KR101150675B1 - The constant filtration system which has a backwash-water and the filtration method - Google Patents

Abstract

PURPOSE: A water filtering apparatus with a backwashing function and a filtering method using the same are provided to save costs required for installation and maintenance and to shorten times required for a back washing process based on low power. CONSTITUTION: A water filtering apparatus includes a sealed filtering tank. An air inlet(13), a water inlet(12), and a filtered water outlet(14) are arranged at the filtering tank. A spraying pipe(30) is formed at the upper inner side of the filtering tank. A filtering plate(40) is arranged at the lower inner side of the filtering tank. The filtering tank includes a buffer(50) with a plurality of through holes. A backwashing water outlet and a washing water inlet are arranged at the external sides of the water inlet and are in connection with an introducing pipe. An air introducing pipe with an air introducing valve is in connection with the backwashing inlet.

Description

Constant filtration system with backwashing function and filtration method using the same {The constant filtration system which has a backwash-water and the filtration method}

The present invention relates to a constant filtration device having a backwashing function and a filtration method using the same. More particularly, the filtrate is filled with a filtrate in the filtration tank to filter insoluble suspended matter present in the constant water flowing into the filtration tank with a filtrate. The constant backwashing process to remove the suspended matter adsorbed on the fibrous filter in the process in order to repeat the constant filtration and backwashing function to enable rapid and efficient filtration and backwashing through a small volume of filtration tank and It relates to a filtration method using the same.

In general, it is a filter device suitable for the pretreatment of activated carbon adsorption tower or membrane membrane facility for storing water, washing water, cooling water, etc. It is used for the purpose of removal.

At this time, the conventional filtration device that can be used to filter the water through a sand filter using a filter medium as sand or a micro filter using a precision material, but the cost of the micro filter is not only expensive In addition, due to cost problems such as replacement after a short time of use, it is unsuitable for use in water purification equipment that purifies ordinary water. Sand filter has low filtration efficiency to filter out suspended solids below 90%, and the filtration linear velocity is universal. 6 ~ 15 ㎡ / ㎡.hr, slow, backwashing line speed is also 20 ~ 40 ㎡ / ㎡.hr, high backwashing rate is required more than 10%, and the external pressure for filtration and backwashing is 3㎏ / In order to filter a large amount of water at a time because it requires more than cm 2, a larger filtration device or a plurality of filtration devices have been required.

In addition, the sand filter is a surface filtration method in which the filtration part is limited to only the surface of sand, so that the filtration efficiency is not significantly reduced as the filtration time is longer. There is a trend to enable filtration and backwashing by using special-purpose filter media such as filter media.

However, the filtration device and the filter device installed and used by the construction company or the user using the filtration device and the filtration device developed to date have a certain increase compared to the sand filter. However, there is a situation that does not solve the basic problem that the filtration efficiency or backwashing efficiency decreases step by step when used for a long time.

Accordingly, the present invention has been developed in order to eliminate the above-mentioned problems, and in the state in which the fibrous filter material is filled therein, insoluble and sticky suspensions are precisely filtered with the fibrous filter as necessary, or the suspended solids adsorbed to the fibrous filter during the filtration process. By constructing a filtration device to perform the backwashing process to quickly remove water and air by supplying only the water, air supply, pressure, and direction change, and improving the blockage phenomenon and backwashing efficiency of the filtration tank during the filtration process, The filtration tank also reduces backwash volume and backwash time, allowing for quick and efficient filtration and backwash, along with easy installation, repair, maintenance and maintenance, as well as reduced installation and maintenance and maintenance costs. To provide a constant filter to make This is to solve the above problem.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

The constant filtration device having a backwashing function and a filtration method using the same according to the present invention include an air outlet 13 and an inlet 12 for supplying constant water to an upper portion of an upper end portion of a sealed filtration tank 10 of a cylinder and a lower portion thereof. Discharge ports 14 for discharging the filtered water on the surface, respectively, the manhole 18 for injecting and discharging the filter material on the side of the sealed filtration tank 10 and the monitoring window 19 to visually check the filtration and backwashing conditions. In the conventional hermetic filtration apparatus for maintaining each divided into the upper and lower;

