KR100622277B1 - High efficiency filtering equipment for a long hair - Google Patents

Abstract

The present invention relates to a rotary drum filtration device for removing substances suspended in water during water quality purification in water purification plants, water sources, sewage treatment plants, factories, hospitals, and buildings. By filtration, the thick filtration layer, which is formed by laying down the long hair fibers by water pressure during filtration, effectively attaches and removes micro suspended solids and algae, and backwashing uses compressed air. The rate of backwash generated is significantly lowered.

In addition, the long-term fiber used at this time is made of acrylic fiber, which is inexpensive and resistant to disinfecting chemicals, so that the replacement cycle of the filter medium through chlorine disinfection can be extended, thereby lowering the maintenance cost.

     Long hair, filtration device, water purification, drum

Description

High efficiency filtering equipment for a long hair}

1 is a schematic configuration diagram of the present invention.

Figure 2 is a partially cutaway perspective view showing the arrangement of the present invention.

Figure 3 is an exploded perspective view of the drum and the filter medium of the present invention.

Figure 4 is a perspective view of a state in which the filter medium is mounted on the drum of the present invention.

<Description of the symbols for the main parts of the drawings>

1: Raw water feed pump 2: Drive motor

3: compressed air injection pump 4: compressed air injection pipe

5: suction pump 6: backwash water discharge pipe

10: tank 20: drum

30: filter medium 31: support cloth

32: long hair fiber 40: filtered water discharge pipe

50: filtered water tank 60: silver nano-ceramic treatment tank

The present invention relates to a rotary drum type filtration apparatus for removing substances suspended in water during water purification in water purification plants, water sources, sewage treatment plants, factories, hospitals, buildings, and the like. The thick filtration layer due to the lay-down of long hair fibers caused by the hydraulic action can effectively remove the difficult to remove fine suspended solids and agar-like algae, and backwashing can significantly reduce the backwash rate generated by using compressed air. It would be.

In addition, the filter medium can reduce the cost of maintenance by preventing the blockage through chlorine disinfection to extend the replacement cycle.

At present, water generated in water treatment plant, water source, sewage treatment plant in water purification plant, water source, sewage terminal treatment plant, factory, hospital, building, etc. contains agar-like substances such as activated sludge, algae, flocculation flocs, and most of these substances Is small and exists in a suspended state.

Therefore, these suspended solids are treated by a filtration method using a sand filtration layer or by a filtration method using a microstrainer equipped with a mesh-type filter on a rotating drum.

However, the filtration method using sand not only requires a lot of equipment cost but also requires a large installation area, so it is not easy to apply in small factories, hospitals, buildings, etc. The filtration method using a microstrainer is a sand filtration method. On the other hand, the installation area is significantly reduced, whereas active sludge, flocculation flocs, and agar-like algae pass through the fine net of the filter medium or get caught in the net to cover the net, which greatly reduces the processing efficiency. It is.

In other words, the microstrainer is attached to the outer circumference of the rotating cylindrical drum, and the stainless steel mesh having a diameter of about 35 μm is mounted with a filter medium, and the raw water is passed from the inside of the drum to the outside so that suspended matter is caught by the filter medium. In general, activated sludge, flocculation flocs, and agar-like algae, which have a size of 20 μm, are not passed through as it is, and larger suspended solids are easily slipped through the mesh of the filter medium due to their characteristic slippery properties. I will not be able to remove it.

Therefore, it is possible to treat these substances by making the size of the filter medium smaller, but in this case, the processing capacity of the raw water to be treated per unit time becomes smaller and the amount of backwashing water is required, which leads to economic losses. In addition, when the passage speed of the raw water is increased as a solution to this problem, there is a problem that the treatment efficiency is lowered, which is not realized.

In addition, as the material of the filter medium used at this time, most of them are made of metal or synthetic fiber which is not corrosive by water and has excellent durability in order to prevent damage to the network. Since only the net washing of the filter medium is made, there is a problem that the blockage of the net often occurs.

