JP2020078421A - Space sterilization device - Google Patents

Abstract

To provide a space sterilization device exhibiting high sterilization effect even when a relative humidity is low, and achieving a comfortable space always sterilized regardless of the relative humidity in a space.SOLUTION: A control part 7 includes: a determination part 9 for determining a target concentration of a hypochlorous acid in a target space according to a relative humidity in the target space; a volume setting part 10 for setting a volume of the target space; a hypochlorous acid volatilization amount decision part 11 for deciding a hypochlorous acid volatilization amount from the target concentration of the hypochlorous acid determined in the determination part 9 and the volume of the target space set in the volume setting part 10; and an output decision part 12 for deciding the output of an electrolytic part 2 and a blower 5 in accordance with the hypochlorous acid volatilization amount decided in the hypochlorous acid volatilization amount decision part 11. The control part 7 increases the hypochlorous acid volatilization amount when the relative humidity in the target space is low and decreases the hypochlorous acid volatilization amount when the relative humidity in the target space is high so that a hypochlorous acid concentration in the target space becomes the target concentration according to the relative humidity.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a space sterilizer that sterilizes a target space represented by an indoor space.

  Conventionally, in a state where the relative humidity is low, it is feared that volatile hypochlorous acid has a weaker bactericidal effect on adherent bacteria, so this type of space sterilizer was used in a state where the relative humidity was high ( For example, see Patent Document 1).

JP, 2016-27849, A

  In such a conventional space sterilizer, a high sterilization effect could not be obtained when the indoor relative humidity was low.

  Therefore, the present invention is to solve the above conventional problems, exhibiting a high sterilization effect even when the relative humidity is low, spatial sterilization that always realizes a comfortable space sterilized regardless of the relative humidity in the space. The purpose is to provide a device.

  Then, in order to achieve this purpose, as a result of repeated studies on the relationship between the relative humidity in the space, the hypochlorous acid concentration in the space, and the sterilization effect, as a result, even when the relative humidity is low, an appropriate hypochlorous acid is obtained. It was found that a high bactericidal effect can be exhibited by adjusting the concentration of chloric acid.

  That is, the non-dissociative hypochlorous acid contained in the hypochlorous acid water is volatilized and diffused into the target space, in the space sterilizer for sterilizing the target space, to generate hypochlorous acid by electrolysis. An electrolysis section, a tray for holding the hypochlorous acid water generated by the electrolysis, a volatilization section for volatilizing hypochlorous acid, and introducing air to the volatilization section to vaporize hypochlorous acid. An air blower for diffusing chloric acid into the space, a relative humidity detection unit for detecting the relative humidity of the target space, and a control unit for determining the output of the electrolysis unit and the air blower, the control unit, , A determination unit for determining the target concentration of hypochlorous acid in the target space according to the relative humidity of the target space, a volume setting unit for setting the volume of the target space, determined by the determination unit. And a hypochlorous acid volatilization amount determination unit that determines the hypochlorous acid volatilization amount from the target space volume set in the volume setting unit and the hypochlorous acid volatilization amount determination unit, In the output determination unit for determining the output of the electrolysis unit and the blower according to the amount of hypochlorous acid volatilization determined in, the hypochlorous acid concentration of the target space according to the relative humidity of the target space Is a target concentration, the amount of hypochlorous acid volatilization can be increased when the relative humidity of the target space is low, and the amount of hypochlorous acid volatilization can be decreased when the relative humidity of the target space is high. This is a space sterilizer, which achieves the intended purpose.

  INDUSTRIAL APPLICABILITY As described above, the present invention can provide a space sterilizer that realizes a high sterilization effect even when the relative humidity is low by setting the hypochlorous acid concentration according to the relative humidity in the space.

The conceptual diagram of the space sterilization apparatus described in Embodiment 1 of the present invention. The conceptual diagram of the space sterilization apparatus described in Embodiment 1 of the present invention. Block diagram configuring the control unit described in Embodiment 1 of the present invention The conceptual diagram of the space sterilization apparatus described in Embodiment 2 of the present invention. Block diagram configuring a control unit according to Embodiment 2 of the present invention The figure which shows CT value required for 90% sterilization with respect to the relative humidity of Example 1 of this invention. The figure which shows the space concentration required for 99% sterilization with respect to the relative humidity of Example 1 of this invention. The figure which shows the hypochlorous acid supply amount which was calculated in the example The figure which shows the table used by the hypochlorous acid volatilization amount determination part described in the Example. The figure which shows the table used by the output determination part described in the Example.