The main pipe 31 communicating with the inlet 12 and the spray pipe 30 composed of a plurality of distribution pipes 32 communicating with the main pipe 31 are configured inside the upper side of the filtration tank 10, but the main pipe A filter plate having a plurality of communication ports 33 on the side of the 31 and the distribution pipe 32, and having a plurality of open holes 42 and a plurality of filters 41 in the lower side of the filtration tank 10 ( 40 to form a filtration space (10a) for holding the fiber filter material 11, the buffer plate 51 formed with a plurality of communication holes 52 in the upper end of the outlet 14, the connecting plate 53 A sealed filtration tank 1a constituting the shock absorber 50 which is fixed by fixing to the filtration tank 10.

An air discharge pipe 24 having an air discharge valve 24a is formed outside the air discharge port 13 of the hermetic filtration tank 1a, and an inlet pipe 21 and a backwash discharge pipe 22 are disposed outside the inlet port 12. And the cleaning inlet pipe 23 is configured to communicate with the inlet port 12, respectively, but the inlet valve 21a is connected to the inlet pipe 21 to the backwash discharge pipe 22, and the backwash discharge valve 22a to the washing inlet pipe 23. Is provided with a washing inlet valve (23a), and configured to communicate with the outlet 14, the discharge pipe 27, the backwash inlet pipe 25 and the washing discharge pipe 28 on the outside of the outlet 14, the discharge pipe (27) The discharge valve 27a is provided with the backwash inlet pipe 25 and the backwash inlet valve 25a is provided with the flushing discharge pipe 28 and the washing outlet valve 28a, respectively, and the backwash inlet pipe 25 is provided with an air inlet valve 26a. A constant filtration device (1) having a backwashing function configured to communicate with the air inlet pipe (26) provided with;

The inlet water introduced through the inlet 12 by opening the outlet pipe 27 and the inlet pipe 21 is inside the filtration tank 1a at a pressure of 1 to 2 kg / cm 2 through the communication port 33 of the spray pipe 30. By passing through a plurality of fibrous filter material (11) at a filter linear velocity of 25 ~ 40㎥ / ㎡.hr so that the insoluble and sticky suspended matter contained in the inflow water adsorbed to the fiber filter material (11) A filtration process of converting the insoluble and sticky suspended solids into the filtered water (11) and discharging it to the discharge pipe 27 through the discharge port 14;

When the filtration linear velocity is 25 m 3 / m 2 .hr or less due to the insoluble and sticky suspended matter adsorbed on the fiber filter material 11 by the filtration process, the discharge pipe 27 and the inlet pipe 21 are sealed to stop the filtration process. Then, the backwash inlet pipe 25 and the air inlet pipe 26 and the backwash discharge pipe 22 and the air outlet pipe 24 are opened to communicate with the outlet 14 and the backwash inlet pipe 25 and the air inlet pipe 26. Backwash water containing compressed air to maintain the ratio of backwash water and compressed air to each other through 45 ~ 55% through the flow into the outlet 14 at a pressure of 2 ~ 4㎏ / ㎠ and the buffer configured at the top of the outlet (14) Due to the 50, the backwash water containing the compressed air is scattered from the bottom of the filtration tank 1a to the upper part, and is uniformly dispersed and passed through the plurality of open holes 42 and the filter 41 provided in the filter plate 40. Backwash water containing a number of fine air bubbles generated as it enters the space 10a While rising from the filtration space 10a at a filtration line speed of 15 to 20 ㎥ / m 2 .hr, the entire filtrate 11 is floated inside the filtration space 10a and at the same time separated from each other to be expanded to its original shape. By separating the insoluble and sticky suspended matter adsorbed on the surface of the fiber filter material 11 with fine air droplets, the backwash discharge pipe through the plurality of communication holes 33 formed in the spray pipe 30 together with the backwashed water. A backwashing process for allowing the fine air bubbles to be discharged through the air outlet 13 at the same time as it is discharged to the 22;

