JP6948812B2 - Management equipment, air conditioning systems, management methods, and programs - Google Patents

Description

The present invention relates to a management device, an air conditioning system, a management method, and a program for managing an air conditioning system.

Conventionally, air conditioners installed in buildings such as offices and factories are generally operated by a remote controller. In air conditioners operated by remote controllers in this way, the centralized management system for remote controllers and indoor units can often be operated only by a specific person. Therefore, multiple temperature sensors and humidity sensors are placed in the air-conditioned room. However, there is a problem that it is difficult to reflect the individual request of the user.

As a technique for solving such a problem, for example, Patent Document 1 discloses a system for controlling air conditioning by specifying an individual user and its position. Specifically, in this system, the remote controller has a function of switching the operation mode and setting the temperature by the user, and also measures the temperature / humidity around the remote controller and recognizes the individual user. Then, the image sensor provided in the indoor unit recognizes the blinking of the light emitting element of the remote controller, and by specifying the position of the user, the area where air can be blown is determined and air conditioning is executed.

Japanese Unexamined Patent Publication No. 2013-160392

On the other hand, in a large indoor space such as an office, it is common to install a plurality of indoor units. When a plurality of indoor units operate in the same space, the operating operations of the indoor units interfere with each other, which may reduce the user's comfort level and the effect of air conditioning.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a management device, an air conditioning system, a management method, and a program capable of suppressing a decrease in comfort.

In order to achieve the above object, the management device according to the present invention is
Environmental information indicating the surrounding environment of the operation terminal transmitted from each of the plurality of indoor units to the indoor unit by the operation terminal located in the air conditioning range where the indoor unit can control the air conditioning, and the operation of the indoor unit. The acquisition means for acquiring the terminal information including the operation setting information indicating the setting of the operation terminal, the terminal identification information for identifying the operation terminal, and the indoor unit identification information for identifying the indoor unit.
A group setting means for setting a group so that the indoor units related to the terminal information including the same terminal identification information belong to the same group among the plurality of indoor units.
Based on the environment information and the operation setting information included in the terminal information acquired respectively by the plurality of indoor units belonging to the group, and control means for controlling the operation of a plurality of indoor units belonging to the group comprising,
When there is an indoor unit that belongs to a plurality of groups, the group setting means causes the indoor unit to belong to the group having the largest number of operation terminals located in the air-conditioning range of the indoor unit to which the indoor unit belongs. Set to .

In the present invention, when the terminal identification information included in the terminal information received by the first indoor unit and the terminal identification information received by the second indoor unit are the same, the first indoor unit and the second indoor unit are grouped in the same group. The first indoor unit and the second indoor unit are controlled based on the environmental information and the operation setting information included in the terminal information. Therefore, according to the present invention, it is possible to suppress a decrease in comfort.

The figure which shows the structure of the air-conditioning system which concerns on embodiment of this invention. Block diagram showing the configuration of the operation terminal according to the embodiment Block diagram showing the configuration of the indoor unit according to the embodiment Block diagram showing the configuration of the outdoor unit according to the embodiment Block diagram showing the configuration of the management device according to the embodiment The figure which shows an example of the data stored in the operation information DB which concerns on embodiment. (A) to (d) are diagrams for explaining an example of a method of determining indoor units belonging to the same group by the group setting unit. A sequence diagram showing the flow of processing executed between the operation terminal, the indoor unit, the outdoor unit, and the management device. A flowchart showing the flow of group setting processing executed by the control unit of the management device.

Hereinafter, the air conditioning system according to the embodiment of the present invention will be described in detail with reference to the drawings. In each drawing, the same or equivalent parts are designated by the same reference numerals.

First, the air conditioning system 1 according to the first embodiment of the present invention will be described with reference to FIG. The air conditioning system 1 is a system that air-conditions the air-conditioned room 2. Here, the air conditioning is to adjust the temperature, humidity, cleanliness, air flow, etc. of the air in the space to be air-conditioned, and specifically includes heating, cooling, dehumidification, humidification, air cleaning, and the like. As shown in FIG. 1, the air conditioner system 1 includes operation terminals 100a and 100b, indoor units 200a to 200d, an outdoor unit 300, and a management device 400. In the following description, the operation terminals 100a and 100b and the indoor units 200a to 200d are collectively referred to as the operation terminal 100 and the indoor unit 200, respectively.

The operation terminal 100 is a terminal device operated by a user in the air-conditioned room 2 to control the operation of the indoor unit 200, and is, for example, a smartphone, a tablet terminal, a mobile phone, a personal computer, or a remote controller. The operation terminal 100 is wirelessly connected to the indoor unit 200 so as to be able to communicate with the indoor unit 200, and transmits various information to be described later acquired by the own device to the indoor unit 200.

