JP4588104B1 - Disinfection / deodorization method and disinfection / deodorization equipment - Google Patents

Abstract

Disclosed is a sterilization / deodorization method capable of sterilizing and deodorizing a room safely and efficiently despite using an inexpensive apparatus.
A chemical solution (22) containing hypochlorous acid having a predetermined effective chlorine concentration and having a pH adjusted to 3.0 to 7.0 is prepared. The chemical solution is brought into contact with air (Y2), and hypochlorous acid is evaporated in the air. At this time, the chemical solution is kept in a liquid phase, that is, it is brought into contact with air without being atomized. The obtained air containing hypochlorous acid is blown to a predetermined area (Y3) to sterilize and deodorize the area.
[Selection] Figure 1

Description

  The present invention supplies air containing a substance having a bactericidal and deodorizing action to a predetermined area such as a residential facility such as a condominium, a house, a public facility such as a hospital, a nursing home or a childcare facility, or a food factory or an underground shopping center. Thus, the present invention relates to a sterilization / deodorization method and a sterilization / deodorization apparatus for sterilizing and deodorizing the area.

  In an operating room or a hospital room that accommodates a post-operative patient, the room is sterilized so that a patient with reduced immunity does not get infected. As such a sterilization method, for example, there is a simple method such as sterilization by spraying a rubbing alcohol directly in a room by spraying, and a relatively expensive apparatus such as an ozone gas method or an ultraviolet irradiation method is used. There is also a method of sterilization. The ozone gas method is a method in which ozone gas is supplied into a sealed unmanned room by an ozone gas generator. Bacteria floating in the indoor air and bacteria adhering to furniture, appliances, etc. are sterilized by the strong oxidizing action of ozone gas. The ultraviolet irradiation method is a method of irradiating indoor furniture and fixtures with ultraviolet rays using an ultraviolet irradiation device. The part irradiated with ultraviolet rays is sterilized by the sterilizing action of ultraviolet rays. However, there are problems with these sterilization methods. For example, in the method of spraying disinfecting alcohol by spraying, a sterilizing effect can be obtained immediately after the disinfecting alcohol is sprayed, but if the evaporated alcohol stays in a sealed room, the alcohol itself is nutrient for bacteria and mold. However, there is a problem that bacteria and mold grow on the contrary. Therefore, it is suitable for sterilization of ambulances in which ambulatory air exchange is relatively frequent, but it is not necessarily suitable for sterilization of operating rooms and hospital rooms. In the ozone gas method, ozone gas has a strong oxidizing action, so it is inconvenient because it must be supplied after the room is unattended, and a serious problem that the equipment in the room corrodes due to the strong oxidizing action. There is also. In the ultraviolet irradiation method, it is necessary to take care not to directly irradiate the human body with ultraviolet rays, and there is also a problem that a sufficient sterilizing effect cannot be obtained because the shaded part not irradiated with ultraviolet rays is not sterilized.

  Therefore, various sterilization methods for sterilizing indoors by spraying a chemical solution containing hypochlorous acid that does not become nutrients for bacteria and molds in a mist state and supplying the solution indoors are disclosed in Patent Documents 1 to 3. Has been proposed in

JP 2001-129061 A JP 2001-276842 A JP 2004-141429 A

  In Patent Document 1, a chemical solution composed of an aqueous sodium hypochlorite solution adjusted to a predetermined pH of 4.0 to 7.5 is atomized using an ultrasonic vibration device, and this is stirred with air. A sterilization method to be supplied indoors is described. According to the method described in Patent Document 1, since the chemical liquid contains 5 to 200 ppm of hypochlorous acid having a strong sterilizing power, when the atomized chemical liquid is stirred together with air and supplied into the room, The room can be sterilized efficiently. Patent Document 2 discloses that when water containing chlorine ions is sprayed in a mist and sprayed on a sterilized object, the sprayed water is irradiated with ultraviolet rays to generate hypochlorous acid, and sterilized. A sterilization method is described in which mist water containing hypochlorous acid reaches an object. According to Patent Document 2, it is described that when a chemical solution containing hypochlorous acid is simply sprayed, there is a problem that hypochlorous acid in the chemical solution is decomposed by a predetermined ratio at the time of spraying. This seems to have been interpreted that hypochlorous acid has been decomposed with respect to the phenomenon that hypochlorous acid is evaporated in the air, as is clarified in the description of the present invention. In any case, according to the method described in Patent Document 2, since the sprayed water is irradiated with ultraviolet rays to generate hypochlorous acid, that is, hypochlorous acid that is decomposed during spraying is not included. Hypochlorous acid is effectively used for sterilization without being decomposed. In Patent Document 3, a chemical solution containing chlorous acid and hypochlorous acid is set to a high pressure, ejected from a nozzle together with the pressurized air, and discharged into the air in the form of a mist of 0.2 to 25 μm. A fungal method is described. According to the method described in Patent Document 3, chlorous acid and hypochlorous acid have a strong sterilizing power. Therefore, when a chemical solution containing these is atomized and released into the air, the indoor air is efficient. Will be sterilized.

  According to the methods described in Patent Documents 1 to 3, since a mist-like chemical solution containing hypochlorous acid is sprayed into the air, the air can be sterilized, and such a chemical solution can be sterilized. When sprayed on, the sterilization object can be sterilized efficiently. Furthermore, since hypochlorous acid can also decompose organic substances, an effect of deodorizing the interior of the room is recognized. Since hypochlorous acid has a sufficiently small influence on the human body, it can be supplied to a manned room. However, these methods also have problems to be solved. First, individual problems will be described for each method, and then problems common to Patent Documents 1 to 3 will be described.

(Individual issues)
In the method described in Patent Document 1, there is a problem that an ultrasonic vibration device that makes the chemical liquid in a mist form is particularly necessary. For example, if the room to be sterilized is large, such as a hospital or nursing home, it is necessary to spray a large amount of chemical liquid in a mist. A device or a large ultrasonic vibration device is required. In addition, since hypochlorous acid in such a chemical solution has a relatively low effective chlorine concentration of 5 to 200 ppm, it is necessary to atomize the chemical solution in a large amount in order to obtain a sufficient sterilizing effect. is there. This will increase costs. In the method described in Patent Document 2, hypochlorous acid is generated by irradiating ultraviolet rays to water atomized and containing chlorine ions to form hypochlorous acid. Generally, the concentration is not high and the production efficiency is not high. If it does so, if it is going to acquire sufficient disinfection effect, a large sized apparatus will be needed and it will become high-cost. In the method described in Patent Document 3, since the chemical liquid is made high pressure and the chemical liquid is ejected from the nozzle together with the high pressure air, a compressor and a pressurizing pump are required. This will increase the size of the device. Moreover, in order to spray a chemical | medical solution appropriately, it is necessary to adjust the operation | movement of a compressor and a pressurization pump, advanced control and adjustment are needed, and it will become high cost.