  The space sterilizer according to claim 1 of the present invention is a space sterilizer for sterilizing the target space by evaporating non-dissociated hypochlorous acid contained in hypochlorous acid water to diffuse into the target space, An electrolysis section for producing hypochlorous acid by electrolysis, a tray for holding the hypochlorous acid water produced by the electrolysis, a volatilization section for volatilizing hypochlorous acid, and the volatilization Introducing air into the unit, a blower for diffusing the volatile hypochlorous acid into the space, a relative humidity detecting unit for detecting the relative humidity of the target space, and determining the output of the electrolysis unit and the blower. And a control unit for determining the hypochlorous acid target concentration of the target space according to the relative humidity of the target space, and for setting the volume of the target space. Volume setting unit, hypochlorous acid volatilization amount determination unit for determining the hypochlorous acid volatilization amount from the volume of the target space set in the volume setting unit and the hypochlorous acid target concentration determined by the determination unit And an output determination unit for determining the output of the electrolysis unit and the blower according to the hypochlorous acid volatilization amount determined by the hypochlorous acid volatilization amount determination unit, the control unit, The hypochlorous acid concentration of the target space is a target concentration according to the relative humidity of the target space, when the relative humidity of the target space is low, increase the hypochlorous acid volatilization amount, also, the target space This is a space sterilizer that can reduce the amount of hypochlorous acid volatilization when the relative humidity is high.

  Thereby, the determination unit determines the hypochlorous acid target concentration according to the relative humidity of the target space, the hypochlorous acid volatilization amount determination unit in the hypochlorous acid target concentration and the volume of the target space Determining the hypochlorous acid volatilization amount according to, because the output determination unit determines the electrolytic amount of the electrolysis unit and the air volume of the blower according to the hypochlorous acid volatilization amount, high even when the relative humidity is low. A sterilizing effect can be realized.

The space sterilizer according to claim 2 of the present invention is a space sterilizer that volatilizes non-dissociated hypochlorous acid contained in hypochlorous acid water to diffuse into the target space and sterilize the target space. In, the electrolysis part for generating hypochlorous acid by electrolysis, a tray for holding the hypochlorous acid water generated by the electrolysis, a volatilization part for volatilizing hypochlorous acid, Introducing air to the volatilizing unit, a blower for diffusing the volatilized hypochlorous acid into space, a relative humidity detecting unit for detecting the relative humidity of the target space, and hypochlorous acid in the target space. A hypochlorous acid concentration detection unit for detecting the concentration, and a control unit for determining the output of the electrolysis unit and the blower,
The control unit is a determination unit for determining a hypochlorous acid target concentration of the target space according to the relative humidity of the target space, and next to the target space detected by the hypochlorous acid concentration detection unit. The control unit comprises a calculation unit for calculating the difference between the chlorous acid concentration and the hypochlorous acid target concentration determined by the determination unit, and an output determination unit for determining the output of the electrolysis unit and the blower, and the control Part, so that the hypochlorous acid concentration of the target space is a target concentration according to the relative humidity of the target space, the hypochlorous acid concentration of the target space, the next according to the relative humidity of the target space. When the concentration of chlorous acid falls below the target concentration, the amount of volatile hypochlorous acid is increased, and when the concentration of hypochlorous acid in the target space exceeds the target concentration of hypochlorous acid according to the relative humidity of the target space, It reduces the amount of chlorous acid volatilized.

  Thereby, the determination unit determines the target concentration of hypochlorous acid of the target space according to the relative humidity of the target space, the calculation unit of the target space detected by the hypochlorous acid concentration detection unit The difference between the hypochlorous acid concentration and the hypochlorous acid target concentration determined by the determination unit is calculated, and the output determination unit determines the electrolysis amount of the electrolysis unit and the air flow rate of the blower according to the difference, A high sterilization effect can be realized even when the relative humidity is low.

