KR101626359B1 - Optimum control system for air conditioner - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optimal control system for an air conditioner, which can provide an optimal indoor environment by providing cooling and heating to an indoor space according to an indoor environment measured in real time.
The present invention is characterized in that it comprises a plurality of air supply ducts (10) installed to penetrate the indoor space to supply air, an air intake duct (20) penetrating the indoor space to suck air, and an air intake duct An air conditioner 30 for adjusting the temperature of the air sucked through the air supply duct 10 and supplying the conditioned air through the air supply duct 10, an environment measuring member 40 installed at a predetermined distance from the indoor space, A temperature / humidity control means 50 for heating or cooling the air in the indoor space and removing moisture in the indoor space, and a controller 40 for controlling the temperature of the air conditioner 30 and the temperature / humidity And a controller 60 for controlling the adjusting means 50 together or individually.

Description

[0001] OPTIMUM CONTROL SYSTEM FOR AIR CONDITIONER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optimal control system for an air conditioner, which can provide an optimal indoor environment by providing cooling and heating to an indoor space according to an indoor environment measured in real time.

Generally, air conditioning refers to maintaining the temperature and cleanliness of the air in a state suitable for indoor use. In modern society, it is generalized that a lot of people live in a confined space in a limited space of various business buildings, public buildings, apartment buildings and condominiums in the downtown area. In these places, It is required to keep the temperature, humidity and cleanliness of the indoor air always in a proper state in order to promote the improvement.

The air conditioning system of a building is based on installing an air conditioner in a machine room and supplying conditioned air to each room through a duct. The air conditioner can be divided into a central method and an individual method based on the air distribution method, In the central system, the heating medium is produced from the heat source equipment installed in the central machine room and supplied to the air conditioner installed on the secondary side, thereby supplying harmonized air to each room or zone. The central air conditioning system can be divided into all air system, air-water system and all water system depending on the type of heating medium used.

The general building automatic control system described above operates in accordance with the setting of the manager and supplies harmonized air to each room, thus wasting energy.

The background art of the present invention is disclosed in Patent Registration No. 10-1276455 (Apr. 10, 2003) filed and filed with the Korean Intellectual Property Office.

SUMMARY OF THE INVENTION An object of the present invention is to provide an optimal control system for an air conditioner that can provide an optimal indoor environment by providing air conditioning and cooling to an indoor space according to an indoor environment measured in real time.

The optimal control system for an air conditioner according to an embodiment of the present invention includes a plurality of air supply ducts 10 installed to pass through an indoor space to supply air and an air intake duct (not shown) An air conditioner 30 for adjusting the temperature of the air sucked through the intake duct 20 and supplying the conditioned air through the air supply duct 10, A temperature / humidity control means 50 for heating / cooling the air in the indoor space and removing moisture in the indoor space, and an indoor environment measured by the environmental measurement member 40 And a controller (60) for controlling the air conditioner (30) and the temperature / humidity control means (50) together or individually.

The optimal control system for an air conditioner according to an embodiment of the present invention can provide cooling and heating by operating an air conditioner or a system air conditioner in an indoor space according to an indoor environment measured in real time, But it can provide an optimal indoor environment.

In addition, the air-conditioned air can be concentrated in the specific indoor space where the outside air is introduced and the inside air is lost, and the indoor space in which the occupant is located, so that the cooling and heating of the indoor space can be efficiently managed.

Brief Description of Drawings FIG. 1 is a state diagram showing a state in which an air conditioner optimum control system according to an embodiment of the present invention is used. FIG.
Fig. 2 is a view showing a main part applied to the present invention; Fig.
3 is a view showing another essential part applied to the present invention.
Fig. 4 shows another essential part applied to the present invention. Fig.
5 is a block diagram showing a configuration of a controller applied to the present invention.
6 is a diagram showing a configuration of a control application to which the present invention is applied;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an air conditioner optimum control system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the optimal control system for an air conditioner according to an embodiment of the present invention includes a plurality of air supply ducts 10 installed to pass through an indoor space to supply air, An air conditioner 30 for adjusting the temperature of the air sucked through the intake duct 20 and supplying the conditioned air through the air supply duct 10, A temperature / humidity control means 50 for heating and cooling the air in the indoor space and removing moisture in the indoor space, an environmental measurement member 40, And a controller 60 for controlling the air conditioner 30 and the temperature / humidity control means 50 together or individually based on the indoor environment measured by the temperature / humidity control means 50.

