CN108706598A - Improve the implementation method of silicon materials purity - Google Patents
Improve the implementation method of silicon materials purity Download PDFInfo
- Publication number
- CN108706598A CN108706598A CN201810778877.1A CN201810778877A CN108706598A CN 108706598 A CN108706598 A CN 108706598A CN 201810778877 A CN201810778877 A CN 201810778877A CN 108706598 A CN108706598 A CN 108706598A
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- CN
- China
- Prior art keywords
- conveyer belt
- babinet
- wollastonite
- powder
- storage bin
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01B—NON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
- C01B33/00—Silicon; Compounds thereof
- C01B33/20—Silicates
- C01B33/24—Alkaline-earth metal silicates
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C—MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C1/00—Magnetic separation
- B03C1/02—Magnetic separation acting directly on the substance being separated
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C—MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C1/00—Magnetic separation
- B03C1/02—Magnetic separation acting directly on the substance being separated
- B03C1/16—Magnetic separation acting directly on the substance being separated with material carriers in the form of belts
- B03C1/18—Magnetic separation acting directly on the substance being separated with material carriers in the form of belts with magnets moving during operation
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- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Life Sciences & Earth Sciences (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Geology (AREA)
- Inorganic Chemistry (AREA)
- Feeding Of Articles To Conveyors (AREA)
Abstract
The invention discloses the implementation methods for improving silicon materials purity, including babinet and feed inlet in top of the box is set, the babinet is internally provided with first conveyer belt, first conveyer belt is located at the lower section of feed inlet, the surface of the first conveyer belt is equipped with several magnet, it is additionally provided with shaker mechanism between the first conveyer belt, it is additionally provided with storage bin on the inner wall of the babinet, storage bin is located at the lower section of first conveyer belt, the outer wall of babinet is equipped with the first driving mechanism, first driving mechanism includes output shaft, output shaft is inserted in storage bin, the output shaft is equipped with several blades, electromagnet is equipped on blade.The present invention can effectively be purged the magnetic impurity for being mingled in wollastonite in powder, improve the purity of wollastonite in powder.
Description
Technical field
The present invention relates to wollastonite in powder manufacturing fields, and in particular to improves the implementation method of silicon materials purity.
Background technology
Wollastonite in powder be white micro-strip ash, it is red, in the form of sheets, radial or fibrous agrregate, anorthic system has glass
The crystal of gloss, cleavage mask pearly luster, wollastonite fluoresces under ultraviolet light irradiation, also has phosphorescent.It is mainly used for
The industry such as ceramics, coating, plastics, rubber, wollastonite in powder have needle-shaped, fibrous crystal form and higher whiteness and unique
Physical and chemical performance, be widely used in ceramics, paint, coating, plastics, rubber, chemical industry, papermaking, welding rod, metallurgical protective slag with
And as asbestos alternative etc..Its particle of Cab-O-sil is small, has usually been mixed into the magnetic impurities such as Fe2O3, if in production not
These impurity are cleaned out, and subsequent operation can be influenced, and also influence whether the quality of wollastonite in powder.Currently, most of in conveyer belt
Upper setting magnet is got rid of the impurity being mixed into wollastonite in powder using magnet when conveying wollastonite in powder using conveyer belt, but
It is ineffective in this way, can not effectively removes the impurity in wollastonite in powder clean.
Invention content
It is in the prior art insufficient, and it is an object of the present invention to provide improving silicon materials the technical problem to be solved by the present invention is to overcome
The implementation method of purity can effectively remove the magnetic impurity being mixed into wollastonite in powder, improve the purity of wollastonite in powder.
The present invention is achieved through the following technical solutions:
The implementation method for improving silicon materials purity, includes the following steps:
1) motor of first conveyer belt, driving first conveyer belt rotation are opened;
2) wollastonite in powder after grinding is poured slowly into feed inlet, wollastonite in powder is fallen in first conveyer belt;
3) the second driving mechanism is opened, first conveyer belt is shaken using shaker mechanism;
4) wollastonite in powder is fed through in storage bin by first conveyer belt, then opens the first driving mechanism, while giving blade
On electromagnet be powered, the first driving mechanism band movable vane piece rotate, the wollastonite in powder in storage bin is slowly stirred;
5) after the first driving mechanism work 30-40min, the first driving mechanism is closed;
6) baffle is pulled outwardly, and the wollastonite in powder after removal of impurities is fallen to by leakage hole on the second conveyer belt;
7) motor of the second conveyer belt is opened, driving the second conveyer belt rotation will fall off to the silicon ash on the second conveyer belt
Mountain flour is sent to lower one of manufacturing procedure;
8) when the wollastonite in powder discharge in storage bin, the power supply of electromagnet on blade is closed, blade will be adsorbed on and powered on
The magnetic impurity of magnet is fallen on the second conveyer belt, and using the second conveyer belt, magnetic impurity is discharged out of babinet;
9) pull rod is pulled, picking-up container is removed out of babinet, the magnetic impurity in picking-up container is discharged.