When the backwashing process is completed, the backwashing inlet pipe 25 and the backwashing discharge pipe 22 are sealed, and the washing and discharging pipe 28 is opened to retain the residual backwashing water containing solids and insoluble and sticky suspended solids maintained at the bottom of the filtration tank 1a. Due to the natural discharge by gravity, the fibrous filter material 11, which floats and moves due to the backwash water in the filtration space 10a, is sequentially seated from the upper end to the lower end where the backwash water is discharged, and thus, due to its own weight of water. A backwash water discharging process that contracts and adheres to each other simultaneously;

When the backwash water discharge process is completed, the washing inlet pipe 23 is opened, and the washing water is introduced into the filtration tank 1a at a pressure of 1 to 2 kg / cm 2 through the communication port 33 of the spray pipe 30. A constant filtration device having a backwashing function consisting of a washing process to completely remove solids and insoluble and sticky suspended matter remaining in the filtration tank 1a by moving from top to bottom at a filtration line speed of ˜40㎥ / m 2 .hr. It relates to a filtration method used.

As described above, the constant filtration device having the backwashing function and the filtration method using the same of the present invention improve the blockage phenomenon and the backwashing efficiency of the filtration tank during the filtration process, so that the backwashing quantity and backwashing through the small volume filtration tank with less power It can save time and reduce the cost of installation and maintenance and maintenance as well as easy and efficient filtration and backwashing. It is a very large and large invention that can be installed in a narrow space and can be easily used for a long time.

1 is a block diagram showing an embodiment of a preferred filtration method of the present invention.
Figure 2 is a cross-sectional view showing a filtration device showing a preferred embodiment of the present invention.
Figure 2a is a cross-sectional view of a filtration tank showing a preferred embodiment of the present invention.
Figure 2b is a cross-sectional view of a filtration tank showing another embodiment of the present invention.
Figure 3 is a cross-sectional view showing an embodiment of a preferred filtration process of the present invention.
Figure 4 is a cross-sectional view showing an embodiment of a preferred backwashing process of the present invention.
Figure 5 is a cross-sectional view showing an embodiment of a preferred discharge process of the present invention.
Figure 6 is a cross-sectional view showing an embodiment of a preferred washing process of the present invention.
Fig. 7 is a view showing the construction of a spray tube showing a plan view and a front view of a preferred spray tube of the present invention.
8 is a configuration of the filter plate showing a plan view, a front view, and enlarged parts of a preferred filter plate of the present invention.
8A is a configuration of a separator plate showing a plan view and a front view and a main portion enlarged view of a preferred separator plate of the present invention.
9 is a buffer configuration diagram showing a plan view and a front view of a preferred shock absorber of the present invention.

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

That is, the constant filtration device (1) having a backwashing function according to the present invention is typically an inlet (12) for supplying water to the upper portion of the air outlet 13 and the upper portion of the closed filtration tank 10 of the cylindrical and A discharge hole 14 for discharging the filtered water is provided on the lower surface, and the manhole 18 for injecting and discharging the filter material into the filtration space formed inside the sealed filtration tank 1a and the filtration and backwashing state can be visually checked. After the monitoring window (19) is divided into the lower part of the upper side of the filtration tank (1a) to form a closed filtration tank, and the required supply water and each of the drain pipes through which the filtration water is supplied and discharged according to the filtration method and a valve for sealing each drain pipe; A pump (not shown) for supplying and discharging the feed water, the filtered water, and the backwash water through the drainage path is installed to supply the feed water to the filtration tank. To enable a filtrate.

