KR100653223B1 - water cleaning device by ozone and sterilrzation - Google Patents

Abstract

  The present invention relates to an ozone sterilizing water purifying apparatus associated with Patent Application No. 2004-9225 (Patent Registration No. 532526) filed by the present applicant, which is mainly used to purify seawater for live fish.

  The above-described invention of the invention is that the invention of the invention is divided into four chambers at the upper and lower ends of the body, the first chamber and the second chamber for storing the first treated sea water and the first chamber equipped with an impeller in the chamber and The second chamber having a third chamber equipped with a suction pipe to suck up the stored seawater is installed at the bottom of the body, and at the top of the body, a third chamber containing purified water through a plurality of bubble induction pipes, an air purifying filter and a bubble discharge pipe, It consists of a fourth chamber having a discharge port of the purified water, and the impeller installed on the shaft of the motor is provided with a high-speed rotating blade and an air discharge port, which is the efficiency of purification of sea water by the microbubbles crushed by the air pressure derived at high pressure Although there is an advantage to increase, there is no sanitary waste because there is no device for sterilizing pathogens such as heavy metals, vibrio bacteria, and Escherichia coli contained in seawater. Would have been.

  The present invention has been made to solve the above problems, the present invention is to install the first, second, third, fourth chamber (2) (3) (4) (5) in the body, but the fourth chamber One side of the ozone generator 18 installed in (5) is connected to the air inlet pipe 20 including the filter unit 19 and the air drying chamber 19a, and the second side of the ozone generator 18 is described above. It is contained in the ozone air discharged from the ozone generator 18 by connecting the ozone air discharge pipe 20a connected to the ozone air inlet 7a at the center of the impeller 7 installed in the mixing chamber 3a of the chamber 3. The ozone is mixed and dissolved in the microbubbles of seawater crushed by the high pressure air generated by the high speed rotation (1750 RPM) of the impeller 7 installed in the mixing chamber 3a. Are installed in the plurality of bubble guide tubes 14 and the bubble collection chamber 15 and the fourth chamber 5 installed in the third chamber 4. The treated water in the treated water suction chamber 3c formed through the bubble discharge chamber 15a and the bubble discharge port 15b and formed in the second chamber 3 is treated in the third chamber through the treated water suction pipe 13. Since it is stored in the treated water storage tank 5a in the water tank 4a and the fourth chamber, and then discharged through the treated water outlet 17 to be transferred to the live fish seawater tank 21, the live fish of the proper concentration (legislative allowance) as a simple structure. It is possible to obtain economic ozone seawater economically.

Ozone Sterilization Water Purifier

Description

Ozone sterilization water purification device {water cleaning device by ozone and sterilrzation}

1 is a partially cutaway perspective view of the present invention

2 is a longitudinal cross-sectional view of the present invention;

3 is a schematic view of a seawater tank equipped with the present invention

※ Explanation of code for main part of drawing

1-Body 1a- Opening and closing door 2- First chamber 3- Second chamber

3a-mixing chamber 3b-bubble separation chamber 3c-treated water suction chamber 4-third chamber

4a-treated water tank 5-fourth chamber 5a-treated water reservoir

6-motor 7-impeller 7a-ozone air inlet

8-seawater inlet pipe 9-mixture base plate 10-body bottom plate

11-treated water inlet 12-partition plate 13-treated water suction pipe

14-bubble guide tube 15-bubble collection chamber 15a-bubble discharge chamber

15b-bubble outlet 16-vacant 17-treated water discharge

18-Ozone Generator 18a-Regulator 19-Filter Unit

19a-air drying chamber 20-air inlet pipe 20a-ozone air discharge pipe

21- Live fish tank 21a- Drain pipe 22- Sea water reservoir
23-motor pump

  The present invention mainly relates to an ozone sterilizing water purifying apparatus associated with Patent Application No. 2004-9225 (Patent Registration No. 532526) filed by the present applicant, which is mainly used for purifying seawater for live fish.

