JP2833237B2 - Dry dehumidifier - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dry dehumidifying / humidifying apparatus which does not require water supply and drain water treatment.

[0002]

2. Description of the Related Art A conventional dry dehumidifying / humidifying apparatus is disclosed, for example, in Japanese Patent Application Laid-Open No. 63-286634.
As shown in FIG. 2, this device is composed of an air path switching unit 5, an adsorbent 1 and a heater 2, a blower 3, and an air path switching unit 4 in order from the top. The air path can be switched.

In the above configuration, when humidification is performed, the air path switching section 4 is set to open to the outside of the room, allow outdoor air to pass through the adsorbent 1, and then return to the outside of the room via the air path switching section 5 again. The moisture of the outdoor air is adsorbed by the adsorbent 1. Thereafter, the air path switching units 4 and 5 are set so as to close the air path on the outdoor side, so that the indoor air passes through the adsorbent 1 and returns to the indoor area again. At this time, the indoor air is heated by the heater 2,
When the adsorbent 1 passes through the adsorbent 1, the adsorbent 1 is heated to desorb the adsorbed moisture, and this moisture is supplied to the room to perform dry humidification.

[0004]

In such a conventional dry dehumidifying and humidifying apparatus, the temperature of the air supplied to the adsorbent 1 at the time of regeneration is higher than the temperature at the time of the above-mentioned adsorption operation. Thermal swing absorption (Therm), which is a method of desorbing water adsorbed on the adsorbent 1,
al Swing Adsorption), heat exchange loss when air is heated by the heater 2, heat radiation loss when hot air passes through the air passage, and heat when hot air heats the adsorbent 1. There are losses. For this reason, energy consumption increased, the running cost (approximately 10 times higher than the ultrasonic method) was higher than other humidifying methods, and the price was not competitive. Furthermore, the repetition of the adsorption operation and the regeneration operation was constant in the air supply amount, the air supply time, the regeneration time, etc., regardless of the dehumidification load, so that the operation was not optimal according to the load, and the operation loss was large. .

[0005] Despite the provision of an air passage communicating indoors and outdoors, it can only dehumidify or humidify indoor air.
The air component could not be controlled. In other words, air components other than water could not be controlled despite construction work.

At the time of humidification, since the moisture and nitrogen adsorbed on the adsorbent 1 are supplied into the room, the room humidity increases but the oxygen concentration decreases. And so on.

[0007] The present invention is to solve such a conventional problem, and is a dry dehumidifying device that consumes less power and can control air components other than water.

[0008]

In order to solve the above-mentioned problems, the present invention provides an adsorbing section including an adsorbent and a heating source incorporated in the adsorbent, a blower for sending air to the adsorbing section, A detecting element for detecting the temperature and humidity and the concentration of the air component,
The information from the detection element, the blower, a control unit that controls the suction unit, the control unit, by the information from the detection element, changing the blowing capacity of the blower that allows air to pass through the suction unit, air Based on an adsorption operation instruction to adsorb moisture in the air and information from the sensing element, air is blown into the adsorbent by a blower, and at the same time, the heating capacity of a heating source is changed to remove moisture adsorbed in the adsorbent. A playback operation instruction to release the camera is given.

[0009]

According to the present invention, the sensing element monitors the temperature and humidity in the room and the air component, and when the concentration exceeds a certain limit, the control unit selects the dehumidifying ventilation and the humidifying ventilation operation. It is possible to stabilize indoor humidity and air components.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, reference numeral 1A denotes an adsorbing section, and the adsorbing section 1A has an adsorbent 1 carried on a heating source 2 and is formed into a corrugated shape. Reference numeral 3 denotes a blower, which is arranged on the upstream side of the suction section 1A. Reference numeral 4 denotes a charging filter;
It is provided more upstream. 5 is an outdoor air inlet for taking in outdoor air, 6 is an outdoor air outlet for exhausting air outside, and the outdoor air inlet 5 and the outdoor air outlet 6 constitute a double pipe. 7 is an indoor air supply port, and 8 is an indoor exhaust port. Reference numeral 9 denotes an air supply switching unit for selecting whether to supply air from the indoor side or from the outdoor side. Reference numeral 10 denotes an exhaust switching unit, which selects exhaust to be indoor or outdoor. Reference numeral 11 denotes a sensing element made of a semiconductor and a polymer film for detecting the room temperature and humidity, the CO ₂ and O ₂ concentrations. Reference numeral 12 denotes a control unit that controls the ON / OFF control of the heating source 2, the operation state of the blower 3, and the switching units 9 and 10 based on a signal from the detection element 11.