The air supply duct 10 is connected to the air conditioner 30 and is installed in the air conditioner 30 to communicate with the indoor space through the ceiling so as to guide the supplied air to the indoor space. The plurality of air supply ducts 10 are arranged to be spaced apart from each other in the indoor space, so that air can be guided evenly to the indoor space.

The intake duct 20 is connected to the ceiling to guide air in the indoor space to the air conditioner 30. Since the air in the indoor space is guided to the air conditioner 30 through the intake duct 20 and is then heated or cooled again and then supplied again through the air supply duct 10, waste of energy can be minimized.

The air conditioner 30 adjusts the temperature of the air through the air supply duct 10 to supply the air to the indoor space suitable for use in the room and sucks the air in the indoor space through the intake duct 20 to heat or cool the room. That is, the temperature of the air sucked in the room or sucked from the outside is raised or lowered and then supplied to the indoor space again, so that the room temperature can be raised or lowered.

The air conditioner 30 includes a harmonic basic body 31 to which the intake duct 20 and the air supply ducts 10 are respectively connected and a suction duct 30 which is built in the harmonic basic body 31 and is sucked through the intake duct 20 An air temperature control unit 32 for heating or cooling the air to supply the air to the air supply duct 10 and a control unit 32 for controlling the air conditioning unit 31, And an air amount adjusting unit 34 for adjusting the amount of air supplied through the air supply duct 10.

The air intake duct 20 and the air supply ducts 10 are connected to the air conditioning basic body 31 so that the air sucked through the air intake duct 20 is sucked to the inside of the air conditioning basic body 31, Lt; / RTI >

The air temperature regulating unit 32 may include a heater and a cooler to heat or cool the air sucked into the interior of the harmonic basic body 31.

The air conditioner dehumidifier 33 can remove the air from the air to be sucked and discharge it to the outside of the harmonic basic body 31. [

The air amount adjusting unit 34 may be formed of an opening / closing member such as a door for opening and closing the air supply duct 10. That is, the air amount adjusting unit 34 can close the air supply duct 10 to stop the air supply, fully open the air supply duct 10 to maximize the air supply amount, The air supply amount can be adjusted appropriately.

Therefore, when the air conditioner 30 is controlled by the controller 60, different amounts of air can be supplied through the air supply ducts 10. That is, it is possible to supply a large amount of air to one of the air supply ducts 10 and supply a small amount of air to the other air supply duct 10. In addition, one of the air supply ducts 10 may be closed to stop the air supply, and the other air supply duct 10 may be opened to maintain air supply.

In this manner, the air conditioner 30 can uniformly supply air to the entire indoor space or concentrate the air in the specific indoor space.

The environment measuring member 40 is installed at a predetermined interval in the indoor space to measure the indoor environment, and may be a temperature sensor for measuring the temperature in the indoor space, and may be installed at the upper portion and the lower portion of the indoor space, respectively . Therefore, the temperature measuring members 40 can measure the temperature of the upper portion and the temperature of the lower portion in the indoor space, respectively. Here, the hot air rises and the cold air falls, so that a temperature difference may occur in the same indoor space.

One of the temperature measuring members 40 may be installed close to the window W for exposing or blocking the indoor space to the outside and the other may be installed apart from the window W. [ Therefore, the temperature measuring member 40, which is installed apart from the window W in the hot weather, is relatively lower in temperature than the temperature measuring member 40 in the vicinity of the window W. Of course, in cold weather the temperature can be measured in the opposite way. Thus, the temperature measuring members 40 can measure the temperature of various spaces in which the temperature difference is collated.

The temperature / humidity control means 50 includes a main body 51 in which an internal space is formed, an outlet 52 formed to be dispersed outside the main body 51 and through which air is discharged, An air heating / cooling unit 54 formed in the internal space of the main body 51 for heating or cooling the air introduced through the inlet 53 and discharging the air to the outlet 52; And a dehumidifying part 55 for dehumidifying the moisture in the air introduced through the inlet 53. Therefore, the air introduced through the inlet port 53 can be heated or cooled by the air heating / cooling section 54, dehumidified through the dehumidification section 55, and discharged to the outlet port 52.

