KR101358338B1 - Apparatus for separating iron from liquid compound - Google Patents

Abstract

The present invention relates to a device for separating iron from liquid and more specifically, to a device for easily separating iron from a liquid mixture, wherein the device includes a tank which accommodates liquid therein; an inlet which is installed inside the tank and supplies liquid containing iron to the tank; a collection unit which collects iron deposited on the bottom of the tank by separating the iron from the liquid; and a pump which discharges liquid accommodated in the tank to the outside.

Description

Iron separator mixed in liquid {APPARATUS FOR SEPARATING IRON FROM LIQUID COMPOUND}

The present invention relates to an iron separator mixed in a liquid, and more particularly, to an iron separator mixed in a liquid capable of easily separating iron contained in a liquid mixture from a liquid.

When machining or plating metal materials, supply a liquid mixture.

This liquid mixture contains a lot of fine iron powders or chips that are generated during operation.

Therefore, the liquid mixture is used again after removing iron powder by using a purifying device.

In order to remove foreign substances such as iron from the liquid mixture as described above, Korean Patent Laid-Open Publication No. 10-2006-0029138 and Korean Patent Laid-Open Publication No. 10-2013-0001099 disclose centrifugal separators or cyclone devices.

Such a centrifugal separator can remove foreign substances such as iron powder from a mixture of liquid phases using centrifugal force.

The centrifugal separator is to discharge the iron deposited on the bottom to the outside, while the iron is discharged to the outside is also part of the liquid is discharged to the outside.

Therefore, the liquid and iron discharged to the outside must be separated again, there is no device for separating it, there is a disadvantage that it is difficult to recycle the liquid or to completely separate the iron from the liquid.

Korean Patent Publication No. 10-2006-0029138, Korean Patent Publication No. 10-2013-0001099

The present invention is to solve the above problems, to provide an iron separation device mixed with a liquid that can easily separate the iron and the liquid in the liquid mixture is mixed with liquid iron and iron can be recycled respectively. have.

In order to achieve the above object, the iron separator mixed with the liquid of the present invention includes a tank in which the liquid is contained; An inlet installed in communication with the inside of the tank to introduce a liquid mixed with iron into the inside of the tank; A collecting part for collecting the iron powder deposited in the lower part of the tank separately from the liquid; It characterized in that it comprises a pump for discharging the liquid contained in the tank to the outside.

The collecting part is disposed inside the tank and is made of a magnetic member composed of magnets, and the iron powder mixed with the liquid is collected by being attached to the magnetic member.

The magnetic member is mounted to be rotated in the tank, and the iron deposited on the lower portion of the tank by the rotation of the magnetic member is attached to the outer circumferential surface of the magnetic member and collected.

The collection unit is disposed in contact with the outer peripheral surface of the magnetic member is rotated, and further comprises a first scraper to scrape off the iron attached to the outer peripheral surface of the magnetic member from the magnetic member, the first scraper is the Located above the level of the liquid.

The magnetic member is preferably made of an electromagnet.

Alternatively, the collecting part is disposed inside the tank and rotates, and is made of an endless track collection belt formed with a brush on the outer peripheral surface, the lower end of the tank is formed to be inclined so that the other end is high, the upper end An inclined surface for receiving the liquid is mounted, the brush of the collection belt is installed to contact the upper surface of the inclined surface, one end of the collection belt is located at one end of the inclined surface lower than the level of the liquid and immersed in the liquid And the other end is located at the other end of the inclined surface higher than the liquid level, and the iron deposited on the lower portion of the tank by the rotation of the collection belt is more than the level of the liquid in which the other end of the collection belt is disposed along the inclined surface. It is conveyed in the other end direction of the said inclined surface high.

The tank is provided with a receiving portion located in the lower end of the other end of the inclined surface and in communication with the other end of the inclined surface, the iron transported to the other end of the inclined surface by the collection belt is dropped into the receiving portion.