      In addition, as shown in the microstrainer, 2/5 of the drum is exposed out of the water surface and 3/5 is rotated in a state of being submerged, so that the backwash is performed by filtration and simultaneous operation so that the filtration is not performed as much as the area that is not submerged. In order to use the high pressure washing water for backwashing, the power cost is high, and the backwashing rate is high, so there is a problem in the treatment of the backwashing water.

Therefore, the filtration device of the present invention is to solve all of the above-described problems, and is equipped with a filter medium to be planted with a long hair state of acrylic fiber in the support fabric on the outer surface of the drum, and the drum of the tank The entire water tank is installed inside the water tank, and the water tank has a height level such that water pressure is applied so that the raw water to be processed can be passed from the outside of the drum to the inside of the drum. The mother-of-pearl is laid down so that a thick filtration layer is formed.

      In addition, the attachment of the filter medium is to reduce the amount of backwash water generated by introducing compressed air into the drum to be desorbed by the compressed air to be removed by a suction method using a suction pump.

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

First, Figure 1 is a schematic configuration diagram according to the processing flow of the present invention, Figure 2 is a partial cutaway perspective view showing the configuration according to the arrangement of the present invention, the raw water to be treated by the raw water feed pump (1) is introduced The water tank 10 and the drum 20 of the water-permeable structure to be rotated by the drive motor 2 in the state in which the whole is submerged by the raw water filled in the tank 10 to be filled, and the The filter body 30, which is fixed to the outer circumferential surface of the drum 20 and densely laid with long hair fibers 32, which are densely planted on the support fabric 31 by water pressure, is formed so that a filtration layer is formed, and is collected inside the drum 20. The filtered filtrate is discharged through the filtrate discharge pipe 40 so as to be maintained lower than the water level of the water tank 10 to maintain a uniform water pressure in the water tank 10, and a compressed air injection pump ( 3) supplied Compressed air injection pipe 4 for injecting compressed air to any portion of the inner circumferential surface of the drum 40 to degas the filtrate attached to the filter body 30 so that back washing is performed, and the filter body 30. It is composed of a backwash water discharge pipe (6) for suctioning the backwash water containing the filtrate removed from the suction pump (5) to be discharged.

At this time, the support fabric 31 of the filter body 30 is formed in the form of a water-repellent net as shown in FIG. 3 so as to be planted in such a way that the long hair fibers 32 are joined by walking. The long hair fibers 32 planted on the support fabric 31 are inexpensive, resistant to disinfectants (chlorine), and have strong molecular cohesive strength. Are coarsely twisted or superimposed on each other so that the pores are formed therebetween so that the filtrate can be attached well between the pores.

In this case, when the length of the long hair fibers is less than 35 mm, the filtration efficiency is lowered because the long hair fibers are not laid down well, and when the length is longer than 80 mm, the backwashing rate is lowered because the long hair fibers laid down during the backwashing are not easily generated. It is possible to obtain an excellent treatment efficiency by making the length of the long hair fibers 32 within the above range.

In addition, the filter body 30 is to be detached / attached to the outer peripheral surface of the drum 20 is to be used to replace, for this purpose, the filter body 30 and the drum 20 to the various forms of detachable / attached means It is to be formed integrally or to provide a separate detachment / attachment means.

For example, as illustrated in FIGS. 3 and 4, the indentation grooves 21 having a predetermined depth are formed on both side edge surfaces of the drum 20, and the filter body 30 is formed of the support cloth 31. Inserting both sides of the filter body 30 into the grooves 21 of the drum 20 when the coupling to the drum 20 by not leaving the long hair fibers 32 on both sides, and then inserting the insertion string 34 You can use it to fix it.

At this time, the filter body 30 is provided in a planar manner, and a binding means 33 capable of bending wires or metal plates, etc., is formed at the edge of the filter body 30 so as to be firmly fixed to the filter body 30 so as to enable rotation of the drum 20. It is to facilitate the replacement operation by facilitating the removal / attachment while preventing any missing of the filter medium (30).

