JPH10160180A - Air cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To recover exhaust heat of indoor exhaust air by providing means for exchanging heat between the indoor air and the outdoor air and raising the temperature of cleaned air thereby preventing the cleaning water from being frozen in the winter season. SOLUTION: Outdoor air taken into a first air cleaner 1 is cleaned through a porous board 6a and fed into a room through an indoor air supply port 9. An exhaust fan 11 is operated simultaneously with the operation of an air supply fan 8 and the air is fed to a second air cleaner 2 through an exhaust port 10. The exhaust air being taken into the second air cleaner 2 is discharged to the outdoor through the exhaust fan 11. The indoor exhaust imparts heat to cleaning water through the water storage part 13a of the first air cleaner 1 and thereby the temperature thereof decreases. The cleaning water is prevented from being frozen by the outdoor air having temperature lower than freezing point through heat-exchange of the outdoor air and the indoor exhaust air. Furthermore, a third air cleaner 3 prevents clogging of heat-exchanger element and recovers exhaust heat of the indoor exhaust air.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air purification device for purifying outdoor air by taking it in and sending the air indoors.

[0002]

2. Description of the Related Art A conventional ventilator has a system in which a path for introducing outdoor air and a path for discharging indoor air are different paths,
In both of the above-mentioned paths, a configuration is adopted in which a total heat heat exchanger or a sensible heat exchanger is passed. In addition, the conventional wet-type ventilation purification device is configured to remove dust and absorb gas by gas-liquid contact like an air washer. With such a ventilator, ventilation and heat recovery associated with ventilation were performed directly or through a total heat exchanger or a sensible heat exchanger.

[0003]

However, in the prior art, there is a disadvantage that the heat exchanger element is clogged. On the other hand, it is effective to purify the outdoor air or the air discharged from the room with an air washer and then through a heat exchanger, but in this case, the temperature of the introduced outdoor air cannot be increased. For this reason, the temperature of the purified air obtained cannot be increased, and when the temperature of the outdoor air is below freezing, there is a disadvantage that the washing water is frozen. Further, even if an air washer is used for one or both of the air supply path and the exhaust path, the conventional method has a disadvantage that the exhaust heat cannot be recovered unless another heat exchanger is used. The present invention has been made in view of this point. By increasing the temperature of outdoor air, the temperature of purified air can be increased, and further, the freezing of washing water in winter can be prevented, and air discharged from indoors can be prevented. It is an object of the present invention to provide an air purification device capable of performing exhaust heat recovery.

[0004]

An air purifying apparatus according to a first aspect of the present invention is an air purifying apparatus for purifying air by taking outdoor air into a first air purifier and sending the obtained purified air indoors. And heat exchange means for exchanging heat between indoor air and the outdoor air.

[0005] The air purifying apparatus according to the second aspect of the present invention comprises:
2. The air purifying apparatus according to claim 1, wherein the heat exchange means is a third air purifier that connects the first air purifier with a second air purifier that purifies by taking in indoor air. It is assumed that.

[0006] The air purifying apparatus according to claim 3 of the present invention comprises:
3. The air purifying apparatus according to claim 2, wherein the first air purifier and the second air purifier perform air purification using cleaning water, and the cleaning water absorbs heat from indoor air and heats the outdoor air. Is provided.

[0007] The air purifying apparatus according to claim 4 of the present invention is characterized in that:
The air purifying apparatus according to claim 1, wherein the heat exchange means is a coil that absorbs heat by taking in indoor air and gives heat to outdoor air.

[0008] The air purifying apparatus according to claim 5 of the present invention is characterized in that:
The air purifying apparatus according to any one of claims 1, 2, 3 and 4, wherein the air in the room is air discharged from the room.

[0009] The air purifying apparatus according to claim 6 of the present invention comprises:
The air purifying apparatus according to claim 1, 2, 3, or 4, wherein the indoor air is circulating air in the room.

[0010]

FIG. 1 shows a configuration diagram of an air purifying apparatus according to a first embodiment of the present invention. This air purification device performs purification by taking in outdoor air into a first air purifier 1 and sending the obtained purified air to a room. In the air purification device, heat exchange is performed between air discharged from the room and the outdoor air. It is provided with a heat exchange means. As a result, the temperature of the taken-in outdoor air can be increased, so that the temperature of the obtained purified air can be increased.

