CN101402070B - Vertical fluid deferrization method and device - Google Patents

Vertical fluid deferrization method and device Download PDF

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Publication number
CN101402070B
CN101402070B CN2008102330797A CN200810233079A CN101402070B CN 101402070 B CN101402070 B CN 101402070B CN 2008102330797 A CN2008102330797 A CN 2008102330797A CN 200810233079 A CN200810233079 A CN 200810233079A CN 101402070 B CN101402070 B CN 101402070B
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China
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magnetic conductive
conductive media
media cylinder
passage
permanent magnet
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Expired - Fee Related
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CN2008102330797A
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Chinese (zh)
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CN101402070A (en
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方学军
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Individual
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Individual
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Abstract

The invention relates to a method for removing iron of a vertical type fluid and a device thereof. The device is characterized by comprising a fluid passage and a plurality of sets of nonmagnetic medium platens arranged on two sides of the passage; a permanent magnet body and a power mechanism for driving the nonmagnetic medium platens to rotate are arranged on the part of the cambered surface in the nonmagnetic medium platen along the axial direction; the underside of the half part of the nonmagnetic medium platen close to the wall of the passage is provided with a ferromagnet receiving groove; one side of the nonmagnetic medium platen close to the wall of the passage is provided with a scratch board; and the nonmagnetic medium platens with adjacent two sides are in up-and-down alternate arrangement. Compared with the prior art, the method has the advantages of carrying out iron cleaning on the surface of a magnetic rod without needing to deviate the magnetic rod from the passage and having relatively smaller volume of equipment and good iron removing effect.

