JP3123970B2 - Humidity adjustment device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device capable of performing dehumidification, humidification, or ventilation as required.

[0002]

2. Description of the Related Art Some general-purpose air conditioners mainly used for temperature control are capable of dehumidifying operation.

On the other hand, as a humidifier, a humidifier configured to increase the humidity by heating and evaporating water stored in a container is well known.

[0004]

However, a compact and full-scale humidity control apparatus capable of selectively performing a dehumidifying operation and a humidifying operation has not been provided so far. That is, a device having a single function such as dehumidification, humidification, ventilation or the like, or a device having a plurality of functions and a device having a single function are appropriately combined so that the dehumidification operation and the humidification operation can be selectively performed. Although some humidity control devices configured as described above have been proposed, there are problems that the device becomes large and maintenance becomes complicated. In addition, most of the operations involve the replenishment of water necessary for humidification and the treatment of water generated during dehumidification, and there is also a problem that the usability is poor, and there has been a problem to solve these problems.

[0005]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems of the prior art, the present invention provides a drying function part for adsorbing and removing moisture from passing air to make dry air, and a heat recovery function part for applying heat to the passing air. And a rotary humidity control element having a humidification function section through which the air passing through the heat recovery function section passes and gives moisture to the passed air to make the air humid, and the rotary air control section controls the outside air taken in from the outdoor side. A first ventilation path for guiding and passing through the drying function part of the wet element, and discharging the outdoor air to the outside by a first suction-type blower provided on the downstream side of the drying function part;
The indoor air taken in from the indoor side is guided and passed in the order of the heat recovery function part and the humidification function part of the rotary humidity control element, and is discharged into the room by a second suction type blower provided downstream of the humidification function part. A second air passage,
Heating means provided in the ventilation path for heating the air that has passed through the heat recovery function section to raise the temperature and pass through the humidification function section, and the outside air taken in by the first suction type blower is the rotary type. The room air which is sequentially discharged through the heat recovery function part and the humidification function part of the humidity control element and discharged outside the room and taken in by the second suction type blower passes through the drying function part of the rotary humidity control element. A first switching means is provided in the air passage so as to be able to be discharged into the room;
A humidity adjusting device having a configuration of

[0006] In the humidity control apparatus of the first configuration,
Room air taken in by the first suction type blower is discharged outside through the drying function part of the rotary humidity control element,
A passage switching means is provided in the ventilation path so that the outside air taken in by the second suction type blower can sequentially pass through the heat recovery function part and the humidification function part of the rotary humidity control element and be discharged into the room. And a humidity adjusting device having the above configuration.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below in detail with reference to the drawings shown in FIGS.
1 shows an embodiment of a ventilation system at the time of a humidifying operation of a humidity control device according to the present invention, and reference numeral 1 denotes a rotary humidity control element incorporated in a case main body 100 installed on the indoor side of a side wall W, for example. Therefore, for example, a metal silicate gel combining silica, silica, and multiple metals such as cobalt, iron, and manganese is polymerized in a ceramic honeycomb laminate, and the micropore shape is fine-tuned to match water molecules. And, by increasing the number of hydroxyl groups in the micropores to increase the hydrophilicity,
At room temperature, water is adsorbed well, and when the temperature rises to 130 to 140 ° C., the adsorbed water is released, and in this case, it has a cylindrical shape, and the diameter of the cylinder is, for example, At 20 cm, it is controlled so as to make, for example, 1/2 rotation per minute.

[0008] The rotary humidity control element 1 is provided with a drying function part 2 which has a function of passing low-temperature air taken in from outside the apparatus and adsorbing and removing moisture contained in the air.
And a humidifying function section 3 for passing the air whose temperature has risen due to the heat treatment, giving moisture to the air, moistening and recovering the function of adsorbing moisture, and a low-temperature air taken from outside the machine. It is divided into a heat recovery function part 4 which has a function of increasing the temperature of the passing air by lowering the temperature of the rotary humidity control element 1 while passing through the temperature-raised part.

The drying function part 2, the humidification function part 3, and the heat recovery function part 4 are sectioned, for example, in an area ratio of 3: 1: 1, and the drying function part 2 and the humidification function part 3 (the heat recovery function part 4). ) Is, for example, 80 (m ³ / h): 30.
(M ³ / h), and X indicates the rotation direction of the rotary humidity control element 1.

In the case body 100, an outdoor R1 is provided.
A first air passage 5 is formed such that the outside air A on the side passes through the drying function part 2 of the rotary humidity control element 1, and a downstream side 5B of the first air passage 5 with respect to the drying function part 2 includes: A first suction blower 10 is provided.

The first suction type blower 10 takes in the outside air A on the outdoor R1 side from the suction port W1 opened on the side wall W of the upstream side 5A of the first ventilation path 5 by the suction action, and performs a drying function. While passing through the portion 2, moisture is adsorbed to dry the outside air A, and the dried dry air B is dried by the first air.
Exhaust port W2 opened on the side wall W of the downstream side 5B of the ventilation path 5 of FIG.
From the outside to the outdoor R1 side.

In the case body 100, a room R2 is provided.
Side indoor air C is the heat recovery function part 4 of the rotary humidity control element 1.
Is formed, and a second air passage 6 passing through the second air passage 6 is formed.
Has a path that is U-turned after passing through the heat recovery function part 4, passes through the humidification function part 3, and reaches the room R2 side, and on the downstream side 6B with respect to the humidification function part 3, A second suction blower 20 is provided.