Thus, in the present invention, the configuration of the filtration tank as shown in Fig. 2 and 2a is a constant filtration device having a backwashing function according to the present invention and a filtration method using the same is a constant filtration device having a backwashing function according to the present invention and the same The filtration method used is provided with an air outlet (13) and an inlet (12) for supplying constant water to the upper portion and an outlet (14) for discharging the filtered water on the lower surface of the cylindrical filtration tank (10). , A conventional hermetic filtration tank for maintaining the manhole 18 for injecting and discharging the filter medium into the side of the hermetic filtration tank 10 and the monitoring window 19 for visually confirming the filtration and backwashing conditions, respectively, divided into upper and lower portions. To;

The main pipe 31 communicating with the inlet 12 and the spray pipe 30 composed of a plurality of distribution pipes 32 communicating with the main pipe 31 are configured inside the upper side of the filtration tank 10, but the main pipe A filter plate having a plurality of communication ports 33 on the side of the 31 and the distribution pipe 32, and having a plurality of open holes 42 and a plurality of filters 41 in the lower side of the filtration tank 10 ( 40 to form a filtration space (10a) for holding the fiber filter material 11, the buffer plate 51 formed with a plurality of communication holes 52 in the upper end of the outlet 14, the connecting plate 53 A sealed filtration tank 1a constituting the shock absorber 50 which is fixed by fixing to the filtration tank 10.

An air discharge pipe 24 having an air discharge valve 24a is formed outside the air discharge port 13 of the hermetic filtration tank 1a, and an inlet pipe 21 and a backwash discharge pipe 22 are disposed outside the inlet port 12. And the cleaning inlet pipe 23 is configured to communicate with the inlet port 12, respectively, but the inlet valve 21a is connected to the inlet pipe 21 to the backwash discharge pipe 22, and the backwash discharge valve 22a to the washing inlet pipe 23. Is provided with a washing inlet valve (23a), and configured to communicate with the outlet 14, the discharge pipe 27, the backwash inlet pipe 25 and the washing discharge pipe 28 on the outside of the outlet 14, the discharge pipe (27) The discharge valve 27a is provided with the backwash inlet pipe 25 and the backwash inlet valve 25a is provided with the flushing discharge pipe 28 and the washing outlet valve 28a, respectively, and the backwash inlet pipe 25 is provided with an air inlet valve 26a. It is to constitute a constant filtration device (1) having a backwashing function configured to communicate with the air inlet pipe (26).

At this time, the spray tube 30 maintains a cylindrical main tube 31, one end of which is open so as to communicate with the inlet 12 of the upper portion of the filtration tank 10 to seal the other end, the main tube While maintaining a constant distance in the longitudinal direction of the (31) while communicating in the cross-sectional direction of the main tube 31 to be symmetrical to form a plurality of cylindrical distribution pipes 32 of which end surfaces are closed, but the length of the main tube 31 The length of the distribution pipe 32 is shortened from the center in the direction to the end so that the spray pipe 30 can be maintained in the inner diameter of the filtration tank 10, and the main pipe 31 and the distribution pipe 32 The plurality of communication ports 33 to be formed are formed on the side of the main pipe 31 and the distribution pipe 32 when the spray pipe 30 is fixed to the inside diameter of the filtration tank 10 as a reference. It would be desirable to. (See Figure 7)

In addition, the filter plate 40 is configured to maintain a predetermined interval so that the plurality of open holes 42 and the plurality of filters 41 do not overlap each other in the disk 43 to maintain the same diameter as the inner diameter of the filtration tank 10. Preferably, the opening hole 42 maintains a function of allowing the compressed air in the backwash water to pass mainly through the backwash water, thereby maintaining the function of generating fine air while uniformly dispersing the compressed air, while the filter 41 ) Is a function of preventing the filtrate 11 from directly blocking the passage of the filtrate when the filtrate penetrates through a plurality of distribution holes 44 formed in the upper portion of the filter 41, and the backwashing water is mainly backwashed during the backwashing process. By dispersing and increasing the number, the filtrate 11 is evenly floated to maintain the function of increasing the backwashing effect. (See FIG. 8)

In addition, the buffer 50 is a backwashing process by fixing the buffer plate 51 formed with a plurality of communication holes 52 in the upper end of the outlet 14 to the filtration tank 10 by the connecting plate 53. In order to maintain the function to ensure that the backwash water and the compressed air introduced through the outlet 14 in the necessary configuration is evenly distributed at the lower end of the filtration tank 10 and evenly distributed into the filter plate 40 configured at the top. It is. (See FIG. 9)

Due to the filtration device of the present invention configured as described above it can be seen that the filtration operation and backwashing operation is very high filtration efficiency and backwashing efficiency with a small capacity filtration device.

