CN117000439A - Iron ore separation flotation device and flotation process - Google Patents

Abstract

The invention relates to the technical field of mineral processing equipment, in particular to an iron ore separation flotation device and a flotation process, comprising a flushing chamber and a crushing cavity, wherein the middle part of the upper end of the flushing chamber is penetrated and connected with the crushing cavity in a sliding way, the middle part of the left side of the crushing cavity is connected with a fixed column in a sliding way, the water outlet end of a water pump is communicated with a water outlet pipe, the lower end of the water outlet pipe is communicated with a water distribution plate, the lower end of the water distribution plate is provided with a spray head, and the flushing chamber is also provided with a reciprocating stirring mechanism for uniformly flushing ores; the iron powder wetting device has a turning effect on the iron powder while wetting, avoids the situation that the iron powder at the bottom is not fully wetted, enlarges the wetting area and has higher efficiency; the flotation efficiency is improved, the operation is convenient, and the operation is more convenient.

Description

Iron ore separation flotation device and flotation process

Technical Field

The invention relates to the technical field of mineral separation equipment, in particular to an iron ore separation flotation device and a flotation process.

Background

In a flotation machine, ore pulp treated by adding a reagent is stirred and aerated, so that some ore particles are selectively fixed on bubbles, the bubbles are scraped out, and the rest part of the ore pulp remains in the ore pulp, thereby achieving the purpose of separating minerals, and the most commonly used stirring flotation machine at present. The flotation machine generally comprises a flotation cell, a motor, a main shaft, a sleeve, a feeding pipe, an air inlet pipe, an impeller and a foam telescopic scraping plate, wherein the impeller is arranged at the bottom end of the sleeve and connected with the bottom end of the main shaft, the feeding pipe is connected with the middle part of the sleeve, and after the impeller rotates, centrifugal force is utilized to drive ore pulp and air to be mixed into the flotation cell, so that flotation is performed.

For example, patent document with publication number of CN213727156U discloses a flotation machine for separating fine iron powder from metal iron slag, and belongs to the field of mineral separation equipment. The utility model provides a flotation machine for metal iron slag iron fine powder separation, includes the flotation tank, be equipped with flotation equipment in the flotation tank, still include the screening case, be connected with the passage between screening case and the flotation tank, be equipped with multiunit shower nozzle in the passage, all be equipped with the spray pipe on the shower nozzle, be equipped with the feed inlet on the screening case, the screening incasement rotation is connected with the fixed plate, be equipped with the filter screen on the fixed plate, be equipped with the fixed block in the screening case, fixedly connected with spring on the fixed block, the one end and the fixed plate fixed connection of fixed block are kept away from to the spring, the screening case lateral wall is equipped with driving motor, driving motor's output fixedly connected with first pivot; this patent is convenient for screen the iron powder through the setting of spring, cam, filter screen, and drainage mechanism, spray pipe, shower nozzle's setting is convenient for wash the iron powder in the passage.

However, the above patent documents have the following disadvantages in practical application:

the added iron powder raw materials are inconvenient to have a crushing and screening effect, so that partial iron powder raw materials can be agglomerated, and the subsequent flotation efficiency is affected; in addition, in the above patent documents, the wetting effect on the iron powder is poor, and in the above patent documents, the iron powder reaches the flotation tank through the material guiding pipe, and the spraying direction of the spray head is fixed, so that the iron powder at the bottom is not uniformly wetted, and thus the wetting efficiency is low.

Disclosure of Invention

The invention aims to provide an iron ore separation flotation device and a flotation process, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an iron ore separation flotation device, includes flushing chamber and broken chamber, flushing chamber upper end middle part runs through and links to each other with broken chamber is sliding, broken chamber left side middle part sliding connection has the fixed column, the fixed column lower extreme cover is equipped with the spring, the spring upper end links to each other with broken chamber is fixed, the spring lower extreme links to each other with flushing chamber is fixed, install the broken screening mechanism that is used for separating the ore of caking on the broken chamber, flushing chamber up end right side middle part fixedly connected with water tank, water tank left end middle part intercommunication has the water pump, water pump play water end intercommunication has the outlet pipe, the intercommunication of outlet pipe lower extreme has the water diversion board, the water diversion board lower extreme is provided with the shower nozzle, still be provided with on the flushing chamber and be used for realizing evenly flushing the reciprocal mechanism that turns to the ore.

The utility model discloses a crushing device, including broken chamber, telescopic scraper blade, support box, annular pressurization gasbag, fan, telescopic scraper blade, wedge-shaped end, annular pressurization gasbag, the top plate that the gasbag runs through the flushing chamber and the inside intercommunication of annular pressurization gasbag, annular pressurization gasbag is inside to be provided with the fan, telescopic scraper blade is located the inside one end of broken chamber and is provided with the inflation gasbag, telescopic scraper blade's tip sets up to the wedge, and the back of wedge-shaped end is provided with the torsional spring.

Preferably, the crushing screening mechanism comprises a crushing disc, the front and rear sides middle part of the upper end surface of the crushing disc is fixedly connected with a sliding column, the sliding column is slidably connected with a fixed disc, the upper end surface of the sliding column is fixedly connected with an adjusting block, the middle part of the adjusting block is in threaded connection with a threaded rod, the lower end of the threaded rod is rotationally connected with the fixed disc, the upper end surface of the fixed disc is radially distributed and rotationally connected with a second connecting rod through a pin shaft, one end of the second connecting rod, far away from the fixed disc, is rotationally connected with a first connecting rod through a pin shaft, and one end of the first connecting rod, far away from the second connecting rod, is rotationally connected with a crushing cavity through a pin shaft.

Preferably, the middle part of the inner cavity wall of the crushing cavity is fixedly connected with a screen.

