JP5988091B2 - Air humidifier - Google Patents

Description

  The present invention relates to an air humidifier that includes a vaporizing humidifier element disposed in a ventilation passage and humidifies air flowing through the air passage.

  Conventionally, a base, an outside air inlet provided in the base, an outside air channel communicating with the outside air inlet, a vaporizing humidifier that humidifies air from the outside air channel, and the vaporizing humidifier A device called an air handling unit or an outside air processing humidifier is known as an air humidifier equipped with a blower that supplies the air to the room to be humidified (see, for example, Patent Document 1). In this type of air humidifier, tap water is continuously supplied to the vaporizing humidifier during the humidifying operation, and the water flowing down the vaporizing humidifier is directly discharged outside the apparatus.

Japanese Patent Application Laid-Open No. 06-159732

By the way, during the operation of the blower described above, the air blown from the blower is supplied to the vaporizing humidifier. For this reason, there is a concern that various germs and molds floating in the air adhere to the humidifying element of the vaporizing humidifier and propagate.
In order to prevent this, a measure is taken of adding a fungicide to the humidifying element of the vaporizing humidifier, but there is a problem that the effect of the fungicide is diminished over time.
An object of the present invention is to provide an air humidifier that eliminates the above-mentioned problems of the conventional technology, prevents germs and mold from growing on the humidifying element of the vaporizing humidifier, and keeps the humidifying element always clean. It is to provide.

In order to achieve the above object, the present invention includes a vaporizing humidifier and a blower in a ventilation path formed in a casing, and the air introduced into the casing by the blower is humidified by the vaporizing humidifier. In the air humidifier to be supplied indoors, the vaporizing humidifier includes a humidifying element disposed in the ventilation path, tap water supplying means for supplying tap water to the humidifying element, and tap water supplying means. Electrolytic water supply means provided in parallel and supplying electrolyzed water containing active oxygen species generated by electrolyzing water to the humidifying element, and switching means for switching between the tap water supply means or the electrolyzed water supply means are provided. The electrolyzed water supply means includes a water tank that stores water, an electrolysis unit that is provided in the water tank and electrolyzes water in the water tank to generate electrolyzed water, and the generated electrolyzed water is added to the electrolyzed water. A water supply pump for sending to the element; and a branch pipe branched from a discharge pipe of the water supply pump at a position lower than the humidifying element and connected to the water tank. And a control means for controlling the water pump so that the water in the water tank circulates through the water pump and the branch pipe .

According to this configuration, since the generated electrolyzed water is supplied to the humidifying element of the vaporizing humidifier by switching the switching means to the electrolyzed water supplying means side, the humidifying element can be kept clean. .
Further, since the circulated water is sequentially supplied to the electrolysis unit disposed in the water tank and electrolysis is performed in the electrolysis unit, the electrolysis efficiency can be improved. Furthermore, since the electrolyzed water is generated and prepared during the operation of the blower, that is, during the humidification operation, the electrolyzed water can be quickly supplied to the humidification element when the blower is stopped. Can be cleaned quickly.

  In this configuration, the switching means supplies tap water to the humidifying element through the tap water supply means during operation of the blower, and when the blower stops, the humidification element passes through the electrolytic water supply means. It may alternatively be switched to supply the electrolyzed water to the element. Further, the electrolyzed water supply means may supply the electrolyzed water to the humidifying element for a predetermined time or a predetermined amount. According to this configuration, during operation of the blower, tap water is supplied to the humidifying element so that humidified air can be supplied indoors. When the blower stops, the humidifying element is electrolyzed. By supplying water, the humidifying element can be surely kept clean.

According to the present invention, the vaporizing humidifier is provided in parallel with the humidifying element disposed in the ventilation path, the tap water supplying means for supplying tap water to the humidifying element, and the tap water supplying means. Since the electrolysis water supply means for supplying electrolyzed water containing the active oxygen species generated by electrolysis to the humidifying element and the switching means for switching between the tap water supply means or the electrolyzed water supply means are provided, the switching means is used as the electrolyzed water. By switching to the supply means side, the generated electrolyzed water can be supplied to the humidifying element of the vaporizing humidifier, and the humidifying element can be kept clean.
Further, since the circulated water is sequentially supplied to the electrolysis unit disposed in the water tank and electrolysis is performed in the electrolysis unit, the electrolysis efficiency can be improved. Furthermore, since the electrolyzed water is generated and prepared during the operation of the blower, that is, during the humidification operation, the electrolyzed water can be quickly supplied to the humidification element when the blower is stopped. Can be cleaned quickly.