The collection unit may further include a second scraper disposed on the receiving unit and in contact with the rotating brush, wherein the second scraper separates the iron powder attached to the brush from the brush to the receiving unit. Drop it.

In addition, the water level sensor for measuring the level of the liquid contained in the tank; And a control unit for stopping the pump if the level of the liquid measured by the level sensor is above or below a preset range, and operating the pump if within the preset range.

And a cone-shaped centrifuge disposed above the tank to separate iron from the liquid, wherein an upper end of the inlet is connected to a lower center of the centrifuge, and a lower end is disposed inside the tank.

According to the iron separator mixed in the liquid of the present invention as described above has the following effects.

Iron can be easily separated from the liquid in the liquid mixture contained in the tank by the collecting portion, and the iron and the liquid can be recycled, respectively.

In addition, the collecting portion is made of a magnetic member consisting of a magnet can be easily separated by attaching the iron to the magnetic member.

In addition, the collection unit consists of a collection belt equipped with a brush can be separated from the liquid by transferring the iron by the rotation of the collection belt.

1 is a perspective view of an iron separation device mixed with a liquid according to a first embodiment of the present invention,
2 is a cross-sectional structural view of an iron separator mixed in a liquid according to a first embodiment of the present invention;
3 is a cross-sectional structure diagram of an iron separator mixed in a liquid according to a second embodiment of the present invention;

First Embodiment

1 is a perspective view of an iron separation device mixed with a liquid according to a first embodiment of the present invention, Figure 2 is a cross-sectional structural view of the iron separation device mixed with a liquid according to a first embodiment of the present invention.

As shown in Fig. 1 and 2, the iron separation device mixed with the liquid of the present invention, the tank 10, the inlet 20, the centrifuge 30, the collecting unit, the pump 50 And a water level sensor (not shown), a control unit (not shown), and the like.

The tank 10 has an empty space formed therein to accommodate the liquid.

An inlet 20 is installed at an upper end of the tank 10 so as to communicate with the inside of the tank 10 to introduce a liquid mixed with iron into the tank 10.

The centrifuge 30 is disposed above the tank 10 to primarily separate iron from the liquid.

The centrifugal separator 30 is formed in a cone shape and communicates with the inside of the tank 10 through the inlet 20.

That is, the inlet 20 is the upper end is connected to the lower center of the centrifuge 30 as shown in Figure 2, the lower end is disposed toward the side of the tank 10 in the interior of the tank 10 do.

The inlet 20 is the outlet of the centrifuge 30.

Therefore, the centrifuge 30 primarily discharges the liquid to the outside through the upper portion, and discharges iron and some liquid to the tank 10 through the inlet 20 disposed at the lower portion.

At this time, the lower portion of the centrifuge 30 is equipped with a valve to adjust the amount of the liquid moving to the tank 10 through the inlet 20 in the interior of the centrifuge 30.

The valve is automatically turned on and off according to a preset timing to move iron and liquid to the tank 10 through the inlet 20 in an optimal state.

The collecting part serves to separate and collect iron powder deposited on the lower part of the tank 10 from the liquid.

That is, the liquid and iron powder are firstly separated from the centrifuge 30, and the liquid and iron powder are secondarily separated from the collection unit.

The collecting part is disposed inside the tank 10 and is made of a magnetic member 41 made of a magnet.

Since the collecting part is made of a magnetic member 41 composed of a magnet, the iron powder mixed with the liquid is attached to the magnetic member 41 and collected.

For this purpose, a part of the magnetic member 41 should be submerged in the liquid.

The magnetic member 41 may be installed to be fixed or moved to the tank 10, but it is preferable to be rotatably mounted in the tank 10 as in this embodiment.

As described above, the magnetic member 41 is rotatably mounted in the tank 10, and the iron powder deposited by the specific gravity in the lower portion of the tank 10 by the rotation of the magnetic member 41 is the magnetic. It is attached to the outer circumferential surface of the member 41 to be collected.