The operation will be described based on the above configuration.
Due to the signal from the sensing element 11, the indoor humidity is high and C
When the control unit determines that the O ₂ concentration is also high, the dehumidifying and ventilating operation is performed to perform indoor dehumidifying and ventilation. (If only the humidity is high, only the dehumidification operation is performed, and if only the CO ₂ concentration is high, only the ventilation operation is performed.) If the humidity is extremely high, it is necessary to rapidly dehumidify. At this time, the control unit 12 increases the amount of air supplied to the adsorbent 1, shortens the adsorption time, maximizes the heating amount of the heating source 2, and sets the adsorbent 1
By increasing the temperature and shortening the regeneration time, the number of repetitions of the adsorption operation and the regeneration operation per unit time is increased, and the operation is performed to increase the dehumidifying capacity.

A specific operation will be described. The control unit 12
First, in order to desorb the water adsorbed on the adsorbent 1 (even if the blower 3 is not operated, the water in the air is always adsorbed to the adsorbent 1 by diffusion. The air supply switching unit 9 closes the outdoor side,
The exhaust switching unit 10 closes the indoor side and operates the blower 3 and the heating source 2. The indoor air expels moisture released from the adsorbent 1 heated by the heating source 2 from the adsorbent 1 and is exhausted from the outdoor exhaust port 6. At this time, the exhaust air contains the moisture received from the adsorbent 1 and the indoor air component. When time elapses and the moisture in the adsorbent 1 runs out, the control unit 12 turns off the power supply to the heating source 2 and operates only the blower 3 to lower the temperature of the adsorbent 1 to a level at which moisture can be adsorbed. . Subsequently, the control unit 12 stops the operation of the blower to perform the adsorption operation of adsorbing moisture to the adsorbent 1, the air supply switching unit 9 blocks the indoor side, and the exhaust switching unit 10 controls the outdoor side. Make sure it is closed. After that, the blower 3 is operated. As a result, the outdoor air introduced from the outdoor air supply port 5 passes through the adsorbent 1 and adsorbs moisture while adsorbing dust and suspended particles by the charging filter 4, and becomes the indoor exhaust port as clean dry air. 8 to supply indoors. Dehumidification and ventilation can be performed by repeating the above-described regeneration operation and adsorption operation. In this series of operations, since the heat source 2 is heated directly adsorbent 1, both dehumidifying ventilation heat loss is extremely small energy-saving can be achieved, reducing the humidity of the room, together NO _X,
There is an effect that CO ₂ , CO, and odor components can be reduced.
At this time, the air supply switching unit 9 and the exhaust switching unit 10 may both be configured to block the outdoor air only during the adsorption operation, and the dehumidifying effect is increased.

Next, the humidification ventilation operation will be described. Due to the signal from the sensing element 11, the indoor humidity is low and CO
_{2. When the} control unit determines that the concentration is also high, the humidification and ventilation operation is performed to humidify and ventilate the room. (If only the humidity is low, only the humidification operation is performed, and if only the CO ₂ concentration is high, only the ventilation operation is performed.) If the humidity is extremely low, it is necessary to humidify quickly. At this time, the control unit 12 increases the amount of air supplied to the adsorbent, shortens the adsorption time, maximizes the heating amount of the heating source 2, raises the temperature of the adsorbent 1, and shortens the regeneration operation time. By doing so, the number of repetitions of the adsorption operation-regeneration operation per unit time is increased, and the operation is performed so as to increase the humidification ability.