(Common problems)
In the method described in Patent Document 1 or 3, a chemical solution containing hypochlorous acid is atomized and stirred in air so that it reaches every corner of the room in a state containing moisture. Moreover, in the method described in Patent Document 2, a solution obtained by generating hypochlorous acid in mist-like water, that is, a chemical solution containing hypochlorous acid is sprayed directly on the sterilization target. Thus, in any method, hypochlorous acid is scheduled to be brought into contact with the sterilization target in a state containing moisture. The reason why hypochlorous acid is brought into contact with the sterilization target in a state of containing moisture in this way is not clearly described in these documents, but based on conventional knowledge or assumption regarding hypochlorous acid. It seems to have been made. That is, hypochlorous acid is a finding that water molecules have bactericidal power only in water with water molecules. Alternatively, it is speculated that when hypochlorous acid evaporates, it changes to dichlorine monoxide as in the following formula, and a sufficient bactericidal effect cannot be obtained.
_{2HOCl = Cl 2 O + H 2} O ( Equation 1)
Therefore, in patent documents 1-3, the possibility that hypochlorous acid diffuses in the air alone and the sterilizing power of hypochlorous acid in that state are not considered. For this reason, in the methods described in Patent Documents 1 to 3, a chemical solution containing hypochlorous acid is sprayed in a mist and stirred in the air, but a new problem arises. That is, such a chemical solution contains sodium chloride necessary for the generation of hypochlorous acid as an impurity or hydrochloric acid for adjusting the pH of the chemical solution at a predetermined ratio. As a result, impurities such as sodium chloride and hydrochloric acid are also atomized and sprayed, so that the metal in the room rusts or pollutes the room. Furthermore, when a highly toxic substance such as sodium chlorate (NaClO ₃ ) produced by autolysis of hypochlorous acid is contained in the chemical solution, these are sprayed and dangerous. Thus, according to each method of patent documents 1-3, since only hypochlorous acid cannot be supplied indoors, a problem will arise.

  The present invention has been made in view of the above-described problems. Specifically, even though an inexpensive device is used, it can effectively disinfect and deodorize a large room. It can be agitated in indoor air, has almost no effect on the human body, so it can be carried out even if there is a person in the room, and rusts metal such as sodium chloride and hydrochloric acid or pollutes the room. A sterilization / deodorization method and a sterilization / deodorization device that can be safely sterilized and deodorized without discharging toxic substances such as sodium chlorate and highly toxic substances to the outside. It is intended to provide.

In order to achieve the above-mentioned object, the present invention brings a chemical solution containing hypochlorous acid having a predetermined effective chlorine concentration and having a pH adjusted to 3.0 to 7.0 into contact with air to bring hypochlorous acid into the air. Allow chloric acid to evaporate. At this time, the chemical solution is placed in a predetermined chemical solution tank , and the air is brought into contact with the chemical solution so as to blow air parallel to the liquid surface of the chemical solution . Then, the air containing the obtained hypochlorous acid is blown to a predetermined area so that the area is sterilized and deodorized. In this way, sodium chloride, hydrochloric acid, and other impurities do not contaminate the area. Further, in the invention of the sterilization / deodorization apparatus, the chemical solution is put in a predetermined chemical solution tank, and has a predetermined structure so that air is blown in parallel with the liquid surface of the chemical solution so that the air is brought into contact with the chemical solution. It is configured as a sterilization / deodorization device.

That is, in order to achieve the above-mentioned object, the invention according to claim 1 is a method in which a chemical solution containing hypochlorous acid having a predetermined effective chlorine concentration and having a pH adjusted to 3.0 to 7.0 is aired by a blower. the fed is flowed in parallel in contact with the liquid surface of the chemical solution, evaporate the hypochlorite in said air, by blowing air containing hypochlorous acid obtained in a predetermined area of the area When sterilization / deodorization is performed, the air to the area is configured so as to flow as it is by the air sent by the blower .
The invention according to claim 2 is the sterilization / deodorization method according to claim 1, wherein the chemical liquid is allowed to flow down while retaining a plurality of chemical liquid tanks connected in series for a predetermined time, and the air is It is comprised so that it may spray in parallel with the liquid level of the said chemical | medical solution tank from the direction opposite to the flow of a chemical | medical solution.
And in invention of Claim 3, in the disinfection and deodorization method of Claim 1 or 2, the air containing the said hypochlorous acid obtained by making the said chemical solution contact the said air, The air is supplied to a blower port of an air conditioner, a humidifier, or an air purifier, and the air containing the hypochlorous acid is blended with the air blown from the blower port and blown.

The invention according to claim 4 is a predetermined chemical evaporation chamber provided with an intake port for taking in air from the outside and an air supply port for blowing air to the outside, a chemical solution tank provided in the chemical evaporation chamber, The chemical solution tank contains hypochlorous acid having a predetermined effective chlorine concentration and has a pH adjusted to 3.0 to 7.0. When the blower is driven, the air sucked from the suction port flows in parallel to the liquid level of the chemical solution tank, contacts the chemical solution, and is blown to the outside from the blower port. Composed.
Further, the invention according to claim 5 is connected in series to a predetermined drug evaporation chamber provided with an intake port for taking in air from outside and a blower port for blowing air to the outside, and provided in the drug evaporation chamber. A plurality of chemical liquid tanks and a blower provided at the suction port, and the suction port and the blower port are respectively the most downstream tank and the most upstream tank of the multiple chemical liquid tanks. Provided in the vicinity, the blower is driven, and a chemical solution containing hypochlorous acid having a predetermined effective chlorine concentration and having a pH adjusted to 3.0 to 7.0 is supplied to the most upstream tank, The chemical solution sequentially flows through the plurality of chemical solution tanks downstream through a predetermined residence time, and the air sucked from the suction port is in the direction opposite to the flow of the chemical solution in the liquid surface of the multiple chemical solution tanks. in contact with the drug solution to flow parallel to, out of the blower port Configured to be blown in.
Furthermore, the invention described in claim 6 is the sterilization / deodorization apparatus according to claim 4 or 5, wherein the air blowing port is provided in the vicinity of the air blowing port of the air conditioner, the humidifier, or the air cleaner. Configured.