It is a perspective view which shows the internal structure of the air humidification apparatus which concerns on this embodiment. It is a perspective view which shows the internal structure of an electrolyzed water supply apparatus. It is the schematic which shows the piping structure of a vaporization type humidifier.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing an internal configuration of an outside air processing device 10 as an air humidifier according to the present embodiment. In FIG. 1, the housing is drawn with imaginary lines so that the inside is exposed.
The outdoor air processor 10 is a device that supplies the indoor air after performing temperature control and humidification processing on the introduced outdoor air and indoor air. As shown in FIG. 1, the outside air processing machine 10 has a box-shaped casing 11 formed in a horizontally long shape. A top plate 11A of the casing 11 has a side plate 11B side of the top plate 11A. An outside air inlet 12 and an inside air inlet 13 are provided side by side, and an air supply port 14 is provided on the other side plate 11C facing the side plate 11B. In the present embodiment, the space formed in the housing 11 functions as the ventilation path 19, and the outside air inlet 12, the inside air inlet 13, and the air inlet 14 described above are provided in communication with the ventilation path 19. ing.

  An outside air duct (not shown) whose one end opens to the outdoor side is connected to the outside air inlet 12, and an indoor air intake duct (not shown) whose one end opens to the room is connected to the inside air inlet 13. An indoor air supply duct (not shown) whose one end opens into the room is connected to the vent 14. In addition, the air supply port 14 is provided with a blower 30 for flowing outside air or room air through the ventilation path 19 inside the housing 11. The blower 30 is a sirocco fan having an impeller 30A in a casing, and a drive motor 31 is connected to a rotating shaft 30B of the impeller 30A via a drive belt 30C. It is fixed to the top plate 11A.

Further, the casing 11 is included in the air (outside air or indoor air) introduced into the casing 11 between the outside air inlet 12 and the inside air inlet 13 and the air supply port 14 described above. A filter material 20 for removing dust and the like, an air heat exchanger 21, and a humidifying element 23 of the vaporizing humidifier 22 are sequentially arranged along the air flow direction.
The air heat exchanger 21 is a fin tube type heat exchanger that performs heat exchange between the air flowing through the ventilation path 19 and the refrigerant supplied from the outside, and an inlet pipe 21 </ b> A through which the refrigerant flows into the air heat exchanger 21. And an outlet pipe 21B through which the refrigerant heat-exchanged by the air heat exchanger 21 flows out. The inlet pipe 21A and the outlet pipe 21B are connected via a refrigerant pipe to a heat source side unit (not shown) including a compressor for compressing the refrigerant, a four-way valve, a heat source side heat exchanger, an expansion valve, and the like. . By performing the cooling operation or the heating operation of the heat source side unit, the temperature of the air flowing through the ventilation path 19 is adjusted, and the temperature-controlled air is supplied indoors.
In the present embodiment, the air heat exchanger 21 has been described as a configuration in which the refrigerant supplied from the heat source unit is circulated. However, the present invention is not limited to this, and the inlet pipe 21A and the outlet of the air heat exchanger 21 are not limited thereto. It is good also as a structure which connects a cold / hot water machine (not shown) to the pipe | tube 21B via water piping, and distribute | circulates the cold water or warm water produced | generated with this cold / hot water machine to the air heat exchanger 21. FIG. In this case, the cooling operation is performed when the cold water is supplied, and the heating operation is performed when the hot water is supplied, whereby the temperature of the air flowing through the ventilation path 19 is adjusted, and the temperature-controlled air is supplied indoors.

The vaporizing humidifier 22 includes a humidifying element 23 having water absorption, a tap water supply pipe (tap water supply means) 41 for supplying tap water to the humidifying element 23, and a drain pan 25 for receiving water flowing down from the humidifying element 23. The air is humidified by bringing the water infiltrated into the humidifying element 23 into contact with the air flowing through the ventilation path 19.
The drain pan 25 is formed of, for example, a resin material having low reactivity with electrolyzed water such as foamed polystyrene, and is placed on the bottom plate 11 </ b> D of the housing 11. The drain pan 25 is formed with a drain reservoir 25A whose bottom is lowered by one step, and a drain pipe 26 for discharging water received by the drain pan 25 to the outside is provided in the drain reservoir 25A.