The indoor unit 200 is a device that is installed in the air-conditioned room 2 and air-conditions the inside of the air-conditioned room 2 by absorbing heat with a refrigerant or by releasing heat contained in the refrigerant. In the present embodiment, each of the indoor units 200 has an air conditioning range A1 to A4 in which the own device can control the air conditioning. FIG. 7A shows the air-conditioning range of the indoor unit 200 in the air-conditioned room 2 as viewed from above. As shown in FIG. 7A, the indoor unit 200a has an air conditioner range A1, the indoor unit 200b has an air conditioner range A2, the indoor unit 200c has an air conditioner range A3, and the indoor unit 200d has an air conditioner range A4. Further, the indoor unit 200 is communicably connected to the management device 400 via the signal line 600. The indoor unit 200 periodically detects the operation terminals 100 located in the air conditioning ranges A1 to A4 of the own device, acquires various information from the operation terminals 100, and transmits the various information to the management device 400. Further, the indoor unit 200 operates according to the control information from the management device 400.

The outdoor unit 300 is installed outside the air-conditioned room 2, and absorbs external heat by the refrigerant or releases the heat of the refrigerant to the outside. The outdoor unit 300 is connected to the indoor unit 200 via a refrigerant pipe 500. Further, the outdoor unit 300 is communicably connected to the management device 400 via the signal line 600. Then, the outdoor unit 300 operates according to the control information from the management device 400.

The management device 400 controls the operation of the indoor unit 200 and the outdoor unit 300. The management device 400 is communicably connected to the indoor unit 200 and the outdoor unit 300 via the signal line 600. Specifically, for example, the management device 400 acquires various information acquired from the operation terminal 100 by the indoor unit 200 from the indoor unit 100. Then, the management device 400 determines the group of the indoor unit 100 based on the acquired various information. Then, the management device 400 controls the indoor unit 200 and the outdoor unit 300 based on the determined group.

Next, the hardware configuration of the operation terminal 100 will be described in detail. As shown in FIG. 2, the operation terminal 100 includes a control unit 101, a storage unit 102, an input unit 103, a display unit 104, a communication unit 105, and a sensor unit 106, and each of these units includes a bus 107. It is connected via.

The control unit 101 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory). The CPU is also referred to as a central processing unit, a central processing unit, a processor, a microprocessor, a microcomputer, a DSP (Digital Signal Processor), or the like. In the control unit 101, the CPU reads out the programs and data stored in the ROM, uses the RAM as a work area, and controls the operation terminal 100 in an integrated manner.

The storage unit 102 is a non-volatile semiconductor memory such as a flash memory, EPROM (Erasable Programmable ROM), or EEPROM (Electrically Erasable Programmable ROM), and serves as a so-called secondary storage device or auxiliary storage device. The storage unit 102 stores programs and data used by the control unit 101 to perform various processes, and data generated or acquired by the control unit 101 performing various processes.

In the present embodiment, the storage unit 102 stores the terminal ID 121, the environment information 122, and the operation setting information 123. The terminal ID 121 is terminal identification information that identifies the operation terminal 100, and is set in the storage unit 102 in advance. The environmental information 122 is environmental information representing the surrounding environment acquired by the sensor unit 106. The operation setting information 123 is the operation setting information indicating the operation setting of the indoor unit 200 received by the input unit 103. The operation setting information includes, for example, setting of operation start or stop, setting of operation mode such as cooling, heating, dehumidification, humidification, air purification, and ventilation, setting of target temperature and target humidity, setting of air volume and direction, or timer. Indicates the setting of. The environment information 122 and the operation setting information 123 may be updated with the latest acquired information, or past information may be stored as a history.

The input unit 103 is an input device such as a touch panel, a touch pad, a switch, and a pressing button. The input unit 103 receives an operation from the user and inputs an operation signal representing the accepted operation to the control unit 101. By operating the input unit 103, the user inputs operation setting information indicating the operation setting of the indoor unit 200 that he / she desires.

The display unit 104 is a display device such as an LCD (Liquid Crystal Display) panel, an organic EL, or an LED (Light Emitting Diode). Further, the display unit 104 displays an image according to a control signal from the control unit 101. The input unit 103 and the display unit 104 may be configured as a touch panel or a touch screen in which they are arranged so as to be overlapped with each other.