Preferably, the rear side the junction of first connecting rod and broken chamber is through round pin axle fixedly connected with grooved drum, grooved drum and broken chamber rotate and link to each other, grooved drum peg graft there is the lug pole, the seventh bevel gear of fixedly connected with is established to lug pole lower extreme cover, flushing chamber up end rear side middle part fixedly connected with biax motor, biax motor front side output is through round pin axle fixedly connected with eighth bevel gear and eccentric block, eighth bevel gear and seventh bevel gear intermeshing, lug pole lower extreme rotation is connected with L template, terminal surface fixedly connected with is in the flushing chamber under the L template, L template front end rotates with the lug pole and links to each other.

Preferably, the reciprocating turnover mechanism comprises a mounting rod, the mounting rod penetrates through and is fixedly connected with the spray head, a fifth bevel gear is fixedly connected to the middle part of the upper end face of the mounting rod through a pin shaft and is rotationally connected to the flushing chamber, a first gear and a second bevel gear are rotationally connected to the left side and the right side of the mounting rod through pin shafts, a gear ring is fixedly connected to the upper side of the inner cavity wall of the flushing chamber, the gear ring is meshed with the first gear, a rotary table and a third bevel gear are rotationally connected to the lower ends of the left side and the right side of the mounting rod through pin shafts, the third bevel gear is meshed with the second bevel gear, a swinging rod is rotationally connected to the upper side of the end face of the rotary table, a sliding sleeve is slidably connected to the upper end of the swinging rod through pin shafts, the middle part of the sliding sleeve is rotationally connected to the mounting rod through pin shafts, and a turnover plate is fixedly connected to the lower end face of the swinging rod.

Preferably, the middle part of the upper end of the rear side of the flushing chamber is rotationally connected with a sixth bevel gear and a second gear through a pin shaft, the sixth bevel gear is mutually meshed with a fifth bevel gear, the rear side output end of the double-shaft motor is fixedly connected with a crank through a pin shaft, the lower side of the rear end face of the crank is embedded with a chute rack through a pin shaft and is connected with the chute rack in a sliding manner, the lower end of the chute rack is slidingly connected with a limiting rod, the left end and the right end of the limiting rod are fixedly connected with the flushing chamber, and the chute rack is mutually meshed with the second gear.

Preferably, the middle part of the lower end of the flushing chamber is communicated with and fixedly connected with a flotation tank.

Preferably, the middle part of the upper side of the inner cavity wall of the flotation tank is rotationally connected with a stirring shaft, blades are fixedly connected to the left side and the right side of the stirring shaft, a first bevel gear is sleeved at the upper end of the stirring shaft and fixedly connected with the stirring shaft, a fourth bevel gear and a chain wheel are rotationally connected to the middle part of the upper end of the rear side of the flotation tank through a pin shaft, a chain is connected with the chain wheel in a meshed manner, the chain wheel is fixedly connected with a second gear through a pin shaft, and the fourth bevel gear is meshed with the first bevel gear.

Preferably, the middle part of the right side of the upper end surface of the flotation tank is fixedly connected with an air pump, and the air outlet end of the air pump is communicated with the flotation tank through an air outlet pipe.

A flotation process of an iron ore separation flotation device comprises the following specific steps:

s1, adding iron powder into a crushing cavity, then starting a double-shaft motor to drive an eighth bevel gear to rotate, enabling an eccentric block to rotate, continuously extruding the crushing cavity by the eccentric block, enabling the crushing cavity to slide on a fixed column, recovering under the action of a spring, enabling the crushing cavity to vibrate, and screening the iron powder.

S2, the screened iron powder enters the flushing chamber through the bottom of the crushing cavity, meanwhile, when the crushing cavity vibrates, the lug rod and the groove drum slide relatively, the first connecting rod rotates simultaneously under the cooperation of the seventh bevel gear, the lug rod and the groove drum, the first connecting rod drives the second connecting rod to rotate, the fixed disc moves circularly, the threaded rod is manually rotated to drive the adjusting block to move up and down according to the particle size of the iron powder, the distance between the crushing disc and the screen is adjusted, and then under the action of continuous rotation of the crushing disc, the iron powder in the block or the large block is crushed until all the iron powder is screened.

S3, after the iron powder enters the flushing chamber, a water pump is started, water in the water tank is pumped out by the water pump, the water is sprayed out from the water distribution plate and the spray nozzle after passing through the water outlet pipe, the iron powder is wetted, meanwhile, the crank is rotated under the action of the double-shaft motor, the chute rack slides back and forth on the limiting rod under the action of the pin shaft, the second gear rotates back and forth, the mounting rod can rotate back and forth, the first gear rotates under the action of the gear ring, the turntable continuously rotates under the action of the gear ring, the turntable drives the swinging rod to slide on the sliding sleeve, and the turning plate is enabled to swing under the rotation of the sliding sleeve, so that the iron powder can be turned over by swinging while the turning plate is enabled to do reciprocating circular motion, and the iron powder can be uniformly wetted.

S4, after the wetted iron powder falls into the flotation tank, starting an air pump, filling air into the flotation tank through an air outlet pipe, enabling a fourth bevel gear and a first bevel gear to rotate under the rotation of a chain wheel, enabling a stirring shaft to rotate by the first bevel gear, enabling blades to stir the iron powder, performing flotation work, and finally opening a valve of a discharging pipe to discharge the iron powder after flotation.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the double-shaft motor is arranged to drive the eighth bevel gear to rotate, so that the eccentric block rotates, the crushing cavity is driven to slide on the fixed column and is restored under the action of the spring, so that the iron powder is screened, the screened iron powder enters the flushing chamber from the bottom of the crushing cavity, meanwhile, when the crushing cavity vibrates, the bump rod and the groove cylinder relatively slide, the first connecting rod is simultaneously rotated under the cooperation of the seventh bevel gear, the bump rod and the groove cylinder, the first connecting rod drives the second connecting rod to rotate, the fixed disc performs circular motion, and then the iron powder in the block or the large block is crushed under the action of continuous rotation of the crushing disc until all the iron powder is screened, so that the effect of pre-crushing and screening of the iron powder can be achieved, the situation that the subsequent flotation effect is influenced due to the occurrence of iron powder agglomeration is avoided, and the flotation efficiency is improved.

