JP2003322373A - Indoor environment control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an indoor environment control system capable of keeping indoor air good for health at all times by admitting fresh air while exhausting not only gases lighter than air but also gases heavier than air. <P>SOLUTION: An exhaust fan 10 is provided at an indoor ceiling opening. An intake fan 20 is provided at an indoor underfloor opening. A gas concentration detecting part 30 is provided indoors for detecting the concentrations of a plurality of kinds of gases. A drive control means controls the drive of the exhaust fan 10 and the intake fan 20 according to detection results provided by the gas concentration detecting means. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indoor environment control system, and more particularly to an indoor environment control system for keeping indoor air always in a healthy environment.

[0002]

2. Description of the Related Art Conventionally, as a system of this type, for example,
As shown in Japanese Patent Laid-Open No. 5-87381, CO
(Carbon monoxide) sensor, CO ₂ (carbon dioxide) sensor,
An O ₂ (oxygen) sensor and a NO _x (nox) sensor are arranged, and when any of CO gas, CO ₂ gas, O ₂ gas, and NO _x gas exceeds a set concentration set for each gas, an intake fan There are also those that drive the exhaust fan.

[0003]

By the way, the above-mentioned intake fan and exhaust fan are provided at one place on the ceiling side. Therefore, by driving the intake fan and the exhaust fan, it is possible to exhaust gases such as CO and methane gas that are lighter than air and easily stay near the ceiling.

However, gases heavier than air, such as CO ₂ , formaldehyde, and chemical substances of allergens, stay in the floor from 30 cm to 50 cm, so even if the intake fan and the exhaust fan provided on the ceiling side are driven, the exhaust gas is exhausted. Difficult to do.

In particular, in recent years, many patients with allergic constitutions have become a social problem with the generation of chemical substances such as formaldehyde mainly due to adhesives contained in furniture and construction materials. Further, it has been known that CO ₂ generated from the human body reaches a high concentration during the growth period such as elementary school students.

Therefore, it is possible to establish an indoor environment control system capable of taking in fresh outside air into a room while exhausting not only gases such as CO and methane gas which are lighter than air but also gases such as CO ₂ and formaldehyde which are heavier than air. Is desired.

Therefore, the present invention focuses on the above-mentioned problems, and not only the gas lighter than the air but also the gas heavier than the air is exhausted, and the fresh air outside is taken into the room to obtain the indoor air. It is an object of the present invention to provide an indoor environment control system capable of maintaining a healthy environment at all times.

[0008]

The invention according to claim 1 made in order to solve the above problems, an exhaust fan provided in an opening on the ceiling side of the room, and an opening on the underfloor side of the room. And a gas concentration detecting means provided in the room for detecting the concentrations of a plurality of kinds of gases, and the exhaust fan and the intake fan based on the detection result of the gas concentration detecting means. And a drive control means for controlling the driving of the indoor environment control system.

According to the first aspect of the invention, the exhaust fan is provided in the opening on the ceiling side in the room. An intake fan is provided in the opening below the floor in the room. A gas concentration detecting means is provided in the room and detects the concentrations of plural kinds of gases. The drive control means controls the drive of the exhaust fan and the intake fan based on the detection result of the gas concentration detection means.

Therefore, if the exhaust fan and the intake fan are driven at the same time, air can flow from the intake fan under the floor to the exhaust fan on the ceiling.
Therefore, the gas staying near the underfloor is pushed up near the ceiling by the fresh air from the intake fan and is exhausted from the exhaust fan. That is, not only gas that is lighter than air and stays near the ceiling, but also gas that is heavier than air and stays near the floor can be exhausted from the exhaust fan provided on the ceiling side. Fresh air can also be taken into the room. Moreover, since an exhaust fan is originally installed on the ceiling side in a room in general, the system can be easily realized in such a room only by installing an intake fan under the floor. .

According to a second aspect of the present invention, in the indoor environment control system according to the first aspect, in the drive control means, only a gas of a type lighter than air exceeds a set concentration set for each of the gas types. At this time, the exhaust fan is driven, and when the gas of a kind heavier than air exceeds the set concentration, both the exhaust fan and the intake fan are driven. Exist in.

According to the second aspect of the present invention, when only the gas of a kind lighter than air exceeds the set concentration set for each gas type, the exhaust fan is driven to set the gas of a kind heavier than air to the set value. When the concentration is exceeded, both the exhaust fan and the intake fan are driven. Therefore, paying attention to the fact that the gas lighter than air can be exhausted only by driving the exhaust fan provided on the ceiling side, and if the gas lighter than the air exceeds the set concentration, both the exhaust fan and the intake fan will be exhausted. There is no drive.

According to a third aspect of the present invention, there is provided the indoor environment control system according to the first aspect, wherein the intake fan is provided on an indoor door.

According to the third aspect of the present invention, by providing the intake fan on the indoor door, it is not necessary to provide an opening for the intake fan on the interior wall, and only the door with the intake fan is replaced. It is possible to easily install an intake fan under the floor.