The temperature / humidity control means 50 may include a system air conditioner having a cooling / heating function and a dehumidifying function.

The outlet 52 may be formed in a plurality of ways so as to face both directions or four directions of the main body 51 and the inlet 53 may be formed at the bottom of the main body 51.

It is preferable that the temperature / humidity control means 50 is provided at a position close to the window W. That is, it provides cold air in hot summer and provides warmth in cold winter so that it can easily cope with the sunlight passing through the window W or the outside air flowing through the gap of the window W, Air can be provided directly to the occupant in the room.

2, the temperature / humidity control means 50 may include a protrusion pipe 56 having one end connected to the discharge port 52 and the other end protruding into the indoor space. When the protruding pipe 56 extends to the lower portion of the indoor space, the air can be directly supplied to the occupant sitting on the floor or lying on the floor in the indoor space.

Further, the projecting pipe 56 may be formed of a bellows pipe whose length is expanded and contracted. Or may be an antenna in the form of an antenna instead of a corrugated tube. Therefore, the projecting pipe 56 can be easily expanded and contracted.

As shown in FIG. 3, the protruding pipe 56 is formed of a bent pipe bent at a predetermined angle, and one end of the protruding pipe 56 may be rotatably coupled to the outlet port 52. In other words, an inward flange (not shown) is formed at the end of the discharge port 52 and a flange flange (not shown) is formed at one end of the projecting pipe 56 so that the outward flange can be engaged with the inward flange to be rotatable. Accordingly, the projecting pipe 56 can guide the heated or cooled air supplied from the discharge port 52 in the rotated direction while being rotated in a specific direction by the user in a state of being connected to the discharge port 52. That is, the projecting pipe 56 can be rotated at a 360-degree angle to guide the supplied air in a desired direction.

4, the temperature / humidity regulating means 50 may include an air direction restricting portion 57 for restricting the direction of the air supplied from the discharge port 52. As shown in Fig. The air direction restricting portion 57 may be a flat plate or a concave plate fixed to the ceiling while approaching the end of the air supply duct 10. Here, since the concave plate surrounds a part of the discharge port 52, the restriction range can be enlarged.

Accordingly, if the air direction restricting portion 57 is positioned close to the discharge port 52 and one end is fixed in the state of standing on the ceiling, the air discharged through the discharge port 52 does not exceed the air direction restricting portion 57, So that it is supplied only to the unrestricted indoor space.

When the air direction restricting portion 57 is positioned between the discharge port 52 and the front door (not shown), the air supplied from the discharge port 52 is not supplied toward the front door, Can be minimized, thereby reducing waste of energy through the front porch. In addition, by using the air direction restricting portion 57, it is possible to prevent the direct supply of air in the direction in which the fauna or fauna susceptible to cold or warm air is located, thereby protecting the fauna and flora.

The projecting pipe 56 and the air direction restricting part 57 constructed as described above may also be applied to the air supply duct 10.

5, the controller 60 can control the air conditioner 30 and the temperature / humidity control means 50 together or individually based on the indoor environment measured by the environment measuring member 40 A direction setting unit 61 for matching the position of the environment measurement members 40 with the air exhaust direction of the air conditioner 30 and the temperature / humidity control unit 50 by matching the environment measurement members 40, A reference temperature setting unit 63 for setting a reference temperature to be compared with the room temperature, and a temperature detection unit 62 for detecting a temperature A temperature comparator 64 for comparing the indoor temperatures of the air conditioner 40 and the ambient temperature measuring device 40 with each other; And the direction of the environmental measuring member 40, which measures the room temperature corresponding to the reference temperature, The air conditioner 30 and the temperature / humidity control means 50 are operated together or individually so as to reduce the amount of supplied air and supplied in the direction of the environment measuring member 40 that measures the room temperature that does not match the reference temperature And a temperature control unit 65 for operating the air conditioner 30 and the temperature / humidity control unit 50 together or in order to increase the air amount.

The direction setting unit 61 sets and sets the temperature measuring member 40 near the window W and the outlet 52 and the air supply duct 10 for discharging the air in the direction of the window W, The outlet port 52 and the air supply duct 10 for discharging the air in a direction different from the window W and the air supply duct 10 are set by matching.