2. According to the invention, after iron powder enters the flushing chamber, the water pump is started, water in the water tank is pumped out by the water pump and sprayed out from the water distribution plate and the spray nozzle after passing through the water outlet pipe, the iron powder is wetted, meanwhile, the double-shaft motor drives the crank to rotate, the sliding groove rack slides back and forth on the limiting rod under the action of the pin shaft, the second gear rotates back and forth, the mounting rod rotates back and forth, the first gear rotates under the action of the gear ring, the rotary table continuously rotates under the action of the gear ring, the rotary table drives the swinging rod to slide on the sliding sleeve, and the turning plate swings under the rotation of the sliding sleeve, so that the iron powder can be turned over while the turning plate swings, the iron powder can be uniformly wetted, the situation that the iron powder at the bottom cannot be fully wetted is avoided, the wetting area is enlarged, and the efficiency is high.

3. According to the invention, after the wet iron powder falls into the flotation tank, the air pump is started, air is filled into the flotation tank through the air outlet pipe, then the fourth bevel gear and the first bevel gear rotate under the rotation of the chain wheel, the first bevel gear drives the stirring shaft to rotate, the blade is used for stirring the iron powder, the flotation work can be carried out, and finally the valve of the discharging pipe is opened, so that the iron powder after the flotation is discharged, and therefore, the flotation efficiency is improved, the operation is convenient and the operation is more convenient.

4. According to the invention, fragments clamped in the sieve holes are pushed back to the sieve to be crushed by arranging the telescopic scraping plate, the inflatable bag is used for inflating the annular pressurizing air bag to blow off the iron powder at the central position of the flushing chamber, the iron powder is prevented from being coagulated into blocks, the telescopic scraping plate is provided with the expansion air bag, the fitting degree of the telescopic scraping plate to the lower surface of the sieve is enhanced after the telescopic scraping plate absorbs heat, the cleaning force of the telescopic scraping plate is increased, the expansion amount of the expansion air bag is used as a control signal of the pressurizing size of a fan in the annular pressurizing air bag, the stirring plate is matched for fully stirring and radiating the iron powder in the flushing chamber and fully stirring the iron powder after being wetted by adding water, so that the iron powder is uniformly wetted, caking is prevented, the follow-up flotation box is facilitated to carry out better flotation, and the working state of the crushing disc can be judged by the cooperation of the telescopic scraping plate and the expansion air bag.

Drawings

FIG. 1 is a schematic view of a partially sectioned perspective structure of the present invention;

FIG. 2 is an enlarged schematic view of the area A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the area B of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of a partial perspective structure of a discharge pipe according to the present invention;

FIG. 5 is a schematic view of a partial perspective view of the reciprocatingly flipping mechanism of the present invention;

FIG. 6 is a schematic view of a partial perspective structure of a crushing and screening mechanism according to the present invention;

FIG. 7 is a rear elevational schematic view of the present invention;

FIG. 8 is an enlarged view of area C of FIG. 7 in accordance with the present invention;

FIG. 9 is a top view of a screed according to a second embodiment of the present invention;

FIG. 10 is a front view of a scraper in a second embodiment of the invention;

fig. 11 is an enlarged view of the area D of fig. 10 according to the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

in the figure: 1. a flushing chamber; 2. a flotation tank; 3. an air outlet pipe; 4. a stirring shaft; 5. a blade; 6. a first bevel gear; 7. a first gear; 8. a mounting rod; 9. a water pump; 10. a water tank; 11. a water outlet pipe; 12. a water diversion plate; 13. a spray head; 14. a second bevel gear; 15. a third bevel gear; 16. turning over the plate; 17. a swinging rod; 18. a turntable; 19. a sliding sleeve; 20. a crushing cavity; 21. a screen; 22. a first link; 23. a second link; 24. a threaded rod; 25. an adjusting block; 26. a crushing disc; 27. a fixed plate; 28. a spool; 29. an air pump; 30. a fourth bevel gear; 31. a fifth bevel gear; 32. a sixth bevel gear; 33. a discharge pipe; 34. a groove drum; 35. a bump bar; 36. a seventh bevel gear; 37. an eccentric block; 38. an eighth bevel gear; 39. a biaxial motor; 40. an L-shaped plate; 41. a crank; 42. a chute rack; 43. a gear ring; 44. a second gear; 45. a limit rod; 46. a sprocket; 47. a chain; 48. fixing the column; 49. a spring; 50. a retractable scraper; 51. a limiting block; 52. pressing the plate; 53. an inflatable bag; 54. a support box; 55. an annular pressurized bladder; 56. inflating the balloon; 57. and (3) a torsion spring.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present invention are included in the protection scope of the present invention.

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Several embodiments of the invention are presented in the figures. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "mounted" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Example 1

Referring to fig. 1-8, the present invention provides a technical solution:

the utility model provides an iron ore separation flotation device, including flushing chamber 1 and broken chamber 20, flushing chamber 1 upper end middle part runs through and the slip links to each other with broken chamber 20, broken chamber 20 left side middle part sliding connection has fixed column 48, fixed column 48 lower extreme cover is equipped with spring 49, spring 49 upper end and broken chamber 20 are fixed link to each other, spring 49 lower extreme and flushing chamber 1 are fixed link to each other, install the broken screening mechanism that is used for separating the ore of caking on the broken chamber 20, flushing chamber 1 up end right side middle part fixedly connected with water tank 10, water tank 10 left end middle part intercommunication has water pump 9, water pump 9 play water end intercommunication has outlet pipe 11, outlet pipe 11 lower extreme intercommunication has water diversion board 12, water diversion board 12 lower extreme is provided with shower nozzle 13, still be provided with on flushing chamber 1 and be used for realizing evenly flushing the reciprocal flip mechanism to the ore.

