KR101019970B1 - Water treatment apparatus using RB ceramic - Google Patents

Abstract

The present invention relates to a water treatment apparatus using an albi-ceramic, ultraviolet light emitting unit 10 which is flickered by the application of external power; A photocatalyst 20 disposed in the vicinity of the ultraviolet light emitting unit 10 to cause a photochemical reaction by ultraviolet rays; And support means 30 for fixedly supporting the ultraviolet light emitting unit 10 and the photocatalyst unit 20. Therefore, by using a water treatment apparatus using an albiceramic structure having a structure in which a plurality of photocatalyst portions are spaced apart at regular intervals along the outer circumferential surface of the ultraviolet lamp, the photochemical reaction is generated in the photocatalyst portion by the ultraviolet rays of the ultraviolet lamp, thereby drinking water and live fish. In order to maximize the sterilization efficiency by reducing the time of sterilization and purification of the aquarium, live fish, and fishing vessels of the aquarium, and also to improve the reaction speed, a separate bubble generating unit is placed near the photocatalyst and then fine bubbles By supplying artificially, the effect of doubling the sterilization effect can be obtained.

Water treatment device using Albisceramic, UV light emitting part, photocatalyst part, holder part, connecting bracket

Description

Water treatment apparatus using RB ceramic

The present invention relates to a water treatment apparatus using an albiceramic, and more particularly, a water treatment apparatus using an albiceramic having a structure in which a plurality of photocatalysts are spaced at regular intervals along the outer circumferential surface of the ultraviolet ray lamp to be embedded in water. By causing the photochemical reaction in the photocatalyst unit, a separate bubble to improve the reaction speed while maximizing the sterilization efficiency due to the reduction of the time of sterilization and purification of the aquarium, live car, fishing vessel of drinking water and live fish The present invention relates to a water treatment apparatus using an albi-ceramic to arrange a generating unit adjacent to a photocatalyst and to artificially supply fine bubbles to double the sterilization effect.

In general, drinking water can be divided into tap water and ground water. Among them, tap water is disinfected with chlorine during water treatment, and is supplied to each household through pipes. During supply, chlorine is vaporized into the atmosphere or dissolved in a compound state. There has been a problem of infecting the population when invading pathogens or bacteria.

In addition, the tap water supplied to the home due to the aging of the pipe is highly likely to be contaminated by bacteria and pollutants, and also avoids the smell of chlorine dissolved in the tap water. In some cases, there is a possibility of water pollution because the tap water is likely to be exposed to bacteria during long-term storage in the water tank.

In particular, in the aquarium for aquarium fish or live fish sashimi, there is a problem that waterborne pathogens may be transmitted to people through fish and shellfish when water management is not made clean.

In order to solve this problem, various kinds of water treatment apparatuses have been developed. For example, Korean Utility Model Registration Application No. 20-399280, which was previously applied, was designed as a mechanism for sterilizing by connecting a plurality of ceramic substrates in parallel.

In addition, there was also a method of sterilizing water by embedding only an ultraviolet lamp in a direct pipe.

However, such a conventional water treatment apparatus has a high rate of breakage of the ceramic substrate and is expected to have a close sterilization effect by a convection method in a stagnant water tank, but it has a disadvantage that it takes a long time to sterilize due to a problem that forced circulation does not occur. When the substrate effectiveness of the photocatalyst is lowered, it is difficult to replace and there is a problem that must be broken.

In addition, the method of sterilizing by embedding only the ultraviolet lamp in the direct water pipe had a problem such as the rapid flow of water can not expect perfect sterilization.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and a water treatment apparatus using an albiceramic structure having a structure in which a plurality of photocatalysts are spaced at regular intervals along the outer circumferential surface of the ultraviolet lamp is embedded in the water and the photocatalyst is exposed to the ultraviolet light of the ultraviolet lamp. The photocatalytic unit is located adjacent to the photocatalyst unit to improve the reaction rate while maximizing sterilization efficiency by reducing the time of sterilization and purification of the aquarium, live car, and fishing vessel of drinking water and live fish. It is an object of the present invention to provide a water treatment apparatus using an albiceramic to double the disinfection effect by artificially supplying a fine bubble after being placed in the unit.

Water treatment apparatus using the albiceramic of the present invention for achieving the above object is an ultraviolet light emitting unit which is blinking by the application of external power; A photocatalyst portion disposed in the vicinity of the ultraviolet light emitting portion and causing a photochemical reaction by ultraviolet rays; And support means for fixedly supporting the ultraviolet light emitting portion and the photocatalyst portion.

