JP2003247732A - Desiccant air conditioner - Google Patents

Abstract

(57) [Summary] [Problem] To provide a desiccant air conditioner capable of avoiding adverse effects due to heat generated by a drive motor of an air supply fan and improving air conditioning efficiency. A desiccant air conditioner (20) includes an air supply path (4).
And the exhaust path 6, a dehumidifier 8, a sensible heat exchanger 10, and a regeneration heater 16. The dehumidifier 8 dehumidifies outside air taken into the air supply path 4 from outside. The sensible heat exchanger 10 performs heat exchange between the dehumidified outside air and the room air taken in from the room, and applies heat recovered from the room air to the outside air. Thereafter, the outside air is supplied to the indoor space, and the room air is heated by the regeneration heater 16 to heat and regenerate the dehumidifier 8, and then discharged outside. The air supply path 4 is provided with an air supply fan 12 and the exhaust path 6
Is provided with an exhaust fan 14. Air supply fan 12
The drive motor 22 is installed outside the air supply path 4 so that heat generated at the time of driving does not adversely affect the outside air flowing through the air supply path 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dehumidifier for dehumidifying the outside air taken in from the outside and supplied to the indoor space, and the heat generated between the dehumidified outside air and the indoor air taken in from the indoor space and discharged to the outside. The present invention relates to a desiccant air conditioner provided with a sensible heat exchanger for exchanging heat, and particularly to a technique for improving the air conditioning efficiency of this device.

[0002]

2. Description of the Related Art In recent years, problems such as global warming of the atmosphere and destruction of the ozone layer due to CFCs have been highlighted. Under such circumstances, efficient use of energy is required. Therefore, as a next-generation air conditioning system, desiccant air conditioners are currently attracting attention. This desiccant air conditioner is a device that dehumidifies the outside air supplied to the indoor space using a dehumidifying agent (desiccant) such as silica gel or zeolite to perform air conditioning, and is mainly used as a dehumidifier in combination with a cooling device. It is often done. Since it is possible to use low-level exhaust heat and city gas as a heat source for regenerating a dehumidifying agent, expectations are rising that it will be useful for energy saving.

FIG. 4 schematically shows the structure of a conventionally known desiccant air conditioner. The desiccant air conditioner 2 includes an air supply path 4 for taking in outside air from the outside and sending it to the indoor space, an exhaust path 6 for taking in indoor air from the indoor space and discharging it to the outside, and the air supply path 4 and the exhaust path. The dehumidifier 8 and the sensible heat exchanger 10 are provided so as to extend over both paths of 6. In the air supply path 4, the air supply fan 1 is provided near the air supply port 4b side of the air supply path 4.
2 are installed. The air supply fan 12 takes in outside air from the outside through the intake port 4a of the air supply path 4,
The air is supplied through the air supply path 4 to the indoor space. An exhaust fan 14 is installed in the exhaust path 6 near the exhaust port 6b side of the exhaust path 6. The indoor air is taken in through the intake port 6a of the exhaust path 6 by the exhaust fan 14, flows through the exhaust path 6, and is discharged to the outside.

The dehumidifier 8 is provided with a dehumidifying agent (desiccant) and contacts the outside air flowing through the air supply path 4 to dehumidify the outside air. On the other hand, the sensible heat exchanger 10 makes contact with the dehumidified outside air and also makes contact with the room air flowing through the exhaust path 6 to exchange heat between the outside air and the room air.
By this heat exchange, heat is recovered from the indoor air flowing through the exhaust path 6, and the recovered heat is given to the outside air flowing through the air supply path 4. The outside air to which heat is applied is the air supply port 4
It is supplied to the indoor space through b. On the other hand, the indoor air that has undergone heat exchange with the outside air is heated by the regeneration heater 16 arranged between the sensible heat exchanger 10 and the dehumidifier 8, and then contacts the dehumidifier 8 to cause the dehumidifier 8 to move. Heat and regenerate the dehumidifier. As a result, the dehumidifier 8 restores its dehumidifying ability. After that, the room air used to regenerate the dehumidifier 8 is
It is quickly discharged to the outside through the exhaust port 6b.