First, the discharge valve 27a and the inlet valve 21a are operated to open the discharge pipe 27 and the inlet pipe 21 so that the constant water introduced through the inlet 12 passes through the communication port 33 of the spray pipe 30. Into the inside of the filtration tank (1a) at a pressure of 1 ~ 2㎏ / ㎠ through) through the compression of a plurality of fiber filter material 11 at a filtration line speed of 25 ~ 40㎥ / ㎡.hr The filtered insoluble and sticky suspended solids are adsorbed on the filtrate 11 so that the filtered water from which the insoluble and sticky suspended solids are removed by the fibrous filter 11 is discharged to the discharge pipe 27 through the outlet 14. . (See Figure 3)

That is, the fiber filter material (11) embedded in the filtration space (10a) is composed of a number of fine polyester fiber yarns of a predetermined length and then bundling the central portion with a fixing ring so that the polyester fiber yarns are formed in one ball shape As the filter medium for water purification, detailed description of the fiber filter material 11 itself will be omitted since it is a filter medium for water purification, which is designed and registered by the present inventors, Korean Utility Model No. 0425911.

In the state in which the ball-shaped fiber filter material 11 made of polyester fiber yarn is injected in the required amount into the filtration tank 10, a large number of voids are formed by the cilia in close contact with each other in the structural structure of the fiber filter material 11, Since the constant water flowing through the inlet pipe 21 is sprayed evenly from the upper portion of the filter medium through the communication port 33 of the spray tube 30, it absorbs moisture from the ball-shaped fibrous filter material 11 maintained at the upper part and thus weighs itself. In addition to repeating the water absorption and compression process up to the fiber filter material (11) to be maintained at the lower gradually while increasing the compression, as well as its own shape of the fiber filter material (11) and each fiber filter material (11) Close to each other, the gap is reduced.

At this time, if the inlet water pressure is a certain value, no further deformation of the fibrous filter material 11 occurs. Therefore, from the inlet pressure above a certain pressure, the amount of filtration and the filtration rate are deformed according to the inlet water pressure. In addition to controlling the amount of filtration in the filtration device (1) having a (10), the filtration efficiency is much higher than that of other filtration devices, and the efficiency of removing insoluble and sticky suspended solids contained in the constant is 90% or more. You can see this is quite high.

As described above, when the inflow water is transformed into the filtered water through the filtration process 100, the filtration linear velocity is 25 ㎥ because the filtration linear velocity is generally lowered due to the insoluble and sticky suspended matter adsorbed on the filtrate 11. If it proceeds to / m 2 / hr or less, the filtration efficiency in the present invention is lowered.

At this time, the discharge pipe 27 and the inlet pipe 21 are closed by operating the discharge valve 27a and the inlet valve 21a to stop the filtration process, and then the backwash inlet pipe 25 and the air inlet pipe 26 and backwash The discharge pipe 22 and the air discharge pipe 24 are opened by the operation of the respective backwash inlet valve 25a, the air inlet valve 26a, and the backwash discharge valve 22a and the air discharge valve 24a, respectively. The backwash water containing compressed air is maintained at a pressure of 2 to 4 kg / cm2 through the backwashing inlet pipe 25 and the air inlet pipe 26 so that the ratio of the backwashing water and the compressed air is maintained at 45 to 55%. A plurality of openings provided in the filter plate 40 by allowing the backwash water containing the compressed air to rise from the bottom of the filtration tank 1a to the upper portion due to the buffer 50 formed at the top of the outlet 14 by flowing into the outlet 14. A plurality of generated by being uniformly distributed to the hole 42 and the filter 41 to enter the filtration space (10a) while passing through As the backwash water containing fine air bubbles rises in the filtration space 10a at a filtration line speed of 15 to 20 m 3 / m 2 .hr, the entire filtrate 11 is floated in the filtration space 10a and separated from each other. By inflating to the original shape by separating the insoluble and sticky suspended matter adsorbed on the surface of each fibrous filter 11 with fine air bubbles, the backwashing process 200 is made easy.