  A supply nozzle 27 is provided at the upper edge of the humidifying element 23 to supply electrolytic water to the humidifying element 23 substantially evenly. A tap water supply pipe 41 is connected to a connection port 27A of the supply nozzle 27. ing. The tap water supply pipe 41 is connected to an external water supply and supplies tap water to the humidifying element 23 of the vaporizing humidifier 22. The tap water supply pipe 41 includes an on-off valve 42, a strainer 43, and a water supply. Solenoid valves (switching means) 44 are sequentially connected toward the downstream side. The water supply electromagnetic valve 44 is controlled to open and close based on a detection result of a fumidistat (not shown) arranged on the air downstream side of the humidifying element 23.

Further, the vaporizing humidifier 22 includes an electrolyzed water supply device (electrolyzed water supply means) 35 that supplies electrolyzed water to the humidifying element 23. The electrolyzed water supply device 35 electrolyzes water to generate electrolyzed water, and supplies the generated electrolyzed water to the humidifying element 23. The electrolyzed water supply device 35 includes an electrolyzed water supply pipe 24, and the electrolyzed water supply pipe 24 is connected to the connection port 27 </ b> A of the supply nozzle 27 in parallel with the tap water supply pipe 41. In the electrolyzed water supply pipe 24, a check valve 46 for preventing a back flow from the humidifying element 23 to the electrolyzed water supply device 35 is provided near the connection port 27 </ b> A of the supply nozzle 27. This prevents the tap water flowing through the tap water supply pipe 41 from flowing back to the electrolytic water supply device 35 through the electrolytic water supply pipe 24 when the water supply electromagnetic valve 44 is opened.
The tap water supply pipe 41 includes a tap water branch pipe 41A that branches between the strainer 43 and the water supply electromagnetic valve 44. The tap water branch pipe 41A is connected to the electrolyzed water supply device 35, and the electrolyzed water supply Tap water can be supplied to the device 35.

Next, the electrolyzed water supply device 35 will be described. FIG. 2 is a perspective view showing the internal configuration of the electrolyzed water supply device 35. FIG. 2 shows a state in which the upper, front and one side panel plates of the case body 36 are removed.
As shown in FIG. 2, the electrolyzed water supply device 35 includes a case body 36, and a water storage tank 51 (water tank), a saline tank 52, and an electrical box 53 are accommodated in the case body 36. .
The water storage tank 51 is a water tank for storing electrolyzed water generated by electrolyzing tap water. The water storage tank 51 is provided with a water supply pipe 56 including a water supply electromagnetic valve 55 for supplying tap water. The tap water branch pipe 41 </ b> A (FIG. 1) is connected to the water supply port 56 </ b> A of the water supply pipe 56. The water supply electromagnetic valve 55 is controlled to open and close in accordance with the operation of a float switch 57 disposed in the water storage tank 51.
Further, the water storage tank 51 is provided with an overflow discharge port 61, a water drain port 62, and the like. The overflow outlet 61 is an opening that discharges electrolytic water to an overflow pipe (not shown) when the level of the electrolyzed water in the water storage tank 51 exceeds the height of the overflow outlet 61. The drain port 62 is an opening for forcibly draining the entire amount of the electrolyzed water in the water storage tank 51, and a drain electromagnetic valve (not shown) is connected to the pipe between the water storage tank 51 and the water drain port 62. Is provided.

The water storage tank 51 is connected to a water supply pump (switching means) 65 for sending the electrolyzed water in the water storage tank 51 to the humidifying element 23 via a water intake pipe 64 provided at the lower part of the tank. The water pump 65 is, for example, a pump driven by a DC motor (not shown), and the discharge amount (lift) of the water pump 65 can be adjusted by changing the rotational speed of the DC motor.
An electrolytic water supply pipe (discharge pipe) 66 is connected to the discharge port side of the water pump 65, and the above-described electrolytic water supply pipe 24 is connected to a supply port 66 </ b> A of the electrolytic water supply pipe 66.
The electrolyzed water supply pipe 66 includes a branch pipe 66B branched in front of the supply port 66A. This branch pipe 66B is connected to the water storage tank 51, and takes water in the water storage tank 51 from the water supply pipe 64 and the water supply pump 65. A circulation path that circulates to the water storage tank 51 through the electrolytic water supply pipe 66 and the branch pipe 66B is formed.
The branch pipe 66B is provided at a position lower than the humidifying element 23. For this reason, by adjusting the discharge amount (lift) of the water pump 65, the electrolytic water in the water storage tank 51 can be circulated to the water storage tank 51 via the branch pipe 66B without being supplied to the humidifying element 23. It has become.

