JP2001193963A - Air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioning system capable of constituting in response to a combination of air conditioning functions desired by a user, improving handleability and improving economy. SOLUTION: A plurality of functional units UA to UF are divided at respective air conditioning functions and constituted connectable to each other. Two or more units selected by a user from the plurality of the units UA to UF are combined to constitute the air conditioning system.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner suitable for use in highly airtight and highly insulated houses and capable of performing various air conditioning functions such as air conditioning, humidity control, ventilation, and air cleaning.

[0002]

2. Description of the Related Art In recent years, with the spread of highly airtight and highly insulated houses, in addition to air conditioning,
2. Description of the Related Art Air conditioners capable of performing various air conditioning functions such as humidity control, ventilation, and air cleaning are becoming widespread.

[0003]

The number and types of air-conditioning functions required by the user differ depending on the climate in the area of use, the type of house, the preference of the user, and the like. Therefore,
For example, if an air conditioner equipped with all four air conditioning functions of air conditioning, humidity control, ventilation, and air cleaning is installed uniformly, purchase and use an expensive air conditioner with an air conditioning function that is not used at all by some users. It is uneconomical. Therefore, a plurality of types of air conditioners having different numbers and types of executable air conditioning functions are manufactured in advance, and an optimal model is selected and installed based on a user's request.

However, it is practically impossible to manufacture a plurality of types of air conditioners in advance so as to correspond to all combinations in terms of manufacturing costs and product storage. Therefore, at present, several types of air conditioning functions are expected to be frequently requested by the user, and several types of air conditioners are manufactured in advance so as to correspond to the selected combinations. As a result, there are cases where there is no model that meets the user's requirements. In this case, the user purchases and uses a model with an air conditioning function that is not used by the user at all, which is uneconomical and requires unnecessary air conditioning functions. The presence causes an erroneous operation due to an erroneous operation of the operation unit, and is a factor of deteriorating the usability of the air conditioner.

If the user desires to add or change the air-conditioning function, the entire air-conditioning system must be replaced by another model, which is troublesome and uneconomical.

Further, when air conditioners are manufactured in advance for each of a plurality of models, only a specific type of air conditioner may remain in large quantities as a remaining product. The apparatus cannot be used for other purposes, and must be sold at a reduced price or disposed of. This is wasteful for each apparatus and is uneconomical.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional drawbacks, and has as its object the configuration can be made in accordance with the combination of air conditioning functions desired by the user, and the usability is improved. An object of the present invention is to provide an air conditioner capable of improving economic efficiency.

[0008]

Accordingly, the air conditioner according to the present invention has a plurality of functional units UA to UF for each air conditioning function.
And the plurality of functional units UA to UA
F are configured to be connectable to each other.

In the air conditioner according to the first aspect, the user can select a functional unit according to a combination of air conditioning functions desired by the user, and combine the selected units to form an air conditioner. Therefore, since an air conditioner having only the air conditioning function required by the user is configured, there is no useless function, and the occurrence of malfunction due to erroneous operation of the operation unit is reduced,
Usability is improved. In addition, when an air conditioning function is added or changed, it can be handled simply by connecting or replacing a new functional unit with an existing air conditioner, so that the operation is simple and economical. Further, the functional unit U
A to UF are so-called components, and are manufactured in advance in units of these functional units, so that there is no waste in units of devices as in the related art, which is economical.

In the air conditioner according to the present invention, the functional unit may take in outdoor air and supply it to the room, take in room air and discharge the room, and take in the taken-in outdoor air and discharged indoor air. Ventilation unit UA for exchanging heat between the air, a cooling / heating unit UD for heating or cooling and releasing the taken-in air, a dehumidifying unit UB for dehumidifying the supplied air, and a humidifying unit for humidifying the supplied air A unit UC and an outdoor air purifying unit UE for converting supplied outdoor air to clean air, at least one of the ventilation unit UA and the cooling / heating unit UD having a blowing function, and the dehumidifying unit having no blowing function. A unit UB, the humidifying unit UC, and at least one of the outdoor air purifying units UE. To have.

[0011] In the air conditioner according to the second aspect, the ventilation unit UA for performing ventilation and cooling / heating which is a basic in the air conditioning function.
And cooling and heating units UD are provided with fans 2, 3, 9 and the like, respectively, to provide a ventilation function, and functional units UA, UD having a ventilation function and functional units UB, UC, UE having no ventilation unit
And the ventilation unit UA
Alternatively, the dehumidifying unit UB, the humidifying unit UC, and the outdoor air purifying unit UE can function using the airflow from the cooling and heating unit UD, and the air conditioning control can be performed efficiently. In addition, all functional units UA to UF
Since it is not necessary to provide a fan unit with a fan function, the configuration of the functional units UB, UC, and UE that do not have a fan function can be simplified, can be manufactured at low cost, and can be reduced in size and weight.