The communication unit 105 includes a communication interface for communicating with the indoor unit 200. The communication unit 105 communicates with the indoor unit 200 in accordance with a well-known wireless communication standard such as Bluetooth (registered trademark) Low Energy (BLE). Specifically, the communication unit 105 transmits the operation setting information received from the user via the input unit 103 and the environmental information acquired by the sensor unit 106 to the indoor unit 200. Further, the communication unit 105 may receive notification information from the indoor unit 200 for notifying the user via the display unit 104.

The sensor unit 106 includes a sensor for acquiring environmental information indicating the environment around the operation terminal 100. The sensor unit 106 includes, for example, a temperature sensor and a humidity sensor, and acquires information indicating temperature and humidity as environmental information. The sensor unit 106 inputs the acquired environmental information to the control unit 101.

Next, the hardware configuration of the indoor unit 200 will be described in detail. As shown in FIG. 3, the indoor unit 200 includes a control unit 201, a storage unit 202, a communication unit 203, and an air conditioner unit 204, and each of these units is connected via a bus 205.

The control unit 201 includes a CPU, a ROM, and a RAM. In the control unit 201, the CPU reads out the programs and data stored in the ROM, and uses the RAM as a work area to control the indoor unit 200 in an integrated manner.

The storage unit 202 is a non-volatile semiconductor memory. The storage unit 202 stores programs and data used by the control unit 201 to perform various processes, and data generated or acquired by the control unit 201 performing various processes.

In the present embodiment, the storage unit 202 stores the indoor unit ID 221 and the terminal information 222. The indoor unit ID is indoor unit identification information that identifies the indoor unit 200, and is set in the storage unit 202 in advance. The terminal information 222 is terminal information acquired from the operation terminal 100 located in the air conditioning range of the own device, as will be described later.

The communication unit 203 includes a communication interface for communicating with the operation terminal 100 and the management device 400. Specifically, the communication unit 203 receives remote control information from the operation terminal 100 using a wireless communication standard such as BLE. Further, the communication unit 203 transmits the indoor unit information including the indoor unit ID and the terminal information of the own device to the management device 400.

The air-conditioning unit 204 is an indoor heat exchanger or an indoor heat exchanger that exchanges heat between the cold / hot heat supplied by the refrigerant flowing through the refrigerant pipe 500 and the air in the air-conditioned room 2 (not shown). Includes a blower that supplies the air heat-exchanged by the air conditioning air to the air-conditioned room 2 as air-conditioned air. The operation of the air conditioning unit 204 is controlled by the control unit 201 based on the control information received from the management device 400.

Next, the hardware configuration of the outdoor unit 300 will be described in detail. As shown in FIG. 4, the outdoor unit 300 includes a control unit 301, a storage unit 302, a communication unit 303, and an air conditioner unit 304, and each of these units is connected via a bus 305.

The control unit 301 includes a CPU, a ROM, and a RAM. In the control unit 301, the CPU reads out the programs and data stored in the ROM, uses the RAM as a work area, and controls the outdoor unit 300 in an integrated manner.

The storage unit 302 is a non-volatile semiconductor memory. The storage unit 302 stores programs and data used by the control unit 301 to perform various processes, and data generated or acquired by the control unit 301 performing various processes.

The communication unit 303 includes a communication interface for communicating with the management device 400. Specifically, the communication unit 303 receives a control signal from the management device 400. Then, the control unit 301 controls the air conditioning unit 304 based on the received control information.

The air conditioner 304 includes a compressor, a four-way valve, an outdoor heat exchanger, an expansion valve, and an outdoor blower (not shown). The compressor compresses the refrigerant flowing through the refrigerant pipe 500 to raise the temperature and pressure of the refrigerant. The compressor circulates the refrigerant by discharging the compressed refrigerant to the four-way valve. The four-way valve switches the flow direction of the refrigerant in the refrigerant pipe 500 according to the cooling operation or the heating operation of the air conditioning system 1. The outdoor heat exchanger exchanges heat between the cold and hot heat supplied by the refrigerant flowing through the refrigerant pipe 500 and the outdoor air. The outdoor blower sucks in outdoor air, supplies it to the outdoor heat exchanger, exchanges heat with the outdoor heat exchanger, and then blows it out to the outside. The expansion valve is installed between the indoor heat exchanger and the outdoor heat exchanger to reduce the pressure of the refrigerant and expand it. The operation of such an air conditioning unit 304 is controlled by the control unit 301.

Next, the hardware configuration of the management device 400 will be described in detail. As shown in FIG. 5, the management device 400 includes a control unit 401, a storage unit 402, and a communication unit 403, and each of these units is connected via a bus 404.