The second air purifier 2 and the first air purifier 1 which perform purification by taking indoor air into the heat exchange means.
And a third air purifier 3 that communicates with the third air purifier. Specifically, the first air purifier 1 and the second air purifier 2 purify the air with cleaning water, and the cleaning water absorbs heat from indoor air and gives heat to outdoor air. Performs heat exchange between the air discharged from the room and the outdoor air.

Hereinafter, the air purifier will be described in more detail with reference to FIG. This air purification device is configured to purify outdoor air and exhaust air from indoors. The suction port 4 facing the outside is connected to the suction port 5a of the first air purifier 1, and the perforated plate 6 is provided above the suction port 5a.
a, and an outlet 7 a at the top of the first air purifier 1 is connected to an indoor air supply port 9 via an air supply fan 8.

The exhaust port 10 facing the room is connected to the intake port 5b of the second air purifier 2, and a perforated plate 6b is installed above the intake port 5b. The outlet 7b is connected to the outdoor outlet 12a via the exhaust fan 11.
It is connected to the.

Further, the water storage section 1 below the second air purifier 2
A downcomer 14 is connected from 3b to above the perforated plate 6a of the first air purifier 1. And, it is connected by a pumping pipe 16 from a water storage section 13a below the first air purifier 1 to a position above the perforated plate 6b of the second air purifier 2 via a water pump 15.

That is, the first air purifier 1 and the second air purifier 2 are in communication with each other, and the washing water is supplied from the first air purifier 1, the pumping pipe 16, the second air purifier 2, and the downcomer 14 Circulate in the order of the first air purifier 1.

Further, the heat transfer efficiency of the second air purifier 2 at an air flow rate of 200 m ³ / H, a water flow rate of 3 liters / minute and a temperature below the freezing point in winter, which are the operating conditions of the air purifier, is 0.1.
4, and the heat transfer efficiency of the first air purifier 1 is 0.5. The outdoor temperature is −10 ° C., and the outdoor humidity is 70%. The indoor temperature is 25 ° C., and the indoor humidity is 50%.

Now, by operating the air supply fan 8, outdoor air is taken into the first air purifier 1 from the suction port 4.
The first air purifier 1 includes a water reservoir 13 of the second air purifier 2.
3 b / min of washing water is passed from b through the downcomer 14 onto the perforated plate 6 a.

The outdoor air taken into the first air purifier 1 is purified by washing water when passing through the perforated plate 6a. That is, dust and gas components in the air are separated and removed, and the purified air is obtained. This purified air is sent from the indoor air supply port 9 to the room. At this time, since the heat transfer efficiency of the first air purifier 1 is 0.5, the temperature of the purified air sent indoors is 6.57 ° C., and the humidity is 80%. And the temperature of the washing water after washing also becomes 6.57 ° C.

That is, the temperature of the outdoor air rises from -10.degree. C. to 6.57.degree. C. by absorbing heat from the washing water passed through the water reservoir 13b of the second air purifier 2. FIG. .

At the same time as the operation of the air supply fan 8, the exhaust fan 11 operates, and the exhaust air from the room is sucked and sent from the exhaust port 10 to the second air purifier 2. In the second air purifier 2, 3 liters / min of washing water flows from the water storage section 13a of the first air purifier 1 through the water pump 16 via the water pump 16 onto the perforated plate 6b.

The exhaust air from the room taken into the second air purifier 2 is purified and becomes purified air.
The air is discharged from the outdoor exhaust port 12a to the outside via the exhaust fan 11. At this time, since the heat transfer efficiency of the second air purifier 2 is 0.4, the temperature of the purified air discharged outside is 15.9 ° C., and the humidity is 80%. And
The temperature of the washing water after washing also becomes 15.9 ° C.

That is, the temperature of the air discharged from the room falls from 25 ° C. to 15.9 ° C. by applying heat to the washing water passed from the water storage section 13a of the first air purifier 1. did.

As described above, by performing heat exchange between the outdoor air and the air discharged from the room, it is possible to prevent the outdoor air having a temperature below freezing from freezing the washing water. Further, the third air purifier 3 can recover the exhaust heat of the exhaust air from the room without causing clogging of the heat exchanger element.

FIG. 2 shows a configuration diagram of an air purification device according to a second embodiment of the present invention. This air purifier performs purification by taking in outdoor air into the first air purifier 1 and performing heat exchange between indoor circulating air and the outdoor air in an air purifier that sends the obtained purified air indoors. It is provided with a heat exchange means. As a result, the temperature of the taken-in outdoor air can be increased, so that the temperature of the obtained purified air can be increased.

