KR20150101654A - Device for collecting iron powder - Google Patents

Abstract

The present invention provides a device for collecting iron powder, in which a structure of a device for sorting and collecting iron powder included in waste water is simplified, and the iron powder can be stably transferred while being prevented from separation when being transferred, thereby improving an iron powder collecting rate. The device of the present invention comprises: a water tank (100) for collecting waste water including iron powder; a transferring unit (200); a slope plate (300) for guiding the iron powder transferred by the conveyor belt (230) and falling to one side of the second roller (220) to one side lower direction of the water tank (100); and a storage (400) for collecting iron powder slid and transferred along the slope plate (300). The transferring unit (200) includes: a first roller (210) disposed in a direct upper side of the surface of the waste water collected in the water tank (100), and made of a magnetic substance; a second roller (220) disposed to be separated in one side from an upper side of the first roller (210), made of a non-magnetic substance, and rotated by receiving driving power; and a conveyor belt (230) for transferring driving power of the second roller (220) to the first roller (210), having a bottom end passing through the waste water under the surface thereof, and upwardly moving iron powder dragged and adhered by magnetism of the first roller (210) towards the second roller (220).

Description

[0001] The present invention relates to a device for collecting iron powder,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an iron recovery device, and more particularly, to an iron recovery device for recovering and recycling iron contained in wastewater.

Generally, wastewater containing fine iron is generated in processes such as steelmaking, smelting and rolling processes using steel reinforcing bars and reinforcing bars, and slag containing iron is also generated in industrial fields handling waste materials and waste materials do.

In this way, iron contained in byproducts generated after the process in various industrial fields is a valuable resource that can be recovered and recycled. The conventional iron recovery apparatus for recovering such iron has a structure in which iron particles are attached to a magnetic body by using the magnetic force of the magnetic body, and then collected and collected to the collection site.

As a related art related to this, 'Heavy metal and valuable metal recovering apparatus using magnetic force' disclosed in Japanese Patent Application Laid-Open No. 10-2012-0116556 includes a drive roller which receives power from a drive motor and rotates, An electromagnet roller rotated so as to correspond to the rotation of the driving roller, an idler roller provided on a vertical line of the electromagnet roller to rotate corresponding to the rotation of the driving roller, and a belt connecting the driving roller, the electromagnet roller and the idler roller A magnet portion is provided between the electromagnet roller and the idle roller so as to be adjacent to the belt, and a magnetic metal recovery portion is provided at a lower side of the driving roller from which the magnetism of the electromagnet roller is removed.

The magnetic material is attached to the belt by the magnetic force of the magnet portion and the electromagnet roller while the raw material or the tail iron is freely dropped to one side of the magnet portion and the electromagnet roller and when the belt rotates to a position deviating from the region where the magnetic force of the electromagnet roller is applied, The magnetic material attached to the belt is separated from the belt as the magnetic force is removed, and the magnetic material falls to the magnetic metal recovery unit provided at the lower side of the belt and is collected.

However, according to this configuration, in order for the magnetic material to be transferred without detaching in the state that the magnetic material is attached to the belt, the magnetic substance must be provided over the entire section between the idler roller and the electromagnet roller, There are disadvantages.

In addition, since the magnetic material is transported while being attached to the belt depending on the magnetic force only, some of the magnetic materials attached may not be maintained during transfer and may be released. In order to maintain a stable attachment state, It is required to have a sufficiently strong magnetic body, which also increases the manufacturing cost of the apparatus.

In view of the problems of the prior art, there is a need to develop an iron recovery device capable of reducing the installation sites of magnetic bodies to a minimum amount and at the same time capable of stably transferring and recovering iron particles selected from foreign substances by magnetic force.

The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a method for selectively removing iron particles contained in wastewater by simplifying the structure of a device for selectively recovering iron particles, Which is capable of increasing the recovery rate of the iron recovery device.