As described above, according to the present invention, when a chemical solution containing hypochlorous acid having a predetermined effective chlorine concentration is brought into contact with air, air is blown in parallel with the liquid surface of the chemical solution, so that sodium chloride in the air, Impurities such as hydrochloric acid and sodium chlorate do not diffuse. Since the pH of the chemical solution is adjusted to 3.0 to 7.0, hypochlorous acid in a molecular state, that is, not in an ionic state is present in the chemical solution at a predetermined concentration. Therefore, hypochlorous acid is efficiently evaporated. As a result, only hypochlorous acid is evaporated in the air. Since the air containing hypochlorous acid thus obtained is blown to a predetermined area to sterilize and deodorize the area, the following effects can be obtained. First, sterilization and deodorization can be efficiently performed even in a predetermined area such as a large room such as a hospital or school, or a space where a part of a subway platform or underground shopping area is open. And since hypochlorous acid has almost no influence on the human body, it can be sterilized and deodorized even in areas where people are present. In addition, it is safe to disinfect and deodorize because it does not rust out metals such as sodium chloride and hydrochloric acid, pollute the interior of the room, and does not discharge toxic substances such as sodium chlorate to the outside. Can do.

According to another invention, when the chemical liquid is brought into contact with the air, the chemical liquid flows down while retaining a plurality of chemical liquid tanks connected in series for a predetermined time, and the air flows from the opposite direction to the flow of the chemical liquid. Because it is sprayed in parallel with the air, hypochlorous acid can be evaporated in the air by a simple method. Therefore, it can be sterilized and deodorized at low cost. Furthermore, in other inventions, in these methods, air containing hypochlorous acid obtained by bringing a chemical solution into contact with air is supplied to a blower port of an air conditioner, a humidifier, or an air purifier. , it has been configured to blowing blended air that is blown air containing hypochlorous acid from the air blowing port. In this way, hypochlorous acid having a sterilizing / deodorizing effect can be supplied to every corner of the room by air blown from an air conditioner, a humidifier, or an air purifier. It becomes possible to deodorize bacteria.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows typically the disinfection / deodorizing apparatus which concerns on embodiment of this invention, The (a) is the disinfection / deodorizing apparatus which concerns on 1st Embodiment, The (a) is No. It is side surface sectional drawing which respectively shows the microbe elimination / deodorizing apparatus which concerns on 2 embodiment. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows typically the disinfection / deodorizing apparatus which concerns on embodiment of this invention, The (a) is the disinfection / deodorizing apparatus which concerns on 3rd Embodiment, The (a) is No. It is side surface sectional drawing which respectively shows the microbe elimination / deodorizing apparatus which concerns on 4 embodiment. It is side surface sectional drawing which shows typically the microbe elimination / deodorizing apparatus which concerns on the 5th Embodiment of this invention. It is a graph which shows the evaporation rate of hypochlorous acid in the chemical | medical solution which is contacting in the liquid surface with air.

  In the present invention, a hypochlorous acid containing a predetermined effective chlorine concentration and having a pH adjusted to 3.0 to 7.0 is brought into contact with air to evaporate hypochlorous acid into the air. At this time, the chemical solution is maintained in a liquid phase state, that is, it is brought into contact with air without being atomized to prevent impurities other than hypochlorous acid from diffusing into the air. And in certain areas where you want to sterilize and deodorize the air containing hypochlorous acid, that is, sealed rooms such as indoors, operating rooms, hospital rooms, etc., underground malls, subway platforms, stores, etc. The air is blown into a partially open semi-open space. As described above, the present invention is characterized in that the chemical liquid is brought into contact with air while being maintained in a liquid phase state. Hereinafter, various embodiments of the present invention will be described.

  The disinfecting / deodorizing apparatus 1a according to the first embodiment of the present invention includes a predetermined casing 5 and first to third chemical solutions in which a chemical solution containing hypochlorous acid having a predetermined effective chlorine concentration is placed. It is comprised from the tanks 7-9, the chemical | medical solution supply tank 13 which supplies a chemical | medical solution, and the waste liquid tank 14 which stores the chemical | medical solution after use. The casing 5 has a closed flat box shape, and is provided with a suction port 2 for sucking air from the outside and a blower port 3 for blowing air containing hypochlorous acid to the outside. The casing 5 is made of a material so as not to be corroded by hypochlorous acid. In particular, the vicinity of the air blowing port 3 is easily corroded, and is therefore made of a corrosion-resistant material such as vinyl chloride. A blower, that is, a fan 11 for sucking air into the housing 5 is provided at the suction port 2. Therefore, when the fan 11 is driven, air is sucked into the housing 5 from the suction port 2 as indicated by the arrow Y1. Next, the air flows while contacting the liquid surface of the chemical liquid placed in the first to third chemical liquid tanks 7 to 9 as indicated by the arrow Y2, and from the air outlet 3 to the outside as indicated by the arrow Y3. To be blown. Therefore, since hypochlorous acid in the chemical solution evaporates in the air in the housing 5, the housing 5 is a chemical evaporation chamber 15 in which the chemical evaporates. A lower part composed of a bottom surface of the chemical evaporation chamber 15 and a predetermined part of the wall surface is divided into three parts by first and second partition walls 17 and 18 having different heights. These parts are the first to third chemical tanks 7-9. A chemical solution supply pipe 19 for supplying a chemical solution from the chemical solution supply tank 13 is provided on the side wall of the housing 5 on the first chemical solution tank 7 side, and a flow rate adjusting valve 21 is provided in the chemical solution supply pipe 19. Accordingly, when the flow rate adjustment valve 21 is opened, the chemical solution is supplied to the first chemical solution tank 7. By the way, the height of the second partition wall 18 is lower than the height of the first partition wall 17. And the chemical | medical solution discharge port 20 which discharges | emits a chemical | medical solution in the position lower than the height of the 2nd partition wall 18 is opened in the side wall by the side of the 3rd chemical | medical solution tank 9 of the housing | casing 5. FIG. Therefore, when the 1st-3rd chemical | medical solution tanks 7-9 are filled with a chemical | medical solution, the liquid level of each chemical | medical solution tank 7-9 is the 1st chemical | medical solution tank 7, the 2nd chemical | medical solution tank 8, the 3rd chemical | medical solution tank 9. It becomes low in order. In such a state, when a chemical solution is supplied to the first chemical solution tank 7, the chemical solution in the first chemical solution tank 7 flows to the second chemical solution tank 8 across the first partition wall 17, and the second The chemical solution in the chemical solution tank 8 flows over the second partition wall 18 to the third chemical solution tank 9. That is, the first chemical tank 7 is the most upstream tank, and the third chemical tank 9 is the most downstream tank. And the 1st, 2nd partition walls 17 and 18 have an effect | action as a weir which controls the flow of such a chemical | medical solution. Since the chemical solution outlet 20 is connected to the waste liquid tank 14, the discharged chemical liquid is stored in the waste liquid tank 14.

