JPH11132488A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner which can supply a deodor or aromatic chemical component into a room from an indoor unit and can satisfy the demand of user for indoor environment sufficiently. SOLUTION: The air conditioner comprises a unit 1 for supplying a deodor or aromatic chemical disposed in an indoor unit, and an outlet 7 of air containing the chemical component evaporated at the evaporating section of the chemical supply unit 1 disposed closely to the diffuser 39(45) of the indoor unit. Alternatively, the evaporating section of the chemical supply unit 1 in the indoor unit is disposed in the air condition passage in the indoor unit or in the vicinity of the humidity regulated air diffuser of an air quality controller.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly to an air conditioner configured to supply a deodorant or fragrance drug component from a room unit to a room.

[0002]

2. Description of the Related Art Some air conditioners include an indoor unit mounted on a wall surface of a room to be air-conditioned and an outdoor unit (not shown) installed outside the room. Generally has an overall configuration as shown in FIG. That is, the indoor unit includes the open grill 31 and the front panel 3
2 and a cabinet 33, and an air filter 34,
Open grill 31, front panel 32, cabinet 3
3, air suction ports 35, 36, 37
Heat exchangers 38a, 38b, 38c that generate air-conditioned air A1 by dehumidifying and cooling the indoor air sucked from the air in the cooling, and heating it in the heating.
And the air outlet 3 after blowing the generated air A1.
9 is provided. The air outlet 39 is formed in the air outlet duct 41, and the air outlet duct 41 is provided at a lower position of the cabinet 33.

[0003] At this time, a horizontal wind direction plate 42 and a vertical wind direction plate 43 are arranged in the air outlet 39, and depending on the horizontal wind direction plate 42, the air A1 blown out from the air outlet 39 into the room. Is adjusted along the vertical direction, and depending on the vertical direction plate 43, the direction of the blown air of the air A1 is adjusted along the left-right direction. At the upper position of the air outlet duct 41 in which the air outlet 39 is formed, air sucked from the room through another air inlet 44 formed in the front panel 32 is separated as air A2 for wind direction control. An airflow fan 46 is provided for supplying air from the air outlet 45 to the room. The air A2 supplied from the air outlet 45 suppresses the air A1 blown out from the air outlet 39 from above to thereby reduce the air A1. It functions to further control the blowout wind direction along the vertical direction.

[0004]

However, in recent years, users have been interested in indoor environments.
An air conditioner has also been required to have a function of eliminating indoor odors and a function of improving comfort by using an aromatic agent. That is, as disclosed in Japanese Patent Application Laid-Open No. Hei 4-75659, some air conditioners for automobiles are provided with a deodorizing function and a fragrance function. It is required that a general air conditioner to have a deodorizing function and an aroma function. However, in reality, it is not possible to apply a complicated configuration of an air conditioner for a vehicle or the like to an air conditioner as it is, and an air conditioner having a deodorizing function and an aroma function that is optimally and simply configured. Need to be provided.

The present invention has been made in view of such circumstances, and it is possible to supply a deodorant or fragrance drug component from a room unit to a room, and to provide a user with an indoor environment. The purpose is to provide an air conditioner that can fully satisfy the demand.

[0006]

In an air conditioner according to a first aspect of the present invention, a medicine supply device for supplying a deodorant agent or a fragrance agent is provided in an indoor unit. The discharge port of the air containing the drug component evaporated in the evaporator is located near the air outlet of the indoor unit. When such a configuration is adopted, air containing the drug component evaporated in the evaporating section of the drug supply device is supplied to the room from the discharge port arranged near the air outlet of the indoor unit. That is, the drug component supplied into the room is diffused throughout the room while following the flow of air blown out from the air outlet of the indoor unit.

[0007] The air conditioner according to claim 2 of the present invention comprises:
A drug supply device for supplying a deodorant agent or a fragrance agent is installed in the indoor unit, and an evaporator of the drug supply device for evaporating a drug component is disposed in an air flow path in the indoor unit. It is characterized by. When such a configuration is adopted, the drug component evaporates in an air circulation path in the indoor unit, that is, in a path in which air blown by a blower fan or an airflow fan flows. The evaporated drug component diffuses throughout the room according to the flow of air blown out from the air outlet of the indoor unit.