In addition, the inlet 11 of the water tank 10 has a width at least equal to the width of the filtration surface of the filter body 30 so as to uniformly pass raw water to the entire filtration surface of the filter body 30 as shown in FIG. 2. Raw water equalizing pipe 6b having an outlet 6a is connected, and a conveying port 11a for conveying the raw water overflowed when the raw water is filled above the set water level when continuously operated above the water tank 10. ) And a drain 11b for extracting untreated raw water under the water tank 10.

In addition, the filtered water discharge pipe 40 is formed in the center of the drum 20 to be used as a drive shaft and the main pipe 41 to allow the filtered water collected in the drum 20 to flow through the filtered water inlet (41a) and One end is coupled to the main pipe (41) is made of an extension pipe (42) extending to the filtrate tank 50 to flow out the filtered water to the filtrate tank 50 through the filtrate outlet (42a).

In addition, the filtrate tank 50 forms two partitioned filtrate tanks 51 and 52 by the partition wall 53. At this time, the filtrate tank 51 at the front end is filtered water discharged from the filtrate discharge pipe 40. Is accommodated in the tank, so that only the water level of the same height as the highest height of the drum 10 mounted inside the water tank 10 can be filled, the rear filter water tank 52 is over from the front filter water tank 51 By flowing the filtered water is to be accommodated so that the water pressure applied to the drum 20 can be always maintained the same.

That is, the water level of the filtrate tank 51 of the front end is kept equal to the height of the upper end of the drum 20 mounted inside the water tank 10, so that the water pressure acts as much as the water level difference between the water tank 10 and the filtrate tank 51. By doing so, the raw water is to pass from the outside of the drum 20 to the inside by the hydraulic pressure.

At this time, the water pressure (ΔH) acting on the drum 20 from the water tank 10 is to select the position of the drum 20 to act about 40 ~ 60mmAq to obtain an excellent filtration effect.

In addition, the backwash water discharged through the backwash water discharge pipe 6 includes air injected for backwashing, and the backwash water discharged is stored in the gas / liquid separator 70 so that the air is sucked into the suction pump 5. It is to be sucked by the exhaust by the exhaust to be separated from the backwash water, and the separated backwash water is drained to be treated through various treatment methods.

      In addition, the discharge portion of the compressed air inlet pipe 4 and the suction portion of the backwash water discharge pipe 6 are extended so as to almost contact the drum 20 and the filter body 30, and the drum 20 and the filter body ( The discharge portion and the suction portion are formed as much as the width of 30 so that high backwash efficiency can be obtained.

      In addition, the present invention, the silver nano-ceramic treatment tank 60 containing the silver ceramic ball 61 in the interior so as to simultaneously remove heavy metals, E. coli, odors, etc. contained in the treated water discharged through the filtered water tank (50) It can be further formed to obtain a higher efficiency of the treated water.

      Therefore, the suspended solids filtration device of the present invention configured as described above, when the raw water to be processed into the water tank 10 is filled up to a certain level, as shown in Figure 1, while the drum 20 is completely submerged while rotating As the raw water filled in the water tank 10 passes from the outside of the drum 20 to the inside by water pressure, the suspended solids are filtered by the filter body 30 fixed to the outside of the drum 20. The 30 is laid down so that the long hair fibers 32 planted in the support fabric 31 are stacked in the rotational direction of the drum 20 so that a thick filtration layer is formed, so that it is difficult to remove ordinary suspended solids in the filtration layer. Activated sludge, flocculation flocs, and agar-green algae will be caught and attached between the stacked long hair fibers 32.

       Thereafter, only the filtered water is collected inside the drum 20 and is introduced into the filtered water tank 50 through the filtered water discharge pipe 40 so as to have the same water level as the upper water level of the drum 20 mounted inside the water tank 10. By being filled, the water pressure as much as the water level difference between the water tank 10 and the filtered water tank 51 is kept constant, and the filtration occurs at the same speed.