Therefore, the temperature / humidity control means 50 is operated by the operation of the temperature control unit 65 so that the air is sucked through the inlet port 53 and the sucked air is heated by the air heating / cooling unit 54 or cooled When the room temperature of the temperature measuring members 40 does not coincide with the reference temperature, the air amount is kept constant until the supplied room temperature coincides with the reference temperature. That is, the heated or cooled air can be continuously supplied to the indoor space.

At this time, the air conditioner 30 is also operated by the operation of the temperature control unit 65 to suck air through the intake duct 20, and the sucked air is supplied to the air temperature adjusting unit 32 of the air conditioner 30, When the room temperature of the temperature measuring members 40 does not coincide with the reference temperature in a state where the room temperature is supplied to the indoor space through the air supply duct 10, ≪ / RTI >

When the temperature of one of the temperature measurement members 40 is equal to the reference temperature by the operation of the temperature control unit 65, the air supply amount of the corresponding outlet 52 whose direction coincides with the temperature measurement member 40 And increases the air supply amount of the corresponding outlet 52 which is aligned with the temperature measuring member 40 that measures the room temperature that does not match the reference temperature. That is, a larger amount of air can be supplied to the indoor space that does not match the reference temperature, so that the indoor temperature can be uniformly maintained.

When the room temperature of the temperature measuring member 40 is equal to the reference temperature, the air amount adjusting unit 34 of the air conditioner 30 also operates in the direction of the temperature measuring member 40 The air supply amount of the air supply duct 10 corresponding to the temperature measurement member 40 which measures the room temperature which does not match the reference temperature is increased .

Thus, it is determined that the air is sufficiently cooled by the air supplied to the indoor space separated from the window W so that the amount of cold air supplied to the indoor space is reduced, and the air supplied to the indoor space close to the window W is sunlight It is judged that the indoor space is not sufficiently cooled and the amount of cold air supplied to the indoor space is increased.

Therefore, even if different temperature differences are generated in one indoor space, the amount of air supplied to each indoor space can be different, and the indoor temperature can be uniformly cooled as a whole. In other words, it is possible to enhance the cooling of the indoor space on the side of the window W where the sunlight is transmitted in the summer.

In this way, the controller 60 can operate the air conditioner 30 and the temperature / humidity control means 50 together or can be selectively operated, so that air can be totally supplied to the indoor space, So that the air can be supplied.

In addition, the environment measuring member 40 may be configured as a humidity sensor for measuring indoor humidity in an indoor space. Such a humidity sensor may be installed in an indoor space together with a temperature sensor.

The controller 60 compares the humidity detected by the humidity sensor 66 with the ambient humidity measured by the humidity sensor 40 and the reference humidity set in advance by the humidity sensor 66 A humidity control section 68 for operating the air conditioner 30 and the temperature / humidity control means 50 together or separately to remove moisture in the indoor space when the humidity of the room is equal to the reference humidity, .

The humidity control unit 68 of the controller 60 operates the air conditioner 30 and the temperature / humidity control unit 50 as the humidity sensor that is the environmental measurement member 40 measures the humidity, Can be adjusted. That is, the indoor air can be heated by the air conditioner 30 and the temperature / humidity control means 50 in the winter, and in the summer, the indoor air can be cooled while the moisture can be removed, have.

Meanwhile, the environment measuring member 40 may be constituted by a human body detecting sensor for detecting a human body in an indoor space. Such a human body detection sensor can be installed in the indoor space together with the above-described temperature sensor and humidity sensor.

The human body sensor, which is an environment measuring member 40, is installed in an indoor space and provides a human body detection signal to an external controller 60 when it detects a human body. The human body detecting sensor, which is the environmental measuring member 40, may be constituted by a proximity sensor, an infrared ray sensor, or an optical sensor. In addition, since the indoor air is lost in the window W and the outside air frequently flows into the window W, it is preferable that the human body detecting sensor, which is the environmental measuring member 40, is installed close to the window W.

When the human body detection signal of the human body detection sensor, which is the environmental measurement member 40, is received, the controller 60 operates the tone generator 30 and the temperature / humidity control means 50 together or respectively, The control unit 30 and the temperature / humidity control unit 50 may be configured to stop operation together or separately.

Accordingly, since the air supply amount is increased according to the human body detection of the human body detection sensor, which is the environment measuring member 40, cold water or warmth can be provided to the occupant located on the window W side.

