KR200428872Y1 - The air cleaner with disinfection and sterilization for in the room which possesses an ozone water making device - Google Patents

Abstract

The present invention provides a high-efficiency ozone water with a simple configuration, and has a sterilizing and disinfecting ozone water production device while reducing manufacturing costs, and provides a useful effect that can be conveniently used only when necessary when connected to a general water pipe. As a sterilization disinfection and air sterilization purifier, sterilization lamp, ozone generating lamp and ozone oxidation lamp are installed in accordance with the capacity to purify the air, disinfect and remove harmful substances contained in the air, and sterilize bacteria such as viruses and circulate them into clean air. At the same time, the sterilization and disinfection of the entire room can be performed quickly if necessary, thereby providing a useful effect of creating a pleasant and hygienic indoor environment. Filial pie To become available.

Case, ozone generating lamp, ozone oxidation lamp, filter, negative ion generator

Description

The air cleaner with disinfection and sterilization for in the room which possesses an ozone water making device}

1 is a front view showing the overall configuration of the present invention

Figure 2 is a side cross-sectional view showing the internal configuration of the present invention

3 and 4 is a schematic side view showing the operation of the present invention

※ Explanation of code about main part of drawing ※

One ; Case 2; Lower thread

3; Intermediate chamber 4; Upper chamber

10; Ozone water production apparatus 11; Ozone generator

12; Connecting valve 13; Inlet pipe

14; Pressurized motor 15; Supply pipe

16; Discharge line 17; Injector

18; Pressure chamber 19; Compression chamber

20; Pressure valve 21; sensor

22; On-off valve 23; filter

24; Inlet 25; 휀

26; Sterile lamps 27; ventilation opening

28; Exhaust port 29; Negative ion generator

30; Ozone oxidation lamps 31; Ozone Gas Supply Pipe

32; Control panel 33; Space

34; Circuit section 35; wheel

36; Ozone generating lamp 37; door

The present invention is designed to disinfect and disinfect food materials and various utensils as ozone water, and to sterilize and disinfect the entire interior of the room and sterilize and clean the air inside the room. Continuous supply of ozone to maintain the ozone water content and the time enough, and installed in the desired place in the room to clean the air in the room and the ozone water production device to be able to disinfect the entire inside of the room One relates to indoor sterilization disinfection and air sterilization purifiers.

In general, a large number of foods or food ingredients are handled in restaurants, which requires attention to hygiene management, which causes food poisoning due to poor sterilization and disinfection of such food ingredients or utensils. Hygiene problems frequently occur and no countermeasures have been taken, which is a social problem.

In particular, public organizations such as schools, the military, etc., promote the health of their members through group meals, while allowing many people to easily eat within a limited time. As the dishes are handled, more thorough and efficient hygiene management is required.

In addition, various food ingredients for cooking food are generally simply washed and used as they are, and the food ingredients contain contaminants such as bacteria and pesticides in their own condition, and thus the sanitary treatment for them is insufficient. In addition, the inside of the galley that handles food and tableware should be thoroughly hygienic, but in reality, kitchen facilities and environment are poor, and the sanitary treatment of the entire space is difficult, so there is no special disinfection or separate sterilization facility. The problem was inherent.

Accordingly, in recent years, a device that sterilizes food materials, dishes or other utensils using ozone water in which ozone (O3) gas having a strong oxidizing power is dissolved in water is used.

By the way, most of the conventional ozone water production apparatus is a simple form of supplying ozone gas to the raw water tank by connecting the ozone generator to the raw water tank, so the effect is insignificant and practically cannot be used much.

In order to solve this problem, a device has been proposed to apply ozone water mixed with raw water and ozone gas so that ozone gas is well dissolved in water, and Patent No. 10-0353637 is an example.

According to the pre-registered patent, the ozone gas is dissolved in the water as much as possible by supplying ozone water to the two compartments partitioned by the movable partition walls and compressing them for a predetermined time and then discharging them. For this purpose, a technique for compressing by using a separate piston is also proposed.

Such pre-registration technology can obtain sufficient sterilization and disinfection power of ozone water, but since the composition of the manufacturing apparatus is complicated and the manufacturing cost is high, there is an uneconomic problem that cannot be widely used in general restaurants, etc. and generates ozone water in continuous and large quantities. There was also a problem that could not be smooth supply.