        In addition, the filtrate caught on the filter body 30 is the filter medium fixed to the portion of the compressed air passed through the drum 20 in the reverse direction of the raw water when the compressed air is supplied to the inside of the rotating drum 20 ( The filtrate caught by the long hair fiber 32 is degassed by instantaneously raising the long hair fiber 32 of 30), and the exhausted filtrate is backwash water discharge pipe 6 by the suction pump 5. It will be discharged through.

        Hereinafter, an embodiment using the same concentration of raw water filtration device of the present invention, a conventional rapid sand filtration device and a microstrainer is shown, and the raw water to be applied to the embodiment is 100 ppm of suspended solids (SS), algae 1,000 / One having a concentration of ml was used.

      Processing efficiency    SS (%)     Birds (%)   Filtration rate (m / day)    Site area (relative number)  Remarks        The present invention      90       93          800         One     Rapid sand filtration      60       40          300        10  Micro Strainer      40       15          500         One

       According to the above embodiment, it can be seen that the treatment efficiency of SS and algae treated using the filtration device of the present invention was higher than the treatment efficiency using the rapid sand filtration device and the microstrainer, and the filtration speed was faster. It can be confirmed that there is a large amount of raw water that can be processed per hour.

The removal of suspended solids using the filtration device of the present invention can remove fine agglomerated flocs and activated sludge, as well as agar water that could not be removed from the microstrainer, and is less expensive to filter than the conventional filtration method using a microstrainer. It is economical because it has long replacement cycle and it requires about 1/10 of the land area required by sand filtration method, which can greatly reduce the land area and also in buildings, factories, etc. where the area is absolutely insufficient. It is possible to install, and the filtration area is larger than that of microstrainer, so that a large amount of water can be treated in the same time.

Therefore, in the reality that the standards for water are continuously strengthened, the treatment efficiency as well as the economic efficiency are sufficiently good.

Claims (7)

 The tank 10 is filled with raw water, the drum 20 is immersed by the raw water filled in the tank 10 and rotated by the drive motor 2, and fixed to the outer peripheral surface of the drum 20 And the long hair fibers 32 planted in the support fabric 31 by water pressure are laid down, and the filtration body 30 is formed to form a filtration layer, and the filtered water collected into the drum 20 is discharged through the filtration water discharge pipe 40. The filtered water tank 50 and the compressed air supplied by the compressed air injection pump 3 to be filled at a level lower than the water level of the water tank 10 to any part of the inner circumferential surface of the drum 40 to filter the filter medium. Compressed air inlet pipe (4) for backwashing of (30), the filtrate degassed from the filter body 30 and the air passing through the filter medium is sucked into the suction pump (5) to discharge Efficiency Water Purification Using Long Hair Consisting of a Backwash Water Discharge Pipe (6) Filtering device        According to claim 1, wherein the filter body 30 is a high-efficiency water purification filtration device using the long hair, characterized in that the long hair fibers, characterized in that the acrylic fiber is used for the long hair fibers (32).  According to claim 1 or claim 2, wherein the filter body 30 is characterized in that the long hair fibers 32 in the form of a yarn to coarse twist or overlap a plurality of ol to each other to form a gap therebetween. High efficiency water purification filter using According to claim 1, wherein the filtration tank 50 is formed by two partitioned filtration tanks 51, 52 by the partition 53, high efficiency water purification filter using a long hair, characterized in that 2. The filtration apparatus according to claim 1, wherein the backwash water discharged through the backwash water discharge pipe 6 is stored in the gas / liquid separator 70 so that only the backwash water from which the air is exhausted is drained.        The silver nano-ceramic treatment tank 60 in which the silver ceramic ball 61 is contained in the rear end of the filtered water tank 50 can simultaneously remove heavy metals, E. coli, odors, etc. contained in the discharge water. High efficiency water purification filtration device using long hair        The method of claim 1, wherein the filter body 30 is fixed to the inlet groove 21 formed on both sides of the drum 20 so that both sides of the support cloth 31 is inserted into the filter body 30 and fixed with the connecting string 34. High efficiency water purification filtration device using long hair

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