JP2009198067A - Humidifier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To stably purify water in a storage tank, in a humidifier having a humidifying means for imparting the water in the storage tank into air. <P>SOLUTION: A water film W is formed on its surface by condensing steam generated in the storage tank 41 by exchanging heat with an inner wall surface 32, and discharging is performed on the water film W by a water purifying discharge part 31, and a toxic substance included in this water film W is decomposed and removed by an active species, and the water film W is purified. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a humidifier.

  2. Description of the Related Art Conventionally, a humidifying device that humidifies indoor air and adjusts humidity is known (see, for example, Patent Document 1). This humidifier includes a storage tank that stores water and a disk-shaped humidification rotor that is disposed so as to straddle the air passage. The lower part of the humidification rotor is immersed in the water in the storage tank.

  During the operation of the humidifier, the humidification rotor rotates continuously. In the humidification rotor, the portion containing moisture in the storage tank is displaced to the air passage. When air passes through this part, moisture in the humidification rotor is imparted to the air. The air humidified as described above flows out of the air passage and is supplied to the room or the like.

  By the way, in the conventional humidifier, since water is stored in the storage tank, bacteria may grow in this water and the water may be contaminated. Further, for example, when a substance (a harmful substance or an odorous substance) such as ammonia is contained in the air flowing through the air passage, this substance may be dissolved in water to contaminate the water in the storage tank. Therefore, when such contaminated water is supplied indoors as humidified water, the cleanliness of the room is impaired. Moreover, when draining such contaminated water suitably, the water pollution load of a drainage system (for example, a sewer) will become large.

Therefore, as disclosed in Patent Document 2, in order to purify the water in the storage tank, it is conceivable to apply a technique for performing discharge toward the water surface in the storage tank to the humidifier. Specifically, a discharge electrode is disposed at a predetermined position higher than the water surface of the storage tank, and a potential difference is applied between the discharge electrode and the water in the storage tank, so that the discharge electrode discharges toward the water surface. Can occur. By generating active species such as radicals in the air or water with the occurrence of this discharge, sterilization in water can be performed with the active species, or harmful substances dissolved in water can be oxidatively decomposed and removed.
JP 2007-139251 A Japanese Patent No. 3322654

  However, the discharge means having the above-described configuration has a problem that the distance between the discharge electrode and the water surface (that is, the distance between the electrodes) cannot be kept constant, and a desired discharge cannot be performed. Specifically, the water level stored in the storage tank varies greatly with the consumption of the humidified water accompanying the humidifying operation and the replenishment of the humidified water into the storage tank. Therefore, in this discharge means, the distance between the discharge electrode and the water surface cannot be kept constant, the distance between the electrodes becomes too short and abnormal discharge such as spark occurs, or the distance between the electrodes becomes too long. There arises a problem that the amount of active species produced decreases.

  The present invention has been made in view of this point, and an object of the present invention is to stably purify the water in the storage tank in the humidifying device including the humidifying means for applying the water in the storage tank to the air. There is in doing so.

  In order to achieve the above-described object, the present invention discharges a water film formed by condensation of water.

  Specifically, the present invention is directed to a humidifier that humidifies air by applying water in the storage tank (41) to the air, and has taken the following solution.

That is, the first invention is a discharge treatment means (31) in which discharge is performed so as to generate active species for purifying water,
A water film forming part (32) provided in the storage tank (41) and having a water film (W) formed on the surface thereof by condensation of water;
The discharge treatment means (31) is configured to supply active species to the water film (W) formed on the surface of the water film forming section (32). .

According to a second invention, in the first invention,
Heating means (36) for heating water in the storage tank (41),
The water heated by the heating means (36) is condensed in the water film forming section (32) to form a water film (W) on the surface thereof.

According to a third invention, in the first or second invention,
A cooling means (53) for cooling at least the water film forming section (32),
By cooling the water film formation part (32) with the cooling means (53), water is condensed in the water film formation part (32), and a water film (W) is formed on the surface thereof. It is what.

