KR20220127677A - iron removal apparatus in solution - Google Patents

Abstract

An apparatus for removing iron in water according to the present invention comprises: a separation tank into and from which water flows and which maintains a constant water level; a rotating shaft installed so as to cross the inside of the separation tank; circular plate-shaped magnetic disks coupled to the rotational shaft at regular intervals to be installed so as to be submerged in water or partially exposed and having magnetism; a driving unit for rotating the rotating shaft; a scraping unit including a scraper and a swing unit, wherein the scraper is supported by a support shaft supported in the separation tank to be installed in a space between the magnetic disks, partially moves in the scraping area of the magnetic disks to move the iron scraped from the surfaces of the magnetic disks to the edges of the magnetic disks and is capable of supporting the iron and the swing unit rotates the scrapper within the scraping area of the magnetic disks; and an iron collection unit collecting the iron moved to the edges of the magnetic disks by the scraper. The collection rate of the iron can be enhanced.

Description

Iron removal apparatus in solution

The present invention relates to a device for removing iron from water, and more particularly, to recovering iron mixed in various types of water used in ironworks, industrial complexes, etc. by using magnetic force, and to easily remove the recovered iron from water. It relates to the iron removal device of the.

In general, various equipment such as various steel systems, power generation systems, heat exchange systems, boilers, etc. of plant complexes such as steel mills and power plants, various equipment such as heat exchangers, and facilities and piping lines such as condenser collection wells Water, such as working water and cooling water, is supplied/discharged or circulated for the purpose of cooling to prevent overheating during operation.

When such various devices, facilities, and piping lines are made of steel structures, magnetic foreign substances such as iron oxide particles are generated due to corrosion of the steel structures during the circulation of working water or cooling water and are included in the water.

In particular, in the case of an ironworks, the water of the water collection system for dust collection contains a large amount of various kinds of oxide particles mainly composed of collected iron oxide and iron components in addition to the above corrosion products. Such corrosion products and iron foreign substances including the collected oxides accumulate inside various devices, facilities, and piping lines when left alone to form scales and promote erosion or corrosion of devices, facilities and piping lines. and shortening the lifespan of the piping line. In addition, it is necessary to separate and remove iron foreign substances from the water because it reduces the operating efficiency of equipment and facilities by inhibiting the circulation of water used as working water, cooling water, and water collecting water.

Korean Patent Registration No. 10-1223321 discloses a disk-type magnetic filter for iron making facilities, and Korean Patent Publication No. 2012-0020898 discloses an apparatus and method for removing particulate iron contained in water.

The published iron removal device includes a cylindrical canister mounted with a porous matrix of a magnetizable material and fixed at a certain height, a permanent magnet assembly disposed around the canister and fixed to a hydraulic cylinder to allow linear movement, the canister is charged and magnetized It consists of a porous matrix made of a possible material, a pipe for supplying iron-containing water, and a pipe and valve for discharging treated water.

In the conventional particulate iron removal device as described above, the permanent magnet assembly is disposed around the caser, and the surface area in contact with water is not large, so it is difficult to maximize the iron removal effect.

And a device for removing iron in water that the inventor applied for and registered is published in Korean Patent Registration No. 10-1-973756. The present inventor improved this iron removal device and came to apply for it.

Republic of Korea Patent Registration No. 10-1223321 Republic of Korea Patent Publication No. 2012-0020898 Republic of Korea Patent Registration No. 10-1-973756 Republic of Korea Patent Registration No. 10-1607860

The present invention is to solve the above-described problems, and recovers iron particles attached to a magnetic disk by rotating a scrapper, and recovers and removes the iron particles recovered in the scraper to improve the recovery rate of iron in water. It is in removing the iron removal device of

Another object of the present invention is to prevent the scraper from being separated from the magnetic disk when removing the iron from the water, so that the iron recovered by the scraper and the iron attached to the outer peripheral surface of the magnetic disk can be recovered, and the scrapper and An object of the present invention is to provide an iron removal device in water capable of improving the adhesion of the disk.