In order to accomplish the above object, the present invention provides an iron recovery apparatus comprising: a water tank (100) for collecting wastewater containing iron powder; A first roller 210 positioned on the side of the water surface of the wastewater collected in the water tank 100 and made of a magnetic material, a first roller 210 spaced apart from the upper side of the first roller 210, A second roller 220 that is rotated to receive the first roller 210 and a second roller 220 that is rotated to transmit the driving force of the second roller 220 to the first roller 210, And a conveyor belt (230) for conveying the iron powder drawn and attached by the magnetic force of the first roller (210) toward the second roller (220) upwardly. A swash plate 300 which is conveyed by the conveyor belt 230 to guide the iron powder falling to one side of the second roller 220 to be conveyed downward one side of the water tub 100; And a reservoir (400) for collecting iron particles slidably transported on the swash plate (300).

The conveyor belt 230 includes a first belt 231 connecting the first roller 210 and the second roller 220 and a second belt 231 protruding outward from the opposite ends of the first belt 231 A space surrounded by the outer surface of the first belt 231 and the opposed inner surfaces of the second belts 232a and 232b formed on both sides of the first belt 231 and the second belt 232 232a and 232b, A plurality of partitions 240 spaced apart from each other along the longitudinal direction of the first belt 231 are provided to prevent the iron powder transferred upward from the conveyor belt 230.

The second belt 232 (232a, 232b) is formed in a corrugated shape so as to be smoothly rotated and expanded in the circumferential direction while being rotated while passing through the outer peripheral surfaces of the first roller 210 and the second roller 220 desirable.

One side of the water tub 100 may be connected to a bubble inflow pipe 102 through which bubbles supplied from the bubble generator are introduced so that iron contained in the wastewater in the water bath 100 floats toward the water surface.

The swash plate 300 has an upper end 301 disposed at a lower portion of one side of a position where the moving direction of the conveyor belt 230 is changed from upward to downward and the iron powder separated and dropped from the conveyor belt 230, Lt; / RTI >

The magnetic substance of the first roller 210 may be composed of a permanent magnet or an electromagnet.

According to the iron recovery device of the present invention, the iron powder contained in the wastewater is recovered by using the magnetic force of the magnetic material, and the first roller is made of only the magnetic material so that the installation position of the magnetic material is minimized and the structure of the device can be simplified . The durability of the magnetic body can be enhanced by disposing the first roller made of a magnetic body so as to be located above the water surface of the wastewater.

In addition, the second roller is made of a non-magnetic material, so that the iron powder conveyed upward by the conveyor belt can be separated from the conveyor belt when the conveyor belt is pivoted downward, and fall down onto the inclined plate to be collected smoothly in the reservoir.

A first belt connecting the first roller and the second roller to the conveyor belt, and a second belt protruding outward from both ends of the first belt, and a plurality of second belts spaced apart from each other in the longitudinal direction of the first belt By providing the partition, the iron powder transferred to the upper side by riding on the conveyor belt can be stably retained without being detached during the transfer, and the recovery rate of the iron powder can be increased.

Further, the iron powder contained in the wastewater inside the water tank is lifted by the bubbles supplied from the bubble generator and moved toward the first roller when circulating the conveyor belt, thereby further increasing the recovery rate of the iron powder.

Further, since the second belt is formed in a corrugated shape, the second belt is stretched and expanded in the circumferential direction while being rotated through the outer peripheral surfaces of the first roller and the second roller, so that the conveyor belt can be smoothly rotated, And the durability can be improved.

1 is a configuration diagram of an iron recovery apparatus according to the present invention;
FIG. 2 is a perspective view of a transfer unit provided in the iron recovery apparatus according to the present invention,
3 is an operational state diagram of the iron recovery apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, an iron recovery apparatus according to the present invention includes a water tank 100 for collecting wastewater containing iron powder 10, an iron powder 10 contained in the wastewater, A swash plate 300 for picking up and transferring the iron powder 10 that has been transported upward and then dropped on the transfer part 200 to be conveyed in a downward direction of the water tub 100, And a reservoir 400 for collecting the iron powder 10 slidably transported on the bed 300.

The water tank 100 is provided with a collecting space 101 in which waste water is stored and a bubble inflow pipe 102 through which a bubble B supplied from a bubble generator Connected is installed. A pipe (not shown) through which the wastewater flows and is discharged may be connected to one side of the water tub 100. The wastewater collected in the water tank 100 may contain iron powder, which is a magnetic metal, and other non-magnetic foreign substances.

