JP2010002155A - Air conditioning apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To maintain an antimicrobial-antiviral environment in an indoor space by using an air conditioning apparatus such as a humidifier, a dehumidifying device, an air cleaner and a heating-cooling device. <P>SOLUTION: The air conditioning apparatus is provided with an air blowing system for sucking indoor air by an air blowing fan, performing air conditioning to achieve a predetermined state by a predetermined air conditioning means and then, blowing out the air to an outdoor side. The air conditioning apparatus is provided with an antimicrobial-antiviral agent adding means for adding a chlorine dioxide antimicrobial-antiviral agent permitting concentration control. The antimicrobial-antiviral agent having a predetermined concentration is mixed with the air blown out to the indoor side via the antimicrobial-antiviral agent adding means, so as to form the antimicrobial-antiviral environment on the indoor side by the air with which the antimicrobial-antiviral agent is mixed. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an air conditioner capable of forming a comfortable and clean air environment by adding a predetermined concentration of antibacterial / antiviral agent vaporized into air supplied indoors. .

  Recently, various air conditioners that condition (tune) indoor air in a comfortable state have been provided, such as humidifiers, dehumidifiers, air purifiers, fragrance addition devices, and heat pump type air conditioning units. It is loved by many users as a product that creates a comfortable environment.

  Some of them are provided with, for example, a plasma ion generator so as to exhibit a sterilization function (Patent Document 1). According to such an apparatus, the growth of bacteria in room air can be suppressed to some extent.

JP 2006-84055 A

  In recent years, fears of new types of influenza viruses such as bird flu (infecting humans from person to person) have increased, and some measures are required.

  As one of such anti-virus measures, the above-described anti-bacterial measures in the indoor living environment are effective, and the spread of virus infection can be prevented at a low cost.

  However, the negative ions in the plasma ion generating means of the conventional air conditioner described above currently have a slight sterilizing action on general bacteria, and are effective in suppressing new viruses such as avian influenza virus. Does not have.

  The present invention has been made to solve such problems, and has a higher antibacterial action than negative ions and the like, and is effective against new viruses such as avian influenza. The purpose of the present invention is to provide an air conditioner that achieves an inhibitory effect against new viruses by using the agent in a form in which the concentration can be controlled and mixing it into the conditioned air blown into the room. .

  In order to achieve the above object, the present invention comprises the following effective problem solving means.

(1) The invention of claim 1 The present invention includes an air conditioner that includes an air blowing system that sucks indoor air by a blower fan, tempers it into a predetermined state by a predetermined air refining means, and blows it out to the outside. In which an antibacterial / antiviral agent addition means for adding a chlorine dioxide-based antibacterial / antiviral agent whose concentration can be controlled is provided, and a predetermined concentration relative to the air blown into the room through the antibacterial / antiviral agent addition means The antibacterial / antiviral agent is mixed, and the air is mixed with the antibacterial / antiviral agent to form an antibacterial / antiviral environment in the room.

  According to such a configuration, the conditioned air blown into the room by the chlorine dioxide-based antibacterial / antiviral agent addition means provided in the air flow path of the air conditioner is used to control new viruses such as avian influenza. As a result, it is possible to achieve a comfortable indoor air environment and a highly antiviral cleaning.

  In addition, the antibacterial and antiviral agents added by the means for adding antibacterial and antiviral agents are extremely safe because the concentration is controlled to a predetermined level and is used in a concentration range that is safe for the human body and a low odor level. And does not impair comfort.

(2) Invention of Claim 2 This invention is the configuration of the invention of Claim 1, wherein the antibacterial / antiviral agent addition means is at least an electric circuit board installed on the air blowing path from the air suction part to the air blowing part. It is characterized in that it is provided on the downstream side of the air flow from the part.

  According to such a configuration, it is possible to avoid the passage of the chlorine dioxide-based chemical having a strong oxidizing action through the electrical component part such as the electric circuit board, and it is possible to avoid the occurrence of rust and deterioration of the electrical component.

