JP6241271B2 - Power consumption management device and air conditioning system - Google Patents

Description

  The present invention relates to a power consumption management device and an air conditioning system.

  In recent years, development of electric power networks using information communication networks such as smart grids has become active. For example, Patent Document 1 (Japanese Patent Laid-Open No. 2012-65407) discloses a technique for power demand control. In the power control system disclosed herein, in response to a power consumption reduction request from the power supply side, the demand response server stops the air conditioner in order to reduce the amount of power of the air conditioner etc. on the power demand side. Or increase the cooling set temperature.

  As a device that performs a demand response, that is, a device that sends a power adjustment instruction to a power usage device in response to a power consumption adjustment request from an operator on the power supply side, conventionally a device that sends a power adjustment instruction to a number of power usage devices Is assumed. For example, the demand response server of Patent Document 1 (Japanese Patent Application Laid-Open No. 2012-65407) executes allocation processing of power reduction distribution for a large number of air conditioners and certification devices in a building, and adjusts the power to each device. Sending instructions.

  However, the conventional demand response server is a high-function server having a function of power reduction distribution, but the sender of the assumed power consumption adjustment request is one power supply station. That is, the demand response server is configured on the premise that there is only one type of power consumption adjustment request. Therefore, the demand response server cannot receive a power consumption adjustment request having a different format from a host device of another provider on the power supply side.

  In addition, an air conditioner that receives a power consumption adjustment request from a demand response server will naturally receive an instruction command that matches the specifications of the air conditioner. When a server is connected and only an instruction command that does not match the specifications of the air conditioner is sent from the demand response server, appropriate power consumption adjustment cannot be performed.

  An object of the present invention is an apparatus that is used by being connected to an air conditioner in order to satisfy a power consumption adjustment request, and is a power consumption management apparatus that can cause an air conditioner to reliably perform a desired power adjustment operation. It is to provide.

  A power consumption management device according to a first aspect of the present invention is a device connected to an air conditioner, and includes a reception unit and an instruction unit. The receiving unit receives an external power consumption adjustment request. The instructing unit generates a power adjustment instruction to be performed by the air conditioner in response to the power consumption adjustment request, and sends the power adjustment instruction to the air conditioner. In addition, the reception unit can receive a first power consumption adjustment request that is a power consumption adjustment request in a first request format and a second power consumption adjustment request that is a power consumption adjustment request in a second request format. is there. The second request format is different from the first request format. The instruction unit includes a first instruction generation unit that generates a power adjustment instruction from the first power consumption adjustment request, and a second instruction generation unit that generates a power adjustment instruction from the second power consumption adjustment request. The first instruction generation unit and the second instruction generation unit both generate a power adjustment instruction in the same instruction format.

  Here, the power consumption management apparatus connected to the air conditioner is provided with two instruction generation units. These first instruction generation unit and second instruction generation unit respectively correspond to power consumption adjustment requests in different request formats, and both generate power adjustment instructions in the same instruction format. Thereby, the power supplier side that sends the second power consumption adjustment request in the second request format also to the device on the power supplier side that sends the first power consumption adjustment request in the first request format. With this power consumption management device, it is possible to cause the air conditioner to reliably perform a desired power adjustment operation.

  The power consumption management device according to the second aspect of the present invention is the power consumption management device according to the first aspect, wherein the first instruction generation unit is constant with respect to the current power consumption from the first power consumption adjustment request. An instruction in the form of increasing or decreasing the power consumption at the rate of The first power consumption adjustment request is a request to increase or decrease the power consumption at a constant rate with respect to the current power consumption. On the other hand, the second power consumption adjustment request is a request to increase or decrease a predetermined amount of power consumption. Then, the second instruction generation unit uses the information on the rated power of the air conditioner device from the second power consumption adjustment request, and uses the information in the form of increasing or decreasing the power consumption at a constant rate with respect to the current power consumption. Is generated.