The iron removal device in water of the present invention for achieving the above object includes a separation tank for maintaining a constant water level through which water flows in and out;

a rotating shaft installed to cross the inside of the separation tank;

Disc-shaped magnetic disks coupled to the rotating shaft at regular intervals to be submerged in water or partially exposed and having magnetism; a driving unit for rotating the rotating shaft;

It is supported by the support shaft supported by the separation tank and installed in the space between the magnetic disks, and a part of the scraper is moved in the scraping area of the magnetic disk to remove the scraped iron from the surface of the magnetic disks at the edge of the magnetic disk. A scrapper unit for moving and supporting the

a swing unit for rotating the scraper within the scraping area of the magnetic disk;

It is characterized in that provided with an iron recovery unit for recovering the iron moved to the edge of the magnetic disk by the scraper.

In the present invention, the scrapper is supported by a support shaft and extends between magnetic disks, and includes a scrapper body for scraping iron particles attached to the scraping area. The scrapper body further includes an elastic scraping member for increasing adhesion to the surface of the magnetic disk to move the iron particles to the edge of the magnetic disk.

The iron recovery unit is installed adjacent to the scrapper supporting the iron particles moved to the edge of the magnetic disk and rotates, and the iron recovery roller having magnetic force is recovered from the scrapper and the magnetic disk and is attached to the outer peripheral surface of the iron recovery roller. A scraping chute for moving iron from the iron recovery roller to the iron recovery container is provided so that one side is in close contact with the outer circumferential surface of the iron recovery roller so as to recover the iron powder.

The iron recovery unit is installed adjacent to a scrapper supporting the iron particles that are moved to the edge of the magnetic disk to collect the iron particles and includes an iron iron transport conveyor that moves them to the collection container. The iron conveying conveyor includes a head roller having a magnetic force and a tail roller having no magnetic force installed on both sides of the frame, a belt caught between the head roller and the tail roller, and installed in the frame to rotate one of the head roller and the tail roller and a belt drive unit for

The iron removal device in water of the present invention moves the iron particles attached to the magnetic disks in the water to the edge of the magnetic disks using scrapers, and then recovers the iron particles while supported by the scrapers. As the fur leaves the scraping area of the magnetic disk, it is possible to prevent the iron from moving from the scraper to the magnetic disks. In addition, the present invention can remove the foam from the water to remove the iron.

1 is a perspective view showing a device for removing iron in water according to the present invention;
Figure 2 is an elevational cross-sectional view of the iron removal device in the water shown in Figure 1,
Figure 3 is a cross-sectional view of the iron removal device in the water shown in Figure 1,
4 is a cross-sectional view showing an iron removal device in water according to the present invention;
Figure 5 is a perspective view showing an extract of the scrapper unit of the iron removal device in water according to the present invention;
6 is a cross-sectional view of a scrapper of the scrapper unit shown in FIG. 1;
Figure 7 is a perspective view showing the iron recovery unit shown in Figure 1,
8 is a perspective view showing another embodiment of the iron recovery unit of the iron removal device in water according to the present invention;
9 is a side view of the iron removal device in water installed with the iron recovery unit shown in FIG. 8;
10 is a perspective view showing another embodiment of the iron recovery unit of the iron removal device in water according to the present invention;
11 is a perspective view showing another embodiment of the iron recovery unit of the iron removal device in water according to the present invention;
12 is a cross-sectional view showing another embodiment of the iron removal device in water according to the present invention;
13 is a partially cut-away perspective view showing the mounting state of the vortex generating disk shown in FIG. 12;

The apparatus for removing iron in water according to the present invention is capable of recovering iron contained in iron-making water and water used in industrial sites, and one example thereof is shown in FIGS. 1 to 4 .

