KR20020032617A - Humidifier requiring no feed water - Google Patents

Abstract

The present invention provides a water-free water humidification apparatus capable of sufficiently cooling the humidification rotor and performing sufficient humidification even in winter when the temperature is low and low humidity.

In the water-free humidification device of the present invention, the cooling air passed through the outdoor heat exchanger 22 of the air conditioner flows into the cooling passage 21 passing through the cooling zone C, so that the humidification rotor 12 is the cooling zone. In (C) it is cooled to very low temperatures. Since the outdoor heat exchanger 22 of the air conditioner obtains the cooling air by taking away the heat of evaporation from the outside air, the cooling air can be obtained without increasing the cost and energy. Since the humidification rotor 12 cooled in the cooling zone C is cooled by cryogenic air in the cooling zone C, the humidification rotor 12 can sufficiently collect moisture from the external air even in winter when the external air is low temperature. have. The part of the humidification rotor 12 which collect | collected this moisture fully discharge | releases moisture to high temperature heating air in a humidification area | region.

Description

Unpaid water humidifier {HUMIDIFIER REQUIRING NO FEED WATER}

Conventionally, there are some such types of water-free water humidification apparatus as shown in FIG. This water-free water humidifier rotates a disk-shaped humidification rotor 2 made of an adsorbent such as silica gel or zeolite as indicated by arrow R with a motor, not shown, so that each part of the humidification rotor 2 is sequentially hygroscopic. It passes through (A), the humidification area | region H, and the heating area | region T. As shown to FIG. The moisture absorption passage 3 passes through the moisture absorption region A, the humidification passage 4 passes through the humidification region H, and the heat passage passage 5 passes through the heat absorbing region T.

The humidifying rotor 2 absorbs moisture from the air passing through the moisture absorption passage 3 in the moisture absorption region A and is heated by the heater 6 in the humidification region H. Humidification is performed by releasing moisture into the hot air of). The air passing through the heat collecting passage 5 recovers heat in the heat collecting area T, cools each part of the humidifying rotor 2 before going to the moisture absorbing area A, and humidifies in the moisture absorbing area A. The rotor 2 can adsorb | suck moisture enough, and the load of the heater 6 is reduced.

This water-free water humidifier allows the humidification rotor 2 to absorb moisture from the air of the moisture absorption passage 3 and discharges the moisture from the humidification rotor 2 to the air of the humidification passage 4, thus eliminating the need for a water supply device. Has the advantage.

By the way, in the conventional water-free water humidification apparatus described above, as shown in FIGS. 3 and 4, each part of the humidification rotor 2 enters the moisture absorption region A after the cooling in the heat-treating region T, and absorbs moisture. Since the humidification rotor 2 has a considerably large heat capacity, it may enter the moisture absorption region A without being sufficiently cooled, so that the relative humidity of the air in the vicinity of the surface of the humidification rotor 2 is lowered, so that the temperature is low and low humidity. There was a problem in that there was a case in which the amount of moisture absorption was insufficient and the humidification was not sufficient in the winter season when the most humidification was required.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an unpaid water humidifier that collects moisture in the air and humidifies, for example, air supplied to the room.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic diagram of the water-free water humidification apparatus of embodiment of this invention.

2 is a plan view of the humidification rotor in the embodiment;

3 is a schematic diagram of a conventional water-free humidification device,

Figure 4 is a plan view of the humidifying rotor of the conventional water-free humidification device.

Accordingly, an object of the present invention is to provide a water-free water humidification apparatus capable of sufficiently cooling the humidification rotor and allowing sufficient humidification even in winter when the temperature is low and low humidity.

In order to solve the above problems, the water-free water humidifier of the present invention

A humidification rotor, a humidification passage passing through the humidification rotor, a humidification passage passing through the humidification rotor, and heating means for heating the air in the humidification passage, and the humidification rotor absorbs air from the humidity passage. On the other hand, in the water-free water humidifier that humidifies the heated air of the humidification passage,

Before the part of the humidification rotor faces the moisture absorption passage, a cooling passage through which cooling air for cooling the portion passes is provided.

In the water-free water humidification device of the above configuration, the humidification rotor is sufficiently cooled by the cooling air passing through the cooling passage before facing the moisture absorption passage. Therefore, the relative humidity of the air in the vicinity of the surface of the humidification rotor is increased, so that moisture can be sufficiently adsorbed from the air passing through the moisture absorption passage, and the air in the humidification passage can be sufficiently humidified.