The present invention is when being purged the magnetic impurity in wollastonite in powder, first with the magnet pair in first conveyer belt
Magnetic impurity in wollastonite in powder is tentatively removed, and then the wollastonite in powder after tentatively removing is fallen in storage bin,
It is rotated using the first driving mechanism band movable vane piece, since blade is equipped with electromagnet so that blade is during rotation, electromagnetism
Iron can fully adsorb the magnetic impurity in wollastonite in powder, effectively remove the magnetic impurity in wollastonite in powder, while first
For conveyer belt during conveying wollastonite in powder, shaker mechanism can force wollastonite in powder to be shaken in first conveyer belt, improve
Absorption quantity of the magnet to the magnetic impurity in wollastonite in powder.
Further, the feed inlet is located at the top of babinet, and the babinet is internally provided with first conveyer belt, and first is defeated
The surface of the lower section for sending band to be located at feed inlet, the first conveyer belt is equipped with several magnet, is also set between the first conveyer belt
There is shaker mechanism, storage bin is additionally provided on the inner wall of the babinet, storage bin is located at the lower section of first conveyer belt, the outer wall of babinet
It is equipped with the first driving mechanism, the first driving mechanism includes output shaft, and output shaft is inserted in storage bin, is set on the output shaft
There are several blades, electromagnet is equipped on blade.
Further, the shaker mechanism includes cam, driven wheel, link block, fixed block and motion bar, the fixation
The inner wall of block and babinet connects, and motion bar is interspersed in fixed block vertically, and the bottom end of motion bar is connect with link block, described
Driven wheel is connect with link block, and driven wheel can rotate in link block, and the cam is located at the lower section of driven wheel.
Further, be additionally provided with the second driving mechanism on the outer wall of the babinet, the output end of the second driving mechanism with it is convex
Wheel connection.
Further, it is additionally provided with opening on the side wall of the babinet, transverse slat is equipped in opening, one end of transverse slat is located at first
The lower section of conveyer belt, the other end are located at the outside of babinet, and picking-up container is additionally provided on the transverse slat, and picking-up container is located at first conveyer belt
Lower section, be additionally provided with scraper plate on the side wall of the picking-up container, and scraper plate is located at the bottom of first conveyer belt.
Further, it is additionally provided with sliding slot at the top of the transverse slat, is equipped with and the matched sliding block of sliding slot, sliding block in the sliding slot
It can be moved in sliding slot, the top of the sliding block and the bottom of picking-up container connect.
Further, pull rod is additionally provided on the side wall of the scraper plate, pull rod one end is connect with scraper plate, and the other end is located at babinet
Outside.
Further, the scraper plate is towards being additionally provided with inclined-plane on the side wall in picking-up container direction.
Further, the bottom of the storage bin is equipped with leakage hole, and baffle is additionally provided on the side wall of the babinet, and baffle is horizontal
It is interspersed in babinet, baffle can move in babinet along horizontal direction, and the bottom of the upper surface of baffle and storage bin
On same straight line.
Further, it is additionally provided with discharge port on the side wall of the babinet, the second conveyer belt, the second conveying are equipped in discharge port
It is located at the lower section of storage bin with one end, the other end is located at the outside of babinet.
Compared with prior art, the present invention having the following advantages and advantages:
1, the present invention improves the implementation method of silicon materials purity, when being purged to the magnetic impurity in wollastonite in powder,
The magnetic impurity in wollastonite in powder is tentatively removed using first conveyer belt, then wollastonite in powder is fallen in storage bin,
It is rotated using the first driving mechanism band movable vane piece, during blade rotates, electromagnet inhales the magnetic impurity in wollastonite in powder
It is attached live, to effectively disposing the magnetic impurity in wollastonite in powder, while the shaker mechanism being arranged can be improved to wollastonite
The removing dynamics of magnetic impurity in powder;
2, the present invention improves the implementation method of silicon materials purity, in the scraper plate of first conveyer belt bottom setting, can will inhale
The magnetic impurity being attached on first conveyer belt magnet is hung, and is fallen in picking-up container by the impurity that extension, by magnetic impurity collection
In collect so that the magnet in first conveyer belt can continue to adsorb the magnetic impurity in wollastonite in powder, simultaneously
Quickly picking-up container can be pulled out out of babinet using pull rod, convenient for the magnetic impurity in picking-up container is discharged in time.