(3) Invention of Claim 3 This invention is the structure of the invention of Claim 1 or 2, wherein the air conditioning means is a humidifying means, and the humidifying part is a water absorption type filter and the water absorption type filter. The antibacterial / antiviral agent adding means is constituted by a water absorption filter impregnated with the antibacterial / antiviral agent.

  According to such a configuration, the antibacterial and antiviral agents in the filter material of the water absorption filter that sucks up water and adds moisture to the air flowing through the air blowing system are added together with the addition of the same moisture and heated. It is evaporated and becomes humidified air with antibacterial and antiviral properties and blown out into the room, forming an antibacterial and antiviral environment.

(4) Invention of Claim 4 In this invention, in the structure of the invention of Claim 3, the release amount of the antibacterial / antiviral agent is adjusted by electrically controlling the calorific value of the heating means. It is characterized by becoming.

  According to such a configuration, the desired antibacterial and anti-antimicrobial properties in relation to the air amount can be obtained by changing the heat generation amount (heating amount) of the heating means for heating and evaporating the water in the water absorption filter under a predetermined air blowing amount. Humidified air with a virus agent concentration can be blown out, and within a range where an effective virus suppression effect can be obtained, the concentration can be reliably adjusted to be safe for the human body.

  As a result of the above, according to the present invention, unlike the conventional case of negative ions, the antibacterial effect of indoor air can be reliably realized, and it is effective as a countermeasure against new viruses such as avian influenza. Become.

  Hereinafter, some of the best embodiments of the present invention will be described with reference to the accompanying drawings.

(Best Embodiment 1)
First, FIG. 1 to FIG. 4 show the configuration of an air conditioner according to the first preferred embodiment of the present invention configured as a water absorption filter type humidifier.

  The humidifier of this embodiment includes, for example, a blower fan 3 that circulates indoor air, a humidifying means 4 that humidifies indoor air, and water W to the humidifying means 4 as shown in FIGS. A humidifier body 1 having a water supply means 5 to be supplied, a handle 39, which is detachable from the humidifier body 1, and water W is supplied to the water supply means 5 in a mounted state. The humidifier body 1 has a fan motor 6 that is a driving source of the blower fan 3 on one side and a hermetic seal wall made of synthetic resin. It is made into the substantially L shape which has the standing part 1a built in via.

  The blower fan 3 is provided adjacent to the standing portion 1 a in the humidifier body 1, and surrounds the fan rotor 7 made of a synthetic resin that is rotationally driven by the fan motor 6. It is composed of a scroll type synthetic resin fan casing 8. The fan casing 8 is disposed with its air suction port 8a opened on the opposite side (water absorption filter 11 side) of the upright portion 1a, while its air outlet 8b is opened upward. The opening of the blowout port 8b faces a humidified air blowout grill 9 made of synthetic resin formed from the upper surface of the cover portion 1c extending upward along the standing portion 1a to the oblique front surface.

  The humidifying means 4 has a water storage tank 10 formed adjacent to the fan casing 8 and a lower end immersed in the water W of the water storage tank 10 on the flat portion 1b at the bottom side center of the humidifier body 1. And a water absorption filter 11 detachably provided so as to face the air suction port 8a of the fan casing 8. For example, as shown in FIG. 4, the water absorption filter 11 is formed by diffracting a large number of filter fabrics 11a made of a material having excellent hygroscopicity (for example, cloth) into a pleat shape.

  A predetermined gap S is interposed between the water absorption filter 11 and the air suction port 8a of the fan casing 8. If it does in this way, the whole surface of the water absorption filter 11 can be utilized as a humidification area | region (refer FIG. 1 and FIG. 3).

  Above the water absorption filter 11, an operation panel 12A provided with further necessary switches is provided. The operation panel 12A includes a main switch that is connected to the microcomputer on the electric circuit board 15 side and that turns the power on and off, an air volume changeover switch that switches the air volume of the blower fan 3 in a plurality of stages, and a heat generation amount of the heater unit 16. A variable heating amount variable switch or the like (not shown) is provided. Reference numeral 15 denotes an electric circuit board, which is housed in a hermetically sealed state in a control box 12B made of synthetic resin provided below the operation panel 12A. A heating amount control circuit section in the power supply circuit and heater unit 16 And a drive circuit for the fan motor 6, a microcomputer, and the like.