The control unit 401 includes a CPU, a ROM, and a RAM. In the control unit 401, the CPU reads out the programs and data stored in the ROM, uses the RAM as a work area, and controls the management device 400 in an integrated manner.

The storage unit 402 is a non-volatile semiconductor memory such as a flash memory, EPROM, or EEPROM. The storage unit 402 stores programs and data used by the control unit 401 to perform various processes, and data generated or acquired by the control unit 401 performing various processes.

The storage unit 402 has an operation information database (Database; DB) 421 that stores the indoor unit information periodically acquired by the control unit 401 in association with each other, as will be described later. FIG. 6 shows an example of the data stored in the operation information DB 421. FIG. 6 shows an example of data stored in the operation information DB 421 in a state where the management device 400 acquires terminal information from the indoor units 200a and 200d and does not acquire terminal information from the indoor units 200b and 200c. There is. As shown in FIG. 6, the operation information DB 421 stores the terminal information acquired from the indoor unit 200 and the indoor unit ID of the indoor unit 200 that has received the terminal information in association with each other.

The communication unit 403 includes a communication interface for communicating with the indoor unit 200 and the outdoor unit 300. The communication unit 403 records the indoor unit information received from the indoor unit 200 in the storage unit 402. Further, the communication unit 403 transmits control information for controlling the indoor unit 200 and the outdoor unit 300.

Next, the functional configuration of the operation terminal 100 will be described. As shown in FIG. 2, in the control unit 101 of the operation terminal 100, the CPU executes a program stored in the ROM or the storage unit 102, thereby causing the environment information acquisition unit 111, the operation setting information acquisition unit 112, and the transmission request. It functions as a receiving unit 113 and a terminal information transmitting unit 114.

The environmental information acquisition unit 111 controls the sensor unit 106 to acquire environmental information. Specifically, the environmental information acquisition unit 111 periodically controls the sensor unit 106 to acquire the environmental information and records it in the storage unit 102 as the environmental information 122. Further, the environment information acquisition unit 111 may control the sensor unit 106 to acquire the environment information when the transmission request reception unit 113 receives the transmission request from the indoor unit 200.

The operation setting information acquisition unit 112 acquires operation setting information from the user. Specifically, the operation setting information acquisition unit 112 receives the operation setting information indicating the operation setting of the indoor unit 200 from the user via the input unit 103, and stores the received operation setting information as the operation setting information of the storage unit 102. Record as 123.

The transmission request receiving unit 113 receives a transmission request from the indoor unit 200. Specifically, the transmission request receiving unit 113 periodically requests the transmission of terminal information from the indoor unit 200 that controls the air conditioning of the air conditioning ranges A1 to A4 in which the own device is located via the communication unit 105. To receive.

When the transmission request receiving unit 113 receives the transmission request, the terminal information transmitting unit 114 transmits the terminal information including the terminal ID 121, the environment information 122, and the operation setting information 123 stored in the storage unit 102 via the communication unit 105. The request is transmitted to the indoor unit 200 that has transmitted the request.

Next, the functional configuration of the indoor unit 200 will be described. As shown in FIG. 3, in the control unit 201 of the indoor unit 200, the CPU executes a program stored in the ROM or the storage unit 202 to control the terminal information acquisition unit 211, the indoor unit information transmission unit 212, and the operation control. It functions as a unit 213.

The terminal information acquisition unit 211 acquires terminal information from the operation terminal 100 located in the air conditioning range of the own device. Specifically, the terminal information acquisition unit 211 periodically transmits a transmission request requesting transmission of terminal information to the operation terminal 100 located in the air conditioning range of the own device. In the present embodiment, the communication unit 203 of the indoor unit 200 communicates with the operation terminal 100 using a wireless communication standard such as BLE with a communication distance of about 10 m, and the range in which wireless communication is possible with the communication unit 203 is defined as the air conditioning range. It is assumed that Therefore, the terminal information acquisition unit 211 searches for the operation terminal 100 capable of wirelessly communicating with the communication unit 203 of its own device, and transmits a transmission request to the found operation terminal 100. Then, the terminal information acquisition unit 211 acquires the terminal information transmitted in response to the transmission request from the operation terminal 100 via the communication unit 203. Further, the terminal information acquisition unit 211 stores the acquired terminal information in the storage unit 202 as terminal information 222.

The indoor unit information transmission unit 212 transmits the indoor unit information including the indoor unit ID 221 and the terminal information 222 stored in the storage unit 202 to the management device 400.

The operation control unit 213 controls the operation of the air conditioning unit 204 according to the control information received from the management device 400.

