CN201291156Y - Fluid deferrization device - Google Patents

Abstract

The utility model relates to a fluid de-ironing device, which is characterized in that the fluid de-ironing device comprises a stander, a conveying platform that is obliquely arranged on the stander, a plurality of rolling non-magnetic conduction medium rollers that are arranged on the conveying platform, a power transmission device that drives the non-magnetic conduction medium rollers to rotate and a scraping plate that is arranged below the non-magnetic conduction medium rollers, wherein, a permanent-magnetic body is arranged on partial arc surface inside the non-magnetic conduction medium rollers in the axial direction, and a conveying panel is arranged between every two non-magnetic conduction medium rollers, and the conveying panel is lower than the highest point of two adjacent non-magnetic conduction medium rollers. Compared with the prior art, the fluid de-ironing device has the advantages that the iron on the surface of the magnetic rod can be removed without moving the magnetic rod out of the passage, and the volume of the device is relatively small, and the de-ironing effect is good.

Description

A kind of fluid deferrization device

Technical field:

The utility model relates to a kind of magnetic selection 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 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 utility model 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 device less relatively, good iron removal effect.

Fluid deferrization device of the present utility model is to realize like this, the non-magnetic conductive media cylinder that comprises frame, is arranged on the transport platform that is obliquely installed on the frame, rolls along the number cover of runout table setting, drive actuating unit that non-magnetic conductive media cylinder rotates, be positioned at the scraper plate below the non-magnetic conductive media cylinder, on the part cambered surface in the non-magnetic conductive media cylinder vertically permanent magnet is set, between non-magnetic conductive media cylinder transportation panel is set, transportation panel is lower than the highest point of the non-magnetic conductive media cylinder that is adjacent.During work, ceramic powder imported to the high-end of the transport platform that is obliquely installed, under the drive of the soft magnetic medium cylinder of gravity and rolling, ceramic powder is by the high-end low side that moves to of transport platform, through non-magnetic conductive media cylinder the time, as the non-magnetic conductive media drum segment that has permanent magnet be positioned at transportation panel above, ferromagnetic material in the ceramic powder under the effect of permanent magnet, be attracted to non-magnetic conductive media cylinder surface and with non-magnetic conductive media rollers roll below transport platform, under the effect of scraper plate, be adsorbed on ferromagnetic material above the non-magnetic conductive media cylinder and scraped on the non-magnetic conductive media cylinder that does not have permanent magnet and under the deadweight effect, fall down.Like this, after the deironing of ceramic powder through several the non-magnetic conductive media cylinders on the transport platform, become and contain that ferromagnetic matter-pole is few, satisfactory finished product ceramic powder.

The utility model compared with the prior art, because the inside of having adopted the number cover in the transport platform upper edge runout table setting that is obliquely installed to roll are provided with the non-magnetic conductive media cylinder of permanent magnet and remove ferromagnetic material in the ceramic powder of process, and, below non-magnetic conductive media cylinder, cleaning device is set, make ceramic powder remove ferromagnetic material and non-magnetic conductive media cylinder can carry out simultaneously, 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 utility model.

The specific embodiment:

Now in conjunction with the accompanying drawings and embodiments the utility model is described in further detail:

Fluid deferrization device of the present utility model is to realize like this, comprise frame 1, be arranged on the transport platform that is obliquely installed 2 on the frame 1, counting of table top setting along transport platform 2 overlapped the non-magnetic conductive media cylinder 4 that rolls, drive the actuating unit 5 that non-magnetic conductive media cylinder 4 rotates, be positioned at the scraper plate 6 below the non-magnetic conductive media cylinder 5, on the part cambered surface in the non-magnetic conductive media cylinder 4 vertically permanent magnet 7 is set, on 4 on non-magnetic conductive media cylinder transportation panel 8 is set, transportation panel 8 is lower than the highest point of the non-magnetic conductive media cylinder 4 that is adjacent, below transport platform 2 low side 2a, finished product feeder 9 is set, below non-magnetic conductive media cylinder 4, ferromagnetic material feeder 10 is set.The cambered surface that is positioned at the non-magnetic conductive media cylinder 4 above the transportation panel 8 is between 120 °-180 °.The cambered surface radian that is provided with permanent magnet 7 in non-magnetic conductive media cylinder 4 is 180 °-270 °.In order to guarantee that ceramic powder can be smoothly toward current downflow, the gradient a of transport platform 2 is 30 °-60 °.

In order to guarantee that ceramic powder is not easy down to leak from the gap of 8 of non-magnetic conductive media cylinder 4 and transportation panels, the low side 8a of transportation panel 8 leans against on the non-magnetic conductive media cylinder 4, and the high-end 8b of transportation panel 8 and 4 on non-magnetic conductive media cylinder are provided with the gap 11 that the ferromagnetic material that can allow in the ceramic powder passes through.During work, under the drive of non-magnetic conductive media cylinder 4 rotational powers, ceramic powder can be thrown on the transportation panel 8, and is adsorbed on that ferromagnetic material on the non-magnetic conductive media cylinder 4 rotates with non-magnetic conductive media cylinder 4 and the gap 11 of 4 on the high-end 8b by transportation panel 8 and non-magnetic conductive media cylinder is scraped by scraper plate 6 below transportation panel and fallen.Low side 8a and 4 on non-magnetic conductive media cylinder at transportation panel 8 are provided with sealing gasket 12, get off from low side 8a and 4 leakages of non-magnetic conductive media cylinder of transportation panel 8 to prevent ceramic powder.The relative transport platform 2 of the low side 8a of transportation panel 8 is toward having a down dip, so that collect ceramic powder.

Claims (7)

1, a kind of fluid deferrization device, the non-magnetic conductive media cylinder that it is characterized in that comprising frame, is arranged on the transport platform that is obliquely installed on the frame, rolls along the number cover of runout table setting, drive actuating unit that non-magnetic conductive media cylinder rotates, be positioned at the scraper plate below the non-magnetic conductive media cylinder, on the part cambered surface in the non-magnetic conductive media cylinder vertically permanent magnet is set, between non-magnetic conductive media cylinder transportation panel is set, transportation panel is lower than the highest point of the non-magnetic conductive media cylinder that is adjacent.

2, fluid deferrization device according to claim 1, the cambered surface that it is characterized in that being positioned at the non-magnetic conductive media cylinder above the transportation panel is between 120 °-180 °.

3, fluid deferrization device according to claim 1 and 2 is characterized in that the cambered surface radian that is provided with permanent magnet in non-magnetic conductive media cylinder is 180 °-270 °.

4, fluid deferrization device according to claim 3, the gradient that it is characterized in that transport platform are 30 °-60 °.

5, according to claim 1 or 2 or 4 described fluid deferrization devices, the low side that it is characterized in that transportation panel leans against on the non-magnetic conductive media cylinder, is provided with the gap that the ferromagnetic material that can allow in the ceramic powder passes through between the high-end and non-magnetic conductive media cylinder of transportation panel.

6, fluid deferrization device according to claim 5 is characterized in that being provided with sealing gasket between the low side of transportation panel and non-magnetic conductive media cylinder.

7, fluid deferrization device according to claim 6, the relative transport platform of low side that it is characterized in that transportation panel is toward having a down dip.

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