  Further, on the back side of the water absorption filter 11, the above-described heater unit 16 capable of ventilating the indoor air sucked from the air suction port 8 a by the blower fan 3 to a predetermined temperature is disposed. . An air inlet (not shown) from the room is formed on the back side of the heater unit 16.

  Further, the water supply means 5 is provided with a water passage 17 formed adjacent to the water tank 10 and a water supply port 21 of the water tank 2 in the flat surface portion 1b at the bottom center of the humidifier body 1. The first water storage section 18 and the second water storage section 19 to which the float 26 of the water tank 2 is mounted.

  In the state where the water tank 2 is mounted, the front and rear of the water absorption filter 11 are closed by the front plate 1d and the back plate 1e (see FIG. 2), and are sucked from the air suction port (not shown), The indoor air A preheated by the heater unit 16 passes through the water absorption filter 11 through the space between the water absorption filter 11 and the water tank 2, and is heated from the water absorption filter 11 when passing through the water absorption filter 11. An air passage 20 is formed which is humidified by the evaporated water vapor and sucked into the air suction port 8 a of the fan casing 8.

  A water supply port 21 is formed at the center of the bottom surface 2a of the water tank 2, and a water supply cap 22 is attached to the water supply port 21 in a detachable manner. The water supply cap 22 is provided with a valve mechanism 24 that is operated to open by a pin-shaped valve opening operation member 23 erected at the center of the first water reservoir 18 when the water tank 2 is mounted. . Reference numeral 25 denotes a coil spring that urges the valve mechanism 24 in the valve closing direction.

  The valve mechanism 24 closes the valve body of the valve mechanism 24 by the action of the coil spring 25 when the water tank 2 is removed upward from the first water reservoir 18. On the other hand, when mounted on the first water reservoir 18, the valve opening mechanism 24 opens the valve mechanism 24 to the coil spring 25 and opens the water tank in the first water reservoir 18. Water W is supplied from 2.

  By the way, in the case of this embodiment, the filter cloth 11a of the water absorption filter 11 shown in FIG. 4 is impregnated with an antibacterial / antiviral agent having a predetermined concentration.

  This antibacterial and antiviral agent has, for example, a strong oxidation action by free radicals, and oxidatively modifies major proteins such as bacteria, fungi, and viruses, and also oxidizes and modifies malodorous substances such as hydrogen sulfide. Drugs that can maintain a constant and stable concentration for a long time even when diluted with water are used.

In general, chlorine dioxide (ClO ₂ ) is generated by mixing chlorite (NaClO ₂ ) with an acid. The chlorine dioxide gas is very soluble in water, but the concentration of chlorine dioxide gas dissolved in water is There is a drawback that it is unstable and cannot maintain a stable concentration.

  Therefore, the conventional chlorine dioxide solution cannot be used as an antibacterial / antiviral agent in an environment that affects the human body because the concentration control is impossible.

  However, in the antibacterial / antiviral agent of this embodiment, the chlorine dioxide concentration can be kept constant over a long period of time by simultaneously using chlorine dioxide-dissolved gas, chlorite, and pH adjusting agent under predetermined conditions. A chlorine dioxide-based chemical is used (for example, the one shown in Japanese Patent No. 3110724).

  Therefore, concentration control is possible, and it can be used safely even in an environment that affects the human body.

  According to such a configuration, the water from the first water storage section 18 is absorbed by the water absorption filter 11 including the antibacterial / antiviral agent as described above, and gradually rises to the upper end side. Then, the chlorine dioxide-based antibacterial and antiviral agents that are easily soluble in the water W are gradually smoothly dissolved in the rising water W. Then, when indoor air preheated through the heater unit 16 is supplied to the water absorption filter 11 portion containing the water W in which the antibacterial / antiviral agent is dissolved, the water W is evaporated and a predetermined concentration is obtained simultaneously. Chlorine dioxide gas is generated and blown out from the humidified air blowing grill 9 into the room by the blower fan 3.