The water-free water humidification device of one embodiment is connected to an upstream side of a heating means in the humidification passage, and includes a heat passage through the humidification rotor, wherein the cooling passage is between the heat passage and the moisture absorption passage. Located in

According to the said embodiment, the humidification rotor with which heat | fever was collect | recovered and cooled by the air which flows through the said heat passage is cooled by the cooling air which flows through a cooling passage again. Since the humidifying rotor is cooled by the air flowing in the heat collecting passage and then cooled by the cooling air flowing in the cooling passage, the humidifying rotor can be cooled effectively, and before the humidifying rotor is cooled by the cooling air in the cooling passage. Since heat is recovered from the humidifying rotor to the air of the heat collecting passage, heat can be efficiently recovered. Therefore, the humidification rotor can sufficiently adsorb moisture from the air passing through the moisture absorption passage, and can sufficiently humidify the air of the humidification passage.

The water-free water humidifier of one embodiment has a passage for guiding the cooling air passing through the evaporator to the cooling passage.

According to the above embodiment, the air cooled by the evaporator passes through the passage and the cooling passage to reach the humidification rotor to cool the humidification rotor. Thus, since cooling air is obtained using the evaporator of an air conditioner, cooling air can be obtained and cooling a humidification rotor, without increasing cost and energy. Therefore, the humidification rotor can sufficiently adsorb moisture from the air passing through the moisture absorption passage without increasing the cost and energy, and can sufficiently humidify the air of the humidification passage.

In one embodiment, each part of the rotating humidification rotor sequentially passes through the moisture absorption zone, the humidification zone, and the cooling zone.

According to the said embodiment, since there exists a cooling area between the said humidification area | region and a moisture absorption area | region, each part of the humidification rotor heated in the said humidification area | region is fully cooled by cooling air in a cooling area | region before going to a moisture absorption area | region. Therefore, each part of the humidification rotor has a high relative humidity of air in the vicinity of the surface in the moisture absorption region, and can sufficiently adsorb moisture from the air, and can sufficiently humidify the air in the humidification region.

In one embodiment, there is a heating zone between the humidifying zone and the cooling zone.

According to the above embodiment, the humidifying rotor in which the heat is recovered from the humidifying rotor in the air in the heating zone and cooled is cooled again by the cooling air flowing through the cooling zone. Since the humidifying rotor is cooled by the air flowing in the heating zone and then cooled by the cooling air flowing in the cooling zone, the humidification rotor can be cooled effectively, and the humidification rotor is cooled before the respective parts of the humidifying rotor are cooled in the cooling zone. Since heat is recovered from the respective parts of the rotor to the air in the heat collecting area, heat can be effectively recovered. Therefore, the humidification rotor can sufficiently adsorb moisture from the air passing through the moisture absorption region, and can sufficiently humidify the air in the humidification region.

The water-free water humidifier of one embodiment has a passage for guiding the cooling air passing through the evaporator in the cooling passage via the cooling zone.

According to the above embodiment, the air cooled by the evaporator passes through the passage and the cooling passage to reach the cooling region of the humidification rotor, thereby cooling the humidification rotor. Thus, since cooling air is obtained using the evaporator of an air conditioner, cooling air can be obtained and cooling a humidification rotor without increasing cost and energy. Therefore, the humidification rotor can sufficiently adsorb moisture from the air in the moisture absorption region without increasing the cost and energy, and can sufficiently humidify the air in the humidification passage.

EMBODIMENT OF THE INVENTION Below, embodiment which showed this invention is demonstrated in detail.

As shown in FIG. 1, this water-free water humidification apparatus has a disk-shaped humidification rotor 12. As shown in FIG. The humidification rotor 12 is formed by molding an adsorbent such as silica gel, zeolite, alumina, or the like into a honeycomb shape or porous porous grain shape. The humidifying rotor 12 is rotated in the direction of an arrow R by a motor not shown around the central axis, and each part is sequentially absorbed by the moisture absorbing region A, the humidifying region H, and the heat collecting region T in accordance with the rotation. ), And passes through the cooling zone (C). In addition, the humidifying rotor 12 is disposed in a casing, not shown, and the inside of the casing is partitioned with a partition plate, not shown, and the humidifying passage 3 and the humidifying area H pass through the moisture absorption area A. FIG. Humidification passage (4). A heat passage 5 through the heat passage region T and a cooling passage 21 via the cooling zone C are formed. The cooling passage 21 is located between the heat dissipation passage 5 and the moisture absorption passage 3 at a portion passing through the humidification rotor 12.