Description of the drawings
Attached drawing described herein is used for providing further understanding the embodiment of the present invention, constitutes one of the application
Point, do not constitute the restriction to the embodiment of the present invention.In the accompanying drawings:
Fig. 1 is schematic structural view of the invention;
Fig. 2 is the structural schematic diagram of shaker mechanism of the present invention;
Fig. 3 is the structural schematic diagram of picking-up container of the present invention;
Fig. 4 is the side view of transverse slat of the present invention.
Label and corresponding parts title in attached drawing:
1- feed inlets, 2- shaker mechanisms, 3- first conveyer belts, 4- storage bins, 5- output shafts, the first driving mechanisms of 6-, 7-
Blade, 8- leakage holes, 9- baffles, 10- discharge ports, the second conveyer belts of 11-, 12- babinets, 13- picking-up containers, 14- transverse slats, 15- pull rods,
16- is open, 17- scraper plates, 18- cams, 19- driven wheels, 20- link blocks, 21- motion bars, 22- fixed blocks, the inclined-planes 23-, and 24- is slided
Block, 25- sliding slots.
Specific implementation mode
To make the objectives, technical solutions, and advantages of the present invention clearer, with reference to embodiment and attached drawing, to this
Invention is described in further detail, and exemplary embodiment of the invention and its explanation are only used for explaining the present invention, do not make
For limitation of the invention.
Embodiment 1
As shown in Figures 1 to 4, the present invention improves the implementation method of silicon materials purity, includes the following steps:
1) motor of first conveyer belt 3 is opened, driving first conveyer belt 3 rotates;
2) wollastonite in powder after grinding is poured slowly into feed inlet 1, wollastonite in powder is fallen in first conveyer belt 3;
3) the second driving mechanism is opened, first conveyer belt 3 is shaken using shaker mechanism 2;
4) wollastonite in powder is fed through in storage bin 4 by first conveyer belt 3, then opens the first driving mechanism 6, while giving leaf
Electromagnet on piece 7 is powered, and the first driving mechanism 6 is rotated with movable vane piece 7, is slowly stirred the wollastonite in powder in storage bin 4
It mixes;
5) after the first driving mechanism 6 work 30-40min, the first driving mechanism 6 is closed;
6) baffle 9 is pulled outwardly, and the wollastonite in powder after removal of impurities is fallen to by leakage hole 8 on the second conveyer belt 11;
7) motor of the second conveyer belt 11 is opened, driving the second conveyer belt 11 rotation will fall off to the second conveyer belt 11
Wollastonite in powder send to lower one of manufacturing procedure;
8) when the wollastonite in powder discharge in storage bin 4, the power supply of electromagnet on blade 7 is closed, will be adsorbed on blade 7
The magnetic impurity of electromagnet is fallen on the second conveyer belt 11, and using the second conveyer belt 11, magnetic impurity is arranged out of babinet 12
Go out;
9) pull rod 15 is pulled, picking-up container 13 is removed out of babinet 12, the magnetic impurity in picking-up container 13 is discharged.
