KR20020028011A - Water sterilizing system - Google Patents

Abstract

PURPOSE: A water sterilization system using copper-silver alloy as electrode pole and ozone displays sterilization effect at early stage in operation, and furthermore it inhibits slime and scale due to organics and algae in water, and lessen T.D.S(Total Dissolved Solids) by oxidation/precipitation of heavy metals and inorganic compounds. CONSTITUTION: The water sterilization system comprises: a water pipe(21) connected from pump(22) to water tank(7); a bypass pipe(31) which makes a detour from a middle part of the water pipe(21); a water sterilizer whose negative pole(11) and positive pole(12) are submerged in the bypass pipe(31); a control section(4) to provide and control the power; a venturi equipment(5) which is structured with a venturi(51) and orifice pipe(52) in the middle of the venturi; an ozone meter(61) connected to the orifice pipe; an ozone generator(62) connected next to the ozone meter; and an air compressor(63) connected with the ozone generator. Further, the water sterilization system comprises an air filter(64) installed between the ozone generator and the air compressor, and a first and a second check valve(65, 66) are installed respectively in front of and behind the ozone generator(62) to prevent water from backing up into the ozone generator.

Description

Water Sterilization System {WATER STERILIZING SYSTEM}

The present invention relates to a water sterilization system, and more specifically to sterilize Legionella, E. coli, bacteria, viruses, algae, etc. present in water using copper or silver electrodes. For example, it is characterized in that sterilization can be started as soon as the water sterilization device is started using ozone (0 ₃ ).

The water sterilizer is used to sterilize Legionella, Escherichia coli, bacteria, viruses, moss, etc., present in a cooling tower in which a cooling water of a large air conditioner is circulated, or hot water in a hot spring water, a swimming pool, and a bath.

In addition, as a means for sterilizing such bacteria, conventionally, chemicals, ie, sodium chlorine chlorine, organophosphate, chlorine, etc. were added and disinfected, but these chemicals were not economical due to too much consumption, and also periodically added. This has to be very cumbersome because it must be done.

In order to solve such drawbacks, a method and apparatus for manufacturing copper-silver alloy rods and sterilizing water by immersing them in a water tank of a pipe are known as Patent Publication Nos. 1995-7787 and Utility Model Publication No. 1996-302. In addition, there is also the applicant's invention (1999 Patent Application No. 40370) to compensate for these disadvantages.

However, the following shortcomings are pointed out in the method and apparatus for sterilizing water using a copper-silver alloy rod. In other words, sterilization systems using copper-silver alloy rods are good for long-term sterilization because they have good sustainability, but the concentration of silver-copper ions is low due to the amount of water in the initial operation of the system. Sometimes this is a problem because it can last for several days.

In addition, reliance on conventional methods using copper-silver alloy rods leads to slime because organic matter in water is not completely removed, and bacteria are not removed at the same time, thus preventing biological contamination.

In addition, the mucus secreted from the organic material has various disadvantages such as the formation of a scale by serving as a binder with the inorganic material.

The present invention has been made to solve the above-mentioned conventional problems, the main purpose of the invention is to sterilize using copper-silver alloy rod, using ozone can exert the sterilization effect immediately from the beginning of the operation of the sterilizer. On the other hand, the organic matter in the water is removed to prevent slime from forming, and the organic matter is removed to prevent the formation of scale, and oxidative precipitation of heavy metals and inorganic materials results in the concentration of total dissolved solids (TDS: Total). Dissolved Solid).

The system of the present invention for achieving the above object is a water pipe connected to the water tank from the pump, the bypass pipe installed to bypass in the interruption of the water pipe, the bypass pipe is installed in the stop, the cathode rod and the anode rod bypass tube In the water sterilization system comprising a water sterilization device installed to be submerged in the water to be treated, and a control unit for supplying and controlling the water sterilization device, the water sterilization system is connected to the water sterilizer in succession, wherein A venturi mechanism comprising an orifice tube connected to the stop of the venturi tube, an ozone input meter connected to an orifice tube of the venturi mechanism, an ozone generator connected next to the ozone input meter, and an air compressor connected next to the ozone generator It is made up of an ozone supply means, including.

