KR101516314B1 - Spiral Filtration meterials using water purification device - Google Patents

Abstract

The present invention relates to a water purification apparatus using a spiral filter medium capable of high-speed and high-efficiency water treatment by improving the performance of a spiral filter medium. The water purification apparatus includes an upper chamber in which an inlet for wastewater and a foreign matter recovery port are formed, And a lower chamber in which an air pump line is formed can be coupled by a clamper, an air chuck is installed at an inner lower end of the lower chamber, a plurality of spiral filter media are loaded, a diffuser is installed in an upper end of the upper chamber, Line is connected to the air compressor through a check valve, and each valve is provided in the waste water inlet, the foreign matter recovery port, the purified water outlet, and the water supply line.

Description

[0001] Spiral filtration meterials using water purification device [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water purification apparatus using a spiral filter medium capable of high-speed and high-efficiency water treatment by improving the performance of a spiral filter medium, and more particularly to a water purification apparatus using a diffuser (Air endplate), the spiral filter medium is injected between them, the wastewater is sprayed, filtered and purified. The contaminated chamber and the spiral filter medium pumped air and water from the lower air pump and water supply line of the chamber, And a water purification apparatus capable of discharging impurities.

The spiral filter medium is formed by a spiral-shaped corrugated structure with a gap of various sizes and capable of both physical filtration and biofiltration. When the water passes through the spiral filter medium, the water is dispersed to form many vortices, Since the water does not stagnate and the water pressure does not pass through the gap of various sizes inside the filter medium, it has high filtration capacity of up to 800 m 2 per 1 m 2, which is 2-3 times higher than that of the conventional water treatment machine.

In addition, the suspended matter collected during cleaning can be released into the gap at one time by stirring and rotating force, so that the consumption of power and water can be reduced to 1 / 5-1 / 10 compared with the conventional one. Especially, 3-4 days after installation, (Aerobic bacteria culture) is formed on the surface of the bacteria that decompose the pollutants, and bacterial biofilm can perform microbial filtration to reduce contaminated water to raw water.

In the conventional water purification apparatus, physical treatment and microbial treatment are proposed. The physical treatment apparatus is formed in a structure to be filtered in a small space, and the filter has been developed as a filter medium having a small porous property such as sand, activated carbon and ceramic.

If the porosity of the porous filter medium is reduced during filtration and purification, the filtration performance is always maintained. However, there is a problem such that clogging phenomenon occurs and a large amount of water treatment can not be performed and the filter medium is frequently cleaned. There was an inefficiency problem.

In addition, the cost of operating the filtration materials according to the amount of backwash per 10㎡ / h of treated water (backwatershed water + boiler fuel cost) was 2,344,600 won for ceramics and 2,930,750 won for sand.

The microbial treatment apparatus uses bacteria to treat organic matter in contaminated ozone and wastewater to purify wastewater, and bacteria are introduced into the treatment tank to grow organic substances.

The above-described microorganism treatment apparatus can treat not only organic matter but also wastewater containing nitric acid, phosphoric acid and heavy metals by using various physiological characteristics of bacteria by economical and stable treatment method as compared with physical and chemical methods. However, There is a need for a purification device using a filter material, that is, a spiral filter material, which can be cultured by adsorbing bacteria contained in wastewater without injecting bacteria.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a spiral filtration material that can be filtered and purified by dual effect of simultaneously accommodating physical filtration and biological filtration of waste water, A diffuser and an air suspension plate are installed on the upper and lower sides of the chamber in which the spiral filter medium is filled so as to maximize its performance more than 8-10 times when using the air pump and the air filter and the water supply line Thereby making it possible to provide a water purification apparatus capable of easily removing foreign matter and impurities in a short time.

The present invention is characterized in that the lower chamber is formed with an upper chamber in which a wastewater inlet and a foreign matter collection port are formed in an upper part, a lower chamber in which a purified water discharge port, a water supply line and an air pump line are formed, A plurality of spiral filter media are installed in the upper chamber, a diffuser is installed in the upper end of the upper chamber, the air pump line is connected to the air compressor through a check valve, and the ozone water inlet, the foreign matter collection port, the purified water outlet, And each valve is provided in a line.

In addition, the diffuser has a cap shape, a conical dispersing rod is formed at the center of the bottom, a supporting bracket is supported by the support bracket on the outside, a water tank and a hole are drilled on a part of the floor, And a plurality of air holes are drilled in the dish-shaped bottom surface, and a connecting hole is formed in the lower part of the discharge rod. The air hole is formed in the center of the dish-shaped bottom, do.

Therefore, the water purification apparatus of the present invention can be used in the fields of air conditioning, heating, bath, swimming pool, fish farm, botanical garden and livestock farmhouse to improve the quality of water and promote growth of agriculture and aquatic products. (DOD) by removing more than 80% of biological oxygen demand (BOD), chemical oxygen demand (COD) and turbidity (SS) Filtration capacity and can be treated at a cost of 1 / 3-1 / 4 (cost of 97,750 won per year of backwashing quantity per 10m2 / h of treated water), and purification of water and improvement of health by far infrared effect Effect, surfactant effect, fermentation, aging, and the like.