  The operation of the disinfecting / deodorizing apparatus 1a according to the first embodiment will be described. First, prepare the drug solution. The chemical solution may be prepared from highly pure hypochlorous acid water. However, according to the method of the present invention, impurities such as metal ions and hydrochloric acid are not released to the area to be sterilized and deodorized. It is not necessary to consider the impurities contained in. Accordingly, a chemical solution containing hypochlorous acid may be generated by electrolyzing an aqueous sodium chloride solution. In the present embodiment, it is prepared from a sodium hypochlorite aqueous solution that can be obtained at low cost. A predetermined amount of dilute hydrochloric acid is added to a sodium hypochlorite aqueous solution having a predetermined concentration to adjust the pH to 3.0 to 7.0, preferably pH 4.0 to 6.5. The higher the effective chlorine concentration of the chemical, the higher the effect of transpiration of hypochlorous acid, and the higher the effect of sterilization and deodorization. However, regarding the concentration of hypochlorous acid in the air to be blown, the required concentration varies depending on the area of the area to be sterilized and sterilized, so the effective chlorine concentration of the chemical must be adjusted. Therefore, dilute with tap water as necessary. However, in the first embodiment, since air contacts the liquid surface of the chemical solution, that is, the contact area is not so large, the effective chlorine concentration of hypochlorous acid in the chemical solution is preferably 10 mg / L or more. A chemical solution is prepared by diluting to a predetermined effective chlorine concentration. The obtained chemical liquid 22 is put into the chemical liquid supply tank 13.

  The flow rate adjusting valve 21 is opened by a predetermined amount, and the chemical liquid 22 is supplied to the first chemical liquid tank 7 at a predetermined flow rate. The first chemical tank 7 is filled up to the height of the first partition wall 17 by the supplied chemical liquid. Next, the chemical liquid overflows from the first partition wall 17 and flows into the second chemical liquid tank 8. When the second chemical solution tank 8 is filled up to the height of the second partition wall 18 by the inflowing chemical solution, it overflows from the second partition wall 18 and flows into the third chemical solution tank 9. Then, when the third chemical tank 9 is filled up to the height of the chemical liquid outlet 20 by the flowing chemical liquid, the chemical liquid is discharged from the chemical liquid outlet 20 to the waste liquid tank 14. When the chemical solution is continuously supplied to the first chemical solution tank 7, the chemical solution stays in the first chemical solution tank 7 for a predetermined time and then flows into the second chemical solution tank 8. And then discharged to the waste liquid tank 14 after staying for a predetermined time. Prior to the start of supply of the chemical solution, the fan 11 is driven. Alternatively, the fan 11 is driven after a predetermined time has elapsed after the supply of the chemical liquid is started. External air is sucked from the suction port 2 by the fan 11. The air flows in the chemical evaporation chamber 15 in the direction indicated by the arrow Y2. That is, air flows in the direction opposite to the flow of the chemical solution, and comes into contact with each liquid level in the order of the third chemical solution tank 9, the second chemical solution tank 8, and the first chemical solution tank 7. Then, hypochlorous acid is evaporated in the air, and the concentration of hypochlorous acid in the air gradually increases. Air containing hypochlorous acid having a predetermined concentration is blown from the blower port 3 to an external area. The area is sterilized and deodorized by hypochlorous acid contained in the air. By the way, since the hypochlorous acid evaporates in the chemical | medical solution which flows through the 1st-3rd chemical | medical solution tanks 7-9, the effective chlorine concentration of hypochlorous acid becomes low as it flows downstream. Therefore, after the hypochlorous acid is sufficiently evaporated and the effective chlorine concentration of hypochlorous acid is reduced, the chemical solution is discharged to the waste liquid tank 14.

  Next, a sterilization / deodorization apparatus 1b according to a second embodiment will be described with reference to FIG. Constituent parts / components similar to those of the sterilization / deodorizing apparatus 1a according to the previous embodiment are given the same reference numerals and will not be described in detail. In the sterilization / deodorization apparatus 1b according to the second embodiment, the chemical tank 23 is composed of only one tank, and is formed in the entire lower part of the chemical evaporation chamber 15. A predetermined cutout 24 is opened in a predetermined portion of the housing 5. A chemical liquid supply tank 25 in which the chemical liquid 22 is placed is inserted into the cutout 24 so that the opening 27 whose diameter has been reduced is directed downward. The position of the chemical solution supply tank 25 is adjusted so that the opening 27 sinks a predetermined length in the chemical solution put in the chemical solution tank 23. Accordingly, when the chemical liquid in the chemical liquid tank 23 decreases and the liquid level decreases and the opening 27 is exposed, the chemical liquid is automatically supplied from the chemical liquid supply tank 25 to the chemical liquid tank 23 and the liquid level of the chemical liquid tank 23 rises. become. In the present embodiment, the chemical solution outlet 20 is provided with a valve 28 that is manually opened and closed.

  The sterilization / deodorization apparatus 1b according to the second embodiment can be operated batchwise or continuously. When operating in batch mode, do as follows. A predetermined amount of chemical solution is placed in the chemical solution tank 23 and the fan 11 is driven. Then, the air sucked from the suction port 2 flows while contacting the liquid level of the drug solution in the drug evaporating chamber 15, and hypochlorous acid evaporates. Air containing the evaporated hypochlorous acid is blown from the blower port 3. When operating for a predetermined time, for example, several hours, the effective chlorine concentration of hypochlorous acid in the chemical solution decreases. Then, the valve 28 is opened, a predetermined amount of the chemical solution is discharged to the waste liquid tank 14, and the valve 28 is closed. Since the liquid level in the chemical solution tank 23 is lowered, the chemical solution is automatically supplied from the chemical solution supply tank 25. The liquid level in the chemical tank 23 is recovered. In the chemical solution in the chemical solution tank 23, hypochlorous acid increases to a predetermined effective chlorine concentration. Again, hypochlorous acid evaporates into the air. Thus, the chemical liquid supplied from the chemical liquid supply tank 25 is diluted with a low-concentration chemical liquid in the chemical liquid tank 23. Therefore, the chemical liquid 22 put in the chemical liquid supply tank 25 is preferably made high in the effective chlorine concentration of hypochlorous acid. When the sterilization / deodorization apparatus 1b according to the second embodiment is continuously operated, the following is performed. The chemical solution supply tank 25 is lowered to such an extent that the opening 27 touches the bottom surface of the chemical solution tank 23. Then, the liquid level is set to such a low level that the chemical liquid in the chemical tank 23 spreads uniformly. Then, since the amount of the chemical solution in the chemical solution tank 23 is small, the effective chlorine concentration in the chemical solution is rapidly reduced by the evaporation of hypochlorous acid. Leave valve 28 slightly open. Then, the chemical liquid in which hypochlorous acid is sufficiently evaporated and the effective chlorine concentration is sufficiently lowered is gradually discharged into the waste liquid tank 14. Then, the same amount of chemical solution is supplied from the chemical solution supply tank 25.