The air conditioner according to claim 3 further includes, as the functional unit, an indoor air cleaning unit UF for converting the taken indoor air into clean air and discharging the purified air, and further connecting the indoor air cleaning unit UF. It is characterized by having comprised.

In the air conditioner according to the third aspect, it is possible to clean the indoor air together with various air conditioning controls.

According to a fourth aspect of the present invention, as the functional unit, an indoor air purifying unit UF for converting the taken indoor air into clean air and releasing the same, and a dehumidifying unit UB for dehumidifying the supplied air are supplied. Unit UC for humidifying the heated air, an outdoor cleaning unit UE for converting supplied outdoor air to clean air, the indoor air cleaning unit UF having a blowing function, and the dehumidifying unit having no blowing function. It is characterized in that at least one of the unit UB, the humidifying unit UC, and the outdoor air cleaning unit UE is combined.

In the air conditioner according to the fourth aspect, it is possible to efficiently perform humidity control (dehumidification and humidification) and air cleaning of the taken-in outdoor air while cleaning the indoor air.

According to a fifth aspect of the present invention, as the functional unit, while taking in outdoor air and supplying it to the room,
A ventilation unit UA that takes in indoor air and discharges it to the outside, and performs heat exchange between the taken-in outdoor air and the discharged indoor air; a cooling and heating unit UD that heats or cools and discharges the taken-in air; An indoor air purifying unit UF that emits indoor air into clean air and discharges the air, and is configured by combining at least two of the ventilation unit UA having a blowing function, the cooling / heating unit UD, and the indoor air purifying unit UF. It is characterized by:

In the air conditioner according to the fifth aspect, only units UA, UD, and UF having a blowing function are combined. Also in this configuration, each air conditioning control can be performed efficiently.

[0018]

Next, specific embodiments of the air conditioner of the present invention will be described in detail with reference to the drawings. FIG. 1 is a configuration diagram showing a schematic configuration of a plurality of functional units UA to UF constituting an air conditioner according to an embodiment of the present invention.

The functional units UA to UF are configured for each air conditioning function executed by the air conditioner, and are configured to be mutually connectable. The air conditioner is configured by combining two or more functional units selected from a plurality of functional units UA to UF. The plurality of combined functional units are configured to be controlled by control means (not shown).

The functional unit UA is a ventilation unit that takes in outdoor air and supplies it to the room, while taking in indoor air and discharging it to the outside, and heat between the captured outdoor air and the discharged indoor air. Exchange. Specifically, as shown in FIG. 1A, the ventilation unit UA has an air supply path R1 for guiding outdoor air to the room and an exhaust path R2 for guiding room air to the outside of the room. And a heat exchanger 1 arranged over the exhaust path R2. An air supply fan 2 is arranged in the air supply path R1, and an exhaust fan 3 is arranged in the exhaust path R2. Accordingly, by driving the air supply fan 2, the outdoor air is taken into the exhaust path R1 and supplied to the room. On the other hand, by driving the exhaust fan 3, the room air is taken into the exhaust path R2 and discharged to the outside. You. At this time, heat exchange is performed by the heat exchanger 1 between the taken-in outdoor air and the discharged indoor air. The heat exchanger 1 may be a sensible heat exchanger that exchanges only heat and does not exchange moisture (moisture), or may be a total heat exchanger that exchanges heat and moisture. Good.

The functional unit UB is a dehumidifying unit that dehumidifies the supplied air. Specifically, FIG.
As shown in (b), the dehumidifying unit UB is provided with an air supply route R.
3 and an exhaust path R4, and further includes a dehumidifier 4 arranged over the air supply path R3 and the exhaust path R4.
The dehumidifier 4 uses zeolite which is a hygroscopic substance.
Accordingly, the dehumidifier 4 performs dehumidification by absorbing moisture from the air passing through the air supply path R3 with zeolite. still,
Since the amount of absorbed moisture of zeolite has an upper limit, the exhaust path R4
By heating the air that has flowed in through the heater 5 and passing through the zeolite, moisture is removed from the zeolite, and the dehumidifier 4 can continuously maintain the dehumidifying function. The heater 5 is disposed on the exhaust path R4 on the rear side in the air flow direction with respect to the dehumidifier 4.

