JPH02302536A - Air-conditioner - Google Patents

Abstract

PURPOSE:To send out clean air free from a bad small by forming a bypass air channel for returning part of air passing through a heat exchanger to an air channel between an air intake port and the heat exchanger, by providing an ozonizer and a fan in the bypass air channel and by providing an ozone dissolving device in front of an air blowoff port. CONSTITUTION:Air in a room is taken into an air channel 3 from an air intake port 1 by a fan 5 and passed through a heat exchanger 4 to be heated or cooled. A prescribed quantity of the air is introduced into a bypass air channel 10 from a suction port 12 by a fan 14. The introduced air is turned by an ozonizer 13 into air containing ozone, and this air is returned from a discharge port 11 to the air channel 3 and mixed with the air introduced from the air intake port 1 in a labyrinth space 8, so as to be air containing ozone uniformly. The air containing ozone decomposes and exterminates an air-pollution substance, mold and germs sticking to or being present to in the air channel 3 and the heat exchanger 4. After passing through the heat exchanger 4, the air containing ozone is dissolved by an ozone dissolving device 6 and blown off from an air blowoff port 2.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to an air conditioner, and more particularly to an air conditioner that uses ozone to sterilize and decompose air pollutants.

<Conventional technology> Conventionally, indoor units of air conditioners have heat exchangers that heat or cool the air taken in from the air intake in the air flow path formed between the air intake and the air outlet. A fan is installed to draw air into the air passage.

In the air conditioner, air is taken into the air flow path by the fan, heated or cooled by the heat exchanger,
Send hot or cold air from the air outlet.

<Problems to be Solved by the Invention> By the way, in the air, especially in the air of a living space, there are air pollutants such as tar contained in smoke, bacteria, mold spores, etc.

Air contaminants adhere to the air passages, heat exchangers, etc. of air conditioners that come into contact with air containing the above-mentioned air contaminants, molds, and bacteria, and molds and bacteria also adhere to and proliferate. especially,
When an air conditioner is used as a cooling device, condensation forms on the heat exchanger and air flow path, making it easier for mold and bacteria to grow.

As a result, there has been a problem in that the hot or cold air sent out from the air conditioner has a foul odor or contains mold and bacteria.

In order to remove bad odors from hot or cold air sent out from an air conditioner, a deodorizing agent is provided between the heat exchanger and the air outlet (see Japanese Utility Model Publication No. 1988-1921215). However, in this case, the deodorizing effect of the deodorizing agent quickly deteriorates, requiring frequent replacement of the deodorizing agent, which has the disadvantage of requiring a great deal of effort and expense for maintenance.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an air conditioner that is free from bad odors, can send out clean air, and requires less maintenance effort and cost.

Means for Solving the Problem> In the air conditioner of the present invention, a part of the air that has passed through the heat exchanger (4) is transferred to the air between the air intake port <1) and the heat exchanger (4). A bypass air flow path (10) is formed which returns to the flow path (3), and the bypass air flow path (10) is formed.
10> is provided with a fan (14) that forcibly recirculates the air introduced into the ozone generator (13) and the bypass air flow path (10) to the air flow path (3), and an air outlet (2). ) and the heat exchanger (4).
) is provided.

In addition, as the air conditioner, a bypass air flow path (10
It is particularly preferable that the air flow path (3) upstream of the exhaust port (11) of the air conditioner is provided with a valve (7) that closes the air flow path (3) when the air conditioner is stopped.

According to the air conditioner having the above configuration, a part of the air that has passed through the heat exchanger (4) is transferred between the air intake port (1) and the heat exchanger (4).
A bypass air flow path (10) is formed between the bypass air flow path (10) and the bypass air flow path (10), in which the air introduced into the bypass air flow path (10) is returned to the air flow path (3). Since the bypass air flow path (10) is provided with a fan (14) to ) will be introduced. In particular, when air is cooled by the heat exchanger (4), dehumidified air suitable for generating ozone is introduced into the bypass air flow path (10).

Further, since the bypass air flow path (10) is provided with an ozone generator (13), the air flowing into the bypass air flow path (10) is transferred to the ozone generator (13).
The air contains the ozone generated in step 3). In this case, since a constant amount of air is always introduced into the bypass air flow path (10) by the fan (14), the ozone generation efficiency in the ozone generator (13) is high.

