JP4897391B2 - Indoor air purification system - Google Patents

Description

  The present invention relates to an indoor air cleaning system.

As an indoor air cleaning system, an odor sensor that detects indoor odor, a circulating air cleaning mechanism that removes odor, an indoor ventilation mechanism, and a control means are provided, and the control means is detected by the odor sensor. When the odor contamination level in the room is within the threshold, the odor is removed by the operation of the circulating air cleaning mechanism, and when the threshold is exceeded, the first control mode for ventilating the room by the operation of the indoor ventilation mechanism and the odor sensor When the odor contamination level detected in the room is within the threshold value, the odor is removed by the operation of the circulation type air cleaning mechanism, and when the threshold value is exceeded, the operation of the circulation type air purification mechanism is performed without operating the indoor ventilation mechanism. A second control mode for the rainy season that enhances driving, and during the rainy season, the second control mode is switched to remove the odor without increasing the indoor humidity. Cleaning system is provided.
JP 2006-97998 A

  However, in the above system, even in the rainy season, if the degree of contamination of indoor odors is high, there is a limit to the effect of removing odors by operating only the circulating air cleaning mechanism. When indoor ventilation is performed by the mechanism, there is a problem in that outdoor humidity is sent into the room and the indoor humidity is increased to make the room uncomfortable.

  In view of the above problems, the present invention provides an indoor air cleaning system that can effectively remove odors that exceed a threshold during the rainy season, without increasing indoor humidity. This is the issue.

The above-described problem includes an odor sensor that detects indoor odor, a circulating air cleaning mechanism that removes odor, an indoor ventilation mechanism, an indoor dehumidification mechanism, and a control means.
The control means includes
When the indoor odor contamination level detected by the odor sensor is within the threshold value, the circulatory air cleaning mechanism is operated to remove the odor. A first control mode for controlling the ventilation in the room,
When the odor contamination level in the room detected by the odor sensor is within the threshold value, the odor is removed by the operation of the circulating air cleaning mechanism. A second control mode for the rainy season that performs control to dehumidify the room by operating the mechanism, and
This is solved by an indoor air cleaning system (first invention) characterized in that switching means for switching between these control modes is provided.

  In this system, in the first control mode, if the odor contamination level is within the threshold value, the circulatory air cleaning mechanism is operated to remove the odor, and if it exceeds the threshold value, the indoor ventilation mechanism is operated to ventilate the room. Therefore, it goes without saying that the odor in the room can be effectively removed according to the degree.

  And, in the rainy season when the outdoor humidity is high, by setting the second control mode, if the indoor odor pollution level exceeds the threshold, the indoor dehumidifying mechanism is ventilating the room by operating the indoor ventilation mechanism. Since the indoor dehumidifying control is performed during the operation of the room, the indoor odor that exceeds the threshold value can be effectively removed without increasing the indoor humidity. Can be comfortable.

In the first invention, the indoor dehumidifying mechanism includes a moisture absorption / release rotor and a heat source for regeneration,
The moisture absorption / desorption rotor is installed so as to span the circulation passage connecting the suction port and the outlet of the circulation type air purifying mechanism and the exhaust passage of the indoor ventilation mechanism,
The regeneration heat source may be installed upstream of the moisture absorption / desorption rotor in the exhaust passage of the indoor ventilation mechanism (second invention).

  In this system, the circulation passage connecting the suction port and the outlet of the circulation type air cleaning mechanism and the exhaust passage of the indoor ventilation mechanism are used together as part of the indoor dehumidification mechanism. The circulating air cleaning mechanism, the indoor ventilation mechanism, and the indoor dehumidifying mechanism that constitute the indoor air cleaning system can be unitized with a simple configuration.

  2nd invention WHEREIN: The flow of the air which passes both an air purifying filter and a moisture absorption / desorption rotor in the circulation path of the said circulation type air purifying mechanism, and the air which passes an air purification filter without passing an moisture absorption / desorption rotor It is preferable that both of the flows are formed (third invention).

  In this system, when the indoor odor contamination level is within the threshold, the pressure loss due to the moisture absorption / desorption rotor of the air passing through the circulation passage of the circulation type air cleaning mechanism can be kept low, and moisture absorption / desorption While adopting a rotor-type indoor dehumidifying mechanism, it is possible to increase the odor removal capability of the circulating air cleaning mechanism within the threshold value.

Further, the present invention is provided with a circulation type air purifying mechanism, an indoor ventilation mechanism, and an indoor dehumidifying mechanism,
The indoor dehumidifying mechanism includes a moisture absorption / release rotor and a heat source for regeneration,
The moisture absorption / desorption rotor is installed so as to span the circulation passage connecting the suction port and the outlet of the circulation type air purifying mechanism and the exhaust passage of the indoor ventilation mechanism,
The heat source for regeneration is installed upstream of the moisture absorption / desorption rotor in the exhaust passage of the indoor ventilation mechanism,
The flow of air that passes through both the moisture absorption and desorption rotor air purification filter and the moisture absorption and desorption rotor and the flow of air that passes through the air purification filter without passing through the moisture absorption and desorption rotor in the circulation passage of the circulation type air purification mechanism The indoor air cleaning system is characterized in that both flows are formed.