  Here, the instruction format of the power adjustment instruction sent to the air conditioner is unified to a format in which the power consumption is increased or decreased at a constant rate with respect to the current power consumption, and the second instruction generation is also performed in the first instruction generation unit in that format. The unit also adopts a configuration for generating a power adjustment instruction. And the 2nd instruction | indication production | generation part has changed the format of the 2nd power consumption adjustment request | requirement used as the request | requirement to increase / decrease the predetermined amount of power consumption which is a format different from it. Specifically, by using the information on the rated power of the air conditioner device, the second instruction generation unit generates a power adjustment instruction to be sent to the air conditioner from the second power consumption adjustment request. By configuring the first instruction generation unit and the second instruction generation unit in this manner, the same type of power adjustment instruction can be sent to the air conditioner, and a desired power adjustment operation can be reliably performed to the air conditioner. Can be done.

  An air conditioning system according to the present invention includes a power consumption management device according to a first aspect or a second aspect, an air conditioner to which the power consumption management device is connected, a portable terminal, and a server device. A portable terminal carried by a user of an air conditioner has an air conditioning management program for managing the air conditioner. The server device is connected to the mobile terminal and the power consumption management device via a public line. When the power consumption management device sends a power adjustment instruction to the air conditioner to cause the air conditioner to perform an operation according to the power consumption adjustment request, the server device indicates that the air conditioner is in the power adjustment operation. Send to. The server device informs the mobile terminal that the air conditioner is in power adjustment operation. Then, the air conditioning management program of the mobile terminal displays on the display of the mobile terminal that the air conditioner is in power adjustment operation.

  Here, it is notified that the air conditioner is in the power adjustment operation from the power consumption management device connected to the air conditioner to the portable terminal via the server device. For this reason, the user who monitors the operation condition of the air conditioner from the outside can grasp whether the air conditioner is in the power adjustment operation or in the normal operation.

  According to the power consumption management device according to the first aspect of the present invention, the second request format of the second request format is also provided to the power supplier side device that sends the first power consumption adjustment request of the first request format. 2 It is also possible to cause the air conditioner to reliably perform a desired power adjustment operation even for a power supplier side device that sends a power consumption adjustment request.

  In the power consumption management device according to the second aspect of the present invention, by using information on the rated power of the air conditioner device, the second instruction generation unit sends a power adjustment instruction to the air conditioner from the second power consumption adjustment request. Both the first instruction generation unit and the second instruction generation unit can generate the power adjustment instruction in the same instruction format.

  According to the air conditioning system of the present invention, a user who monitors the operating condition of the air conditioner from the outside grasps whether the air conditioner is in power adjustment operation or normal operation. Can do.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic block diagram of the adapter (power consumption management apparatus) which concerns on one Embodiment of this invention, and an air conditioning system provided with the same. The control block diagram of the control part of an air conditioner and the adapter connected to it. The control block diagram of the control part and server of a portable terminal. The figure which shows the preparation process flow of the electric power adjustment instruction | indication of an adapter. The figure which shows an example of the air conditioner management screen of the air conditioner in a portable terminal. The figure which shows an example of the air conditioner management screen of a portable terminal which shows that an air conditioner is in electric power adjustment driving | operation.

  Hereinafter, an air conditioning system 100 according to an embodiment of the present invention will be described with reference to the drawings. The following embodiments are specific examples of the present invention and do not limit the technical scope of the present invention, and can be modified as appropriate without departing from the scope of the invention.

(1) Schematic Configuration of Air Conditioning System FIG. 1 shows the overall configuration of the air conditioning system 100. The air conditioning system 100 acquires information on desired air conditioners 10a, 10b,... From the portable terminal 50 owned by the user via the remote management server 40 and the adapters 20a, 20b,. It is a system for operating desired air conditioners 10a, 10b,. Further, in the air conditioning system 100, the adapters 20a, 20b,... Receive the power consumption adjustment request DM sent from the power supply / demand adjustment server 91 of the power supply company 90, and the power increase / decrease instruction (power adjustment) .. Has a function of causing the air conditioners 10a, 10b,.