The transfer unit 200 includes a first roller 210 positioned on the right side of the water surface of the wastewater collected in the water tank 100 and made of a magnetic material and a first roller 210 spaced apart from the upper side of the first roller 210 A second roller 220 made of a nonmagnetic material and a second roller 220 disposed below the first roller 210 to transmit the driving force of the second roller 220 to the lower surface of the wastewater, And a conveyor belt 230 for conveying the iron powder 10 drawn and attached by the magnetic force of the first roller 220 toward the second roller 220.

The first roller 210 and the second roller 220 are rotatably supported by a support structure (not shown), and one of the first roller 210 and the second roller 220 is supported by a support structure A motor (not shown) may be connected. In one embodiment, the first roller 210 is configured as an idle roller, and the motor may be configured to be coupled to the second roller 220. In this case, when the second roller 220 is rotated by driving of the motor, the rotational force of the second roller 220 causes the conveyor belt 230 to circulate and form a closed loop, and is connected to the conveyor belt 230 The first roller 210 is rotated in conjunction with the first roller 210 to support the conveyor belt 230 to be circulated.

The second roller 220 is disposed at a position spaced apart from the first roller 210 with respect to a virtual vertical line passing through the center of the first roller 210. Accordingly, the conveyor belt 230 is disposed at a predetermined angle inclination to one side with respect to the vertical line.

When the iron powder 10 contained in the wastewater in the water tub 100 is located in the region where the magnetic force of the first roller 210 acts, And is attached to the outer surface of the conveyor belt 230 which is drawn by the magnetic force of the first roller 210 and wound around the outer circumferential surface of the first roller 210. [

The magnetic substance of the first roller 210 may be composed of a permanent magnet or an electromagnet. When the first roller 210 is constituted by a permanent magnet, there is no need for a separate control device for applying magnetism, which is advantageous in that the structure of the apparatus can be simplified. In the case where the first roller 210 is constituted by an electromagnet There is an advantage that the intensity of the magnetic force can be adjusted by adjusting the applied current value. By disposing the first roller 210 made of a magnetic material so as to be positioned above the water surface of the wastewater, the magnetic force is prevented from being lowered by accumulating foreign substances on the magnetic material, as compared with the case where the magnetic material is disposed below the water surface, It is possible to increase the durability.

Since the second roller 220 is made of a non-magnetic material, the iron powder 10 is conveyed to the upper side of the water tub 100 by the conveyor belt 230, then passes through the second roller 220, The iron powder 10 is separated from the conveyor belt 230 and falls freely downward.

Referring to FIG. 2, the conveyor belt 230 is configured to stably transfer the iron powder 10 attached by the magnetic force of the first roller 210 to the upper side of the water tub 100, A first belt 231 connecting the first roller 210 and the second roller 220 and a second belt 232 232b extending outward from both ends of the first belt 231 by a predetermined length, The first belt 231 is spaced apart from the first belt 231 in the longitudinal direction of the first belt 231 by a space surrounded by the opposed inner surfaces of the outer surfaces of the first belt 231 and the second belts 232 A plurality of partitions 240 are provided.

The second belts 232 and 232a and 232b are formed in a corrugated shape so as to be smoothly rotated and expanded in the circumferential direction while being rotated while passing through the outer peripheral surfaces of the first roller 231 and the second rollers 232 and 232a and 232b And the material thereof may be composed of rubber or soft PVC. The second belt 232 (232a, 232b) is formed in a corrugated shape so that the conveyor belt 230 can be smoothly rotated, thereby preventing breakage and enhancing durability.

The lower end of the partition 240 is fixed to the outer surface of the first belt 231 and the opposite ends of the partition 240 are fixed to the opposed inner surfaces of the second belt 232 (232a, 232b). Therefore, the outer surface of the first belt 231, the opposing inner surface of the second belt 232 (232a, 232b), and the front surface of the partition 240 disposed adjacent to the front and rear, The space formed so that the iron powder 10 adhered to the outer surface of the first belt 231 by the magnetic force of the first roller 210 is stably supported without being released when the conveyor belt 230 moves Thereby forming a supporting structure that can be lifted to the upper side of the water tub 100.