The magnetic member 41 may be made of a permanent magnet or may be made of an electromagnet.

When the magnetic member 41 is made of an electromagnet, iron is applied to an outer circumferential surface of the magnetic member 41 by applying a current, and when the iron member is to be separated from the magnetic member 41, the iron is blocked by a current. It can be easily separated from the outer peripheral surface of the magnetic member 41.
That is, when iron is to be attached to the outer circumferential surface of the magnetic member 41, a current is applied to the magnetic member 41 made of an electromagnet, and when the iron is to be separated from the magnetic member 41, the magnetic By blocking the current applied to the member 41, the iron powder can be easily separated from the outer peripheral surface of the magnetic member 41.

The collection unit may further include a first scraper 42.

The first scraper 42 is disposed in contact with the outer circumferential surface of the rotating magnetic member 41, and scrapes the iron powder attached to the outer circumferential surface of the magnetic member 41 to separate it from the magnetic member 41.

The first scraper 42 is preferably positioned above the level of the liquid.

Therefore, the iron powder mixed with the liquid is attached by the magnetic member 41 and then separated from the magnetic member 41 through the first scraper 42 to be discharged to the outside.

The pump 50 serves to discharge the liquid contained in the tank 10 to the outside.

The pump 50 may be disposed inside the tank 10, only a hose may be disposed inside the tank 10, and the pump 50 may be disposed outside the tank 10.

In addition, the inlet 20 of the pump 50 is spaced apart from the bottom surface of the tank 10 so as to suck the upper portion of the liquid contained in the tank 10.

Therefore, it is possible to prevent the iron deposited on the lower portion of the tank 10 to be discharged to the outside with the liquid through the pump 50.

The liquid discharged out of the tank 10 by the pump 50 is circulated so that it can be used again.

The level sensor is mounted to the tank 10 to measure the level of the liquid contained in the tank 10.

The controller stops the pump 50 when the level of the liquid measured by the water level sensor is above or below a preset range, and operates the pump 50 when within the preset range.

By the operation of the pump 50 under the control of the control unit it is possible to prevent the level of the liquid contained in the tank 10 to be higher than the first scraper 42.

Since the iron separating apparatus of the present invention uses the magnetic member 41 made of a magnet, the iron is deposited in the tank 10 after a predetermined time after the liquid is contained in the tank 10. It may be operated at the same time, or may be operated at the same time as the liquid is introduced.

In addition, the magnetic member 41 of the present embodiment may be rotated in a fixed state, and although not shown, the magnetic member 41 is mounted to move while being rotated to be widely distributed in the lower portion of the tank 10. Better collection of deposited iron can also be achieved.

According to the present invention as described above, the iron mixed in the liquid can be more easily separated and removed, and the iron powder thus separated can be collected and recycled through the first scraper 42.

Second Embodiment

3 is a cross-sectional structure diagram of an iron separator mixed with a liquid according to a second embodiment of the present invention.

The iron separating device mixed with the liquid of the second embodiment includes a tank 10, an inlet 20, a centrifuge 30, a collecting part, a pump 50, a water level sensor (not shown), Control unit (not shown).

The second embodiment is different from the tank 10 and the collecting portion compared with the first embodiment, bar will be described mainly.

The lower surface of the tank 10 is equipped with an inclined surface 11 formed to be inclined so that one end is low and the other end is high.

The liquid is accommodated in the upper portion of the inclined surface (11).

The collecting portion is composed of a rotating collection belt 45 formed in an endless track shape.

The collection belt 45 is disposed inside the tank 10 to rotate, and a brush 46 is formed on an outer circumferential surface thereof.

The collection belt 45 is mounted inclined in the same direction as the inclined surface (11).

At this time, the brush 46 of the collection belt 45 is installed to contact the upper surface of the inclined surface (11).