Next, the functional configuration of the outdoor unit 300 will be described. As shown in FIG. 4, in the control unit 301 of the outdoor unit 300, the CPU functions as the operation control unit 311 by executing the program stored in the ROM or the storage unit 302.

The operation control unit 311 controls the operation of the air conditioning unit 304 according to the control information received from the management device 400.

Next, the functional configuration of the management device 400 will be described. As shown in FIG. 5, in the control unit 401 of the management device 400, the CPU executes a program stored in the ROM or the storage unit 402 to generate the indoor unit information acquisition unit 411, the group setting unit 412, and the operation parameter. It functions as a unit 413 and a control information transmission unit 414.

The indoor unit information acquisition unit 411 periodically acquires indoor unit information from each of the indoor units 200. The indoor unit information acquisition unit 411 records the terminal information included in the acquired indoor unit information in the operation information DB 421 in association with the indoor unit ID.

The group setting unit 412 is included in the terminal ID included in the terminal information related to any one of the indoor units 200 and the terminal information related to the other one of the indoor units 200 acquired by the indoor unit information acquisition unit 411. When the terminal ID is the same, the group is set so that these indoor units 200 are included in the same group.

Specifically, the group setting unit 412 determines whether the terminal ID included in the acquired indoor unit information is already recorded in the operation information DB 421. When the terminal ID is already recorded, the group setting unit 412 updates the terminal information recorded in the operation information DB 421 with the acquired terminal information. Further, when the terminal ID is not recorded in the operation information DB 421, the group setting unit 412 newly records it in the operation information DB 421.

Further, the group setting unit 412 determines whether or not there is a terminal ID recorded in the operation information DB 421 that is not included in the indoor unit information acquired by the indoor unit information acquisition unit 411. When there is a terminal ID that is not included in the indoor unit information, the group setting unit 412 deletes the terminal information and the indoor unit ID related to the terminal ID from the operation information DB 421. As a result, the operation setting information input by the user not detected this time, that is, the user who is not within the air conditioning range is not used for generating the operation parameter described later.

Further, the group setting unit 412 sets the group so that the indoor unit 200 related to the terminal information including the same terminal ID belongs to the same group based on the indoor unit ID and the terminal information recorded in the operation information DB 421.

The operation parameter generation unit 413 determines the operation parameters of the indoor unit 200 and the outdoor unit 300 for each group based on the terminal information acquired by the indoor unit 200 included in the group with reference to the operation information DB 421. Further, the operation parameter generation unit 413 determines the operation parameters for stopping the operation of the indoor unit 200 related to the indoor unit ID that is not recorded in the operation information DB 421.

The control information transmission unit 414 transmits control information including the determined operation parameter to each of the indoor unit 200 and the outdoor unit 300 via the communication unit 403.

Hereinafter, an example of a method for determining the indoor unit 200 belonging to the same group by the group setting unit 412 will be described with reference to FIGS. 7 (a) to 7 (d).

In the initial state shown in FIG. 7A, the operation terminal 100 is not located in any of the air conditioning ranges A1 to A4. Therefore, in the group setting unit 412, it is assumed that the indoor unit 200 belongs to the groups G1 to G4, respectively. Further, since the operation terminal 100, which will be described later, does not exist, the operation parameter generation unit 413 determines the operation parameters for stopping the operation of the indoor unit 200.

In the state shown in FIG. 7B, the indoor unit 200a acquires the terminal information from the operation terminal 100a, and the indoor unit 200d acquires the terminal information from the operation terminal 100b. In this case, the group setting unit 412 sets the group G1 for the indoor unit 200a corresponding to the terminal ID of the operation terminal 100a and the group G4 for the indoor unit 200d corresponding to the terminal ID of the operation terminal 100b. Further, the group setting unit 412 sets the groups G2 and G3 in the initial state for the indoor units 200b and 200c in which the operation terminal 100 is not located in the air conditioning range. Further, the operation parameter generation unit 413 determines the operation parameters for controlling the indoor units 200a and 200d based on the operation setting information and the environmental information included in the terminal information for the indoor units 200a and 200d. Further, the operation parameter generation unit 413 determines the operation parameters for stopping the indoor units 200b and 200c for the indoor units 200b and 200c.