  In the space sterilization apparatus according to claim 3 of the present invention, the output determination unit increases the amount of electrolysis in the electrolysis unit to increase the amount of hypochlorous acid produced, thereby increasing the amount of hypochlorous acid volatilized, and By reducing the amount of electrolysis in the electrolysis section to reduce the amount of hypochlorous acid produced, the amount of volatilized hypochlorous acid is reduced.

  Accordingly, since it is not necessary to change the air volume of the blower, it is possible to realize a high sterilizing effect even when the relative humidity is low without changing the relative humidity of the space.

  Further, in the space sterilization apparatus according to claim 4 of the present invention, the output determination unit increases the amount of air introduced into the volatilization unit by increasing the air volume of the blower to increase the amount of hypochlorous acid volatilized, and The amount of hypochlorous acid volatilized is reduced by lowering the air volume of the blower to reduce the amount of air introduced into the volatilization section.

  As a result, it is not necessary to change the amount of electrolysis in the electrolysis section, so that it is possible to realize a high sterilization effect even when the relative humidity is low, without increasing the load on the electrolysis section.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to the following interpretations.

(Embodiment 1)
The space sterilization apparatus according to the first embodiment will be described with reference to FIGS. 1, 2, and 3.

  First, FIG. 1 shows a conceptual diagram of a space sterilizer.

  The space sterilization apparatus 1 described in the present embodiment includes an electrolysis section 2 for producing hypochlorous acid by electrolysis, a tray 3 for holding hypochlorous acid water produced by electrolysis, and A volatile part 4 for volatilizing chlorous acid, a blower 5 for introducing air into the volatile part 4 to diffuse the volatilized hypochlorous acid into a space, and a relative humidity for detecting the relative humidity of the space. The detection unit 6 and the control unit 7 that determines the outputs of the electrolysis unit 2 and the blower 5 are provided.

  In the space sterilization apparatus 1 described in the present embodiment, the sodium chloride aqueous solution in the tray 3 is electrolyzed by the electrolysis unit 2 and the generated hypochlorous acid water is soaked in the volatilization unit 4, and then, The air is introduced into the volatilization unit 4 by the blower 5 to bring the hypochlorous acid water into contact with the air, and the volatilized hypochlorous acid is discharged from the air outlet 13 into the space together with the air.

  At this time, in order to increase/decrease the hypochlorous acid volatilization amount, there are a method of increasing/decreasing the electrolysis amount of the electrolysis section 2 and a method of increasing/decreasing the air flow rate of the blower 5. Good. Note that the electrolysis amount is an integrated value of the energization current value of electrolysis, and is increased or decreased by controlling the magnitude of the current value or by controlling the energization time or the number of times a rectangular current is passed in a unit time. However, either method may be used.

  Further, the volatilization unit 4 described in the present embodiment is a rotatable cylindrical filter, and is capable of impregnating hypochlorous acid water and contacting the passing air with hypochlorous acid. However, any shape may be used as long as it can bring the hypochlorous acid into contact with air, and the shape is not limited. For example, as shown in FIG. 2, a flat filter may be used for the volatilization unit 4. Further, the filter may use a single unit or a plurality of units, and the structure thereof is not limited.

  Further, the method of immersing the hypochlorous acid water in the volatile part 4 described in the present embodiment is to immerse and rotate the cylindrical filter in the hypochlorous acid water. A method of immersing the filter in water and sucking it up, flowing hypochlorous acid water through the filter, or the like may be used, and the method is not limited.

  Further, the hypochlorous acid water of the present embodiment is generated by electrolyzing a sodium chloride aqueous solution. The aqueous solution for generating hypochlorous acid water by electrolysis is not limited to the sodium chloride aqueous solution, and hydrochloric acid or the like can be used as long as it can supply chloride ions, and the purpose is to adjust the pH. Alternatively, a buffering agent such as phosphoric acid may be mixed. As the sodium chloride, tablet-like sodium chloride or the like may be added to water.

  Further, the blower 5 of the present embodiment uses a sirocco fan, but other means may be used as long as it is a mechanism capable of blowing air, and the configuration thereof is not limited.

