CN110090795A - A kind of stock grading sleeve of the fine ore dressing host of differentiation - Google Patents
A kind of stock grading sleeve of the fine ore dressing host of differentiation Download PDFInfo
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- CN110090795A CN110090795A CN201910452263.9A CN201910452263A CN110090795A CN 110090795 A CN110090795 A CN 110090795A CN 201910452263 A CN201910452263 A CN 201910452263A CN 110090795 A CN110090795 A CN 110090795A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B11/00—Arrangement of accessories in apparatus for separating solids from solids using gas currents
- B07B11/06—Feeding or discharging arrangements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B7/00—Selective separation of solid materials carried by, or dispersed in, gas currents
- B07B7/08—Selective separation of solid materials carried by, or dispersed in, gas currents using centrifugal force
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- Combined Means For Separation Of Solids (AREA)
Abstract
The invention discloses a kind of stock grading sleeves of the fine ore dressing host of differentiation, it is related to Mineral Classification field, mineral grain for the Emanator device being arranged above the present apparatus to be dished out is divided into different brackets, include: several concentric sleeves, is fixedly connected between every layer of concentric sleeve by the thin slice vertical with concentric sleeve section;A Ring-cylindrical channel is formed between every two layers of concentric sleeve, each Ring-cylindrical the bottom of the channel is provided with discharging road junction, wherein the discharge port in inner most Ring-cylindrical channel and dust-extraction unit are tightly connected.
Description
Technical field
The present invention relates to Mineral Classification fields, more particularly to the stock grading set of the fine ore dressing host of species diversityization one by one
Cylinder.
Background technique
The rich ore of smelting and few can be directly used in nature, in particular with industrial development, the storage of rich ore
Amount is also gradually decreasing, therefore has to exploit more and more lean ores.It however is uneconomic with the smelting of low-grade lean ore.
In order to reduce smelting cost, the useful component in ore is efficiently extracted, national resources is comprehensively utilized, is come out to from mining
Ore, ore dressing is carried out before smelting.Preparation work technical process includes: broken, screening, ore grinding and classification etc..
Grading technology can be divided into gravity hydraulic classiciation, centrifugal force hydraulic classiciation and high frequency fine screen three categories at present.Waterpower point
Grade is the particle effect by gravity or centrifugal force in water, reaches the stage division being distributed by terminal velocity, mainly includes spiral shell
Revolve grader, hydrocyclone, air classifier etc..The concentrate grade and metal recovery rate of current narrow rank ore dressing are apparently higher than
Non- narrow rank ore dressing as a result, the concentrate grade of the narrow grade Benefication of magnetite of dry type can achieve 68% or more, metal recovery rate can
To reach 90% or more, significantly larger than traditional mineral processing technology.And narrow rank ore dressing is very high to grading technology requirement.However it is existing
Some stage divisions may consume a large amount of water resource, and can only generally be divided into two-stage or three-level, if desired by mineral point
It then needs for multiple devices to be used in combination for multistage.
It is proposed that a kind of method being classified by wind-force and centrifugal force, mineral powder is poured on high-speed rotating
So that mineral grain is dished out on disk, then mineral grain is blown by different discharge ports by wind-force, to be classified.However to mineral
Gradation effect is poor, dust pollution is larger, can not industrially use.
Summary of the invention
The object of the present invention is to provide a kind of stock grading sleeves of the fine ore dressing host of differentiation, multiple same by being arranged
Heart sleeve 1 forms several Ring-cylindrical channels 2 and the mineral grain that Emanator device 5 is dished out is divided into different brackets, each grade
In mineral fine fodder and waste material be easy by volume it is simply separated.Improve the grading effect of the fine ore dressing host of differentiation,
It realizes industrial applicability, reduces classification cost, improve beneficiating efficiency.