In addition, in the water treatment apparatus using an alb-ceramic according to the present invention, the support means, the upper plate is formed in the through hole in the center so that the ultraviolet light emitting portion penetrates; A plurality of outer pillars having an upper end coupled to the bottom of the edge of the upper plate and having a support groove for inserting and supporting the edge of the photocatalyst on the inner side; And a lower plate fastened to and fixed to the bottom of the outer pillar.

In addition, in the water treatment apparatus using the albi-ceramic according to the present invention, the ultraviolet light emitting portion, the holder portion fixedly supported in the through hole of the upper plate; A lamp protection tube having an upper end fixed to the holder and a lower end extended to an adjacent lower plate at a lower side thereof; And an ultraviolet lamp disposed inside the lamp protection tube and flashing by receiving external power through a terminal at an upper end thereof.

In addition, in the water treatment apparatus using an albi-ceramic according to the present invention, the holder portion, the first sealing member which is in close contact with the upper outer peripheral surface of the lamp protection tube; A through hole is formed in the center of the lamp protection tube so that the lower end of the first sealing member is caught, and a locking jaw that is caught on the bottom of the upper plate is provided on the outer peripheral surface of the lower end thereof, and the upper end thereof extends upward through the through hole of the upper plate. Inner, the lower holder having a thread on the outer peripheral surface; A support tube inserted between the first sealing member and the inner circumferential surface of the lower holder and screwed with the inner circumferential surface of the lower holder to support the first sealing member; An upper holder provided with an exposure hole covering the outer circumferential surface of the lower holder to be screwed with the screw thread of the outer circumferential surface and exposed to the outer circumference of the terminal of the ultraviolet lamp in the upper center; And a second sealing member interposed between the exposure hole of the upper holder and the terminal to seal the terminal.

In addition, in the water treatment apparatus using the albi-ceramic according to the present invention, the photocatalyst portion is a ring shape having a through-hole formed so that the lamp protection tube penetrates to the center of the photocatalyst, and a plurality of photocatalyst balls are embedded therein. It is preferable to have a perforated network structure having a plurality of perforations on the surface.

In addition, in the water treatment apparatus using the albiceramic according to the present invention, the photocatalyst ball is preferably a photocatalyst coating on the albiceramic ball.

In addition, in the water treatment apparatus using the albi-ceramic according to the present invention, it is preferable that a plurality of photocatalysts are spaced apart at regular intervals up and down along the outer pillar, and a plurality of support grooves of the outer pillar corresponding thereto are formed up and down.

In addition, in the water treatment apparatus using the albi-ceramic according to the present invention, it is preferable that a separate auxiliary support groove is further provided at the lower end of the outer pillar and is further provided with a bubble generating unit for generating bubbles in the auxiliary support groove. .

In addition, in the water treatment apparatus using the albi-ceramic according to the present invention, the bubble generating unit, the bubble generating body which is supported by the outer frame is inserted into the auxiliary support groove of the outer column is formed as a whole micro-hole; A connecting tube whose one end is inserted into one side of an outer circumferential surface of the bubble generating body to communicate with micropores and the other end thereof is exposed to the outside; A bubble guide tube having a lower end communicating with the connecting tube and having an upper end extending upwardly and penetrating the upper plate; And a hose connected to the bubble guide tube and one end thereof and the other end thereof extended to the outside to be connected to the pump.

In addition, in the water treatment apparatus using the albiceramic according to the present invention, the upper plate and the upper plate of the water treatment apparatus using the other albiceramic adjacent to each other or the lower plate is connected to each other so that the plurality of water treatment apparatus using the albiceramic is connected to a plurality. It is preferable that a connecting bracket is further provided.

As described above, the water treatment apparatus using the albi-ceramic of the present invention is built in the water treatment apparatus using the albi-ceramic in a structure in which a plurality of photocatalysts are arranged at regular intervals along the outer circumferential surface of the ultraviolet lamp in the water by the ultraviolet rays of the ultraviolet lamp By causing the photochemical reaction in the photocatalyst, it is possible to obtain the effect of maximizing the sterilization efficiency by reducing the time of sterilization and purification of the aquarium, live fish, fishing vessels of drinking water and live fish.

In addition, as a way to improve the reaction rate by placing a separate bubble generating unit adjacent to the photocatalyst portion artificial supply of fine bubbles, it is possible to obtain the effect of doubling the sterilization effect.