  The relative humidity detecting unit 6 for detecting the relative humidity of the space is, for example, a semiconductor type or thin film type relative humidity sensor, and shows a response such that the potential changes in accordance with the change of the amount of water vapor in the air. is there. It may be installed near the air intake of the space sterilization apparatus 1 so that the relative humidity in the space can be easily detected.

  3 is a block diagram showing the configuration of the control unit 7.

  In the control unit 7 that operates the space sterilization apparatus 1, a relative humidity detection unit 8 for detecting the relative humidity of the space is connected as an input device, and the electrolysis unit 2 and the blower 5 are connected as an output device. The control unit 7 determines the target concentration of hypochlorous acid according to the relative humidity of the space, the volume setting unit 10 for setting the volume of the space, and the determination unit 9 It is determined by the hypochlorous acid volatilization amount determination unit 11 that determines the hypochlorous acid volatilization amount from the target concentration of chlorous acid and the volume of the space set by the volume setting unit 10, and the hypochlorous acid volatilization amount determination unit 11. The electrolysis section 2 and the output determination section 12 for determining the output of the blower 5 are provided according to the volatilized amount of hypochlorous acid. The control unit 7 can be composed of a control circuit composed of electronic parts or a microcomputer in which a signal processing algorithm is stored in advance, or may be composed of software on a computer which performs arithmetic processing.

  The operation of the space sterilization apparatus 1 having the above configuration will be described.

  First, the determination unit 9 determines the target concentration of hypochlorous acid based on the data input in advance according to the relative humidity of the space detected by the relative humidity detection unit 8.

  Next, the hypochlorous acid volatilization amount determination unit 11 determines the hypochlorous acid volatilization amount from the relationship between the hypochlorous acid target concentration determined by the determination unit 9 and the space volume set by the volume setting unit 10. decide. It should be noted that the volume setting unit 10 may be capable of inputting volume information of a use environment by operating a button, or may be stored in advance as a parameter on a microcomputer for performing arithmetic processing.

  Next, according to the hypochlorous acid volatilization amount determined by the hypochlorous acid volatilization amount determination unit 11, from the data that the output determination unit 12 has previously input, the electrolysis amount of the electrolysis unit 2 and the air flow rate of the blower 5 Is to determine. The data is a stored value, a mathematical expression, or a data table in which they are divided into ranges, and for the value indicating the relative humidity that is the input signal, the electrolysis amount and the air flow rate with respect to the relative humidity. It is advisable to provide a threshold so that one-to-one can be appropriately determined. At this time, the target concentration of hypochlorous acid in the target space is in the range of 0.005 ppm to 0.5 ppm, preferably 0.005 ppm to 0.05 ppm.

  As described above, the space sterilization apparatus 1 according to the present embodiment exhibits a high sterilization effect even when the relative humidity is low, and can realize a comfortable space in which the sterilization is always performed regardless of the relative humidity in the space. .

(Embodiment 2)
The spatial sterilization apparatus according to the second embodiment will be described with reference to FIGS. 4 and 5.

  First, FIG. 4 shows a conceptual diagram of the space sterilizer. In addition, in order to facilitate understanding, in the present embodiment, the same components as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted.

  The space sterilization apparatus 21 described in the present embodiment has an electrolysis section 2 for generating hypochlorous acid by electrolysis, a tray 3 for holding hypochlorous acid water generated by electrolysis, and A volatile part 4 for volatilizing chlorous acid, a blower 5 for introducing air into the volatile part 4 to diffuse the volatilized hypochlorous acid into a space, and a relative humidity for detecting the relative humidity of the space. The detection unit 6 includes a hypochlorous acid concentration detection unit 23 for detecting the hypochlorous acid concentration in the space, and a control unit 27 that determines the outputs of the electrolysis unit 2 and the blower 5.

  Further, in the space sterilization apparatus 21 described in the present embodiment, the sodium chloride aqueous solution in the tray 3 is electrolyzed by the electrolysis section 2 to allow the volatile section 4 to be impregnated with hypochlorous acid water, and then the blower 5 The air is introduced into the volatilization section 4 to bring the hypochlorous acid water into contact with the air, and the volatilized hypochlorous acid is discharged from the blow-out port into the space together with the air.

  At this time, in order to increase/decrease the hypochlorous acid volatilization amount, there are a method of increasing/decreasing the electrolysis amount of the electrolysis section 2 and a method of increasing/decreasing the air flow rate of the blower 5. Good.