Referring to the drawings, the iron removal device 1 in water according to the present invention includes a separation tank 10 in which mixed water flows in and out and maintains a constant water level, and a separation tank 10 to cross the inside of the separation tank 10 . Rotating the rotation shaft 30 to be installed, and the disk-shaped magnetic disks 40 having magnetism, which are coupled to the rotation shaft 30 at regular intervals and installed so as to be submerged in water or partially exposed, and the rotation shaft 30 and a driving unit 50 for

And it is supported by the support shaft 61 installed in the separation tank 10 and installed in the space between the magnetic disks 40, and a part of the magnetic disk 40 moves in the scraping area 45 of the magnetic disk 40. Scrappers 60 to move and support the iron scrapped from the surface of the magnetic disks 40 to the edge of the magnetic disks 40, and the scrappers 60 to the magnetic disks. A scrapping unit (80) including a swing unit (70) for rotating in a scraping area is provided, and the scrapers (50) of the scraping unit (80) move the magnetic disk (40) to the edge. An iron recovery unit 90 for recovering the moved iron 200 is provided.

The iron removal device 1 in the water according to the present invention configured as described above will be described in more detail for each component as follows.

The separation tank 10 of the iron removal device 1 in the water according to the present invention has a water chamber 11 so that the water flows in and stays for a certain period of time and then flows out. The water introduced into the separation tank 10 can maintain a constant water level. For example, a water level at which the magnetic disks 40 are completely submerged or a level at which only a portion of the upper side of the magnetic disk 40 is exposed and the remaining portion may be maintained at a level at which the magnetic disks 40 are completely submerged.

The separation tank 10 is configured such that water flows from the front to the rear, or the water flows from the bottom to the top. In the illustrated example, the water is configured to flow from the lower side of the separation tank 10 to the upper side.

For example, the separation tank 10 includes a water chamber 11 in which the magnetic disks 40 are accommodated, an inlet chamber 12 installed in the lower portion of the water chamber 11 and into which water is introduced, and an inlet chamber 12 . ) and a water inlet pipe 13 through which water flows in, and an overflow chamber 15 formed on the left and right or front and back sides of the water chamber 11 and into which water overflows the upper end of the water chamber 11 and flows into the inside. ) and a water outlet pipe 16 connected to the overflow chamber 15 to discharge water to the outside.

The water chamber 11 is located in the center of the separation tank 10 . The water chamber 11 is formed by an overflow wall 17 inside the separation tank 10 . The overflow wall 17 is installed to be spaced apart from the outer wall 18 of the separation tank 10 by a predetermined distance, and has an open top so as to be spaced apart from the outer peripheral surface of the magnetic disks 40 supported by the rotation shaft 30 by a predetermined distance. It may be formed in a cylindrical shape. The outer wall 18 of the separation tank 10 is formed relatively higher than the overflow wall 17 .

On the other hand, the iron removal device 10 has a bubble recovery unit 19 for discharging the bubbles overflowing the water chamber 11 and the overflow chamber 15 on the outside of the outer wall 18 as shown in FIG. 4 . can be provided. The height of the outer wall (19a) of the bubble recovery part (19) is formed higher than the height of the wall (17).

A rotation shaft 30 crossing the water chamber 11 is installed in the water chamber 11 of the separation tank 10, and magnetic disks 40 having a predetermined diameter are provided on the rotation shaft 30 at a predetermined interval. installed to maintain The magnetic disk 40 is made of a magnetic body having magnetic force so that the iron mixed in the water can be magnetically attracted and attached to the surface while rotating slowly in the water by the driving unit 50, or a permanent magnet is installed therein to generate magnetism. have

The height of the flow wall 17 of the water chamber 11 is higher than the upper end of the magnetic disk 40 , the same height as the upper end of the magnetic disk 40 , or lower than the upper end of the magnetic disk 40 . can be formed. However, preferably, the upper end side of the magnetic disk 40 is exposed from the treated water so that the scraper 60 can be exposed from the water surface when the scraper 60 moves to the edge of the magnetic disk.

In the illustrated example, the water chamber 11 is formed slightly lower than the upper end of the magnetic disk 40 , and the overflow wall 17 is formed so that the scrapers 60 can be rotated within the scraping area 45 . It has an open configuration so as to be exposed to the upper side of the magnetic disk (40).