[0008] The air conditioner according to claim 3 of the present invention comprises:
A medicine supply device for supplying a deodorizing agent or a fragrance agent is installed in the air quality control device of the indoor unit. It is characterized by being arranged near the exit. The drug component when such a configuration is employed also evaporates in the evaporating section of the drug supply device, and the evaporated drug component follows the flow of the humidified air blown out from the humidified air outlet of the air quality control device. While spreading throughout the room.

An air conditioner according to a fourth aspect of the present invention comprises:
The odor detection means is provided near the air inlet of the indoor unit, and the odor level detected by the odor detection means is a threshold value. Is characterized in that the evaporation of the drug component is stopped when the pressure does not exceed the limit. When adopting such a configuration, if the odor level detected by the odor detection means does not exceed the threshold value,
Since the evaporation of the drug component from the drug supply device is stopped, even when the deodorizing function or the fragrance function is unnecessary, it is possible to prevent the occurrence of waste such as the drug component being diffused throughout the room. It becomes possible.

[0010] The air conditioner according to claim 5 of the present invention comprises:
The method according to any one of claims 1 to 4, wherein the evaporating section of the drug supply device is provided with a means for preventing propagation of various bacteria. When such a configuration is adopted, an advantage is obtained that bacteria can be effectively prevented from growing in the evaporating section of the drug supply device where bacteria are easily generated because the drug component is always full. .
In addition, although a bad odor may be generated with the propagation of various germs, in the case of adopting the above-described configuration, it becomes difficult to generate various germs, and as a result, it is also possible to suppress the generation of a bad odor.

[0011]

Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1) FIG. 1 is a perspective view showing an external shape of an air conditioner according to Embodiment 1 as viewed from the front side thereof, and FIG. 2 shows an overall configuration of an indoor unit provided in the air conditioner. FIG. 3 is a cross-sectional view, FIG. 3 is an explanatory diagram showing a simplified configuration of the drug supply device, FIG. 4 is a schematic diagram showing a modified example of the drug supply device, and FIGS. The state seen from the inside of an indoor unit is shown. Since the overall configuration of the indoor unit at this time is not fundamentally different from the conventional embodiment, the same reference numerals are given to the same parts and portions in FIGS. 1 and 2 as those in FIG. 7 showing the conventional embodiment. ing.

The air conditioner according to the present embodiment is provided with an indoor unit and an outdoor unit (not shown) as in the prior art, and includes an open grill 31, a front panel 32, and a cabinet 33. An air outlet 39 for blowing out air-conditioned air A1 is formed in an air outlet duct 41 provided between the front panel 32 and the cabinet 33 of the indoor unit provided. Further, inside the indoor unit, there are provided an air filter 34 for removing dust in the air sucked from the room, heat exchangers 38a, 38b, 38c, and a blower fan 40. Each of 38b and 38c dehumidifies and cools the air sucked from the air inlets 35, 36, and 37 of the open grill 31, the front panel 32, and the cabinet 33 through the air filter 34, and cools the air while heating. The heating fan generates air-conditioned air A1 while the blower fan 40 blows the air A1 and then blows the air A1 from the air outlet 39.

In the air outlet 39 of the air outlet duct 41 provided at the lower part of the cabinet 33, a horizontal wind direction plate 42 for adjusting the blow direction of the air A1 in the vertical and horizontal directions. And the vertical wind direction plate 43 are respectively arranged. At this time, another air outlet is provided at the upper position of the air outlet duct 41 through another air inlet 44 formed in the front panel 32 as air A2 for controlling the wind direction. An airflow fan 46 is provided from the airflow fan 45 to the room.
The air A2 blown out from 5 has a function of further controlling the blown air direction along the vertical direction of the air A1 by suppressing the air A1 from above.

On the other hand, a medicine supply device, that is, a medicine supply device 1 for supplying a deodorant medicine or a fragrance medicine is installed in the indoor unit, and the medicine supply apparatus 1 is installed in the indoor unit. Have been. That is, as shown in FIG. 3, the medicine supply device 1 includes a cassette-type medicine liquid bottle 2 storing a medicine liquid (not shown) which is a stock solution of a deodorant medicine or an aromatic medicine, and An evaporating plate 4 arranged along the central axis direction of the liquid bottle 2 and abutting the outer end surface of a suction shaft core 3 for sucking up a drug solution by utilizing a capillary phenomenon, and a storage holder for positioning and supporting these. 5, and
The drug supply device 1 is installed in an indoor unit by mounting the storage holder 5 in an openable / closable state with respect to an opening (not shown) formed in the front panel 32 of the indoor unit. Note that the deodorant agent and the aroma agent here are preferably plant-based such as hinokitiol, but are not necessarily plant-based, and the drug solution stored in the drug solution bottle 2 is not necessary. Needless to say, the stock solution may be diluted with water, alcohol, oil or the like.