In addition, an electrolysis module (electrolysis unit) 67 that electrolyzes the water in the water storage tank 51 to generate electrolyzed water is disposed in the water storage tank 51. The electrolysis module 67 is desirably disposed at a position facing the discharge port of the branch pipe 66 </ b> B connected to the water storage tank 51. The electrolysis module 67 includes at least a pair of electrodes (not shown). By applying a voltage between these electrodes, water is electrolyzed to generate electrolyzed water containing active oxygen species.
Here, the reactive oxygen species are oxygen molecules having an oxidation activity higher than that of normal oxygen and related substances, and so-called narrow definition such as superoxide anion, singlet oxygen, hydroxyl radical, or hydrogen peroxide. These active oxygen species include so-called broadly active oxygen species such as ozone and hypohalous acid.

The electrodes are, for example, two electrode plates having a base made of titanium (Ti) and a coating layer made of iridium (Ir) and platinum (Pt).
When a voltage is applied between the electrodes, the cathode electrode (cathode) reacts as shown in the following formula (1).
2H ₂ O + 2e ⁻ → H ₂ + 2OH ⁻ (1)
The anode electrode (anode) reacts as shown in the following formula (2).
2H ₂ O → O ₂ + 4H ⁺ + 4e ⁻ (2)
When the reactions at the cathode and anode electrodes are combined, water is electrolyzed as shown in the following formula (3).
2H ₂ O → 2H ₂ + O ₂ (3)
Along with this reaction, in the anode electrode, chlorine ions (chloride ions: Cl ⁻ ) contained in water react as shown in the following formula (4) to generate chlorine (Cl ₂ ).
2Cl ⁻ → Cl ₂ + 2e ⁻ (4)
Further, this chlorine reacts with water as shown in the following formula (5) to generate hypochlorous acid (HClO) and hydrogen chloride (HCl).
Cl ₂ + H ₂ O → HClO + HCl (5)

Hypochlorous acid (active oxygen species in a broad sense) generated at the anode electrode has a strong oxidizing action and bleaching action. The aqueous solution in which hypochlorous acid is dissolved, that is, the electrolyzed water generated by the electrolysis module 67 exhibits various air cleaning effects such as sterilization, deodorization, and decomposition of organic compounds.
The electrolyzed water in the water storage tank 51 is supplied to the humidifying element 23 of the vaporizing humidifier 22 through the electrolyzed water supply pipe 66 and the electrolyzed water supply pipe 24 when the water pump 65 is operated at a normal rotational speed. According to this, hypochlorous acid in the electrolyzed water comes into contact with the humidifying element 23, and bacteria and fungi are prevented from breeding on the humidifying element 23 by the action of hypochlorous acid in the electrolyzed water. For this reason, the humidification element 23 can be kept in a clean state, and clean outside air humidified by the humidification element 23 can be supplied indoors.
Further, the electrolyzed water flowing down from the humidifying element 23 is received by the drain pan 25 and then discharged to the outside through the drain pipe 26.

The saline tank 52 stores saline adjusted in advance to a predetermined concentration (saturated concentration). The saline tank 52 includes a saline supply pump 70 that supplies saline into the reservoir tank 51. It is connected. As a result, even when dilute water having a chloride ion concentration such as well water is used, since salt water (chloride ion) is added to this water, it always contains hypochlorous acid by electrolysis. Electrolyzed water can be generated.
Note that the electrolyte added to the water in the water storage tank 51 in order to efficiently generate active oxygen species is not limited to sodium chloride, and other electrolytes can be used. For example, halogen-containing salts containing other halogens It is also possible to use various halogenates of chlorine and other halogens, and an electrolyte containing no halogen may be used.

The electrical box 53 is disposed on the front side of the water storage tank 51 and the saline tank 52. In the electrical box 53, there is a control board 53A for comprehensively controlling the operation of the electrolyzed water supply device 35, and a power circuit section 53B for supplying power to the electrolysis module 67, the water pump 65, etc. under the control of the control board 53A. Is housed. The control board 53A functions as a switching unit that performs opening / closing control of valves such as the water supply electromagnetic valves 44 and 55 and driving control of the water supply pump 65 to switch tap water or electrolytic water supplied to the humidifying element 23. Furthermore, the control board 53A performs control to adjust the rotational speed of the water pump 65 to a predetermined rotational speed when electrolyzing.
When the panel on the front side of the case body 36 is removed, the front side of the electrical box 53 is opened, and the control board 53A and the power supply circuit unit 53B in the electrical box 53 can be easily accessed.