The functional unit UC is a humidifying unit and humidifies the supplied air. Specifically, FIG.
As shown in (c), the humidification unit UC has an air passage R5 through which the supplied air passes, and further includes an air passage R
5 has a humidifier 6 arranged. The humidifier 6 is a moisture-permeable membrane humidifier. A moisture-permeable membrane humidifier arranges a plurality of pipes made of a moisture-permeable membrane in parallel with each other, supplies humidifying water around the pipes, and applies moisture to the air passing through the pipes through the pipes. It is like that. Therefore, the humidifier 6 performs humidification by adding moisture (humidity) to the air passing through the air flow path R5. The humidifier 6 is supplied with humidification water from a water supply tank (not shown) via an on-off valve 7. The humidified water stored in the humidifier 6 is drained to the outside via the on-off valve 8 at regular intervals.

The functional unit UD is a cooling and heating unit that heats or cools the taken air and discharges it. Specifically, as shown in FIG.
Has an air flow path R6, and further has a fan 9 disposed in the air flow path R6, and a heat exchanger 10 disposed on the blowing side of the fan 9. In addition, cooling and heating unit UD
, An outdoor unit (not shown) is connected via a communication pipe. The outdoor unit includes an outdoor heat exchanger, a compressor, and a decompression mechanism. Then, the refrigerant from the compressor is circulated in the order of the indoor heat exchanger 10 or the outdoor heat exchanger functioning as the evaporator, the outdoor heat exchanger, the decompression mechanism, and the outdoor heat exchanger or the indoor heat exchanger 10 functioning as the condenser. A refrigerant circuit is formed. Therefore, the cooling and heating unit UD drives the fan 9 to take in air into the air flow path R6, and at the time of cooling operation, makes the heat exchanger 10 function as an evaporator to cool and discharge the taken-in air. Heat exchanger 1
0 functions as a condenser to heat and release the taken air.

The functional unit UE is an outdoor air purifying unit, and converts supplied outdoor air into clean air. Specifically, as shown in FIG. 1 (e), the outdoor air cleaning unit UE has an air flow path R7, and the air flow path R
7 has a filter 11 disposed therein. Filter 11
Is configured by an electric dust collection type filter element, a photocatalyst type filter element, and the like, and performs dust collection and deodorization. Therefore, when the supplied outdoor air passes through the air flow path R7, dust collection and deodorization are performed by the filter 11. This removes pollen, diesel soot, minute insects, and the like, and removes odor from the outdoor air, resulting in clean air.

The functional unit UF is an indoor air purifying unit, and converts the taken indoor air into clean air and discharges it. Specifically, as shown in FIG. 1 (f), the indoor air cleaning unit UF has an air flow path R8, and further includes a fan 12 disposed in the air flow path R8,
And a filter 13 arranged on the outlet side of the filter. The filter 13 is composed of an electric dust collection type filter element, a photocatalyst type filter element, and the like, and performs dust collection and deodorization similarly to the filter 11 described above. Therefore, the indoor air cleaning unit UF drives the fan 12 to take in the indoor air into the air flow path R <b> 8, and collects and deodorizes the indoor air by passing through the filter 13. As a result, the indoor air is cleaned of dust and the like, and the odor is also removed, resulting in clean air.

The air conditioner of the present invention is configured by combining two or more functional units selected from the above six functional units UA to UF. There are 15 cases, 20 cases for 3 function units, 15 cases for 4 function units, 6 cases for 5 function units, and 1 case for 6 function units, There are a total of 57 cases. Although these 57 types of air conditioners can be theoretically configured, at least one of the functional units to be combined needs to be a functional unit having a blower function (fan) for practical use. . In the present embodiment, the ventilation unit UA and the cooling / heating unit UD
And the indoor air purifying unit UF have a fan because they have a fan.
It is necessary to configure an air conditioner using at least one of A, UD, and UF. Hereinafter, some combinations of functional units will be described.

First, the basics of the air conditioning function are ventilation and cooling / heating. Therefore, an air conditioner based on the ventilation unit UA, an air conditioner based on the cooling / heating unit UD, and an air conditioner based on the ventilation unit UA and the cooling / heating unit UD are configured.

FIG. 2 is a configuration diagram showing a combination of the ventilation unit UA and a functional unit having no ventilation function. FIG. 2A shows a combination of a ventilation unit UA and a dehumidification unit UB, FIG. 2B shows a combination of a ventilation unit UA and a humidification unit UC, and FIG.
A shows a combination of A and the outdoor air cleaning unit UE.