The overflow chamber 15 is formed on the left and right or front and rear both sides of the water chamber 11 . In the illustrated example, the overflow chamber 15 is formed on both front and rear sides of the water chamber 11 . The overflow chamber 15 and the water chamber 11 are partitioned by the overflow wall 17 .

The water flowing into the water chamber 11 moves while forming an upward flow, passes the overflow wall 17 and flows into the overflow chamber 15, and then flows through the water outlet pipe 16 formed on the lower side of the overflow chamber 15. It has a structure that is discharged through

The driving unit 50 is capable of rotating the rotation shaft 30 rotatably installed in the separation tank 10 at a predetermined number of rotations, and includes a motor 51 installed on the outer wall 18 and a motor 51 . It consists of a drive pulley 53 installed on the drive shaft of , a driven pulley 55 coupled to one end of the rotating shaft 30 , and a belt 57 connecting the drive pulley 53 and the driven pulley 55 . The driving unit is not limited by the above-described embodiment, and any structure capable of driving the rotating shaft at a predetermined number of revolutions is possible. 1 and 2 , the driving unit 50 may be installed in a separate chamber in consideration of interference with water in the water chamber 11 .

The scraper 60 of the scraping unit 80 is rotatably installed on the support shaft 61 installed on the upper side of the separation tank 10, respectively, as shown in FIGS. 3 to 5, and the magnetic It is located between the disks 40 and includes a scraper body 62 for scraping iron particles attached to the scraping area 45a of the magnetic disks 40 . An elastic scraping member 65 is further provided in the scraper body 62 to increase adhesion with the surface of the magnetic disk 40 to move the iron particles to the edge of the magnetic disk 40 .

The elastic scraping member 65 installed on the scrapper body 62 may be installed on the upper surface of the scraper body 62 as shown in FIG. 5 . The elastic scraping member 65 fixed to the upper surface of the scrapper body 62 has a relatively wider width than the width of the scrapper body 62, and an elastic material such as silicone, rubber material, soft synthetic resin, synthetic rubber, etc. can be made of

In addition, as shown in FIG. 6 , the elastic scraping unit members 66 are drawn in and out of the elastic scraping unit members 66 installed on the scrapper body 62 on both sides of the scrapper body 62 . Possibly installed, and an elastic member 67 is installed between them, so that the elastic scraping unit member 66 is elastically biased outwardly, that is, elastically biased toward the surface of the magnetic disk 40 . The elastic member 67 may be made of a spring, compressed air, an elastic rubber, a crushed pressurizing member, and the like, but is not limited thereto.

In addition, the swing unit 70 constituting the scraping unit 80 may rotate the scraper body 62 within the scraping area to move the scraped iron to the edge of the magnetic disk 40 . As such, a swing lever 71 extending outwardly of the magnetic disk 40 from the support shaft 61 on which each scraper body 62 is installed is provided, and the swing lever 71 is rotated. An actuator (75) for actuating is provided. The actuator 75 may be formed of a pneumatic or hydraulic cylinder.

As described above, the swing unit 70 swings the scraper 60 in the vertical direction to move the scraper 60 in and out of the water. A motor for reciprocating the scraper 60 may be provided by rotating the support shaft 61 coupled to the shaft 61 forward and reverse rotation.

The swing part 70 is not limited by the above-described embodiments, and has a structure capable of rotating the support shaft 61 at a predetermined angle while the scraper 60 is supported on the support shaft 61 . it is possible if

As shown in FIGS. 1 to 3 and 7, the iron recovery unit 90 is a scrapping area 45 of the magnetic disk 40 by the scrapper body 62 of the scrapper unit 80. Iron which is scraped from the magnetic disk 40 and does not deviate from the edge of the magnetic disk 40 is recovered.

The iron recovery unit 90 includes an iron recovery roller 91 installed adjacent to the magnetic disk 40 and the scraper body 62 . The iron recovery roller 91 may have a permanent magnet installed therein to have a magnetic force or may be made of a magnetic material. However, the present invention is not limited thereto, and an electromagnet may be installed inside the iron recovery roller 91. In this case, a rotor for supplying power to the electromagnet may be installed on the rotating shaft of the iron recovery roller 91. The iron recovery roller 91 may be provided with a separate iron recovery roller driving part 92 for rotating the driving shaft.