1 is a schematic view showing a water sterilization system of the present invention

Figure 2 is a schematic diagram showing the configuration of another embodiment of the present invention

3 is an exemplary view of a venturi tube

<Code Description of Main Parts of Drawing>

DESCRIPTION OF SYMBOLS 1 Water sterilization apparatus 11 Cathode rod 12 Cathode rod

21 water pipe 22 pump 23 valve

31: bypass pipe 32, 33: valve 4: control unit

41 switch 5 venturi mechanism 51 venturi tube

52: orifice tube 61: ozone injection meter 62: ozone generator

63: air compressor 64: air filter 65: first station side

66: Second Station Zone

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

1 is a schematic view showing an embodiment of the present invention showing a water sterilization system.

That is, as a basic structure for water sterilization, the water pipe 21 connected to the water tank 7 from the pump 22, the bypass pipe 31 installed so as to bypass the stop of the water pipe, and the stop of the bypass pipe. Water sterilizer (1) installed in the cathode rod 11 and the anode rod 12 so as to be immersed in the water to be treated in the bypass pipe, the control unit for supplying power to and control the water sterilizer ( 4) is made.

At this time, in the present invention, it is important to provide a venturi mechanism 5 and an ozone supply means 6 for supplying ozone in association with the water sterilization apparatus.

The venturi mechanism 5 is continuously connected to the water sterilizer 1 as described above, and is composed of a venturi tube 51 and an orifice tube 52 connected to the stop of the venturi tube.

The ozone supply means 6 includes an ozone input meter 61 connected to the orifice tube 52 of the venturi mechanism 5, an ozone generator 62 connected to the ozone input meter next to the ozone input meter, and the ozone generator. It is made to include the air compressor (63) connected to the next.

On the other hand, in the ozone supply means 6, it is more preferable to install the air filter 64 inside the air compressor 63, and in order to prevent the internal equipment from being damaged by the reverse flow of water, the orifice tube of the venturi mechanism ( 52) At least one first reverse side 65 and a second reverse side 66 after the ozone generator 62 are preferably provided.

For reference, the method of determining the diameter of the tube in the venturi mechanism 5 is as follows.

As shown in Fig. 3, the diameter of the narrow pipe of the venturi mechanism 5 is D1, the diameter of the wide pipe is D2, the pressure of the narrow pipe is P1, the pressure of the wide pipe is P2, the cross-sectional area of the narrow pipe is A1, and the cross-sectional area of the wide pipe. When A2, the flow velocity of the narrow conduit is V1, and the flow velocity of the wide conduit is V2, in order to obtain the values of D1 and D2, according to Torricelli's theorem

. A1V1 = A2V2. .

P1 pressure in the induction of -1Kg / cm ²

The diameters D1 and D2 of the pipe line are calculated from A1 and A2.

The following describes the operation of the system of the present invention.

First, when the switch 41 of the control unit 4 is turned ON, power is supplied to the pump 22 installed in the water pipe 21 and the water sterilizer 1 installed in the bypass pipe 31, respectively. The pump 22 installed in the water pipe 21 pumps the water to be processed and proceeds to the water pipe 21 and the bypass pipe 31, and the cathode rod of the water sterilizer 1 installed in the bypass pipe 31. (11) and the anode rod 12 release copper ions and silver ions.

However, since the ratio of the diameter of the water pipe 21 and the bypass pipe 31 is 70: 30-80: 20, the advancing amount of the to-be-processed water is the same. Therefore, the valve 23 installed in the water pipe 21 opens only about 70% to 80%, and each valve 32 and 33 installed on both sides of the bypass pipe 31 opens 100% to allow the water to be processed. .

Therefore, since the amount of water to be processed through the bypass pipe 31 is small, the water proceeds in a state in which the concentrations of copper ions and silver ions generated in the cathode rod 11 and the anode rod 12 are sufficiently surplus. The dilution is performed while meeting the water to be processed through the water pipe 21 to sterilize the water to be processed through the water pipe 21.