Next, a flow when tap water or electrolyzed water is supplied to the humidifying element 23 will be described. FIG. 3 is a schematic view showing a piping configuration of the vaporizing humidifier 22.
(1) Humidification operation When the outside air processing machine 10 is operated, the control board 53A opens the water supply electromagnetic valve 44 provided in the tap water supply pipe 41 shown in FIG. The water supply electromagnetic valve 44 is controlled to open and close based on a detection result of a fumidistat (not shown) arranged on the air downstream side of the humidifying element 23. Thereby, since tap water is suitably supplied to the humidification element 23, the air humidified moderately is supplied indoors. The water flowing down the humidifying element 23 is received by the drain pan 25 and discharged outside through the drain pipe 26.
Here, the electrolyzed water supply pipe 24 is provided with a check valve 46 for preventing a backflow from the humidifying element 23 to the electrolyzed water supply device 35. Therefore, when the water supply electromagnetic valve 44 is opened, tap water is provided. The tap water flowing through the supply pipe 41 is prevented from flowing back to the electrolytic water supply device 35 through the electrolytic water supply pipe 24.

During the humidifying operation, the control board 53A generates electrolyzed water adjusted to a predetermined hypochlorous acid concentration (for example, 5 ppm or more) in the water storage tank 51. Specifically, the control board 53 </ b> A opens and closes the water supply electromagnetic valve 55 in accordance with a detection signal from the float switch 57 disposed in the water storage tank 51, and supplies tap water into the water storage tank 51.
Next, when supplying the tap water to the storage tank 51, the control board 53 </ b> A operates the saline supply pump 70 to supply a predetermined concentration and a predetermined amount of saline into the storage tank 51.

Subsequently, the control board 53A applies a predetermined voltage to the electrodes of the electrolysis module 67 to start electrolysis of the water in the water storage tank 51, and operates the water pump 65 at a predetermined rotation speed (for example, 2000 rpm). To do.
In the present embodiment, as described above, the electrolyzed water supply pipe 66 connected to the discharge port of the water pump 65 includes the branch pipe 66B branched before the humidifying element 23, and the branch pipe 66B is connected to the water pump 65 from the water pump 65. It is provided at a position of a height H2 lower than the height H1 up to the humidifying element 23. For this reason, the control board 53A adjusts the electrolyzed water discharged from the water pump 65 to a rotational speed at which the electrolyzed water can be pumped up to the height of the branch pipe 66B, and converts the electrolyzed water discharged from the water pump 65 into the electrolyzed water supply pipe 66 and The water is circulated and supplied to the water storage tank 51 through the branch pipe 66B.

According to this, compared with what performs electrolysis in the state which has arrange | positioned the electrolysis module 67 in the water storage tank 51, the amount of water per unit time which passes between the electrodes of the electrolysis module 67 can be increased, and the electrolysis module The electrolytic efficiency at 67 can be improved. Therefore, the hypochlorous acid concentration in the electrolytic water can be increased to a predetermined concentration in a short time. In particular, in this configuration, the electrolysis module 67 is arranged to face the discharge port of the branch pipe 66B, and thus the effect is even greater.
Moreover, in this embodiment, since the electrolyzed water can be generated over time while the outside air treatment device 10 is performing the humidifying operation, it is possible to reduce the size of the electrode of the electrolysis module 67.

When the hypochlorous acid in the electrolyzed water in the water storage tank 51 reaches a predetermined concentration, the control board 53A stops the electrolysis of the electrolysis module 67 and the operation of the water supply pump 65 and waits as it is.
(2) Cleaning Operation When the operation of the blower 30 of the outside air processing device 10 is stopped, the control board 53A cleans the humidifying element 23. Specifically, the control board 53A closes the supply of the tap water to the humidifying element 23 by closing the water supply electromagnetic valve 44 provided in the tap water supply pipe 41, and sets the water pump 65 to a predetermined rotational speed ( For example, it is operated at 4000 rpm) and the electrolyzed water in the water storage tank 51 is supplied to the humidifying element 23. The predetermined rotational speed in this case refers to a rotational speed that can discharge a quantity of water that supplies electrolytic water to substantially the entire area of the humidifying element 23.
In this embodiment, since electrolyzed water containing hypochlorous acid having a high concentration (for example, 5 ppm or more) is supplied to the humidifying element 23, it is possible to rapidly decompose germs, molds, etc. adhering to the humidifying element 23. Since the humidifying element 23 can be kept clean, clean air that has passed through the humidifying element 23 can be supplied indoors.