And a scraping chute 95 for moving the iron powder attached to the iron iron recovery roller 91 rotating at a predetermined rotational speed by the iron iron recovery roller driving unit 92 to the iron iron recovery container 93 is installed. The scraping chute 95 may be supported by a bracket installed in the separation tank 10, and one side of the iron recovery roller 91 can recover the iron iron attached to the outer peripheral surface of the iron recovery roller 91. is in close contact with the outer peripheral surface of the, the other side of the scrapping chute 95 is located on the upper side of the iron recovery container (93). A protruding jaw may be formed on the edge of the scraping chute 95 in the longitudinal direction so that the recovered iron is not separated.

8 and 9 show another embodiment of the iron recovery unit 100.

Referring to the drawings, the iron recovery unit 100 is installed adjacent to the scrapper 60 supporting the iron moving to the edge of the magnetic disk to recover the iron and also to move the iron to the iron recovery container 93 . A transfer conveyor 110 is provided.

The iron conveying conveyor 110 includes a head roller 113 having a magnetic force and a tail roller 114 having no magnetic force installed on both sides of the frame 112, and the head roller 113 and the tail roller 114. It is provided with a hanging belt (115).

A belt driving part 116 installed on the frame 112 to rotate one of a head roller 113 and a tail roller 114 is provided. It is preferable that the strength of the magnetic force of the head roller 113 be relatively strong of the iron recovery roller 61 . In addition, a separation scraper 96 for recovering the iron powder transported by the belt 115 is installed on the iron recovery container 93 side, and the separation scraper 96 is plate-shaped to increase adhesion with the belt 115 It may be made of an elastic member of Meanwhile, as shown in FIG. 10 , an iron recovery roller 91 driven by a driving unit 91a may be installed between the scrapper 60 and the head roller 113 of the iron powder transport conveyor 110 .

11 shows another embodiment of the iron recovery unit 120.

In this embodiment, the same components as in the above embodiment refer to the same reference numerals.

Referring to the drawings, the iron recovery unit 120 is scraped from the magnetic disk 40 rotatably installed in the separation tank 10 to the scrapper body parts 62 to the edge of the magnetic disk 40 . In order to recover the moved iron, it includes an iron recovery roller 91 installed on the upper part of the separation tank 10. The iron recovery roller 91 is a subframe mounted on the separation tank 10 or the separation tank ( 121) is driven by the iron recovery roller driving unit 95 fixed to.

And a recovery scraper 122 for scraping the iron particles attached to the outer circumferential surface of the iron recovery roller 91 is installed in the subframe 121 supporting the iron recovery roller 91 . An iron transfer unit 125 for moving the iron recovered by the recovery scraper 122 to the iron recovery container 200 is installed in the subframe 121 .

At least one guide rod 126 is installed in the subframe 121 in parallel with the iron recovery roller 91, and the guide rod 126 has a conveying member moving along it. 127 is installed, the transfer member 127 is screwed with a lead screw 128 for moving it along the guide rod 126 , and the lead screw is rotated forward and reverse by a driving motor 129 . The iron conveying member 130 for conveying the iron recovered by the recovery scraper 122 to the iron recovery container 200 is installed in the conveying member 127 . The lower surface of the iron carrying member 130 may be formed in a curved surface corresponding to the curved surface of the iron recovery roller 91 and the shape of the contact portion of the recovery scraper 122 in contact therewith.

The iron carrying member 130 may be made of a magnetic material or a strong permanent magnet or electromagnet may be installed inside the iron carrying member 130 . A separation scraper 140 for separating the iron iron transported by the iron carrying member 130 may be installed in the iron recovery container 200 .