On the other hand, in the modernized reality, most of the life is done indoors, so the importance of indoor air cleanliness and indoor hygiene increases gradually. In particular, the effect of indoor air on the human body and other food ingredients It is important to install a separate air purifier for purifying and supplying the indoor air is used a lot with the ozone water production apparatus as described above.

However, most of the conventional air purifiers are simple filters that filter and supply various impurities contained in the indoor air by a simple filter, and do not completely remove many harmful germs contained in the air. Accordingly, there is a problem that is insufficient to prevent damage from infection or contamination by harmful bacteria in the room.

In addition, as the pathogenic bacteria are inhabited by harmful substances such as dust or impurities accumulated in the filtered filter for a long time, a problem that causes secondary pollution by using an air purifier is generated.

Moreover, in places where hospitals should be thoroughly managed, especially in hospitals, restaurants, and kitchens, sterilization and disinfection are needed periodically, and conventional air purifiers cannot perform their functions, so they must be disinfected separately. The work was not easy, so I neglected it.

In order to solve such an end, a device for sterilizing indoor air has been used in the past, but it is used as a separate device from the ozone water device or the air purifier as described above. It was.

The present invention is to solve the conventional problems as described above, the purpose of which is integrated into a case consisting of one stand type can be effectively installed and used, sterilizing and cleaning food materials and various utensils efficiently It is possible to provide an indoor sterilization disinfection and air sterilization purifier with an ozone water production apparatus capable of arbitrarily performing indoor air purification and sterilization disinfection.

Another object of the present invention is to provide an indoor sterilization disinfection and air sterilization purifier provided with an ozone water production apparatus capable of large-capacity treatment so that the amount of the ozone water can be supplied in a continuous manner.

It is still another object of the present invention to provide an indoor sterilization disinfection and air sterilization purifier equipped with an ozone water production apparatus capable of disinfecting and disinfecting the interior of a chamber within a short time and sufficiently increasing the amount of ozone generated according to the size of the interior of the chamber. It is.

Another object of the present invention is to provide an ozone water producing apparatus and an ozone water producing apparatus which is made to facilitate the purification and sterilization of indoor air, the replacement of the filter of the disinfection processing apparatus, the maintenance of the inside of the apparatus, and the A / S treatment. To provide sterilization and air sterilization purifier.

The present invention, in order to achieve the above object, the inlet pipe connected to the water pipe, the pressurized motor and the supply pipe and the discharge pipe is connected continuously and the ozone generator is installed at one end of the inlet pipe to supply ozone gas to the inlet pipe. One end of the supply pipe is provided with a pressure chamber having an internally extended side pressure chamber and a discharge pipe having a diameter smaller than that of the pressure chamber is connected to the other side of the pressure chamber, and the compression chamber is extended to the side of the pressure chamber to manufacture ozone water. A lower chamber with a device; The suction port disposed above the lower chamber and provided with a filter is formed laterally, and a fan is installed inside to blow air into the upper part, and a sterilization lamp having a UV-C wavelength inside the suction port. Intermediate room is installed; A vent hole is formed on the bottom surface of the intermediate chamber so that air is blown from the tank, an exhaust port is formed on the front surface thereof, and an anion generator is installed on one end thereof, and a sterilization lamp having a UV-C wavelength is disposed on the inner end thereof. And an upper chamber in which an ozone oxidation lamp having a UV-B wavelength is installed and an end portion of the ozone gas supply pipe connected from the ozone generator of the lower chamber is connected to one end of the exhaust port; The lower chamber, the middle chamber and the upper chamber are integrally connected to each other, and a control panel is installed at one end and electrically connected to the ozone generator, the pressurized motor, the fan, the sterilization lamp, the anion generator, and the ozone oxidation lamp. It is characterized by including a case where the wheel is installed.

Another feature of the present invention, the ozone water production device consisting of the inlet pipe, the pressurized motor, the supply pipe, the pressure chamber and the discharge pipe of the lower chamber is installed two or more so that the ozone gas supplied from the ozone generator is supplied to each inlet pipe. will be.

Accordingly, in consideration of the amount of ozone water used, one or two ozone water production apparatuses may be operated at the same time to continuously supply the supply amount of ozone water according to the amount used.

