DE112020006475T5 - air conditioning system - Google Patents

Abstract

An air conditioning system includes a plurality of air conditioners which air-condition an associated air-conditioned area of the air-conditioned areas in an indoor area which is divided into a plurality of air-conditioned areas, a wireless communication module which communicates with an information communication terminal, into which pieces of setting information are input, each set for an associated air conditioner of the plurality of air conditioners and representing operation details of the air conditioner, and a controller that controls the plurality of air conditioners based on the pieces of setting information communicated via the wireless communication module.

Description

Technical part

The present disclosure relates to an air conditioning system that includes a wireless communication module.

background

An air conditioning control device is known in the prior art, which includes a user detection sensor in a room. In some cases, such a user sensor can have a motion detection function. Patent Literature 1 discloses an air conditioning control device including a user detection sensor and a temperature sensor in each of plural areas into which a room is divided. The user detection sensor detects a movement of a user by obtaining the number of users present in each area from a difference between an image of the area at the time no user is present and a current image of the area. The temperature sensor detects a room temperature. Patent Literature 1 discloses that air conditioning is controlled based on the number of users in each area in order to improve energy saving effects and also to meet a user's need for comfort.

citation list

patent literature

Patent Literature 1: Japanese Unexamined Patent Application Publication No. 2009-299933

Brief description of the invention

Technical problem

However, in the air conditioning control device disclosed in Patent Literature 1, the number of users present in each area is obtained based on a difference between an image of the area at the time when no user is present and a current image of the area. For this reason, it is not apparent whether a person present in the area needs air conditioning or not. Therefore, an air conditioning system in which the air conditioning control device disclosed in Patent Literature 1 is used causes air conditioning to operate even when the person present in the area does not require air conditioning. Therefore, in Patent Literature 1, unnecessary power consumption may be caused.

In order to solve the problem described above, the present disclosure provides an air conditioning system in which an air conditioner air-conditions only as much as needed, thereby contributing to energy saving.

the solution of the problem

An air conditioning system according to an embodiment of the present disclosure includes a plurality of air conditioners each configured to air-condition an associated one of the air-conditioned areas in an indoor area divided into a plurality of air-conditioned areas; a wireless communication module configured to communicate with an information communication terminal into which pieces of setting information each set for an associated air conditioner of the plurality of air conditioners and representing operation details of the air conditioner are input; and a controller configured to control the plurality of air conditioners based on the pieces of setting information communicated via the wireless communication module.

Advantageous Effects of the Invention

In an embodiment of the present disclosure, the controller controls the multiple air conditioners each air-conditioning the associated one of the areas based on the pieces of setting information communicated via the wireless communication module. Therefore, the air conditioners each perform an operation based on, for example, associated pieces of setting information optionally input by a user to the information communication terminal. In the air-conditioning system, therefore, air-conditioning is only carried out as required, which contributes to saving energy.

character list

• 1 12 is a schematic diagram showing an air conditioning system 1 according to Embodiment 1. FIG.
• 2 12 is a schematic diagram showing an air-conditioned room 11 according to Embodiment 1. FIG.
• 3 12 is a plan view showing the air-conditioned space 11 according to Embodiment 1. FIG.
• 4 FIG. 12 is a functional block diagram showing an operation unit 61 according to Embodiment 1. FIG.
• 5 FIG. 14 is a plan view showing control portions 32 according to Embodiment 1. FIG.
• 6 12 is a schematic view showing an information communication terminal 42 according to Embodiment 1. FIG.
• 7 FIG. 14 is a plan view showing a detection section 33 according to Embodiment 1. FIG.
• 8th FIG. 14 is a plan view showing a detection section 33 according to Embodiment 1. FIG.
• 9 14 is a plan view showing a detection area 33 and a communication available area 34 according to Embodiment 1. FIG.
• 10 12 is a schematic diagram showing a controller 45 and an infrared sensor module 44 according to Embodiment 1. FIG.
• 11 FIG. 12 is a functional block diagram showing the controller 45 according to Embodiment 1. FIG.
• 12 14 is a flow chart showing the operation of the information communication terminal 42 according to Embodiment 1. FIG.
• 13 FIG. 14 is a flowchart showing the operation of the controller 45 according to Embodiment 1. FIG.
• 14 12 is a schematic diagram showing an air conditioning system 101 according to Embodiment 2. FIG.
• 15 12 is a schematic diagram showing an air conditioning system 201 according to Embodiment 3. FIG.

