KR200402812Y1 - device for manufacturing ozone water - Google Patents

Abstract

The present invention relates to an apparatus for producing ozone water for sterilization and disinfection, in which ozone gas is supplied and mixed from an ozone generator to raw water supplied from an inlet pipe and discharged by a pressurized motor, the supply pipe being connected to one end of the supply pipe drawn from the pressurized motor. The inside of the pressure chamber is provided with a laterally extended side, and the discharge pipe is connected to the other side of the pressure chamber is characterized.

The present invention provides an effect of providing an ozone water producing apparatus excellent in sterilization and disinfection while reducing the production cost by obtaining a high-efficiency ozone water by a simple configuration.

Description

Device for manufacturing ozone water

The present invention relates to a device for producing ozone water for sterilizing and disinfecting food materials and various kinds of equipment, and in particular, the simple concentration allows the ozone content to be sufficiently maintained and the time to be contained. An ozone water production apparatus.

In general, a restaurant handles a large amount of food or food ingredients and requires attention to hygiene management. Hygienic problems are frequently caused due to improper sterilization and disinfection of such food ingredients or tableware. have.

In particular, schools, the military, and other public organizations provide group meals to improve the health of their members evenly and to allow many to orderly eat within a limited amount of time. As the tableware is handled, more hygiene is required.

In addition, various food ingredients for cooking food are generally used as they are washed. Food ingredients contain contaminants such as bacteria and pesticides in general, and thus, sanitary treatment is insufficient. For example, a cooking room that handles food or tableware is particularly a place that requires attention to hygiene, but in fact, the sanitary treatment of kitchen spaces is difficult and inadequate, and there is a problem that there is no special disinfection or sterilization facility.

Accordingly, in recent years, a device for disinfecting food materials, dishes or other utensils using ozone water in which ozone (O₃) gas having a strong oxidizing power is dissolved in water has been used. In most cases, the ozone generator was connected to a tank to supply ozone gas to the raw water tank. The ozone gas was mixed in a bubble form, so that it was not dissolved in raw water and easily released into the atmosphere through the surface of the raw water. . Therefore, ozone water was not released properly before the sterilization and disinfection effect was obtained at the place of use, and the sterilization and disinfection effect could not be obtained properly, and the problem of causing harm to human body and air pollution caused by temporary release of ozone gas. There was.

In order to solve this problem and increase the solubility of ozone, a method and apparatus have been proposed to pressurize ozone water mixed with raw water and ozone gas so that ozone gas is not easily released, and Patent No. 10-0353637 discloses It is an example.

Looking at the pre-registered patent, generating ozone gas from the ozone generator; Supplying raw water through the injector, and introducing the generated ozone gas into the injector using the pressure drop due to the flow rate to form a bubble-like mixture of the raw water and the ozone gas; And supplying the formed foam mixture to any one of the two compartments of the pressurized tank having two compartments separated by the reciprocating partition, wherein the pressure in the compartment of the supplied foam mixture reaches a certain level. When the pressure is maintained for a predetermined time, ozone water is formed and then discharged to the outside, and at the same time, the bubble-like mixture from the injector is switched to the other one of the two compartments, and the partition wall is moved accordingly. When the pressure in the compartment reaches a certain level, it continues for a certain time to form ozone water and then discharges it to the outside. By repeating this process, ozone water is produced and discharged continuously in two compartments. It can be seen that the method characterized in that the ozone water production method and apparatus comprising a.

That is, by supplying ozone water sequentially to the two compartments partitioned by the movable partition wall, and compressing for a predetermined time and then discharged so that ozone gas can be dissolved in the raw water as much as possible.

In addition, the pre-registration device also proposes a technique for compressing by using a separate piston for more effective compression.

Such a pre-registered technology can obtain a sufficient sterilization and disinfection power of ozone water, there is a problem of economical due to the complicated configuration of the manufacturing apparatus and expensive manufacturing cost, it was difficult to provide a continuous supply of ozone water.