Another feature of the present invention is that the ozone generating lamp of the UV-D wavelength is further installed in the upper chamber to supply more ozone gas.

Here, the germicidal lamp and the ozone oxidation lamp is an ultraviolet lamp, the sterilizing lamp is a UV-C ultraviolet lamp (240 ~ 270nm; hereinafter 'sterilization lamp'), the ozone oxidation lamp is a UV-B ultraviolet lamp (280 ~ 320nm) ; Hereinafter referred to as 'ozone oxidation lamp'.

The ozone generating lamp is a UV-D ultraviolet lamp (180-250 nm; hereinafter referred to as an 'ozone generating lamp').

For reference, ozone gas (O₃) is ozone that absorbs ultraviolet rays of strong energy wavelength (180 ~ 240nm) in the air, thus producing ozone with unstable bonding state, and also absorbs ultraviolet rays of low energy wavelength (280 ~ 320nm) and is unstable. Oxygen molecules are separated and reduced to stable oxygen molecules. In this design, the ozone gas is generated and irradiated with ultraviolet rays in the low energy wavelength band to react more rapidly and change into stable oxygen molecules. By deodorizing action to quickly remove the harmful substances in the air as well as sterilization process, the indoor air can be sterilized in a short time passing through the air circulation path of the present invention can be exhausted to the outside.

That is, the sterilization lamp and the ozone oxidation lamp according to the present invention are intended to induce the rapid action of the ozone gas by using a plurality of UV-B lamps and UV-C lamps in the sterilization peak wavelength band including the optimum sterilization wavelength band. .

In particular, when the ozone gas is released into the atmosphere, the oxidation proceeds by reacting with oxygen molecules in the air. The oxidation of the ozone gas in the air requires a considerable time, but the ozone gas is removed by the ultraviolet irradiation method as described above. The photooxidation method, which is rapidly progressing in oxidation, is used to be harmless to the human body.

In addition, to continuously suppress and extinguish the activities of harmful bacteria in the anion processing unit released by the negative ion generator installed in the exhaust port, as well as help the oxygen supply activity to provide a comfortable indoor environment to the human body.

On the other hand, another feature of the present invention is that the door is provided on the back of the case to open and close the lower chamber, the middle chamber and the upper chamber, respectively.

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

1 is a front view showing the overall configuration of the present invention, Figure 2 is a side cross-sectional view showing the internal configuration of the present invention, Figure 3 and Figure 4 is a schematic side view showing the operation of the present invention.

Referring to these drawings, the indoor sterilization disinfection and air sterilization purifier equipped with an ozone water production apparatus according to the present invention is provided with a case (1) made of a stand type that can be moved and installed.

The case 1 is formed in a cabinet shape and its interior is divided into a lower chamber 2, an intermediate chamber 3, and an upper chamber 4.

First, the lower chamber 2 is provided with an ozone water production apparatus 10 for producing ozone water.

The ozone water production apparatus 10 applied in the present invention does not use a forced compression method using a separate piston as in the prior art, but water ozone gas generated from the ozone generator 11 by natural water pressure generated in a water pipe. The ozone water production apparatus 10 which is made to melt in compression is applied.

As a configuration for this, the ozone water production apparatus 10 has an inlet pipe 13 having a connection valve 12 for receiving raw water such as tap water or natural water from one side of the lower chamber 2 of the case 1. ), A pressurized motor 14, a supply pipe 15, and a discharge pipe 16 are continuously connected from the inlet pipe 13, and an ozone generator 11 is installed at one end of the inlet pipe 13. It is configured to supply ozone gas to the inlet pipe (13).

An injector 17 is installed at one end of the inlet pipe 13 to inject ozone gas into the inlet pipe 13, and the injector 17 is connected to supply the ozone gas from the ozone generator 11. In addition, the inlet pipe 13 is connected to the pressurized motor 14 again, and the pressurized motor 14 pressurizes and supplies ozone water mixed with raw water and ozone gas through the supply pipe 15.

One end of the supply pipe 15 is provided with a pressure chamber 18 for dissolving ozone gas in the raw water, which pressure chamber 18 has an extended internal size than the supply pipe 15, A plurality of extended compression chambers 19 are formed, and the discharge pipe 16 is connected to the other end of the pressure chamber 18.