1 is an exploded perspective view showing the entire structure of the present invention.
2 is a conceptual diagram for explaining an operating state of the present invention.
FIG. 3 is a cross-
4 is a perspective view of the diffuser of the present invention.
Fig. 5 is a perspective view of the air-
Figure 6 is a top view of an embodiment of the top chamber of the present invention

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing the entire structure of the present invention, showing the structure of upper and lower chambers, a clamp, a diffuser and an air hard plate. FIGS. 2 and 3 are a conceptual view for explaining the operating state of the present invention, FIG. 4 is a perspective view of the diffuser of the present invention in order to explain the components of the diffuser in detail, and FIG. 5 is a perspective view of the air- FIG. 6 shows an embodiment of the upper chamber of the present invention in which the structure of the waste water inlet and the foreign matter collection port are modified. FIG.

An upper chamber 10 in which a waste water inlet 11 and a foreign matter collecting port 12 are formed and a lower chamber 20 in which a purified water outlet 21, a water supply line 22 and an air pump line 23 are formed, And a plurality of spiral filter media S are loaded into the upper chamber 10 by inserting an air chute 40 at the lower end of the lower chamber 20 by means of the clamper 30, The air pump line 23 is connected to the air compressor A through a check valve 24 and is connected to the waste water inlet 11 and the foreign matter collecting port 12, The purified water outlet 21 and the water supply line 22 are provided with respective valves V1, V2, V3, and V4.

The diffuser 50 is formed in a cap shape, and a conical dispersion bar 51 is formed at the bottom of the bottom. The upper bracket 52 and the upper bracket 52 'support the upper coupling hole 53, Holes 54 and 54 'and a plurality of long holes 56 and 56' are formed in the cap 55 formed on the outer periphery of the bottom.

The air end plate 40 is provided with a cylindrical purified water discharge rod 41 at the center of the dish type bottom so that the discharge holes 42 and 42 'are drilled on the upper and outer peripheral edges of the discharge rod 41, A plurality of air holes 43 and 43 'are drilled, and a connecting hole 44 is formed in a lower part of the discharge rod 41.

According to the present invention, a spiral filter medium having a dual effect of physical filtration and biological filtration is charged on an air flow plate in a chamber, and is sprayed through a diffuser to spray a wastewater. This method enables to maximize the performance by 8-10 times or more than when the spiral filter medium by using the spiral filtration material in the cleaning chamber and the wastewater is purified by the filtration method. Also, when the inside of the chamber and the spiral filtration material are contaminated Air pump and water supply line, it is possible to improve efficiency of water purification by removing and recovering foreign matter and impurities by backwashing in a short time, and it is possible to operate at low cost of 1 / 3-1 / 4 compared with existing sand or ceramic filter medium And to provide a purification device.

An air rigid plate 40 and a diffuser 50 are installed in the upper and lower chambers 10 and 20 which are coupled to each other by the clamper 30 as shown in FIG. 1 to enclose the spiral filter medium S ' And consists of respective valves 24 (V1) (V2) (V3) (V4) and an air compressor (A).

The upper chamber 10 is provided with a waste water inlet 11 and a foreign matter collecting hole 12 provided with valves V1 and V2 on both sides of an upper portion thereof and is connected to a coupling port 53 are connected to the inlet 11 and the recovery port 12 in a communicating manner.

4, the diffuser 50 is provided with a conical dispersion rod 51 at the bottom center of the diffuser 50 to guide the waste water flowing through the inlet 11 and the coupling hole 53 And the supporting brackets 52 and 52 'can support the coupling hole 53 at the outer bottom of the dispersion rod 51 and a water tank and holes 54 and 54' And a plurality of long holes 56 and 56 'are formed in the cap 55 formed on the outer periphery of the bottom so as to be used as a side passage of wastewater and water.

The number of water bottles and holes 54 and 54 formed in the bottom of the diffuser 50 is determined according to the diameter of the coupling hole 53 and the diameter of the cap 55, And the spiral filter medium S (S '), which is dispersed in the side passageways and filled in the lower portion thereof, to maximize filtration and purification efficiency.

The lower chamber 20 is provided with a purified water discharge port 21 in which a valve V3 and a valve V4 are installed in the lower center and an air pump line 23 provided with a water supply line 22 and a check valve 24, A plurality of spiral filter media S and a plurality of spiral filter media S are mounted on the air rigid plate 40 and connected to the air compressor A, (44) is connected in communication with the purified water discharge port (21).

It is preferable that the spiral filter medium S (S ') filled in the chambers 10 and 20 is filled up to 80% of the inner volume.