[0005]

In such a desiccant air conditioner, the drive motor of the air supply fan 12 is installed together with the air supply fan 12 on the air supply path 4 adjacent thereto. The heat generated from the drive motor during driving may heat the outside air flowing through the air supply path 4. That is, the outside air flowing through the air supply path 4 is dehumidified by the dehumidifier 8 and then heat-exchanged with the indoor air by the sensible heat exchanger 10 to be cooled and then supplied to the indoor space. In some cases, the air is heated by the heat generated by the drive motor of the air supply fan and then supplied directly to the indoor space. In the operation of dehumidifying the outside air, generally, the lower the enthalpy of the outside air supplied to the indoor space is, the better the temperature of the outside air is. The heating of the outside air due to the heat generation of the drive motor may lead to a reduction in the air conditioning efficiency of the device itself.

The present invention has been made in view of the above circumstances, and an object thereof is to eliminate the adverse effect of heat generation of the drive motor of the air supply fan and improve the air conditioning efficiency. To provide a desiccant air conditioner.

[0007]

In order to achieve such an object, a desiccant air conditioner according to the present invention has the following features:
An air supply path through which the outside air taken in from the outside and supplied to the indoor space flows, an exhaust path through which the indoor air discharged from the indoor space to the outside flows, and an air supply path installed on the air supply path. An air supply fan that sends outside air toward the indoor space, an exhaust fan that is installed on the exhaust path and discharges the indoor air to the outdoors, and installed across both the air supply path and the exhaust path A dehumidifier for contacting and dehumidifying the outside air flowing through the air supply path, and installed over both the air supply path and the exhaust path, and flowing through the dehumidified outside air and the exhaust path The sensible heat exchanger for exchanging heat with the indoor air, and the dehumidifier disposed between the sensible heat exchanger and the dehumidifier on the exhaust path to heat the indoor air flowing through the exhaust path. With a heater for regeneration that regenerates the vessel In the desiccant air-conditioning system was example,
The drive motor of the air supply fan is installed outside the air supply path (claim 1).

In this desiccant air conditioner, the drive motor for the air supply fan is arranged outside the air supply path, so that the heat generated by the drive motor heats the outside air flowing through the air supply path. This can be avoided, and thereby the enthalpy of the outside air sent to the indoor space can be prevented from increasing. Therefore, it is possible to improve the air conditioning efficiency by supplying high quality conditioned air to the indoor space.

Further, in this desiccant air conditioner, the drive motor is installed on the exhaust path (claim 2). By arranging the drive motor of the air supply fan on the exhaust path in this way,
The heat generated from the drive motor can be released outdoors through the indoor air flowing through the exhaust path. Thereby, the heat generated from the drive motor can be smoothly discharged, and the adverse effect caused by the heat can be eliminated. Therefore, the air conditioning efficiency can be further improved.

Further, in this desiccant air conditioner, the drive motor and the drive motor of the exhaust fan are the same (claim 3). Since the drive motor for the air supply fan and the drive motor for the exhaust fan are the same as described above, it is not necessary to separately provide the drive motors for the air supply fan and the exhaust fan. Therefore, it is possible to reduce the number of drive motors by one, simplify the configuration by the reduced amount, and reduce the cost.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a desiccant air conditioner according to the present invention will be described below with reference to the accompanying drawings. 1 to 3 each show an embodiment of a desiccant air conditioner according to the present invention. Here,
The same components as those in the conventional example are designated by the same reference numerals.

<First Embodiment> As shown in FIG. 1, this desiccant air conditioner 20 has an air supply path 4 for taking in outside air from the outside and sending it to the indoor space, and a room air from the indoor space as shown in FIG. Exhaust path 6 that takes in air and discharges it outdoors
It has and. An air supply fan 12 is installed near the air supply port 4b of the air supply path 4 to take in outside air from the outside and supply it to the indoor space. Further, an exhaust fan 14 for taking in indoor air from the indoor space and exhausting it to the outside is installed near the exhaust port 6b of the exhaust path 6.
A dehumidifier 8 and a sensible heat exchanger 10 are arranged between the air supply path 4 and the exhaust path 6 so as to extend therebetween.