In addition, the discharge pipe 16 senses the pressure of the pressure valve 20 acting on the pressure chamber 18 and the flow of water to turn on and off the operation of the ozone generator 11 and the pressurized motor 14. The sensor 21 is installed, the end portion of the discharge pipe 16 is configured to use the ozone water generated by the opening and closing valve 22 is installed.

On the upper side of the lower chamber 2, the intermediate chamber 3 is provided. On both sides of the intermediate chamber 3, suction ports 24 to which the filter 23 is mounted are provided on the side surfaces of the case 1, respectively. It is formed, and the inside of the fan 25 is provided so that the air flowing in the suction port 24 is blown upward.

Since the inlet 24 is formed at both sides, the inflow of contaminated indoor air is increased, and thus, the inlet 24 has an efficient structure capable of maximizing the amount of air purification sterilized per indoor space of a predetermined size.

Sterilization of UV-C wavelength (240-270 nm) for the first sterilization of the contaminated air in the room filtered by the filter 23 while being introduced by the fan 25 inside the suction port 24. The lamp 26 is provided and comprised.

The germicidal lamp 26 having the UV-C wavelength (240 ~ 270nm) is an ultraviolet lamp that generates the strongest sterilizing power among ultraviolet rays, so the germicidal lamp 26 is used for most bacteria such as bacteria, viruses and molds. Effective sterilization is achieved.

In addition, the filter 23 installed at the suction port 24 filters 99.9% of contaminants such as fine dust of indoor air to be sucked up to 0.03 micron, and the filter 23 is free filter and hepa. It is preferable that the filter is composed of a double filter of a hefa filter.

Since the germicidal lamp 26 is installed inside the filter 23 as described above, when the photocatalytic material is added to the surface of the filter 23 including the prefilter and the hepa filter, the filter 23 is used. By preventing the breeding of bacteria, etc. that are inhabited by the fine dust filtered), it is possible to prevent the secondary pollution caused by neglecting the management of the filter 23 by decomposing and removing other contaminants. .

On the other hand, an upper chamber 4 is provided above the intermediate chamber 3, and a vent hole 27 is provided at the bottom of the upper chamber 4 so that the air supplied from the fan 25 is blown in. It is composed.

In addition, an exhaust port 28 is formed on the front surface of the upper chamber 4, and an anion generator 29 is installed at one end thereof.

The negative ion generator 29 discharges negative ions to the inside of the chamber together with the air blown through the exhaust port 28 by an electrical discharge effect, thereby exerting an antistatic effect such as dust in indoor air, and the action of harmful bacteria. It will not only continually suppress and extinguish, but also provide oxygen to the human body to provide a comfortable indoor environment.

Further, at one end of the upper chamber 4, the germicidal lamp 26 of the UV-C wavelength (240-270nm) and the UV-B wavelength (280- 320 nm) ozone oxidation lamp 30 is installed.

Since the sterilization lamp 25 has the same effect as described above, when the first sterilization lamp is not sterilized in the sterilization lamp 25 of the intermediate chamber 3, the sterilization lamp 25 is provided to additionally perform the second sterilization action.

In addition, one end of the exhaust port 28 is installed in a direction in which an end portion of the ozone gas supply pipe 31 branched from the ozone generator 11 of the lower chamber 2 is exhausted and ozone gas is discharged therefrom. In addition, the ozone oxidation lamp 30 may be used to supply additional ozone when the amount of ozone supplied from the ozone generator is insufficient.

This is for disinfecting and disinfecting the entire interior of the room as ozone gas. The ozone gas generated by the ozone generator 11 is discharged through the ozone gas supply pipe 31 and discharged into the room together with the purified air. This is for disinfecting and disinfecting the entire inside of the chamber.

As described above, the ozone gas discharged into the chamber is sterilized and disinfected in the sealed chamber, but is circulated again by the fan 25 and sucked through the suction port 24 to sterilize the filter 23. The ozone oxidation lamp 30 passes through the ozone gas to sterilize the contaminated air.