To solve the above problems, the first aspect of the present invention provides a kind of stock grading of fine ore dressing host of differentiation
Sleeve, the mineral grain that the Emanator device 5 for top to be arranged is dished out are divided into different brackets, comprising: several concentric locking collars
Cylinder 1 is fixedly connected between every layer of concentric sleeve 1 by the thin slice vertical with concentric 1 section of sleeve;Every two layers of concentric sleeve 1 it
Between form a Ring-cylindrical channel 2, each 2 bottom of Ring-cylindrical channel is provided with discharging road junction 3, wherein inner most Ring-cylindrical is logical
The discharging road junction 3 in road 2 and dust-extraction unit 4 are tightly connected.After Emanator device 5 dishes out mineral grain, mineral grain is in sky
In do the centrifugal movement of horizontal direction, produced in the level throw motion of vertical direction, and by the fine ore dressing host blower of differentiation
Raw wind-force.When moving in the sky, the bigger mineral grain run duration of quality is longer, and the displacement of horizontal direction is remoter,
More outer Ring-cylindrical channel 2 will be fallen on when dropping into stock grading sleeve, therefore can be big according to quality by mineral grain
It is small to be divided into different brackets, and there is density contrast between mineral grain and waste material, into the mineral grain in the same Ring-cylindrical channel 2
Easily mineral grain can be screened by volume difference.Thin slice for fixing concentric sleeve 1 is cut with concentric sleeve 1
Face is stopped when can vertically prevent mineral grain from falling.Drop into the mineral grain quality in the Ring-cylindrical channel 2 of innermost layer
Most light, most of is waste material, is likely to result in dust pollution, and most of dust can be removed after dust-extraction unit 4 by connecting, and other
The mineral grain in Ring-cylindrical channel 2 does not have too tiny dust.
Further technical solution is, the diameter of innermost layer sleeve 11 is equal to the straight of receiver 51 in Emanator device 5
Diameter, receiver 51 be it is discoid, be the rotary part on Emanator device 5, exhaled for mineral grain therein will to be fallen into
Come.It can prevent mineral grain from dropping into inside innermost layer sleeve 11 in this way, general other schemes are easy to drop into innermost layer set
Mineral grain inside cylinder 11 is 600 mesh and more tiny mineral grain, can be fallen directly into the present case most
In the Ring-cylindrical channel 2 that inner layer sleeve 11 is formed with outer one layer concentric sleeve 1.
Further technical solution is to be equipped on the outside of all middle layer sleeves 12 in concentric sleeve 1 to overhanging
The splicing plate 6 of exhibition, splicing plate 6 are the road junction 3 that discharges with the outlet that outer one layer concentric sleeve contact position is opened.Enter in mineral grain
Stock grading sleeve and after being divided into multiple grades, continues on the movement of Ring-cylindrical channel 2, in each Ring-cylindrical channel 2 is
Cavity between outer two concentric sleeves 1, mineral grain move on the splicing plate 6 installed on the concentric sleeve 1 of internal layer, then exist
Stock grading sleeve is left at the discharging road junction 3 that splicing plate 6 is opened with outer one layer concentric 1 contact position of sleeve, completes point of mineral grain
Grade.Collection device can be set under the road junction 3 that discharges to be collected.One or more can be set on each sleeve 1 with one heart to connect
Multiple discharge ports 31 can also be arranged simultaneously while being discharged to improve treatment effeciency for flitch 6.Wherein splicing plate 6 and discharging
Road junction 3 can be 1,2,3,4,5,6, including but not limited to the example above, preferably 2~3.
Further technical solution is that splicing plate 6 is ridge-shaped, is made of two pieces of inclined plates 61, the setting of 61 edge of inclined plate
There is vertical rib 62, angle is 90~120 ° between two pieces of inclined plates 61, and 61 lowest part of inclined plate is provided with discharge port 31.Wherein connect
The ridge side of flitch 6 is the intersection of two inclined plates 61, and ridge side passes through the center of circle in concentric 1 section of sleeve, and such mineral grain is fallen
When can be divided to by two inclined plates 61 for two parts, and discharge from two discharge ports 31.61 edge of inclined plate is provided with vertical gear
Side 62 can prevent mineral grain from falling when moving on splicing plate 6.Between two inclined plates 61 angle be can be 90,91,92,
93、94、95、96、97、98、99、100、101、102、103、104、105、106、107、108、109、110、111、112、113、
114,115,116,117,118,119,120 °, including but not limited to the example above, the angle between splicing plate 6 is in this range
Can be moved downward along splicing plate 6 when mineral grain is fallen on splicing plate 6 when interior, without because reaction force is too big and bullet
It rises and falls on except splicing plate 6.