Description of embodiment

Embodiment 1.

An air conditioning system 1 according to Embodiment 1 will be described below with reference to the drawings. 1 12 is a schematic diagram showing the air conditioning system 1 according to Embodiment 1. FIG. 2 12 is a schematic diagram showing an air-conditioned room 11 according to Embodiment 1. FIG. As in 1 As shown, the air conditioning system 1 is installed in the air-conditioned space 11 and includes a plurality of air conditioners 41, an information communication terminal 42, a wireless communication module 43, an infrared sensor module 44, a controller 45 and a memory 46.

(Air-conditioned room 11)

The air-conditioned space 11 is a space delimited by a floor 21, walls 22 and a ceiling 23. FIG. An indoor space surrounded by the floor 21, walls 22 and ceiling 23 of the air-conditioned space 11 is referred to as an indoor area 30. FIG. For example, desks 24, chairs 25 and a shelf 26 are placed on the floor 21 of the air-conditioned room 11, as in FIG 2 is shown.

(air conditioner 41)

3 14 is a plan view showing the air-conditioned space 11 according to Embodiment 1. FIG. An air conditioner 41 includes an outdoor unit 51 and an indoor unit 52. The outdoor unit 51 causes a refrigerant, which has been heat-exchanged with outdoor air, to flow through the indoor unit 52. As shown in FIG. As in 3 As shown, a plurality of indoor units 52 are installed, for example, on the ceiling 23 or walls 22 of the air-conditioned space 11 and air-condition the indoor area 30. When the indoor units 52 are installed in the air-conditioned space 11, the indoor area 30 is divided into a plurality of air-conditioned areas 31 which be air-conditioned by the air conditioners 41. In other words, the air conditioners 41 air-condition the multiple air-conditioned areas 31 in the indoor area 30 divided into the multiple air-conditioned areas 31 . Each air conditioner 41 also includes a remote control 29. An operating mode of the air conditioner 41 or a target temperature, for example, is entered into the remote control 29. Even though 3 shows four indoor units 52, the number of indoor units 52 may be two, three, or five or more. Furthermore, a single indoor unit 52 need not be connected to a single outdoor unit 51 . For example, multiple indoor units 52 may be connected to a single outdoor unit 51 . Furthermore, the air conditioning system 41 can be a cold air blower or a heater, for example.

(Information communication terminal 42)

The information communication terminal 42 is, for example, a smartphone or a tablet owned by a user of the air-conditioned room 11 . The information communication terminal 42 communicates with the wireless communication module 43 using a wireless communication function, and provides the air conditioners 41 with instruction on operational details. The wireless communication function is, for example, a wireless LAN such as Bluetooth (registered trademark, also applies hereinafter) and WiFi (registered trademark, also applies hereinafter) or ZigBee (registered trademark, also applies hereinafter). In the present case, Bluetooth also includes Bluetooth Low Energy (BLE).

Pieces of setting information which are set for the air conditioners 41 and represent operational details of the air conditioners 41 are inputted to the information communication terminal 42 . Here, setting information includes, for example, automatic mode setting information, automatic mode setting information, and manual mode setting information. The automatic operation start condition information is a condition for determining, while an air conditioner 41 is stopped, whether or not to cause the air conditioner 41 to start operating. The automatic operation starting condition information is, for example, an air temperature, a length of time, or a length of time of day. The automatic operation start setting information is a setting for an operating procedure for the air conditioner 41, which is executed when the automatic operation start condition information is satisfied and the air conditioner 41 starts operating. The automatic operation start setting information is, for example, an operation mode of the indoor unit 52, a target temperature, or an air flow direction. The manual operation setting information represents an operation method in the case where the air conditioner 41 is caused to operate when the setting information is input through the information communication terminal 42 . As with the automatic operation start setting information, the manual operation setting information is, for example, an operation mode of the indoor unit 52, a target temperature, or an air flow direction. Further, the information communication terminal 42 includes an operation unit 61 and an indicator 62.

(operational unit 61)

4 12 is a functional block diagram showing the operation unit 61 according to Embodiment 1. FIG. The operation unit 61 is an application installed on the information communication terminal 42, for example. The operation unit 61 includes a range setting circuit 63, an automatic operation setting circuit 64, an automatic operation commencing circuit 65 and a manual operation instructing circuit 66. The range setting circuit 63, the automatic mode setting circuit 64, the automatic operation embarking circuit 65 and the manual operation instructing circuit 66 each have an algorithm. Further, the area setting circuit 63, the automatic mode setting circuit 64, the automatic mode starting circuit 65 and the manual mode instructing circuit 66 are independently executed in information communication terminals 42 owned by respective users.