  In this system, the circulation passage connecting the suction port and the outlet of the circulation type air cleaning mechanism and the exhaust passage of the indoor ventilation mechanism are used together as part of the indoor dehumidification mechanism. The circulating air cleaning mechanism, the indoor ventilation mechanism, and the indoor dehumidifying mechanism constituting the indoor air cleaning system can be unitized with a simple configuration, and the air passing through the circulation passage of the circulating air cleaning mechanism The pressure loss drop due to the moisture absorption / desorption rotor can be kept low, and the moisture removal ability of the circulating air cleaning mechanism should be enhanced while adopting the moisture absorption / desorption rotor type indoor dehumidification mechanism. Can do.

  Since the present invention is as described above, in the rainy season, odors exceeding the threshold can be effectively removed without increasing the indoor humidity.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings.

  In the indoor air cleaning system of the embodiment shown in FIG. 1 (a), 1 is indoor, 2 is an air cleaning unit, 3 is a natural air inlet, 4 is an odor sensor, and 5 is a control means.

  The air cleaning unit 2 is installed behind the ceiling, and as shown in FIG. 1 (b), an air cleaning inlet 6, an air cleaning outlet 7, and a ventilation inlet 8 are provided. The interior of the case 9 has a circulation passage 10 that communicates the air cleaning inlet 6 and the air outlet 7, a ventilation inlet 8 and a ventilation exhaust. An exhaust passage 12 communicating with the mouth 11 is provided by being partitioned by a wall 13.

  Then, the circulation fan 10 in the case 9 is provided with the first fan 14 and the air purification filter 16 to constitute a circulation type air purification mechanism 17, and when the first fan 14 is driven, as shown in FIG. In addition, the air in the room 1 enters the circulation passage 10 through the air cleaning inlet 6, passes through the air cleaning filter 16 to remove odor, and forms a circulating flow of air returned to the room 1 through the outlet 7. It is made to be done.

  Further, a second fan 15 is provided in the exhaust passage 12 in the case 9, and an indoor ventilation mechanism 18 is configured in combination with the natural air inlet 3 in the room 1. When the second fan 15 is driven, FIG. As shown in (b), the air in the room 1 is sent to the exhaust passage 12 through the ventilation inlet 8 and discharged to the outside through the exhaust outlet 11 and the duct 20, and the outdoor air passes through the natural air inlet 3. It is designed to be sent into the room.

  Further, in the case 9, a moisture absorption / release rotor 21 made of silica gel or zeolite is installed so as to pass through the wall 13 to the circulation passage 10 and the exhaust passage 12, and the heat source 22 for regeneration is provided. An indoor dehumidifying mechanism 19 is configured to be positioned upstream of the moisture absorption / desorption rotor 21 in the exhaust passage 12. When the first fan 14 and the second fan 15 are driven during the rainy season when the humidity is high, the regeneration heat source 22 is activated, and the moisture absorbing / releasing rotor 21 rotates, as shown in FIG. The moisture absorption / release rotor 21 absorbs moisture by the high humidity indoor air sucked through the suction port 6 and is also sucked through the ventilation suction port 8 and heated by the regeneration heat source 22 to absorb and release moisture by the air whose humidity is lowered. The rotor 21 dehumidifies, and thereby, the dehumidified and lowered air is sent into the room 1 through the air cleaning outlet 7 so that the room 1 is dehumidified.

  The control means 5 has at least two control modes, first and second, and can switch between the first control mode and the second control mode by operating the operation panel 23 as the switching means. It is made like that. In the first control mode, when the odor contamination level is within the threshold according to the odor contamination level detected by the odor sensor 4 installed in the room 1, the odor is removed by the operation of the circulating air cleaning mechanism 17. In this mode, when the threshold value is exceeded, the indoor dehumidifying mechanism 19 is not operated and the indoor ventilation mechanism 18 is operated to control the room to be ventilated.

  The second control mode is for the rainy season, and when the odor contamination level in the room 1 detected by the odor sensor 4 is within the threshold, the circulatory air cleaning mechanism 17 is operated to remove the odor, and the threshold In this mode, the room 1 is dehumidified by the operation of the indoor dehumidifying mechanism 19 while the room 1 is ventilated by the operation of the indoor ventilation mechanism 18.

  In the first control mode, the operation when the threshold value is exceeded may be the ventilation only mode as shown in FIG. 2 (b), or the ventilation / air as shown in FIG. 3 (a). A clean combination mode may be used. Further, in the present embodiment, the operation when the threshold value is exceeded in the second control mode is the dehumidification / ventilation / air cleaning combined mode as shown in FIG. Depending on the configuration, a combined dehumidification / ventilation mode without air purification by a filter may be used.