As an additional explanation, ozone gas (O₃) absorbs ultraviolet rays of the strong energy wavelength (180-240 nm) generated by the ozone oxide lamp 30 in the air, thereby producing ozone with unstable bonding state, and also low energy wavelength. (280 ~ 320nm) by absorbing the ultraviolet light of the unstable oxygen molecules are separated and reduced to stable oxygen molecules, in the present design low energy generated in the ozone oxidation lamp 30 to the ozone gas circulated through the intake and suctioned ozone gas By irradiating ultraviolet rays in the wavelength band, the reaction reacts more rapidly and changes into stable oxygen molecules, and the strong oxidation and deodorization effect at this time enables the decomposition and removal of harmful substances in the air as well as sterilization treatment. It can be completely sterilized in a short time passing through the air circulation path and can be exhausted to the outside again.

That is, the sterilization lamp 26 and the ozone oxidation lamp 30 according to the present invention use the UV-B lamp and the UV-C lamp of the sterilization peak wavelength band including the optimum sterilization wavelength band, so that the rapid action of the ozone gas as described above. It is intended to induce.

In particular, when the ozone gas is released into the atmosphere, the oxidation proceeds by reacting with oxygen molecules in the air. Since the oxidation of the ozone gas in the air takes a considerable time, the ozone gas is removed by the ultraviolet irradiation method as described above. It is made to be used harmless to the human body by using the photooxidation method, which rapidly progresses oxidation.

Meanwhile, a control panel 32 is installed at one end of the front surface of the case 1 so that the ozone generator 11, the pressurized motor 14, the fan 25, the sterilizing lamp 26, the negative ion generator 29 and the ozone. Oxidation lamps and the like can be electrically connected and manipulated and set by the control panel 10. Although not shown in the drawing, the control panel 10 includes a timer for setting an operating time, a sensor for measuring the concentration of ozone, and the like. This can be installed.

In addition, the circuit unit 34 is electrically connected to the space part 33 provided between the intermediate chamber 3 and the lower chamber 2 so as to operate in conjunction with the control panel 32.

The germicidal lamp 26, the ozone oxidation lamp 30, the negative ion generator 29, and the like, which are described above, are all electrically connected to the control panel 32 and are configured to operate organically with each other.

And, the lower end of the case 1 is provided with a wheel 35, the case (1) is made of a stand type, so that the contaminated air flows on the bottom of the natural convection action of the air indoors and doubled upwards The effective air disinfection disinfection can be achieved by the circulation type air purifying effect, and it can be sterilized in the corner of the room efficiently by moving to the desired indoor place as needed. It can be used continuously for a long time by supplying continuously to the treatment.

Meanwhile, in the present invention, two or more sets of the ozone water production apparatus 10 provided in the lower chamber 2 are installed so that ozone gas supplied from the ozone generator 11 is supplied to each inflow pipe 13. Can be.

Since the production of ozone water is proportional to the amount used to use ozone water, the lower chamber of the case (1) to supply a large amount of ozone water in the case where a lot of surface sterilization and disinfection treatment of food materials and other utensils utilizing ozone water is required. It is comprised so that two or more sets may be provided in (2).

The front or rear of the case 1 according to the present invention is provided with a door 37 to open and close the lower chamber 2, the intermediate chamber 3, and the upper chamber 4 to open and close.

Since the intermediate chamber 3 and the upper chamber 4 are configured to force air to be circulated by the fan 25 through the inlet 24 and the exhaust port 28, the inner chamber 3 and the upper chamber 4 are basically configured to have a sealed shape. By installing a door (37) or an anion generator (29) and a door 37 that can open and close the interior in terms of management to be provided to be able to provide convenience by using the device of the present invention.

In addition, the ozone water production apparatus 10 is installed in the lower chamber 2, and the lower chamber 2 is also configured to facilitate the management by installing a door 37 to be opened and closed as necessary.

Looking at the specific action of the present invention configured as described by function as follows.

First, referring to the operation of the ozone water production apparatus 10 installed in the lower chamber 2 of the case (1), as shown in Figure 2 is generally in the connection valve 12 of the inlet pipe (13) Can be connected to the water pipe used.

Since ozone gas is supplied from the ozone generator 11 to the injector 17 installed at one end of the inflow pipe 13 into which raw water such as tap water or natural water flows, the inflow pipe 13 is connected to the pressurized motor 14. Therefore, the pressurized motor 14 pressurizes and supplies ozone water mixed with raw water and ozone gas through the supply pipe 15.