The present invention is to solve the conventional problems as described above, the object of the present invention is to provide an ozone water production apparatus excellent in sterilization and disinfection power while reducing the production cost to obtain high-efficiency ozone water by a simple configuration.

It is still another object of the present invention to provide an ozone water production apparatus capable of continuously supplying ozone water having high dissolution rate and excellent sterilization and disinfection power.

The present invention, in order to achieve the above object, the ozone gas is supplied and mixed from the ozone generator to the raw water supplied from the inlet pipe to be discharged by the pressurized motor, the end of the supply pipe to the end of the supply pipe drawn from the pressurized motor It is provided with a pressure chamber inside which the inside is extended laterally, and the discharge pipe is connected to the other side of this pressure chamber.

Accordingly, the ozone water supplied from the pressurized motor has a relatively narrow diameter of the discharge pipe connected to the other end of the pressure chamber, so that the ozone gas is effectively compressed in the pressure chamber, and the ozone gas is effectively dissolved in the raw water and discharged through the discharge pipe.

The discharge pipe is provided with a pressure valve for controlling the pressure of the pressure chamber and a sensor for operating the ozone generator and the pressurized motor while turning the power on and off according to the flow of water.

The pressure chamber may be formed in the same shape as the supply pipe and the diameter of the pipe is larger than that of the supply pipe.

Inside the pressure chamber may be provided with a compression chamber further extended to the upper side with respect to the supply pipe.

A plurality of partitions may be installed in the compression chamber to increase the pressure applied to the ozone water.

The pressure chamber may be further provided with a cylindrical compression chamber protruding upwards thereof to connect the inside thereof. Here, the compression chamber is preferably formed in a narrow shape compared to the length.

When described in more detail with reference to the accompanying drawings as specific embodiments of the present invention as follows.

1 is a configuration diagram showing an embodiment of the present invention, referring to this, an injector 2 is installed at one end of an inlet pipe 1 into which raw water, such as tap water or natural water, is introduced, and an ozone generator is installed on the injector 2. (3) the ozone gas is to be supplied, the inlet pipe (1) is connected to the pressurized motor (4), the pressurized motor (4) is pressurized through the supply pipe (5) ozone water mixed with raw water and ozone gas Will be supplied.

One end of the supply pipe (5) is provided with a pressure chamber (6), the pressure chamber (6) has a larger internal size than the supply pipe (5), and forms a compression chamber (7) extending outwardly The other end of the pressure chamber (6) is connected to the discharge pipe (8), the discharge pipe (8) detects the flow of water and a pressure valve (9) for adjusting the pressure acting on the pressure chamber (6) ozone generator 3) and a sensor 10 for turning on and off the pressurized motor 4 are provided, and an opening / closing valve 11 is provided at the end of the discharge pipe 8.

The pressure chamber 6 may be any type of cylindrical or rectangular shape, but it is preferable to use a pipe having a diameter larger than that of the supply pipe 5, and the supply pipe 5 or the discharge pipe 8 is generally used. ) Is connected to a central or eccentric position with respect to the pressure chamber 6.

In addition, the compression chamber 7 preferably extends upward to induce ozone gas, which is a gas, and may include a plurality of partitions 12 therein to form a plurality of compression chambers 7. Therefore, it is possible to control the flow of water and increase the cross-sectional area so that higher pressure can be applied.

The partition 12 may be installed to be aligned to one side as shown in the drawing, or alternatively may be installed facing each other in a displaced form.

Looking at a specific embodiment of the present device configured as described above are as follows.

The device according to the present invention can be used as it is connected to the water pipe used in general.

When the on-off valve 11 is opened, the power is turned on by the sensor 10 while the water in the pipe flows to operate the ozone generator 3 and the pressurized motor 4.

Ozone-mixed water generates pressure against the relatively narrow discharge pipe 8 while passing through the pressure chamber 6, and the compression rate of the liquid and the gas is different, so the ozone gas contained in the water is compressed by this pressure. It is effectively dissolved in water.