  In the air conditioning system 100, a router 21 that connects a public line 80 including the Internet and a local area network (hereinafter referred to as a LAN) 81 laid in the building 30 is installed in the building 30. The LAN 81 is a wireless LAN that uses the function of the router 21, and adapters 20a, 20b,... Connected to the air conditioners 10a, 10b,. In addition to the adapters 20a, 20b,..., Network devices such as personal computers and printers (not shown) used in the building 30 may be further connected to the LAN 81.

  In order to manage the air conditioners 10a, 10b, ... via the remote management server 40 by the portable terminal 50, the air conditioners 10a, 10b, ... are registered in the remote management server 40 in advance. It is necessary to keep.

  In order to facilitate understanding, only one building 30 is shown in FIG. 1, but in an actual air conditioning system 100, air conditioners 10 a, 10 b,... Scattered in a plurality of buildings 30. Is included. That is, the remote management server 40 installed remotely from the building 30 by the public line 80 is operated by an air conditioner manufacturing company, sales company, or maintenance company, and air conditioning in a large number of buildings 30 is performed. The machine information is stored in the remote management server 40.

(2) Detailed Configuration of Air Conditioning System (2-1) Air Conditioner As shown in FIG. 1, the air conditioners 10a, 10b,... Are in the rooms 30a, 30b,. Are configured from indoor units 11a, 11b,... Installed outside the building 30, and outdoor units 12a, 12b,. The indoor units 11a, 11b,... Are connected to adapters 20a, 20b,.

  The air conditioner 10a and the other air conditioners 10b,... Have the same basic configuration. Hereinafter, the air conditioner 10a will be described as an example.

  The indoor unit 11a and the outdoor unit 12a are connected via a refrigerant pipe, and form a refrigerant circuit including a compressor, a heat exchanger, and the like (not shown).

  As shown in FIG. 2, the air conditioner 10a has various sensors. For example, the indoor unit 11a includes an indoor temperature sensor 14a that detects the temperature of the room 30a in which the indoor unit 11a is installed. Moreover, the indoor unit 11a has a human detection sensor 14c that detects the presence or absence of a person in the room 30a during the operation of the air conditioner 10a. On the other hand, the outdoor unit 12a includes an outside air temperature sensor 14b that detects the temperature of outside air near the building 30.

  In addition, the air conditioner 10 a has a control unit 13. The control part 13 is comprised from the control unit of the indoor unit 11a and the outdoor unit 12a which are contained in the air conditioner 10a.

  The control unit 13 controls the operation of the air conditioner 10a according to the operation command for the air conditioner 10a input from the user in the room 30a via the remote controller 15, that is, the operation of the compressor or the like included in the refrigerant circuit. To control.

  Moreover, the control part 13 transmits the apparatus data regarding the air conditioner 10a to the adapter 20a. For example, the control unit 13 transmits data indicating the content of the control command for the indoor unit 11a input via the remote controller 15 to the adapter 20a. The data indicating the contents of the operation command includes operation start / operation stop of the air conditioner 10a, operation mode (cooling mode, heating mode, air blowing mode, etc.), set temperature, and the like. The device data sent to the adapter 20a includes possessed function information 18a, integrated operation time 18b, power consumption 18c, rated power 18d, and the like.

  The control unit 13 executes a control command transmitted from the adapter 20a. The control command transmitted from the adapter 20a is, for example, a command to send a normal operation command to the indoor unit 11a, a power adjustment operation command to change the upper limit rotation speed of the compressor, and specific device data to the adapter 20a. Command, etc.

  The control unit 13 includes a storage unit 18 including a RAM and a ROM in addition to the CPU. The storage unit 18 includes, for example, power consumption 18c and rated power 18d stored in the RAM. The power consumption 18c is the power consumed by the air conditioner 10a measured by the wattmeter 14d. The rated power 18d is the value of the rated power of the compressor that is the main power consuming device in the air conditioner 10a. As described above, the power consumption 18c and the rated power 18d are sent from the air conditioner 10a to the adapter 20a as part of the device data, and stored in the storage unit 63 of the adapter 20a.