Further technical solution is that the diameter difference of two adjacent from inside to outside concentric sleeves 1 of concentric sleeve 1 is gradually
Increase.The diameter difference of two adjacent from inside to outside concentric sleeves 1 of concentric sleeve 1 is gradually increased, obtaining the result is that Ring-cylindrical
The width in channel 2 gradually increases.When in use, the mineral grain dished out by Emanator device 5 is by wind vertically downward
Gradually it is divided into different grades after power according to quality, wherein the smaller horizontal displacement of quality is smaller just closer to innermost layer sleeve
11, and when the small particle of quality falls on concentric 1 top edge of sleeve, between relative position it is also closer, therefore the particle that quality is small
It can be distributed in when falling on concentric 1 top edge of sleeve in the lesser annulus of width;When mineral grain quality is gradually increased, ad eundem
Mineral grain between relative position it is remoter, therefore while falling on concentric 1 top edge of sleeve be distributed in far from innermost layer sleeve 11 and
In the biggish annulus of width.So the diameter difference needs of two adjacent from inside to outside concentric sleeves 1 of sleeve 1 are gradually increased with one heart
The mineral grain of each grade can be classified, be not in the biggish same grade mineral grain of quality be divided into it is more
The case where a grade, can save the cost, improve working efficiency.
Further technical solution is that stock grading sleeve includes 3~21 concentric sleeves 1.Wherein adjacent two
The Ring-cylindrical channel 2 constituted between concentric sleeve 1 can pass through for mineral grain, and 3~21 concentric sleeves 1 can form 2~
20 Ring-cylindrical channels 2 are divided into 2~20 grades to mineral grain, are far longer than at present generally to the classification number of mineral grain
Amount.Wherein stock grading sleeve may include 3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21
A concentric sleeve 1, preferably 5~16, including but not limited to the example above, can be according to practical mineral and classification demand
It is adjusted.It is more careful to be classified to mineral grain, is separated in progress mineral and waste material more efficient.Such as in a kind of embodiment party
In formula, 200 mesh mineral grain below is classified between every 50 mesh and is divided into a rank, wherein being divided into a rank between every 50 mesh
Refer to the mesh number of the mesh number of valuable mineral particle in each rank rather than gangue or waste material.It is divided into 9 ranks, is respectively as follows: 200-
250,250-300,300-350,350-400,400-450,450-500,500-550,550-600, below 600 mesh.Same
Gangue or waste material volume in a rank is bigger compared to ore, could obtain momentum identical with ore in this way to be divided into
The same grade, thus be classified after can by volume differences easily by ore be screened out from it come.
Further technical solution is that anti-wind net 63 is equipped on splicing plate 6;Anti-wind net 63 is parallel with inclined plate 61, and
It is provided with gap between the two.Wherein the mesh number of anti-wind net 63 is 14~50 mesh, and the anti-wind net 63 of this specification can make mineral
Grain drops into the gap between 63 lower section of anti-wind net and inclined plate 61, effectively mineral grain is prevented to be blown up.Mine when in use
Composition granule is dropped on the anti-wind net 63 on splicing plate 6 by a Ring-cylindrical channel 2 of classification sleeve, after passing through anti-wind net 63
It falls on splicing plate 6, is slided into tiltedly after the gap small distance rebound several times between inclined plate 61 and anti-wind net 63 along inclined plate 61
The discharge port 31 of plate 61.While mineral grain is by classification sleeve, the air stream generated by blower also can be together through excessive
One Ring-cylindrical channel 2 of grade sleeve passes through anti-wind net 63 then as mineral grain, then anti-by the rebound blowout of splicing plate 6
Wind net 63.Mineral grain can be effectively reduced after installation anti-wind net 63 in actual production to be blown and bullet by the wind that blower generates
The probability of splicing plate 6 out.Stock grading sleeve not only has grading but also is also airflow channel, shape between concentric sleeve 1
The rectifying disc installed on the cyclic cooperation of cylindrical passageway 2 classification host remains steady smoothness by air-flow.
Further technical solution is that the top edge of several concentric sleeves 1 is located in same hierarchical planes 7, and classification is flat
Face 7 is parallel with receiver 51.Hierarchical planes 7 are parallel with receiver 51 can to guarantee that mineral grain is moved to from Emanator device 5
The vertical distance in each Ring-cylindrical channel 2 is identical.
Further technical solution is, hierarchical planes 7 be lower than with receiver 51, distance between the two is 6~12cm.
The movement in the sky and different brackets mineral grain in the sky that the spacing of hierarchical planes 7 and receiver 51 limits mineral grain
The scattered time, when the spacing of hierarchical planes 7 and receiver 51 is 6~12cm, mineral grain is when reaching hierarchical planes 7
Adequately scatter according to quality size, into stock grading sleeve after can reach preferable grading effect.If point
Grade plane 7 and the spacing of receiver 51 are too small, and the mineral grain of each grade is not dispersed throughout out also;If hierarchical planes 7 with connect
The spacing of charging tray 51 is too big, then the volume of equipment can be excessive, not economical enough.Wherein hierarchical planes 7 and the spacing of receiver 51 can
Think 6,7,8,9,10,11,12cm, preferably 8~10cm, including but not limited to the example above.Wherein hierarchical planes 7 with connect
The spacing of charging tray 51 can be adjusted, and be adjusted according to different mineral.