The dehumidifier 8 contacts the outside air taken into the air supply path 4 to dehumidify the outside air. Also, the sensible heat exchanger 1
0 makes contact with the dehumidified outside air and also makes contact with the room air taken into the exhaust path 6 to perform heat exchange between the outside air and the room air. As a result, the cold heat of the discharged indoor air is recovered and given to the outside air.

The room air that has exchanged heat with the outside air is heated by the regeneration heater 16 disposed between the sensible heat exchanger 10 and the dehumidifier 8 on the exhaust path 6, and then contacts the dehumidifier 8. Then, the dehumidifier 8 is heated and regenerated. This allows the dehumidifier 8
Restore the dehumidifying ability of. After that, the indoor air used for regenerating the dehumidifier 8 is discharged outdoors.

In this embodiment, the drive motor 22 for driving the air supply fan 12 is arranged outside the air supply path 4. That is, only the air supply fan 12, that is, only the blade portion for forcibly feeding the outside air is installed on the air supply path 4, and the drive motor 22 that rotationally drives the blade portion moves along the air supply path 4. It is placed outside of it. The air supply fan 12 and the drive motor 22 are connected to each other by an appropriate power transmission mechanism 23, and the drive output of the drive motor 22 is transmitted to the air supply fan 12 as in the conventional case.

In this way, the drive motor 2 of the air supply fan 12
Since 2 is installed outside the air supply path 4, it is possible to prevent the heat generated from the drive motor 22 from inadvertently heating the outside air flowing through the air supply path 4, and to provide the indoor space. It is possible to prevent the enthalpy of the supplied outside air from increasing. As a result, good conditioned air with a low enthalpy can be sent into the indoor space, and therefore the air conditioning efficiency of the device can be improved.

Second Embodiment FIG. 2 shows a desiccant air conditioner according to a second embodiment of the present invention.
The desiccant air conditioner 30 has the drive motor 22 of the air supply fan 12 installed on the exhaust path 6. By disposing the drive motor 22 of the air supply fan 12 on the exhaust path 6 as described above, heat generated from the drive motor 22 can be discharged to the outside through the indoor air flowing through the exhaust path 6. it can. Thereby, the drive motor 22
It is possible to prevent the external air flowing through the air supply path 4 from being heated by the heat generated from the above, and it is possible to eliminate various adverse effects caused by the heat generated. Particularly, as in the present embodiment, the drive motor 22 of the air supply fan 12 is installed downstream of the dehumidifier 8 in the exhaust path 6, that is, in the vicinity of the exhaust port 6b. The heat can be exhausted without causing heat, and the heat from the drive motor 22 can be smoothly exhausted. The air supply fan 12 and the drive motor 22 are connected to each other by an appropriate power transmission mechanism 32.

<< Third Embodiment >> FIG. 3 shows a desiccant air conditioner according to a third embodiment of the present invention.
In the desiccant air conditioner 40, the air supply fan 1
The drive motor of No. 2 and the drive motor of the exhaust fan 14 are the same. That is, the air supply fan 12 and the exhaust fan 14 are driven by the single drive motor 42. Like the second embodiment, the drive motor 42 is disposed on the exhaust path 6 downstream of the dehumidifier 8 in the vicinity of the exhaust port 6b and adjacent to the exhaust fan 14. The drive motor 42 is coupled to the air supply fan 12 and the exhaust fan 14 via appropriate power transmission mechanisms 43 and 44, respectively, and drives both the air supply fan 12 and the exhaust fan 14 as in the conventional case. It is like this.

In this way, the air supply fan 12 and the exhaust fan 1
4 are configured to be driven by the same drive motor 42, so that the air supply fan 12 and the exhaust fan 1
It is not necessary to provide a separate drive motor for each of the four motors. Therefore, the configuration can be simplified and the cost can be reduced by the reduction of one drive motor.