The invention according to claim 4 is the indoor environment control system according to any one of claims 1 to 3, further comprising an opening / closing plate that opens and closes an opening in which the intake fan is provided. It exists in the characteristic indoor environment control system.

According to the invention described in claim 4, the opening and closing plate comprises:
Open and close the opening where the intake fan is installed. Therefore, when it is not necessary to drive the intake fan, if the opening / closing plate is used to close the opening, it is possible to prevent cold air or hot air from entering the room.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing an embodiment of a room incorporating an indoor environment control system. As shown in the figure, in rooms such as classrooms, hospital rooms, conference rooms, Shinkansen guest rooms, study rooms in private houses, and kitchens, the exhaust fan 10 installed in the ceiling-side opening of the room and the indoor An intake fan 20 provided in an opening on the underfloor side and a gas concentration detection unit 30 having a sensor for detecting the concentrations of a plurality of types of gas are provided.

As the exhaust fan 10 described above, it is conceivable to use a ventilation fan originally provided in the room or an exhaust fan provided in the cooling and heating device. The intake fan 20 is a personal computer or a cooling rotary fan for electric appliances, and is built in a door that leads from the room to the outside. Further, an opening / closing plate 40 for opening / closing the opening is provided at the opening where the intake fan 20 is provided. In addition, the gas concentration detection unit 30 described above includes a plurality of types of gas sensors such as a CO sensor, a methane sensor, a CO ₂ sensor, and a formaldehyde sensor.

Next, the electrical configuration of the above-mentioned indoor environment control system will be described with reference to FIG. As shown in the figure, the gas concentration detection unit 30 (= gas concentration detection means)
Is a microcomputer 50 (hereinafter referred to as μCOM50)
And supplies the detection result to the μCOM 50.

The above-mentioned μCOM 50 is a central processing unit (CPU) 50a that performs various processes and controls according to a predetermined program, and a ROM 50 that is a read-only memory that stores programs for the CPU 50a.
b, a RAM 50c, which is a readable / writable memory having various areas for storing various data and having an area necessary for the processing work of the CPU 50a, is incorporated.

Further, the above-mentioned μCOM 50 is used for the motor 6
Drives of the exhaust fan 10 and the intake fan 20 are controlled via 0 and 70. The μCOM 50 further controls the opening / closing of the opening / closing plate 40 via the motor 80. The opening / closing drive of the opening / closing plate 40 may be performed by using a stroke solenoid valve in addition to the case of using the motor 80 as described above.

The operation of the indoor environment control system having the above-mentioned configuration will be described below with reference to the flowchart showing the processing procedure of the CPU 50a in FIG. The CPU 50a starts its operation when the power is turned on, and in an initial step (not shown), initializes various areas formed in the RAM 50c in the μCOM 50, and then proceeds to the first step S1. In this initial step, the opening / closing plate 4
0 is a closed state, and the opening of the intake fan 20 is closed.

In step S1, the CPU 50a
The concentration detection results of CO gas, methane gas, CO ₂ gas, and formaldehyde gas supplied from the gas concentration detection unit 30 are fetched. Next, the CPU 50a determines, based on the above detection result, whether or not any of CO gas, methane gas, CO ₂ gas, and formaldehyde gas has a gas concentration equal to or higher than the set concentration set for each gas (step S2).

If there is no gas having a concentration higher than the set concentration (N in step S2), the CPU 50a determines that there is no gas in the room enough to adversely affect the human body, and returns to step S1. On the other hand, if there is a gas having a concentration equal to or higher than the set concentration (Y in step S2), then the CPU 50a determines whether or not the gas heavier than air has a concentration equal to or higher than the set concentration (step S3).

If only a gas such as CO gas or methane gas, which is lighter than air, is at or above the set concentration (step S3)
Y), the CPU 50a then drives the exhaust fan 10 via the motor 60 (step S4). The driving time of the exhaust fan 10 is set by the CPU 50a based on the concentration of the gas having a concentration equal to or higher than the set concentration and being lighter than the air, so that the gas having the concentration can be discharged from the room to the outside. By driving the exhaust fan 10, the high-concentration gas, which is lighter than air and stays near the ceiling, is exhausted to the outside from the exhaust fan 10 provided on the ceiling side. Then C
The PU 50a returns to step S1.

On the other hand, if the gas such as CO ₂ or formaldehyde that is heavier than air is higher than the set concentration (N in step S3), the CPU 50a next opens the opening / closing plate 40 via the motor 80. (Step S5), after opening the opening of the intake fan 20, the motors 60 and 7 are opened.
Both the exhaust fan 10 and the intake fan 20 are driven via 0 (step S6).

The drive time of the exhaust fan 10 and the intake fan 20 is set by the CPU 50a based on the concentration of a gas that is heavier than air and has a concentration equal to or higher than the set concentration, and at a time when the gas having the concentration can be discharged from the room to the outside. . By driving the exhaust fan 10 and the intake fan 20, the intake fan 20 on the underfloor side to the exhaust fan 1 on the ceiling side is driven.
There is a flow of air towards 0. Therefore, the gas staying near the underfloor is pushed up near the ceiling by the fresh air from the intake fan 20, and the exhaust fan 10
Exhausted from.