In addition, since the insoluble and sticky suspended solids are discharged to the backwash discharge pipe 22 through the plurality of communication holes 33 formed in the spray pipe 30 together with the backwash water, the fiber filter material 11 retained in the filtration space 10a. It prevents the loss, and the micro air bubbles distributed inside the backwash water are naturally discharged through the air outlet 13 so that the backwash discharge pipe has a function of naturally separating unnecessary compressed air into the backwash water discharged to the backwash discharge pipe 22. By reducing the pressure of the backwash water discharged to (22) to improve the discharge flow of the backwash water while preventing the generation of noise caused by the air, the filtered water generated in the filtration process the amount of backwash water used in the backwashing process (200) It can be seen that the backwashing time can be completed in less than 4% of the time, and the backwashing time can be completed within 5 to 15 minutes.

As well as the solids and insoluble and sticky suspended solids attached to the surface of the fiber filter material 11 to be maintained in the filtration space (10a) is removed through the backwashing process (200), and is mostly discharged through the backwash discharge pipe (22), The backwash inlet pipe 25 and the backwash discharge pipe 22 are operated by closing the backwash inlet valve 25a and the backwash discharge valve 22a, respectively, and the washing and discharging pipe 28 is opened by the washing and discharging valve 28a to filter the tank. 10) Self-injection into the outlet 14 formed at the lower end of the filtration tank 10 together with the air flowing naturally into the air inlet pipe 26 with the solid water remaining inside and the residual backwash water containing insoluble and sticky suspended solids. It is to allow the backwash water discharge process 300 to be discharged through the natural discharge is discharged through the washing discharge pipe (28).

Thus, the backwash water discharge process in which the fibrous filter material 11, which floats and moves due to the backwashing water containing fine air in the filtration space 10a, is discharged through the outlet 14 formed at the lower end of the filtration tank 10. Filtration tank 11 while the fiber filter material (11) is seated sequentially from the upper end to the lower end of the filtration space (10a) in which the backwash water is extinguished due to its own weight that contains water, while allowing the fiber filtration tank ( Natural seating is completed in the upper end of the filter plate 40 configured at the bottom of 10) to complete the backwash water discharge process (300).

Finally, when the backwash water is completely discharged from the filtration tank 10 through the backwash water discharge process 300 as described above, the washing inlet pipe 23 is opened to the washing inlet valve 23a and the air outlet pipe 24 is discharged from the air. Sealed by the valve 24a, the washing water flows into the filtration tank 1a at a pressure of 1 to 2 kg / cm 2 through the communication port 33 of the spray pipe 30, and then 25 to 40 m 3 / m 2 .hr filter line. It is a method for completely removing the solids and insoluble and sticky suspended solids remaining in the filtration tank 10 through the washing process 400 to move from the top to the bottom while maintaining the speed.

In addition, as shown in FIG. 2B, the separator 40a maintains an outer diameter equal to the inner diameter of the filtration tank 10 at the center of the filtration space 10a of the filtration tank 10 and has a plurality of open holes 42. By forming a plurality of filtration space divided into the upper filtration space (10b) and the lower filtration space (10c) to ensure a plurality of filtration space in one filtration tank to further improve the filtration efficiency and backwash efficiency It can be seen.

That is, during the filtration process 100, the discharge valve 27a and the inlet valve 21a are operated to open the discharge pipe 27 and the inlet pipe 21 to supply the purified water introduced through the inlet 12 to the spray pipe 30. Through the communication port 33 of the upper filtration space (10b) at a pressure of 1 ~ 2㎏ / ㎠ to move from the top to the lower filter line speed of 25 ~ 40㎥ / ㎡.hr in the upper filtration space (10b) Since the filtered fiber filter material 11 is compressed while passing, the insoluble and sticky suspended matter contained in the constant water is adsorbed to the fiber filter material 11 and the primary filtration process is performed. Residual insolubility and adhesiveness contained in the primary filtrate because it passes through the open hole 42 of the inner filtration water to enter the upper part of the lower filtration space (10c) while compressing the fibrous filter material (11) filled in the lower filtration space (10c) Filtrate filtered by suspended matter adsorbed to the filtrate (11) and the secondary filtration process Greater than 10, it can be seen the progresses as the filtration process 100, which through the filter 41 and the opening hole 42 of the filter plate 40 is configured to lower to release to the discharge pipe 27 through an outlet 14.