  A sterilization / deodorizing apparatus 1c according to the third embodiment will be described with reference to FIG. Constituent parts / components similar to those of the sterilization / deodorizing apparatuses 1a, 1b according to the first and second embodiments are denoted by the same reference numerals and description thereof is omitted. The sterilization / deodorization apparatus 1c according to the third embodiment is provided with a droplet generator 32 that drops the chemical liquid into a droplet having a predetermined diameter in the housing 5, that is, in the chemical evaporation chamber 15. ing. The droplet generating device 32 stores a predetermined amount of the chemical solution and receives the liquid drop plate 33 that receives the falling droplet, and blends the chemical solution stored in the liquid receiving plate 33 with the chemical solution supplied from the chemical solution supply layer 13. A pump 36 that pumps the liquid to a predetermined chemical liquid pipe 34, horizontal nozzles 37, 37,... That discharge the chemical liquid pumped from the chemical liquid pipe 34 into liquid droplets of a predetermined diameter in the horizontal direction, and horizontal nozzles 37, 37,. And a lower end portion of the mesh 39 and 39 of a predetermined mesh placed in the liquid receiving plate. The liquid receiving plate 33 is connected to the waste liquid tank 14 through the chemical liquid discharge port 20 in which the valve 28 is provided. In the present embodiment, the suction port 2 that sucks air into the housing 5 and the blower port 3 that blows air to the outside are provided on opposite side walls of the housing 5. And the air in the chemical transpiration chamber 15 is comprised so that it may flow in the direction opposite to the direction of the droplet discharge | released from the horizontal nozzles 37,37, ....

  The operation of the sterilization / deodorization apparatus 1c according to the third embodiment will be described. The fan 11 is driven to suck in external air and flow it through the drug evaporation chamber 15 as indicated by the arrow Y2. The pump 36 is driven so that the flow rate adjusting valve 21 is opened by a predetermined amount so that the chemical solution is supplied from the chemical solution supply tank 13 little by little. Then, the chemical solution supplied from the liquid receiving plate 33 and the chemical solution supplied from the chemical solution supply tank 13 are blended and pumped to the chemical solution pipe 34. The pumped chemical solution is made into droplets having a diameter of 50 μm or more from the horizontal nozzles 37, 37,... And discharged in the direction opposite to the air flow. Since the surface area is increased due to the droplets, hypochlorous acid is efficiently evaporated in the air. Further, since the diameter of the droplet is 50 μm or more, the chemical solution is maintained in a liquid phase and does not completely diffuse into the air. The discharged droplets fall on the liquid receiving plate 33 in about 0.5 to 2 seconds. At this time, even if some of the droplets remain in the air, they are captured by the net 39 and collected on the liquid receiving plate 33, so that the air blown from the air outlet 3 does not contain impurities. In this embodiment, transpiration of hypochlorous acid is very efficient. Therefore, even if the effective chlorine concentration of hypochlorous acid is 5 mg / L, the chemical solution released from the horizontal nozzles 37, 37,. An effect is obtained. Thus, since the efficiency of transpiration is high, the effective chlorine concentration of the chemical | medical solution stored in the liquid receiving plate 33 becomes very low. The chemical solution having a reduced effective chlorine concentration is appropriately discharged to the waste liquid tank 14. Since the chemical solution supplied from the chemical solution supply layer 13 is blended with the chemical solution supplied from the liquid receiving plate 33 and diluted, it is preferable to increase the effective chlorine concentration in advance.

  With reference to FIG. 2A, a sterilization / deodorization apparatus 1d according to a fourth embodiment of the present invention will be described. Constituent parts / components similar to those of the sterilization / deodorizing apparatus 1c according to the third embodiment are given the same reference numerals and will not be described. The disinfection / deodorization apparatus 1d according to the fourth embodiment is different from the disinfection / deodorization apparatus 1c according to the third embodiment only in nozzles. That is, only one nozzle is provided in the upper part of the chemical evaporation chamber 15 to make the chemical liquid into droplets, and is a lower injection nozzle 41 that discharges the droplets downward. In this way, since the droplets are ejected from a high place, they drop in the air for a relatively long distance. Therefore, even if the diameter of the droplet is large, the efficiency of transpiration is sufficiently high. Further, since the droplets are ejected downward, they are forcibly dropped onto the liquid receiving plate. In this case, since the liquid reaches the liquid receiving plate in a short time after being ejected from the lower ejection nozzle 41, the liquid droplets are not lost in the air. The possibility that impurities other than hypochlorous acid diffuse into the air is extremely low.

  A sterilization / deodorization apparatus 1e according to a fifth embodiment of the present invention will be described with reference to FIG. Constituent parts / components similar to those of the sterilization / deodorizing apparatus 1c according to the third embodiment are not described with the same reference numerals. The disinfecting / deodorizing apparatus 1e according to the fifth embodiment is a chemical solution flowing-down apparatus 42 instead of the droplet generator 32 provided in the disinfecting / deodorizing apparatus 1c according to the third embodiment. Is provided. The chemical flow down device 42 has a predetermined shape of a chemical flow down body 44 for flowing down the chemical liquid vertically, a liquid receiving plate 33 in which the chemical liquid flow down body 44 is placed and receives the chemical liquid flowing down from the chemical liquid flow down body 44, and a liquid receiving plate 33. And a pump 36 that blends the chemical liquid stored in the chemical liquid and the chemical liquid supplied from the chemical liquid supply layer 13 and supplies the chemical liquid to the upper part of the chemical flow lowering body 44 via the chemical liquid pipe 34. The chemical solution lowering body 44 is composed of a plurality of vertically-arranged rod-shaped core members 45, 45,... And coverings 46, 46,... Wound around the core members 45, 45,. It is configured. Since these coatings 46, 46,... Have water absorption properties, the chemical solution slowly flows down the chemical solution lowering body 44. Therefore, the air in the chemical evaporation chamber 15 efficiently contacts the chemical solution flowing down the chemical solution lowering body 44, and hypochlorous acid in the chemical solution is evaporated. Since the chemical solution stored in the liquid receiving plate 33 has a low effective chlorine concentration of hypochlorous acid, the valve 28 is appropriately opened to discharge the chemical solution to the waste liquid tank 14.

The following experiment was conducted to examine the sterilization effect of each of ethyl alcohol water and hypochlorous acid water.
Beakers a1 to a3 were placed in each of three predetermined containers A1 to A3, and the following solutions were placed in each of the beakers a1 to a3.
Beaker a1: 100 mL of tap water Beaker a2: 100 mL of ethyl alcohol water Concentration 100 mg / L
Beaker a3: 100 mL of hypochlorous acid water Effective chlorine concentration 50 mg / L
Moldy sludge was collected at a predetermined wastewater treatment plant, diluted, and dropped on each of the three microscope slide glasses and allowed to air dry. Each slide glass formed a slightly brown dry mud with a cloudy glass. The three slide glasses were placed on the respective beakers a1 to a3, and the containers A1 to A3 were covered. Two days later, changes in the dry mud of the slide glass were examined.