The air containing ozone is returned to the air flow path (3) between the air intake (1) and the heat exchanger (4) by the fan (14), and is then recirculated to the air intake (1). The air flows through the air flow path (3) toward the air outlet (2) together with the air taken in from the air outlet.

Ozone has air pollutant decomposition and sterilizing effects, so when air containing ozone flows through the air flow path (3), it adheres to the air flow path (3) and the heat exchanger (4). Ozone decomposes and kills air pollutants, mold, and bacteria.

Air with a high concentration of ozone is not good for the human body, but an ozone decomposition device (6) is installed between the heat exchanger (4) and the air outlet (2), and the air containing ozone is
After passing through the heat exchanger (4), the ozone decomposition device (6)
and is sent out from the air outlet (2). Therefore, the ozone in the air that has passed through the heat exchanger (4) is decomposed by the ozone decomposition device (6), and there is no risk that air with a high ozone concentration will be sent out from the air outlet (2).

Furthermore, the heat exchanger (4), ozone generator (13), ozone decomposition device (6), etc. used in this air conditioner can be used for a long period of time, so there is no need for frequent maintenance.

In addition, in this air conditioner, a bypass air flow path (10
) If a valve (7) that closes the air flow path (3) when the air conditioner is stopped is installed in the air flow path (3) upstream of the exhaust port (■1) of the By operating the ozone generator (13) and the fan (14) in the closed state, the concentration of ozone in the air flow path (3) can be increased. Therefore, it is possible to more effectively decompose air pollutants and sterilize mold and bacteria in the air flow path (3).

<Example> Next, an example of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic diagram showing an indoor unit of an air conditioner according to the present invention.

In this air conditioner, an air flow path (3) is formed between an air intake port (1) and an air outlet (2), and a heat exchanger (4) is installed in the air flow path (3). A fan (5) for feeding air into the air flow path (3) is provided between the heat exchanger (4) and the air outlet (2).

Further, an ozone decomposition device (ra) is provided between the heat exchanger (4) and the fan (5).

Furthermore, this air conditioner has an air intake port (12) between the heat exchanger (4) and the ozone decomposition device (6), and an air intake port (12) between the heat exchanger (4) and the air intake port (1). Exhaust port (11
) with a bypass air flow path ([0). The bypass air flow path 00) includes an ozone generator (13).
A fan (4) is also provided to forcibly recirculate the air introduced into the bypass air flow path (10) to the air flow path (3).

Further, a labyrinth space (8) consisting of a plurality of baffle plates (81) is provided between the exhaust port (11) of the bypass air flow path (10) and the heat exchanger (4).

In addition, as the said ozone generator (13), for example,
Ordinary ozone generators such as ozonizers that generate ozone by silent discharge can be used.

Further, as the ozone decomposition device (6), for example, an ozone decomposition catalyst made of a composite oxide mainly composed of titanium oxide, an ozone decomposition catalyst mainly composed of manganese dioxide and copper oxide, etc. can be used. Ru.

With the above configuration, the indoor air is fed by the fan (5)
The air is taken into the air flow path (3) from the air intake (1), passes through the heat exchanger (4), and is heated or cooled. Then, a certain amount of the heated or cooled air is introduced into the bypass air flow path 00) from the intake port (12) by the fan (14). In particular, when air is cooled by the heat exchanger (4), dehumidified air suitable for ozone generation is introduced into the bypass air flow path (10).

The air introduced into the bypass air flow path 00) is
The air contains ozone generated by the ozone generator 13). In this case, the bypass air flow path (10)
Since a constant amount of air always flows through the bypass air flow path 00) by the fan (14) provided in the ozone generator (13), the ozone generation efficiency by the ozone generator (13) is high.

The air containing ozone is returned to the air flow path (3) from the exhaust port (11), and is mixed with the air newly introduced from the air intake port (1) in the labyrinth space (8) to form the air flow path. (3) flows toward the air outlet (2). Therefore, the entire air flowing through the air flow path (3) almost uniformly contains ozone.

Ozone has air pollutant decomposition and sterilizing effects, so when air containing ozone flows through the air flow path (3), it may adhere to the air flow path (3) or the heat exchanger (4). It is possible to more reliably break down and sterilize air pollutants, mold, and bacteria.