At this time, the suction shaft core 3 constituting the medicine supply device 1 is made of a fiber bundle, a porous ceramic or the like, while the evaporating plate 4 is made of insoluble paper, fiber or porous ceramic. The evaporating section of the medicine supply device 1 is constituted by the outer end face of the suction shaft core 3 and the evaporating plate 4 which are in contact with each other. That is, the drug solution stored in the drug solution bottle 2 passes through the suction shaft core 3 and is absorbed by the evaporating plate 4, and spreads over the entire evaporating plate 4 having a large surface area in contact with air and evaporates. Thus, the drug component contained in the air is drifting around the evaporating section composed of the suction shaft core 3 and the evaporating plate 4. From the viewpoint of increasing the surface area, it is considered effective to form the evaporating plate 4 in a mesh shape. Further, a storage holder 5 supporting the drug solution bottle 2 and the evaporating plate 4
An opening window 6 (see FIG. 1) for confirming the amount of the drug solution may be formed at a position facing the drug solution bottle 2. If such an opening window 6 is formed, the drug solution bottle 2 may be formed. The state in which the amount of the drug solution stored in the storage unit is reduced can be visually recognized from the front side of the indoor unit.

Further, although not shown, a compression spring is provided between the outer bottom surface of the chemical liquid bottle 2 and the storage holder 5, or alternatively, the inner bottom surface of the chemical liquid bottle 2 and the inner end surface of the suction shaft core 3. It is also possible to press the outer end face of the suction shaft core 3 against the evaporating plate 4 by providing a compression spring between the evaporating plate 4 and the evaporating plate. An advantage is obtained in that the supply of the drug solution to 4 is ensured. Further, in the above description, the suction core 3 is the chemical liquid bottle 2.
Although it is assumed that the drug solution stored in the bottle is sucked up, the present invention is not limited to such a configuration, and the sucking shaft core 3 itself has previously absorbed the drug solution. Needless to say, a configuration in which the drug solution is not stored may be employed.

Further, in the vicinity of the air outlet 39 formed in the air outlet duct 41 constituting the indoor unit (or the air outlet 45 formed in the front panel 32), the evaporating section of the medicine supply device 1 evaporates. A discharge port 7 through which the air containing the drug component flows out is arranged, and between the evaporating section of the drug supply device 1 installed in the indoor unit and the discharge port 7 via the storage holder 5. A path (not shown) through which air containing a drug component flows is formed.
Therefore, the air containing the drug component evaporated in the evaporating section of the drug supply device 1 is supplied into the room from the discharge port 7 arranged near the air outlet 39 (or the air outlet 45) of the indoor unit. The drug component supplied to the room is diffused throughout the room while following the flow of the air A1 (or the air A2 supplied from the air outlet 45) blown out from the air outlet 39 of the indoor unit. Become.

Meanwhile, the medicine supply device 1 assembled in the indoor unit according to the present embodiment includes a medicine liquid bottle 2 in which a suction shaft core 3 is disposed, an evaporating plate 4, and a storage holder 5. However, it is desirable to have a modified configuration as described below with reference to FIG. That is, the medicine supply device 1 having a modified configuration includes a small blower fan 8 manufactured using a piezoelectric element or the like that bends and deforms in response to voltage application. Reference numeral 8 is provided at a position facing the evaporating plate 4. In other words, the blower fan 8 at this time causes the evaporating plate 4 with which the suction shaft core 3 does not contact.
Is arranged so as to face the surface of the evaporator, and as a result of applying the air blown from the blower fan 8, the evaporation of the drug component in the evaporator plate 4 is promoted.
Then, the air containing the evaporated drug component is supplied into the room from the discharge port 7 formed in the indoor unit, and diffuses throughout the room while following the flow of the air A1 or the air A2.