The humidification passage 4 is connected to the downstream side of the heat passage 5 and has a heater 6 as a heating means for heating the air preheated in the heat zone T again.

A humidification fan 14 is installed downstream from the humidification rotor 12 of the humidification passage 4 to flow air as indicated by the arrows, to take out moisture from the humidification area H, and to remove the humidified air. It is supposed to supply indoors.

On the other hand, a moisture absorption fan 24 is installed downstream of the humidification rotor 12 of the moisture absorption passage 3 and further downstream of the humidification rotor 12 of the cooling passage 21, for example, outside of 0 ° C. The air is sucked and flowed as indicated by the arrow. When the external air is sucked into the moisture absorption passage 3 and passes through the moisture absorption region A of the humidification rotor 12, moisture is adsorbed to the humidification rotor 12.

In addition, a passage 23 for inducing cooling air of, for example, -3 to -5 ° C cooled by passing through an outdoor heat exchanger 22 as an evaporator upstream of the humidification rotor 12 of the cooling passage 21. Is connected. Therefore, the humidifying rotor 12 having recovered and cooled heat in the heating zone T is cooled to a very low temperature in the cooling zone C again. Therefore, even if the outside air is at a low temperature of, for example, 0 ° C, the humidification rotor 12 is cooled to a very low temperature of, for example, -3 to -5 ° C. The relative humidity of the air in the vicinity of the surface is high, so that moisture can be sufficiently adsorbed in the moisture absorption region A.

In the water-free water humidifying apparatus of the above-described configuration, the external air sucked into the heat collecting passage 5 by the humidifying fan 14 is first preheated by recovering heat from the humidifying rotor 12 in the heat collecting region T. Then, it is heated by the heater 6 of the humidification passage 4 again. In this manner, after the air is preheated in the heat taking region T, it is heated by the heater 6, so that high temperature heating air can be obtained with little energy. The heated air receives moisture evaporated from the humidification rotor 12 when passing through the humidification region H, becomes humidified air, and passes through the humidification fan 14 to be supplied to the room not shown.

On the other hand, since the humidification rotor 12 is rotated in the direction of the arrow R, the portion of the humidification rotor 12 in the heating zone T reaches the cooling zone C. The cooling passage 21 passing through the cooling zone C passes through the outdoor heat exchanger (evaporator) 22 of the air conditioner, and cooling air cooled to −3 to −5 ° C. is introduced from the passage 23. , The humidification rotor 12 is cooled to a very low temperature in the cooling zone (C). In this way, since the outdoor heat exchanger 22 of the air conditioner obtains the cooling air by using the evaporation heat from the outside air, the cooling air can be obtained without increasing the cost and energy. The cooling air cooled by the humidification rotor 12 in the cooling zone C is sucked by the moisture absorption fan 24 and discharged to the outside.

The portion of the humidification rotor 12 cooled in the cooling zone C then reaches the moisture absorption zone A. In this moisture absorption region A, external air having a low temperature of about 0 ° C. flows in from the moisture absorption passage 3, but the humidification rotor 12 is -3 to-from the outdoor heat exchanger 22 in the cooling region C. Since the air is cooled by cryogenic air at 5 ° C., even when the outside air is low temperature and low humidity in winter, the humidification rotor 12 increases the relative humidity of the outside air in the vicinity of the surface and can sufficiently collect moisture from the outside air. In particular, in the area A1 of the moisture absorption area A, which is close to the cooling area C, the humidification rotor 12 is in a cryogenic state of -3 to -5 ° C, so that even if the outside air is low temperature, it can sufficiently collect moisture. .

The part of the humidification rotor 12 which fully collected this moisture reaches the humidification area | region H, and discharge | releases water enough to high temperature heating air in this humidification area | region. The humidifying air thus obtained is supplied to the room through the humidifying fan 14.

In the above embodiment, the outside air is deprived of the evaporative heat by the outdoor heat exchanger 22 of the air conditioner, thereby obtaining the cryogenic cooling air and cooling the humidification rotor 12 to the cryogenic temperature, without increasing the cost and energy. The humidification rotor 12 can sufficiently adsorb moisture from the air passing through the moisture absorption passage A, and can sufficiently humidify the air of the humidification passage H.

In the above embodiment, the heat collecting area T and the heat passage 5 are provided, but these may be omitted.