Description

A kind of vertical fluid deferrization method and device
Technical field:
The present invention relates to a kind of ore deposit choosing method and device.
Background technology:
Existing mineral dry powder (as ceramic powder) method for removing iron is mineral dry powder to be imported be covered with in the vertical passage of permanent magnet bar, make through the iron in the mineral dry powder of permanent magnet bar to be adsorbed on the permanent magnet bar, and the mineral dry powder after the deironing is discharged from another outlet of passage.This kind method, when permanent magnet bar surface because of after being filled iron and inhaling the ability drop of iron, just permanent magnet bar need be taken out in passage, so that the removing of the iron above it is also come into operation again.Like this, in iron removal, therefore the permanent magnet bar in the passage, always in disappearance, like this, has just influenced the effect of deironing because will clean by turns.And, the device that a cover cleans bar magnet need be set outside passage in addition, like this, just increased the volume of equipment, it is very inconvenient that it is used.
Summary of the invention:
Goal of the invention of the present invention is to provide a kind of need not move apart passage with bar magnet, just can to the bar magnet surface carry out iron cleaning, equipment volume fluid deferrization method less relatively, good iron removal effect and device.
Vertical fluid deferrization method of the present invention is to realize like this, ceramic powder is imported above vertical passage, the both sides horizontally set number of passage overlaps non-magnetic conductive media cylinder, on the part cambered surface in the non-magnetic conductive media cylinder vertically permanent magnet is set, ceramic powder falls into the side by channel middle of the non-magnetic conductive media cylinder in the passage, when the part that has permanent magnet of the non-magnetic conductive media cylinder that rotates along the ceramic powder falling direction turns to a side by channel middle, ferromagnetic material in the ceramic powder that will pass through is drawn, and the side ceramic powder by channel middle that flows through non-magnetic conductive media cylinder falls into the side by channel middle of the non-magnetic conductive media cylinder of following another side, absorption on the non-magnetic conductive media cylinder part that has permanent magnet of ferromagnetic material when being rotated further the passage side, with scraper plate ferromagnetic material is scraped on the part that does not have permanent magnet on the non-magnetic conductive media cylinder, the ferromagnetic material that has lost the permanent magnet attraction is under the effect of deadweight, fall on the ferromagnetic material feeder of passage inboard, the side that the part that has permanent magnet of the non-magnetic conductive media cylinder after the cleaning is rotated further by channel middle continues the ceramic powder of process is carried out deironing, like this, the ceramic powder that has through channel middle after the deironing of non-magnetic conductive media cylinder of rotation of permanent magnet flows out at the middle part of outlet down from passage, becomes the finished product ceramic powder.
Here, in order to guarantee the de-ferrous effect of ceramic powder, ceramic powder is longer than the time of non-magnetic conductive media rollers roll one circle to the time of flowing of the non-magnetic conductive media cylinder of channel exit from the non-magnetic conductive media cylinder of channel entrance.
Vertical fluid deferrization device of the present invention is to realize like this, comprise the fluid passage, be arranged on the non-magnetic conductive media cylinder of number cover of passage both sides, permanent magnet is set on the part cambered surface in the non-magnetic conductive media cylinder vertically, drives the actuating unit that non-magnetic conductive media cylinder rotates, be provided with the ferromagnetic material dump tank below that of the close conduit wall of non-magnetic conductive media cylinder half part, that side at the close conduit wall of non-magnetic conductive media cylinder is provided with scraper plate, the setting of staggering up and down mutually of the adjacent non-magnetic conductive media cylinder in both sides.During work, with ceramic powder introduction channel middle part, make the non-magnetic conductive media drum segment that be positioned at channel middle of ceramic powder through rotating, when the part that has permanent magnet in the non-magnetic conductive media cylinder turns to channel middle, ferromagnetic material in the ceramic powder just is attracted on the non-magnetic conductive media outer surface of cylinder that has permanent magnet, except that the ceramic powder behind the ferromagnetic material continues to fall along channel middle under the effect of deadweight, continuation removes the magnetic material by following non-magnetic conductive media cylinder to it, and the non-magnetic conductive media cylinder of having drawn ferromagnetic material is rotated further, when turning to that side of close channel side wall, by scraper plate its surface is cleaned, making adsorbed ferromagnetic material above it be scraped to move on to does not have on the non-magnetic conductive media cylinder on permanent magnet that part of, at this moment, owing to lost the magnetic attraction of permanent magnet, ferromagnetic material is under the effect of deadweight, drop on the ferromagnetic material dump tank, like this, after the deironing of ceramic powder through the non-magnetic conductive media cylinder of being flowed through in the passage, become and meet the finished product that contains ferromagnetic material and come out from the following outlet of passage.
Here, for ceramic powder can be contacted with all non-magnetic conductive media cylinders fully, following passage wherein on one side non-magnetic conductive media cylinder close channel middle that part of vertical direction and above close channel middle that part of overlapping of non-magnetic conductive media cylinder of passage another side.Like this, through passage wherein on one side that part of ceramic powder of close channel middle of non-magnetic conductive media cylinder just can drop on close channel middle that part of of non-magnetic conductive media cylinder of passage another side.
For guarantee ceramic powder along in road middle part flow, at that part of upper and lower baffle plate that all is provided with of the close channel middle of non-magnetic conductive media cylinder.
The present invention compared with the prior art, owing to come the ceramic powder of flowing through is removed ferromagnetic material in that the non-magnetic conductive media cylinders that number cover has permanent magnet are set in the passage both sides, simultaneously, clean the surface of non-magnetic conductive media cylinder by scraper plate, therefore, have and bar magnet need not be moved apart passage, just can to the bar magnet surface carry out iron cleaning, equipment volume advantage less relatively, good iron removal effect.
Description of drawings:
Fig. 1 is a structural representation of the present invention.
The specific embodiment:
Now in conjunction with the accompanying drawings and embodiments the present invention is described in further detail:
Vertical fluid deferrization method of the present invention is to realize like this, ceramic powder is imported above vertical passage, the both sides horizontally set number of passage overlaps non-magnetic conductive media cylinder, on the part cambered surface in the non-magnetic conductive media cylinder vertically permanent magnet is set, ceramic powder falls into the side by channel middle of the non-magnetic conductive media cylinder in the passage, when the part that has permanent magnet of the non-magnetic conductive media cylinder that rotates along the ceramic powder falling direction turns to a side by channel middle, ferromagnetic material in the ceramic powder that will pass through is drawn, and the side ceramic powder by channel middle that flows through non-magnetic conductive media cylinder falls into the side by channel middle of the non-magnetic conductive media cylinder of following another side, absorption on the non-magnetic conductive media cylinder part that has permanent magnet of ferromagnetic material when being rotated further the passage side, with scraper plate ferromagnetic material is scraped on the part that does not have permanent magnet on the non-magnetic conductive media cylinder, the ferromagnetic material that has lost the permanent magnet attraction is under the effect of deadweight, fall on the ferromagnetic material feeder of passage inboard, the side that the part that has permanent magnet of the non-magnetic conductive media cylinder after the cleaning is rotated further by channel middle continues the ceramic powder of process is carried out deironing, like this, the ceramic powder that has through channel middle after the deironing of non-magnetic conductive media cylinder of rotation of permanent magnet flows out at the middle part of outlet down from passage, becomes the finished product ceramic powder.The present invention can also handle other mineral powder except being used to handle the ceramic powder.
Vertical fluid deferrization device of the present invention is to realize like this, comprise fluid passage 1, be arranged on the non-magnetic conductive media cylinder 2 of number cover of passage 1 both sides, permanent magnet 3 is set on the part cambered surface in the non-magnetic conductive media cylinder 2 vertically, drives the actuating unit 4 that non-magnetic conductive media cylinder 2 rotates, be provided with ferromagnetic material dump tank 5 below that of the close passage 1 wall 1a of non-magnetic conductive media cylinder 2 half part, that side at the close passage 1 wall 1a of non-magnetic conductive media cylinder 2 is provided with scraper plate 6, the setting of staggering up and down mutually of the adjacent non-magnetic conductive media cylinder 2 in both sides.Below passage 1 wherein on one side non-magnetic conductive media cylinder 2 close passage 1 middle part 1b that part of 2b vertical direction and above that part of 2b of close passage 1 middle part 1b of non-magnetic conductive media cylinder 2 of passage 1 another side overlapping.The upper and lower baffle plate 7 that all is provided with at that part of 2b of the close passage 1 middle part 1b of non-magnetic conductive media cylinder 2.