  Further, the volatilization unit 4 described in the present embodiment is a rotatable cylindrical filter, and is capable of impregnating hypochlorous acid water and contacting the passing air with hypochlorous acid. However, any shape may be used as long as it can bring the hypochlorous acid into contact with air, and the shape is not limited. As shown in the first embodiment, a planar filter may be used for the volatilization unit 4. Further, the filter may be used alone or in plural, and the structure thereof is not limited.

  Further, the method of immersing the hypochlorous acid water in the volatile part 4 described in the present embodiment is to immerse and rotate the cylindrical filter in the hypochlorous acid water. A method of immersing the filter in water and sucking it up, flowing hypochlorous acid water through the filter, or the like may be used, and the method is not limited.

  Further, the hypochlorous acid water of the present embodiment is generated by electrolyzing a sodium chloride aqueous solution. The aqueous solution for generating hypochlorous acid water by electrolysis is not limited to the sodium chloride aqueous solution, and hydrochloric acid or the like can be used as long as it can supply chloride ions, and the purpose is to adjust the pH. Alternatively, a buffering agent such as phosphoric acid may be mixed. As the sodium chloride, tablet-like sodium chloride or the like may be added to water. Further, the blower 5 of the present embodiment uses a sirocco fan, but other means may be used as long as it is a mechanism capable of blowing air, and the configuration thereof is not limited.

  5 is a block diagram showing the configuration of the control unit 27.

  In the control unit 7 that operates the space sterilization apparatus 1, the relative humidity detection unit 8 for detecting the relative humidity of the space and the hypochlorous acid concentration detection unit 23 are connected as an input device, and the electrolysis unit 2 and the blower 5 are connected. Is connected as an output device. The control unit 7 determines the hypochlorous acid target concentration according to the relative humidity of the space, and the hypochlorous acid concentration of the target space detected by the hypochlorous acid concentration detection unit 23. A calculation unit 24 that calculates a difference from the target concentration of hypochlorous acid determined by the unit 9 and an output determination unit 22 that determines the outputs of the electrolysis unit 2 and the blower 5 are provided.

  The operation of the space sterilization apparatus 21 in the above configuration will be described.

  First, the determination unit 9 determines the target concentration of hypochlorous acid based on the data input in advance according to the relative humidity of the space detected by the relative humidity detection unit 8.

  Next, the calculation unit 24 calculates the difference between the hypochlorous acid concentration of the target space detected by the hypochlorous acid concentration detection unit 23 and the hypochlorous acid target concentration determined by the determination unit 9.

  Next, the output determination unit 22 increases the hypochlorous acid volatilization amount when the hypochlorous acid concentration in the target space is lower than the hypochlorous acid target concentration according to the difference calculated by the calculation unit 24. In addition, the electrolysis amount of the electrolysis unit 2 is increased to increase the electrolysis amount of the electrolysis unit 2 and the air flow amount of the blower 5, and to reduce the hypochlorous acid volatilization amount when the hypochlorous acid concentration in the target space exceeds the hypochlorous acid target concentration. The output is determined so as to reduce the volume and the air volume of the blower 5.

  The hypochlorous acid concentration detection unit 23 is a sensor whose electric value such as potential and current value changes according to the concentration of gaseous hypochlorous acid, and for example, a potentiostatic electrolysis gas sensor can be used.

  At this time, the target concentration of hypochlorous acid in the target space is in the range of 0.005 ppm to 0.5 ppm, preferably in the range of 0.005 ppm to 0.05 ppm.

  As described above, the space sterilization apparatus 1 according to the present embodiment exhibits a high sterilization effect even when the relative humidity is low, and can realize a comfortable space in which the sterilization is always performed regardless of the relative humidity in the space. .

  Hereinafter, with reference to FIGS. 6, 7, 8, 9, and 10, for examples for calculating a data table used in the control unit 7 of the spatial sterilization apparatus 1 and the spatial sterilization apparatus 2 according to the embodiment. While explaining.