Further technical solution is that the section of concentric sleeve 1 is parallel with receiver 51, when two adjacent concentric locking collars
After the diameter difference of cylinder 1 is more than or equal to 80mm, relatively interior one layer of 1 diameter difference of concentric sleeve of the concentric sleeve 1 of more outer layer no longer increases, Gu
It is set to 80mm, and the position where 1 top edge of sleeve gradually rises with one heart.When the diameter difference of two adjacent concentric sleeves 1 is big
The diameter difference for continuing to increase the concentric sleeve 1 of adjacent two after being equal to 80mm can be such that host volume also increases together.To be outer
The concentric sleeve 1 of layer relatively in one layer of 1 diameter difference of concentric sleeve be fixed as 80mm, then by the position where these concentric sleeve top edges
It sets and gradually rises.The farther same grade mineral grain of horizontal displacement can thus bumped against on the barrel of concentric drums, into
And in advance into completion classification in the Ring-cylindrical channel 2 of the grade, the diameter of concentric drums can be thus reduced, equipment is reduced
Cost.It is wherein when the width in Ring-cylindrical channel 2 is less than 40mm when the diameter difference of two adjacent concentric sleeves 1 is less than 80mm
Concentric sleeve 1 can not be improved, needs to improve concentric sleeve 1 highly when the width in Ring-cylindrical channel 2 is greater than 40mm to reduce
The width in Ring-cylindrical channel 2.The concentric highest position in 1 top edge of sleeve is no more than the receiver 51 of Emanator device 5.It is wherein same
It is that principle is calculated that the raised size of heart sleeve 1, which will not be repelled go back to upper level Ring-cylindrical channel 2 with mineral grain,.In this way
Not only grading effect can not be influenced but also contour size of the unit(s) can be reduced, also saving manufacturing cost.It is rebounded by the wall of concentric sleeve 1
Mineral grain back nevertheless suffers from the downward wind-force effect of blower generation, while there are also enter mineral grain afterwards to collide.To
Under the active force of wind-force can also allow the direction of motion of mineral grain to change.Because mineral grain quality size is different, phase
The height that the faster therefore more inner concentric sleeve 1 of the smaller motion change of quality needs to be promoted under same initial velocity is smaller.Work as object
It, can wind-force, Emanator device 5 by adjusting blower to change the mineral of classification after the size of material classification sleeve is fixed
Receiver 51 revolving speed and receiver 51 enable mineral grain is good to be classified at a distance from hierarchical planes 7.
The principle of the present invention illustrates: stock grading sleeve of the invention is mounted on the fine ore dressing host of differentiation, difference
Changing fine ore dressing host includes: cylindrical host sleeve;Section with host sleeve is installed in cylinder host sleeve inner upper
The parallel blower in face;Host sleeve inner is also equipped with several rectifying discs parallel with blower;It passes through and send in the middle part of rectifying disc
Pipe material, the feed end of charging line are arranged in the lower section of blower and are pierced by from the side of host sleeve;It is set below charging line
Emanator device 5 is set, Emanator device 5 includes the platen installed on receiver 51 and receiver 51, receiver 51 and platen
Between have cavity, be provided with gap between receiver 51 and the contact surface of platen;In 5 lower part of the Emanator device setting present invention
Stock grading sleeve;Stock grading sleeve is made of multiple concentric sleeves 1 concentric with receiver 51.In a kind of embodiment
A diameter anti-air hose identical with platen can also be arranged in the position that middle rectification disk center passes through charging line, prevent blower from producing
Raw wind is directly blown on pressing plate and wind vertically downward is caused to become disorder.