(2-2) Adapter, Router, and Remote Management Server Adapters 20a, 20b,..., The router 21 and the remote management server 40 are connected to the air conditioners 10a, 10b,. It plays the role of exchanging information with 50.

(2-2-1) Adapter Adapters 20a, 20b, ... are network adapters for connecting the air conditioners 10a, 10b, ... to the LAN 81, and in this embodiment, the indoor units 11a, 11b. , ... externally attached. Note that the adapters 20a, 20b,... May be built in the indoor units 11a, 11b,.

  The adapter 20a and the other adapters 20b,... Have the same configuration. Hereinafter, the adapter 20a will be described as an example.

  As shown in FIG. 2, the adapter 20a includes a wireless communication unit 61, an instruction unit 62, a storage unit 63 and the like in addition to the CPU. The adapter 20a has a control function for controlling the air conditioners 10a, 10b,... In addition to a communication function for absorbing a difference in communication protocol between networks. The adapter 20a is connected to the control unit 13 of the indoor unit 11a in a wired manner and operates by receiving power from the indoor unit 11a, although not shown.

  As described above, the storage unit 63 stores device data related to the air conditioner 10a including the power consumption 18c and the rated power 18d. The retained function information 18a and the accumulated operation time 18b stored in the storage unit 18 of the control unit 13 are also stored in the storage unit 63 of the adapter 20a as device data. These data are data relating to the air conditioner 10a transmitted from the air conditioner 10a to the adapter 20a. The adapter 20a collects the data as information on the air conditioner 10a periodically (here, every minute) and transmits it to the remote management server 40 via the public line 80.

  The function of the adapter 20a that causes the air conditioners 10a, 10b,... To perform power adjustment operation based on the power consumption adjustment request DM sent from the power supply and demand adjustment server 91 will be described in detail later.

(2-2-2) Router The router 21 is a communication device that has a WAN-side interface and a LAN-side interface and interconnects both networks. When the adapters 20a, 20b, ... are connected to the LAN 81, the router 21 automatically detects the presence of the adapters 20a, 20b, ..., and registers the network information of the adapters 20a, 20b, ... I do. As a result, the adapters 20a, 20b,... Can communicate with other network devices in the LAN 81 and network devices on the public line 80 (on the Internet).

  In the air conditioning system 100, the router 21 also plays a role of constructing the LAN 81 in the building 30.

(2-2-3) Remote Management Server The remote management server 40 is a computer that runs server software provided on the public line 80 (on the Internet) to perform the air conditioning management service. As shown in FIG. 3, the remote management server 40 has a storage unit 43.

  The storage unit 43 has a database for storing various data related to the air conditioners 10a, 10b,. Specifically, the storage unit 43 has a database 43 a by adapter. The remote management server 40 stores the air conditioner device data 25a, temperature data 25b, and the like periodically sent from the adapter 20a for each adapter.

  The remote management server 40 receives various data stored in the adapter-specific database 43a via the public line 80 in response to a request from the portable terminal 50 of the user who is executing the air conditioning management application 54. 50.

  Further, the remote management server 40 accesses an operation command for operating the air conditioners 10a, 10b,... Received from the portable terminal 50 via the public line 80 from the adapters 20a, 20b,. Is transmitted to the adapters 20a, 20b,.

(2-3) Mobile terminal The mobile terminal 50 is carried by the user of the air conditioner 10a, 10b,... And is portable, such as a mobile phone, a smartphone, a tablet computer, or a notebook computer. Computer. Hereinafter, the case where the smart phone 50 is employ | adopted as a portable terminal is demonstrated to an example.