(Derivation of target spatial concentration by sterilization test)
In the space sterilization apparatus 1 of the present invention, the following sterilization test was performed in order for the determination unit 9 to determine the hypochlorous acid concentration from the relative humidity of the indoor space. The sterilization test is the space where the temperature and relative humidity and the concentration of gaseous hypochlorous acid are adjusted to a predetermined value, the test bacteria are installed and allowed to act, and the number of surviving bacteria with respect to time is measured to measure the space. To evaluate the bactericidal efficacy of.

  The method of the sterilization test is shown below. First, 10 μL of a suspension prepared by diluting Staphylococcus aureus in a broth medium diluted 1/50 with sterile water was dropped into the center of a plastic dish having a diameter of 90 mm and gently dried at room temperature. This produced the test piece which the Staphylococcus aureus adhered (initial number of bacteria per test piece is about 100,000 CFU).

  Further, in parallel, the air condition of the space in which the test is performed was set. Since it is necessary to control the temperature and humidity of the space, it was performed in a chamber having an air conditioning function and heat insulation performance. The chamber is a space of 25 cubic meters (about 6 tatami mat) of stainless steel constant temperature and humidity chamber and a resin case installed in the chamber. In this embodiment, a box made of acrylic resin (width 100 cm, height 100 cm, depth 100 cm, volume 1 cubic meter) installed in a stainless steel constant temperature and humidity chamber of 25 cubic meters. A sterilization test was performed inside an acrylic resin box. The box was partially opened so that the inside of the box had a predetermined temperature and relative humidity, and the temperature and humidity inside the 25 cubic meter space were adjusted to stabilize the air condition inside the box. The temperature was 10° C., 20° C. and 30° C., and the relative humidity was 40% to 90% under a plurality of conditions.

  Then, the hypochlorous acid gas concentration in the box was adjusted to a predetermined value. Hypochlorous acid gas is generated by evaporating hypochlorous acid water by ventilating it.

  Therefore, first, sodium hypochlorite was diluted with pure water to prepare a hypochlorous acid water having a predetermined concentration. The hypochlorous acid water concentration was determined by the DPD colorimetric method.

  Next, in order to volatilize the hypochlorous acid gas from the adjusted hypochlorous acid water, the space sterilizer 1 equipped with a volatilizing means and a blower is used, and the hypochlorous acid water adjusted to the space sterilizer 1 is used. Was introduced. The blower of the space sterilizer 1 was directed to the open position of the box, the blower was started, and hypochlorous acid gas was blown into the box for a certain time (about 5 minutes). After confirming that the concentration of hypochlorous acid gas inside reached a target value, ventilation was stopped and the box was closed. The hypochlorous acid gas concentration (C) in the box was measured by a potentiostatic electrolysis chlorine gas detector.

  In this example, the hypochlorous acid water concentration was set to 100 or 300 mg/L (pH 7.0 to 7.5), and hypochlorous acid gas was blown in at an air flow rate of 2.5 cubic meters per minute, and The chlorous acid gas concentration was adjusted to about 0.3 or 1 ppm.

  Next, the test piece was installed in the adjusted space and the sterilization effect was evaluated. A test piece with bacteria attached was placed in the box and closed to give an action time (T). The action time (T) was set to an appropriate length depending on the air condition, and the upper limit was set to within 10 to 30 minutes. Immediately after the action, it was taken out, and a reducing agent for neutralizing hypochlorous acid was added to a 10 mL plastic Petri dish with a physiological saline containing 0.3% sodium thiosulfate to stop the reaction. In order to measure the survival number of the adhered bacteria, the sodium thiosulfate-mixed physiological saline was stirred several times to suspend the bacteria adhered to the plastic petri dish and aseptically collect them in a sterile container. Using this as a test solution, a 10-fold dilution series was prepared with physiological saline, spread on an agar plate medium, and cultured at 36° C. for 48 hours. The number of colonies that appeared was counted and converted to obtain the number of surviving bacteria per test piece. This change in the number of surviving bacteria was plotted against the product (CT value) of the action time (T) and the hypochlorous acid gas concentration (C), and the CT value required for 90% reduction was derived (Fig. 6). ).