  Conventionally, various devices for purifying live seawater in a live fish tank, for example, a device for applying a filter medium such as gravel or sand to the bottom of the tank, a device for injecting oxygen-rich air into the sea water, and attaching an impeller to the motor to aerated the seawater Although the above-mentioned devices have gravel or sand filtration treatments, they have to be frequently cleaned, and the device for injecting oxygen-rich external air into the seawater in the seawater tank has a very poor purification function. In addition, the impeller aeration device due to the high speed rotation of the motor has a drawback in that the suspended solids and ammonia gases are released along with the air bubbles due to the excretion of live fish, so that the suspended solids are not discharged well. The above-described invention of the invention is that the subject matter of the invention is the four chambers above and below the body The second chamber having a first chamber with a motor formed therein, a first chamber equipped with an impeller in the chamber, a second chamber for storing seawater, and a third chamber with a seawater suction pipe for sucking seawater are provided at the bottom of the body. It is installed in the upper end of the body consists of a third chamber in which the purified water is installed in the bubble collection chamber through a plurality of bubble induction pipe and the fourth chamber having an air filtration filter, bubble discharge pipe and purified water outlet, The impeller installed in the first chamber has the advantage of increasing the efficiency of seawater purification by installing a rotary blade and an air discharge port and making the seawater microbubble by its discharge air pressure, Because there is no sterilizer to sterilize the causing pathogens, there was an unsanitary lung.

  On the other hand, sterilization methods using ozone water have been known for the purpose of preventing such wastes. However, by installing an ozone generator equipped with an ozone disperser separately from the device body, ozone at an appropriate concentration can be introduced into the seawater. Because of this, there was a wastewater where ozone is not well dissolved in seawater.

  The present invention has been made to solve the above problems, the present invention is to provide the first, second, third, fourth chamber (2) (3) (4) (5) in the interior of the body (1) However, one side of the ozone generator 18 installed in the fourth chamber 5 is connected to the air inlet pipe 20 having the filter unit 19 and the air drying chamber 19a, the ozone generator 18 of the The other side connects the ozone air discharge pipe 20a connected to the ozone air inlet 7a formed at the shaft center of the impeller 7 installed in the mixing chamber 3a of the second chamber 3, and the seawater introduced by the separately installed motor pump. Is the ozone sterilization constant of the appropriate concentration (003 ~ 005 PPM) in the pulverized state at a high speed (1750 RPM) pressure of the impeller (7).

  This will be described in detail based on the drawings.

  The motor 6 is installed in the first chamber 2 formed at one lower side of the body 1, and the mixing chamber 3a, the bubble separation chamber 3b, and the treated water are installed in the second chamber 3 formed at one side thereof. The suction chamber 3c is formed, but the mixing chamber 3a is provided with an impeller 7 which rotates at a high speed (above 1750 RPM) by the above-described motor 6, and on one side thereof, a seawater inlet pipe 8 and an ozone air inlet. (7a) is connected and the other side is formed with the treated water suction chamber (3c) via the bubble separation chamber (3b) and the partition plate 12 of a constant height, and the third chamber (3) above the second chamber (3) 4) a plurality of bubble guide pipes (14) in communication with the bubble separation chamber (3b) and the treated water suction chamber (3c) of the second chamber (3) is provided, and the bubble collection pipe 14 at the upper end of the bubble collection pipe (14) A chamber 15 is installed, and a normal discharge ozone generator 18 is installed on one side of the fourth chamber 5 and a bubble discharge chamber 15a connected to the bubble collection chamber 15 on an upper side thereof. ) And bubble discharge (15b) that is installed, and the fourth chamber (5) would have provided a treated water discharge pipe 17, one side of the treated water reservoir (5a) formed therein.

  An embodiment of the present invention configured as described above is as follows.