  As a result, indoor viruses, bacteria, fungi and other proteins are oxidized and sterilized, and malodorous components such as hydrogen sulfide are oxidized and deodorized and purified.

  According to the above configuration, in the air conditioner including the air blowing system that sucks indoor air by the blower fan 3 and humidifies the predetermined humidity by the humidifying means 4 and then blows out into the room, the concentration of the carbon dioxide can be controlled. A water absorption filter 11 as an antibacterial / antiviral agent addition means impregnated with a chlorine-based antibacterial / antiviral agent is provided, and air is blown into the room through the water absorption filter 11 impregnated with the antibacterial / antiviral agent. A feature is that an antibacterial / antiviral agent of a predetermined concentration is mixed, and the air is mixed with the antibacterial / antiviral agent to form a room in an antibacterial / antiviral environment.

  According to such a configuration, the humidified air blown into the room by the chlorine dioxide-based antibacterial / antiviral agent that is vaporized together with water from the water absorption filter 11 provided in the blower system path of the air conditioner, such as bird flu It has an antibacterial action against the new virus, which makes it possible to achieve a comfortable indoor air environment and a highly antiviral cleaning.

  In addition, the antibacterial / antiviral agent mixed in the air by the water absorption filter 11 as an antibacterial / antiviral agent addition means is controlled in advance to a predetermined concentration, a concentration range safe for the human body, and a low odor concentration Since it is used at the level, it is extremely safe and does not impair comfort.

  Further, in the same configuration, the water absorption filter 11 as the antibacterial / antiviral agent addition means is at least airtight with the electric circuit board 15 and the fan motor 6 on the air passage from the air suction portion to the humidified air blowing grill 9. It is securely isolated through a sealing wall made of a synthetic resin.

  According to such a configuration, it is possible to surely prevent a chlorine dioxide-based chemical having a strong oxidizing action from passing through the electrical component parts such as the electric circuit board 15 and the fan motor 6, and the occurrence and deterioration of rust in the electrical component part. Can be avoided.

  Further, in the above configuration, the humidifying unit includes the water absorption type filter 11 and the heater unit 16 that heats the water absorption type filter 11 to evaporate the water, and the antibacterial / antiviral agent adding means is an antibacterial / antiviral agent addition unit. It is comprised by the water absorption filter 11 impregnated with the virus agent.

  According to such a configuration, the antibacterial / antiviral agent in the filter material 11a of the water absorption filter 11 that sucks up water and adds water to the air flowing through the air blowing system is added together with the addition of the water. It is evaporated by heating and becomes humidified air with antibacterial and antiviral properties and blown out into the room to form an antibacterial and antiviral environment.

  The release amount of the antibacterial / antiviral agent at that time is adjusted by electrically controlling the amount of heat generated by the heater unit 16.

  According to such a configuration, the amount of air can be adjusted by using a microcomputer to variably adjust the heat generation amount (heating amount) of the heater unit 16 that heats and evaporates the water in the water absorption filter 11 under a predetermined air blowing amount. Therefore, humidified air having an appropriate antibacterial / antiviral agent concentration can be blown out, and the concentration can be surely adjusted to a concentration safe for the human body within a range where an effective virus suppression effect can be obtained.

  As a result of the above, according to the same configuration, unlike the case of the conventional negative ion, it is possible to reliably realize the antibacterial effect of room air, which is effective as a countermeasure against new viruses such as avian influenza. Become.

  Moreover, in the same configuration, the antibacterial / antiviral agent addition unit 50 is on the air flow path from the air suction port to the air blowout port, and the air is on the downstream side of the air flow from the installation portion such as the blower fan or the electric circuit board. Located near the air outlet.

  Therefore, it is possible to avoid the passage of the chlorine dioxide-based chemical having a strong oxidizing action through the electric component parts such as the fan motor and the electric circuit board, and it is possible to avoid the occurrence of rust and deterioration of the electric component.