  From this experiment, it became clear that a substance having a sterilizing effect was transpired from hypochlorous acid water and the dry mud was sterilized. As is clear from later experiments, the substance having a sterilizing effect should be considered as hypochlorous acid, and it was confirmed that the substance was sterilized by the evaporated hypochlorous acid. In addition, it was speculated that ethyl alcohol water has become a nutrient for bacteria and fungi because dry mud was activated. Then, when the slide A was observed by leaving the container A3 for 18 days, mold was propagated on the whole slide. From this, it was confirmed that ethyl alcohol water became a nutrient for bacteria and molds, and it was found that it is not suitable as a chemical solution for sterilization.

The following experiment was conducted to examine the difference in sterilization effect due to the difference in effective chlorine concentration of hypochlorous acid.
A predetermined amount of dilute hydrochloric acid was added to a predetermined amount of aqueous sodium hypochlorite solution to prepare a chemical solution having an effective chlorine concentration of 200 mg / L and a pH of 6.5.
Beakers b1 to b5 were placed in each of five predetermined containers B1 to B5, and 100 mL of the following solutions were placed in each of the beakers b1 to b5.
Beaker b1: A solution obtained by diluting a chemical solution to an effective chlorine concentration of 10 mg / L.
Beaker b2: A solution obtained by diluting a chemical solution to an effective chlorine concentration of 30 mg / L.
Beaker b3: A solution obtained by diluting a chemical solution to an effective chlorine concentration of 80 mg / L.
Beaker b4: Chemical solution not diluted. Effective chlorine concentration 200 mg / L.
Beaker b5: tap water.
The sludge collected at a predetermined wastewater treatment plant was diluted, and two drops were dropped on each of the five microscope slide glasses and allowed to air dry. Each slide glass formed a slightly brown dry mud with a cloudy glass. The five slide glasses were placed on the beakers b1 to b5, respectively, and the containers B1 to B5 were covered. Three days later, when the change in the dry mud of the slide glass was examined, it was as shown in Table 2. In addition, the rate of decoloration of the slide glass in the container B1 is an approximate numerical value determined by visual observation.

  When the effective chlorine concentration was 30 mg / L or more, it was confirmed that hypochlorous acid was surely evaporated in the air and could be sterilized almost 100%. Moreover, even if the effective chlorine concentration was 10 mg / L, it was confirmed that hypochlorous acid was evaporated in the air and a sufficient sterilizing effect was obtained.

An experiment was conducted to examine the deodorizing effect of hypochlorous acid evaporated from a chemical containing hypochlorous acid.
The target for deodorization was rotted activated sludge. Hydrogen sulfide (H ₂ S) having a rotten odor is generated from the decayed activated sludge. It is known that when hypochlorous acid water is added to such sludge that generates hydrogen sulfide, the odor of egg rot is not generated by the reaction of the following two formulas.
H ₂ S → S → SO ₄ ²⁻ (2 formulas)
An experiment was conducted to determine whether or not this reaction occurs even in the gas phase, that is, whether or not hypochlorous acid evaporated from a chemical solution containing hypochlorous acid can react with hydrogen sulfide to deodorize the scent of eggs.
A predetermined amount of dilute hydrochloric acid was added to a predetermined amount of aqueous sodium hypochlorite solution to adjust the pH to 6.5 to obtain a chemical solution. Two petri dishes c1 and c2 were prepared, and 15 mL each of the following chemicals having a predetermined effective chlorine concentration by dilution was added.
Petri dish c1: Chemical solution with effective chlorine concentration of 300 mg / L Petri dish c2: Chemical solution with effective chlorine concentration of 3000 mg / L Cover these petri dishes c1 and c2 and put them in 20 L containers C1 and C2, respectively. An air pump that stirs the air inside was put in, and the upper portions of the containers C1 and C2 were covered with a lid and sealed.
In a predetermined container Cz having a capacity of 1 L, 300 mL of activated sludge with SS6760 mg / L was placed and sealed, and left for 5 days to generate hydrogen sulfide in the container Cz.
After the lids of the containers C1 and C2 were removed, a predetermined amount of gas containing hydrogen sulfide in the container Cz was put into the containers C1 and C2, the lids of the petri dishes c1 and c2 were removed, and the lids of the containers C1 and C2 were closed . After 1 minute, the lids of the containers C1 and C2 were opened, the odor was confirmed, and the lids were closed. Two minutes later, the lids of the containers C1 and C2 were opened, the odor was confirmed, and the lids were closed. The following results were obtained.
Container C1: A slight odor of the egg scent remained after 1 minute, but after 2 minutes, the odor of the egg slaughtered completely.
Container C2: After 1 minute, all of the odors of egg rot disappeared and there was a slight chlorine odor. Even after 2 minutes, there was no odor of rot.
From this experiment, it was found that hydrogen sulfide was decomposed in a very short time by the evaporated hypochlorous acid. Moreover, it turned out that the hypochlorous acid which transpired has a deodorizing effect.

An experiment was conducted to confirm that hypochlorous acid was transpired rather than sodium hypochlorite from a chemical prepared from an aqueous sodium hypochlorite solution and dilute hydrochloric acid.
A predetermined amount of dilute hydrochloric acid was added to a predetermined amount of aqueous sodium hypochlorite solution to obtain a chemical solution having a pH of 6.5 and an effective chlorine concentration of 200 mg / L. 100 mL of the chemical solution was put in each of the two beakers D1 and D2, and only the beaker D2 was wrapped with a resin sheet. Both of these beakers D1 and D2 were left in a place where the wind of the air conditioner hit them. After 6 days, the chemicals in the beakers D1 and D2 were as follows.
Beaker D1: residual chlorine concentration 2 mg / L, pH 7.8, reduced liquid volume is 21 mL
Beaker D2: residual chlorine concentration 200 mg / L, pH 6.5, decreased liquid volume is 0 mL
From this experiment, it was confirmed that hypochlorous acid was not changed to another substance in the beaker D2 whose upper part was not opened. Therefore, it is estimated that the decrease in the residual chlorine concentration in the beaker D1 was caused by the evaporation of hypochlorous acid from the chemical solution. The decrease in liquid volume is thought to be due to water evaporation.
Hypochlorous acid is produced from sodium hypochlorite and hydrochloric acid according to the following three formulas.
NaOCl + HCl = HOCl + NaCl (3 formulas)
Here, since the acid equilibrium constant of hypochlorous acid water is 10 ^−7.5 , considering that the pH of the chemical used in the experiment is 6.5, hypochlorous acid present in the chemical is present. The ratio of sodium (NaOCl) to hypochlorous acid (HOCl) is as follows.
Hypochlorous acid (HOCl): 91%
Sodium hypochlorite (NaOCl): 9%
If it is assumed that sodium hypochlorite has evaporated in the air, the proportion of sodium hypochlorite decreases, so that the reaction of Formula 3 proceeds from the right side to the left side. As a result, the concentration of hydrochloric acid (HCl) increases, so the pH decreases. However, according to experiments, the pH slightly changes to the alkali side. From this, it was found that it was hypochlorous acid (HOCl) that transpired into the air, and the reaction of Formula 3 proceeded in the direction from the left side to the right side.
From the above, it became clear that it was hypochlorous acid that evaporated from the chemical. Note that the evaporated hypochlorous acid may be changed to anhydrous hypochlorous acid (Cl ₂ O) in the air according to the humidity in the room.