FIG. 3D shows a combination of a ventilation unit UA, a dehumidifying unit UB, and a humidifying unit UC.
FIG. 7E shows a combination of the ventilation unit UA, the dehumidification unit UB, and the outdoor air purification unit UE, and FIG. 7F shows a combination of the ventilation unit UA, the humidification unit UC, and the outdoor air purification unit UE. Further, FIG.
Shows a combination of the ventilation unit UA, the dehumidification unit UB, the humidification unit UC, and the outdoor air cleaning unit UE.

FIG. 3 is a configuration diagram showing a combination of a cooling / heating unit UD and a functional unit having no air blowing function.
FIG. 3A shows a cooling / heating unit UD and a dehumidifying unit UB.
FIG. 3B shows a combination of a cooling and heating unit UD and a humidifying unit UC, and FIG. 3C shows a combination of a cooling and heating unit UD and an outdoor air cleaning unit UE. However, since the dehumidification can be performed using the heat exchanger 10 in the cooling and heating unit UD and the dehumidification unit UB is unnecessary, the combination of the functional units UD and UB shown in FIG. 3A is not actually used. Further, the combination of the functional units UD and UE shown in FIG. 3C is used when performing cooling / heating and ventilation without providing an exhaust mechanism. This is because if outside air is supplied to the room, the room air will be discharged from the gap to the outside of the room, and ventilation will be performed.

FIG. 3D shows a combination of the cooling / heating unit UD, the dehumidifying unit UB and the humidifying unit UC. However, since the dehumidifying unit UB is unnecessary as described above, it is shown in FIG. This is equivalent to a combination of the functional units UD and UC. FIG. 3E shows a combination of the cooling / heating unit UD, the dehumidifying unit UB, and the outdoor air cleaning unit UE. However, since the dehumidifying unit UB is unnecessary as described above, the functional unit shown in FIG. This is equivalent to a combination of UD and UE. FIG. 3F shows the cooling / heating unit U.
The combination of D, the humidification unit UC, and the outdoor air cleaning unit UE is shown.

FIG. 3 (g) shows a cooling / heating unit UD.
And a combination of a dehumidifying unit UB, a humidifying unit UC, and an outdoor air cleaning unit UE. However, since this combination does not require the dehumidifying unit UB as described above,
This is equivalent to the combination of the functional units UD, UC, and UE shown in FIG.

FIG. 4 shows a ventilation unit UA, a cooling / heating unit UD, and functional units UB, UC, which do not have a blowing function.
It is a block diagram which shows the combination with UE. FIG.
FIG. 3B shows a combination of three functional units UA, UD, and UC, and FIG. 3B shows a combination of three functional units UA, UD, and UC, and FIG.
D shows a combination of UEs, FIG. 4D shows a combination of four functional units UA, UD, UB, and UC, and FIG. 4E shows a combination of four functional units UA, UD, UB, and UE. FIG. 4F shows a combination of four functional units UA,
A combination of UD, UC, and UE is shown, and FIG. 9G shows a combination of five functional units UA, UD, UB, UC, and UE.

FIGS. 2 to 4 have described an example of a configuration in which at least one of the ventilation unit UA and the cooling / heating unit UD having a blowing function and at least one of the units UB, UC, and UE having no blowing function are combined. However, an indoor air cleaning unit UF may be further added to these configurations. FIG. 5 is a configuration diagram showing a combination in a case where an indoor air cleaning unit UF is added.

FIG. 5A shows a combination obtained by adding the indoor air cleaning unit UF to the combination of the functional units UA and UB shown in FIG. 2A, and FIG. 5B shows the combination shown in FIG. FIG. 5C shows a combination in which an indoor air cleaning unit UF is added to the combination of the functional units UA and UC.
The combination in which the indoor air cleaning unit UF is added to the combination of the functional units UA and UE shown in (c) is shown. FIG. 5D shows the function unit U shown in FIG.
FIG. 5E shows a combination in which an indoor air cleaning unit UF is added to the combination of D and UC, and FIG. 5E shows a combination of the functional unit UD and UE shown in FIG.
Are added.

As described above, when the indoor air purifying unit UF is added to the combination shown in FIGS. 2 to 4, when the ventilation unit UA is included, it is connected to the outdoor air blowing side,
When a cooling / heating unit UD is included, it may be connected to the conditioned air blowing side.