Since the amount of air supplied to the indoor space adjacent to the window W is increased by the operation of the temperature / humidity control means 50, the air is concentrated in the occupant located in the window W, Lt; / RTI >

Furthermore, the indoor space on the side of the window (W) is directly or indirectly influenced by the sunlight coming in through the window (W) or the winter wind. Since the amount of air supplied by the temperature / humidity control means 50 to the occupant located in the indoor space is increased, a pleasant indoor activity can be achieved.

Of course, the controller 60 can control the temperature / humidity control means 50 so that the air supply is stopped if the human body detection signal of the human body detection sensor as the environment measurement member 40 is not received. That is, if the human body is not detected through the human body detecting sensor, which is the environmental measuring member 40, the air supply is interrupted and energy waste can be reduced.

In addition, the present invention includes a control application 90 that is provided in a mobile phone carried by an occupant of an indoor space and controls the air conditioner 30 and the temperature / humidity control means 50 as shown in FIG. Here, the mobile may be configured as a smart phone that can be installed by downloading the control application 90.

The control application 90 includes a position setting unit 91 for matching the position of the environment measurement members 40 with the air discharge direction of the air conditioner 30 and the temperature / humidity control means 50, A position recognition unit 92 for recognizing the position of the occupant carrying the mobile through the measuring member 40, an air supply duct 10 for matching the environment measurement member 40 sensed by the occupant, temperature / humidity control A display section 93 for indicating the air discharge direction of the means 50 and a control section 94 for controlling the air conditioner 30 and the temperature / humidity control means 50.

In a state where the position of the air supply ducts 10 and the environment measurement members 40 and the air discharge direction of the discharge port 52 of the temperature / humidity control means 50 are set through the position setting unit 91, When the position of the occupant sensed by the human body detection sensor 40 is recognized by the position recognition unit 92, the air supply duct 10 and the temperature / humidity control means 50 are displayed on the screen. That is, the occupant operates the air conditioner 30 and the temperature / humidity control means 50 by using the mobile he / she carries, so that the air in the air supply duct 10, the temperature / humidity control means 50, The discharge direction can be confirmed.

In this state, the occupant operates the air conditioner 30 or the temperature / humidity control means 50 through the control unit 94 to detect the air concentration . That is, it is possible to concentrate the air toward the human body detecting sensor which is the environment measuring member 40 itself.

Therefore, the occupant can concentrate his / her air using his or her mobile.

As described above, according to the present invention, the air conditioner 30 and the temperature / humidity control means 50 are operated together to cool and heat the indoor space, and at the same time, the indoor air leakage and the inflow of external air frequently occur, The air-conditioned air can be concentrated in the specific indoor space or the position of the air-conditioner, and thus can be widely applied to the air conditioner control system.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: Supply duct 20: Intake duct
30: air conditioner 40: temperature measuring member
50: temperature / humidity adjusting means 51:
52: outlet 53: inlet
54: air heating / cooling section 55: dehumidifying section
56: projecting tube 57: air direction restricting portion
60: controller 61: direction setting unit
62: temperature recognition unit 63: reference temperature setting unit
64: temperature comparison unit 65: temperature control unit
66: humidity recognition unit 67: humidity comparison unit
68: Humidity control unit 90: Control application
91: Position setting section 92:
93: Direction display section 94: Control section

Claims (12)