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

As shown in Figures 1 to 4, the water treatment apparatus using an alb-ceramic according to an embodiment of the present invention, the ultraviolet light emitting unit 10 which is flickered by the application of external power and the ultraviolet light emitting unit 10 adjacent to The photocatalyst portion 20 disposed in the portion and causing the photochemical reaction by ultraviolet rays, and the support means 30 for fixing and holding the ultraviolet light emitting portion 10 and the photocatalyst portion 20 are configured.

The ultraviolet light emitting part 10 has a holder part 11 fixedly supported by the upper plate 31 through-hole 31a of the support means 30, and an upper end part thereof is fixed to the holder part 11, and a lower end thereof is disposed below. A long, lower end of the lamp-shaped protection tube 12 and an inner side of the lamp protection tube 12, which extends to an adjacent lower plate 33, are disposed inside the lamp protection tube 12, and external power is applied through the terminal 13a of the upper end. It is configured to include an ultraviolet lamp 13 that receives and blinks.

Here, it is preferable that the lamp protection tube 12 uses a quartz tube that transmits the water of the ultraviolet lamp 13 as well as the inherent wavelength of the ultraviolet lamp 13 well.

When the quartz tube is applied, only the ultraviolet lamp 13 can be replaced quickly and easily when the ultraviolet lamp 13 has reached the end of its life, thereby reducing time and cost.

On the other hand, the ultraviolet lamp 13 is preferably used a lamp having a wavelength of 290nm.

The holder part 11 covers the outer circumferential surface of the upper end of the lamp protection tube 12 to be in close contact with the tubular first sealing member 11a, and the lamp protection tube body 12 penetrates through the first sealing member ( A through hole 11b1 is formed at the center to catch the lower end of 11a), and a locking jaw 11b2 extending radially to be caught at the bottom of the upper plate 31 is provided at the lower outer peripheral surface thereof, and an upper end thereof penetrates the upper plate 31. The lower holder 11b having threads 11b3 and 11b4 on the inner and outer circumferential surfaces thereof and having a tubular shape extending upward through the ball 31a, and the first sealing member 11a and the lower holder 11b. A support tube body 11c inserted between the inner circumferential surfaces and screwed with the inner circumferential surface thread 11b3 of the lower holder 11b to support the first sealing member 11a and the outer circumferential surface of the lower holder 11b to cover the outer circumferential surface thereof. Screwed into the thread 11b4 of the terminal and the terminal 13a of the ultraviolet lamp 13 is exposed to the outer periphery at the center of the upper end. A second sealing member 11e interposed between the upper holder 11d provided with the exposed hole 11d1 for locking and the exposed hole 11d1 of the upper holder 11d and the terminal 13a to seal the terminal 13a. It is configured to include).

Here, it will be apparent that the connection portion between the terminal 13a of the ultraviolet lamp 13 and a power cable (not shown) for supplying power are waterproofed.

The photocatalyst 20 has a hollow shape and a ring (short cylinder with a center penetrated) having a through hole 21 formed therein so that the lamp protection tube 12 penetrates to the center thereof, and a plurality of photocatalyst balls 22 are formed therein. ) And a perforation network structure having a plurality of perforations 23 on its outer surface.

Preferably, the photocatalyst ball 22 is coated with titanium oxide (Ti0 ₂ ) on the surface of the ceramic, and the photocatalyst 20 has a size of 0.5 to 15 mm in the perforations 23 and the photocatalyst ball 22. When the photochemical reaction occurs at, it is desirable that the surface of the surface is made of stainless steel through buffing polishing as the stainless material enables the sterilization efficiency to be doubled as light irradiation occurs repeatedly on the surface.

Here, the photocatalyst ball 22 refers to a rice bran ceramic ball, and in particular, the albiceramic will be described in more detail as follows.

The albiceramic is a rice bran carbide that has a magnetic function, and the filter which performs purification of water and purification of various pollutants by contacting water with a separate casing containing minerals and vitamins such as trace minerals such as tourmaline and bentonite and water. to be.

Albiceramic Albi is an abbreviation of Rice Bran, which is English of rice bran. It is a new material which is carbonized at high temperature by mixing skim rice bran and resin at high temperature, and has a porous function in which many pores exist in one particle. It has an excellent performance that far surpasses the carbon used as a material, and is excellent in deodorization and removal of waste water and pollutants in water.

In general, composite albiceramics have the following characteristics.

1) Most offensive odor and hydrogen sulfide disappear.

2) Improvement and stabilization of BOD, COD and SS are achieved.

3) We can expect volume reduction of surplus mud.