Furthermore, since an ozone decomposition device (6) is provided between the heat exchanger (4) and the air outlet (2), the ozone-containing air passes through the heat exchanger (4). It passes through an ozone decomposition device (6). And the air outlet (2
), the ozone contained in the air that has passed through the heat exchanger (4) is sent to the outside from the ozone decomposition device (6).
), and there is no risk of air with high ozone concentration being sent out through the air outlet (2).

Furthermore, the heat exchanger (4) and the ozone generator (13)
Since the ozone decomposition device (6) can be used for a long period of time, there is no need for frequent maintenance.

FIG. 2 is a schematic diagram showing another embodiment of the air conditioner according to the present invention.

The indoor unit of this empty 1kl device is a valve (7) that is opened by a motor, solenoid, etc. in conjunction with the operation of the air conditioner.
It is provided at the air intake (1). Further, a timer is provided that operates the ozone generator (13) and fan (14) for a predetermined period of time with the air conditioner stopped and the valve (7) closed. According to this embodiment, when the ozone generator (13) is in operation, the fan (14)
) or the air is forced to circulate between the air flow path (3) and the bypass air flow path (10), so the concentration of ozone in the air flow path (3) and the bypass air flow path (10) increases. do. Therefore, it is possible to more reliably decompose air pollutants and sterilize mold and bacteria in the air flow path (3).

The air conditioner of the present invention is not limited to the above-mentioned embodiments, and for example, the valve (7) may be used to control the air flow generated in the air flow path (3) when the fan (5) is operated. It is also possible to use a louver that opens due to wind pressure. Furthermore, various modifications can be made, such as providing the fan (5) between the air intake port (1) and the U1 air port (11) in the air flow path (3).

<Effects of the Invention> As described above, according to the air conditioner of the present invention, air containing ozone flows through the air flow path (3).
3) and air pollutants adhering to the heat exchanger (4),
Mold and bacteria are decomposed and sterilized. Therefore, hot air and cold air blown out from the air conditioner can be kept clean.

Furthermore, the ozone-containing air that has passed through the heat exchanger (4) passes through the ozone decomposition device (6) and is then passed through the air outlet (2).
) and is decomposed by the ozone decomposition device (6), so there is no risk of air with a high ozone concentration being sent out from the air outlet (2).
It's safe.

Furthermore, there is no need for frequent maintenance.
Maintenance efforts and costs are reduced.

Further, a valve (7) for closing the air flow path (3) when the air conditioner is stopped is provided in the air flow path (3) upstream of the exhaust port (11) of the bypass air flow path (10). In case,
By increasing the concentration of ozone in the air flow path (3), it is possible to more effectively decompose air pollutants and sterilize mold and bacteria, making the hot and cold air blown from the air conditioner cleaner. It has the unique effect of being able to be used as something.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing an indoor unit of one embodiment of an air conditioner according to the present invention, and FIG. 2 is a schematic diagram showing an indoor unit of another embodiment. (1) Air intake, (2) Air outlet,
(3)...Air flow path, (4)...Heat exchanger, (5)
...Fan, (6)...Ozone decomposition device, (7).
Valve, (10)... Bypass air flow path, (11)...
Exhaust port, (13)...Ozone generator, (4)...
·fan.

Claims (1)

[Claims] 1. A heat exchanger (4) is provided in the air flow path (3) between the air intake port (1) and the air outlet (2), and a heat exchanger (4) is provided in the air flow path (3). An air conditioner having a fan (5) that introduces air, the air conditioner having a fan (5) that introduces a part of the air that has passed through the heat exchanger (4) into an air flow between the air intake (1) and the heat exchanger (4). A bypass air flow path (10) is formed that returns to the path (3), and the bypass air flow path (10) includes an ozone generator (13) and an ozone generator (13) that is introduced into the bypass air flow path (10). A fan (14) for forcibly returning air to the air flow path (3) is provided, and an ozone decomposition device (6) is provided between the air outlet (2) and the heat exchanger (4). An air conditioner characterized by: 2. A valve (7) that closes the air flow path (3) when the air conditioner is stopped is provided in the air flow path (3) upstream of the exhaust port (11) of the bypass air flow path (10). The air conditioner according to claim 1.