  When the motor 6 and the motor pump (not shown) are operated, ozone air is introduced into the mixing chamber 3a through the ozone air discharge pipe 20a by the suction force generated as the impeller 7 rotates at a high speed, and at the same time seawater inflow is performed. Seawater flows in through the pipe (8). At this time, the air purged and dried through the filter unit 19 and the air drying chamber 19a flows into the ozone generator 18 through the air inlet pipe 20, and contains ozone containing a small amount of ozone (0.05-0.10 PPM). Air is introduced into the ozone air inlet 7a formed in the shaft portion of the impeller 7 provided in the mixing chamber 3a through the ozone air discharge pipe 20a. The ozone air introduced in this way is compressed by the high speed rotation (1750 RPM) of the impeller 7 installed in the mixing chamber 3a to crush the introduced seawater with high pressure. At this time, ozone air is introduced and dissolved in the microbubble seawater.

  The primary treated water containing the dissolved ozone as described above enters the bubble separation chamber 3b through the treated water inlet 11 and becomes full at this time, beyond the partition plate 12, and the treated water absorbing chamber 3c. Gathered at Here, the ozone treated water from which bubbles are removed is accumulated in the treated water tank 4a of the third chamber 4 through the treated water suction pipe 13, followed by the treated water suction pipe 16, the treated water tank 4a, and the treated water. Through the storage tank (5a) is introduced into the live fish sea water tank (21) through the treated water discharge pipe (17).

delete

  At this time, the concentration of dissolved ozone water is the legal allowance (0.03∼0.05), and the residual and bubbles of undissolved ozone are raised through a plurality of bubble induction pipes 14 in the state of being floated by buoyancy and thus, bubble induction pipes 14. The bubble collection chamber 15 and the bubble discharge chamber 15a and the bubble discharge port 15b installed in the fourth chamber 5 communicate with the upper end of the discharge chamber 15b.

  Although the above description has mainly been directed to purifying seawater, the present invention is not limited to seawater purification but is also applied to purifying fresh water.

  As described above, according to the present invention, in the production of ozone water (0.03 to 0.05 ppm) having an optimal concentration for living fish in a live fish tank, a normal discharge type ozone generator 18 is installed in the third chamber 4, One side is connected to the air inlet pipe 20 having a filter unit 19 and the air drying chamber (19a) and the other side is connected to the ozone air discharge pipe (20a), the front end of the ozone air discharge pipe (20a) is a mixing chamber By connecting to the ozone air inlet (7a) formed in the shaft portion of the impeller (7) installed in (3a) and the seawater inlet pipe (8) via a motor pump to the other side of the mixing chamber (3a) impeller (7) The ozone contained in the ozone air is dissolved in the seawater by introducing the above-mentioned ozone air into the microbubbles of the seawater crushed by the high speed rotation (1750 RPM). Can be very industrially useful Will.

Claims (1)

  First and second chambers 2 and 3 are installed in the lower part of the body 1, and third and fourth chambers 4 and 5 are formed in the upper part, but a motor 6 is installed in the first chamber. And an impeller 7 which is rotated at high speed by the seawater inlet pipe 8 and the motor 6 installed in the first chamber, is provided in the mixing chamber 3a formed in the second chamber 3. 4) is provided with a plurality of bubble guide pipe 14 connected to the second chamber 3, the upper end thereof is connected to the bubble collection chamber 15 of the third chamber (4) and installed in the fourth chamber (5) The treatment water discharge pipe 17 is formed on the side wall of the treatment water storage tank 5a, and the filter device 19 is provided at one side of the normal discharge ozone generator 18 installed inside the fourth chamber 5. And an air inlet pipe 20 having an air drying chamber 19a and an ozone air discharge pipe 20a connected to the other side, and the outer end of the ozone air discharge pipe 20a is installed in the mixing chamber 3a. Impeller The ozone sterilizing water purifier, characterized in that connected to the ozone air inlet (7a) formed in the shaft portion of 7).

Images