According to a fourth invention, in any one of the first to third inventions,
The water film forming part (32) is constituted by an inner wall surface (32) of the storage tank (41).

According to a fifth invention, in any one of the first to third inventions,
The water film forming part (32) is composed of a structure (52) disposed in the storage tank (41).

A sixth invention is any one of the first to fifth inventions,
At least the surface of the water film forming portion (32) is made of a hydrophilic material.

In a seventh aspect based on any one of the first to sixth aspects,
An uneven portion is formed on the surface of the water film forming portion (32).

According to an eighth invention, in any one of the first to seventh inventions,
The discharge processing means (31) is configured to perform streamer discharge.

  According to the first invention, the water in the storage tank (41) is condensed in the water film forming section (32) to form a water film (W) on the surface, and the water film is formed by the discharge treatment means (31). By discharging the (W), harmful substances contained in the water film (W) are decomposed and removed by active species (radicals, ozone, fast electrons, excited molecules, etc.), and the water film (W) is purified. can do. Therefore, according to the present invention, even if the water level of the storage tank (41) fluctuates due to consumption or replenishment of the humidified water, the discharge treatment means (31) is stable without being affected by the fluctuation of the water level. Discharge can be performed, and the water film (W) can be reliably purified by the active species generated by the discharge treatment means (31).

  Furthermore, the water film (W) containing the active species flows down in the storage tank (41) by its own weight and mixes with the water, so that the water in the storage tank (41) can be purified efficiently. As a result, the cleanliness of the water applied to the air can be maintained by humidifying the purified water. Therefore, for example, it can be avoided that contaminated water is supplied indoors and the cleanliness of the room is impaired, and the reliability of the humidifier can be ensured.

  According to the second invention, since the water in the storage tank (41) is heated by the heating means (36), the water in the storage tank (41) is evaporated to generate water vapor. By condensing in the water film forming part (32), the water film (W) can be reliably formed on the surface of the water film forming part (32).

  According to the third aspect of the invention, the water in the storage tank (41) is condensed in the water film forming part (32) by cooling the water film forming part (32) with the cooling means (53). A water film (W) can be reliably formed on the surface of the film forming part (32).

  According to the fourth invention, since the inner wall surface (32) of the storage tank (41) is used as the water film forming part (32), it is necessary to provide a dedicated member for forming the water film (W). Therefore, stable discharge can be performed by the discharge processing means (31) while reducing the number of parts.

  According to the fifth aspect of the invention, the structure (52) disposed in the storage tank (41) constitutes the water film forming part (32), and the water film (W) formed toward the surface thereof is formed. By conducting the discharge toward the surface, the active species generated along with the discharge efficiently contact and react with the water film (W), thereby improving the water purification ability.

  According to the sixth invention, since at least the surface of the water film forming part (32) is made of a hydrophilic material, water (water film) is easily retained on the surface, and the water film is formed from the discharge treatment means (31). When discharging the part (32), a large amount of water can be reacted with the active species, and the water purification efficiency is improved.

  According to the seventh invention, since the uneven portion is formed on the surface of the water film forming portion (32), the water film (W) is easily held on the surface, and the water film forming portion (31) 32) When discharging, a large amount of water can react with the active species, improving the water purification efficiency.

  According to the eighth invention, since the discharge treatment means (31) performs the streamer discharge, the contact efficiency between the active species generated in the discharge and the water film (W) can be increased, and the water purification efficiency. Can be increased.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. It should be noted that the following description of the preferred embodiment is merely illustrative in nature and is not intended to limit the present invention, its application, or its use.

<Overall configuration>
FIG. 1 is a perspective view showing the overall configuration of a humidifying device according to an embodiment of the present invention, and FIG. 2 is a schematic longitudinal sectional view showing the inside of the humidifying device. As shown in FIGS. 1 and 2, the humidifier (10) performs a humidifying operation for humidifying air and purifies the air, and includes various air purifying means.