When in use, charging line is entered by the honed mineral powder of ball mill, then along vertical feeding main pipe
Road is downward, leaves the conical sleeve that charging line enters on 5 platen of Emanator device, passes through entering by platen after conical sleeve
Material mouth enters the cavity between platen and receiver 51.Emanator device 5 passes through the motor installed below and is rotated, and rotates
The centrifugal force of generation forces the mineral grain in platen and 51 cavity of receiver to move to cavity surrounding, and mineral grain is along annulus
The inclined-plane of inner ring is upward, moves to the intersection of platen Yu receiver 51, and fill from emanator by the gap of intersection
It sets 5 throwings to dissipate and go out, throws and dissipate horizontally 360 degree of direction, no matter granular size can guarantee ore particle with identical initial velocity
It is gone out by dispersion, the gap size of Emanator device 5 can adjust in the range of 0.1~1.5mm, and mineral grain processed is big
It is small to determine gap aperture.Dispersed what the mineral grain of Emanator device 5 out was generated by gravity, air drag and blower
Acted on while downdraught, the mineral of different quality size after by force action move distance it is completely different, quality it is big away from
It is small from particle is distal to, thereby realize classification overall process.In addition because close between the equirotal mineral of quality and gangue
Difference is spent, it is different for leading to volume, because being respectively less than using the mineral grain that the fine ore dressing host of differentiation is classified
200 mesh, therefore the air drag being subject to thinks identical, mineral and gangue identical in quality size and that volume is different can be assigned to
In the same grade, then can be easily separated therefore also complete between the substance of different densities difference by it by volume difference
At graded operation.This makes it possible to allow big density variation substance between spread the work and become simple possible, traditional ore dressing
Complex process, difficulty is big, high pollution, high energy consumption, high-cost hard case will easily crack.
The movement of mineral grain after leaving Emanator device 5 is centrifugal movement in the horizontal plane, is on the vertical plane flat
Throw movement.And the wind-force that blower generates forms wind-force vertically downward after through rectifying disc.Wind-force vertically downward acts on
Reduce the run duration of mineral grain vertical direction after on mineral grain, run duration reduce after horizontal direction displacement also with
Reduction.The displacement of its bigger horizontal direction of the momentum of mineral grain is bigger, when falling into stock grading sleeve closer to outer
Side.The smallest waste material of quality drops into stock grading sleeve penetralia sleeve, then enters cleaner by discharging road junction 3.
Other mineral grains enter the different Ring-cylindrical channel 2 of stock grading sleeve, are divided into several grades, and go out from different
Material mouth 31 is collected.And because density variation causes quality different between the same mineral and gangue of granule size, it is identical
Resistance when the bigger move distance of quality it is farther, therefore graded operation has also been carried out between the substance of different densities difference.?
In each rank, mineral grain size is approximately equal, and gangue particle size is approximately equal, but mineral grain and gangue particle
Size be it is different, the big material grains of density be less than density it is small, it is as a result directly proportional to density ratio.When mineral grain with
The density ratio of gangue particle uses mechanical grading that can realize that high efficiency is screened after being greater than 1.3.Therefore differentiation is finely divided
It includes but is not limited to above mineral for having big density variation that grade equipment, which can allow copper mine, tin ore, tungsten ore, Pb-Zn deposits, and realization is adopted
It is sorted with simple, pollution-free, Ultra Low Cost, the grade and metal recovery rate of screening are higher than traditional ore-dressing technique.
The height of screening efficiency is to having sorted tremendous influence, such as the technology upgrading of mine of Taiyuan Iron and Steel Co. point mountain, screening efficiency
It is promoted from 35% to 75%, realizes that system production capacity promotes 5%, annual benefit more than 1,000 ten thousand.Efficient sieve classification can
The mineral of ore grinding qualification are separated in time, overground phenomenon is avoided to occur, reduce energy consumption, promotes production capacity, guarantee fund
Belong to the rate of recovery.Therefore the present invention also has good economic benefit.
Above-mentioned technical proposal of the invention has following beneficial technical effect: the mine that Emanator device 5 can be dished out
Composition granule point provides multiple classification channels, realizes fining sub-material.Mineral grain after grinding is divided into multiple grades, after convenient
Continuous ore dressing.Dust pollution is small, will not waste water resource.Good economic benefit can be generated.
Detailed description of the invention
Fig. 1 is the schematic diagram of embodiment 1 according to the present invention;
Fig. 2 is the schematic diagram of middle layer sleeve in embodiment of the present invention 1;
Fig. 3 is the top view of middle layer sleeve in embodiment of the present invention 1;
Fig. 4 is the scheme of installation that embodiment of the present invention 1 is mounted on the fine ore dressing host of differentiation;
Fig. 5 is the sectional view that embodiment of the present invention 1 is mounted on the fine ore dressing host of differentiation;
Fig. 6 is enlarged drawing at A in Fig. 5.