(Range setting circuit 63)

5 FIG. 14 is a plan view showing control portions 32 according to Embodiment 1. FIG. 6 12 is a schematic view showing the information communication terminal 42 according to Embodiment 1. FIG. 7 FIG. 14 is a plan view showing a detection section 33 according to Embodiment 1. FIG. Also 8th FIG. 14 is a plan view showing a detection section 33 according to Embodiment 1. FIG. The area setting circuit 63 sets detection areas 33 for the air conditioners 41 . The detection areas 33 are areas where, for example, room temperatures and human bodies used for controlling the air conditioners 41 are detected. Here, the operation of the range setting circuit 63 will be described with reference to FIG 5 until 8th described.

First, the control areas 32 for the air conditioners 41 are set. The control ranges 32 are ranges that are automatically set based on locations where the indoor units 52 of the air conditioners 41 are installed. In the case where the four indoor units 52 are installed at substantially equal intervals and in four areas of the indoor area 30 as shown in FIG 5 As shown, the control areas 32 are areas obtained by equally dividing the interior area 30 into the four areas. Next, as a detection area 33, a specific area is selected in an application screen displaying a pseudo indoor area 30 as shown in FIG 6 is shown. The detection area 33 can be set by the infrared sensor module 44, which detects an area surrounded by a plurality of markers (not shown) which are arranged, for example, on the floor 21 of the air-conditioned room 11 and emit infrared rays. As in 7 1, the detection area 33 is therefore set as an area in which, for example, the area of the shelf 26 where a person does not enter is excluded from the control area 32. FIG.

The detection areas 33 can be set larger than the air-conditioned areas 31 . Furthermore, some of the individual detection areas 33 may overlap each other, or some may not be in contact with each other. As in 8th 1, a control portion 32 can also be used as a detection portion 33 as it is.

(Automatic mode setting circuit 64)

The automatic operation setting circuit 64 stores, in a memory (not shown) of the information communication terminal 42 , automatic operation commencing condition information and automatic operation commencing setting information, which are input for each of the air conditioners 41 . The number of pieces of automatic operation starting condition information may be one or two or more. Furthermore, the automatic operation start setting information need not be input.

(Automatic operation start circuit 65)

When information obtained from the wireless communication module 43 satisfies the automatic operation start condition information set by the automatic operation setting circuit 64 , the automatic operation start circuit 65 transmits an operation start instruction to the air conditioner 41 via the wireless communication module 43 .

(Manual operation instruction circuit 66)

The manual operation instruction circuit 66 instructs the controller 45 via the wireless communication module 43 that a specific air conditioner 41 should perform an operation based on manual operation setting information. That is, the manual operation instructing circuit 66 performs an operation similar to that performed by the remote controller 29 of the air conditioner 41 .

(Indicator 62)

The indicator 62 is a display and shows, for example, a screen for operating an application of the information communication terminal 42 as shown in FIG 6 shown. The indicator 62 may display, for example, automatic operation commencement condition information and automatic operation commencement setting information, and information such as air temperature and air flow direction acquired from the wireless communication module 43 .

(Wireless communication module 43)

9 14 is a plan view showing a detection area 33 and a communication available area 34 according to Embodiment 1. FIG. The wireless communication module 43 communicates with the information communication terminal 42. As in FIG 1 As shown, the wireless communication module 43 is integrated with the controller 45 . The wireless communication module 43 may be a separate element from the controller 45 and may be connected to the controller 45 via a communication line 27 to communicate with the controller 45 . Further, the wireless communication module 43 is connected to each of the air conditioners 41 via the communication line 27 .

In the wireless communication module 43, the communication available area 34 is set. The communication available area 34 is an area reached by a radio wave having a strength receivable by the information communication terminal 42 . As the communication available area 34, for example, an area larger than the individual detection areas 33 is set, as shown in FIG 9 is shown. The wireless communication module 43 therefore performs wireless communication with, for example, an information communication terminal 42 present in a detection area 33 or with an information communication terminal 42 approaching the detection area 33 .