When the state shown in FIG. 7B changes to the state shown in FIG. 7C, the indoor unit 200c acquires the terminal information from the operation terminal 100a, and the indoor units 200b and 200d acquire the terminal information from the operation terminal 100b. .. In this case, the group setting unit 412 sets the group G3 for the indoor unit 200c corresponding to the terminal ID of the operation terminal 100a. Further, the group setting unit 412 sets the indoor units 200b and 200d corresponding to the terminal ID of the operation terminal 100b in the same group G24. Further, the group setting unit 412 sets the group G1 in the initial state for the indoor unit 200a in which the operation terminal 100 is not located in the air conditioning range. Further, the operation parameter generation unit 413 determines the operation parameters for controlling the indoor unit 200c based on the operation setting information and the environmental information included in the terminal information of the indoor unit 200c. Further, the operation parameter generation unit 413 controls the indoor units 200b and 200d in an integrated manner based on the operation setting information and the environmental information included in the terminal information of the operation terminal 100b. To determine. Further, the operation parameter generation unit 413 determines the operation parameters for stopping the indoor unit 200a for the indoor unit 200a.

In the state shown in FIG. 7D, the indoor unit 200a acquires the terminal information from the operation terminals 100a and 100b, and the indoor units 200b, 200c and 200d do not acquire the terminal information from the operation terminal 100b. In this case, the group setting unit 412 sets the group G1 for the indoor unit 200a corresponding to the terminal IDs of the operation terminals 100a and 100b. Further, the group setting unit 412 sets the groups G2, G3, and G4 in the initial state for the indoor units 200b, 200c, and 200d in which the operation terminal 100 is not located in the air conditioning range. Further, the operation parameter generation unit 413 determines the operation parameters for controlling the indoor unit 200a based on the operation setting information and the environmental information included in the terminal information of the operation terminals 100a and 100b for the indoor unit 200a. In the present embodiment, the operation mode such as heating / cooling is determined by a majority vote, and the set temperature adopts the median value, so that the operation parameters for controlling the indoor unit 200a based on the terminal information of the operation terminals 100a and 100b are set. decide. Further, the operation parameter generation unit 413 determines the operation parameters for stopping the indoor units 200b, 200c, 200d for the indoor units 200b, 200c, 200d.

Next, the operation of the air conditioning system 1 according to the embodiment of the present invention will be described. FIG. 8 is a sequence diagram showing a flow of processing executed between the operation terminal 100, the indoor unit 200, the outdoor unit 300, and the management device 400. The process shown in FIG. 8 is, for example, executed periodically, and starts when a predetermined time is reached.

Specifically, first, when the indoor unit 200 transmits a transmission request to the operation terminal 100 located in the air conditioning range of the own device (step S11), the operation terminal 100 receives the transmission request (step S12). Then, the operation terminal 100 transmits the terminal information to the indoor unit 200 that has transmitted the transmission request (step S13), and the indoor unit 200 receives the terminal information (step S14). Then, the indoor unit 200 transmits the indoor unit information including the terminal information received from the operation terminal 100 and the indoor unit ID of the own device to the management device 400 (step S15).

When the management device 400 receives the indoor unit information from the indoor unit 200 (step S16), the management device 400 executes a group setting process for setting a group of the indoor unit 200 based on the received indoor unit information (step S17).

Here, the group setting process in step S17 will be described with reference to the flowchart shown in FIG.

First, the control unit 401 of the management device 400 determines whether or not there is a terminal ID that is not recorded in the operation information DB 421 among the terminal IDs included in the indoor unit information received from the indoor unit 200 (step S101). .. When the control unit 401 determines that there is a terminal ID that is not recorded in the operation information DB 421 (step S101; Yes), the control unit 401 records the terminal information related to the terminal ID in the operation information DB 421 in association with the indoor unit ID (step S101; Yes). Step S102).

When the control unit 401 determines that there is no terminal ID not recorded in the operation information DB 421 (step S101; No), or records the terminal information related to the terminal ID not recorded in the operation information DB 421 in the operation information DB 421. After that, among the terminal IDs included in the indoor unit information received from the indoor unit 200, the terminal information and the indoor unit ID related to the terminal ID recorded in the operation information DB 421 are updated based on the received indoor unit information ( Step S103).

Next, the control unit 401 determines whether or not there is a terminal ID recorded in the operation information DB 421 that is not included in the indoor unit information received this time (step S104). When the control unit 401 determines that there is a terminal ID that is not included in the indoor unit information (step S104; Yes), the control unit 401 deletes the terminal information related to the terminal ID from the operation information DB 421 together with the indoor unit ID (step S105).

Next, the control unit 401 sets the group of the indoor unit 200 based on the terminal information recorded in the operation information DB 421 and the indoor unit ID associated with the terminal information (step S106). Then, the process returns to step S18 in FIG.

Returning to FIG. 8, the management device 400 determines the operation parameters of the indoor unit 200 and the outdoor unit 300 based on the set group and the terminal information (step S18). Then, the management device 400 transmits control information including the determined operation parameters to the indoor unit 200 and the outdoor unit 300 (step S19).