In this embodiment, broken screening mechanism includes broken dish 26, the equal fixedly connected with traveller 28 in both sides middle part around the upper end face of broken dish 26, traveller 28 sliding connection has fixed disk 27, traveller 28 up end fixedly connected with regulating block 25, regulating block 25 middle part threaded connection has threaded rod 24, threaded rod 24 lower extreme rotates to be connected in fixed disk 27, fixed disk 27 up end is along radial distribution and be connected with second connecting rod 23 through the round pin axle rotation, the one end that second connecting rod 23 kept away from fixed disk 27 is connected with first connecting rod 22 through the round pin axle rotation, the one end that second connecting rod 23 was kept away from to first connecting rod 22 is connected in broken chamber 20 through the round pin axle rotation. The middle part of the inner cavity wall of the crushing cavity 20 is fixedly connected with a screen 21. The junction of rear side first connecting rod 22 and crushing chamber 20 is through round pin axle fixedly connected with grooved drum 34, grooved drum 34 rotates with crushing chamber 20 and links to each other, grooved drum 34 peg graft and is had lug pole 35, lug pole 35 lower extreme cover is established and fixedly connected with seventh bevel gear 36, flushing chamber 1 up end rear side middle part fixedly connected with biax motor 39, biax motor 39 front side output is through round pin axle fixedly connected with eighth bevel gear 38 and eccentric block 37, eighth bevel gear 38 intermeshes with seventh bevel gear 36, lug pole 35 lower extreme rotation is connected with L template 40, L template 40 lower extreme fixedly connected with flushing chamber 1, L template 40 front end rotates with lug pole 35 and links to each other. Through adding the iron powder into the crushing cavity 20, then start biax motor 39 to drive eighth bevel gear 38 and rotate, make eccentric piece 37 rotate, eccentric piece 37 constantly extrudees crushing cavity 20, make crushing cavity 20 slide on fixed column 48, and recover under the effect of spring 49, can make crushing cavity 20 produce vibration, screen the iron powder, the iron powder that screens gets into washing room 1 through crushing cavity 20 bottom, simultaneously, when crushing cavity 20 vibrates, bump pole 35 and recess section of thick bamboo 34 take place the relative slip, and make first connecting rod 22 rotate simultaneously under seventh bevel gear 36, bump pole 35, recess section of thick bamboo 34's cooperation, make first connecting rod 22 drive second connecting rod 23 rotate, make fixed disk 27 do circular motion, according to the granule size of iron powder, manual rotation threaded rod 24 drives regulating block 25 and reciprocates, the interval of adjusting crushing disk 26 and screen cloth 21, then under the effect that crushing disk 26 continuously rotates, the iron powder of blocking or big piece is broken, until all, thereby can play a pre-crushing and screening effect to the iron powder, and influence the subsequent flotation efficiency has been improved.

In this embodiment, the reciprocating flip mechanism includes installation pole 8, installation pole 8 runs through and fixedly links to each other with shower nozzle 13, installation pole 8 up end middle part is through round pin axle fixedly connected with fifth bevel gear 31 and rotate and connect in flushing chamber 1, installation pole 8 left and right sides all is connected with first gear 7 and second bevel gear 14 through the round pin axle rotation, flushing chamber 1 inner chamber wall upside fixedly connected with ring gear 43, ring gear 43 and first gear 7 intermesh, installation pole 8 left and right sides lower extreme all is connected with carousel 18 and third bevel gear 15 through the round pin axle rotation, third bevel gear 15 and second bevel gear 14 intermesh, the terminal surface upside that carousel 18 is close to each other is connected with swinging arms 17 through the round pin axle rotation, swinging arms 17 upper end sliding connection has sliding sleeve 19, the sliding sleeve 19 middle part is connected in installation pole 8 through the round pin axle rotation, swinging arms 17 lower terminal surface fixedly connected with flip plate 16. The middle part of the upper end of the rear side of the flushing chamber 1 is rotationally connected with a sixth bevel gear 32 and a second gear 44 through a pin shaft, the sixth bevel gear 32 is meshed with the fifth bevel gear 31, the rear side output end of the double-shaft motor 39 is fixedly connected with a crank 41 through a pin shaft, the lower side of the rear end face of the crank 41 is embedded with a chute rack 42 through a pin shaft and is connected with the chute rack in a sliding manner, the lower end of the chute rack 42 is connected with a limiting rod 45 in a sliding manner, the left end and the right end of the limiting rod 45 are fixedly connected with the flushing chamber 1, and the chute rack 42 is meshed with the second gear 44. When iron powder enters the flushing chamber 1, the water pump 9 is started, the water pump 9 pumps water in the water tank 10, the water is sprayed out from the water distribution plate 12 and the spray head 13 after passing through the water outlet pipe 11, the iron powder is moistened, meanwhile, the crank 41 is rotated under the action of the double-shaft motor 39, the chute rack 42 slides left and right on the limiting rod 45 in a reciprocating manner under the action of the pin shaft, the second gear 44 is made to rotate in a reciprocating manner, the mounting rod 8 can be made to rotate in a reciprocating manner, the first gear 7 is made to rotate under the action of the gear ring 43, the turntable 18 is made to rotate continuously under the action of the second bevel gear 14 and the third bevel gear 15, the turntable 18 drives the swinging rod 17 to slide on the sliding sleeve 19, and the turning plate 16 is made to swing under the rotation of the sliding sleeve 19, so that the turning plate 16 can make reciprocating circular motion and swing, the iron powder can be turned, the iron powder can be moistened uniformly, the iron powder can be moistened, meanwhile, the iron powder at the bottom is prevented from being fully moistened, and the situation that the iron powder is not moistened is high is avoided, and the moistened is high in efficiency.