Alternatively, as shown in FIG. 4, a thin plate-shaped shutter 9 is provided between the outer end surface of the suction shaft core 3 and the evaporating plate 4 so as to be able to move forward and backward.
It is also possible to adopt a modified configuration in which the supply of the chemical liquid from the suction shaft core 3 to the evaporating plate 4 is blocked by the advance operation of the shutter 9. That is, the shutter 9 here is a permanent magnet 10 attached to the outer end.
And an attraction force and a repulsion force acting between the electromagnet 11 and the electromagnet 11 disposed outside thereof, and execute the forward / backward operation while being guided by a guide member (not shown). In addition, it moves forward and backward in response to power supply to the electromagnet 11 in response to operation of a separately provided switch or the like. By properly using the shutter 9 having such a configuration, even when it is unnecessary to diffuse the drug component in the room to be air-conditioned, it is possible to eliminate waste such as the drug component being diffused throughout the room. ,
The advantage is obtained that the chemical liquid bottle 2 can be used for a long time.

Although not shown, the evaporating section of the drug supply device 1, that is, the evaporating portion of the drug supply device 1 composed of the outer end surface of the suction shaft core 3 and the evaporating plate 4, is provided with various bacteria. It is preferable to provide a means for preventing breeding. In other words, the evaporating section of the drug supply device 1 described above is in a state in which various bacteria are easily generated because the drug component is always full. If a substance having such a sterilizing ability is added or a substance having an antibacterial effect such as thiabenzazole is added, propagation of various bacteria in the evaporating section of the drug supply device 1 is suppressed, In addition, there is obtained an advantage that generation of offensive odor due to propagation of various bacteria is suppressed.
Also, instead of adding these substances, for example,
Even if a germicidal lamp that is periodically turned on is provided, it is possible to prevent the propagation of various bacteria. It is to be noted that it is preferable to provide a means for preventing the propagation of such germs in the second to fourth embodiments described below.

(Embodiment 2) In Embodiment 1, a medicine supply device 1 for supplying a deodorant agent or a fragrance agent is installed in an indoor unit, and a suction shaft core 3 and an evaporating plate are provided. The discharge port 7 of the air containing the drug component evaporated in the evaporating section of the drug supply device 1 is arranged near the air outlet 39 (45) of the indoor unit. However, the gist of the present invention is not limited to only the configuration shown in Embodiment 1, and the evaporating section of the drug supply device 1 for evaporating the drug component is arranged in the air circulation path in the indoor unit. It is also possible. Therefore,
Hereinafter, various specific examples when such a configuration is adopted will be described with reference to FIG. 2 which is a cross-sectional view showing the overall configuration of the indoor unit. Note that the configurations of the indoor unit and the drug supply device are basically not different from those of the first embodiment, and thus detailed description thereof will be omitted.

As in the first embodiment, an air filter 34, heat exchangers 38a, 38b, and 38c are provided inside an indoor unit provided in the air conditioner according to the present embodiment.
The blower fan 40 and the airflow fan 46 are provided after being positioned with respect to each other. The indoor unit includes a medicine supply device 1, that is, a medicine liquid bottle 2, and an evaporating plate 4 with which an outer end surface of a suction shaft core 3 inserted in the medicine liquid bottle 2 abuts. The evaporating section of the drug supply device 1, which includes the outer end surface of the suction shaft core 3 and the evaporating plate 4, has a circulation path through which air sucked from the room by the blower fan 40 passes. Are disposed at an intermediate position X between the air filter 34 and the heat exchanger 38a which constitute a part of the heat exchanger 38.

The evaporating plate 4 at this time is provided with a bent portion 4a orthogonal to the flow of air flowing from the air filter 34 to the heat exchanger 38a, as schematically shown in the modified example of FIG. It is preferable that the drug component supplied from the suction shaft core 3 and spread to the bent portion 4a of the evaporating plate 4 and evaporated is an air filter 3
4 will be included in the air that has passed. The air containing the drug component is supplied to the heat exchangers 38a, 38b,
The air A1 is conditioned by heat exchange by the air 38c, passes through the vicinity of the blower fan 40, and then passes through the air outlet 39 of the air outlet duct 41 arranged at the lower position of the cabinet 33 to the room. The air A1 containing the drug component diffuses throughout the room.

In the above description, the evaporating section of the drug supply device 1 is connected to the air filter 34 and the heat exchanger 38a.
However, the present invention is not limited to this position. For example, the evaporating section of the medicine supply device 1 including the outer end face of the suction shaft core 3 and the evaporating plate 4 is Neighboring positions Y _{1 to} Y ₃ (see FIG. 2), that is, they may be arranged at positions around the blower fan 4 which constitutes a part of the air flow path. Has the same effect as described above. Also,
For example, the evaporating section of the medicine supply device 1 can be arranged in a position Z (see FIG. 2) near the airflow fan 46 in the airflow path in which the air A2 blown by the airflow fan 46 flows. In such a configuration, the drug component evaporated in the evaporating section of the drug supply device 1 is
As a result of being contained in the air A2 sucked from the second air suction port 44 and being blown into the room from the air outlet 45, the air A2 containing the drug component is diffused throughout the room.

