KR101226048B1 - A diatomite drum filtr of sticking filter cloth - Google Patents

Abstract

PURPOSE: A filtering apparatus using a filtering fabric attached diatomite drum is provided to improve filtering property on the basis of gradual filtering treatment. CONSTITUTION: A filtering apparatus using a filtering fabric attached diatomite drum includes a treatment bath(10), a drum filtering part(20), a scraper, and a driving unit(40). The treatment bath has a rotary shaft. A supplying pipe(11) is combined with one side of the treatment bath and introduces sewage and wastewater into a receiving space. A discharging pipe(12) is connected to another side of the treatment bath and discharges treated water. A rotary drum(21) is mounted at the drum filtering part. The rotary drum is on the basis of a diatomite shaped body(211), and filtering fabric(212) surrounds the external surface of the diatomite shaped body. The receiving space is formed in the rotary drum. The scraper separates impurities from the surface of the rotary drum. The driving unit is connected to the rotary shaft and rotates the rotary shaft.

Description

Filtration device using diatomaceous earth drum with filter cloth {A diatomite drum filtr of sticking filter cloth}

The present invention relates to a filtration device using a diatomaceous earth drum with a filter cloth, and more particularly, to remove fine particulate matter contained in various kinds of wastewater, and thus, a filter cloth may be attached to an industrial field requiring precise filtration. The present invention relates to a filtration device using a diatomaceous earth drum.

In general, various wastewater discharged from industrial facilities contains a large amount of particulate matter, and when discharged as it is, it pollutes rivers. Thus, a wastewater discharge facility is provided with a removal device for removing particulate matter.

In the past, most of the removal apparatuses for removing particulate matter from wastewater have been introduced into the filter cloth, and then the filter cloth is compressed to remove the particulate matter filtered in the filter cloth.

The particulate matter removing apparatus through compression of the filter cloth has a problem in that continuous operation is impossible because the worker has to collect the filtered material from the inside of the filter cloth by a large amount of particulate matter in the filter cloth.

In addition, the particulate matter removal apparatus through compression of the filter cloth as described above, in order to treat a large amount of waste water, a plurality of filter cloths must be continuously installed. There was a difficulty in using.

Therefore, recently, a filter using a filter as a filter medium has been used, and since it is unnecessary to collect particulate matter from the existing filter cloth, it is not only possible to perform continuous work but also to manufacture a relatively small size. there was.

However, even in the case of a filtration device using such a filter, the filter itself is made of a mesh structure such as a metal mesh, so that the particulate matter adheres to the surface of the filter as the operation time elapses in the continuous filtration process, thereby lowering the filtration efficiency. There was a problem that the filter surface had to be cleaned or replaced periodically.

Accordingly, the present invention is applied to the rotating drum prepared by firing the dough of the diatomaceous earth in the Republic of Korea Patent Publication No. 2012-0025754, the Patent No. 1035150, the Patent No. 1125329 and the surface of the rotating drum There has been provided a filtration device including a scraper for removing the foreign matter.

The filtration apparatus passes through the micropores formed in the drum during rotation of the diatomaceous earth drum partially immersed in the waste water in the treatment tank, and only the filtered treatment water flows into the drum, while particulate matter adheres to the drum surface. It is detached by the scraper in contact with and can be collected separately.

In particular, these filtration devices are capable of removing various kinds of particulate matter of various kinds of wastewater by adjusting the size of micropores of diatomaceous earth drums naturally formed through the firing process, and by continuously removing foreign substances adhering to the drum surface during operation. Preventing the decrease in filtration efficiency due to prolonged use could lead to an extended washing cycle and improved operating efficiency.

However, the diatomaceous earth drum can be adjusted only to the pore size of 1 ~ 50㎛ due to the limitation of the minimum pore size by the firing process due to the nature of the diatomaceous earth material, it is difficult to filter fine particulate matter of less than 1㎛ There was a problem that it can not be applied to the field requiring precise filtration.

Therefore, the present invention is configured to solve the above problems, it is more than the minimum pore of the diatomaceous earth drum to compensate for the portion that could not remove the fine particulate matter of less than 1㎛ due to the limit of the minimum pore of the conventional diatomaceous earth drum. It is an object of the present invention to provide a filtration device using a diatomaceous earth drum with a filter cloth attached to the filter cloth having a small size of the hole on the drum outer surface to increase the filterability by filtration step by step according to the particle size.