(Infrared Sensor Module 44)

10 12 is a schematic diagram showing the controller 45 and the infrared sensor module 44 according to Embodiment 1. FIG. A single infrared sensor module 44 is provided, for example, in the center of the ceiling 23 of the air-conditioned space 11 as shown in FIG 5 is shown, and measures temperatures of all detection areas 33. The single infrared sensor module 44 comprises a sensor circuit 71 (see 11 ), a motor 73 and an infrared sensor 72. As in 10 As shown, the infrared sensor module 44 is a separate element from the controller 45 and is connected to the controller 45 via the communication line 27 . The infrared sensor module 44 can be integrated with the controller 45 . Further, the infrared sensor module 44 is installed on the ceiling 23 using a leaf spring 28 .

The sensor circuit 71 controls the operation of the motor 73. When an internal element (not shown) responds to an infrared ray, the infrared sensor 72 detects a temperature of the floor 21 in a detection area 33 and a surface temperature of a human body present in the detection area 33, the number of people present in the detection area 33 and a position of the human body present in the detection area 33 . An element used as the infrared sensor 72 is a single element. The infrared sensor 72 is installed on the motor 73 so that the infrared sensor 72 lowers in a direction toward the ceiling 23 is right, is tilted. The motor 73 rotates the infrared sensor 72 360 degrees around a line serving as a rotation axis, which is perpendicular to the ceiling 23 and passes through a base part (not shown) on which the infrared sensor 72 is installed, so as to increase the temperatures of all detection areas 33 detect. In addition, the infrared sensor 72 detects an infrared ray every time the motor 73 rotates the infrared sensor 72 a few degrees. A range in which the infrared sensor 72 detects one infrared ray at a time is narrower than the size of a human body, for example.

Therefore, because the infrared sensor module 44 rotates the infrared sensor 72 using the motor 73, the infrared sensor module 44 subjects all detection areas 33 to detection, and resolution is also increased. Furthermore, because the infrared sensor 72 is a single element, temperature calibration performed between multiple elements is not necessary. The infrared sensor 72 need not be a single element. Also in this case, a single infrared sensor module 44 is provided in the center of the ceiling 23 of the air-conditioned space 11, and therefore temperature calibration is easier than the case where a plurality of infrared sensor modules 44 are provided.

The controller 45 controls the operation of each of the air conditioners 41. The controller 45 is a CPU (also referred to as a central processing unit, a central processor, a processing unit, an arithmetic circuit, a microprocessor, a microcomputer, or a processor) which executes a program, which is stored in dedicated hardware or memory 46 (see 11 ). For example, when the controller 45 is dedicated hardware, the controller 45 corresponds to a single circuit, a complex circuit, an ASIC (Application Specific Integrated Circuit), an FPGA (Field-Programmable Gate Array), or a combination of these circuits. Functional units implemented by the controller 45 may be implemented by corresponding hardware elements or may be implemented by a single hardware element.

When the controller 45 is the CPU, functions performed by the controller 45 are implemented through software, firmware, or a combination of software and firmware. Software and firmware are written as programs and stored in memory 46 (not shown). The CPU reads out a program stored in the memory 46 and executes the program to thereby implement a corresponding function. Here, memory 46 is, for example, non-volatile or volatile semiconductor memory such as RAM, ROM, flash memory, EPROM, and EEPROM. Some of the functions of controller 45 may be implemented through dedicated hardware and some of the functions may be implemented through software or firmware.

11 FIG. 12 is a functional block diagram showing the controller 45 according to Embodiment 1. FIG. As in 11 As shown, the controller 45 includes an environment detection circuit 81, a wireless communication circuit 82, a control information arithmetic circuit 83 and an output circuit 84. The environment detection circuit 81, the wireless communication circuit 82, the control information arithmetic circuit 83 and the output circuit 84 each have an algorithm.

(environment detection circuit 81)

The environment detection circuit 81 detects environment information, and includes an environment information acquisition circuit 91 and an environment information memory 92. Pieces of environment information are, for example, a room temperature or a position of a human body in a detection area 33 and an operating state of an air conditioner 41. The environment information acquisition circuit 91 acquires from the Sensor circuit 71 pieces of environmental information such as room temperatures and positions of human bodies in the detection areas 33 detected by the infrared sensor 72. The environmental information obtaining circuit 91 can acquire pieces of environmental information such as room temperatures in the air-conditioned room 11 using temperature sensors (not shown) provided in the respective air conditioners 41, or from temperature sensors (not shown) provided in the respective remote controllers 29, b raise Further, the environmental information obtaining circuit 91 may obtain an average value from a plurality of room temperatures described above. Further, the environmental information obtaining circuit 91 obtains from the respective air conditioners 41 pieces of environmental information such as operation modes, target temperatures and air volumes from the respective air conditioners 41. The environmental information memory 92 causes the memory 46 to obtain the environmental information obtaining circuit 91 acquired pieces of environmental information to save.