  Further, during the cleaning operation, electrolyzed water having a higher hypochlorous acid concentration is supplied to the humidifying element 23 than during the humidifying operation. During this cleaning operation, the operation of the blower 30 is stopped, so that the concentration is high. Chlorine generated when the hypochlorous acid is decomposed is rarely supplied to the room, and a situation in which a chlorine odor drifts in the room can be prevented.

The control board 53A stops the operation of the water supply pump 65 when a predetermined time has elapsed from the start of supply of the electrolyzed water to the humidifying element 23. The water pump 65 may be controlled based on the amount of electrolyzed water supplied to the humidifying element 23 as well as the operation time. Note that the cleaning operation does not have to be performed every time the blower 30 is stopped, and may be performed, for example, during the stop period of the blower 30 at night in conjunction with the time measuring means.
During the cleaning operation, when the float switch 57 is activated by reducing the amount of water in the water storage tank 51 due to the supply of electrolytic water, the water supply electromagnetic valve 55 is opened. Thereby, tap water is supplied in the water storage tank 51, and electrolyzed water is diluted with this tap water. That is, by supplying the diluted electrolyzed water containing hypochlorous acid with tap water while diluting it, the hypochlorous acid concentration finally becomes water at the tap water level. As a result, the salt added to the water storage tank 51 also flows out of the water storage tank 51 and the humidifying element 23, so that the salt is less likely to precipitate in the water storage tank 51 and the humidifying element 23.

  As described above, according to the present embodiment, the ventilation path 19 formed in the housing 11 includes the vaporizing humidifier 22 and the blower 30, and the air introduced into the housing 11 by the blower 30. In the outside air treatment machine 10 that is supplied to the room after being humidified by the vaporizing humidifier 22, the vaporizing humidifier 22 includes a humidifying element 23 disposed in the ventilation path 19 and a water supply that supplies tap water to the humidifying element 23. A water supply pipe 41, an electrolyzed water supply apparatus 35 provided in parallel to the tap water supply pipe 41, for supplying electrolyzed water containing hypochlorous acid generated by electrolyzing water to the humidifying element 23, and the tap water When the water supply electromagnetic valve 44 is closed because the water supply electromagnetic valve 44 and the water supply pump 65 are provided as switching means for switching the electrolyzed water supply pipe 24 extending from the water supply pipe 41 or the electrolyzed water supply device 35. A by operating the water pump 65, because the generated electrolytic water is supplied to the humidifying element 23 in the vaporizing humidifier 22, it is possible to keep this humidifying element 23 in a clean state.

  Further, according to the present embodiment, during operation of the blower 30, when the water supply electromagnetic valve 44 is opened and tap water is supplied to the humidifying element 23 through the tap water supply pipe 41 and the blower 30 is stopped. Since the water supply pump 65 is operated so as to close the water supply electromagnetic valve 44 and supply the electrolyzed water to the humidifying element 23 through the electrolyzed water supply pipe 24 of the electrolyzed water supply device 35, there is a situation in which a chlorine odor drifts indoors The humidifying element 23 can be surely kept clean while preventing.

  In addition, according to the present embodiment, the electrolyzed water supply device 35 supplies electrolyzed water to the humidifying element 23 for a predetermined time or a predetermined amount, so that it is possible to reliably decompose germs and molds attached to the humidifying element 23. The humidifying element 23 can be kept clean.