In addition, the ratio of the area | region of the said moisture absorption area | region A, the humidification area | region H, the heat-receiving area | region T, and the cooling area | region C is not limited to the ratio shown in FIG. You may set it.

Moreover, although the heater was used as a heating means in the said embodiment, you may use a condenser.

As is apparent from the above, according to the present invention, since a cooling passage through which cooling air for cooling the portion passes is provided before the portion of the humidifying rotor faces the moisture absorption passage, it is sufficient before the humidifying rotor faces the moisture absorption passage. Therefore, even in winter, when the temperature is low and low humidity, the relative humidity of the air in the vicinity of the surface of the humidification rotor is increased, so that moisture can be sufficiently adsorbed to the humidification rotor from the outside air, and the humidification passage can be sufficiently humidified.

According to the water-free water humidification device of one embodiment, since the humidification rotor is cooled by the air flowing through the heat collecting passage and then cooled by the cooling air flowing through the cooling passage, the humidification rotor can be cooled effectively, and the cooling passage is further reduced. Since the heat is recovered from the humidifying rotor to the air of the heat collecting passage before the humidifying rotor is cooled by the cooling air, the heat can be effectively recovered.

According to the water-free water humidification device of one embodiment, the air cooled by the evaporator passes through the passage and the cooling passage to reach the humidification rotor and cools the humidification rotor. Thus, the cooling air is not increased without increasing the cost and energy. It is possible to cool the humidification rotor so that the moisture can be sufficiently adsorbed from the air passing through the moisture absorption passage to the humidification rotor without increasing the cost and energy, so that the air of the humidification passage can be sufficiently humidified.

According to the water-free water humidification apparatus of one embodiment, since there is a cooling zone between the humidification zone and the moisture absorption zone, each part of the humidification rotor heated in the humidification zone is sufficiently filled with cooling air in the cooling zone before going to the moisture absorption zone. It is possible to cool, and therefore, moisture can be sufficiently adsorbed from the air to the humidification rotor in the moisture absorption region, and the air can be sufficiently humidified in the humidification region.

According to the water-free water humidifying apparatus of one embodiment, the humidifying rotor with which heat is recovered and cooled in the heating zone is cooled again by cooling air flowing through the cooling zone, whereby the humidifying rotor can be cooled effectively, and the humidifying rotor Since the heat is recovered from the respective parts of the humidifying rotor in the heat collecting area before each part is cooled in the cooling area, heat can be recovered effectively. Therefore, the humidification rotor can sufficiently adsorb moisture from the air passing through the moisture absorption region, and can sufficiently humidify the air in the humidification region.

According to the water-free water humidification device of one embodiment, the air cooled by the evaporator is guided to the cooling zone by passing through the passage and the cooling passage to cool the humidification rotor, thereby obtaining cooling air without increasing the cost and energy. Can be cooled. Therefore, the humidification rotor can sufficiently adsorb moisture from the air in the moisture absorption region without increasing the cost and energy, and can sufficiently humidify the air in the humidification passage.

Claims (6)

The humidification rotor 12, the moisture absorption passage 3 via the humidification rotor 12, the humidification passage 4 via the humidification rotor 12, and the air of the humidification passage 4 are heated. In the water-free water humidification device having a heating means (6), the humidifying rotor (12) absorbs moisture from the air of the moisture absorption passage (3), and humidifies the heated air of the humidification passage (4). And a cooling passage (21) through which cooling air for cooling the portion of the humidifying rotor (12) passes before the portion of the humidifying rotor (12) faces the moisture absorption passage (3). The method of claim 1, It is connected to the upstream side of the heating means 6 in the humidification passage 4, and is provided with a heat passage 5 through the humidification rotor 12, and the cooling passage 21 is the heat passage An unpaid water humidifier, characterized in that located between the furnace (5) and the moisture absorption passage (3). The method according to claim 1 or 2, An unpaid water humidifier, characterized in that it has a passage (23) for guiding the cooling air passing through the evaporator (22) to the cooling passage (21). A water-free water humidifying apparatus, characterized in that each part of the rotating humidification rotor (12) sequentially passes through the moisture absorption zone (A), the humidification zone (H), the cooling zone (C). The method of claim 4, wherein The water-free water humidifying apparatus, characterized in that the heating area (T) between the humidifying area (H) and the cooling area (C). The method according to claim 4 or 5, The water-free water humidifier characterized in that it has a passage (23) for guiding the cooling air passing through the evaporator (22) in the cooling passage (3) via the cooling zone (C).