(Modification)
In the above case, the above-described chlorine dioxide antibacterial / antiviral agent can be mixed and dissolved at a predetermined concentration in water (H ₂ O) in the water tank 2 in advance.

  According to such a configuration, the water W in the water tank 2 containing the antibacterial / antiviral agent in advance is supplied from the first water reservoir 18 to the lower part of the water absorption filter 11 and is absorbed by the water absorption filter 11 and rises. . When the indoor air preheated through the heater unit 16 is supplied to the water absorption filter 11 portion containing the water W in which the antibacterial / antiviral agent is dissolved in the same state, the water W evaporates and a predetermined amount is obtained simultaneously. Concentrated chlorine dioxide gas is generated and blown out from the humidified air blowing grill 9 into the room by the blower fan 3.

  Thus, it is possible to sterilize indoor viruses, bacteria, fungi and the like, and purify malodors. In the case of the same configuration, the antibacterial / antiviral agent impregnated in the fabric 11a of the water absorption filter 11 is more surely dissolved and the concentration is controlled more accurately than when the antibacterial and antiviral agents are dissolved simultaneously with the water absorption. Accordingly, it is possible to further effectively improve the additional performance of the antibacterial / antiviral agent.

  In this case as well, the antibacterial / antiviral agent is vaporized and mixed into the blown air only to the water absorption filter 11 part, and therefore, measures to prevent oxidation of the air passage after the water absorption filter 11 part (downstream side). (Resin coating of the metal part of the passage, resin sealing of the electric circuit board 15 and the fan motor 6 part) is sufficient.

(Best Mode 2)
Next, FIG. 5 and FIG. 6 show the configuration of an air conditioner according to the second preferred embodiment of the present invention configured as a humidifying rotor type humidifier.

  As shown in FIGS. 5 and 6, for example, the humidifier 40 of this embodiment includes a main body case 40a, a sending fan 44 housed in the main body case 40a, a water receiving tray 49, and the water receiving tray. 49 is provided on a first water reservoir 49a in the water tank 48, which is a water supply means for supplying water to the first water reservoir 49a, and a second water reservoir 49b portion of the water receiving tray 49. Rotating humidification filter 45 provided so as to be rotatable in the form of immersing the lower part, and the air flowing in the ventilation system path from the sending fan 44 to the rotation humidification filter 45 in the middle of the ventilation system path to a predetermined temperature The heater unit 51 to be heated and the small-diameter-side second diversion passage b in the first and second diversion passages a and b that divide and flow the air humidified through the rotary humidification filter 45. Antibacterial and antiviral agents provided And a pressurizing unit 50..

The sending fan 44 is composed of, for example, a sirocco fan (a side-suction centrifugal direction blowing type multi-blade fan), and sucks indoor air A ₁ from an air suction port 41 provided on a side portion of the main body case 40a. After heating to a predetermined temperature via the unit 51, it is supplied to the rotary humidifying filter 45.

  For example, as shown in FIG. 6, the rotary humidifying filter 45 includes a plurality of filter plates 45a, 45a,..., Two cover plates 45b and 45b on both ends, a filter rotating shaft 36, and a filter gear 45d.

  The filter plates 45a, 45a... Are, for example, synthetic resin (ABS) disk-like members, and predetermined surface treatments or surface treatments for improving the adhesion of water over the entire surface of both side plate surfaces. Is given.

  The cover plates 45b, 45b are disc-shaped members made of synthetic resin having the same shape as the filter plates 45a, 45a,..., And having a slightly smaller diameter, and the filter plates 45a, 45a,. Are arranged at both ends of the rotary humidifying filter 45 arranged in parallel in the axial direction.

  The partition walls 35 and 35 on the water receiving tray 49 side on both sides of the rotating humidifying filter 45 are respectively formed with U-shaped groove bearing portions, and the rotating shaft 36 of the rotating humidifying filter 45 is formed on each of the bearing portions. The shaft is pivotally supported.

  In the humidifier configured as described above, in order to improve the humidification capacity, it is necessary to increase the pumping capacity of each of the filter plates 45a, 45a,. As a configuration that meets such demands, the hydrophilicity of the plate surfaces of the filter plates 45a, 45a,...