The second suction type blower 20 takes in the room air C by its suction action and performs heat recovery processing from the rotary humidity control element 1 when passing through the heat recovery function part 4. On the other hand, the heat recovery air D after the heat recovery processing that has passed through the heat recovery function part 4 is heated by the electric heater 7 as a heating means, and the heated high-temperature air E is heated.
Is taken in so as to pass through the humidifying function part 3 to wet the room air C by separating and releasing the moisture adsorbed by the rotary humidity control element 1 and to recover the moisture adsorbability of the rotary humidity control element 1. The humidified air F thus humidified is discharged to the room R2, and the room R2 is humidified.

FIG. 2 shows an embodiment of a blower system at the time of a dehumidifying operation.
At the same time, the air passage is switched so that the room air C taken in from the room R2 side passes through the drying function part 2 and the dehumidification and drying can be achieved, and the dried air B dried by passing through the drying function part 2 is The ventilation path is switched so as to discharge to the indoor R2 side, and the outdoor air is switched by the first suction blower 10 to the outdoor R2.
The air passage is switched so that the outside air A taken in from the first side passes through the heat recovery function part 4, and the high-temperature air E passed through the heat recovery function part 4 and heated by the electric heater 7 passes through the humidification function part 3. The ventilation path is switched so that moisture is removed from the rotary humidity control element 1 to recover the moisture adsorbing property of the part and the wet air F is discharged to the outdoor R1 side.

FIG. 3 shows an embodiment of a ventilation system during a ventilation operation performed in a state where the heating action by the electric heater 7 is stopped.
At the same time, the air passage is switched so that the room air C taken in from the room R2 passes through the drying function part 2, and the moisture passing through the drying function part 2 is not deprived of the adsorbed moisture by the humidification function part 3, Therefore, since the moisture absorption property of the drying function part 2 has not been restored, the ventilation path is switched so as to discharge the apparent dry air Bm having almost no change in humidity to the outdoor R1 side, while the second suction is performed. The ventilation path was switched so that the outside air A taken in from the outdoor R1 side by the air blower 20 passed through the heat recovery function part 4, and passed through the humidification function part 3 following the heat recovery function part 4, but the temperature increased. Since there is no air passage, the ventilation path is switched so that the apparent humid air Fm having almost no change in humidity is discharged to the room R2 side.

Since the outside air A and the room air C are ventilated with heat exchange, the heat efficiency is good when heating or cooling is performed in the room R2. For example, during the heating operation in which the room air C is higher than the outside air A, the temperature of the rotary humidity control element 1 passes through the drying function part 2 due to the passage of the room air C taken in by the first suction blower 10. The outside air A having a low temperature, which is taken in by the second suction type blower 20, is passed through the heat recovery function part 4 and the humidification function part 3 in this order to the rotary humidity control element 1 whose temperature has risen, and the temperature rises. Since the exhaust gas is discharged to the R2 side, ventilation with reduced temperature loss is possible, and energy saving during cooling and heating operation can be achieved.

[0017]

As described above, according to the humidity control apparatus of the present invention, the functions of dehumidification, humidification, and ventilation are performed by using one rotary humidity control element, so that the apparatus has three types of functions. However, it can be realized with a simple configuration and can be downsized. Also, drain water is not generated even when dehumidification is performed, and there is no need to prepare water even when humidifying, so that the usability is good.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing an embodiment of a ventilation system during a humidification operation in a humidity adjustment device according to the present invention.

FIG. 2 is an explanatory diagram showing an embodiment of a blower system during a dehumidifying operation.

FIG. 3 is an explanatory diagram showing an embodiment of a ventilation system during a ventilation operation.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Rotary humidity control element 2 ... Drying function part 3 ... Humidification function part 4 ... Heat recovery function part 5 ... 1st ventilation path 5A ... Upstream Side, 5B downstream, 6 second air passage, 6A upstream, 6B downstream, 7 heating means (electric heater), 10 first 20 ... second suction type blower, 100 ... case body, A ... outside air, B ... dry air, C ... room air, D ... heat recovery air , E: hot air, F: humid air, R1: outdoor, R2: indoor, W: side wall, W1: intake port, W2: exhaust port, X ...・ Rotation direction of rotary humidity control element.

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Shinji Kaneko 2-5-5-Keihanhondori, Moriguchi-shi, Osaka Sanyo Electric Co., Ltd. (56) References JP-A-5-200231 (JP, A) Hei 8-210664 (JP, A) JP-A-60-152842 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) F24F 3/147 F24F 6/08

Claims (2)

(57) [Claims] 1. A drying function part that absorbs and removes moisture from passing air to make dry air, a heat recovery function part that applies heat to the passing air, and air that passes through the heat recovery function part passes through the passing air. A rotary humidifying element having a humidifying function part for giving moisture to the humidified air to guide and pass outside air taken in from the outdoor to the drying function part of the rotary humidity controlling element, A first ventilation path, which is exhausted outside by a first suction type blower provided on the downstream side, and indoor air taken in from the indoor side is guided in the order of the heat recovery function part and the humidification function part of the rotary humidity control element. A second air passage which is passed through and discharged into the room by a second suction type blower provided on the downstream side of the humidification function portion, and air which is provided in the second air passage and has passed through the heat recovery function portion; To increase the temperature, Heating means for passing the moisture function part, and the outside air taken in by the first suction type blower is sequentially discharged through the heat recovery function part and the humidification function part of the rotary humidity control element, and is discharged outside the room, Humidity control, characterized in that a passage switching means is provided in the ventilation path so that room air taken in by the second suction type blower can pass through the drying function portion of the rotary humidity control element and be discharged indoors. apparatus. 2. The indoor air taken in by a first suction type blower passes through a drying function part of a rotary humidity control element and is discharged outside the room, and the outside air taken in by a second suction type blower is a rotary type. The humidity control device according to claim 1, wherein a passage switching means is provided in the ventilation path so that the air passes through the heat recovery function part and the humidification function part of the humidity control element and is discharged into the room.