Further, since the indoor air cleaning unit UF has the fan 12 and has a blowing function, the indoor air cleaning unit UF and the functional units UB, UC, which do not have the blowing function are provided.
It is also possible to combine with UE. FIG. 6 is a configuration diagram showing a combination of functional units based on the indoor air cleaning unit UF.

FIG. 6A shows two functional units UF,
FIG. 6B shows a combination of two functional units UF, UE, and FIG. 6C shows a combination of three functional units UF, UC, UE. Although the combination including the dehumidifying unit UB is theoretically established, in the present embodiment, the zeolite type dehumidifying unit U is used.
B and requires an exhaust mechanism, so the dehumidifying unit U
The combination including B is not actually performed.

FIGS. 2 to 6 have described an example of a configuration in which at least one of the function units UA, UD, and UF having a blowing function and at least one of the functional units UB, UC, and UE having no blowing function are combined. However, it is also possible to combine only functional units UA, UD, and UF having a blowing function. FIG. 7 is a configuration diagram showing a combination of only functional units having a blowing function.

FIG. 7A shows two functional units UA,
7B shows a combination of two functional units UA and UF, FIG. 7C shows a combination of two functional units UD and UF, and FIG. 7D shows a combination of two functional units UD and UF. 3 shows a combination of three functional units UA, UD, and UF.
The combination of the functional units UD and UF shown in FIG. 7C is configured to supply indoor air to the outdoor air cleaning unit UE in the combination of the functional units UD and UE shown in FIG. Since the combination of the functional units UD and UE can be constituted by only one fan, the combination of the units UD and UF is not actually implemented.

The dehumidifying unit U having no ventilation function
The combination of B, the humidification unit UC, and the outdoor air purification unit UE also theoretically holds, but does not actually function because there is no ventilation function. Therefore, in order to make the combination of these air-conditioning functions work, it is necessary to add a separate blower fan or substitute another combination of functional units.
For example, since the dehumidification can be performed using the cooling and heating unit UD, the dehumidifying unit UB is the cooling and heating unit UD.
Can be substituted. On the other hand, there is no functional unit that can be substituted for the humidification unit UC.

Therefore, for the combination of the functional units UB and UC, a fan is added or the functional unit U is used.
Substitute a combination of D and UC. Functional unit UB, UE
Is added with a fan or a combination of functional units UD and UE is used instead. Functional unit UC,
For a combination of UEs, a fan is added. For the combination of the functional units UB, UC, and UE, a fan is added or the combination of the functional units UD, UC, and UE is substituted.

As described above, according to the present embodiment, an air conditioner having only an air conditioning function required by the user is configured, so that there is no useless function and a malfunction due to a malfunction of the operation unit occurs. And the usability is improved. Also,
When the air conditioning function is added or changed, it can be dealt with simply by connecting or replacing a new functional unit with an existing air conditioner, so that the operation is simple and economical. Further, since the device is manufactured in advance in units of functional units corresponding to parts, there is no waste in units of devices as in the related art, which is economical.

Further, a ventilation unit UA having ventilation and cooling / heating, which is a basic air conditioning function, and having a ventilation function.
In addition, the dehumidifying unit UB, the humidifying unit UC, and the outdoor air purifying unit UE can function using the airflow from the cooling and heating unit UD, and the air conditioning control can be performed efficiently. In addition, since it is not necessary to provide a ventilation function to all the functional units, the configuration of the functional units UB, UC, and UE having no ventilation function is simplified, and can be manufactured at low cost, and can be reduced in size and weight. Become.

Further, together with various air conditioning controls, the indoor air can be cleaned. Further, even when ventilation or air conditioning is not performed, it is possible to efficiently perform humidity control and air purification of taken-in outdoor air while purifying indoor air. Also, functional units UA, U having a blowing function
Even when only D and UF are combined, each air conditioning control can be performed efficiently. Note that the functional units UA, UD, and UF having the blowing function can be used alone.

[0046]

As described above, according to the air conditioner of the first aspect, since the air conditioner having only the air conditioning function required by the user is configured, there is no useless function and the operation unit is operated erroneously. This reduces the occurrence of erroneous operations and improves usability. In addition, when an air conditioning function is added or changed, it can be handled simply by connecting or replacing a new functional unit with an existing air conditioner, so that the operation is simple and economical. Further, since the device is manufactured in advance in units of functional units corresponding to parts, there is no waste in units of devices as in the related art, which is economical.