In order to investigate the possibility of hydrochloric acid (HCl) evaporating from a chemical solution prepared by adding dilute hydrochloric acid to an aqueous sodium hypochlorite solution, an experiment was conducted to determine whether hydrochloric acid evaporates from dilute hydrochloric acid as a simple substance.
A predetermined amount of dilute hydrochloric acid having a pH of 2.0 was placed in a beaker and placed in a well-ventilated place, and left for 3 days. When the pH was measured after 3 days, the pH was 2.0 and did not change.
It was confirmed that hydrochloric acid did not evaporate even in a highly acidic state with a pH of 2.0. Since hydrochloric acid hardly evaporates when the pH is high, it can be seen from this experiment that there is almost no possibility of hydrochloric acid evaporating if the pH is 3.0 or more. Thereby, it is thought that there is almost no possibility that dilute hydrochloric acid evaporates from the chemical solution adjusted to pH 3.0 to 7.0 by adding dilute hydrochloric acid to the sodium hypochlorite aqueous solution.

An experiment was conducted to confirm that hypochlorous acid is transpirated from a chemical solution with a high effective chlorine concentration. The purpose of this experiment is also to investigate the possibility of chlorine gas (Cl ₂ ) or its hydrate (Cl ₂ · H ₂ O) evaporating from the chemical solution.
Two kinds of chemical solutions f1 and f2 were prepared by adding 8.5% hydrochloric acid to a predetermined aqueous sodium hypochlorite solution.
Chemical solution f1: A chemical solution was prepared so that sodium hypochlorite and hydrochloric acid each had the same number of moles. The effective chlorine concentration was 3000 mg / L and the pH was 5.22.
Chemical solution f2: A chemical solution was prepared so that hydrochloric acid was twice the number of moles of sodium hypochlorite. The effective chlorine concentration was 3000 mg / L and pH 1.84.
100 mL of each of the chemical solutions f1 and f2 was taken and placed in beakers F1 and F2, respectively. Beakers F1 and F2 were placed in the vicinity of the air outlet of the air conditioner and left open. When the pH and residual chlorine concentration were examined after 2 days and 5 days, they were as shown in Table 3.

  In both of the beakers F1 and F2, most of hypochlorous acid is evaporated after two days, and almost all of hypochlorous acid is evaporated on the fifth day, and the residual chlorine concentration in the beaker F2 is 0 mg / L. It was. It was confirmed that hypochlorous acid was transpired without any problems even in a chemical solution containing high concentration of hypochlorous acid. In addition, it is thought that it is a phenomenon for the reason similar to Example 4 that pH rose in the beaker F1 and changed to the alkali side. This experiment also revealed that sodium hypochlorite did not evaporate and hypochlorous acid evaporated.

The possibility that chlorine gas (Cl ₂ ) or its hydrate (Cl ₂ · H ₂ O) has evaporated from the result of the change in the beaker F ₂ will be examined.
Since dilute hydrochloric acid (HCl) having a molar ratio of 2 times that of sodium hypochlorite (NaOCl) is added, a reaction formula like Formula 4 can be written.
NaOCl + 2HCl = Cl ₂ + H ₂ O + NaCl (4 formulas)
If this is rewritten in consideration of Equation 3, a reaction equation can also be written as Equation 5.
HOCl + HCl = Cl ₂ + H ₂ O (Formula 5)
These expressions 4 and 5 are expressions indicating that the reaction may proceed in any direction from the left side to the right side and from the right side to the left side.
Examining the change in the beaker F2, if it is assumed that chlorine gas or its hydrate has evaporated, the hydrochloric acid (HCl) in the chemical solution will be consumed, so the pH should be close to neutral. However, it can be seen that this assumption is incorrect because the pH of the beaker F2 was maintained in an acidic state with little change. That is, it became clear that chlorine gas or its hydrate did not evaporate from the chemical solution.

In the sterilization / deodorization apparatuses 1c and 1d according to the third and fourth embodiments of the present invention, the chemical liquid is used as droplets to drop in the air. An experiment was conducted to confirm the conditions under which the liquid chemical that has been made into liquid droplets can reach the liquid receiving plate without evaporating and disappearing in the air, that is, the conditions under which the liquid chemical can be in contact with air while being maintained in the liquid phase. Note that only the diameter of the drug droplet was focused on as a condition.
A chemical solution having an effective chlorine concentration of 220 mg / L and a pH of 6.5 was prepared from an aqueous sodium hypochlorite solution and dilute hydrochloric acid, and placed in a commercially available manual spray, that is, hand spray. The chemical solution was made into droplets by hand spraying and sprayed onto a slide glass separated by a distance of 20 cm. This slide glass is set in a microscope with a magnification of 40 times. Immediately after spraying, that is, once within 0.5 seconds, once after 10 seconds, a photograph of a slide glass magnified 40 times was taken. The diameter of droplets ejected from the hand spray was 60 to 140 μm, and the size and number of droplets observed from photographs taken within 0.5 seconds were as shown in Table 4.

  Here, assuming that the droplet attached to the slide glass is a hemisphere, the diameter of the original droplet was calculated. The droplets observed from the photograph taken after 10 seconds were slightly smaller than the diameters of the droplets shown in Table 4, but the number did not change. Several droplets having a diameter of about 25 μm were also observed, but some of them were evaporated / disappeared after 10 seconds. In the sterilization / deodorization apparatuses 1c and 1d according to the third and fourth embodiments of the present embodiment, the liquid droplets drop in about 0.5 seconds to several seconds. Therefore, it is considered that the diameter of the droplets for preventing evaporation / disappearance in the air is 50 μm or more.