  However, in the case of a humidifier, the amount of humidification (adjustment range) required according to the season and environment has a considerable range, and if a large humidification capacity over a certain level is required, it is not enough. not enough.

  Therefore, in this embodiment, in addition to the above hydrophilic treatment, a thicker water film can be formed on the entire plate surface quickly and further by utilizing the capillary action and surface tension of water. Thus, although not shown, honeycomb-shaped concave grooves (or convex ribs) are formed on the entire plate surfaces of the filter plates 45a, 45a.

  That is, in this embodiment, the groove (or the convex rib) of the groove is bent into a honeycomb shape, and the peripheral end surfaces of the filter plates 45a, 45a..., The rotary shaft insertion hole 45c, and the spacer convex portion. Expand continuously on the entire surface except for. Then, the capillary action of the groove part of the concave groove (or the action of reducing the contact angle of the wall surface with water by the convex rib and increasing the surface tension) is used to rapidly infiltrate and spread water. As a result, a thick water film is formed as much as possible on the hexagonal honeycomb surface portion between the grooves (or convex ribs), and the pumping force is increased by increasing the spreading force and mooring force. is doing.

  On the other hand, the water receiving tray 49 has a second water storage part 49b which also serves as a filter storage part formed between vertical partition walls located on the left side of the main body case 40a and facing left and right, and the outside (left side). The first water storage part 49a is integrally formed horizontally.

  The first water storage portion 49a has a water supply port fitting wall 46b into which a water supply port portion 48a on the water tank 48 side is fitted, and a water supply port of the water tank 48 provided at the center of the water supply port fitting wall 46b. A shaft-like protrusion 46a for opening a valve provided in the portion 48a, a water storage groove to which water is supplied from the water outlet of the water supply port fitting wall 46b, and a back surface side of the water storage groove. A float switch as a safety device, a communication port (see a vertical gap) for communicating the water storage groove and the second water storage portion 49b, and the like are provided.

  When the water supply port portion 48a of the water tank 48 is placed on the water supply port fitting wall 46b, the valve body portion of the valve is opened by the shaft-shaped protrusion 46a, and a predetermined amount of water is supplied to the water supply port fitting wall 46b. It flows out into the water storage groove of the 1st water storage part 49a through this opening part. A part of the water flowing out into the water storage groove flows into the second water storage part 49b through the connection port while being guided by the guide wall, and stores water to the same height as the water in the water storage groove.

  As described above, the rotary humidifying filter 45 is configured by arranging a large number of disk-shaped filter plates 45a, 45a,... Rotating drive while immersed in the water storage part 49b, and supplying the warm air by the sending fan 44 and the heater part 51 in the same rotational driving state, the water adhering to the surface of the filter plates 45a, 45a. By doing so, humidified air is formed.

  The humidified air is blown into the room from the first and second air outlets 42a and 42b via the first and second branch passages a and b formed above the sending fan 44. The

By the way, between the rotation humidification filter 45 of the 2nd water storage part 49b and the 1st, 2nd air blower outlets 42a and 42b, it is as above-mentioned to two branch flow paths a and b via an intermediate partition wall. A chlorine dioxide-based antibacterial / antiviral agent addition unit 50 is provided on the small-diameter-side second branch passage b side, and the humidified air that flows out from the second branch passage b A ₃ is vaporized and mixed with an antibacterial / antiviral agent having a predetermined concentration, and blown into the room together with normal humidified air A ₂ on the first branch passage a side.

As a result, the humidified air blown into the room has an antibacterial action against new viruses such as avian influenza as a whole (A ₂ + A ₃ ), and humidification and cleaning with high antiviral properties can be achieved.