As shown in FIG. 5, the air end plate 40 is provided with a cylindrical discharge rod 41 having a discharge hole 42 and a discharge hole 42 ' 43 and 43 through the discharge holes 42 and 42 'of the discharge rod 41 through the spiral filter medium S' S 'in the chamber 10 and 20, And the air holes 43 and 43 'inject the compressed air of the compressor A through the air pump line 23 and simultaneously discharge the purified air (treated water) to the purified water discharge port 21 Water is supplied to the water supply line 22 through the discharge holes 42 and 42 'of the discharge rod 41 to clean the contaminated chambers 10 and 20 and the spiral filter media S and S' To the foreign matter collecting port (12).

The discharge hole 42 'formed at the outer periphery of the cylindrical discharge rod 41 installed at the center of the air flow plate 40 is pierced from the upper end of the discharge rod 41 at the upper end of the discharge rod 41, Efficiency can be maximized.

6, the waste water inlet 11 may be provided at one side of the upper chamber 10 to connect the upper chamber 10 directly to the coupling port 53 of the diffuser 50, So that the waste water is cleaned and the foreign matter collecting port 12 is installed on the other side and the air vent 13 is installed on the upper side of the waste water collecting port so that foreign matter can be discharged during backwashing.

The operation concept of the water purification apparatus of the present invention having the above structure is as follows. As shown in FIGS. 3 and 4, ozone and wastewater to be purified are introduced into the wastewater inlet 11 and the diffuser 50 installed in the upper chamber 10 And is inserted through the coupling hole 53.

The introduced ozone and wastewater are dispersed and sprayed in the outward peripheral direction from the center by the conical dispersion rod 51 and a part of the ozone and wastewater passes directly through the water reservoir and the holes 54 and 54 ' (56 ') and (56') perforated in the outer periphery of the spiral filter medium S '(S') to maximize the filtration and purification efficiency.

In other words, when the spiral filter medium S (S ') having a spiral-shaped gap having various surface areas is formed, the wastewater is dispersed to form a swirl, and the suspended matter is decomposed and a spiral filter medium S S ') forms a biofilm of bacteria that decompose pollutants and effectively decompose anaerobic bacteria.

At this time, antioxidation and reduction react simultaneously to maintain the water quality to be slightly alkaline, thereby preventing the water from becoming acidified by residual nitrate nitrogen.

The purified water having passed through the filtration and purification process is discharged to the purified water discharge port 21 through the discharge holes 42 and 42 'formed in the discharge rod 41 of the air column 40.

In this operation, the valve V1 (V4) is opened and the check valve 24 and the valves V2 (V3) are closed.

When the foreign substances are deposited on the surfaces of the chamber 10 and the spiral filter medium S and the spiral filter medium S 'after a predetermined period of time while the wastewater is purified, V4 are closed and the check valve 24 and the valves V2 and V3 are opened and the air compressor A is operated to supply the compressed air to the air holes 43 of the air column 40 through the air pump line 23 The water in the water supply line 22 is sprayed to the discharge holes 42 and 42 so as to spray the water in the chamber 10 and the spiral filter medium S 'So that contaminated foreign matter can be discharged to the foreign matter collecting port 12 to be cleaned.

The apparatus can be operated while repeating filtration, purification and cleaning of the waste water as described above.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. And such changes are within the scope of the claims.

10: Upper chamber 11: O, wastewater inlet
12: foreign matter collecting port 20: lower chamber
21: purified water outlet 22: water line
23: air pump line 24: check valve
30: clamper 40: air end plate
41: purified water discharging rod 42, 42 ': discharging hole
43,43 ': Air hole 44: End connection
50: diffuser 51: dispersion rod
52, 52 ': support bracket 53:
54,54 ': Water bottle and ball 55: Cap
56,56 ': Slot A: Air Compressor
S, S ': Spiral filter media V1, V2, V3, V4: Valve

Claims (3)

An upper chamber 10 in which a waste water inlet 11 and a foreign matter collecting port 12 are formed and a lower chamber 20 in which a purified water outlet 21, a water supply line 22 and an air pump line 23 are formed, And a plurality of spiral filter media S are loaded into the upper chamber 10 by inserting an air chute 40 at the lower end of the lower chamber 20 by means of the clamper 30, The air pump line 23 is connected to the air compressor A through a check valve 24 and is connected to the waste water inlet 11 and the foreign matter collecting port 12, The purified water outlet 21 and the water supply line 22 are provided with valves V1, V2, V3 and V4, respectively.
The method according to claim 1,
The diffuser 50 is formed in a cap shape, and a conical dispersion bar 51 is formed at the bottom of the bottom. The upper bracket 52 and the upper bracket 52 'support the upper coupling hole 53, Wherein a plurality of long holes (56) and (56 ') are formed in the cap (55) by drilling the holes (54) and (54') and formed on the outermost periphery of the bottom.
The method according to claim 1,
The air end plate 40 is provided with a cylindrical purified water discharge rod 41 at the center of the dish type bottom so that the discharge holes 42 and 42 'are drilled on the upper and outer peripheral edges of the discharge rod 41, Wherein a plurality of air holes (43) and (43 ') are drilled, and a connection hole (44) is formed in a lower portion of the discharge rod (41).

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