Wherein, including babinet 12 and feed inlet 1, the feed inlet 1 are located at the top of babinet 12 so that after grinding
Wollastonite in powder is entered to by feed inlet 1 in babinet 1, and the inside of the babinet 12 is additionally provided with first conveyer belt 3, first conveyer belt
3 are located at the lower section of feed inlet 1 so that the wollastonite in powder being put into from feed inlet 1 can be fallen in first conveyer belt 3, utilize the
One conveyer belt transports wollastonite in powder, is set in first conveyer belt 3 there are two motor, and motor is connect with the inside of babinet 12,
Two motors can drive first conveyer belt 3 to rotate, and the surface of the first conveyer belt 3 is additionally provided with several magnet, works as wollastonite
Powder is fallen when in first conveyer belt 3, and the magnet of setting can adsorb the magnetic impurity being mingled in wollastonite in powder, to silicon
Limestone flour carries out preliminary screening, and shaker mechanism 2 is additionally provided between the first conveyer belt 3, and the shaker mechanism 2 includes cam
18, driven wheel 19, link block 20, fixed block 22 and motion bar 21, the fixed block 22 are connect with the inside of babinet 12, activity
Bar 21 is interspersed in vertically on fixed block 22, and motion bar 21 can along vertical direction move in fixed block 22, to first
Conveyer belt 3 is shaken, and the bottom of the motion bar 21 is connect with link block 20, and motion bar 21 can drive link block 20 together
Mobile, the driven wheel 19 is connect with link block 20, and driven wheel 19 can rotate in link block 20,18, the cam
In the lower section of driven wheel 19, and cam 18 is contacted with driven wheel 19, and the second driving machine is additionally provided on the outer wall of the babinet 12
Structure, the second driving mechanism are motor, and the output end of the second driving mechanism is connect with cam 18, in the effect of the second driving mechanism
Under, it can be rotated with moving cam 18, cam 18 can force motion bar 21 to move in the vertical direction during rotation,
To be shaken to first conveyer belt 3, traditional conveyer belt is when conveying wollastonite in powder, the silicon ash on conveyor belt surface
Magnetic impurity in mountain flour is not easy by the magnet adsorption on conveyer belt so that and it is relatively low to wollastonite in powder dust removal rate, and this programme
First conveyer belt is shaken using shaker mechanism 3, mistake of the wollastonite in powder on 3 surface of first conveyer belt in shake
Cheng Zhong improves the quantity of magnet adsorption magnetic impurity, further improves the removal of impurities dynamics to wollastonite in powder;The babinet 12
Inner wall on be additionally provided with storage bin 4, storage bin 4 is located at the lower section of first conveyer belt 3 so that one end of first conveyer belt 3 is located at
The lower section of feed inlet 1, the other end are located at the upper surface of storage bin 4, to which the wollastonite ensured in first conveyer belt 3 can be fallen
In storage bin 4, the first driving mechanism 6 is additionally provided on the outer wall of the babinet 12, the first driving mechanism 6 is motor, the first driving
Mechanism 6 includes output shaft 5, and the output shaft 5 is inserted in storage bin 4, and several blades 7, blade are evenly provided on output shaft 5
7 surface is equipped with electromagnet, and electromagnet will generate magnetic force after being powered, when the first driving mechanism 6 is with the rotation of movable vane piece 7, blade 7
It is come into full contact with to falling to the wollastonite in powder in storage bin 4, blade 7 with wollastonite in powder during being contacted, leaf
Electromagnet on piece 7 adsorbs the magnetic impurity that residue is mingled in wollastonite in powder, further to miscellaneous in wollastonite in powder
Matter is purged, and during being slowly stirred to wollastonite in powder, is purged to the magnetic impurity in wollastonite in powder,
This programme is improved compared to the tradition mode that setting magnet is purged impurity on a moving belt to magnetic miscellaneous in wollastonite in powder
The removing dynamics of matter, improves the purity of wollastonite in powder;It is additionally provided with opening 16 on the side wall of the babinet 12, is equipped in opening 16
One end of transverse slat 14, transverse slat 14 stretches in babinet 12, and positioned at the lower section of first conveyer belt 3, and the other end is located at babinet 12
Outside, the top of the transverse slat 14 is equipped with sliding slot 25, be equipped in sliding slot 25 with 25 matched sliding block 24 of sliding slot, sliding block 24 can
It is moved in sliding slot 25, the top of the sliding block 24 is equipped with picking-up container 13, and picking-up container 13 can follow sliding block 24 to move together, institute
State and be additionally provided with scraper plate 17 on the side wall of picking-up container 13, scraper plate 17 is located at the bottom of first conveyer belt 3, and the top of scraper plate 17 with
The bottom of first conveyer belt 3 contacts so that the magnetic impurity of magnet adsorption in first conveyer belt 3 can be hung by scraper plate 17, institute