  As a result, the CT value necessary for sterilization with respect to humidity was obtained. From this, the hypochlorous acid gas concentration in the space necessary for 99% sterilization after 24 hours with respect to the relative humidity was derived (FIG. 7). At 40% relative humidity, 0.03 ppm, at 60% 0.01 ppm, and at 80% 0.005 ppm. Based on this approximate curve, the hypochlorous acid gas concentration relative to relative humidity is set as the lower limit, and the determination unit 9 Table was used to determine the target concentration of hypochlorous acid.

(Derivation of hypochlorous acid gas supply)
The space concentration set value can theoretically be considered as a value obtained by dividing the amount of hypochlorous acid gas supplied to the space by the air volume of the space. The amount of hypochlorous acid gas supplied depends on the amount of hypochlorous acid gas volatilized from the hypochlorous acid water per unit time, and is determined by the concentration of hypochlorous acid water according to Henry's law. The volatilization efficiency from the volatilization means differs depending on the structure of the main body and members, so it is necessary to derive it experimentally. Furthermore, the volatilized hypochlorous acid gas may have a certain loss due to adsorption on the surface of the space or self-decomposition, and it is necessary to provide a margin that takes the loss into account in order to achieve the space concentration set value. is there. Further, the air volume of the space is represented by the product of the volume of the space and the ventilation frequency per unit time.

  Letting the spatial concentration (mg/m3) be C, the hypochlorous acid gas supply amount (mg/h) be M, the spatial air volume (m3/h) be V, and the loss factor in the space be δ, these relationships When expressed in a formula, it is shown in Formula 1.

M=C・V・δ (Formula 1)
In order to derive the loss coefficient δ, verification was performed using the space sterilization apparatus 1 while performing 0.5 times ventilation in a 25 cubic meter stainless chamber as a test space. The hypochlorous acid gas was generated from the space sterilizer 1, and the relationship between the hypochlorous acid gas concentration in the space and the hypochlorous acid gas concentration and the air volume at the outlet was experimentally investigated. I asked. Furthermore, the theoretical hypochlorous acid gas supply amount MT when the loss in the space was zero was compared, and the loss coefficient δ was derived. The concentration of the hypochlorous acid gas and the concentration of the hypochlorous acid water were measured according to the method described above. As a result, the relationship shown in FIG. 8 was obtained. From FIG. 8, an output control table used in the hypochlorous acid volatilization amount determination unit 11 of the space sterilizer 1 was constructed. Furthermore, using the air volume of this embodiment as a standard in a space of 25 cubic meters, the volume coefficient γ was set by the volume ratio, and the formula 2 was obtained.

M=C・25・δ・γ (Equation 2)
The volumetric coefficient is a ratio based on a 25 cubic meter space, and is 4.0 for a 100 cubic meter space, for example. As described above, by simplifying the numerical values, the control algorithm can be easily calculated by introducing the volume coefficient even in spaces having different space volumes. Based on the determination of the volume coefficient, as shown in FIG. 9, a table used in the hypochlorous acid volatilization amount determination unit 11 for determining the hypochlorous acid supply amount was constructed.

  Further, at this time, the electrolytic strength setting for generating the necessary hypochlorous acid water is individually set, and the output determination for determining the outputs of the electrolysis unit 2 and the blower 5 for securing the hypochlorous acid gas supply amount is determined. The electric field strength table used in the section 12 is shown in FIG. By such a method, the tables used by the determination unit 9, the hypochlorous acid volatilization amount determination unit 11, and the output determination unit 12 for use in the control unit 7 of the spatial sterilization apparatus 1 of the present invention were derived. It should be noted that when the air flow rate was changed to a small amount, the volatilization amount of hypochlorous acid gas from the hypochlorous acid water was relatively decreased, and as a result, the concentration of the hypochlorous acid water remaining in the tray was increased. As a result, the hypochlorous acid gas concentration increased and the decrease in the hypochlorous acid gas supply amount due to the decrease in the air flow was reduced compared to the rate of reducing the air flow. In order to set the supply amount of hypochlorous acid gas more accurately, it is more preferable to set the set value of the electrolysis amount individually for each air flow.

  Further, an operation mode may be provided in which the relationship between the air volume and the required air volume that can be sufficiently diffused is determined, and the air volume and the hypochlorous acid gas supply amount are set with respect to the applicable floor area.