On the other hand, as shown in FIG. 11, the iron recovery roller 91 installed on the upper part of the separation tank 10 and the iron iron recovery roller driving part 95 for driving the iron recovery roller 91 are not installed, The iron iron separated from the scrapper 60 may be directly recovered by the recovery scraper 122 by bringing the recovery scraper 122 into close contact with the outer circumferential surface of the magnetic disk 40 .

On the other hand, as shown in FIGS. 12 and 13 , between the magnetic disks 40 installed in the separation tank 10 , the spacing adjustment disk 150 is supported by a bracket installed in the separation tank 10 . is further provided. The gap adjusting disk 150 is formed in a disk shape in which a side corresponding to the scraping area is removed, and the distance between the magnetic disk 40 is adjusted.

A gap adjusting disk 150 is installed between the magnetic disk 40 sides on both sides so that it can be adjusted more narrowly if necessary.

The spacing adjusting disk 150 is preferably installed in a lower section that does not interfere with the rotation of the scraper 60 . In addition, vortex generating protrusions 151 protruding toward the magnetic disk 40 are formed on the surface of the spacing adjusting disk 150 (see FIG. 11).

In the apparatus 1 for removing iron in water according to the present invention configured as described above, the iron-containing water introduced into the inlet chamber 12 through the inlet pipe 13 is discharged from the inlet chamber 12 into the water chamber. It flows in from the lower surface of (11), passes between the magnetic disks 40, overflows the flow wall 15, flows into the flow chamber 15, and then is discharged through the water outlet pipe 16.

In this process, the rotating shaft 30 on which the magnetic disks 40 are installed at predetermined intervals is rotated by the driving unit 50 . Iron contained in the water is attached to the surface of the magnetic disk 40 that rotates like the rotating shaft 30 . In particular, since the vortex generating disk 150 having the vortex generating protrusions 150 is installed between the magnetic disks 40, the water flowing into the water chamber 11 through the inlet chamber 12 is the magnetic disk ( 40), a vortex (turbulent flow) is generated on the surface side so that the iron contained in the water can be easily attached to the magnetic disk 40 .

In this process, as the support shaft 61 is rotated by the swing part 80 , the scrapper body parts 62 installed on the support shaft 61 are rotated to rotate the iron iron attached to the surface of the magnetic disk 40 . is scraped and moved to the edge of the magnetic disk 40 . In this process, the iron scraped by the scraping body 62 is moved to the edge along the surface of the magnetic disk 40 and also to the upper surface of the scraping body 62 .

At this time, the scraping body 62 maintains a state not separated from the edge of the magnetic disk 40 .

In this way, the iron particles moved to the edge of the magnetic disk and the upper surface of the scraping body 62 are recovered by the iron recovery unit 90 and moved to the iron recovery container 93 .

1, 3 and 7, the iron moved to the edge of the magnetic disk 40 is attached to the outer peripheral surface of the iron recovery roller 91 by the magnetic force of the iron recovery drum 61, and the attached The iron is recovered by the scrapping chute 95 of which one side is in close contact with the outer circumferential surface of the iron recovery roller 91 and is moved to the iron recovery container 93 .

And the iron powder attached by the iron recovery roller 91 of the iron recovery unit shown in FIG. 8 is attached to the surface of the belt 115 by the magnetic force of the head roller 113, and the attached iron powder is the tail roller 114. It is moved to the side of the iron recovery container 93 is recovered.

On the other hand, as shown in Figs. 9 and 10, the iron particles attached to the iron recovery roller 91 or the magnetic disk 40 are scraped by the recovery scraper 122, and by the driving unit along the guide rod 126. It is attached to the iron iron carrying member 130 mounted on the moving transfer member 127 by the rotating lead screw 128 and moved to the iron iron collecting container 93 . The iron particles attached to the iron transport member 130 moved to the iron recovery container 93 are separated by the separation scraper 140 .

As described above, the apparatus for removing iron in water according to the present invention attaches iron contained in water to a magnetic disk, scrapes the surface thereof, moves it to the edge of the magnetic disk, and then moves it by magnetic force with an iron recovery roller. , it is possible to increase the iron recovery rate by recovering the iron attached to the iron recovery roller.