The width for stating scraper plate 17 is more than the width of first conveyer belt 3, ensures what scraper plate 17 can live magnet adsorption in first conveyer belt 3
Magnetic impurity is hung, and the scraper plate 17 is towards being additionally provided with inclined-plane 23, and inclined-plane 23 and scraper plate on the side wall in 13 direction of picking-up container
17 top connection so that it can be fallen in picking-up container 13 along inclined-plane 23 by the magnetic impurity of scraper plate hanging fascia, it will be magnetic miscellaneous
Matter centralized collection is got up, and pull rod 15 is additionally provided on the side wall of the scraper plate 17, and 15 one end of pull rod is connect with scraper plate 17, and the other end is worn
Opening 16 is crossed, the outside of babinet 12 is located at, during use, when the impurity accumulation in picking-up container 13 is more, utilizes drawing
Bar 15 pulls out picking-up container 13 out of babinet 12, convenient for handling in time the impurity being deposited in picking-up container 13;The case
Baffle 9 is additionally provided on the side wall of body 12, baffle 9 is horizontally inserted into babinet 12, and baffle 9 can be in babinet 12 along dampening
Square to movement, enabling the extraction out of babinet 12 by baffle 9, the upper surface of baffle 9 is with the bottom of storage bin 4 in same
On straight line, the bottom of the storage bin 4 is additionally provided with leakage hole 8, and the wollastonite in powder being stored in storage bin 4 can fall from leakage hole 8
It falls, and the baffle 9 being arranged can block leakage hole 8, avoid wollastonite in powder from being fallen from leakage hole 8, the side wall of the babinet
On be additionally provided with discharge port 10, discharge port 10 is located at the lower section of opening 16, and the second conveyer belt 11, the second conveyer belt 11 are equipped in opening
It also inside is provided with motor, provides power for the second conveyer belt, 11 one end of the second conveyer belt is located at the lower section of baffle 9, and the other end is located at
The outside of babinet 12 pulls gear when blade 7 stops screening the impurity in the wollastonite in powder that is stored in storage bin 4
Plate 9 so that the wollastonite in powder in storage bin 4 can be fallen on the second conveyer belt 11 by leakage hole 8, will using the second conveyer belt
The wollastonite in powder of removal of impurities is delivered to down one of manufacturing procedure;Simultaneously when the wollastonite in powder in storage bin 4 is all discharged, and silicon
When limestone flour is delivered to the external world by the second conveyer belt 11, the electromagnet of blade 7 is powered off so that be attached on electromagnet
Magnetic impurity the second conveyer belt 11 is fallen to from leakage hole 8, the magnetic impurity screened is also delivered to the external world, to impurity
It is focused on.
Above-described specific implementation mode has carried out further the purpose of the present invention, technical solution and advantageous effect
It is described in detail, it should be understood that the foregoing is merely the specific implementation mode of the present invention, is not intended to limit the present invention
Protection domain, all within the spirits and principles of the present invention, any modification, equivalent substitution, improvement and etc. done should all include
Within protection scope of the present invention.
Claims (10)
1. improving the implementation method of silicon materials purity, which is characterized in that include the following steps:
1) motor of first conveyer belt (3) is opened, driving first conveyer belt (3) rotates;
2) wollastonite in powder after grinding is poured slowly into feed inlet (1), wollastonite in powder is fallen in first conveyer belt (3);
3) the second driving mechanism is opened, first conveyer belt (3) is shaken using shaker mechanism (2);
4) wollastonite in powder is fed through in storage bin (4) by first conveyer belt (3), is then opened the first driving mechanism (6), is given simultaneously
Electromagnet on blade (7) is powered, and the first driving mechanism (6) band movable vane piece (7) rotates, to the wollastonite in powder in storage bin (4)
It is slowly stirred;
5) after the first driving mechanism (6) work 30-40min, the first driving mechanism (6) is closed;
6) baffle (9) is pulled outwardly, and the wollastonite in powder after removal of impurities is fallen to by leakage hole (8) on the second conveyer belt (11);
7) motor of the second conveyer belt (11) is opened, the second conveyer belt of driving (11) is rotated, be will fall off to the second conveyer belt (11)
On wollastonite in powder send to lower one of manufacturing procedure;
8) when the wollastonite in powder discharge in storage bin (4), the power supply of electromagnet on blade (7) is closed, blade (7) will be adsorbed on
The magnetic impurity of upper electromagnet is fallen on the second conveyer belt (11), using the second conveyer belt (11), by magnetic impurity from babinet
(12) discharge in;
9) pull rod (15) is pulled, picking-up container (13) is removed out of babinet (12), the magnetic impurity in picking-up container (13) is discharged.