The iron powder 10 contained in the wastewater in the water tank 100 during the circulation movement of the conveyor belt 230 is lifted by the bubble B supplied from the bubble generator and flowing through the bubble inlet pipe 102, So that the recovery rate of the iron powder can be further increased.

When the iron powder 10 floated in the water tub 100 is positioned in the region of the magnetic force of the first roller 231, the iron powder 10 drawn by the magnetic force of the first roller 231 and the first roller 231 To the first belt 231 passing through the outer peripheral surface of the first belt 231.

The iron powder 10 contained in the wastewater in the water tub 100 is continuously attached to the conveyor belt 230 and conveyed upward so that only the first roller 210 is rotated The iron powder 10 can be smoothly recovered.

The swash plate 300 has an upper end 231 disposed at a lower portion of one side of a position where the moving direction of the conveyor belt 230 is changed from upward to downward and is separated from the conveyor belt 230, And the lower end 302 of the conveyor belt 230 is disposed to face the upper portion of the reservoir 400 disposed at one side of the water tub 100. [

Therefore, the iron powder 10 falling down from the conveyor belt 230 slides downward on the upper surface of the inclined plate 300, which is inclined to one side, and is collected in the storage tank 400 and then recycled.

As described above, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention as defined in the appended claims. And such modifications are within the scope of the present invention.

10: iron powder 100: water tank
101: Collecting space 102: Bubble inlet pipe
200: Feeder 210: First roller
220: second roller 230: conveyor belt
231: first belt 232: 232a, 232b: second belt
240: partition 300: swash plate
400: Store B: Bubble

Claims (6)

1. An iron recovery apparatus for recovering iron contained in wastewater, comprising:
A water tank 100 in which wastewater containing iron is collected;
A first roller 210 positioned on the side of the water surface of the wastewater collected in the water tank 100 and made of a magnetic material, a first roller 210 spaced apart from the upper side of the first roller 210, A second roller 220 that is rotated to receive the first roller 210 and a second roller 220 that is rotated to transmit the driving force of the second roller 220 to the first roller 210, And a conveyor belt (230) for conveying the iron powder drawn and attached by the magnetic force of the first roller (210) toward the second roller (220) upwardly.
A swash plate 300 which is conveyed by the conveyor belt 230 to guide the iron powder falling to one side of the second roller 220 to be conveyed downward one side of the water tub 100; And
A reservoir 400 for collecting iron particles slidably transported on the swash plate 300;
And an iron recovery device. The method according to claim 1,
The conveyor belt 230 includes a first belt 231 connecting the first roller 210 and the second roller 220 and a second belt 231 protruding outward from the opposite ends of the first belt 231 A second belt 232 (232a, 232b)
The space surrounded by the outer side surface of the first belt 231 and the opposing inner side surfaces of the second belts 232a and 232b formed on both sides of the first belt 231 is spaced apart from the first belt 231 Wherein a plurality of partitioning walls (240) are provided on the conveyor belt (230) to prevent the iron particles being transferred to the upper side from being separated from the conveyor belt (230). 3. The method of claim 2,
The second belt 232 (232a, 232b) is formed in a corrugated shape so as to be smoothly rotated and expanded in the circumferential direction while being rotated while passing through the outer peripheral surfaces of the first roller 210 and the second roller 220 Characterized in that the iron recovery device. The method according to claim 1,
Wherein a bubble introducing pipe (102) for introducing bubbles supplied from a bubble generating device is connected to one side of the water tub (100) so that iron contained in the wastewater in the water bath (100) floats toward the water surface. Recovery device. The method according to claim 1,
The swash plate 300 has an upper end 301 disposed at a lower portion of one side of a position where the moving direction of the conveyor belt 230 is changed from upward to downward and the iron powder separated and dropped from the conveyor belt 230, The iron recovery device comprising: The method according to claim 1,
Wherein the magnetic substance of the first roller (210) is a permanent magnet or an electromagnet.

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