  The humidifier (10) has a casing (11). The casing (11) is formed in a rectangular shape that is flat in the front-rear direction. A front panel (11a) is formed on the front side (near the left side in FIG. 1) of the casing (11). A suction port (12) for introducing air into the casing (11) is formed in the front panel (11a) (see FIG. 2). The suction port (12) is formed on the left and right sides of the front panel (11a), for example. Moreover, the blower outlet (13) for blowing off the air in a casing (11) is formed in the casing (11) in the site | part near the upper back. An air passage (14) through which air flows from the suction port (12) to the blowout port (13) is formed in the casing (11).

  As shown in FIG. 2, in the air passage (14), a prefilter (21), an ionization unit (22), a pleat filter (23), a deodorizing member (in order from the upstream side to the downstream side of the air flow) 24), a humidification unit (40), and a centrifugal fan (18) are provided.

  An inflow end of the return passage (15) is opened above the centrifugal fan (18) and below the outlet (13). That is, a part of the air flowing out from the air passage (14) to the blowout port (13) is divided into the return passage (15). The return passage (15) forms a space extending forward and backward so as to be partitioned from the air passage (14). The outflow end of the return passage (15) is connected to the upstream side of the prefilter (21). In addition, an air purification discharge section (25) is formed in the vicinity of the outflow end of the return passage (15).

  As shown in FIG. 3, a guide passage (16) communicating with the return passage (15) is formed on the front side of the prefilter (21). The guide passage (16) is defined by a partition member formed on the back side of the front panel (11a), for example. The guide passage (16) guides the air that has flowed out of the return passage (15) to the intermediate portion in the width direction of the prefilter (21), and flows this air to the left and right sides to send it to the prefilter (21) side. (See the arrow in FIG. 3). As described above, the humidifier (10) of the present embodiment returns a part of the air on the outflow side of the air passage (14) to the inflow side of the air passage (14) through the air purification discharge section (25). Is configured to do.

<Configuration of air purification means>
As shown in FIG. 2, the humidifier (10) includes the above-described prefilter (21), ionization unit (22), pleated filter (23), and deodorizing member (24) as air purification means for purifying air. And an air purifying discharge section (25).

  The pre-filter (21) constitutes a dust collecting filter that physically captures relatively large dust contained in the air.

  The ionization part (22) constitutes a dust charging means for charging dust in the air. The ionization part (22) is provided with, for example, a linear electrode and a plate-like electrode facing the linear electrode. In the ionization section (22), a voltage is applied to both electrodes from the power source (17), so that corona discharge is performed between both electrodes. By this corona discharge, dust in the air is charged to a predetermined charge (positive or negative charge).

  The pleated filter (23) constitutes a corrugated electrostatic filter. That is, in the pleated filter (23), the dust charged by the ionization part (22) is electrically attracted and captured. Note that a deodorizing material such as a photocatalyst may be supported on the pleated filter (23).

  The deodorizing member (24) is configured such that a deodorizing agent for deodorizing air is carried on the surface of a substrate having a honeycomb structure. As the deodorizer, an adsorbent that adsorbs components to be treated (odorous substances and harmful substances) in the air, a catalyst for oxidizing and decomposing the components to be treated, and the like are used.

  In the air purifying discharge section (25), streamer discharge is performed to purify the air. The air purifying discharge section (25) is provided with a rod-shaped or linear electrode (26) and a plate-shaped electrode (27). Both electrodes (26, 27) are arranged in parallel to each other. When a voltage is applied from the power source (17) to both electrodes (26, 27), streamer discharge is generated from the tip of the rod-shaped electrode (26) toward the plate-shaped electrode (27). By this streamer discharge, active species (radicals, ozone, fast electrons, excited molecules, etc.) are generated in the air. When this active species reacts with the component to be treated in the air, the component to be treated is oxidized and decomposed and removed.

<Composition of humidification unit>
As shown in FIG. 4, the humidification unit (40) was pumped up by a storage tank (41) for storing water, a water wheel (42) for pumping water from the storage tank (41), and a water wheel (42). A humidification rotor (43) constituting a humidification means for imparting water to the air, and a drive motor (44) for rotationally driving the humidification rotor (43) are provided.