In addition, the backwashing process 200 also stops the filtration process by closing the discharge pipe 27 and the inlet pipe 21 by operating the discharge valve 27a and the inlet valve 21a when the filtration process 100 is completed. The backwash inlet pipe 25, the air inlet pipe 26, the backwash discharge pipe 22, and the air outlet pipe 24 are respectively backwashed inlet valve 25a, air inlet valve 26a, and backwash discharge valve 22a and air. Compression to open the discharge valve 24a to maintain the ratio of backwash water and compressed air to each other through the backwash inlet pipe 25 and the air inlet pipe 26 communicating with the outlet 14. Backwashing water containing air flows into the outlet 14 at a pressure of 2-4 kg / cm 2, and the backwashing water containing compressed air is absorbed by the buffer 50 configured at the top of the outlet 14 from the bottom of the filtration tank 1a to the top. As it rises while flying, it is uniformly dispersed in the plurality of opening holes 42 and the filter 41 provided in the filter plate 40 and passes through The backwash water containing a plurality of fine air bubbles generated as it is introduced into the filtration space 10c rises from the bottom filtration space 10c at a filtration line speed of 15 to 20 m 3 / m 2 .hr while the lower filtration space 10c The entire fiber filter material 11 filled therein is floated in the lower filtration space 10c and at the same time, separated from each other so as to expand to its original shape, so that the insoluble and sticky suspended matter adsorbed on the surface of each fiber filter material 11 is fine. After the first backwashing process to separate the air bubbles first, the backwashed water backwashed by the pressure of the backwashing water flows into the upper part of the upper filtration space 10b through the opening hole 42 of the separating plate 40a, The insoluble adsorbed on the surface of each fibrous filter 11 by infusing the fibrous filter material 11 filled in the space 10b inside the upper filter space 10b and separating them from each other to expand to its original shape. The secondary backwashing process of separating the adhesive suspended solids into the micro air bubbles is performed to facilitate the backwashing process 200 of sequentially separating the insoluble and sticky suspended matter attached to the fibrous filter 11 from the fibrous filter 11. will be.

As described above, since the filtration tank 10 is formed by separating the filtrate 11 and filling the filtration space 10a, the filtration process 10 and the backwashing process 200 are performed by one apparatus. You can see the same effect as going through.

At this time, as shown in Table 1 below, the present inventors repeated the filtration efficiency according to the filling ratio of the fiber filter material (11) filling the upper filtration space (10b) and the lower filtration space (10c). It can be seen that.

division
Filter fill rate
(volume%)
Float Removal Rate (%)
Backwash rate (%)

Remarks By filtration space Whole filter

Filtration space
division

Upper filtration space 30% by volume 65%
93%
2-4%




Bottom filtration space 70% by volume 80% Upper filtration space 50% by volume 75%
91.3%
2-4% Bottom filtration space 50% by volume 65% Upper filtration space 70% by volume 80%
91%
2-4% Bottom filtration space 30% by volume 55%

The filling ratio of the fiber filter material 11 in the entire space of the upper filter space (10b) to 30% by volume and the filling ratio of the fiber filter material (11) in the entire space of the lower filter space (10c) to 70% by volume As can be seen that the most efficient filling ratio, it can be seen that the efficiency of the filtration tank 10 of the present invention configured by separating the filtration space 10a into the upper filtration space 10b and the lower filtration space 10c, respectively, is more efficient. have.