In the embodiment, the middle part of the lower end of the flushing chamber 1 is communicated with and fixedly connected with a flotation tank 2. The flotation tank 2 is provided with the overflow aperture, be provided with on the (mixing) shaft 4 with the clearance board of overflow aperture cooperation clearance foam, when the air pump 29 is inflated to flotation tank 2 inside through outlet duct 3, impurity in the iron powder floats to the liquid level of flotation liquid along with the foam, the iron powder falls into flotation tank 2's bottom, along with (mixing) shaft 4 rotation, the clearance board scrapes out the foam that carries impurity on the liquid level from the overflow aperture, flotation tank 2 inner chamber wall upside middle part rotates and is connected with (mixing) shaft 4, (mixing) shaft 4 left and right sides all fixedly connected with blade 5, (mixing) shaft 4 upper end cover is established and fixedly connected with first bevel gear 6, flotation tank 2 rear side upper end middle part is connected with fourth bevel gear 30 and sprocket 46 through the round pin axle rotation, sprocket 46 meshing is connected with chain 47, go up side sprocket 46 and link firmly with second gear 44 through the round pin axle, fourth bevel gear 30 and first bevel gear 6 intermeshing. The middle part of the right side of the upper end surface of the flotation tank 2 is fixedly connected with an air pump 29, and the air outlet end of the air pump 29 is communicated with the flotation tank 2 through an air outlet pipe 3. After the moist iron powder falls into flotation tank 2, start air pump 29, fill the gas to flotation tank 2 inside through outlet duct 3, then make fourth bevel gear 30 and first bevel gear 6 rotate under sprocket 46's rotation, first bevel gear 6 drives (mixing) shaft 4 and rotates, make blade 5 stir the iron powder, can carry out flotation work, open the valve of discharging pipe 33 at last, with the iron powder discharge of flotation completion can, thereby flotation efficiency has been improved, convenient operation, it is comparatively convenient.

A flotation process of an iron ore separation flotation device comprises the following specific steps:

s1, adding iron powder into the crushing cavity 20, then starting a double-shaft motor 39 to drive an eighth bevel gear 38 to rotate, enabling an eccentric block 37 to rotate, enabling the eccentric block 37 to continuously squeeze the crushing cavity 20, enabling the crushing cavity 20 to slide on a fixed column 48 and recover under the action of a spring 49, and enabling the crushing cavity 20 to vibrate to screen the iron powder.

S2, the screened iron powder enters the flushing chamber 1 through the bottom of the crushing cavity 20, meanwhile, when the crushing cavity 20 vibrates, the bump rod 35 and the groove drum 34 slide relatively, the first connecting rod 22 rotates simultaneously under the cooperation of the seventh bevel gear 36, the bump rod 35 and the groove drum 34, the first connecting rod 22 drives the second connecting rod 23 to rotate, the fixed disc 27 moves circularly, the threaded rod 24 is manually rotated to drive the adjusting block 25 to move up and down according to the particle size of the iron powder, the distance between the crushing disc 26 and the screen 21 is adjusted, and then under the continuous rotation effect of the crushing disc 26, the iron powder in a block or a large block is crushed until all the iron powder is screened.

S3, after the iron powder enters the flushing chamber 1, the water pump 9 is started, the water pump 9 pumps out water in the water tank 10, the water is sprayed out from the water distribution plate 12 and the spray head 13 after passing through the water outlet pipe 11, the iron powder is wetted, meanwhile, the crank 41 is rotated under the action of the double-shaft motor 39, the chute rack 42 is enabled to slide left and right on the limiting rod 45 under the action of the pin shaft, the second gear 44 is enabled to rotate reciprocally, the mounting rod 8 is enabled to rotate reciprocally, the first gear 7 is enabled to rotate under the action of the gear ring 43, the turntable 18 is enabled to rotate continuously under the cooperation of the second bevel gear 14 and the third bevel gear 15, the turntable 18 drives the swinging rod 17 to slide on the sliding sleeve 19, and the turning plate 16 is enabled to swing under the rotation of the sliding sleeve 19, so that the turning plate 16 can reciprocate and swing, the iron powder is enabled to be wetted evenly.

S4, after the wet iron powder falls into the flotation tank 2, starting the air pump 29, filling air into the flotation tank 2 through the air outlet pipe 3, then rotating the fourth bevel gear 30 and the first bevel gear 6 under the rotation of the chain wheel 46, driving the stirring shaft 4 to rotate by the first bevel gear 6, stirring the iron powder by the blade 5, performing flotation work, and finally opening the valve of the discharging pipe 33 to discharge the iron powder after flotation.

Example two

In the first embodiment, when the iron powder is crushed in the crushing cavity 20, the situation that fragments are just blocked in the holes of the screen 21 can occur, so that the subsequent iron powder is affected to pass through the screen 21, in addition, in the process that the iron powder subsequently falls into the flushing chamber 1 through the screen 21, the iron powder can be accumulated at the center of the flushing chamber 1, as the iron powder just ground can carry heat, the iron powder falls into the middle part of the flushing chamber 1 to suddenly cool, and is not scattered in time and possibly coagulates into blocks, so that the subsequent stirring and wetting effects are affected, in addition, when the subsequent spray nozzle 13 sprays water to the iron powder to wet into slurry, the iron powder at the center of the flushing chamber 1 can form caking after not stirring in time after adding water, so that the following flotation effect is affected, and the following technical scheme is proposed for solving the technical problems.