Specifically, at the time of humidification ventilation, the control unit 12 instructs to start from the adsorption operation. (The adsorbent 1 contains moisture adsorbed by diffusion. However, the adsorption operation is started first in order to adsorb to the vicinity of the saturated adsorption amount. The first adsorption operation time is shorter than the subsequent adsorption operation time. The air supply port switching unit 9 closes the outdoor side, and the exhaust switching unit 10 closes the indoor side. The blower 3 starts operation, supplies indoor air to the adsorbent 1,
Adsorb moisture. The dried air is exhausted from the outdoor exhaust port 6. When the adsorbent 1 breaks through, the control unit 12 stops the operation of the blower 3, the air supply switching unit 9 blocks the indoor side, and the exhaust switching unit 10 blocks the outdoor side. Thereafter, the control unit 12 energizes the heating source 2 to heat the adsorbent 1. After the outdoor air passes through the charging filter 4,
Water passes through the adsorbent 1 which has reached the regeneration temperature by heating and has started to desorb water, receives water and is supplied into the room. By repeating the above-mentioned adsorption operation-regeneration operation, humidification ventilation is performed. During this operation, since the heating source 2 directly heats the adsorbent 1, energy-saving humidification and ventilation with very little heat loss can be realized, and the indoor humidity can be increased without lowering the oxygen concentration without lowering the oxygen concentration. NO _X , CO ₂ , CO,
This has the effect of reducing odor components. At this time, if both the air supply switching unit 9 and the exhaust switching unit 10 are closed on the indoor side only during the suction operation, the humidification effect is further enhanced. In addition,
After all the operations are completed, the control unit 12 controls the air supply switching unit 9 and the exhaust switching unit 10 so that the outdoor side is closed, so that the outdoor air does not flow into the room when not in use. .

[0016]

As described above, according to the dry dehumidifying / humidifying apparatus of the present invention, the following effects can be obtained.

In the regenerating operation, since the adsorbent is directly heated, the heat loss is smaller than that of the indirect heating method using hot air.
Energy saving operation is possible. In addition, since the response characteristics of the regenerating operation of the adsorption section are improved, the dehumidifying and humidifying capabilities are also increased.

At the time of dehumidification / humidification, not only dehumidification / humidification but also a ventilation function can be added, and air components other than humidity can be controlled. In particular, at the time of humidification, the oxygen concentration in the room decreases with the conventional apparatus, but the oxygen concentration is hardly affected by the present invention.

The dehumidifying and humidifying ability can be further enhanced by starting from the optimal operation for each of the dehumidifying and humidifying operations.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a dry-type dehumidifying device according to an embodiment of the present invention.

FIG. 2 is a configuration diagram of a dehumidifying / humidifying apparatus according to a conventional example.

[Explanation of symbols]

 Reference Signs List 1A adsorption unit 1 adsorbent 2 heating source 3 blower 5 outdoor air supply port 6 outdoor air discharge port 7 indoor air supply port 8 indoor air discharge port 9 air supply switching unit 10 exhaust switching unit 11 sensing element 12 control unit

Claims (1)

(57) [Claims] 1. An adsorbing section comprising an adsorbent and a heating source incorporated in the adsorbent, a blower for sending air to the adsorbing section, a detecting element for detecting temperature and humidity and a concentration of an air component; The control unit controls the blower and the suction unit based on information from an element, and the control unit changes the blowing capacity of the blower according to a signal from the detection element to cause the moisture in the air to be adsorbed on the adsorbent. A dry dehumidifying apparatus for instructing an adsorption operation and instructing an operation by changing the heating capacity of a heating source at the same time as blowing air into the adsorbent by a blower to desorb moisture adsorbed in the adsorbent.