As such, the present invention is immediately activated at the time when sterilization is started.

That is, the air compressor 63 is driven according to the adjustment of the control unit 4, and the air supplied from the air compressor 63 is filtered through the air filter 64 and then sent to the ozone generator 62.

Ozone generated by the ozone generator 62 is checked by the ozone injection meter 61 and then sent to the venturi mechanism 5.

The ozone generation in the ozone generator is generated by applying an oxygen high voltage (O ₂ ) to the oxygen generated by applying an alternating high voltage using glass as a dielectric between the corresponding electrodes due to silent discharge. (O ₂ ) is produced and reacts with this oxygen molecule to produce ozone (O ₃ ).

The ozone introduced into the venturi tube 51 through the orifice tube 52 of the venturi mechanism 5 diffuses into the water passing through the bypass tube 31 to rapidly sterilize the water due to the characteristic of ozone.

More specifically, ozone sterilizes water with a strong sterilization power of about 6.7 times that of chlorine and about 3125 times that of chlorine, so that water can be sterilized immediately after the device is operated.

The amount of ozone introduced in this way can vary somewhat depending on the concentration of organic matter, but there is no big difference, and it is safe if it is proportional to the flow rate as shown in the following table.

Flow rate (ℓ / min) Ozone input amount (g / hr) 2,000 0.5 ± 0.1 4,500 1.0 ± 0.2 8,000 1.5 ± 0.3 12,000 2.0 ± 0.4 21,500 3.0 ± 0.5

On the other hand, in the ozone supply means 6 of the present invention, the air filter 64 is provided after the air compressor 63 to prevent contaminated air and foreign matter from entering the ozone generator 62. 65 is used to ensure the airtight (watertight) with an operating pressure of 0.03kg / cm ² or less to prevent water or moisture from entering the ozone generator 62, the second reverse side 66 is an air compressor Moisture introduced through the (63) side is prevented from entering into the ozone generator 62 to prevent failure and shortened life.

Water sterilization system of the present invention as described in detail above is to use ozone immediately after operating the water sterilization device because when used with a sterilization device (copper-silver alloy rod sterilizer) that has good sustainability, but has no promptness, The rapidity of ozone (about 3125 times that of chlorine) enables the sterilization effect to be immediately realized from the beginning of the sterilization device, which greatly improves the sterilization ability. On the other hand, slime is not formed by removing organic matter from the water. The scale is not formed because the organic matter is removed, and it is an invention having many advantages such as oxidizing and precipitation of heavy metals and inorganic substances to reduce the total dissolved solids concentration (TDS), thereby greatly extending the life of the entire water sterilizer. .

Claims (3)

The water pipe 21 connected to the water tank 7 from the pump 22, the bypass pipe 31 installed so as to bypass the interruption of the water pipe, and is installed at the stop of the bypass pipe, and the cathode rod 11 and In the water sterilization device 1, the anode rod 12 is installed so as to be immersed in the water to be treated in the bypass pipe, the control unit 4 for supplying power and controlling the water sterilization device, A venturi mechanism (5) connected to the water sterilizer (1) continuously and continuously connected to the venturi tube (51) and the orifice tube (52) connected to the stop of the venturi tube; An ozone input meter 61 connected to the orifice tube 52 of the venturi mechanism 5, an ozone generator 62 connected next to the ozone input meter, and an air compressor 63 connected next to the ozone generator Ozone supply means (6) comprising a; Water sterilization system, characterized in that consisting of. The method of claim 1, The ozone supply means (6) is water sterilization system, characterized in that by installing an air filter (64) between the ozone generator (62) and the air compressor (63). The method of claim 1, The ozone supply means 6 has a first reverse region 65 and a second reverse region 66 at the front and rear sides of the ozone generator 62, respectively, in order to prevent the ozone generator 62 from being damaged by the infiltration of water. Water sterilization system characterized in that the installation.