According to the air conditioner of the second aspect, ventilation and cooling and heating are performed as basic air conditioning functions, and a dehumidifying unit and a humidifying unit are utilized by utilizing airflow from a ventilation unit and a cooling and heating unit having a blowing function. The unit and the outdoor air cleaning unit can function, and air conditioning control can be performed efficiently. In addition, since it is not necessary to provide all the functional units with the air blowing function, the configuration of the functional unit without the air blowing function is simplified, the manufacturing can be performed at low cost, and the size and weight can be reduced.

Further, according to the air conditioner of the third aspect, it is possible to clean the indoor air together with various air conditioning controls.

Further, according to the air conditioner of the fourth aspect, it is possible to efficiently perform humidity control and air cleaning of the taken-in outdoor air while cleaning the indoor air.

Further, according to the air conditioner of the present invention, each air conditioning control can be performed efficiently even when only the functional units having the blowing function are combined.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a schematic configuration of a plurality of functional units constituting an air conditioner according to an embodiment of the present invention.

FIG. 2 is a configuration diagram showing a combination of functional units based on a ventilation unit.

FIG. 3 is a configuration diagram showing a combination of functional units based on a cooling / heating unit.

FIG. 4 is a configuration diagram showing a combination of functional units based on a ventilation unit and a cooling / heating unit.

FIG. 5 is a configuration diagram showing a combination of functional units when an indoor air cleaning unit is added.

FIG. 6 is a configuration diagram showing a combination of functional units based on an indoor air cleaning unit.

FIG. 7 is a configuration diagram showing a combination of only functional units having a blowing function.

[Explanation of symbols]

 UA Ventilation unit UB Dehumidification unit UC Humidification unit UD Air conditioning unit UE Outdoor air purification unit UF Indoor air purification unit

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Kiyoto Hamaguchi 1000 Oya, Okamoto-cho, Kusatsu-shi, Shiga 2 Daiga Industries Co., Ltd. Shiga Works (72) Inventor Toshiyuki Imanaka Oya, Okamoto-cho, Kusatsu-shi, Shiga 1000 No. 2 Daikin Industries, Ltd. Shiga Works F term (reference) 3L053 BC03 BC05 BC08 BC10

Claims (5)

[Claims] 1. An air conditioner which is divided into a plurality of functional units (UA to UF) for each air conditioning function, and wherein the plurality of functional units (UA to UF) can be connected to each other. . 2. The above-mentioned functional unit, while taking in and supplying outdoor air to a room, taking in and discharging indoor air and performing heat exchange between the taken-in outdoor air and discharged indoor air. Ventilation unit (UA)
A heating / cooling unit (UD) for heating or cooling and releasing the taken-in air, a dehumidifying unit (UB) for dehumidifying the supplied air, and a humidifying unit (UC) for humidifying the supplied air; An outdoor air purifying unit (UE) for converting supplied outdoor air into clean air, wherein at least one of the ventilation unit (UA) and the cooling / heating unit (UD) having a blowing function and not having a blowing function The air conditioner according to claim 1, wherein the dehumidifying unit (UB), the humidifying unit (UC), and at least one of the outdoor air cleaning units (UE) are combined. 3. An indoor air cleaning unit (UF) for converting the taken indoor air into clean air and discharging the purified indoor air as the functional unit, and further comprising the indoor air cleaning unit (UF) connected thereto. The air conditioner according to claim 2, wherein: 4. An indoor air purifying unit (UF) for converting taken-in indoor air into clean air and releasing the same, a dehumidifying unit (UB) for dehumidifying supplied air, and a supplied air. A humidifying unit (UC) for humidifying the air, an outdoor cleaning unit (UE) for converting the supplied outdoor air to clean air, and the indoor air cleaning unit (UF) having a blowing function and a blowing function. The dehumidifying unit (UB) and the humidifying unit (U)
The air conditioner according to claim 1, wherein at least one of C) and the outdoor air cleaning unit (UE) is combined. 5. The functional unit according to claim 1, further comprising: taking in the outdoor air and supplying the indoor air to the room, taking in the indoor air and discharging the indoor air, and performing heat exchange between the captured outdoor air and the discharged indoor air. Ventilation unit (UA)
A ventilation / heating unit (UD) that heats or cools the taken-in air and discharges the same, and an indoor air purification unit (UF) that converts the taken-in room air into clean air and discharges the air, and has a ventilation function. Unit (UA), the cooling / heating unit (UD), and the indoor air cleaning unit (U
2. The air conditioner according to claim 1, wherein at least two of F) are combined.