  The storage tank (41) constitutes a horizontally long tank whose upper side opens. The storage tank (41) is installed in a lower space in the casing (11), and is configured to be freely taken in and out through an outlet (11b) of the casing (11) (see FIG. 1). Thereby, the user etc. can replenish the water for humidification in the storage tank (41) suitably. A bearing member (41a) for holding the water wheel (42) rotatably is erected on the bottom surface of the storage tank (41).

  The water wheel (42) is formed in a substantially disk shape that is flat in the front-rear direction, and a rotating shaft (42a) projects from an axial center portion thereof. The rotating shaft (42a) is pivotally supported on the upper end of the bearing member (41a). The water wheel (42) is rotatably provided so that a part (predetermined part including a lower end part) is immersed in the humidified water of the storage tank (41), and constitutes a rotating member.

  The water wheel (42) has a plurality of rear recesses (42b) around the axis of the rear side surface (side surface facing the humidification rotor (43)). The rear concave portion (42b) constitutes a humidifying concave portion for pumping humidified water toward the humidifying rotor (43). The plurality of rear recesses (42b) have a substantially trapezoidal opening whose width is increased toward the radially outer side. The circumferential width of the opening of the rear recess (42b) is narrower than the circumferential width of the internal space of the rear recess (42b). Furthermore, the inner wall on the radially inner side of the rear concave portion (42b) is inclined so as to gradually approach the axial center side toward the opening end. The rear recesses (42b) are arranged at equal intervals in the circumferential direction at the radially outer end of the water turbine (42). In the water wheel (42) during the rotating operation, the position where the rear concave portion (42b) is immersed in the water of the storage tank (41) and the position where the water tank is pulled out from the water are alternately displaced.

  In addition, a gear (42c) is integrally formed on the rear side surface of the water wheel (42) at a portion near the axis. The gear (42c) is configured to mesh with a driven gear (43a) of a humidifying rotor (43) described later.

  The humidification rotor (43) includes an annular driven gear (43a) and a disk-shaped moisture absorbing member (43b) that is fitted and held in the driven gear (43a). The hygroscopic member (43b) is made of a non-woven fabric having water absorption. The humidification rotor (43) is rotatably held via a rotating shaft at a position higher than the water level when the storage tank (41) is full. Moreover, the humidification rotor (43) is arrange | positioned so that the predetermined site | part including the lower end may contact substantially with the said water turbine (42). That is, the humidification rotor (43) has a portion that coincides with the rear recess (42b) of the water turbine (42) in the axial direction. Thereby, the humidification rotor (43) is configured such that the humidifying water (43b) can absorb the humidified water pumped up by the rear concave portion (42b) of the water wheel (42).

  The drive motor (44) has a drive gear (44a). The drive gear (44a) meshes with the driven gear (43a) of the humidification rotor (43) via the pinion (45). That is, when the drive motor (44) rotationally drives the drive gear (44a), the pinion (45) and the driven gear (43a) rotate, and further the water wheel (42) that meshes with the driven gear (43a) rotates. .

<Configuration of water purification unit>
The humidifier (10) further includes a water purification unit (30) for purifying the humidified water. The water purification unit (30) is provided in the storage tank (41) with a water purification discharge section (31) as a discharge treatment means, and a water film (W) is formed on the surface by condensation of water. And a water film forming part (32). In the example shown in FIG. 2, the water film forming part (32) is constituted by the inner wall surface (32) of the storage tank (41).

  The water purifying discharge part (31) is disposed so as to face the inner wall surface (32) of the storage tank (41). Specifically, the water purifying discharge section (31) includes a rod-shaped electrode (31a) that is formed in an elongated linear shape and has a substantially circular longitudinal section, and the rod-shaped electrode (31a) is a storage tank (41). ) Facing the inner wall surface (32) while maintaining a parallel posture.

  A heater (36) (heating means) for heating water in the storage tank (41) is provided below the storage tank (41). When the water in the storage tank (41) is heated by the heater (36), the water in the storage tank (41) evaporates and water vapor is generated. This water vapor is condensed by exchanging heat with the inner wall surface (32) of the storage tank (41). Thereby, a water film (W) is formed on the inner wall surface (32).