Referring to fig. 9-11, telescopic scraping plates 50 are symmetrically arranged on the side wall of the crushing cavity 20, the tops of the telescopic scraping plates 50 are closely attached to the lower surface of the screen 21, telescopic plates are respectively connected to the two telescopic scraping plates 50 and are parallel to each other, the telescopic plates are connected with each other through compressible elastic pieces, namely, in the moving process of the telescopic scraping plates 50, the telescopic plates are always contacted with the wall body of the crushing cavity 20, the moving direction of the telescopic scraping plates 50 is ensured to be stable, meanwhile, the telescopic plates are used as extension sections of the telescopic scraping plates 50 in the moving process, the whole coverage of the screen 21 is realized, the working efficiency of the telescopic scraping plates 50 is ensured, the two ends of the telescopic scraping plates 50 are hinged with limiting plates, the radian of each limiting plate is attached to the inner wall of the crushing cavity 20 and is clamped on the inner wall of the same, one end, extending out of the telescopic scraping plates 50, penetrating through the side wall of the crushing cavity 20, is clamped with a limiting block 51, the telescopic scraping plate 50 is clamped on the inclined plane of the limiting block 51, a sliding rail is arranged on the inclined plane of the limiting block 51 for the telescopic scraping plate 50 to slide along, a pressing plate 52 is arranged on the telescopic scraping plate 50, the top end of the pressing plate 52 is sleeved on the part of the telescopic scraping plate 50 extending out of the crushing cavity 20 in a sliding way, an air bag 53 is arranged at one end of the pressing plate 52 away from the telescopic scraping plate 50, a supporting box 54 is arranged outside the air bag 53, the limiting block 51 is arranged at the top of the supporting box 54, an annular pressurizing air bag 55 is arranged at one end of the air bag 53 away from the pressing plate 52, the annular pressurizing air bag 55 is fixedly arranged on the top plate of the flushing chamber 1, the central axis of the annular pressurizing air bag 55 coincides with the central axis of the crushing cavity 20, the annular pressurizing air bag 55 is coaxial with the fifth bevel gear 31 and is arranged in a circumferential separation way, the air bag 53 penetrates through the top plate of the flushing chamber 1 and is communicated with the inside of the annular pressurizing air bag 55, the inside fan that is provided with of annular pressurization gasbag 55, the one end that flexible scraper blade 50 is located the inside of broken chamber 20 is provided with inflation gasbag 56, the pressure size of fan is adjusted according to the expansion amount of inflation gasbag 56, inflation gasbag 56 is the expend with heat and contract with cold material, the tip of flexible scraper blade 50 sets up to wedge, the back of wedge end is provided with torsional spring 57, when screen cloth 21 is stopped up, can conflict the fragment that blocks through the wedge end of flexible scraper blade 50 at this moment, make it remove to one side of screen cloth 21, no longer cause the jam to screen cloth 21, simultaneously when the fragment that blocks stretches out screen cloth 21's length overlength, the flexible scraper blade 50 takes place to conflict with the fragment at this moment, and then through the continued movement of flexible scraper blade 50 and under the cooperation of torsional spring 57, cause flexible scraper blade 50 to take place the angle deflection, move to the bottom of fragment, make the fragment be located between flexible scraper blade 50 and the screen cloth 21, make flexible scraper blade 50 can clear up the fragment that blocks of different shapes; the crushing cavity 20 goes up and down to drive flexible scraper blade 50 and pressing plate 52 go up and down, and flexible scraper blade 50 slides along the inclined plane of stopper 51 when descending to make flexible scraper blade 50 strike off the bottom surface of screen cloth 21, make the fragment of card in the sieve mesh scraped back and continue to be broken and ground on the screen cloth 21, still make pressing plate 52 press down the gasbag 53 and aerify to annular pressurization gasbag 55 inside simultaneously, annular pressurization gasbag 55 blows to the inside central part of washing chamber 1 again, and then blows out the iron powder that falls in washing chamber 1 bottom central part, prevents that the iron powder from piling up the caking and influencing subsequent flotation effect.

Meanwhile, the telescopic scraping plates 50 can move to the lower sides of the blocked fragments, so that the blocked fragments with different shapes can be cleaned.

In this embodiment, when the crushing disc 26 crushes the iron powder, heat is generated due to friction, the expansion air bag 56 absorbs heat and expands, so that the telescopic scraping plate 50 is tightly attached to the screen 21, meanwhile, the expansion amount of the expansion air bag 56 is used as a control signal of a fan, and the pressure of the fan is controlled, so that the blowing force of the annular pressurizing air bag 55 is controlled.

When the crushing disc 26 is used for crushing and grinding iron powder, the wedge-shaped end of the telescopic scraping plate 50 is abutted against fragments clamped in the sieve holes, the wedge-shaped end of the telescopic scraping plate 50 can move to the lower side of the fragments and push the fragments back to the top surface of the screen 21, the expansion air bag 56 can expand according to heat generated in the iron powder grinding process, and meanwhile the judgment of the working state of the crushing disc 26 is realized through the working conditions of the telescopic scraping plate 50 and the expansion air bag 56.

When the frequency of twisting the wedge-shaped end of the telescopic scraper 50 is regular and stable, the expansion amount of the expansion air bag 56 steadily increases to the threshold value, and at this time, it can be determined that the working state of the crushing disc 26 is normal and stable, and when the expansion amount of the expansion air bag 56 increases unstably and late and cannot reach the threshold value, and the wedge-shaped end of the telescopic scraper 50 continues to repeatedly twist irregularly, it can be determined that the crushing disc 26 is severely worn, the crushing and grinding of the iron powder are affected, and replacement treatment is required.

Meanwhile, when the crushing disc 26 is identified to be in a normal working state, the crushing disc 26 crushes and grinds iron powder in the crushing cavity 20, the crushing cavity 20 is lifted and lowered along the fixing column 48, the crushing cavity 20 drives the telescopic scraping plate 50 and the pressing plate 52 to lift, the telescopic scraping plate 50 slides towards the center of the crushing cavity 20 along the inclined plane of the limiting block 51 while being lowered, accordingly, the telescopic scraping plate 50 scrapes the bottom surface of the screen 21, the expansion air bag 56 absorbs heat generated by the crushing disc 26 for grinding and crushing the iron powder, the telescopic scraping plate 50 is tightly attached to the bottom surface of the screen 21, fragments clamped in the screen holes are scraped back to the screen 21 to be continuously crushed and ground by the crushing disc 26, the telescopic scraping plate 50 is lowered, the pressing plate 52 is driven to vertically lowered along the supporting box 54 to press the air bag 53 to charge the inside of the annular pressing air bag 55, the annular pressing air bag 55 blows air to the center part inside the flushing chamber 1, and then the iron powder falling on the center part of the bottom of the flushing chamber 1 is blown out.