The antibacterial / antiviral agent addition unit 50 provided in the second branch channel b is, for example, a chlorine dioxide-based one that can be maintained at a stable and constant concentration for a long period of time similar to that of the first embodiment. It is composed of a porous material (or a mixture of similar granular materials that can be ventilated) with the necessary amount of antibacterial / antiviral agent adsorbed and retained, and the antibacterial / antiviral agent is steamed in the humidified air A ₂ when ventilated. It quickly dissolves into antibacterial / antiviral humidified air A ₃ and is blown into the room together with normal humidified air A ₂ . The antibacterial / antiviral agent addition unit 50 is replaced after being used for a predetermined time.

(Modification 1)
Further, the antibacterial / antiviral agent addition unit 50 sucks out, for example, a solution tank for diluting and storing the antibacterial / antiviral agent to a predetermined concentration, and a chlorine dioxide chemical solution in the solution tank. It is also possible to use a spraying device that sprays into the humidified air A ₂ in the form of a spray using the negative flow pressure of the air in the branch flow path b.

  With such a configuration, the performance of adding chlorine dioxide to humidified air is further improved.

(Modification 2)
Further, the antibacterial / antiviral agent addition unit 50 may be configured to pour out the chlorine dioxide solution in the solution tank having the configuration of the first modification by a pour pump and blow out the spray from the nozzle portion.

  In that case, an electric pouring pump may be used. For example, as shown in FIG. 7, a semicircular recess is formed in the side wall portion of the second branch passage b, and the blown air flow is formed there. The wind turbine 56 that rotates is driven by the shaft, the pumping pump 52 is driven using the driving force generated by the rotation of the wind turbine 56, and the chlorine dioxide solution in the solution tank 51 is poured out and blown out from the nozzle portion 53. May be.

In this way, when the air volume of the blower fan 44 described above increases, the chlorine dioxide concentration in the humidified air A ₃ also increases in proportion to it, and special concentration control becomes unnecessary as long as the solution concentration is managed.

  In FIG. 7, 52a is a connecting shaft that connects the rotating shaft of the wind turbine 56 and the drive shaft of the dispensing pump 52, 54 is a solution dispensing pipe, and 55 is a solution discharge pipe.

(Best Mode 3)
Next, FIG. 8 shows a configuration of an air conditioner according to Embodiment 3 of the present invention applied to an adsorption type dehumidifier.

  The dehumidifier 60 of this embodiment is rotatable with a main body case 60a having an air inlet 61 and an air outlet 62 and a lower half portion interposed in the air passage in the main body case 60a. A hygroscopic rotor 63 provided in the air blower passage, a blower fan 66 provided in the middle of the blower passage, an antibacterial / antiviral agent addition unit 68 provided on the downstream side of the blower fan 66 in the blower passage, and the above A heater unit 64 that heats and evaporates moisture adsorbed at an upper position where the moisture absorption rotor 63 is rotated halfway, and a water tank 67 that collects and stores the water desorbed from the moisture absorption rotor 63 via the water recovery passage 65. It consists of and. The antibacterial / antiviral agent addition unit 68 is the same as that of the second embodiment (including those of Modifications 1 and 2).

The moisture absorption rotor 63 is made of a porous absorbent member capable of adsorbing and desorbing moisture, such as zeolite having a honeycomb structure, and is sucked from the air suction port 61 at the lower half side portion interposed in the blower passage. Moisture in the air A ₁ is adsorbed and dried, and then supplied to the blower fan 66 as dehumidified air A ₂ . The blower fan 66 mixes the antibacterial / antiviral agent at a predetermined concentration via the antibacterial / antiviral agent addition unit 68 and blows it out into the room as dry air A ₃ having an antibacterial / antiviral function.

  On the other hand, the upper half side portion of the same hygroscopic rotor 63 is a dehydrating part corresponding to the heater unit 64, and is heated by the heater unit 64, so that moisture adsorbed when it is in the lower air blowing path is removed. The water is discharged and recovered in the water tank 67 through the water recovery passage 65.

  According to such a configuration, the indoor air can be optimally dehumidified, and at the same time, bacteria, fungi, viruses, etc. in the room can be sterilized and suppressed.

  In particular, it is effective as a countermeasure against various viruses such as avian influenza virus, which is a bacterial problem.

(Modification)
The above dehumidifying rotor 63 is made of a porous member such as zeolite that can easily absorb and desorb moisture.