4) The use of chemicals such as flocculants and chlorine will decrease.

5) Equipment life is extended by corrosion of scale and suppression of auxiliary equipment such as pump and pipe.

6) Applicable to the purification of rivers, lakes and swamps.

In addition, vitamin C, vitamin E and vitamin B12, which are used as eco-friendly food additives, are properly blended to remove disinfection residues caused by chlorination of tap water and trihalomethane (THM), which is a softening and carcinogenic substance. Excellent functionality.

In addition, bentonite-based minerals not only activate water, but also have excellent ion exchange ability and excellent absorption ability, greatly helping to remove calcification in water and to reduce hardness.

The unique features of the Albiceramic, such as quenched steel, a light weight a little heavier than water, the ability to slip well without lubricating oil, and the ability to absorb radio waves, so as to various products Application is possible.

In addition, by applying appropriate amount of water purification functional water produced by RB (magnetic rice bran carbonization) ceramic developed for water purification of the present invention to the raw water tank of drainage and septic tank, chemical action and physical energy can be imparted to the raw water. Can be dramatically improved.

Carbon and water in the albiceramic react to generate carbon monoxide and hydrogen, but at this time, the reaction energy generates a powerful ion wave, which is why the albiceramic is only carbon, but its lifetime is approximately two years.

In addition, bentonite and tourmaline minerals blended in a small amount have a synergistic effect of further amplifying the ion wave.Albi special functional water functions at 0 to 100 ° C and does not deteriorate even after several years. Do not.

Albiceramic is mostly eliminated the odor of the drainage to stabilize the unstable material by its catalytic function.

In addition, since it also has a function of activating bacteria that decompose BOD and the like, the decomposition treatment by microorganisms is promoted.

In addition, a microbial ecosystem modeled on the natural purifying action is built, and biological treatment is maintained in an extremely good state, so that most maintenance is unnecessary.

Water treatment chemicals such as flocculating sedimentation agents are also unnecessary, and bacteria's self-extinguishing and plant chains are promoted, and the effect of reducing the excess mud volume can also be expected.

In addition, the odor is much improved, and the amount of hypochlorous acid used for disinfection is also halved.

Albiceramic applied to the present invention is a carbon material composed of carbide of skim rice bran (soft amorphous carbon) and glassy carbon (hard amorphous carbon) which is a carbide of phenol resin, and various kinds of pores It has a porous structure, and can be made into various forms by mixing albiceramic powder with resin materials such as thermoplastic resin, thermosetting resin, rubber, etc. It can mix | blend with resin and can provide various characteristics.

In addition, since the complexed albiceramic is very excellent in strength, when titanium oxide (TiO2) is used as a catalyst, an excellent role as a carrier becomes possible.

In other words, the use of albiceramic is very easy to form, light and hard, so that the connection with various catalysts is good.

Naturally, the photocatalyst 20 and the photocatalyst ball 22 may be manufactured in various sizes and materials according to the conditions and low capacity of the user.

In addition, the photocatalyst 20 has a plurality of photocatalysts 20 spaced apart from each other by a predetermined interval up and down along the outer pillar 32, and a plurality of support grooves 32a of the outer pillar 32 corresponding to the photocatalyst portion 20 are formed up and down.

The support means 30 is a ring plate-shaped upper plate 31 having a through hole 31a formed at the center thereof to fix the ultraviolet light emitting unit 10 therethrough, and an upper end thereof is fastened and fixed to the bottom of the edge of the upper plate 31. A plurality of long rod-shaped outer pillars 32 having a support groove 32a for inserting and supporting the edge of the photocatalyst portion 20 on the side and a lower plate 33 fastened to and fixed to the bottom surface of the outer pillar 32 are provided. It is configured to include.

Here, fastening holes 31b and 33a and fastening grooves 32c are formed in corresponding portions to which the upper and lower plates 31 and 33 and the outer pillars 32 are coupled to each other, respectively, by means of separate fasteners 34. It is intended to be fastened and fixed.

Reference numeral 35 denotes a leg attached to the bottom of the lower plate 33 so that the lower plate 33 is spaced apart from the bottom by a predetermined interval.

In addition, an additional auxiliary support groove 32b is further provided at the lower end of the outer pillar 32 and is further provided with a bubble generator 40 mounted on the auxiliary support groove 32b to generate bubbles.