(Embodiment 3) In recent years, an air quality control device such as a humidifying device disclosed in Japanese Patent Application No. 8-220902, that is, a humidifying function, a dehumidifying function, or a ventilation function is provided. It has been proposed to add an air quality control device configured to exhibit to an indoor unit included in an air conditioner, and in an indoor unit to which such an air quality control device is added, implementation of The following configuration described as the third embodiment can be adopted. The evaporating plate 4 in the third embodiment also has a bent portion 4a as shown in the modification of FIG. 5, if necessary.

That is, in the second embodiment, the evaporating section of the drug supply device 1 for evaporating the drug component is disposed in the air circulation path in the indoor unit, but the air quality control device is assembled to the indoor unit. In the air conditioner according to the third embodiment, as shown schematically in FIG. 6, only a main part is schematically shown, a medicine supply device 1 for supplying a deodorant agent or a fragrance agent is provided with an air quality control device of an indoor unit. (Not shown), and the evaporating section of the medicine supply device 1 is located at a position near a humidified air outlet 14 formed in a humidified air generator 13 provided in the air quality control device. That is, the evaporating section of the drug supply device 1 including the outer end surface of the suction shaft core 3 and the evaporating plate 4 is arranged.

The drug component when such a configuration is adopted is also evaporated in the evaporating section of the drug supply device 1, and the evaporated drug component is sent from the humidified air outlet 14 of the humidified air generator 13. The air is diffused throughout the room while following the flow of the conditioned air A3 blown into the room. In FIG. 6, the evaporating plate 4 is provided so as to close the air passage of the humidity control air outlet 14, but it is needless to say that the evaporating plate 4 may be provided along the wall surface of the air passage.

(Embodiment 4) Further, in the indoor unit provided in the air conditioner described in each of Embodiments 1 to 3, it is also possible to adopt a configuration as described below as Embodiment 4. It is. Note that the configurations of the indoor unit and the drug supply device in the fourth embodiment are also basically the same as those in the first to third embodiments. Therefore, detailed descriptions of these configurations will be omitted, and the fourth embodiment will be described. Is assumed to be provided with the medicine supply device 1 shown in the modified configuration of FIG.

An indoor unit according to the fourth embodiment of the present invention includes:
As in the first to third embodiments, the air conditioner includes an open grill 31 and a front panel 32, and a cabinet 33. For each of these, the indoor air is sucked into the indoor unit. Air inlets 35, 36, 37 are formed. As shown in FIG. 2, odor detection means, specifically, ammonia, sulfur, etc., which are the main components of the odor, are detected at a position near the air inlet 37 formed in the cabinet 33. An odor sensor 17 having a configuration that can be used is provided. Here, the air suction port 37 of the cabinet 33 is used.
, The odor sensor 17 is provided at a position near the air inlet 35 formed in the open grill 31.
Of course, it may be near the air inlet 36 formed in the front panel 32 or the like.

Incidentally, the air conditioner generally includes a microcomputer (not shown) which is a control means for controlling the operation. The air conditioner according to the present embodiment has a microcomputer. The detection output from the odor sensor 17 is to be input to the computer. Depending on the microcomputer, the odor level of the suction air detected by the odor sensor 17 provided in the vicinity of the air suction port 37, that is, the air odor level of the air A1 sucked from the room and becoming air-conditioned air A1 is obtained. It is determined whether or not a predetermined threshold value that has been set in advance is exceeded. Therefore, when it is determined that the odor level of the air exceeds the threshold value and that the diffusion of the drug component is necessary, the electromagnet 11 of the drug supply device 1 having the modified configuration of FIG. Power is to be supplied, and the supplied electromagnet 11 causes the permanent magnet 10
As a result, the shutter 9 is retracted and pulled out from between the suction shaft core 3 and the evaporating plate 4. Therefore, the drug component evaporates in the evaporating section of the drug supply device 1, and the evaporated drug component is supplied indoors.