(wireless communication circuit 82)

The wireless communication circuit 82 receives setting information from the wireless communication module 43 and includes a setting information obtaining circuit 93 and a setting information memory 94. The setting information acquiring circuit 93 acquires, via the wireless communication module 43, automatic mode setting information and manual mode setting information, which are set in an information communication terminal 42. The setting information memory 94 causes the memory 46 to store the automatic mode setting information and the manual mode setting information obtained by the setting information obtaining circuit 93 .

(Control information arithmetic circuit 83)

The control information arithmetic circuit 83 calculates control information to be output by the output circuit 84, and includes an arithmetic circuit 95 and a result memory 96. The control information is air conditioner control information which, for example, determines the amount of operation of each unit of an air conditioner 41 by adjusting an operation mode, a target temperature or an air volume of the air conditioner 41 represents. Further, the control information is sensor control information representing, for example, the amount of operation for driving the motor 73 to direct the infrared sensor 72 to a specific detection area 33 . The arithmetic circuit 95 calculates control information using environment information and setting information stored in the memory 46 . The arithmetic circuit 95 calculates air conditioner control information, for example, such that a felt temperature obtained by correcting a suction temperature of the air conditioner 41 using a temperature of the floor 21 becomes equal to setting information of a room temperature. Further, the arithmetic circuit 95 may calculate air conditioner control information such that an air flow direction and an air volume are adjusted based on a human body position. The result memory 96 causes the memory 46 to store the control information calculated by the arithmetic circuit 95. FIG.

(output circuit 84)

The output circuit 84 outputs environmental information, setting information and control information to relevant devices included in the air conditioning system 1, and includes a display 97, a sensor control circuit 98 and an air conditioning control circuit 99. The display 97 causes the indicator via the wireless communication module 43 62 of an information communication terminal 42 to display environment information and setting information stored in the memory 46. The sensor control circuit 98 communicates sensor control information stored in the memory 46 to the sensor circuit 71 of the infrared sensor module 44. The air conditioner control circuit 99 transmits pieces of air conditioner control information stored in the memory 46 to the air conditioners 41. Further, the air conditioner control circuit 99 can cause an air conditioner 41 to perform a fan operation, before the infrared sensor 72 or a temperature sensor provided in the air conditioner 41 or the remote controller 29 detects a temperature.

The controller 45 can communicate with an external server provided outside the air conditioning system 1 to transmit information stored in the memory 46 to the external server.

(Storage 46)

The memory 46 stores, for example, environment information recognized by the environment recognition circuit 81 , setting information received from the wireless communication module 43 , and control information calculated by the control information arithmetic circuit 83 .

(Automatic operation instruction provided by information communication terminal 42)

12 14 is a flow chart showing the operation of the information communication terminal 42 according to Embodiment 1. FIG. Here, a procedure by which the information communication terminal 42 transmits an operation instruction to an air conditioner 41 will be described. As in 12 1, wireless communication between the information communication terminal 42 and the wireless communication module 43 is active. Here, in the information communication terminal 42, a state in which wireless communication with the wireless communication module 43 is active means, for example, that an application running in the background is in a standby state in which a setting of an automatic operation of the Air conditioning 41 is active.

In this case, the automatic operation starting circuit 65 first determines whether a predetermined time of 30 minutes has elapsed since a previous attempt to connect to the wireless communication module 43 (step S1). The predetermined period of time can be less than 30 minutes or more than 30 minutes. When the predetermined period of time has elapsed (Yes in step S1), the automatic operation starting circuit 65 then determines whether a period of time during which the information communication terminal 42 receives a radio wave transmitted from the wireless communication module 43 and has a strength of not less than a threshold of -70 dBm has lasted for a threshold period of 2 seconds (step S2). In other words, the automatic operation start circuit 65 determines whether the information communication terminal 42 is present in the communication available area 34 . The radio wave strength threshold may be set to less than -70 dBm or more than -70 dBm. Furthermore, the threshold time period can be set to less than 2 seconds or more than 2 seconds.