An experiment was performed to estimate the ability of the sanitizing / deodorizing apparatus 1b according to the second embodiment to evaporate hypochlorous acid.
A 210 mm × 140 mm × 75 mm box-shaped resin container was provided with a suction port for sucking air from the outside and a blower port for blowing air to the outside, and a fan with a power of 13 W was attached to the suction port. A chemical solution having an effective chlorine concentration of 220 mg / L and a pH of 6.5 was prepared from an aqueous sodium hypochlorite solution and dilute hydrochloric acid, and 1.2 L was placed inside the box-shaped resin container. When the fan was driven, it was confirmed that the liquid level of the chemical liquid slightly waved. With the fan driven, the change in effective chlorine concentration was measured by a colorimetric method every time a predetermined time passed. The measurement results are shown in the graph of FIG. This experiment shows that hypochlorous acid is almost halved in 7 hours. It can also be seen that 90% of hypochlorous acid evaporates after 24 hours. In addition, about 300 mL of water in the chemical solution evaporated in 24 hours.
A similar apparatus was used for the experiment with a small amount of chemical solution. That is, 300 mL of a chemical solution having the same effective chlorine concentration was put into a box-shaped resin container, and the fan was driven. The time required for 90% of hypochlorous acid in the chemical solution to evaporate was 5 hours. It was confirmed that when the liquid level was lowered by reducing the amount of the chemical solution, the rate of transpiration of hypochlorous acid in the chemical solution increased. When operating with a small amount of chemical solution, the effective chlorine concentration of hypochlorous acid in the chemical solution decreases early, but it can also be discharged early to supply a new chemical solution. A sufficient amount of chloric acid can always be ensured.

An experiment was conducted to investigate the efficiency of hypochlorous acid transpiration when the chemical solution was dropped into the air.
Chemical solutions h1 and h2 were prepared from an aqueous solution of sodium hypochlorite and dilute hydrochloric acid, and placed in a commercially available manual spray, that is, hand sprays H1 and H2. The chemicals h1 and h2 were as follows.
Chemical solution h1: Effective chlorine concentration 3000 mg / L, pH 6.5
Chemical solution h2: effective chlorine concentration 300 mg / L, pH 6.5
From each of the hand sprays H1 and H2, the chemicals h1 and h2 were dropped from a height of 1 m downwards as droplets. The dropped droplets were stored in beakers HH1 and HH2, respectively. At this time, most of the droplets were observed to fall within 0.5 seconds. When 5 mL each was stored in beakers HH1 and HH2, the effective chlorine concentration was measured by a colorimetric method. Table 5 shows the measurement results.

  From the experimental results, it can be seen that when the chemical solution is dropped into the air and about 60% to 70% of the hypochlorous acid in the chemical solution is evaporated, the efficiency of the evaporation is high. It can also be seen that the proportion of hypochlorous acid that transpires does not change greatly depending on the effective chlorine concentration of the chemical solution. From this, it is presumed that the amount of transpiration per hour can be easily adjusted by changing the effective chlorine concentration of hypochlorous acid in the chemical solution. That is, the ability of the sterilization / deodorization apparatus can be adjusted.

  The sterilization / deodorization apparatus according to the present embodiment can be variously modified. For example, in the first and second embodiments, nothing is provided in the chemical tank, but a stirring device having a water wheel shape may be provided in the chemical tank. That is, it is a watermill-like stirring device in which a plurality of rotating stirring blades stir the chemical solution and air while alternately entering and exiting the chemical solution and the air. If it does in this way, while a chemical solution will become a droplet of a predetermined diameter and air will be forced into a chemical solution, air and a chemical solution can contact efficiently and transpiration efficiency will become high. Further, an air pump may be provided to blow air directly into the chemical solution. If it does so, hypochlorous acid will transpire efficiently in the air which became the bubble in the chemical | medical solution. In any method, since the chemical solution is in contact with air while being maintained in a liquid phase, impurities other than hypochlorous acid are not mixed in the air.

1a, 1b, 1c, 1d, 1e Bacteria-removing / deodorizing device 2 Suction port 3 Blower port 5 Housing 7 First chemical tank 8 Second chemical tank 9 Third chemical tank 11 Fan 13 Chemical supply tank 14 Waste liquid Tank 15 Chemical vaporization chamber 17 First partition wall 18 Second partition wall 22 Chemical liquid 23 Chemical liquid tank 25 Chemical liquid supply tank 32 Liquid droplet generator 33 Liquid receiving plate 36 Pump 37 Horizontal nozzle 39 Net 41 Lower injection nozzle 42 Chemical liquid flow down apparatus 44 Lowering fluid

Claims (6)

The chemical solution pH is adjusted to 3.0 to 7.0 include hypochlorite predetermined effective chlorine concentration, fed at flow parallel in contact with the liquid surface of the chemical air by a blower, the air When the hypochlorous acid is evaporated to the air and the air containing the obtained hypochlorous acid is blown to a predetermined area to sterilize and deodorize the area ,
The sterilization / deodorization method is characterized in that the air blowing to the area is performed by flowing the air sent by the blower as it is.   2. The sterilization / deodorization method according to claim 1, wherein the chemical liquid flows down while retaining a plurality of chemical liquid tanks connected in series for a predetermined time, and the air flows from the opposite direction to the flow of the chemical liquid. A sterilization / deodorization method which is carried out by spraying in parallel to the liquid level of the tank.   The sterilization / deodorization method according to claim 1 or 2, wherein the air containing hypochlorous acid obtained by bringing the chemical solution into contact with the air is blown by an air conditioner, a humidifier, or an air purifier. A sterilization / deodorizing method characterized in that the air containing hypochlorous acid is supplied to the mouth and blended with the air blown from the blower opening for blowing. A predetermined chemical evaporation chamber provided with an intake port for taking in air from the outside, an air supply port for blowing air to the outside, a chemical solution tank provided in the chemical evaporation chamber, and a blower provided at the intake port Consisting of
The chemical solution tank contains a chemical solution containing hypochlorous acid having a predetermined effective chlorine concentration and having a pH adjusted to 3.0 to 7.0.
When the blower is driven, the air sucked from the suction port flows parallel to the liquid surface of the chemical solution tank, contacts the chemical solution, and is blown to the outside from the blower port. The sterilization and deodorization equipment. A predetermined chemical evaporation chamber provided with an intake port for taking in air from the outside and an air supply port for blowing air to the outside; a plurality of tanks connected in series provided in the chemical evaporation chamber; and the intake It consists of a blower provided in the mouth,
The suction port and the blower port are respectively provided in the vicinity of the most downstream tank and the most upstream tank of the plurality of chemical liquid tanks,
When the blower is driven and a chemical solution containing hypochlorous acid having a predetermined effective chlorine concentration and having a pH adjusted to 3.0 to 7.0 is supplied to the most upstream tank, the chemical solutions are the plurality of chemical solutions. The chemical tank of the tank sequentially flows downstream through a predetermined residence time, and the air sucked from the suction port is parallel to the liquid level of the chemical tank of the plurality of tanks in a direction opposite to the flow of the chemical liquid. A sterilization / deodorizing apparatus that flows and contacts with the chemical solution and is blown to the outside from the blowing port.   6. The sterilizing / deodorizing apparatus according to claim 4 or 5, wherein the air blowing port is provided in the vicinity of the air blowing port of an air conditioner, a humidifier, or an air purifier. .

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