KR20050102428A - The filter system can be cleaning to use ultrasonic vibrations and how to clean it - Google Patents

Abstract

The present invention provides a filtration apparatus for filtering and separating the impurities (SS) contained in the wastewater by passing the wastewater through the filtration device,

The filtration apparatus includes a primary filter main body having a raw water inlet into which wastewater flows into the wastewater, a filtration water outlet through which the filtration water flows out, and a filthy water outlet through which oil and minerals flow out first, and a backwash water inlet through which backwash water flows during a washing operation; And a separation network to which the concentrated solids introduced from the effluent water inlet are caught, a media installed inside the filter body, and an ultrasonic oscillator for generating ultrasonic vibrations to detach microorganisms and solids attached to the media. Filtration device, characterized in that it comprises an automatic control system for automatically controlling the backwashing time by the outflow pressure loss measured on the pressure gauge formed on one side of the raw water inlet and the filtered water distribution port, and the reverse of the pressure loss using the same It relates to a washing method.

Description

The filter system can be cleaning to use ultrasonic vibrations and how to clean it}

The present invention is a primary filter main body formed with a raw water inlet for the inflow of wastewater, and a filtration water outlet through which the filtration water flows out, and a effluent water outlet through which oil and minerals flow out first, and a backwash water inlet through which the backwash water flows during washing. A separation network on which the concentrated solid introduced from the raw water inlet is caught, a media installed inside the filter main body, an ultrasonic oscillator generating ultrasonic vibration to detach microorganisms and solids attached to the media, and the raw water inlet And an automatic control system for automatically controlling the backwashing time by the outflow pressure loss measured on the pressure gauge configured at one side of the filtered water distribution port, and a backwashing method using the same.

Oh, a variety of devices and methods are used in wastewater treatment facilities such as hydrocyclones using centrifugal force, sedimentation basins using gravity, and filters. However, hydrocyclones have a problem of low removal efficiency for impurities having a small specific gravity or a small particle diameter, and a precipitation site has a large area required for the site. In addition, the separation by the filtration device can effectively remove the fine particles of impurities, and the device is compact and the processing efficiency is excellent, but the accumulation of impurities on the surface of the filtration module, the filtration rate is reduced and the required pressure is increased. There was a problem. Therefore, in the conventional filtration apparatus, water is pumped in a direction opposite to the filtration direction to wash impurities accumulated on the surface of the filtration module, or the filtration module needs to be replaced. It was pointed out that excessive costs were caused by re-contamination or frequent replacement of filtration modules.

Accordingly, the present invention has been made in order to solve the above problems, oh, waste water flows into the raw water inlet and the filtered water outlets and the filtered water outlet and oil, minerals are firstly discharged and the backwash water is introduced during the washing action A primary filter body having a backwash water inlet formed therein, a separation network on which the concentrated solids introduced from the wastewater inlet are caught, a media installed inside the filter body, and microorganisms and solids attached to the media Ultrasonic oscillator for generating an ultrasonic vibration and an automatic control system for automatically controlling the backwash timing by the outflow pressure loss measured on the pressure gauge configured on one side of the raw water inlet and the filtered water outlet.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view showing the overall schematic diagram of the present invention, the sewage water obtained in the primary filter body (1a) through the raw water inlet (2) as shown is a separation network installed inside the primary filter body (1a) The highly concentrated solids are filtered out by (3), and impurities having a high specific gravity sink down, and the water surface inside the primary filter main body 1a rises. In addition, since the valve 13b on the side of the effluent water outlet 4 formed in the lower portion of the primary filter main body 1a is closed, the raised water forcibly passes the media 7a formed inside the filter main body 1a. It is filtered through the process. On the other hand, the media (7a) is composed of a suitable material to have the purpose of intensively filtering the microorganisms or suspended solids and is densely arranged to match the shape of the interior of the filter body (1a).

In general, the material of the filter may be formed by weaving metal meshes or weaving metal yarns, porous ceramics, or woven nonwoven fabrics or fibers with excellent filtration, and the materials may be stacked in a single or multiple layers. Depending on the content of the contaminated water to be filtered may be replaced with a filter of the material described above in place of the media (7).

The primary filtered water passing through the media (7a) is introduced into the secondary filter body (1b) having the same structure at the top through the filtered water distribution port (10). Therefore, the filtered water introduced into the secondary filter main body 1b through the filtered water distribution port 10 is finally discharged to the stream through the clean water outlet 12 through the same process as the above-described primary filter main body 1a. do.

As described above, the filtration efficiency is not good due to the microorganisms and solids attached to the media 7a during the first filtered filtrate passing through the filtrate distribution port 10, and thus the filtrate distribution port 10 and the raw water inlet ( 2, the automatic control system 6 detects an appropriate time by the outflow pressure loss measured by the pressure gauge 11 configured at one side, shuts off the valve 13c on the side of the filtered water outlet 10, and the primary By sending a signal to the ultrasonic oscillator 5a configured at one side of the filter main body 1a, microorganisms and solids attached to the media 7a are detached by ultrasonic vibration of the ultrasonic oscillator 5a, and the upper end of the filter main body 1a. The media (7a) is washed by the wash water obtained through the backwash water inlet (9a) formed in the series of processes in which the desorbed impurities are discharged through the waste water outlet (4) formed at the bottom of the filter body (1a) This Are controlled by the same control system (6).