When the indoor unit 200 and the outdoor unit 300 receive the control information (step S20), the indoor unit 200 and the outdoor unit 300 operate according to the received control information (step S21). Then, this process ends.

As described above, according to the present embodiment, the indoor unit 200 detects the operation terminal 100 within the air-conditioning range of the own device, and outputs the terminal information including the operation setting information set by the user from the operation terminal 100. It is transmitted to the management device 400. Then, the management device 400 sets a group of the indoor unit 200 based on the received terminal information, and controls the operation of the indoor unit 200 for each group. Therefore, even if a plurality of indoor units 200 are operating in the same air-conditioned room, the operating operations of the indoor units 200 do not interfere with each other, and deterioration of comfort can be prevented.

Although the embodiment of the present invention has been described above, the above embodiment is an example, and the scope of application of the present invention is not limited to this. That is, the embodiments of the present invention can be applied in various ways, and all the embodiments are included in the scope of the present invention.

For example, in the above embodiment, an example in which two operation terminals 100 are managed by the management device 400, four indoor units 200, and one outdoor unit 300 have been described, but these numbers are shown in FIG. It is not limited to, but is optional.

Further, for example, when a part of the air conditioning range of the plurality of indoor units 200 overlaps, the operation terminal 100 may wirelessly communicate with the plurality of indoor units 200, and the group setting unit 412 is the terminal of the operation terminal 100. There is a risk that the group of indoor units 200 related to information will be changed repeatedly, that is, there is a risk that a plurality of groups will compete for the indoor unit 200 to be changed. In such a case, the group setting unit 412 may determine the group to which the indoor unit 200 to be changed belongs based on the number of the operation terminals 100 located in the air conditioning range of the indoor unit 200 included in the group. .. Specifically, even if the group setting unit 412 is set so that the indoor unit 200 to be changed belongs to the group having the largest number of operation terminals 100 located in the air conditioning range of the indoor unit 200 included in the group. good. Further, an upper limit of the number of indoor units 200 that can belong to one group may be set. As a result, it is possible to secure the number of groups of 200 indoor units in the air-conditioned room and prevent deterioration of comfort.

Further, in the above embodiment, the management device 400 is provided as a device separate from the indoor unit 200 and the outdoor unit 300. However, in the present invention, the management device 400 may be provided in the indoor unit 200 or the outdoor unit 300. For example, the control unit 201 of the indoor unit 200 or the control unit 301 of the outdoor unit 300 may function as the management device 400. Further, for example, a HEMS (Home Energy Management System) controller that manages the power of the entire house in which the air conditioning system 1 is installed, or a server installed outside the house may function as the management device 400.

It should be noted that the management device 400 having a configuration for realizing the function according to the present invention can be provided in advance, and by applying the program, an existing personal computer, an information terminal device, or the like can be used as the management device 400 according to the present invention. It can also be made to work. That is, the existing personal computer or information terminal device can execute the program for realizing each functional configuration by the management device 400 illustrated in the above embodiment so that the CPU controlling the existing personal computer or information terminal device can execute the program. By applying it, it can function as the management device 400 according to the present invention. Further, the management method according to the present invention can be carried out by using the management device 400.

Moreover, the method of applying such a program is arbitrary. The program can be stored and applied on a computer-readable recording medium [CD-ROM (Compact Disc Read-Only Memory), DVD (Digital Versatile Disc), MO (Magneto Optical disc), etc.], or on a network. It is also possible to apply by storing the program in the storage of and downloading it.

1 Air conditioning system, 2 Air conditioning target room, 100a, 100b operation terminal, 101 control unit, 102 storage unit, 103 input unit, 104 display unit, 105 communication unit, 106 sensor unit, 107 bus, 111 environmental information acquisition unit, 112 operation Setting information acquisition unit, 113 transmission request reception unit, 114 terminal information transmission unit, 121 terminal ID, 122 environment information, 123 operation setting information, 200 (200a to 200d) indoor unit, 201 control unit, 202 storage unit, 203 communication unit , 204 air conditioning unit, 205 bus, 211 terminal information acquisition unit, 212 indoor unit information transmission unit, 213 operation control unit, 221 indoor unit ID, 222 terminal information, 300 outdoor unit, 301 control unit, 302 storage unit, 303 communication unit , 304 air conditioning unit, 305 bus, 311 operation control unit, 400 management device, 401 control unit, 402 storage unit, 403 communication unit, 404 bus, 411 indoor unit information acquisition unit, 412 group setting unit, 413 operation parameter generation unit, 414 Control information transmitter, 421 Operation information DB, 500 Refrigerator piping, 600 Signal line