Claims (3)

1. vertical fluid deferrization method, it is characterized in that ceramic powder is imported above vertical passage, the both sides horizontally set number of passage overlaps non-magnetic conductive media cylinder, on the part cambered surface in the described non-magnetic conductive media cylinder vertically permanent magnet is set, ceramic powder falls into the side by channel middle of the described non-magnetic conductive media cylinder in the passage, when the part that has permanent magnet of the described non-magnetic conductive media cylinder that rotates along the ceramic powder falling direction turns to a side by channel middle, ferromagnetic material in the ceramic powder that will pass through is drawn, and the ceramic powder that flows through a side of leaning on channel middle of non-magnetic conductive media cylinder falls into the side by channel middle of the non-magnetic conductive media cylinder of following another side, absorption on the non-magnetic conductive media cylinder part that has permanent magnet of ferromagnetic material when being rotated further the passage side, with scraper plate ferromagnetic material is scraped on the part that does not have permanent magnet on the non-magnetic conductive media cylinder, the ferromagnetic material that has lost the permanent magnet attraction is under the effect of deadweight, fall on the ferromagnetic material feeder of passage inboard, the side that the part that has permanent magnet of the non-magnetic conductive media cylinder after the cleaning is rotated further by channel middle continues the ceramic powder of process is carried out deironing, like this, the ceramic powder that has through channel middle after the deironing of non-magnetic conductive media cylinder of rotation of permanent magnet flows out at the middle part of outlet down from passage, becomes the finished product ceramic powder.
2. vertical fluid deferrization device, it is characterized in that comprising the fluid passage, be arranged on the non-magnetic conductive media cylinder of number cover of both sides, fluid passage, on the part cambered surface in the described non-magnetic conductive media cylinder vertically permanent magnet is set, drive the actuating unit that non-magnetic conductive media cylinder rotates, be provided with the ferromagnetic material dump tank below that of the close fluidic channel walls of non-magnetic conductive media cylinder half part, that side in the close fluidic channel walls of non-magnetic conductive media cylinder is provided with scraper plate, the setting of staggering up and down mutually of the adjacent non-magnetic conductive media cylinder in both sides, following fluid passage wherein on one side non-magnetic conductive media cylinder middle part, close fluid passage that part of vertical direction and above the close fluid passage of non-magnetic conductive media cylinder of fluid passage another side in the middle part of that part of overlapping.
3. vertical fluid deferrization device according to claim 2 is characterized in that part of upper and lower baffle plate that all is provided with at the middle part, close fluid passage of non-magnetic conductive media cylinder.
CN2008102330797A 2008-11-13 2008-11-13 Vertical fluid deferrization method and device Expired - Fee Related CN101402070B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2008102330797A CN101402070B (en) 2008-11-13 2008-11-13 Vertical fluid deferrization method and device

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Application Number Priority Date Filing Date Title
CN2008102330797A CN101402070B (en) 2008-11-13 2008-11-13 Vertical fluid deferrization method and device

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CN101402070A CN101402070A (en) 2009-04-08
CN101402070B true CN101402070B (en) 2010-08-11

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101954311B (en) * 2009-07-16 2011-12-21 吴跃进 Iron ore dry powder magnetic separation technology and equipment
CN103041914B (en) * 2012-12-14 2015-07-15 深圳市宇阳科技发展有限公司 Apparatus and method for removing metal in metal-containing ceramic slurry
CN107930848A (en) * 2017-11-20 2018-04-20 嘉兴市博宏新型建材有限公司 A kind of coal dust cartridge
CN112138867B (en) * 2020-09-14 2023-05-23 山东祎禾新材料有限公司 High-precision magnetic separator with automatic speed regulation function

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