When the crushing disc 26 crushes the grinding iron powder, the heat generated by friction enables the expansion air bag 56 to absorb heat and expand, the telescopic scraping plate 50 is enabled to tightly attach the screen 21, the iron powder fragments clamped in the screen holes can be removed, meanwhile, the expansion amount of the expansion air bag 56 is used as a control signal of a fan, when the crushing disc 26 starts to crush the grinding iron powder, the friction force is gradually increased to the maximum, the heat is also increased to the maximum, the expansion amount of the expansion air bag 56 reaches the maximum threshold value after absorbing heat, a control center receives a signal, the fan is controlled to not work in the heat increasing process, at the moment, the amount of the iron powder which falls to the central part of the flushing chamber 1 is small, the annular compression air bag 55 is only pushed to blow the iron powder to the central part of the flushing chamber 1 by pressing the air bag 53, the iron powder can be blown away by the annular compression air bag 55, the auxiliary turning plate 16 can be used for turning the iron powder, the iron powder can be cooled, and the influence on later wetting caused by condensation after rapid cooling of the iron powder is prevented.

Along with the gradual decrease of the ground iron powder, the iron powder quantity which descends to the central part of the flushing chamber 1 gradually increases, the heat generated by friction also gradually decreases, the expansion quantity of the expansion air bag 56 starts to decrease from the maximum threshold value, the control center receives a signal, the control fan starts to gradually pressurize along with the decrease of the expansion quantity, the blowing force of the annular pressurizing air bag 55 increases along with the increase, the gradually increased iron powder accumulated at the central part of the flushing chamber 1 is blown away to the lower part of the turning plate 16, the turning plate 16 is assisted to comprehensively turn and dissipate the heat of the iron powder, and the iron powder is prevented from being accumulated at the central part of the flushing chamber 1 in a concentrated manner, so that the subsequent flushing effect is affected.

When the iron powder in the crushing cavity 20 is ground and crushed and falls into the flushing chamber 1, heat generated by friction disappears, the expansion amount of the expansion air bag 56 is zero, a control center receives a signal, the control fan is pressurized to the maximum and keeps stable, the blowing force of the annular pressurizing air bag 55 is increased to the maximum and keeps stable, at the moment, the water pump 9 starts pumping water from the water tank 10 and sprays water to flush the iron powder through the spray head 13, the stirring plate 16 continuously stirs the iron powder in the flushing chamber 1 to uniformly spray and moisten the iron powder, and meanwhile, the annular pressurizing air bag 55 continuously blows the iron powder slurry in the central position below the stirring plate 16, so that the iron powder slurry which is in the central position of the flushing chamber 1 and cannot be stirred by the stirring plate 16 can be stirred sufficiently, and the iron powder cannot be stirred in time by the stirring plate 16 after being sprayed with water, so that the agglomeration is prevented, and the flotation effect of the subsequent flotation tank 2 is affected.

Further, the expansion blade 50 cleans the screen 21 and the expansion air bag 56 blows off the iron powder accumulated in the center of the flushing chamber 1, and it is possible to detect whether or not the operating state of the crushing disc 26 is stable by the mutual cooperation between the angle change of the wedge-shaped end in the expansion blade 50 and the expansion amount change of the expansion air bag 56.

The horizontal distance of the inclined surface of the wedge-shaped end of the telescopic scraper 50 is smaller than the mesh size of the screen 21, and the cleaning of fragments is not affected when the wedge-shaped ends of the two telescopic scraper 50 move to the center position of the screen 21 at the same time.

The separation flotation device is internally connected with a control center, and the control center can control electronic components in the device.

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

Claims (10)

1. An iron ore separation flotation device, includes flushing chamber and broken chamber, its characterized in that: the middle part of the upper end of the flushing chamber is penetrated and connected with the crushing cavity in a sliding manner, the middle part of the left side of the crushing cavity is connected with a fixed column in a sliding manner, the lower end of the fixed column is sleeved with a spring, the upper end of the spring is fixedly connected with the crushing cavity, the lower end of the spring is fixedly connected with the flushing chamber, a crushing and screening mechanism for separating agglomerated ore is installed on the crushing cavity, a water tank is fixedly connected with the middle part of the right side of the upper end face of the flushing chamber, a water pump is communicated with the middle part of the left end of the water tank, the water outlet end of the water pump is communicated with a water outlet pipe, the lower end of the water outlet pipe is communicated with a water distribution plate, the lower end of the water distribution plate is provided with a spray head, and the flushing chamber is further provided with a reciprocating and turning mechanism for uniformly flushing the ore;

the utility model discloses a crushing device, including broken chamber, telescopic scraper blade, support box, annular pressurization gasbag, fan, telescopic scraper blade, wedge-shaped end, annular pressurization gasbag, the top plate that the gasbag runs through the flushing chamber and the inside intercommunication of annular pressurization gasbag, annular pressurization gasbag is inside to be provided with the fan, telescopic scraper blade is located the inside one end of broken chamber and is provided with the inflation gasbag, telescopic scraper blade's tip sets up to the wedge, and the back of wedge-shaped end is provided with the torsional spring.

2. An iron ore separation flotation device according to claim 1, characterized in that: the crushing screening mechanism comprises a crushing disc, the front side and the rear side of the upper end surface of the crushing disc are fixedly connected with a sliding column, the sliding column is slidably connected with a fixed disc, the upper end surface of the sliding column is fixedly connected with an adjusting block, the middle of the adjusting block is in threaded connection with a threaded rod, the lower end of the threaded rod is rotationally connected with the fixed disc, the upper end surface of the fixed disc is radially distributed and rotationally connected with a second connecting rod through a pin shaft, one end of the second connecting rod, far away from the fixed disc, is rotationally connected with a first connecting rod through a pin shaft, and one end of the first connecting rod, far away from the second connecting rod, is rotationally connected with a crushing cavity through a pin shaft.

3. An iron ore separation flotation device according to claim 1, characterized in that: the middle part of the inner cavity wall of the crushing cavity is fixedly connected with a screen.