Further, when the period during which the information communication terminal 42 receives the radio wave transmitted from the wireless communication module 43 and having the strength not less than the threshold has continued for the threshold period (Yes in step S2), the automatic operation start circuit 65 displays an application of the information communication terminal 42 on the indicator 62 . Further, the automatic operation start circuit 65 connects the information communication terminal 42 to the wireless communication module 43 (step S3). Finally, when automatic operation entry condition information set in the automatic operation setting circuit 64 is satisfied (Yes in step S4), the automatic operation entry circuit 65 transmits an operation instruction to an air conditioner 41 via the wireless communication module 43, which is set in the automatic operation entry setting information (Step S5). As described above, when plural pieces of automatic operation entry condition information are set, only any piece of automatic operation entry condition information needs to be satisfied.

Further, when the predetermined time has not elapsed since the previous attempt to connect to the wireless communication module 43 (No in step S1), the automatic operation start circuit 65 repeatedly determines whether the predetermined time has elapsed (step S1). In other words, the information communication terminal 42 is unable to transmit an operation instruction to an air conditioner 41 for the predetermined period of time. Furthermore, when the time period during which the information communication terminal 42 receives the radio wave, which is transmitted from the wireless communication module 43 and has the strength not less than the threshold value, has not lasted for the threshold time period (No in step S2) , the automatic operation resuming circuit 65 determines again whether the predetermined period of time has elapsed (step S1). Further, when automatic operation commencing condition information set in the automatic operation setting circuit 64 is not satisfied (No in step S4), the automatic operation commencing circuit 65 determines again whether the predetermined period of time has elapsed (step S1).

(Control 45 operation)

13 FIG. 14 is a flowchart showing the operation of the controller 45 according to Embodiment 1. FIG. Furthermore, with reference to 13 the operation of the controller 45 which has received an operation instruction from the information communication terminal 42 will be described in detail. First, when the setting information obtaining circuit 93 obtains setting information (step S11), the arithmetic circuit 95 calculates air conditioning control information (step S12). Then, the air conditioner control circuit 99 transmits the air conditioner control information to an air conditioner 41 (step S13). Therefore, the air conditioner 41 starts operating based on the air conditioner control information received from the air conditioner control circuit 99 . At this time, when no automatic operation start setting information is set, the air conditioner 41 starts operating based on operation details of a previous operation that the air conditioner 41 has performed. Therefore, when the information communication terminal 42 in which wireless communication is active is present in the communication available area 34, the air conditioner 41 automatically starts operating.

The air conditioner 41 which has started operation does not accept execution of the automatic operation start circuit 65 performed by the information communication terminal 42 . For this reason, the information communication terminal 42 provides an instruction on an operation method such as an operation mode, a target temperature and an air flow direction, using the manual operation instruction circuit 66, to an air conditioner 41 which has already started operation. In addition, when a state in which no setting information is received from the wireless communication circuit 82 while no human body is detected by the environmental information obtaining circuit 91 continues for 30 minutes (Yes in step S14), the air conditioner control circuit 99 of FIG controls 45 the air conditioner 41 (step S15). For example, if the environment in formation reference circuit 91 detects a human body, or when setting information is received from the wireless communication circuit 82 (No in step S14), determination on the condition of detecting a human body and receiving setting information is made again (step S14 ). Therefore, the controller 45 acquires information from both the infrared sensor module 44 and the wireless communication module 43 to thereby detect the presence or absence of a user with high accuracy.

In Embodiment 1, the controller 45 controls the air conditioners 41 that air-condition the air-conditioned areas 31 based on pieces of setting information communicated via the wireless communication module 43 . Therefore, the air conditioners 41 perform their operations based on the pieces of setting information input to the information communication terminal 42 . Therefore, in the air conditioning system 1, air conditioning is carried out only as far as required, which contributes to energy saving.

Further, in Embodiment 1, the controller 45 controls the air conditioners 41 based on pieces of manual operation setting information representing an operation method for the case where the air conditioners 41 are caused to operate when the pieces of setting information are transmitted by the information communication terminal 42 have been entered. Therefore, the respective air conditioners 41 perform their operations based on the pieces of manual operation setting information input to the information communication terminal 42 . Therefore, the air conditioners 41 in the air conditioning system 1 are operated using the information communication terminal 42, thereby improving convenience.