Appended drawing reference: 1: concentric sleeve;2: Ring-cylindrical channel;3: discharging road junction;4: dust-extraction unit;5: Emanator device;
6: splicing plate;7: hierarchical planes;11: innermost layer sleeve;12: middle layer sleeve;31: discharge port;51: receiver;61: inclined plate;
62: rib;63: anti-wind net.
Specific embodiment
In order to make the objectives, technical solutions and advantages of the present invention clearer, With reference to embodiment and join
According to attached drawing, the present invention is described in more detail.It should be understood that these descriptions are merely illustrative, and it is not intended to limit this hair
Bright range.In addition, in the following description, descriptions of well-known structures and technologies are omitted, to avoid this is unnecessarily obscured
The concept of invention.
Embodiment 1
As shown, a kind of stock grading sleeve of the fine ore dressing host of differentiation, comprising: 9 concentric sleeves 1, every layer
It is fixedly connected between concentric sleeve 1 by the thin slice vertical with concentric 1 section of sleeve;One is formed between every two layers of concentric sleeve 1
A Ring-cylindrical channel 2, is equipped with splicing plate 6 on the outside of all middle layer sleeves 12, and splicing plate 6 connects with outer one layer concentric sleeve 1
The outlet that synapsis is opened is discharge port 31.Wherein the discharge port 31 Yu dust-extraction unit 4 in inner most Ring-cylindrical channel 2, which seal, connects
It connects.Splicing plate 6 is that two inclined plates 61 of ridge-shaped form, and 61 edge of inclined plate is provided with vertical rib 62, angle between inclined plate 61
Degree is 120 °, and 61 lowest part of inclined plate is provided with discharge port 31.Anti-wind net 63 is installed on splicing plate 6;Anti-wind net 63 and inclined plate 61 are flat
Row, and it is provided with the gap 2mm between the two.The diameter of innermost layer sleeve 11 is 160mm, the diameter difference of remaining 8 layers concentric sleeve 1
Are as follows: 184,214,254,306,378,458,538,618mm.Wherein diameter is the concentric sleeve point of 458mm, 538mm, 618mm
5mm, 10mm and 20mm are not lifted up it.The top edge that component material is classified the concentric sleeve 1 in inner 6 of sleeve is located at same
In hierarchical planes 7, hierarchical planes 7 are parallel with the receiver 51 of Emanator device 5, and distance is 10cm.
It is mounted with the fine ore dressing host other structures of the differentiation of the present embodiment are as follows:
As shown, Emanator device 5 is provided on stock grading sleeve, including receiver 51 and platen, wherein splicing
Disk 51 is made of circular base plate, rotary table and annulus wall.Circular base plate diameter is 160mm, with a thickness of 6mm, the basal diameter of rotary table
For 47mm, a height of 14mm, taper 2;Trapezoidal a height of 14mm in annulus wall section, bottom side length 50mm, the long 15mm of top margin.On platen
Feeding inlet diameter be 43mm, setting up-narrow and down-wide conical sleeve is installed on platen center, feeding inlet, conical sleeve
Taper is 2.The top of conical sleeve covers charging line wherein, and there are gaps between the two.Contact of the receiver 51 with platen
The gap 0.1mm is provided between face;Platen is bolted with receiver 51 by 6, and sleeve is equipped on bolt, and sleeve passes through
Processing makes gap 0.1mm between the contact surface of platen.
5 lower part of Emanator device is connect by bolt with rotary table by rotation axis connection motor, rotary shaft, can pass through tune
Bolt is saved to adjust the distance between the hierarchical planes 7 of receiver 51 Yu stock grading sleeve, receiver 51 and stock grading set
The distance between the hierarchical planes 7 of cylinder are adjusted to 10cm.Rotary shaft is connect by bearing with fixes sleeve, fixes sleeve and host
Sleeve is fixed by the bracket, and prevents rotary shaft from shifting in rotation, it is ensured that Emanator device 5 revolves in the horizontal plane
Turn.