Claims (9)

Environmental information indicating the surrounding environment of the operation terminal transmitted from each of the plurality of indoor units to the indoor unit by the operation terminal located in the air conditioning range where the indoor unit can control the air conditioning, and the operation of the indoor unit. The acquisition means for acquiring the terminal information including the operation setting information indicating the setting of the operation terminal, the terminal identification information for identifying the operation terminal, and the indoor unit identification information for identifying the indoor unit.
A group setting means for setting a group so that the indoor units related to the terminal information including the same terminal identification information belong to the same group among the plurality of indoor units.
A control means for controlling the operation of the plurality of indoor units belonging to the group based on the environmental information and the operation setting information included in the terminal information acquired by the plurality of indoor units belonging to the group, respectively.
When there is an indoor unit that belongs to a plurality of groups, the group setting means causes the indoor unit to belong to the group having the largest number of operation terminals located in the air-conditioning range of the indoor unit to which the indoor unit belongs. Set to,
Management apparatus. A storage means for recording the terminal information and the indoor unit identification information periodically acquired by the acquisition means in association with each other is further provided.
The management device according to claim 1. When the terminal identification information included in the terminal information acquired by the acquisition means is not recorded in the storage means, the group setting means has the terminal information related to the terminal identification information and the indoor unit identification information. Are associated with each other and recorded in the storage means.
The management device according to claim 2. The group setting means relates to the terminal identification information recorded in the storage means when the terminal identification information included in the terminal information acquired by the acquisition means is recorded in the storage means. The terminal information and the indoor unit identification information are updated with the terminal information and the indoor unit information acquired by the acquisition means.
The management device according to claim 2. When the group setting means includes the terminal identification information that is not included in the terminal information acquired by the acquisition means among the terminal identification information recorded in the storage means, the group setting means is related to the terminal identification information. The information and the indoor unit identification information are deleted from the storage means.
The management device according to claim 2. The control means stops the operation of the indoor unit when at least one of the plurality of indoor units does not receive the terminal information.
The management device according to any one of claims 1 to 5. The management device according to any one of claims 1 to 6 and a plurality of indoor units are provided.
Each of the plurality of indoor units
Environmental information representing the environment around the operating terminal, which is transmitted from the operating terminal in response to the transmission request by periodically broadcasting a transmission request requesting the transmission of the terminal information within the air-conditioning range of the own device. And a terminal information acquisition means for acquiring terminal information including operation setting information indicating the operation setting of the indoor unit and terminal identification information for identifying the operation terminal.
The indoor unit information transmitting means for transmitting the terminal information and the indoor unit identification information for identifying the own device to the management device is provided.
Air conditioning system. Environmental information indicating the surrounding environment of the operation terminal transmitted from each of the plurality of indoor units to the indoor unit by the operation terminal located in the air conditioning range where the indoor unit can control the air conditioning, and the operation of the indoor unit. The terminal information including the operation setting information indicating the setting of the above, the terminal identification information for identifying the operation terminal, and the indoor unit identification information for identifying the indoor unit are acquired.
Among the plurality of indoor units, a group is set so that the indoor units related to the terminal information including the same terminal identification information belong to the same group.
Based on the environment information and the operation setting information included in the terminal information acquired respectively by the plurality of indoor units belonging to the group, and controls the operation of the plurality of indoor units belonging to the group,
When there is an indoor unit that belongs to a plurality of groups, the indoor unit is set to belong to the group having the largest number of operation terminals located in the air-conditioning range of the indoor unit to which the indoor unit belongs.
Management method. Computer,
Environmental information indicating the surrounding environment of the operation terminal transmitted from each of the plurality of indoor units to the indoor unit by the operation terminal located in the air conditioning range where the indoor unit can control the air conditioning, and the operation of the indoor unit. An acquisition means for acquiring terminal information including operation setting information indicating the setting of the operation terminal, terminal identification information for identifying the operation terminal, and indoor unit identification information for identifying the indoor unit.
A group setting means for setting a group so that the indoor units related to the terminal information including the same terminal identification information belong to the same group among the plurality of indoor units.
Control means on the basis of the environmental information and the operation setting information included in the terminal information acquired respectively by the plurality of indoor units belonging to the group, and controls the operation of the plurality of indoor units belonging to the group,
To function as,
When there is an indoor unit that belongs to a plurality of groups, the group setting means causes the indoor unit to belong to the group having the largest number of operation terminals located in the air-conditioning range of the indoor unit to which the indoor unit belongs. Set to,
Program.

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