The bubble generating unit 40 is a bubble generating body 41 that the outer frame is inserted and supported in the auxiliary support groove (32b) of the outer column 32 and the micro-holes (not shown) as a whole, the bubble is generated One end portion is inserted into one side of the outer circumferential surface of the main body 41 to communicate with the micro-pores and the other end thereof is exposed to the outside, and the lower end portion communicates with the connection tube 42 and the upper end thereof is upward. And a bubble guide tube body 43 extending through the upper plate 31 and having one end portion connected to the bubble guide tube body 43 and the other end extending outward to be connected to a pump (not shown). It is configured to include.

Here, the bubble generating body 41 is called a so-called acid stone, preferably a high-purity alumina material as a ceramic material, and the micro-pores are preferably composed of an open cell of 1 to 100 micrometers.

In addition, the air supplied from the external pump can mainly supply general air or ozone.

On the other hand, the upper plate 31 and the upper plate 31 of the water treatment apparatus using the other albiceramic adjacent to each other, or the lower plate 33 is connected to each other so as to connect a plurality of water treatment apparatus using a single albicceramic. The bracket 50 may be further provided.

The water treatment apparatus using the albi-ceramic of one embodiment of the present invention according to such a configuration is as follows.

First, the lamp protection tube 12 having the ultraviolet lamp 13 introduced therein and the first sealing member 11a covered on the outer circumferential surface of the upper end passes through the through hole 11b1 of the lower holder 11b. After the first sealing member 11a is caught by the inner edge of the through hole 11b1, the support pipe body 11c is screwed to fix them together.

Then, the upper end of the lower holder (11b) to which the lamp protection tube 12 is coupled to the through hole (31a) of the upper plate (31) through protrudes upwards to the locking jaw (11b2) of the lower holder (11b) When the terminal 13a of the ultraviolet lamp 13 is exposed to the outside through the exposure hole 11d1 after the upper hole 11d is covered and screwed thereon after supporting the bottom surface of the through hole 31a, The exposure hole 11d1 is sealed with the sealing member 11e to complete the coupling between the holder portion 11 and the upper plate 31.

Then, the through-hole 21 of the photocatalyst portion 20 passes through the photocatalyst portion 20 on the outer circumferential surface of the lamp protection tube 12 and is arranged to be spaced apart by a predetermined interval. After the 41 is disposed, it is covered with the support grooves 32a of the plurality of outer pillars 32 so as to surround their outer circumferential surfaces.

Then, the lower plate 33 is brought into close contact with the lower end of the outer column 32 so that the fastening holes 31b and 33a of the upper and lower plates 31 and 33 coincide with the fastening grooves 32b of the outer column 32. After fixing the upper and lower plates 31 and 33 and the outer column 32 through a separate fastener 34.

Then, after connecting the connecting pipe 42 to the bubble generating body 41 of the bubble generating unit 40, and then connected to the bubble guide pipe 43 again so that the upper end is penetrated by the upper plate 31, the hose ( 44) to complete the assembly of the water treatment device using the albiceramic.

After the assembly is completed, the water treatment apparatus using the albi-ceramic of the present invention is introduced into a tank in which water is stored, such as a water purifier, a reservoir, a water tank, an aquarium, and the like, and power is supplied to the ultraviolet lamp 13. The photocatalyst 20 generates a photochemical reaction by ultraviolet rays, and also supplies air or ozone through the hose 44 so that bubbles are generated in the bubble generating body 41 to remove organic compounds contained in water. It will be able to kill viruses and pathogenic bacteria.

1 is a perspective view showing a water treatment apparatus using an albi ceramic according to an embodiment of the present invention.

Figure 2 is an exploded perspective view showing a water treatment apparatus using an albi ceramic according to an embodiment of the present invention.

Figure 3 is a side cross-sectional view showing a water treatment apparatus using an albiceramic according to an embodiment of the present invention.

4 is a perspective view showing a state in which a plurality of water treatment apparatuses using an albiceramic according to an embodiment of the present invention are connected by a connecting bracket.