  In the present embodiment, the water in the storage tank (41) is positively evaporated using the heater (36). The water film (W) may be formed by heat exchange with 32) and condensing.

  The inner wall surface (32) of the storage tank (41) may be made of a hydrophilic material or coated with a hydrophilic material. Moreover, you may make it form an uneven | corrugated | grooved part in an inner wall surface (32). In this way, the water film (W) is easily held on the surface of the inner wall surface (32), and a large amount of water is discharged when discharging from the water purification discharge part (31) to the water film (W). Water can be reacted with active species, and water purification efficiency is improved.

  Here, when a voltage is applied from the power source (17) to the rod-like electrode (31a), a water film (W) formed on the inner wall surface (32) of the storage tank (41) from the tip of the rod-like electrode (31a) A streamer discharge is generated toward The active species (radicals, ozone, fast electrons, excited molecules, etc.) generated by this streamer discharge are supplied to the water film (W) and react with the components to be treated in the water film (W). Components are removed by oxidative decomposition.

  In the water purification discharge section (31), the rod-like electrode (31a) is on the positive electrode side, and the inner wall surface (32) of the storage tank (41) is on the negative electrode (or ground electrode) side. In addition, it is preferable that a DC high voltage is supplied from the power source (17) to the water purification discharge section (31), and further, the discharge current of the water purification discharge section (31) is constant. It is preferable to perform so-called constant current control.

-Driving action-
In the humidifier (10) according to the present embodiment, air is purified by the various air purification means described above, and indoor humidification is simultaneously performed by the humidifier unit (40).

  Specifically, first, the humidification rotor (43) and the water wheel (42) are rotationally driven by the drive motor (44). Further, when the centrifugal fan (18) is operated, indoor air is introduced into the air passage (14) through the suction port (12). Further, from the power source (17), a high voltage is applied to the electrodes (26, 27) of the air purification discharge section (25), and a voltage is applied to the electrodes of the ionization section (22).

  As shown in FIG. 2, the air flowing into the air passage (14) passes through the prefilter (21), captures dust, and then passes through the ionization section (22). In the ionization part (22), corona discharge is performed between the electrodes, and dust in the air is charged. The air that has flowed out of the ionization section (22) passes through the pleated filter (23). In the pleated filter (23), the charged dust is electrically attracted and captured. The air that has flowed out of the pleated filter (23) passes through the deodorizing member (24). In the deodorizing member (24), the component to be treated contained in the air is adsorbed by the adsorbent or oxidatively decomposed by the catalyst.

  By the way, in the air passage (14), part of the air on the outlet side (positive pressure side) of the centrifugal fan (18) flows into the return passage (15). The air flowing through the return passage (15) is sent forward and flows through the air purification discharge section (25). In the air purifying discharge section (25), streamer discharge is performed between the electrodes (26, 27) facing each other. As a result, in the air purifying discharge section (25), the above-mentioned active species are generated along with the streamer discharge. The air containing the active species merges with the air flowing upstream of the prefilter (21) through the return passage (15). Therefore, in the air passage (14), active species flow from the inflow end to the outflow end, and a reaction time between the component to be treated and the active species in the air is secured, thereby improving the deodorization performance.

  During the humidification operation, the air that has passed through the deodorizing member (24) flows into the humidification rotor (43). Here, in the humidification unit (40), when the water wheel (42) rotates, the humidified water in the storage tank (41) is appropriately supplied to the moisture absorbing member (43b) of the humidification rotor (43). Specifically, in the water wheel (42), the rear recess (42b) is immersed in the humidified water stored in the storage tank (41). Thereby, in humidified water, humidified water penetrate | invades and is hold | maintained in a back side recessed part (42b). The rear concave portion (42b) in the state of holding the humidified water is pulled up from the humidified water and further displaced upward. When the rear recess (42b) gradually approaches the humidification rotor (43), the humidified water retained in the rear recess (42b) gradually flows out of the rear recess (42b) by its own weight. . When the rear concave portion (42b) is displaced to the uppermost position, substantially all of the humidified water in the rear concave portion (42b) flows out.