The diameter of the fine ore dressing mainframe host computer sleeve of differentiation is 1200mm;It is equipped in cylinder host sleeve inner upper
The diameter of the blower parallel with the section of host sleeve, the host sleeve shaft part where blower is 1300mm, and the power of blower is
1.5kW.Host sleeve inner is also equipped with two rectifying discs parallel with blower, and rectifying disc is several perpendicular to host sleeve
Cross section thin plate constitute fenestral fabric.Thin plate is vertical with host sleeve section, and grid is square, its side length is 10cm,
Web width is 10cm.There are hole in the middle part of rectifying disc, charging line can be passed through from the hole in the middle part of rectifying disc.Charging line
The lower section of blower is arranged in feed end, is divided into two and is pierced by from host sleeve two sides;It is arranged in the middle part of charging line in host sleeve
Middle part, charging line discharge end are connected with Emanator device 5, and the top with the conical sleeve of 5 upper end of Emanator device installation
Docking, there are the gaps 1mm between the two.
Classification test is carried out using the fine ore dressing host of the differentiation for being equipped with embodiment 1
Magnetic iron ore and bloodstone
4.8~5.3g/cm of bloodstone3, gangue density: 2.65g/cm3, density ratio is 1.8~2, using being mounted with embodiment
After the fine ore dressing host classification of 1 differentiation, mineral grain and gangue particle size relation direct proportionality in each rank,
The diameter of iron ores particle is the half or so of gangue particle diameter.Volume forms larger difference, and this state, which is highly advantageous to, adopts
High efficiency mineral are carried out with simple mode to sort, are also easier to sort out high-grade concentrate, and are obtained higher metal and returned
Yield.Concentrate grade of the bloodstone up to 67%, metal recovery rate 85%.
The classification results of magnetic iron ore are identical with bloodstone, use the fine ore dressing host of differentiation point for being mounted with embodiment 1
After grade, the diameter ratio of mineral grain and gangue particle is sorted generally between 1.5~2.0 using screening mode in each grade
It can get 68% concentrate grade and the sorting result of metal recovery rate 90% or so.
Hematite-limonite
Ore dressing experiment was carried out to Dongchuan District, Yunnan Province hematite-limonite in 2018, which belongs to more difficult ore dressing kind, and mineral structure is multiple
It is miscellaneous, belong to particulate, fine grain teeth cloth, high silicon, high phosphorus.Changsha mining and metallurgy research institute combines direct flotation using stage grinding, high intensity magnetic separation
Dephosphorization, reverse flotation obtain Seiko skill and only obtain, the achievement of concentrate grade 58%, metal recovery rate 57.8%, but after selecting factory to build,
But because of Technological adaptability difference lead to that factory is selected to stop production, several hundred million investments fall through.It is finely selected using the differentiation for being mounted with embodiment 1
The fine graded processing of differentiation is reused after the classification of mine host, can be obtained 60.5% concentrate grade using narrow grade screening mode
With 80.5% metal recovery rate.Sufficiently prove that fine graded narrow grade is sorted with good economy and adaptability.
Chalcopyrite
4.1~4.3g/cm of brass mineral density3, gangue mineral is mainly lime stone, quartz, feldspar, density 2.6~2.8 it
Between using after fine graded, can using the fine ore dressing host of the differentiation of embodiment 1 in narrow grade between density ratio 1.46~1.6
Easily to abandon these gangues, chalcopyrite concentrate grade reaches 25%, metal recovery rate is made to reach 80%, with the whole nation average 60%
The following rate of recovery improves 20%.
Tin ore
The density of tin ore is larger, and the country generallys use reselection modes and sorts, and the rate of recovery uses flotation side less than 57% in recent years
The also metal recovery rate only less than 67% of formula, the main loss approach of mineral are less than in 0.04 or less fine particle swarm and have been difficult to
Effect recycling effectively sorts the above particle of 700 mesh using the fine ore dressing host classification of differentiation for being mounted with embodiment 1,
Mineral grain and gangue particle diameter ratio are greater than 2 or more in narrow rank, can obtain tin ore concentrate grade using screening mode
61%, metal recovery rate is higher than 86% good result.
Scheelite
Sorting at present for scheelite is still world-famous puzzle, routinely sorts that cost is high, and the rate of recovery is low, the density of scheelite
6.1g/cm3, using being screened after being mounted with the fine ore dressing host classification of differentiation of embodiment 1, using narrow grade screening mode
Obtain grade 65%, metal recovery rate 87%.
It should be understood that above-mentioned specific embodiment of the invention is used only for exemplary illustration or explains of the invention
Principle, but not to limit the present invention.Therefore, that is done without departing from the spirit and scope of the present invention is any
Modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.In addition, appended claims purport of the present invention
Covering the whole variations fallen into attached claim scope and boundary or this range and the equivalent form on boundary and is repairing
Change example.