DESCRIPTION OF REFERENCE NUMERALS

10 ultraviolet light emitting unit 11 holder portion

11a: first sealing member 11b: lower holder

11b1: through hole 11b2: locking jaw

11b3: thread 11b4: thread

11c: support body 11d: upper holder

11d1: Exposed hole 11e: Second sealing member

12: lamp protection body 13: UV lamp

13a: terminal 20: photocatalyst

21: through hole 22: photocatalyst ball

23: perforation 30: support means

31: top plate 31a: through hole

31b: fastener 32: outer pillar

32a: Supporting groove 32b: Fastening groove

33: lower plate 33a: fastening hole

34: fastener 35: leg

40: bubble generation unit 41: bubble generation body

42: connecting body 43: bubble guide body

44: hose 50: connecting bracket

Claims (10)

In the holder 11, the lamp protection tube 12, the upper end of which is fixed to the holder 11, and the lower end thereof extends to the lower plate 33 adjacent to the lower plate 33, and the inside of the lamp protection tube 12 An ultraviolet light emitting unit 10 disposed and configured as an ultraviolet lamp 13 flashing by receiving external power through an upper terminal 13a; A photocatalyst 20 disposed in the vicinity of the ultraviolet light emitting unit 10 to cause a photochemical reaction by ultraviolet rays; And The upper plate 31 having the through hole 31a formed at the center thereof so that the ultraviolet light emitting unit 10 is fixed through the upper end portion is fastened and fixed to the bottom of the edge of the upper plate 31, and the edge of the photocatalyst portion 20 is formed at the inner side thereof. The ultraviolet light emitting unit 10 and the photocatalyst unit are composed of a plurality of outer pillars 32 provided with support grooves 32a for insertion and support, and a lower plate 33 fastened to and fixed to the bottom surface of the outer pillars 32. A support means (30) for fixedly holding the support (20); It is configured to include, The holder portion 11 is fixedly supported by the through hole 31a of the upper plate 31, A first sealing member (11a) covering and covering the upper outer circumferential surface of the lamp protection tube (12); A through hole 11b1 is formed at the center of the lamp protection tube 12 so that the lower end of the first sealing member 11a is caught, and the locking jaw 11b2 is caught on the bottom surface of the upper plate 31 at the lower outer peripheral surface thereof. A lower holder 11b having an upper end portion penetrating through a through hole 31a of the upper plate 31 and extending upward, and having threads 11b3 and 11b4 on its outer circumferential surface, respectively; A support tube 11c inserted between the first sealing member 11a and the inner circumferential surface of the lower holder 11b and screwed with the inner circumferential surface thread 11b3 of the lower holder 11b to support the first sealing member 11a. ; An upper holder having an exposed hole 11d1 covering the outer circumferential surface of the lower holder 11b to be screwed with the thread 11b4 of the outer circumferential surface and exposed to the outer circumference of the terminal 13a of the ultraviolet lamp 13 at the upper center. (11d); And A second sealing member (11e) interposed between the exposed hole (11d1) of the upper holder (11d) and the terminal (13a) to seal the terminal (13a); Water treatment apparatus using an albi ceramic, characterized in that consisting of. delete delete delete The method of claim 1, The photocatalyst 20 has a ring shape in which a through hole 21 is formed so that the lamp protection tube 12 penetrates to the center of the photocatalyst 20, and a plurality of photocatalyst balls 22 are embedded therein and an outer surface thereof. An apparatus for treating water using albicceramic, characterized by having a perforation network structure having a plurality of perforations (23). The method of claim 5, The photocatalyst ball 22 is a water treatment apparatus using an albiceramic characterized in that the photocatalyst coating on the albiceramic ball. The method of claim 5, The photocatalyst 20 has a plurality of albisceramic, characterized in that the plurality of the plurality of support grooves 32a of the outer pillar 32 correspondingly spaced vertically spaced apart along the outer column 32 is also formed up and down. Water treatment device using. The method of claim 1, An additional auxiliary support groove 32b is further provided at the lower end of the outer pillar 32 and is provided in the auxiliary support groove 32b to further include a bubble generator 40 for generating bubbles. Water treatment device using ceramic. The method of claim 8, The bubble generator 40, A bubble generating body 41 in which the outer frame is inserted and supported in the auxiliary support groove 32b of the outer pillar 32 and the micro-hole is formed as a whole; One end of which is inserted into one side of the outer circumferential surface of the bubble generating body 41 so as to communicate with the micro-pores and the other end of which is exposed to the outside; A bubble guide tube body 43 in which a lower end portion communicates with the connecting tube body 42, and an upper end portion thereof extends upwardly and penetrates the upper plate 31; A hose 44 connected to one end of the bubble guide tube 43 and the other end of which is connected to a pump; Water treatment apparatus using an albi ceramic, characterized in that configured to include. The method of claim 1, The upper plate 31 is connected to the upper plate 31 of the water treatment apparatus using the other albiceramic adjacent to each other, or the lower plate 33 is connected to each other, the connection bracket 50 is further provided to connect the plurality of water treatment apparatus Water treatment apparatus using an albiceramic characterized in that.

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