One end of the supply pipe 15 is provided with a pressure chamber 18, the pressure chamber 18 has a larger internal size than the supply pipe 15, a plurality of compression in the form of a cylinder extending protruding outwardly The discharge pipe 16 is connected to the other end of the pressure chamber 18, so that the discharge pipe 16 has a pressure valve 20 for controlling the pressure acting on the pressure chamber 18 and water. The sensor 21 for turning on and off the ozone generator 11 and the pressurized motor 14 is operated by the flow sensing operation.

That is, when the on-off valve 22 is opened, the power is turned on by the sensor 21 while the water in the pipe flows to operate the ozone generator 11 and the pressurized motor 14.

Here, referring to the process of mixing the ozone gas and water with reference to the ozone gas and water via the pressure chamber 18, the pressure is generated to the relatively narrow discharge pipe 16, wherein the compression rate of the liquid and gas As a result, the ozone gas contained in the water is compressed by this pressure and effectively dissolved in water.

In particular, the compression chamber 19 is formed above the pressure chamber 18 so that ozone gas contained in the water to be supplied is separated into the compression chamber 19 on the upper side and collected above the compression chamber 19 due to the nature of the gas. In this state, the ozone gas, which is a gas, is continuously compressed in the middle of the pressure chamber 18 and the compression chamber 19 by pressurizing the water by the pressure motor 14 according to different compression coefficients of the liquid and the gas. It is dissolved in water.

Therefore, the ozone water supplied to the pressure chamber 18 is double pressurized by the pressure acting on the relatively narrow discharge pipe 16 together with the pressure acting on the compression chamber 19, so that the ozone gas dissolution effect is excellent.

If the pressurized motor 14 is used with a capacity of approximately 20 kg / cm 2 to 30 kg / cm 2, and the pressure valve 20 is opened at 2 to 3 kg / cm 2, which is a normal normal water pressure, the shut-off valve 22 In the pressure chamber 18, 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 18 is determined by the pressure of the gas and the fluid which is continuously pressurized. The pressure is applied to each other 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 17 passes through while being dissolved in water effectively. Ozone water with a dissolved concentration of 0.5 to 1.5 ppm or more (3 to 15 minutes or more) 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 microorganisms (bacteria) react immediately on the epidermis, but when mixed with the mucous membranes or foreign substances of the object, the ozone water has a minimum working and contact time of at least 1 ~ Although it is preferable to base the concentration on 2 minutes or more, the dissolved sterilization concentration of ozone is a concept relative to the duration, that is, 0.5 to 1 ppm and 3 to 5 minutes, it is sufficient to wash and sterilize any material, so 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.

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.

On the other hand, the operation of the air purifier provided in the intermediate chamber 3 and the upper chamber 4 of the case 1 is as follows.

3 is an operational state diagram showing the use of the air purifier. Referring to this, it shows a state in which the sterilization and disinfection of the entire inside of the chamber is processed by the present invention.

As such, when the entire sterilization and disinfection of the inside of the room is performed, the timer is set by the operation of the control panel 32 and a sensor (not shown) is performed. The sensor (not shown) measures the concentration of ozone. In this case, the control panel 32 may be installed at an arbitrary position in the room, and may be electrically connected to the control panel 32.

In addition, since ozone is released into the room during sterilization and disinfection, the premise that no person enters or leaves the room for a predetermined disinfection time after the operation of the device is followed.

First, the fan 25 is operated to circulate indoor air, and ozone gas generated from the sterilizing lamp 26, the ozone generating lamp 36, and the ozone generator 11 is simultaneously passed through the ozone supply pipe 31. After the high concentration of ozone is released into the room for a certain time (or a certain concentration), the ozone (O₃) of the proper sterilization concentration (2-5ppm) is spread evenly inside the room as determined by the sensor or timer setting. 4, the ozone oxidation lamp 30 is turned on as the ozone generating lamp 36 is turned off, and the ozone gas contained in the air in the chamber continuously circulated by the fan 25 is ozone oxidation lamp. By photo oxidative decomposition by the action of 30 is reduced to oxygen and supplied back to the room through the exhaust port 28, in this process also the negative ion generator 9 is operated to circulate and supply oxygen containing anion for a certain time Residual ozone in the room ( O₃) is extinguished, and at the same time, the room is sterilized and disinfected.