Moreover, since the drive motor 42 is arranged on the exhaust path 6 downstream of the dehumidifier 8 in the same manner as in the second embodiment, that is, near the exhaust port 6b, the drive motor 42 It is possible to discharge the heat of the above to the outside through the indoor air flowing through the exhaust path 6. As a result, heat generated from the drive motor 42 causes the air supply path 4
It is possible to prevent the outside air flowing through the heater from being heated, and it is possible to eliminate the adverse effect caused by the heat generation.

<< Other Embodiments >> The second and third embodiments will be described.
In the embodiment of the present invention, the drive motors 22 and 42 use the exhaust path 6
However, the present invention is not limited to this in the invention according to claim 2 or 3 of the present invention, and the drive motors 22 and 42 are located anywhere on the exhaust path 6. It doesn't matter.

[0022]

According to the desiccant air conditioner of the present invention, the drive motor of the air supply fan is arranged outside the air supply path, so that the outside air flowing on the air supply path is heated by the heat generated by the drive motor. It is possible to prevent the enthalpy of the outside air sent to the indoor space from increasing, and thus to send the high-quality conditioned air to the indoor space to improve the air conditioning efficiency. It is possible to improve (claim 1).

Further, by disposing the drive motor of the air supply fan on the exhaust path, heat generated from the drive motor can be released to the outside through the indoor air flowing through the exhaust path. With this, the heat generated from the drive motor can be smoothly discharged, and the adverse effect caused by the heat can be eliminated, so that the air conditioning efficiency can be further improved (claim 2).

Furthermore, since the drive motor for the air supply fan and the drive motor for the exhaust fan are the same, it is not necessary to separately provide the drive motors for the air supply fan and the exhaust fan. Therefore, it is possible to reduce the number of drive motors by one, simplify the configuration by the reduced amount, and reduce the cost (claim 3).

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram schematically showing a configuration of a first embodiment of a desiccant air conditioner according to the present invention.

FIG. 2 is a schematic configuration diagram schematically showing a configuration of a second embodiment of a desiccant air conditioner according to the present invention.

FIG. 3 is a schematic configuration diagram schematically showing a configuration of a desiccant air conditioner according to a third embodiment of the present invention.

FIG. 4 is a schematic configuration diagram schematically showing a configuration of a conventional desiccant air conditioner.

[Explanation of symbols]

4 Air supply route 6 exhaust route 8 dehumidifier 10 Sensible heat exchanger 12 Air supply fan 14 Exhaust fan 16 Regeneration heater 20, 30, 40 desiccant air conditioner 22, 42 Drive motor

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Katsuhiro Yamashita             7-3-6-410 Minamisuna, Koto-ku, Tokyo F term (reference) 3L053 BC03 BC08

Claims (3)

[Claims] 1. An air supply path through which outside air taken in from the outside and supplied to the indoor space flows, an exhaust path through which indoor air discharged from the indoor space to the outside flows, and an air supply path on the air supply path. Of the air supply fan installed on the exhaust air path for sending the outside air toward the indoor space, an exhaust fan installed on the exhaust path for discharging the indoor air toward the outdoors, and the air supply path and the exhaust path. Installed across both sides,
A dehumidifier that comes in contact with the outside air flowing through the air supply path to dehumidify it, and indoor air that is installed across both the air supply path and the exhaust path and that is dehumidified outside air and the exhaust path And a dehumidifier disposed between the sensible heat exchanger and the dehumidifier on the exhaust path for exchanging heat between the dehumidifier and the indoor air flowing through the exhaust path. A desiccant air conditioner having a regeneration heater for regeneration, wherein a drive motor for the air supply fan is installed outside the air supply path. 2. The desiccant air conditioner according to claim 1, wherein the drive motor is installed on the exhaust path. 3. The desiccant air conditioner according to claim 1, wherein the drive motor and the drive motor of the exhaust fan are the same.