  The humidified water flowing out from the rear concave portion (42b) comes into contact with the humidifying rotor (43) adjacent to the rear concave portion (42b) and is absorbed by the moisture absorbing member (43b). With such an operation, in the humidification unit (40), humidified water is continuously supplied to the humidification rotor (43).

  In the humidification rotor (43), air circulates through the portion replenished with moisture. As a result, the humidified water contained in the moisture absorbing member (43b) is released into the air, whereby the air is humidified. The air purified and humidified as described above is supplied into the room through the air outlet (13).

  In the humidification operation, the supply of voltage from the power source (17) to the ionization unit (22) and the air purification discharge unit (25) is stopped to perform an operation that does not actively purify the air. Is also possible. In addition, while the humidification operation of the humidification unit (40) is substantially stopped, the discharge is performed by the ionization unit (22) and the air purification discharge unit (25), so that the air is not humidified. It is also possible to perform an air cleaning operation for purification.

<Purification of humidified water>
Further, the humidifier (10) can perform a water purification operation for purifying the humidified water stored in the storage tank (41). In the humidifier (10) of the present embodiment, a water purification operation is performed in conjunction with the humidification operation.

  During the water purification operation, the water in the storage tank (41) is heated by the heater (36) to generate water vapor. This water vapor is condensed by exchanging heat with the inner wall surface (32) of the storage tank (41). Thereby, a water film (W) is formed on the inner wall surface (32). Further, a voltage is supplied from the power source (17) to the water purification discharge section (31), and streamer discharge is performed from the rod-shaped electrode (31a) toward the water film (W). The active species thus generated removes harmful substances contained in the water film (W) by oxidative decomposition.

  The water film (W) purified as described above flows downward from the inner wall surface (32) of the storage tank (41) and mixes with the water in the storage tank (41). Since active species still remain in the water in the storage tank (41), harmful substances in the humidified water are removed in the storage tank (41) by the active species contained in the water film (W). And sterilization is performed.

  As described above, according to the humidifier (10) according to the present embodiment, water in the storage tank (41) is evaporated by the heater (36) to generate water vapor, and the water vapor is converted into the inner wall surface (32). The water film (W) is formed on the surface of the inner wall surface (32) by heat exchange with the water, and the water film (W) is discharged by the water purifying discharge part (31). The harmful substances contained in the water film (W) are decomposed and removed by the active species, and the water film (W) can be purified. Therefore, according to the present invention, even if the water level of the storage tank (41) fluctuates due to the consumption or replenishment of the humidified water, the water purifying discharge section (31) is not affected by the fluctuation of the water level. Stable discharge can be performed, and the water film (W) can be reliably purified by the active species generated in the water purification discharge section (31).

  Furthermore, the water film (W) containing the active species flows down into the storage tank (41) due to its own weight and mixes, so that the water in the storage tank (41) can be purified efficiently. As a result, the cleanliness of the water applied to the air can be maintained by humidifying the purified water. Therefore, for example, it can be avoided that contaminated water is supplied indoors and the cleanliness of the room is impaired, and the reliability of the humidifier can be ensured.

<Modification>
In the embodiment, the water purification unit (30) may be configured as shown in FIG. FIG. 5 is a side view showing a schematic configuration of the water purification unit (30). As shown in FIG. 5, the water purification unit (30) includes a water purification discharge section (31), a water film formation section (32), and a cooling heat transfer tube (53) (cooling means). Yes.

  The water film forming part (32) is composed of a structure (52) disposed in the storage tank (41). Specifically, it is composed of a plate-like body standing in the storage tank (41), and a water film (W) is formed on the surface thereof. The surface of the structure (52) may be made of a hydrophilic material or coated with a hydrophilic material. Moreover, you may form an uneven | corrugated | grooved part on the surface. In this way, the water film (W) is easily held on the surface of the structure (52), and a large amount of water is discharged from the water purification discharge part (31) to the water film (W). Water can be reacted with active species, and water purification efficiency is improved.