Furthermore, in Embodiment 1, the controller 45 controls the air conditioners 41 based on pieces of automatic operation starting condition information to determine while one of the air conditioners 41 for which the pieces of setting information are set is stopped whether to start operating the one air conditioner 41 should be initiated or not. Therefore, the respective air conditioners 41 perform their operations based on the pieces of automatic operation commencement condition information input to the information communication terminal 42 . Therefore, the air conditioning system 1 does not cause an air conditioner 41 to operate when air conditioning is not required, thereby contributing to energy saving.

Further, in Embodiment 1, the air conditioning system 1 includes the infrared sensor module 44 that detects an infrared ray. Therefore, the controller 45 obtains information from both the infrared sensor module 44 and the wireless communication module 43 to thereby detect the presence or absence of a user with high accuracy. Therefore, the air conditioning system 1 stops an air conditioner 41 when the air conditioner 41 is not needed, further contributing to energy saving.

Furthermore, in Embodiment 1, the air conditioning system 1 includes the single infrared sensor module 44 that detects infrared rays in all detection areas 33 . It is therefore unlikely that errors will occur regarding temperatures detected in the respective areas. Therefore, in the air conditioning system 1, the air conditioners 41 air-condition based on accurate measurement of a room temperature distribution, thereby enabling user comfort to be increased.

Furthermore, in Embodiment 1, the infrared sensor module 44 is installed on the ceiling 23 using the leaf spring 28 . The ceiling 23 where the infrared sensor module 44 is installed is usually small, and it is therefore difficult to provide enough space to install the infrared sensor module 44. The leaf spring 28 typically has a thin and light structure compared to the infrared sensor module 44. Therefore, the leaf spring 28 is unlikely to impede work even if the leaf spring 28 is used when installing the infrared sensor module 44 as in Embodiment 1, and prevents one Deterioration in the ease of installation work of the infrared sensor module 44.

Furthermore, in Embodiment 1, the infrared sensor module 44 is an element separate from the controller 45 . The ceiling 23 where the infrared sensor module 44 is installed is usually small, and therefore it is difficult to provide enough space to install the infrared sensor module 44. Also, for each air conditioner 41, for example, a power supply and an external input-output terminal are connected to the controller 45. In other words, when the infrared sensor module 44 is integrated with the controller 45 and is to be installed at the same time as the controller 45, the space for installing the infrared sensor module 44 is further restricted, thereby degrading the workability. Therefore, when the infrared sensor module 44 is an element separate from the controller 45 as in Embodiment 1, the ease of work is prevented from being degraded.

In Embodiment 1, the controller 45 can be connected to an external server. The controller 45 transmits pieces of operation information of the air conditioners 41, information obtained from the information communication terminal 42, and information obtained from the infrared sensor module 44 to the external server. Therefore, when the air conditioning system 1 is used, the controller 45 collects in the external server information such as the presence or absence of a user for each period of time in the conditioned space 11, and information such as operational settings of the air conditioners 41. When the controller 45 is connected to the external server, therefore, the operation of another device using information collected in the external server becomes more efficient.

Embodiment 2.

14 12 is a schematic diagram showing an air conditioning system 101 according to Embodiment 2. FIG. Embodiment 2 differs from Embodiment 1 in that the air conditioning system 101 does not include the infrared sensor module 44 . In Embodiment 2, parts that are the same as in Embodiment 1 are denoted by the same reference numerals, and description of the parts is omitted. A description will be given with an emphasis on aspects in which Embodiment 2 differs from Embodiment 1.

As in 13 As shown, the air conditioning system 101 does not include the infrared sensor module 44 . Also in this case, the controller 45 controls the air conditioners 41 that air-condition the air-conditioned areas 31 based on pieces of setting information communicated via the wireless communication module 43 .

In Embodiment 2, the controller 45 controls the air conditioners 41 that air-condition the air-conditioned areas 31 based on pieces of setting information communicated via the wireless communication module 43 . Therefore, the respective air conditioners 41 perform their operations based on the pieces of setting information input to the information communication terminal 42 . Therefore, in the air conditioning system 101, air conditioning is performed only as required, thereby contributing to energy saving.

Embodiment 3.

15 12 is a schematic diagram showing an air conditioning system 201 according to Embodiment 3. FIG. Embodiment 3 differs from Embodiment 1 in that the air conditioning system 201 does not include the wireless communication module 43 . In Embodiment 3, parts that are the same as in Embodiment 1 are denoted by the same reference numerals, and description of the parts is omitted. A description will be given with an emphasis on aspects in which Embodiment 3 differs from Embodiment 1.