Claims (10)
1. a kind of stock grading sleeve of the fine ore dressing host of differentiation, the Emanator device for will be arranged above the present apparatus
(5) mineral grain dished out is divided into different brackets characterized by comprising
The concentric sleeve of several layers (1), by vertical with concentric sleeve (1) section between every layer of concentric sleeve (1)
Thin slice is fixedly connected;A Ring-cylindrical channel (2) is formed between every two layers of concentric sleeve (1), each Ring-cylindrical is logical
Road (2) bottom is provided with discharging road junction (3), wherein the discharging road junction (3) of the inner most Ring-cylindrical channel (2) and dedusting fill
Set (4) sealed connection.
2. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 1, which is characterized in that described most interior
The diameter of layer sleeve (11) is identical as the diameter of receiver (51) in the Emanator device (5), and the receiver (51) is circle
Plate-like is the rotary part on the Emanator device (5), for that will fall into mineral grain therein and exhale.
3. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 2, which is characterized in that described same
The splicing plate (6) flexed outward, splicing plate (6) and outer one are installed on the outside of all middle layer sleeves (12) in heart sleeve (1)
The layer outlet that sleeve contact position is opened with one heart is the discharging road junction (3).
4. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 3, which is characterized in that the splicing
Plate (6) is ridge-shaped, is made of two pieces of inclined plates (61), and inclined plate (61) edge is provided with vertical rib (62), described two
Angle is 90~120 ° between block inclined plate (61), and inclined plate (61) lowest part is provided with discharge port (31).
5. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 4, which is characterized in that described concentric
The diameter difference of two adjacent from inside to outside concentric sleeves (1) of sleeve (1) is gradually increased.
6. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 5, which is characterized in that the material
Being classified sleeve includes 3~21 concentric sleeves (1).
7. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 6, which is characterized in that the splicing
Anti-wind net (63) are installed on plate (6);The anti-wind net (63) is parallel with the inclined plate (61), and is provided with gap between the two.
8. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 7, which is characterized in that described several
The top edge of concentric sleeve (1) is located in same hierarchical planes (7), and the hierarchical planes (7) are parallel with the receiver (51).
9. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 8, which is characterized in that the classification
Plane (7) be lower than with the receiver (51), distance between the two is 6~12cm.
10. the stock grading sleeve of the fine ore dressing host of differentiation according to claim 7, which is characterized in that described same
The section of heart sleeve (1) is parallel with the receiver (51), when two adjacent concentric sleeves (1) diameter difference be greater than etc.
After 80mm, relatively interior one layer of concentric sleeve (1) diameter difference of the concentric sleeve (1) of more outer layer no longer increases, and is fixed as 80mm,
And the position where concentric sleeve (1) top edge gradually rises.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111551014A (en) * | 2020-05-14 | 2020-08-18 | 常州机电职业技术学院 | Seed drying device |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB575071A (en) * | 1942-12-26 | 1946-02-01 | Hart Carter Co | Granular material grader and purifier |
CN104492689A (en) * | 2015-01-14 | 2015-04-08 | 苏州赛胜创机电科技有限公司 | Automatic and efficient multistage rotary sand sieving machine and production method thereof |
CN208437242U (en) * | 2018-04-16 | 2019-01-29 | 杭州星华反光材料股份有限公司 | A kind of reflectorized material glass bead sieving device |
CN109550602A (en) * | 2019-01-16 | 2019-04-02 | 北京国铁科技有限公司 | A kind of dry-type centrifugal method Machine-made Sand gumming grading plant |
-
2019
- 2019-05-28 CN CN201910452263.9A patent/CN110090795B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB575071A (en) * | 1942-12-26 | 1946-02-01 | Hart Carter Co | Granular material grader and purifier |
CN104492689A (en) * | 2015-01-14 | 2015-04-08 | 苏州赛胜创机电科技有限公司 | Automatic and efficient multistage rotary sand sieving machine and production method thereof |
CN208437242U (en) * | 2018-04-16 | 2019-01-29 | 杭州星华反光材料股份有限公司 | A kind of reflectorized material glass bead sieving device |
CN109550602A (en) * | 2019-01-16 | 2019-04-02 | 北京国铁科技有限公司 | A kind of dry-type centrifugal method Machine-made Sand gumming grading plant |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111551014A (en) * | 2020-05-14 | 2020-08-18 | 常州机电职业技术学院 | Seed drying device |
CN111551014B (en) * | 2020-05-14 | 2022-03-08 | 常州机电职业技术学院 | Seed drying device |
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