  The cooling heat transfer tube (53) has one end attached to the water film forming part (32) and the other end attached to the inner wall surface of the storage tank (41), and the water film forming part (32) is connected to the storage tank. (41) Supports in an upright state. This cooling heat transfer tube (53) is for heat exchange between the outside air temperature outside the storage tank (41) and the surface of the water film forming section (32), and the water vapor in the storage tank (41) is water. A water film (W) is easily formed by condensation on the surface of the film forming part (32).

  In this modification, the cooling heat transfer tube (53) is used as the cooling means (53). However, the present invention is not limited to this mode. For example, the outer wall surface of the storage tank (41) You may make it cool a water film formation part (32) by attaching an element etc. and cooling the inside of a storage tank (41).

  The water purifying discharge part (31) is arranged so that the rod-like electrode (31a) faces the water film forming part (32) while maintaining a parallel posture. Here, when a voltage is applied from the power source (17) to the rod-shaped electrode (31a), the tip of the rod-shaped electrode (31a) is directed toward the water film (W) formed on the surface of the water film forming portion (32). Streamer discharge occurs. The active species generated by the streamer discharge is supplied to the water film (W) and reacts with the component to be treated in the water film (W), so that the component to be treated is oxidatively decomposed and removed.

  The water film (W) purified as described above flows downward from the surface of the water film forming part (32) and mixes with the water in the storage tank (41). Since active species still remain in the water in the storage tank (41), harmful substances in the humidified water are removed in the storage tank (41) by the active species contained in the water film (W). And sterilization is performed. In addition, about driving | operation operation | movement, since it is substantially the same as the said embodiment, description is abbreviate | omitted.

  As described above, the present invention provides a highly practical effect that the water in the storage tank can be stably purified. Therefore, the present invention is extremely useful and has high industrial applicability.

It is a perspective view which shows the whole structure of the humidification apparatus which concerns on embodiment, and shows the state which pulled out the storage tank from the casing. It is a schematic longitudinal cross-sectional view showing the inside of a humidifier. It is a schematic longitudinal cross-sectional view showing the inside near the front side of a humidifier. It is a perspective view of a humidification unit. It is a side view which shows the schematic structure of a water purification unit.

Explanation of symbols

31 Water purification discharge section (discharge treatment means)
32 Inner wall surface (water film forming part)
36 Heater (heating means)
41 Storage tank
52 Structure (Water film formation part)
53 Heat transfer tubes for cooling (cooling means)
W water film

Claims (8)

A humidifying device that humidifies air by applying water in a storage tank (41) to the air,
Discharge treatment means (31) in which discharge is performed so as to generate active species for purifying water;
A water film forming part (32) provided in the storage tank (41) and having a water film (W) formed on the surface thereof by condensation of water;
The humidifying apparatus, wherein the discharge treatment means (31) is configured to supply active species to a water film (W) formed on a surface of the water film forming section (32). In claim 1,
Heating means (36) for heating water in the storage tank (41),
The humidifier characterized in that the water heated by the heating means (36) is condensed in the water film forming part (32) to form a water film (W) on the surface thereof. In claim 1 or 2,
A cooling means (53) for cooling at least the water film forming section (32),
By cooling the water film formation part (32) with the cooling means (53), water is condensed in the water film formation part (32), and a water film (W) is formed on the surface thereof. Humidifying device. In any one of Claims 1 thru | or 3,
The humidifying apparatus, wherein the water film forming part (32) is constituted by an inner wall surface (32) of the storage tank (41). In any one of Claims 1 thru | or 3,
The humidifying apparatus, wherein the water film forming part (32) is constituted by a structure (52) disposed in the storage tank (41). In any one of Claims 1 thru | or 5,
At least a surface of the water film forming part (32) is made of a hydrophilic material, and is a humidifier. In any one of Claims 1 thru | or 6,
A humidifier having a concavo-convex portion formed on the surface of the water film forming portion (32). In any one of Claims 1 thru | or 7,
The humidifying device, wherein the discharge processing means (31) is configured to perform streamer discharge.

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