The above backwashing process is performed by the control of the automatic control system 6 in the secondary filter main body 1b, and the valve 13f on the clean water outlet 12 side and the valve on the filtered water outlet 10 side during the backwashing action. 13c is locked and the backwash water is introduced through the second backwash water inlet 9b, and the oil and inorganic solids detached by the ultrasonic vibration of the ultrasonic oscillator 5b as described above are separated from the secondary filter main body 1b. The media 7b formed therein is also washed and discharged through the backwash water outlet 14 formed at the lower end of the secondary filter body 1b.

2 is a partial perspective view of the cut portion A, as shown in the primary filter body (1a) is a highly concentrated oil, inorganic suspended solids obtained through the raw water inlet (2) is the separation network (3) It is filtered by the primary and the water inlet (2) is in the direction of the tangential to the filter body (1a) inside the contaminated water obtained by the raw water inlet (2) naturally causes a vortex phenomenon and separation network ( The contaminated water passing through 3) has an increased surface due to the continuous inflow of filthy water in the primary filter body 1a.

3 is a partial cross-sectional view of the cut portion B, as shown in the backwash water inlet (9a) side is provided with a wedge-shaped vortex prevention plate 8, the wash water is obtained through the backwash water inlet (9a) It is a structure that enlarges the direct contact area with media as much as possible.

The shape of the media 7 of FIG. 3 is deformed according to the shape of the inside of the filter main body 1 so as to be densely packed in the interior. The above figure is used to distinguish the media 7 from the inside of the filter main body 1. Some gaps are shown.

As described above, since the filtration device according to the present invention is operated by an automatic control system, it is possible to check the appropriate replacement time of the media, and to reduce the cost by preventing excessive inflow of the washing water during washing, and to the ultrasonic oscillator. It is possible to use media for a long time due to desorption of oil and mineral suspended solids adhering to the media.

1 is a general overview of the present invention.

Figure 2 is a partial perspective view of the cut portion A of the present invention.

Figure 3 is a partial cross-sectional view cut portion B of the present invention.

<Description of Signs of Major Parts of Drawings>

1. Filter body 2. Raw water inlet

3. Separation network 4. Sewage water outlet

5. Ultrasonic Oscillator 6. Automatic Control System

7. Media 8. Vortex Preventer

9. Backwash water inlet 10. Filtrate outlet

11. Pressure gauge 12. Clean water outlet

13. Valve 14. Backwash outlet

Claims (7)

In the filtration apparatus for passing the waste water through the filtration device to filter and separate the impurities contained in the waste water, Oh, the raw water inlet (2) into which the wastewater flows in, the filtrate distribution outlet (10) through which the filtrate flows out, and the wastewater outlet (4) through which oil and minerals flow out first, and the backwash water inlet (9a) into which the backwash water flows during washing. A filter body (1a) is formed, a separation network (3) on which the concentrated solids introduced from the raw water inlet (2) is caught, a media (7a) installed inside the filter body (1a), and the media Ultrasonic oscillator 5a for generating ultrasonic vibration in order to detach microorganisms and solid matter attached to 7a, and a pressure gauge 11 configured at one side of the raw water inlet 2 and the filtered water outlet 10. A filtration apparatus capable of backwashing using ultrasonic vibrations, characterized in that it comprises an automatic control system (6) which automatically controls the backwashing timing based on the measured outflow pressure loss. The method of claim 1, The ultrasonic oscillator (5a) is installed outside the filter main body (1a) is a filtration apparatus capable of backwashing using ultrasonic vibration, characterized in that to cause the ultrasonic vibration to the media (7a) by an automatic control system (6). The method of claim 1, The raw water inlet (2) is formed so as to flow in the tangential direction of the filter body is a filter device capable of backwashing using ultrasonic vibration, characterized in that to cause a natural vortex phenomenon. The method of claim 1, The backwash water inlet 9 is provided with a wedge-shaped vortex preventing plate 8 so that the backwash water flowing into the backwash medium is configured to have a maximum area in direct contact with the media 7a. This filter is possible. In the filtration apparatus for passing the waste water through the filtration device to filter and separate the impurities contained in the waste water, Waste water is introduced through the raw water inlet 2 formed at the lower end of the primary filter body 1a and the surface of the waste water is raised in the filter body 1a to raise the surface of the waste water to the inside of the filter body 1a. Passed through the media (7a) installed, and the filtered water passing through the media (7a) is introduced into the interior of the secondary filter body (1b) through the filtered water outlet 10 formed in the upper end of the filter body (1a) Backwashing method using ultrasonic vibration, characterized in that it has a process. The method of claim 5, The raw water inlet 2 formed in the primary filter main body 1a is formed to flow in a tangential direction to the inner surface of the filter main body 1a, and the separation net 3 installed inside the filter main body 1a. The large particle solids are separated by the liquid, and the backwashing method using ultrasonic vibration causes the solid particles of the highly concentrated large particles to settle down due to the natural vortex due to the flow rate flowing in the tangential direction. In the filtration apparatus for passing the waste water through the filtration device to filter and separate the impurities contained in the waste water, The backwashing method detects a suitable timing of backwashing by the automatic control system 6 by the outflow pressure loss at the pressure gauge 11 installed at one side of the raw water inlet 2 and the filtered water outlet 10. The microorganism and solids attached to the media 7a are detached by the vibration of the ultrasonic oscillator 5a configured on one side of the media 7a installed in the primary filter main body 1a, and the primary filter main body The media 7a is washed by the backwash water introduced by the backwash water inlet 9a formed at one side of the upper end of 1a, and the microorganism, oil, and minerals detached by ultrasonic vibration of the ultrasonic oscillator 5a are reversed. Backwashing method using ultrasonic vibration, characterized in that the cleaning.