In addition, after the operation as described above, the indoor air is introduced through the suction port 24 by the fan 25, and impurities such as dust of the air contaminated by the filter 23 are filtered into the case 1. Ozone is generated while the sterilization lamp 26 is operated, and at the same time, the ozone oxidation lamp 30 is additionally operated to oxidatively decompose the airborne contaminants and pollutants by photooxidation, that is, oxygen reduction. It is sterilized and discharged back into the room through the exhaust port 28 as clean air, and is supplied to the room as air containing anion by the action of the negative ion generator 29.

Such an operation may be performed by an operation of the control panel 32, and an operation for a predetermined time or a periodic operation by a timer may be set.

According to this action, as well as the removal of dust and impurities of contaminated air as well as sterilization of contaminants and harmful bacteria, clean air containing anion can be circulated and supplied to the room to create a comfortable indoor environment.

Therefore, in particular, hospitals (clinics, operating rooms, hospitals, etc.), restaurants (cooking rooms) and food manufacturing plants will be able to create a more comfortable and hygienic indoor environment.

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 arrangement of each ultraviolet light may be sequentially installed between the intake port and the exhaust port, and its capacity or number may be arbitrarily selected according to the size of the room to be used.

The present invention as described above can provide an ozone water production apparatus that can be conveniently used anytime with high efficiency ozone water by a simple configuration in connection with a general water pipe, while purifying air by sterilizing harmful bacteria contained in the air. It can be circulated and supplied to the air, and if necessary, the sterilization and disinfection of the entire room can be performed quickly, thus providing a useful effect of creating a pleasant and hygienic indoor environment. As it is configured integrally, it has an effect that simple installation and use can be made.

Claims (4)

An inlet pipe connected to the water pipe, a pressurized motor, a supply pipe, and a discharge pipe are continuously connected, and an ozone generator is installed at one end of the inlet pipe to supply ozone gas to the inlet pipe, and the inside of the supply pipe extends laterally. A lower chamber having an ozone water production apparatus having a pressurized pressure chamber and a discharge pipe having a diameter smaller than that of the pressure chamber connected to the other side of the pressure chamber, and having a compression chamber extended outside the pressure chamber; The suction port disposed above the lower chamber and provided with a filter is formed laterally, and a fan is installed inside to blow air into the upper part, and a sterilization lamp having a UV-C wavelength inside the suction port. Intermediate room is installed; A vent hole is formed on the bottom surface of the intermediate chamber so that air is blown from the tank, an exhaust port is formed on the front surface thereof, and an anion generator is installed on one end thereof, and a sterilization lamp having a UV-C wavelength is disposed on the inner end thereof. And an upper chamber in which an ozone oxidation lamp having a UV-B wavelength is installed and an end portion of the ozone gas supply pipe connected from the ozone generator of the lower chamber is connected to one end of the exhaust port; The lower chamber, the middle chamber and the upper chamber are integrally connected to each other, and a control panel is installed at one end and electrically connected to the ozone generator, the pressurized motor, the fan, the sterilization lamp, the anion generator, and the ozone oxidation lamp. Indoor sterilization and air sterilization purifier provided with an ozone water production apparatus, characterized in that the case is provided with a wheel. The method of claim 1, At least two sets of ozone water production apparatuses 10 including the inlet pipe 13, the pressurized motor 14, the supply pipe 15, the pressure chamber 18, and the discharge pipe 16 of the lower chamber 2 are installed to provide the ozone. Indoor sterilization and air sterilization purifier with ozone water production apparatus, characterized in that the ozone gas supplied from the generator 11 is supplied to each inlet pipe (13). The method of claim 1, Inside the upper chamber 4, an ozone generating lamp 36 having a UV-D wavelength is further installed to supply more ozone gas. . The method of claim 1, The front or rear of the case 1 is provided with an ozone water production apparatus, characterized in that the door 37 for opening and closing the lower chamber 2, the intermediate chamber 3 and the upper chamber 4, respectively. Indoor sterilization and air sterilization purifier.

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