阅读说明：本技术 调湿单元 (Humidity control unit ) 是由 木泽敏浩 于 2018-05-24 设计创作，主要内容包括：壳体(50)被构成为,从再生前空气进口(54)所吸取的空气依次经过第一脱离区域(AR2b)和第二脱离区域(AR2c)并从再生后空气出口(55)排出。吸附器(400)具有吸附剂,所述吸附剂能够吸附空气中的水分,并能够对于温度比吸附了水分时的温度更高的空气脱离水分,并被构成为,使吸附剂中的吸附了空气中的水分的部位相对移动至第一脱离区域(AR2b)及第二脱离区域(AR2c)。加热装置(500)具有第一加热部(510)及第二加热部(520),所述第一加热部(510)加热经过第一脱离区域(AR2b)之前的空气；所述第二加热部(520)加热经过第二脱离区域(AR2c)之前的空气。(The casing (50) is configured such that air sucked from the pre-regeneration air inlet (54) passes through the first and second disengagement areas (AR2b, AR2c) in this order and is discharged from the post-regeneration air outlet (55). The adsorber (400) has an adsorbent that can adsorb moisture in the air and can desorb moisture from air at a temperature higher than the temperature at which the moisture was adsorbed, and is configured so that the portion of the adsorbent that adsorbs moisture in the air is relatively moved to the first desorption region (AR2b) and the second desorption region (AR2 c). The heating device (500) has a first heating part (510) and a second heating part (520), the first heating part (510) heating the air before passing through the first detachment area (AR2 b); the second heating part (520) heats the air before passing through the second desorption area (AR2 c).)

1. A humidity control unit is provided with:

a housing (50) having an air inlet for sucking air, an air outlet for discharging air, a first escape region, and a second escape region, the air sucked from the air inlet passing through the first escape region and the second escape region in this order and being discharged from the air outlet;

an adsorber (400) which has an adsorbent that can adsorb moisture in air and can desorb moisture from air having a temperature higher than the temperature at which moisture is adsorbed, and which is configured so that the portion of the adsorbent that adsorbs moisture in air can be moved relatively to the first desorption region and the second desorption region; and

a heating device (500) having a first heating part (510) and a second heating part (520), the first heating part (510) heating air before passing through the first disengagement zone; the second heating part (520) heats air before passing through the second desorption region.

2. The conditioning unit of claim 1,

the adsorber includes an adsorption rotor (32), the adsorption rotor (32) having the adsorbent and being configured to be capable of relatively moving a portion of the adsorbent, which adsorbs moisture in air, to the first desorption region and the second desorption region,

the heating device comprises a heat exchanger (31), wherein the heat exchanger (31) is configured to exchange heat between the refrigerant provided by the heat source part and air,

the heat exchanger has a first heat exchanging portion (311) as the first heating portion, and a second heat exchanging portion (312) as the second heating portion, the first heat exchanging portion (311) exchanges heat between the air and the refrigerant before passing through the first disengagement area, and the second heat exchanging portion (312) exchanges heat between the air and the refrigerant after passing through the first heat exchanging portion and the first disengagement area and before passing through the second disengagement area.

3. The conditioning unit of claim 2,

in the heat exchanger, the first heat exchange portion and the second heat exchange portion are disposed so as to sandwich the adsorption rotor.

4. The conditioning unit of claim 2 or claim 3, wherein,

the heat exchanger is configured to make the air flow passing through the second desorption region after passing through the second heat exchange portion counter-current to the air flow passing through the adsorption rotor for adsorbing moisture.

5. The conditioning unit of claim 2,

in the heat exchanger, the refrigerant flows from the first heat exchange portion to the second heat exchange portion, and the first heat exchange portion is located at a position closer to a rear side in a rotation direction of the adsorption rotor than the second heat exchange portion.

6. The conditioning unit of claim 5,

in the heat exchanger, the refrigerant in the superheated region flows to at least a part of the first heat exchanging portion, and the refrigerant in the gas-liquid two-phase region flows to the second heat exchanging portion.

7. The conditioning unit of any of claims 2 to 6,

the adsorption runner comprises a high molecular adsorbent with the functions of adsorption and desorption,

in the heat exchanger, heat exchange is performed in the first heat exchange portion in such a manner that the temperature of the air after heat exchange is lower than 100 ℃.

8. The conditioning unit of any of claims 1 to 7,

the adsorber has one side adjacent the air outlet and another side adjacent the air inlet,

the casing is configured such that air taken in from the air inlet is passed from the other side portion of the adsorber to the one side portion, air folded back after passing through the one side portion is passed from the one side portion of the adsorber to the other side portion, air folded back after passing through the other side portion is passed from the other side portion of the adsorber to the one side portion, and air passed through the one side portion is discharged from the air outlet.

9. The conditioning unit of claim 8,

in the heating apparatus, the first heating unit and the second heating unit sandwich the adsorber, and are arranged in the order of the first heating unit, the first side portion, the second side portion, and the second heating unit.

10. The conditioning unit of claim 9,

the heating device is configured to cause the air flow that has passed through the adsorbent in the second separation region after passing through the second heating unit to be in a counter-flow to the air flow that has passed through the adsorbent to adsorb moisture.