  INDUSTRIAL APPLICABILITY The air sterilizing apparatus according to the present invention is useful as an air purifying unit that deodorizes or disinfects a room.

DESCRIPTION OF SYMBOLS 1 Spatial sterilizer 2 Electrolysis part 3 Tray 4 Volatilization part 5 Blower 6 Relative humidity detection part 7 Control part 8 Relative humidity detection part 9 Judgment part 10 Volume setting part 11 Hypochlorous acid volatilization amount determination part 12 Output determination part 13 Air outlet 21 spatial sterilizer 22 output determination unit 23 hypochlorous acid concentration detection unit 24 calculation unit 27 control unit

Claims (4)

Non-dissociative hypochlorous acid contained in the hypochlorous acid water is diffused into the target space to be diffused, and in a space sterilizer for sterilizing the target space, electrolysis for producing hypochlorous acid by electrolysis. Part, a tray for holding the hypochlorous acid water generated by the electrolysis, a volatilization part for volatilizing hypochlorous acid, and introducing air to the volatilization part to vaporize hypochlorous acid A blower for diffusing into the space, a relative humidity detection unit for detecting the relative humidity of the target space, and a control unit for determining the output of the electrolysis unit and the blower,
The control unit, a determination unit for determining the target concentration of hypochlorous acid of the target space according to the relative humidity of the target space, a volume setting unit for setting the volume of the target space, the determination And a hypochlorous acid volatilization amount determination unit for determining the hypochlorous acid volatilization amount from the volume of the target space set in the volume setting unit and the hypochlorous acid target concentration determined by the unit, the hypochlorous acid An output determination unit for determining the output of the electrolysis unit and the blower according to the hypochlorous acid volatilization amount determined by the volatilization amount determination unit,
The control unit, so that the hypochlorous acid concentration of the target space is a target concentration according to the relative humidity of the target space, when the relative humidity of the target space is low, to increase the hypochlorous acid volatilization amount, A space sterilizer that can reduce the amount of hypochlorous acid volatilization when the relative humidity of the target space is high. Non-dissociative hypochlorous acid contained in the hypochlorous acid water is diffused into the target space by volatilizing, and in a space sterilizer for sterilizing the target space, electrolysis for producing hypochlorous acid by electrolysis. Part, a tray for holding the hypochlorous acid water generated by the electrolysis, a volatilization part for volatilizing hypochlorous acid, and introducing air into the volatilization part, the hypochlorous acid volatilized A blower for diffusing into the space, a relative humidity detection unit for detecting the relative humidity of the target space, and a hypochlorous acid concentration detection unit for detecting the hypochlorous acid concentration of the target space, Comprising a control unit that determines the output of the electrolysis unit and the blower,
The control unit is a determination unit for determining a hypochlorous acid target concentration of the target space according to the relative humidity of the target space, and next to the target space detected by the hypochlorous acid concentration detection unit. A calculation unit that calculates the difference between the chlorous acid concentration and the hypochlorous acid target concentration determined by the determination unit, and an output determination unit for determining the output of the electrolysis unit and the blower,
The control unit, so that the hypochlorous acid concentration of the target space is a target concentration according to the relative humidity of the target space, the hypochlorous acid concentration of the target space, depending on the relative humidity of the target space. When the target concentration of hypochlorous acid is lower than the target concentration, the concentration of hypochlorous acid is increased, and the concentration of hypochlorous acid in the target space exceeds the target concentration of hypochlorous acid according to the relative humidity of the target space. Sometimes a space sterilizer that can reduce the amount of hypochlorous acid volatilization. The output determining unit increases the amount of electrolysis in the electrolysis unit to increase the amount of hypochlorous acid produced, thereby increasing the amount of hypochlorous acid volatilized, and lowering the amount of electrolysis in the electrolysis unit to produce hypochlorous acid. The space sterilizer according to claim 1 or 2, wherein the amount of hypochlorous acid volatilization is reduced by reducing the amount of. The output determination unit increases the air volume of the blower to increase the amount of air introduced to the volatilization unit, thereby increasing the amount of hypochlorous acid volatilized, and lowering the air volume of the blower to decrease the amount of air introduced to the volatilization unit. The space sterilizer according to claim 1 or 2, wherein the volatilization amount of hypochlorous acid can be reduced by the above.