The constant filtration device having a backwashing function and a filtration method using the same of the present invention configured and acted as described above are the filtration process 100 and the backwash process 200 and the backwash water discharge process 300 and the washing process ( Filtration method of proceeding 400) in order to repeat the backwashing operation of the highly efficient water filtration work as necessary to omit the backwash water discharge process (300), if necessary, the filtration process (100) and backwashing process (200) And only the washing process 400 may proceed sequentially, but in an efficient aspect it would be preferable to go through all the processes.

At this time, the signals of the various sensors and switches for operating the pump (not shown) and the valve used in the present invention can be automatically and continuously progressed through an electrical / electronic control system. Since a control method that can be used in general is used to provide a separate control device, a detailed description thereof will be omitted. (Not shown)

The constant filtration device having a backwashing function and the filtration method using the same of the present invention configured and operated as described above improves the clogging phenomenon and backwashing efficiency of the filtration tank during the filtration process, and thus backwashing through a small volume filtration tank with less power. Reduced volume and backwashing time to enable fast and efficient filtration and backwashing, ease of installation and repair management and maintenance, as well as reduce installation and maintenance and maintenance costs. It is an invention that can be usefully used by modern people living in environmental pollution because there are many expected things that can be easily used for a long time by installing the filtration device in a narrow space.

1: filtration apparatus 1a: filtration tank
10: filtration tank 10a: filtration space
10b: upper filtration space 10c: lower filtration space
11: fiber filter material 12: inlet
13: air inlet 14: outlet
21: inlet pipe 22: backwash discharge pipe
23: cleaning inlet pipe 24: air discharge pipe
25: backwash inlet tube 26: air inlet tube
27: discharge pipe 28: cleaning discharge pipe
30: spray tube 33: communication port
40: filter plate 40a: separator plate
50: buffer 100: filtration process
200: backwashing process 300: backwashing process
400: washing process

Claims (5)

An airtight filtration tank having an air outlet 13 and an inlet 12 for supplying constant water to an upper portion of the cylindrical hermetic filtration tank 10 and an outlet 14 for discharging the filtered water on the lower surface thereof. 10);
The main pipe 31 communicating with the inlet 12 and the spray pipe 30 composed of a plurality of distribution pipes 32 in communication with the main pipe 31, the filter tank 10 inside the upper side of the main A filter plate having a plurality of communication ports 33 on the side of the pipe 31 and the distribution pipe 32, and having a plurality of open holes 42 and a plurality of filters 41 in the lower side of the filtering tank 10. The separator 40 is configured to maintain the same outer diameter as the inner diameter of the filtration tank 10 at the center of the filtration space 10a in which the fiber filter material 11 is maintained, and has a plurality of opening holes 42. ) To form a plurality of filtration space (10a) divided into the upper filtration space (10b) and the lower filtration space (10c), the filling ratio of the fiber filter material 11 in the entire space of the upper filtration space (10b) To 30% by volume and the filling ratio of the fiber filter material 11 to 70% by volume in the entire space of the lower filtration space (10c), a plurality of smoke at the upper end of the outlet (14) An air discharge valve (3) outside the air outlet (13) of the sealed filtration tank (1a) that constitutes the shock absorber (50) formed by fixing the buffer plate (51) formed with the ball (52) to the filtration tank (10) with the connecting plate (53). The air discharge pipe 24 having the 24a) and the inlet pipe 21, the backwash discharge pipe 22 and the washing inlet pipe 23 are configured to communicate with the inlet 12, respectively, outside the inlet (12). , The inlet valve 21a at the inlet pipe 21, the backwash discharge valve 22a at the backwash discharge pipe 22, and the wash inlet valve 23a at the washing inlet pipe 23, and the outside of the outlet 14. The discharge pipe 27, the backwash inlet pipe 25 and the washing discharge pipe 28 are configured to communicate with the outlet 14, respectively, but the discharge valve 27a is discharged into the discharge pipe 27 to the backwash inlet pipe 25 The valve 25a is provided with a washing discharge valve 28a in the washing discharge pipe 28 and an air inlet pipe 26 having an air inlet valve 26a in the backwash inlet pipe 25 communicates with each other. Constant filtration device with backwashing function. delete delete delete delete

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