2. the implementation method according to claim 1 for improving silicon materials purity, which is characterized in that feed inlet (1) position
The inside at the top in babinet (12), the babinet (12) is connected to first conveyer belt (3), and first conveyer belt (3) is located at charging
The surface of the lower section of mouth (1), the first conveyer belt (3) is equipped with several magnet, is also connected between the first conveyer belt (3)
Shaker mechanism (2) is connect with storage bin (4) on the inner wall of the babinet (12), and storage bin (4) is located at first conveyer belt (3)
Lower section is connected to the first driving mechanism (6) on the outer wall of babinet (12), and the first driving mechanism (6) includes output shaft (5), output
Axis (5) is inserted in storage bin (4), several blades (7) is connected on the output shaft (5), blade is equipped with electromagnetism on (7)
Iron.
3. the implementation method according to claim 1 for improving silicon materials purity, which is characterized in that the shaker mechanism (2)
Including cam (18), driven wheel (19), link block (20), fixed block (22) and motion bar (21), the fixed block (22) with
The inner wall of babinet (12) connects, and motion bar (21) is interspersed in vertically in fixed block (22), and the bottom end of motion bar (21) and company
Block (20) connection is connect, the driven wheel (19) connect with link block (20), and driven wheel (19) can be in link block (20)
Rotation, the cam (18) are located at the lower section of driven wheel (19).
4. the implementation method according to claim 3 for improving silicon materials purity, which is characterized in that outside the babinet (12)
The second driving mechanism is connected on wall, the output end of the second driving mechanism is connect with cam (18).
5. the implementation method according to claim 1 for improving silicon materials purity, which is characterized in that the side of the babinet (12)
It is additionally provided with opening (16) on wall, is equipped with transverse slat (14) in opening (16), one end of transverse slat (14) is located under first conveyer belt (3)
Side, the other end are located at the outside of babinet (12), and picking-up container (13) is connected on the transverse slat (14), and picking-up container (13) is located at first
The lower section of conveyer belt (3) is additionally provided with scraper plate (17) on the side wall of the picking-up container (13), and scraper plate (17) is located at the first conveying
The bottom of band (3).
6. the implementation method according to claim 5 for improving silicon materials purity, which is characterized in that the top of the transverse slat (14)
Portion is additionally provided with sliding slot (25), be equipped in the sliding slot (25) with the matched sliding block of sliding slot (24), sliding block (24) can be in sliding slot
(25) it is moved in, the top of the sliding block (24) is connect with the bottom of picking-up container (13).
7. the implementation method according to claim 4 for improving silicon materials purity, which is characterized in that the side of the scraper plate (17)
Pull rod (15) is connected on wall, pull rod (15) one end is connect with scraper plate (17), and the other end is located at the outside of babinet (12).
8. the implementation method according to claim 5 for improving silicon materials purity, which is characterized in that scraper plate (17) direction
It is additionally provided with inclined-plane (23) on the side wall in picking-up container (13) direction.
9. the implementation method according to claim 1 for improving silicon materials purity, which is characterized in that the storage bin (4)
Bottom is connected to leakage hole (8), and baffle (9) level is interspersed in babinet (12), baffle (9) can in babinet (12) along
Horizontal direction moves, and the upper surface of baffle (9) and the bottom of storage bin (4) are on same straight line.
10. the implementation method according to claim 1 for improving silicon materials purity, which is characterized in that the babinet (12)
It is additionally provided with discharge port (10) on side wall, the second conveyer belt (11), the second conveyer belt (11) one end position are connected in discharge port (10)
Lower section in storage bin (4), the other end are located at the outside of babinet (12).
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CN201810778877.1A CN108706598A (en) | 2018-07-16 | 2018-07-16 | Improve the implementation method of silicon materials purity |
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Cited By (4)
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CN109622219A (en) * | 2018-12-25 | 2019-04-16 | 浙江双金机械集团股份有限公司 | Magnetic separation mechanism |
CN109835907A (en) * | 2019-04-04 | 2019-06-04 | 嘉兴笼列电子商务有限公司 | A kind of device improving silicon materials purity |
CN112660713A (en) * | 2020-12-14 | 2021-04-16 | 苏州阿甘机器人有限公司 | Efficient feeding equipment capable of intelligently adjusting feeding speed and working method thereof |
CN113926587A (en) * | 2021-09-08 | 2022-01-14 | 山西航金环保科技有限公司 | Process and device for separating iron from blast furnace ash |
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