After the drive time of the exhaust fan 10 and the intake fan 20 has elapsed, the CPU 50a closes the opening / closing plate 40 via the motor 80 (step S7), and after closing the opening of the intake fan 20. , And returns to step S1.

According to the indoor environment control system having the above-described operation, by driving both the exhaust fan 10 and the intake fan 20, it is lighter than air and not only the gas staying near the ceiling but also the air. Exhaust fan 20 that is heavy and holds gas near the floor under the ceiling
It can be exhausted from outside, and fresh outside air can also be taken into the room.

Moreover, in general, since the exhaust fan 10 is originally installed on the ceiling side in the room, in such a room, only the intake fan 20 is installed on the underfloor side.
This system can be easily realized.

Further, paying attention to the fact that the gas lighter than the air can be exhausted only by driving the exhaust fan 10 provided on the ceiling side, the indoor environment control system described above does not mean that the gas lighter than the air exceeds the set concentration. Only the exhaust fan 10 is driven without driving both the exhaust fan 10 and the intake fan 20. Thereby, energy saving can be achieved.

In addition, in the indoor environment control system, the intake fan 20 is provided on the indoor door.
As a result, it is not necessary to provide an opening for the intake fan 20 on the interior wall, and the intake fan can be easily installed on the underfloor side simply by replacing the door with the intake fan 20 built-in, which requires a large-scale construction. Not.

Further, an opening / closing plate 40 for opening / closing an opening portion provided with the intake fan 20 is provided, and the intake fan 2
When it is not necessary to drive 0, if the opening / closing plate 40 is used to close the opening, it is possible to prevent cold air or hot air from entering the room.

In the above embodiment, the exhaust fan 10 is operated when only the gas lighter than the air exceeds the set concentration.
Was only driving. However, it is also conceivable to drive both the exhaust fan 10 and the intake fan 20 even when the gas lighter than air exceeds the set concentration.

[0035]

As described above, according to the first aspect of the invention, not only gas that is lighter than air and stays near the ceiling, but also gas that is heavier than air and stays near the floor is also present. The air can be exhausted from the exhaust fan provided on the ceiling side, and fresh air outside can also be taken into the room. Moreover, in general, since an exhaust fan is originally installed on the ceiling side in a room, in such a room, it is only necessary to install an intake fan on the underfloor side.
Since this system can be easily realized, it is possible to obtain an indoor environment control system that can keep indoor air always in a healthy environment at low cost.

According to the second aspect of the present invention, attention is paid to the fact that the gas lighter than air can be exhausted only by driving the exhaust fan provided on the ceiling side, and if the gas lighter than air exceeds the set concentration. Since neither the exhaust fan nor the intake fan is driven, it is possible to obtain an energy-saving indoor environment control system.

According to the third aspect of the present invention, by providing the intake fan on the indoor door, it is not necessary to provide an opening for the intake fan on the interior wall, and only the door with the intake fan is replaced. Since it is possible to easily install an intake fan under the floor, there is no need for large-scale construction,
It is possible to obtain an indoor environment control system that reduces costs.

According to the invention described in claim 4, when the opening fan is used to close the opening when it is not necessary to drive the intake fan, cold air or hot air can enter the room from below. Therefore, it is possible to obtain an indoor environment control system capable of maintaining a comfortable indoor environment.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of a room incorporating an indoor environment control system of the present invention.

FIG. 2 is an electrical configuration diagram of the indoor environment control system of FIG.

FIG. 3 is a CPU constituting the indoor environment control system of FIG.
It is a flow chart which shows a processing procedure of 50a.

[Explanation of symbols] 10 exhaust fan 20 Intake fan 30 Gas concentration detector (gas concentration detector) 40 open / close plate 50a CPU (drive control means)

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Toshi Akiyama             6-1-1 Heiwajima, Ota-ku, Tokyo (Tokyo distribution             Center Building 4F) Yazaki Co., Ltd.             In Suar M F term (reference) 3L056 BD01 BD05 BF06

Claims (4)

[Claims] 1. An exhaust fan provided in an opening on the ceiling side in a room, an intake fan provided in an opening on the underfloor side in the room, and a concentration of a plurality of kinds of gas provided in the room An indoor environment control system comprising: a gas concentration detecting unit that detects the exhaust gas, and a drive control unit that controls driving of the exhaust fan and the intake fan based on a detection result of the gas concentration detecting unit. 2. The indoor environment control system according to claim 1, wherein the drive control means, when only a gas type lighter than air exceeds a set concentration set for each gas type, the exhaust fan. And driving both the exhaust fan and the intake fan when the type of gas heavier than air exceeds the preset concentration. 3. The indoor environment control system according to claim 1, wherein the intake fan is provided on an indoor door. 4. The indoor environment control system according to claim 1, further comprising an opening / closing plate that opens and closes an opening in which the intake fan is provided. system.