In particular, the compression chamber 7 is formed above the pressure chamber 6 so that the ozone gas contained in the water to be supplied is separated into the compression chamber 7 at the upper side due to the nature of the gas, and the pressure chamber 6 is moved upward. In this state, the ozone gas, which is a gas, is continuously compressed in the middle of the pressure chamber 6 and the compression chamber 7 by pressurizing the water by the pressurized motor according to different compression coefficients of liquid and gas. To dissolve.

Therefore, the ozone water supplied to the pressure chamber 6 is dually pressurized by the pressure acting on the compression chamber 7 and the pressure acting on the relatively narrow discharge pipe 8, so that the ozone gas dissolution effect is excellent.

If the pressurized motor 4 is used with a capacity of 20 kg / cm 2 to 30 kg / cm 2, and the pressure regulating valve 11 is opened at 2 to 3 kg / cm 2, which is normal normal water pressure, the opening / closing valve 11 In the pressure chamber 6, the difference between the contraction of the fluid, the expansion and the contraction of the gas, and the pressure of the expansion in the pressure chamber 6 is the pressure of the gas and the fluid which is continuously pressurized. ) Mutual pressure is applied at 15 kg / cm 2 to 20 kg / cm 2 or more, respectively, and the ozone gas mixed in the bubble state while passing through the injector is passed through while being dissolved in water effectively. At this time, the dissolved concentration of ozone Ozone water of 0.5 ~ 1.5ppm or more (more than 3 ~ 15 minutes) can be used.

In general, there are effective concentrations that can be sterilized or disinfected depending on the concentration of ozone mixed in ozone water.The dissolved concentration of ozone is 1 ~ 1.2ppm and lasts 30 seconds to 1 minute or more. Concentration and sterilization time can be seen as proportional to the square.

According to the experiment, when a control organism is administered to dissolved water, that is, ozone water (1 to 1.2 ppm), it immediately starts to react and is killed within 5 to 20 seconds (longest-pseudomonas aeruginosa), but in real life, the object is administered to ozone water. When the pathogenic microorganism (bacteria) reacts immediately on the epidermis, but when mixed with mucous membranes or foreign substances of the object, the reaction kills from the time of washing and removing the ozone water. It is preferable to set the concentration of ozone in terms of minutes or more, but the dissolved sterilization concentration of ozone is a relative concept of the duration, that is, 0.5 to 1 ppm and about 3 to 5 minutes, which is sufficient to clean and sterilize any material. It will not be necessary to maintain excessively high concentrations and times.

In view of this point, according to the present invention as described above, the ozone water having a sufficient concentration can be continuously supplied by a simple configuration, and the valve can be opened at any time without having to prepare and store ozone water in advance.

FIG. 2 is a schematic configuration diagram showing another embodiment of the present invention, and FIG. 3 is an explanatory diagram of FIG. 2, referring to these drawings, an injector at one end of an inflow pipe 21 into which raw water, such as tap water or natural water, is introduced. 22 is installed to supply ozone gas to the injector 22 from the ozone generator 23, the inlet pipe 21 is connected to the pressurized motor 24, and the pressurized motor 24 is connected to the raw water. The ozone water mixed with the ozone gas is pressurized and supplied through the supply pipe 25.

A pressure chamber 26 is installed at one end of the supply pipe 25, and the pressure chamber 26 has an inner size extended than that of the supply pipe 25 and a cylindrical compression chamber 27 protruding outward. ) Is provided with one or two or more, the other end of the pressure chamber 26 is connected to the discharge pipe 28, the discharge pipe 28 is a pressure valve (29) for regulating the pressure acting on the pressure chamber (26) ) And a sensor 30 for turning on and off the ozone generator 23 and the pressurized motor 24 by sensing the flow of water, and an opening / closing valve 31 is provided at the end of the discharge pipe 28.