As in 15 As shown, the air conditioning system 201 does not include the wireless communication module 43 . Also in this case, the controller 45 controls the air conditioners 41 that air-condition the air-conditioned areas 31 only based on detection results obtained from the infrared sensor module 44 including the single infrared sensor 72 that detects a temperature.

(Control 45 operation)

Next, an aspect in which Embodiment 3 differs from Embodiment 1 will be described with respect to details of the operation of the controller 45 which has received an operation instruction from the information communication terminal 42. FIG. When a state in which the environmental information obtaining circuit 91 does not detect a position of a human body lasts for one hour, the air conditioner control circuit 99 of the controller 45 stops an air conditioner 41. The duration for which a state lasts in which a position of a human body is not detected can be set to less than an hour or more than an hour.

In Embodiment 3, the controller 45 includes the single infrared sensor module 44 that detects infrared rays in all detection areas 33 . Errors in temperatures detected in the respective detection areas 33 are therefore unlikely to occur. Therefore, in the air conditioning system 201, the air conditioners 41 air-condition based on accurate measurements of a room temperature distribution, thereby enabling improved comfort for a user.

Reference List

1

air conditioning system,

11

air-conditioned room,

21

Floor,

22

Wall,

23

Ceiling,

24

Writing desk,

25

Chair,

26

Shelf,

27

communication line,

28

leaf spring,

29

Remote control,

30

indoor area,

31

air-conditioned area,

32

control area,

33

detection area,

34

area with available communication,

41

Air conditioning,

42

information communication terminal,

43

wireless communication module,

44

infrared sensor module,

45

Steering,

46

Storage,

51

outdoor unit,

52

indoor unit,

61

operating unit,

62

Indicator,

63

range setting circuit,

64

automatic mode setting circuit,

65

automatic operation recording circuit,

66

manual operation command circuit,

71

sensor circuit,

72

infrared sensor,

73

Engine,

81

environment detection circuit,

82

wireless communication circuit,

83

control information arithmetic circuit,

84

output circuit,

91

environmental information reference circuit,

92

environmental information storage,

93

setting information reference circuit,

94

settings information store,

95

arithmetic circuit,

96

results memory,

97

Advertisement,

98

sensor control circuit,

99

air conditioning control circuit,

101

air conditioning system,

201

air conditioning system

Claims (8)

Air conditioning system comprising: a plurality of air conditioners each configured to air-condition an associated one of the plurality of air-conditioned areas in an indoor area divided into a plurality of air-conditioned areas; a wireless communication module configured to communicate with an information communication terminal to which pieces of setting information each set for an associated air conditioner of the plurality of air conditioners and representing operation details of the air conditioner are input; and a controller configured to control the plurality of air conditioners based on the pieces of setting information communicated via the wireless communication module. Air conditioning system according to claim 1 wherein the pieces of setting information include pieces of manual operation setting information representing an operation method for a case where inputting the pieces of setting information through the information communication terminal causes the plurality of air conditioners to operate and the controller is configured to control the operation of the plurality of air conditioners based on the pieces of manual operation setting information. Air conditioning system according to claim 1 or 2 wherein the pieces of setting information include pieces of automatic operation commencing condition information which is a condition for determining while one air conditioner of the plurality of air conditioners to which the pieces of setting information are respectively set is stopped whether to start operation of the one of the plurality of air conditioners is caused or not, and wherein the controller is configured to start operation of the one of the plurality of air conditioners based on the pieces of automatic operation commencement condition information. Air conditioning system according to any of Claims 1 until 3 , wherein the indoor area is divided into a plurality of detection areas, which are areas assigned to the plurality of air conditioners and in which Infrared rays are detected, wherein the air conditioning system further includes an infrared sensor module configured to detect infrared rays in the detection areas, and wherein the controller is configured to control the plurality of air conditioners based on detection results provided by the infrared sensor module. Air conditioning system according to claim 4 comprising the infrared sensor module serving as a single infrared sensor module configured to detect infrared rays in all of the detection areas. Air conditioning system according to claim 4 or 5 wherein the infrared sensor module is installed on a ceiling covering the indoor area using a leaf spring. Air conditioning system according to any of Claims 4 until 6 , where the infrared sensor module is a separate element from the controller. Air conditioning system according to any of Claims 4 until 7 wherein the controller is connected to an external server, and wherein the controller is configured to transmit pieces of operation information of the plurality of air conditioners, information obtained from the information communication terminal, and information obtained from the infrared sensor module to the external server.

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