Therefore, the iron deposited on the lower portion of the tank 10 during the rotation of the collection belt 45 is transferred by the brush 46.

One end of the collection belt 45 is located at one end of the inclined surface 11 lower than the level of the liquid contained in the tank 10 and immersed in the liquid, and the other end is the inclined surface 11 higher than the liquid level. Is located at the other end of).

Thus, when the collection belt 45 is rotated, the iron deposited on the lower portion of the tank 10 is the inclined surface 11 and the brush 46 by the other end of the collection belt 45 is disposed It is conveyed in the other end direction of the inclined surface 11 higher than the liquid level.

Therefore, the iron powder in the liquid can be transferred to the other end of the inclined surface 11 that is higher than the liquid level, that is, outside of the liquid to separate the iron powder from the liquid.

In addition, the tank 10 is provided with an accommodating part 12 positioned below the other end of the inclined surface 11.

The accommodating part 12 communicates with the other end of the inclined surface 11 at the lower portion of the inclined surface 11 to drop and receive the iron powder transferred to the other end of the inclined surface 11 by the collection belt 45. .

At this time, the collection belt 45 is to be arranged up to the upper portion of the receiving portion 12, so that the iron transported by the collection belt 45 is easily dropped to the receiving portion (12).

The collection part of the present invention may further include a second scraper 47 disposed on the receiving part 12 and in contact with the rotating brush 46.

The second scraper 47 separates the iron powder attached to the brush 46 from the brush 46 better and falls to the receiving portion 12.

Therefore, the iron is attached to the brush 46 can be prevented from flowing back into the liquid.

In the present invention, unlike the first embodiment, after the liquid is accommodated in the tank 10, a predetermined time passes and the iron is deposited after the iron 10 is deposited in the tank 10.

Other matters are the same as in the first embodiment, and detailed description thereof will be omitted.

Iron separation apparatus mixed in the liquid of the present invention is not limited to the above-described embodiment, it can be carried out in a variety of modifications within the scope of the technical idea of the present invention.

10: tank, 11: inclined surface, 12: receiving portion,
20: inlet, 30: centrifuge,
41: magnetic member, 42: first scraper, 45: collection belt, 46: brush, 47: second scraper,
50: pump,

Claims (10)

A tank containing liquid therein;
An inlet installed in communication with the inside of the tank to introduce a liquid mixed with iron into the inside of the tank;
A collecting part disposed in the tank and collecting iron powder deposited on the lower part of the tank separately from the liquid;
A pump for discharging the liquid contained in the tank to the outside;
A cone-shaped centrifuge disposed above the tank to separate iron from the liquid;
A valve mounted at a lower portion of the centrifuge to adjust an amount of liquid moving from the inlet to the tank through the inlet;
A level sensor for measuring the level of the liquid contained in the tank;
If the level of the liquid measured by the water level sensor is above or below a predetermined range, the pump is stopped, and if it is within a predetermined range, including a control unit for operating the pump,
The collecting portion is made of a magnetic member consisting of an electromagnet,
The upper end of the inlet is connected to the lower center of the centrifuge, the lower end is disposed toward the side of the tank in the interior of the tank,
The magnetic member is mounted to move while rotating in the tank,
Iron powder deposited on the lower portion of the tank by the rotation and movement of the magnetic member is attached to the outer peripheral surface of the magnetic member is collected,
In the case of attaching iron powder to the outer circumferential surface of the magnetic member, a current is applied to the magnetic member made of an electromagnet, and when the iron is separated from the magnetic member, the current applied to the magnetic member is cut off. Iron separators mixed with liquids. delete delete The method according to claim 1,
The above-
The first scraper is disposed in contact with the outer circumferential surface of the magnetic member to rotate, the first scraper to scrape the iron powder attached to the outer circumferential surface of the magnetic member to separate from the magnetic member,
And the first scraper is located above the level of the liquid.
delete delete delete delete delete delete

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