The pressure chamber 26 may be any shape such as a cylinder or a square, but it is preferable to use a pipe having a diameter larger than that of the supply pipe 25, and the supply pipe 25 or the discharge pipe 28 is generally used. ) Is connected to a central or eccentric position with respect to the pressure chamber 26.

The compression chamber 27 has a shape that protrudes outward from the pressure chamber 26, and is preferably formed upward with respect to the pressure chamber 26 so that ozone gas, which is a gas, can be easily collected. It forms a narrow space connected to the pressure chamber 26.

Looking at the action of this configuration, when the water in the pipe flows by opening and closing the valve 31, the power is turned on (on) by the sensor 30 to operate the ozone generator 23 and the pressurized motor 24.

As the water mixed with ozone gas reaches the pressure chamber 26 and is filled up to the compression chamber 27, pressure is generated on the relatively narrow discharge pipe 28 so that compression is continuously performed, and less dissolved ozone gas is compressed. As it flows up into the chamber 27, the ozone gas is compressed by the continuous pressure and effectively dissolved in water.

In particular, the compression chamber 27 is located above the pressure chamber 26 so that ozone gas mixed with water flows into the upper side of the compression chamber 27 and acts from the lower side to the closed compression chamber 27. More effective dissolution can be achieved by the pressure of the water.

The ozone water thus formed may be usefully used for sterilizing and washing various food materials, dishes and other sanitary items.

In particular, by connecting one end of the existing water pipe to the inlet pipe of the present apparatus, the tap water supplied is ozonated and supplied to the general end-use place such as home or business through the water pipe, and the ozone water is conveniently provided through the existing water valve. It can be used, and when the operation of the ozone generator and the pressurized motor is stopped, it can be used just like ordinary tap water.

The present invention as described and illustrated above is not intended to be limited to the above embodiments, and may be modified in various forms without departing from the spirit of the present invention. That is, the size, shape and number of the pressure chamber or the compression chamber may be applied arbitrarily.

The present invention as described above has the effect of providing an ozone water production apparatus excellent in sterilization and disinfection while reducing the production cost by obtaining a high-efficiency ozone water by a simple configuration.

In addition, the present invention is able to continuously supply ozone water having excellent disinfection and disinfection power due to high dissolution rate of ozone gas, and does not need to prepare and store ozone water in advance, and has a useful effect that can be conveniently used only when necessary when connected to a general water pipe. to provide.

1-an explanatory diagram showing an embodiment of the present invention

2-Schematic configuration diagram showing another embodiment of the present invention

3-A diagram explaining the operation of FIG.

※ Explanation of code about main part of drawing ※

One ; Inlet pipe 2; Injector

3; Ozone generator 4; Pressurized motor

5; Supply pipe 6; Pressure chamber

7; Compression chamber 8; discharge pipe

9; Pressure valve 11; Valve

Claims (5)

In the ozone gas is supplied and mixed from the ozone generator to the raw water supplied from the inlet pipe and discharged by the pressurized motor, One end of the supply pipe drawn out from the pressurized motor is provided with a pressure chamber having an internally extended side, and the other side of the pressure chamber is connected to the discharge pipe of a smaller diameter than the pressure chamber, characterized in that the ozone water production apparatus. The ozone water production apparatus according to claim 1, wherein a compression chamber is formed in the pressure chamber, the compression chamber being extended upward with respect to the supply pipe. The ozone water production apparatus according to claim 2, wherein the compression chamber is provided with a plurality of partitions. The ozone water production apparatus according to claim 2, wherein the compression chamber is provided with one or two or more compression chambers protruding upwards so that the compression chamber is connected to the pressure chamber. According to claim 1, wherein the discharge pipe is provided with a pressure valve that can adjust the pressure of the pressure chamber and a sensor for operating the ozone generator and the pressurized motor while the power is turned on and off according to the flow of water and the on-off valve is installed Ozone water production device for sterilization and disinfection.