In order to achieve the above object, the present invention is formed in the receiving space therein, the rotating shaft is installed through the side wall surface on both sides, the supply pipe is connected to one side of the waste water is introduced into the inner receiving space , A treatment tank in which the treated water is discharged to the outside by a discharge pipe connected to the discharge pump on the other side, and a cylindrical rotating drum is immersed so that the waste water received in the treatment tank and a portion of the lower end are immersed with the rotary shaft, and the rotating drum is diatomaceous earth. After kneading, the filter cloth is wrapped around the outer surface of the diatomaceous earth molded body which is calcined, and has a structure in which the treatment water accommodating space is formed, and the drum filter discharges the treated water by the discharge pipe extending through the inside of the rotating shaft of the treatment tank. Inside the processing tank so that the blade of the tip is in contact with the outer circumferential surface of the rotating drum along the longitudinal direction. And a scraper made of metal for separating foreign substances on the surface of the rotating drum and installed on the outside of the processing tank while being connected to the rotating shaft, and driven by an external power source to rotate the rotating shaft. It provides a filtration device using a diatomaceous earth drum with a filter cloth.

In addition, the present invention is a diatomaceous earth drum with a filter cloth, characterized in that the treated water discharged through the discharge pipe of the treatment tank is discharged to the outside through the water softener after the microfiltration separation device connected to one or two or more. Provide a filtration device.

In addition, the present invention is the microfiltration separation device is connected to the discharge pipe of the treatment tank is extended to the upper end, inside the gravel layer, sand layer, carbon layer is sequentially stacked from the bottom, the mesh network is installed between each layer, Provided is a filtration device using a diatomaceous earth drum with a filter cloth, characterized in that the pipe is installed to discharge the treated water passing through each layer is provided with a strainer (straindr).

As described above, the filtration device using the diatomaceous earth drum with the filter cloth of the present invention allows the removal of fine particulate matter of 1 μm or less, which was previously impossible only by the diatomaceous earth drum, by the filter cloth located in the outer layer. Filtration not only improves the filterability, but also replaces only a relatively inexpensive filter cloth from the diatomaceous earth drum, while extending the service life of the drum, resulting in economical effects such as cost reduction.

In addition, the present invention is filtered again in the treatment tank is introduced into the microfiltration separator again through the carbon layer, sand layer, gravel layer in turn and the re-filtration according to the particle size can be made more precise filtration, in particular industrial wastewater In addition, it is possible to purify high-viscosity particulate matter for petroleum refining.

1 is a perspective view showing a filtration device according to an embodiment of the present invention
FIG. 2 is a cross-sectional view of the filter device of FIG.
Figure 3 is a longitudinal cross-sectional view showing the filtration device of Figure 1
Figure 4 is a schematic view showing a filtration device according to another embodiment of the present invention

Hereinafter, the filtration device using the diatomaceous earth drum with the filter cloth of the present invention will be described in more detail with reference to the accompanying drawings, but the present invention is not limited to the embodiment shown in the drawings.

1 is a perspective view showing a filtration device according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the filtration device of Figure 1, Figure 3 is a longitudinal sectional view showing the filtration device of Figure 1 cut.

As shown in FIG. 1 to FIG. 3, the filtration apparatus of the present invention largely accommodates the wastewater introduced from the outside and the treated water to discharge the filtered treated water to the outside, and the treatment tank 10 Drum filter unit 20 for filtering the waste water contained therein, scraper 30 for removing foreign matter adhering to the surface of the rotary drum 21 of the drum filter unit 20, and the drum filter unit 20 It consists of a drive device 40 for rotating.

First, the treatment tank 10 is formed with an empty space inside to accommodate the waste water, one side is provided with a supply pipe 11 for introducing the waste water containing the particulate matter to be removed into the inside, the other side is filtered A discharge pipe 12 for discharging the treated water to the outside is provided, and the rotating shaft 15 is installed at both sides of the treatment tank 10 to penetrate the side wall surface.

In addition, the treatment tank 10 has a cover 13 that can be opened and closed at the top to prevent foreign substances generated during the filtration process from scattering to the outside, and the water level of the raw water on the side wall surface of the treatment tank 10. Detecting sensor 14 is installed to detect may be configured to detect the water level of the raw water stored in the treatment tank (10).

In the case of the drum filter unit 20, a cylindrical rotating drum 21 having an empty space therein is axially coupled with the rotary shaft 15 at a position where a lower end portion can be immersed in the waste water received in the treatment tank 10. The rotating drum 21 is rotated in the treatment tank 10 by a drive device 40 connected to one side of the rotating shaft 15.