A plurality of air supply ducts 10 installed to penetrate the indoor space to supply air,
An intake duct 20 installed to pass through the indoor space and sucking air,
An air conditioner (30) for adjusting the temperature of the air sucked through the intake duct (20) and supplying the conditioned air through the air supply duct (10)
An environment measurement member 40 installed at a predetermined interval in the indoor space to measure the indoor environment,
A temperature / humidity adjusting means 50 for heating or cooling the air in the indoor space and removing moisture in the indoor space,
And a controller (60) for controlling the air conditioner (30) and the temperature / humidity control means (50) together or individually based on the indoor environment measured by the environment measuring member (40)
The on-environment measuring member 40 is constituted by a temperature sensor for measuring the temperature in the indoor space,
The controller 60
A direction setting section 61 for matching the position of the environment measurement members 40 with the air discharge direction of the air conditioner 30 and the temperature / humidity control means 50,
A temperature recognition unit 62 for recognizing the room temperature measured by the environment measurement members 40,
A reference temperature setting section 63 for setting a reference temperature to be compared with the room temperature,
A temperature comparator 64 for comparing the preset reference temperature and the room temperatures recognized by the temperature recognition unit 61,
When the room temperature of each of the environment measuring members 40 does not match the reference temperature, the air conditioner 30 and the temperature / humidity controlling means 50 are operated, and the environmental measuring member The air conditioner 30 and the temperature / humidity control means 50 are operated together or individually so that the amount of air supplied in the direction of the air conditioner 40 is reduced, And a temperature control unit (65) for operating the air conditioner (30) and the temperature / humidity control unit (50) together or individually so as to increase the amount of air supplied in the direction of the air conditioner.
The air conditioner according to claim 1, wherein the air conditioner (30)
A harmonic basic body 31 to which the intake duct 20 and the air supply ducts 10 are connected,
An air temperature regulating unit 32 built in the harmonic basic body 31 for heating or cooling the air sucked through the intake duct 20 and supplying the air to the air supply duct 10,
A harmful device dehumidifier 33 built in the harmonic basic body 31 for removing moisture from the air sucked through the intake duct 20,
And an air amount adjusting unit (34) for adjusting the amount of air supplied through the air supply duct (10).
The temperature / humidity control means (50) according to claim 1, wherein the temperature /
A main body 51 in which an internal space is formed,
An outlet 52 formed to be dispersed outside the main body 51 and discharging air,
An inlet 53 formed at one side of the main body 51 and through which air flows,
An air heating / cooling unit 54 formed in the internal space of the main body 51 to heat or cool the air introduced through the inlet 53 and discharge the air to the outlet 52,
And a dehumidifying part (55) for dehumidifying the moisture in the air introduced through the inlet (53).
The air conditioner optimum control system according to claim 3, further comprising a protruding pipe (56) having one end connected to the discharge port (52) and the other end protruding into the indoor space.
The optimum control system for an air conditioner according to claim 4, wherein the projecting pipe (56) is formed of a corrugated pipe whose length is expanded and contracted.
The air conditioner optimum control system according to claim 3, wherein the projecting pipe (56) comprises a bent pipe bent at a predetermined angle, and one end is rotatably coupled to the outlet (52).
The air conditioning optimum control system according to claim 3, comprising an air direction restricting part (57) for restricting the direction of the air supplied from the outlet (52). The air conditioner optimum control system according to claim 7, wherein the air direction restricting portion (57) is composed of a flat plate or a concave plate fixed to the ceiling while being close to the end of the air supply duct (10).
delete The method according to claim 1,
The environment measuring member 40 is constituted by a humidity sensor for measuring indoor humidity in an indoor space,
The controller 60
A humidity recognition unit 66 for recognizing the humidity of the room measured by the humidity sensor as the environment measurement member 40,
A humidity comparator 67 for comparing the room humidity recognized by the humidity recognizing unit 66 with a preset reference humidity,
And a humidity control section (68) for operating the air conditioner (30) and the temperature / humidity control means (50) together or in order to remove moisture in the indoor space when the indoor humidity is in conformity with the reference humidity. Optimal control system.
The method according to claim 1,
The environment measuring member 40 is constituted by a human body detecting sensor for detecting a human body in an indoor space,
The controller 60 activates the tone generator 30 and the temperature / humidity control means 50 together or individually when the human body detection signal of the human body detection sensor 40 as the environment measurement member 40 is received, The control unit stops the operation of the air conditioner (30) and the temperature / humidity control means (50) together or respectively.
The method of claim 11,
And a control application (90) which is provided in a mobile carried by an occupant of the indoor space and controls the air conditioner (30) and the temperature / humidity control means (50)
The control application 90
A position setting unit 91 for matching the position of the environment measurement members 40 with the air discharge direction of the air conditioner 30 and the temperature / humidity control means 50,
A position recognition unit 92 for recognizing the position of the occupant carrying the mobile through the environment measurement member 40,
A display section 93 for indicating an air discharge direction of the air supply duct 10 and the temperature / humidity control means 50 matched with the environment measurement member 40 that senses the occupant's presence,
And a control unit (94) for controlling the air conditioner (30) and the temperature / humidity control means (50).

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