The second air purifier 2 and the first air purifier 1, which perform purification by taking in indoor air, are used as heat exchange means.
And a third air purifier 3 that communicates with the third air purifier. Specifically, the first air purifier 1 and the second air purifier 2 purify the air with washing water, and the washing water absorbs heat from indoor circulating air and gives heat to outdoor air. Thus, heat is exchanged between indoor circulating air and outdoor air.

Hereinafter, the air purifying apparatus will be described in more detail with reference to FIG. This air purification device is configured to purify outdoor air and indoor circulating air. The intake port 4 facing the outside is connected to the intake port 5a of the first air purifier 1, and a perforated plate 6a is installed above the intake port 5a. 7a
Is connected to an indoor air supply port 9 via an air supply fan 8.

The exhaust port 10 facing the room is connected to the intake port 5b of the second air purifier 2, and a perforated plate 6b is installed above the intake port 5b. The discharge port 7b is connected to the discharge port 1 into the room through the circulation fan 19.
7 is connected.

The water storage section 1 below the second air purifier 2
A downcomer 14 is connected from 3b to above the perforated plate 6a of the first air purifier 1. And, it is connected by a pumping pipe 16 from a water storage section 13a below the first air purifier 1 to a position above the perforated plate 6b of the second air purifier 2 via a water pump 15.

That is, the first air purifier 1 and the second air purifier 2 are in communication with each other, and the washing water is supplied from the first air purifier 1, the pumping pipe 16, the second air purifier 2, and the downcomer 14 Circulate in the order of the first air purifier 1. An outlet 12b is provided on the inner wall surface of the room.

Further, the heat transfer efficiency of the second air purifier 2 at the air temperature of 200 m ³ / H, the water volume of 3 liter / min and the temperature below the freezing point in winter is 0.
4, and the heat transfer efficiency of the first air purifier 1 is 0.5. The outdoor temperature is −10 ° C., and the outdoor humidity is 70%. The indoor temperature is 25 ° C., and the indoor humidity is 50%.

Now, by operating the air supply fan 8, outdoor air is taken into the first air purifier 1 from the suction port 4.
The first air purifier 1 includes a water reservoir 13 of the second air purifier 2.
3 b / min of washing water is passed from b through the downcomer 14 onto the perforated plate 6 a.

The outdoor air taken into the first air purifier 1 is purified by washing water when passing through the perforated plate 6a. That is, dust and gas components in the air are separated and removed, and the purified air is obtained. This purified air is sent from the indoor air supply port 9 to the room. At this time, since the heat transfer efficiency of the first air purifier 1 is 0.5, the temperature of the purified air sent indoors is 6.57 ° C., and the humidity is 80%. And the temperature of the washing water after washing also becomes 6.57 ° C.

That is, the temperature of the outdoor air rose from −10 ° C. to 6.57 ° C. by absorbing heat from the washing water passed from the water reservoir 13b of the second air purifier 2. .

At the same time as the operation of the air supply fan 8, the circulation fan 19 operates, and the circulating air in the room is sucked and sent from the exhaust port 10 to the second air purifier 2. In the second air purifier 2, 3 liters / min of washing water flows from the water storage section 13a of the first air purifier 1 through the water pump 16 via the water pump 16 onto the perforated plate 6b.

Then, the circulating air in the room taken into the second air purifier 2 is purified and becomes purified air, and is circulated from the discharge port 17 to the room through the circulation fan 19.
At this time, since the heat transfer efficiency of the second air purifier 2 is 0.4, the temperature of the purified air circulated indoors is 15.9 ° C.
And the humidity is 80%. Then, the temperature of the washing water after the washing also becomes 15.9 ° C.

That is, the temperature of the circulating air in the room falls from 25 ° C. to 15.9 ° C. by applying heat to the washing water passed from the water reservoir 13 a of the first air purifier 1. . Note that the air discharged from the room is discharged from the outlet 12b to the outside.

As described above, by performing heat exchange between the outdoor air and the indoor circulating air, it is possible to prevent the outdoor air having a temperature below freezing from freezing the washing water. Further, the third air purifier 3 can recover the exhaust heat of the exhaust air from the room without causing clogging of the heat exchanger element.

FIG. 3 shows a configuration diagram of an air purification device according to a third embodiment of the present invention. The difference between this air purifying device and the air purifying device shown in FIG. 1 is that the second air purifier 2 is replaced with a coil device 21 having a coil 20. Other configurations are the same as those of the air purification device shown in FIG.