Further, according to the present embodiment, the electrolyzed water supply device 35 is provided in the water storage tank 51 for storing water and the water storage tank 51, and electrolyzes the water in the water storage tank 51 to generate electrolyzed water. The electrolysis module 67, the water supply pump 65 that sends the generated electrolyzed water to the humidifying element 23, and the water storage tank 51 that branches from the electrolyzed water supply pipe 66 of the water pump 65 at a position lower than the humidifying element 23. The electrolysis module 67 is operated during the operation of the blower 30 and the water in the water storage tank 51 is circulated through the water pump 65 and the branch pipe 66B. A control board 53A for controlling the rotation speed is provided. For this reason, the control board 53A, with a predetermined voltage applied to the electrodes of the electrolysis module 67, at a rotational speed (for example, 2000 rpm) that pumps up the water in the water storage tank 51 to the height H2 of the branch pipe 66B. By adjusting the rotation speed of the water pump 65, the water discharged from the water pump 65 can be circulated and supplied to the water storage tank 51 via the electrolyzed water supply pipe 66 and the branch pipe 66B.
Accordingly, the circulated water is sequentially supplied to the electrolysis module 67 disposed in the water storage tank 51 and electrolysis is performed in the electrolysis module 67, so that the electrolysis efficiency can be improved. Therefore, the hypochlorous acid concentration in the electrolyzed water can be increased to a desired concentration in a short time, and electrolyzed water having the concentration can be made up in the water storage tank 51.
On the other hand, the control board 53A adjusts the rotation speed of the water supply pump 65 to a rotation speed (for example, 4000 rpm) to the extent that the water in the water storage tank 51 is pumped up to the height H1 of the humidifying element 23. The high-concentration electrolyzed water can be supplied to the humidifying element 23. Thus, by changing the rotation speed of the water supply pump 65, for example, without providing a component such as a solenoid valve, the preparation of the electrolyzed water and the supply of the electrolyzed water to the humidifying element 23 can be performed with a simple configuration. And can be switched.
Furthermore, since the electrolyzed water is generated and prepared during the operation of the blower 30, that is, during the humidification operation, the electrolyzed water can be quickly supplied to the humidifying element 23 when the blower 30 is stopped. The humidifying element 23 can be cleaned quickly.

  As mentioned above, although the form for implementing this invention was described, this invention is not limited to above-mentioned embodiment, Various deformation | transformation and a change are possible based on the technical idea of this invention. For example, in the present embodiment, the outside air processing device 10 is described as an example of an air humidifier that supplies air indoors after the air introduced into the housing 11 is humidified by the vaporizing humidifier 22, but is not limited thereto. However, if the vaporizing humidifier 22 is provided, an air conditioner can be adopted as the air humidifier.

10 Outside air processing machine (air humidifier)
DESCRIPTION OF SYMBOLS 11 Case 19 Ventilation path 22 Vaporization type humidifier 23 Humidification element 25 Drain pan 30 Blower 35 Electrolyzed water supply apparatus (electrolyzed water supply means)
41 Tap water supply pipe (Tap water supply means)
44 Water supply solenoid valve (switching means)
51 Water storage tank (water tank)
53 Electrical box 53A Control board (control means)
65 Water pump (switching means)
66 Electrolyzed water supply pipe 66 (discharge pipe)
66B Branch pipe (branch pipe)
67 Electrolysis module (electrolysis unit)

Claims (3)

In the air humidifier provided with a vaporizing humidifier and a blower in a ventilation path formed in the housing, and supplying the air introduced into the housing by the blower with the vaporizing humidifier, into the room,
The vaporizing humidifier is provided in parallel with the humidifying element disposed in the ventilation path, tap water supplying means for supplying tap water to the humidifying element, and the tap water supplying means, and electrolyzing water. e Bei the electrolytic water supply unit for supplying electrolytic water to the humidifying element including the generated active oxygen species, and a switching means for switching these tap water supply means or the electrolytic water supply unit,
The electrolyzed water supply means includes a water tank for storing water, an electrolysis unit provided in the water tank for electrolyzing water in the water tank to generate electrolyzed water, and the generated electrolyzed water to the humidifying element. A water supply pump for feeding, and a branch pipe branched from the discharge pipe of the water pump at a position lower than the humidifying element and connected to the water tank, and operates the electrolysis unit during operation of the blower And an air humidifier characterized by comprising control means for controlling the water pump so that the water in the water tank circulates through the water pump and the branch pipe .   The switching means supplies tap water to the humidifying element through the tap water supply means during operation of the blower, and when the blower stops, the electrolysis water supply means passes through the electrolytic element to the humidification element. The air humidifier according to claim 1, wherein the air humidifier is selectively switched to supply water.   The air humidifier according to claim 2, wherein the electrolyzed water supply means supplies the electrolyzed water to the humidifying element for a predetermined time or a predetermined amount.

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