4. An iron ore separation flotation device according to claim 2, characterized in that: the rear side the junction of first connecting rod and broken chamber is through round pin axle fixedly connected with grooved drum, grooved drum rotates with broken chamber and links to each other, grooved drum peg graft there is the lug pole, lug pole lower extreme cover is established and fixedly connected with seventh bevel gear, flushing chamber up end rear side middle part fixedly connected with biax motor, biax motor front side output is through round pin axle fixedly connected with eighth bevel gear and eccentric block, eighth bevel gear and seventh bevel gear intermeshing, lug pole lower extreme rotation is connected with L template, terminal surface fixedly connected with is in the flushing chamber under the L template, L template front end rotates with the lug pole and links to each other.

5. An iron ore separation flotation device according to claim 1, characterized in that: the reciprocating turnover mechanism comprises a mounting rod, the mounting rod penetrates through and is fixedly connected with the spray head, a fifth bevel gear is fixedly connected to the middle of the upper end face of the mounting rod through a pin shaft and is rotationally connected to the flushing chamber, a first gear and a second bevel gear are rotationally connected to the left side and the right side of the mounting rod through pin shafts, a gear ring is fixedly connected to the upper side of the inner cavity wall of the flushing chamber, the gear ring is meshed with the first gear, a turntable and a third bevel gear are rotationally connected to the lower ends of the left side and the right side of the mounting rod through pin shafts, the third bevel gear is meshed with the second bevel gear, a swinging rod is rotationally connected to the upper side of the end face of the turntable, which is close to each other, a sliding sleeve is slidably connected to the upper end of the swinging rod through pin shafts, the middle of the sliding sleeve is rotationally connected to the mounting rod, and a turnover plate is fixedly connected to the lower end face of the swinging rod.

6. An iron ore separation flotation device according to claim 4, wherein: the middle part of the upper end of the rear side of the flushing chamber is rotationally connected with a sixth bevel gear and a second gear through a pin shaft, the sixth bevel gear is meshed with a fifth bevel gear, the rear side output end of the double-shaft motor is fixedly connected with a crank through a pin shaft, the lower side of the rear end face of the crank is embedded with a chute rack through a pin shaft and is connected with the chute rack in a sliding manner, the lower end of the chute rack is connected with a limiting rod in a sliding manner, the left end and the right end of the limiting rod are fixedly connected with the flushing chamber, and the chute rack is meshed with the second gear.

7. An iron ore separation flotation device according to claim 6, wherein: the middle part of the lower end of the flushing chamber is communicated with and fixedly connected with a flotation tank.

8. An iron ore separation flotation device according to claim 7, characterized in that: the utility model discloses a flotation tank, including flotation tank, first bevel gear, sprocket, stirring axle, round pin axle, stirring axle, first bevel gear, sprocket meshing is connected with the (mixing) shaft, the equal fixedly connected with blade in stirring axle left and right sides in stirring axle upside middle part rotation, stirring axle upper end cover is established and fixedly connected with first bevel gear, flotation tank rear side upper end middle part is connected with fourth bevel gear and sprocket through the round pin axle rotation, the sprocket meshing is connected with the chain, the upside the sprocket passes through the round pin axle and links to each other with the second gear is fixed, fourth bevel gear and first bevel gear intermeshing.

9. An iron ore separation flotation device according to claim 8, wherein: the middle part of the right side of the upper end surface of the flotation tank is fixedly connected with an air pump, and the air outlet end of the air pump is communicated with the flotation tank through an air outlet pipe.

10. A flotation process of an iron ore separation flotation device, the process being carried out with an iron ore separation flotation device according to any one of claims 1-9, comprising the specific steps of:

s1, adding iron powder into a crushing cavity, then starting a double-shaft motor to drive an eighth bevel gear to rotate, enabling an eccentric block to rotate, enabling the eccentric block to continuously squeeze the crushing cavity, enabling the crushing cavity to slide on a fixed column, recovering under the action of a spring, enabling the crushing cavity to vibrate, and screening the iron powder;

s2, the screened iron powder enters a flushing chamber through the bottom of the crushing cavity, meanwhile, when the crushing cavity vibrates, the convex block rod and the groove drum relatively slide, the first connecting rod simultaneously rotates under the cooperation of the seventh bevel gear, the convex block rod and the groove drum, the first connecting rod drives the second connecting rod to rotate, the fixed disc performs circular motion, the threaded rod is manually rotated to drive the adjusting block to move up and down according to the particle size of the iron powder, the distance between the crushing disc and the screen is adjusted, and then under the continuous rotation effect of the crushing disc, the iron powder in the block or the large block is crushed until all the iron powder is screened;

s3, after the iron powder enters the flushing chamber, starting a water pump, pumping water in the water tank, spraying out the water from a water distribution plate and a spray head through a water outlet pipe to moisten the iron powder, simultaneously, rotating a crank under the action of a double-shaft motor, enabling a chute rack to slide left and right on a limiting rod in a reciprocating manner under the action of a pin shaft, enabling a second gear to rotate in a reciprocating manner, enabling a mounting rod to rotate in a reciprocating manner, enabling a first gear to rotate under the action of a gear ring, enabling a turntable to continuously rotate under the action of a gear ring, enabling the turntable to drive a swinging rod to slide on a sliding sleeve, enabling a stirring plate to swing under the rotation of the sliding sleeve, enabling the stirring plate to swing, and simultaneously enabling the iron powder to be overturned under the action of a reciprocating circular motion, so that the iron powder is uniformly moistened;

s4, after the wetted iron powder falls into the flotation box, starting an air pump, filling air into the flotation box through an air outlet pipe, enabling a fourth bevel gear and a first bevel gear to rotate under the rotation of a chain wheel, enabling a stirring shaft to rotate by the first bevel gear, enabling blades to stir the iron powder, performing flotation work, and finally opening a valve of a discharging pipe to discharge the iron powder after flotation.