) * | 2006-12-29 | 2011-06-09 | Kms Co., Ltd. | Diffuser for aeration |
US8191871B2 (en) * | 2006-12-29 | 2012-06-05 | Kms Co., Ltd. | Diffuser for aeration |
US8556238B2 (en) * | 2006-12-29 | 2013-10-15 | Econity Co., Ltd. | Diffuser for aeration |
US11084003B2 (en) * | 2016-06-15 | 2021-08-10 | Satoshi ANZAI | Ultrafine bubble generation device for aquaculture or wastewater treatment |
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