The rotating drum 21 has a cylindrical diatomaceous earth molded body 211 formed by baking the dough of diatomaceous earth therein, and has a double structure in which an outer surface of the diatomaceous earth molded body 211 is wrapped around the filter cloth 212. In addition, a treatment water accommodating space 22 is formed inside the rotating drum 21 to allow the treatment water to be discharged to the outside by the discharge pipe 12 extending through the rotating shaft 15 of the treatment tank 10.

The rotary drum 21 having such a double structure has a limitation in minimizing the pore size formed through the firing process due to the characteristics of the diatomaceous earth, and thus, a filter cloth 212 having a hole having a smaller size than the pores of the diatomaceous earth molded body 211. ) Is further installed on the outer layer so that fine particulate matter that cannot be filtered in the diatomaceous earth molded body 211 can be removed through the filter cloth 212. For this purpose, the diatomaceous earth molded body 211 has a pore size of 1 to 20 μm. The filter cloth 212 uses what has a minute hole of 0.25-1 micrometer.

At this time, the filter cloth 212 can be fixed and installed by high frequency fusion in the state pulled sufficiently from both sides so as to be in close contact with the outer surface of the diatomaceous earth molded body 211, and also the filter cloth 212, which has reached the end of its life, is high frequency fused. The replacement can be made easily by cutting off the part and reinstalling the new filter cloth 212 in the same way.

The scraper 30 is one end is coupled to the inner wall surface of the treatment tank 10 and the other end is installed to be inclined upward so as to contact the outer peripheral surface of the rotating drum 21, the adhesive is attached to the outer peripheral surface of the rotating drum 21 of the scraper 30 Allow to be detached by the end. The scraper 30 is preferably made of a metal plate of iron plate, cemented carbide.

In addition, the other end of the scraper 30 is tapered blade 31 is formed so as to contact the outer peripheral surface of the rotating drum 21, it can be used that the diamond powder coated surface of the blade 31. It is possible to more easily remove the foreign matter by scraping the foreign matter stuck between the micro holes formed in the rotary drum 21 as the fine diamond projection surface having rigidity is formed on the blade 31 of the scraper (30). .

The driving device 40 is provided outside the processing tank 10 while being connected to the above-described rotary shaft 15, and is configured to rotate the rotary shaft 15. As a specific example, a drive motor is installed on the outer wall of the treatment tank 10, and the shaft and the rotation shaft of the drive motor are connected by a chain or a belt, so that power is transmitted to the rotation shaft 15 through the chain or the belt according to the rotation of the drive motor. The drum filter 20 may be configured to rotate while the rotary shaft 15 rotates.

In addition, a control unit 50 for controlling the operation of the filtration device may be installed on one side of the processing tank 10, the control unit 50 receives a signal from the sensor 14 installed inside the processing tank 10. Received by adjusting the inflow of waste water flowing through the supply pipe 11, and can control the operation of the motor installed in the drive device 40, the discharge pipe extending to the treated water receiving space 22 of the rotating drum 21 Control the discharge of treated water discharged through (12).

The flow rate control of the supply pipe 11 and the discharge pipe 12 in the control unit 50, and the power supply or cutoff to the driving device 40 are the same as the technology for applying or cutting power to the components through the controller in various devices. The detailed description of the structure and the principle of operation will be omitted.

In addition, in the present invention, it is possible to further install a post-treatment device for filtering the treated water discharged to the outside through the discharge pipe 12 of the treatment tank 10 more precisely.

Figure 4 is a schematic view showing a filtration device according to another embodiment of the present invention, as shown therein one or two or more microfiltration separator connected to the treated water discharged through the discharge pipe 12 of the treatment tank 10 (60 ', 60 ") can be added to the final discharge system through the water softener 70.

The microfiltration separator (60 ', 60 ") is connected to the discharge pipe of the treatment tank to the top to be introduced into the treated water, the inside of the gravel layer 61, sand layer 62, carbon layer 63 from the bottom They are stacked in turn, and a separate mesh network may be installed between the layers and layers to prevent intermixing. In addition, a strainer (straindr) is provided in the pipe installed to discharge after passing through the microfiltration separator (60 ', 60 ") so that carbon or sand is not included in the treated water.