Although the present invention has been described with reference to the embodiment shown in the drawings, which is only exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

Claims (7)

a separation tank in which water flows in and out and maintains a constant water level;
a rotating shaft installed to cross the inside of the separation tank;
Disc-shaped magnetic disks coupled to the rotating shaft at regular intervals to be submerged in water or partially exposed and having magnetism; a driving unit for rotating the rotating shaft;
It is supported by the support shaft supported by the separation tank and installed in the space between the magnetic disks, and a part of the scraper is moved in the scraping area of the magnetic disk to remove the scraped iron from the surface of the magnetic disk. A scrapping unit comprising scrappers that move to the edge and support them, and a swing unit that rotates the scrapers within a scraping area of the magnetic disk;
and an iron recovery unit for recovering the iron particles moved to the edge of the magnetic disk by the scraper. The method of claim 1,
The scrapper is supported by a support shaft and extends between magnetic disks, and is installed in a scraper body for scraping iron particles attached to the scraping area, and the scraper body to increase adhesion with the surface of the magnetic disk to increase the iron content. An apparatus for removing iron from water, characterized in that it has an elastic scraping member for moving it to the edge of the magnetic disk. The method of claim 1
The iron recovery unit is installed adjacent to the scrappers supporting the iron particles that are moved to the edge of the magnetic disk and rotated, and the iron recovery roller having magnetic force, and the iron recovery roller recovered from the scrappers and the magnetic disk. Iron removal device in water, characterized in that one side is in close contact with the outer circumferential surface of the iron recovery roller so as to recover the iron iron adhering to the outer circumferential surface, and a scraping chute is provided to move the iron powder from the iron recovery roller to the iron recovery container. The method of claim 1,
The iron recovery unit includes an iron recovery roller that is rotated by an iron recovery roller driving part to recover iron iron adjacent to scrappers supporting the iron particles that are moved to the edge of the magnetic disk, and is installed on the iron recovery roller and on its outer circumferential surface. An iron conveying conveyor is provided for moving the attached iron to the iron recovery container, wherein the iron conveying conveyor includes a head roller with magnetic force and a tail roller without magnetic force installed on both sides of the frame, and the head roller and the tail roller A device for removing iron from water, characterized in that it includes a belt and a belt driving part installed on the frame to rotate one of a head roller and a tail roller. The method of claim 1,
The iron recovery unit is installed adjacent to the scrappers supporting the iron particles that are moved to the edge of the magnetic disk and rotated. An iron recovery roller having a magnetic force, and an iron recovery roller in a subframe supporting the iron recovery roller A recovery scraper for scraping iron attached to the outer peripheral surface is installed,
An iron powder conveying unit for moving the iron collected by the recovery scraper to the iron collecting bin is installed in the subframe. and a transfer member moving along the guide rod is installed, the transfer member is screwed with a lead screw for moving along the guide rod, the lead screw is rotated forward and reverse by a driving motor, and the transfer member has the recovery Iron removal device in water, characterized in that the iron transport member for transporting the iron recovered by the scrapper to the iron recovery bin is installed. 6. The method of claim 5,
The iron removal device in water, characterized in that the separation scraper for separating the iron powder carried by the iron powder carrying member is installed in the iron recovery container of the iron powder carrying member. The method of claim 1,
The iron recovery unit is installed and rotated adjacent to scrappers supporting the iron particles that are moved to the edge of the magnetic disk, and a recovery scraper for scraping iron particles from the magnetic disk and the scrapper to the subframe is installed,
An iron powder conveying unit for moving the iron collected by the recovery scraper to the iron recovery container is installed in the subframe, and at least one guide rod is installed in the subframe in parallel with the recovery scraper, , a transfer member moving along the guide rod is installed, the transfer member is screwed with a lead screw moving along the guide rod, the lead screw is rotated forward and reverse by a driving motor, and the recovery scrap is provided on the transfer member Iron removal device in water, characterized in that the iron carrying member for transporting the iron recovered by the fur to the iron recovery bin is installed.

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