On the other hand, when the microcomputer determines that the odor level of the air does not exceed the threshold value and that the diffusion of the drug component is unnecessary, the shutter 9 is advanced and the suction shaft is moved. As a result, the supply of the drug component from the suction shaft core 3 to the evaporating plate 4 is stopped, so that the drug component is not supplied into the room. Will not be done. Therefore, if the odor sensor 17 is used and the shutter 9 is used well, even when the diffusion of the drug component in the room to be air-conditioned is unnecessary, the waste that the drug component spreads throughout the room is eliminated. Becomes possible.

[0033]

As described above, according to the first aspect of the present invention,
In the air conditioner according to the present invention, a medicine supply device for supplying a deodorant agent or a fragrance agent is installed in an indoor unit, and an outlet of air containing a medicine component evaporated in an evaporating section of the medicine supply device is connected to the indoor unit. Since it is arranged in the vicinity of the air outlet of the unit, the air containing the drug component evaporated in the evaporator of the drug supply device enters the room from the discharge port arranged near the air outlet of the indoor unit. Thus, the drug component supplied to the room is diffused throughout the room while following the flow of air blown out from the air outlet of the indoor unit. for that reason,
It is possible to provide an air conditioner having a deodorizing function and a fragrance function having an optimal and simple configuration, and it is possible to obtain an effect of sufficiently satisfying a user's demand for an indoor environment.

In the air conditioner according to the second aspect,
The drug component evaporated in the evaporating section of the drug supply device evaporates in the air circulation path in the indoor unit, that is, the path in which the air blown by the blower fan or the airflow fan flows, specifically, In the air conditioner according to claim 3, the drug component diffused throughout the room according to the flow of air blown out from the air outlet of the indoor unit, while the drug component evaporated in the evaporator of the drug supply device. Is diffused throughout the room while following the flow of the humidified air blown out from the humidified air outlet of the air quality control device. Therefore, even when the configuration according to these claims is adopted, it is possible to satisfy the user's demand for the indoor environment while saving space and energy.

In the air conditioner according to a fourth aspect, an odor detecting means is provided near the air suction port of the indoor unit, and
When the odor level detected by the odor detection means does not exceed the threshold value, the drug supply device stops the evaporation of the drug component, so that the odor level detected by the odor detection means is lower than the threshold value. If the value does not exceed the value, the evaporation of the drug component from the drug supply device is stopped, and even when the deodorizing function or the aroma function is unnecessary, the waste of the drug component spreading throughout the room is prevented. It becomes possible. According to the air conditioner according to claim 5,
The effect is obtained that it is possible to effectively prevent the propagation of various bacteria in the evaporating section of the drug supply device.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an external shape of an air conditioner according to a first embodiment when viewed from the front side thereof.

FIG. 2 is a cross-sectional view showing the overall configuration of an indoor unit provided in the air conditioner.

FIG. 3 is an explanatory diagram showing a simplified configuration of a medicine supply device.

FIG. 4 is an explanatory diagram schematically showing a modified example of the configuration of a drug supply device.

FIG. 5 is an explanatory view schematically showing a modified example of an evaporating plate.

FIG. 6 is an explanatory diagram schematically illustrating a main configuration of the air quality control device.

FIG. 7 is a cross-sectional view showing the overall configuration of an indoor unit according to a conventional mode.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Drug supply device 7 Discharge port 14 Humidity control air outlet 39 Air outlet 45 Air outlet

Claims (5)

[Claims] 1. A medicine supply device for supplying a deodorant medicine or an aroma medicine is installed in an indoor unit, and a discharge port of air containing a medicine component evaporated in an evaporating section of the medicine supply apparatus is provided in the indoor unit. An air conditioner, wherein the air conditioner is arranged near an air outlet. 2. A medicine supply device for supplying a deodorant medicine or a fragrance medicine is installed in an indoor unit, and an evaporating section of the medicine supply apparatus for evaporating a medicine component is provided in an air circulation path in the indoor unit. An air conditioner characterized by being arranged. 3. A medicine supply device for supplying a deodorant medicine or a fragrance medicine is installed in an air quality control device of an indoor unit, and an evaporating section of the medicine supply device for evaporating a drug component is an air quality control device. An air conditioner, wherein the air conditioner is disposed near a humidified air outlet. 4. The air conditioner according to claim 1, wherein an odor detecting means is provided near the air inlet of the indoor unit, and the odor detecting means detects the odor. An air conditioner characterized in that, when the odor level does not exceed the threshold value, the drug supply device stops evaporation of the drug component. 5. The air conditioner according to claim 1, wherein the evaporating section of the drug supply device is provided with a means for preventing propagation of various bacteria. Air conditioner.