In the case of the microfiltration separators 60 'and 60 ″, refiltration is performed according to the particle size of each layer while the treated water introduced from the top passes through the carbon layer 63, the sand layer 62, and the gravel layer 61 in order. More precise filtration can be achieved, and in particular, it is possible to purify not only industrial wastewater but also high-viscosity particulate matter for petroleum refining.

Looking at the operation relationship for the filtration device, when the waste water containing the particulate removal material is introduced into the treatment tank 10 through the supply pipe 11 and accommodated for a certain amount, the sensor 14 detects the water level and the control unit. In operation 50, the driving device 40 is operated so that the drum filter unit 20 rotates at a constant speed. At this time, the particulate matter contained in the waste water rotates while being adhered to the surface of the rotating drum 21. The treated water from which particulate matter is removed by sequentially passing through the filter cloth 212 and the diatomaceous earth molded body 211 constituting the rotary drum 21 is moved to the treated water receiving space 22 therein.

In addition, the particulate matter adhering to the surface of the rotating drum 21 is detached from the rotating drum 21 by the scraper 30 before the rotating drum 21 rotates once and collected and collected separately or automatically through an additional discharge device. To be separated. In addition, the treated water contained in the treated water receiving space 22 is transferred to the microfiltration separator (60 ', 60 ") through the discharge pipe 13, the second precision filtration and then the external through the water softening device (70) Is discharged.

Filtration device using a diatomaceous earth drum with a filter cloth of the present invention as described above can be removed by the filter cloth located in the outer layer of the fine particulate matter of 1㎛ or less that was impossible to remove only the existing diatomaceous earth by the step by step filtration Through the treatment, not only the filterability can be increased, but also a relatively inexpensive filter cloth can be replaced from the diatomaceous earth drum, while the service life of the drum can be extended, resulting in economic advantages such as cost reduction.

10: treatment tank
11 supply pipe 12 discharge pipe
13 cover 14 sensor
15: axis of rotation
20: drum filter unit
21: rotating drum 211: diatomaceous earth molded body
212: filter cloth 22: treated water receiving space
30: scraper
31: day
40: drive device
50:
60 ′, 60 ″: Microfiltration Separator
61: gravel layer 62: sand layer
63: carbon layer
70: water softener

Claims (5)

The receiving space is formed inside, the rotating shaft is installed through the side wall surface on both sides, the supply pipe is connected to the supply pump on one side, waste water flows into the inner receiving space, the treated water by the discharge pipe connected to the discharge pump on the other side A treatment tank discharged to the outside;
Cylindrical rotating drum is mounted to immerse the waste water and the lower part of the lower portion of the processing tank in the state coupled with the rotating shaft, and the rotating drum kneads the diatomaceous earth, and the filter cloth is wrapped around the outer surface of the plastic diatomaceous earth molded body. A drum filter part having a treatment water accommodating space formed therein and discharging the treatment water by a discharge pipe extending through the inside of the rotary shaft of the treatment tank;
A scraper made of metal for separating foreign substances on the surface of the rotating drum by being installed on the inner wall of the processing tank so that the blade of the tip is in contact with the outer circumferential surface of the rotating drum along the longitudinal direction;
Filtration device using a diatomaceous earth drum with a filter cloth, characterized in that the drive device is installed on the outside of the treatment tank connected to the rotating shaft, driven by an external power source to rotate the rotating shaft.
The method according to claim 1,
The filter cloth of the rotating drum is a filter device using a diatomaceous earth drum with a filter cloth, characterized in that fixed by adhesive bonding by high frequency fusion in the state pulled sufficiently from both sides to be in close contact with the outer surface of the diatomaceous earth molded body.
The method according to claim 1 or 2,
Diatomaceous earth molded body of the rotating drum has a pore size of 1 ~ 20㎛, filter cloth is a filter device using a diatomaceous earth drum with a filter cloth, characterized in that having a hole of 0.25 ~ 1㎛.
The method according to claim 3,
Filtration device using a diatomaceous earth drum with a filter cloth characterized in that the treated water discharged through the discharge pipe of the treatment tank is passed through one or two or more microfiltration separation device is finally discharged to the outside through the softening device.
The method of claim 4,
The microfiltration separator is connected to the discharge pipe of the treatment tank is extended to the upper end, and the gravel layer, sand layer, carbon layer is sequentially stacked from the bottom, the mesh network is installed between each layer, and passed through each layer Filtration device using a diatomaceous earth drum with a filter cloth, characterized in that the pipe is installed to discharge the treated water strainer (straindr).

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