  Therefore, for example, as shown in FIG. 9, each of the moisture adsorbing part side and the moisture releasing part side is made to correspond to the air flow path in the direction shown by the white arrow and switched to one of those air flow paths. If it is made to blow out indoors, it can be constituted as an air conditioner having both functions of dehumidification and humidification, and if the blower fan 66 and the air blowing passage are made common in the same device, the above-mentioned in any case Such antibacterial and antiviral functions can be added.

  In the figure, reference numeral 43b denotes a rotation support shaft of the dehumidifying / humidifying rotor 43. The rotation support shaft 43b is connected to the rotor shaft 48a of the drive motor 48 and is rotatable.

<Other embodiments>
(1) In addition to the humidifier, dehumidifier, and dehumidifier as described above, the present invention can be applied to various air conditioners and air conditioners such as an air purifier and a heat exchanger equipped with a heat exchanger. can do.

  (2) When applied to a steam-type humidifier, the same effect as described above can be obtained by adding the above-described chlorine dioxide antibacterial / antiviral agent to a dish containing aroma oil.

  (3) Further, in the configuration of each of the embodiments described above, for example, in order to suppress the occurrence of rust due to in-flight gas filling during operation stop, the fan is slightly (instantly) even during operation stop (after operation stop). It is preferable that the chlorine dioxide gas is periodically discharged to the outside so that it does not accumulate in the main body.

It is a longitudinal cross-sectional view which shows the structure of the air conditioning apparatus which concerns on the best Embodiment 1 of this invention comprised as a water absorption filter type humidifier. It is a partially notched top view of the same apparatus. It is a horizontal sectional view of the same device. It is a perspective view of the water absorption filter part in the apparatus. It is a longitudinal cross-sectional view which shows the structure of the air conditioning apparatus which concerns on best Embodiment 2 of this invention comprised as a rotary humidification filter type humidifier. It is a perspective view which shows the structure of the rotation humidification filter part in the same apparatus. It is a partially cutaway perspective view which shows an example of a structure of the antibacterial and antiviral agent addition unit in the same apparatus. It is a longitudinal cross-sectional view which shows the structure of the air conditioning apparatus which concerns on best Embodiment 3 of this invention comprised as an adsorption | suction type dehumidifier. It is a perspective view which shows the structure and effect | action of a dehumidification / humidification rotor part when the apparatus is deformed as a dehumidifier.

Explanation of symbols

  1 is a humidifier body, 2 is a water tank, 3 is a blower fan, 11 is a water absorption filter, 11a is a fabric, 15 is an electric circuit board, 44 is a blower fan, 45 is a rotary humidifier filter, and 50 is an antibacterial / antiviral agent added A unit, 63 is a hygroscopic rotor, 66 is a blower fan, and 68 is an antibacterial / antiviral agent addition unit.

Claims (4)

  Chlorine dioxide-based antibacterial with concentration control in an air conditioner comprising an air blowing system that sucks room air with a blower fan, tempers it into a prescribed state by a prescribed air conditioning means, and blows it out of the room・ An antibacterial / antiviral agent addition means for adding an antiviral agent is provided, and an antibacterial / antiviral agent having a predetermined concentration is mixed with air blown into the room through the antibacterial / antiviral agent addition means, An air conditioner characterized in that the room is formed into an antibacterial / antiviral environment by air mixed with the same antibacterial / antiviral agent.   The antibacterial / antiviral agent addition means is provided at least on the air flow downstream side of the electric circuit board installation portion on the air blowing path from the air suction portion to the air blowing portion. The air conditioning apparatus according to 1.   The air refining means is a humidifying means, and the humidifying part is composed of a water absorption type filter and a heating means for evaporating water by heating the water absorption type filter. The air conditioner according to claim 1 or 2, wherein the air conditioner is constituted by a water absorption filter impregnated with an antiviral agent.   4. The air conditioner according to claim 3, wherein the release amount of the antibacterial / antiviral agent is adjusted by electrically controlling the calorific value of the heating means.

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