In this case, the heat exchange means is a coil 20 that takes in indoor air to absorb heat and gives heat to outdoor air. As shown in FIG. 3, when the exhaust fan 11 operates, the exhaust air from the room is sucked and passes through the coil device 21 from the exhaust port 10. The water reservoir 13a of the first air purifier 1 is provided in the coil 20.
The washing water is taken in by a pump 16 from a pump 16 via a pump 15 and passed through the downcomer 14 onto the perforated plate 6a.

That is, the washing water circulates in the order of the first air purifier 1, the water pump 16, the coil 20, the downcomer 14, and the first air purifier 1. Therefore, the washing water in the coil 20 absorbs heat from the air discharged from the room when the air discharged from the room passes through the coil device 21. Then, the air that has absorbed the heat is discharged outside.

The air supply fan 8 operates simultaneously with the operation of the exhaust fan 11, and the outdoor air is taken into the first air purifier 1 from the suction port 4. Wash water is passed through the first air purifier 1 through the downcomer 14 onto the perforated plate 6a.

When passing through the perforated plate 6a, the outdoor air taken into the first air purifier 1 is purified by the washing water, is given heat from the washing water, and is sent indoors. As described above, by performing heat exchange between the outdoor air and the air discharged from the room, it is possible to prevent the outdoor air having a subzero temperature from freezing the washing water, similarly to the air purification device shown in FIG. . Further, it is possible to recover the exhaust heat of the exhaust air from the room. However, in this case, it is possible to recover only sensible heat. In this case, the same effects as those of the air purification device shown in FIG. 1 can be obtained.

[0043]

The air purifying apparatus according to the first aspect of the present invention is obtained because the temperature of the introduced outdoor air can be increased by performing heat exchange between the indoor air and the outdoor air. The temperature of the purified air can be increased.

The air purifying apparatus according to the second aspect of the present invention comprises:
In addition to the effect of the air purifying device according to the first aspect, the exhaust heat of the indoor air can be recovered by the third air purifier that connects the second air purifier and the first air purifier. .

The air purifying apparatus according to the third aspect of the present invention comprises:
In addition to the effect of the air purifying device according to the second aspect, it is possible to prevent the outdoor air having a temperature below freezing from freezing the washing water.

The air purifying apparatus according to the fourth aspect of the present invention comprises:
By using a coil as the heat exchange means, the same effect as that of the air purifying device according to the first aspect can be obtained.

The air purifying apparatus according to the fifth aspect of the present invention comprises:
In addition to the effects of the air purifying apparatus according to claim 1, claim 2, claim 3, or claim 4, by performing heat exchange between the indoor air and the outdoor air, the air exhausted from the room is reduced. Waste heat recovery can be performed.

The air purifying apparatus according to claim 6 of the present invention is
In addition to the effects of the air purifying apparatus according to claim 1, 2, 3, or 4, heat exchange between indoor circulating air and the outdoor air enables exhaust heat of indoor circulating air. Recovery can be performed.

[Brief description of the drawings]

FIG. 1 shows a configuration diagram of an air purification device according to a first embodiment of the present invention.

FIG. 2 shows a configuration diagram of an air purification device according to a second embodiment of the present invention.

FIG. 3 shows a configuration diagram of an air purification device according to a third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 First air purifier 2 Second air purifier 3 Third air purifier 20 Coil

Claims (6)

[Claims] 1. An air purifying apparatus for purifying outdoor air by taking in outdoor air into a first air purifier and sending the obtained purified air into a room, wherein heat exchange means for exchanging heat between room air and the outdoor air. An air purification device comprising: 2. The air purifier according to claim 1, wherein the heat exchange means is a third air purifier having a first air purifier and a second air purifier communicating with a second air purifier for purifying by taking in indoor air.
An air purification device as described in the above. 3. The first air purifier and the second air purifier perform air purification using cleaning water, wherein the cleaning water absorbs heat from indoor air and gives heat to outdoor air. The air purification device according to claim 2, wherein 4. The air purifying apparatus according to claim 1, wherein the heat exchanging means is a coil for absorbing heat by taking in indoor air and applying heat to outdoor air. 5. The air purification device according to claim 1, wherein the indoor air is exhaust air from the indoor. 6. The air purification device according to claim 1, wherein the indoor air is circulating air in the room.