  And in these 1st, 2nd control modes, in order to make the air-cleaning capability by the circulation type air purifying mechanism 17 when an odor pollution degree is in a threshold value into high thing, the moisture absorption / desorption rotor 21 is a circulation type air purifier. In the circulation passage 10 of the mechanism 17, the circulation passage 10 is installed so as to protrude only at a part of the cross section of the passage. Both a flow a and a flow b of air that does not pass through the moisture absorption / desorption rotor 21 and pass through the air cleaning filter 16 are formed, whereby the flow of air passing through the circulation passage 10 is increased. A reduction in pressure loss due to the moisture absorption / release rotor 21 is suppressed to a low level, and as described above, the air cleaning capability by the circulating air cleaning mechanism 17 can be increased. .

  In the indoor air cleaning system described above, if the odor contamination level is within the threshold value in the first control mode, as shown in FIG. 2 (b) or FIG. 3 (b), the interior of the room 1 is ventilated by the operation of the room ventilation mechanism 18, so that the odor of the room 1 is in accordance with the degree. Effectively removed.

  In the rainy season when outdoor humidity is high, when the indoor odor contamination level exceeds the threshold by setting the second control mode, as shown in FIG. Since the indoor dehumidification mechanism 19 is controlled to dehumidify the room 1 while ventilating the room 1 in the operation, the odor of the room 1 exceeding the threshold is increased and the humidity in the room 1 is increased. Therefore, the room 1 can be removed effectively and the room 1 can be made comfortable.

  In the above system, the circulation passage 10 connecting the suction port 6 and the outlet 7 of the circulation type air purification mechanism 17 and the exhaust passage 12 of the indoor ventilation mechanism 18 constitute a part of the indoor dehumidification mechanism 19. As shown in FIG. 1 (B), etc., the circulation type air cleaning mechanism 17, the indoor ventilation mechanism 18, and the indoor dehumidifying mechanism 19 constituting the indoor air cleaning system are configured with a simple configuration. Can be unitized.

  Although the embodiment of the present invention has been described above, the present invention is not limited to this, and various modifications can be made without departing from the spirit of the invention. For example, in the above-described embodiment, the case where the circulation type air purification mechanism, the indoor ventilation mechanism, and the indoor dehumidification mechanism are configured as a single unit has been shown, but they may be provided as separate units. However, a configuration in which any two of them are unitized and the other one is another unit may be adopted.

  In the above embodiment, the indoor dehumidifying mechanism is based on a moisture absorption / release rotor and a heat source for regeneration. However, in the first invention, other dehumidifying mechanisms may be employed.

  Further, in the above embodiment, the case where the removal of odors is the content of air cleaning is shown, but in addition to that, the removal of dust may be added to one of the contents of air cleaning, A control method using the property may be additionally employed. Further, a control mode peculiar to winter or summer may be incorporated.

  Furthermore, in said embodiment, the control means 5 which has a specific 1st, 2nd control mode and the mode switching operation panel 23 are provided, and a control mode and an operation mode change according to a season and an odor pollution degree. However, in the fourth aspect of the invention, other control may be performed, or switching operation may be performed instead of control, or in terms of software. There are no particular restrictions.

BRIEF DESCRIPTION OF THE DRAWINGS The indoor air purification system of embodiment is shown, FIG. (A) is a front view which shows the whole structure, FIG. (B) is a cross-sectional front view which expands and shows the internal structure of an air purification unit. FIGS. 1A and 1B are sectional front views of the unit showing various operating states together with FIGS. 3A and 3B. FIGS. 2A and 2B are sectional front views of the unit showing various operating states together with FIGS. 2A and 2B.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Indoor 2 ... Air purifying unit 4 ... Smell sensor 5 ... Control means 10 ... Circulating passage 12 ... Exhaust passage 14 ... First fan 15 ... Second fan 16 ... Air purifying filter 17 ... Circulating air purifying mechanism 18 ... Indoor ventilation mechanism 19 Indoor dehumidification mechanism 21 Moisture absorption / release rotor 22 Regeneration heat source 23 Operation panel (switching means)

Claims (3)

An odor sensor that detects odors in the room, a circulating air cleaning mechanism that removes odors, an indoor ventilation mechanism, an indoor dehumidification mechanism, and a control means;
The control means includes
When the indoor odor contamination level detected by the odor sensor is within the threshold value, the circulatory air cleaning mechanism is operated to remove the odor. A first control mode for controlling the ventilation in the room,
When the odor contamination level in the room detected by the odor sensor is within the threshold value, the odor is removed by the operation of the circulating air cleaning mechanism. A second control mode for the rainy season that performs control to dehumidify the room by operating the mechanism, and
An indoor air cleaning system comprising switching means for switching between these control modes. The indoor dehumidifying mechanism includes a moisture absorption / release rotor and a heat source for regeneration,
The moisture absorption / desorption rotor is installed so as to span the circulation passage connecting the suction port and the outlet of the circulation type air purifying mechanism and the exhaust passage of the indoor ventilation mechanism,
The indoor air cleaning system according to claim 1, wherein the regeneration heat source is installed upstream of the moisture absorption / desorption rotor in the exhaust passage of the indoor ventilation mechanism. In the circulation passage of the circulation type air purification mechanism, both the air flow passing through both the air purification filter and the moisture absorption / desorption rotor and the air flow passing through the air purification filter without passing through the moisture absorption / desorption rotor are provided. The indoor air cleaning system according to claim 2, wherein a flow is formed .

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