  As shown in FIG. 3, the smartphone 50 includes a control unit 52 including a CPU, a first wireless communication unit 51a, a second wireless communication unit 51b, a storage unit 53, and the like, as well as a touch panel 55 responsible for input / output functions. . The first wireless communication unit 51 a has a function of connecting to the public line 80. The second wireless communication unit 51b performs Wi-Fi communication, and plays a role of connecting to the adapters 20a, 20b,... Via the LAN 81 without passing through the public line 80 in the building 30. The touch panel 55 functions as a display screen and functions as an operation button. The operation button is a button included in the image displayed on the display screen.

  The smartphone 50 is equipped with an air conditioning management application 54 for managing the air conditioners 10a, 10b,. The user downloads the air conditioning management application 54 from the remote management server 40 via the public line 80. The user monitors information on the air conditioners 10a, 10b,... And operates the air conditioners 10a, 10b,... Via images generated by the air conditioning management application 54 and provided to the touch panel 55. Can be done. The air conditioning management application 54 holds the address on the Internet of the remote management server 40 that is the connection destination from the beginning.

  The air conditioning system 100 connects the adapters 20a, 20b,... To the air conditioners 10a, 10b,... And causes the router 21 to recognize the adapters 20a, 20b,. The user downloads the air-conditioning management application 54 and installs it on the smartphone 50, and the user can use it by making initial settings in the building 30 such as home.

(3) Monitoring and operation of an air conditioner from the outside using an air conditioning management application The air conditioning management application 54 has various functions. As basic functional units, an air conditioner information request unit 54a, an air conditioner A machine information acquisition unit 54b and a management screen generation unit 54c are provided.

  When the air conditioning management application 54 of the smartphone 50 is started outside the building 30 and a login ID and a password are input by the user, the air conditioner information requesting unit 54a displays all the adapters 20a, 20b, The information of the air conditioners 10a, 10b,... Connected to the remote management server 40 is requested via the first wireless communication unit 51a. In response to the information transmission request, the remote management server 40 receives various types of air conditioners 10a, 10b,... Connected to the adapters 20a, 20b,. Data is transmitted to the smartphone 50. Various data related to the air conditioners 10a, 10b,... Include device data 25a, temperature data 25b such as a set temperature, power adjustment operation ON / OFF information 25c for notifying whether or not the power adjustment operation is performed, Etc. are included.

  The data regarding the air conditioners 10a, 10b,... Is received by the air conditioner information acquisition unit 54b of the air conditioning management application 54 and temporarily stored in the memory of the smartphone 50. And the management screen generation part 54c of the air-conditioning management application 54 displays on the touch panel 55 based on data related to the air conditioners 10a, 10b,. Generate a screen.

  Moreover, the air-conditioning management application 54 receives the operation input of the air conditioners 10a, 10b,... From the user via the air conditioner management screen. When the user presses the “stop” button 55b on the air conditioner management screen shown in FIG. 5, an operation command for switching the “living air conditioner” from the operation state to the stop state is sent to the remote management server 40. When 20a, 20b,... Accesses, an operation command is sent to the adapters 20a, 20b,. Receiving the operation command, the adapters 20a, 20b,... Send a command that matches the operation command, that is, here, a stop command to the air conditioners 10a, 10b,. Conversely, when the “living air conditioner” is in the stopped state, if the “run” button 55a is pressed on the air conditioner management screen, an operation command for changing the “living air conditioner” to the operating state is sent to the remote management server 40. Further, when the user inputs an operation by pressing the other “operation mode” button 55c, “set temperature” button 55d, and “set time” button 55e, an operation command is sent from the air conditioning management application 54 to the remote management server 40. It is done.

(4) Monitoring and operation of the air conditioner from the building using the air conditioning management application When the air conditioning management application 54 of the smartphone 50 is activated and the login ID and password are input by the user, the air conditioning is performed. The machine information requesting unit 54a sends information about the air conditioners 10a, 10b,... Connected to the adapters 20a, 20b,... Via the second wireless communication unit 51b to the adapters 20a, 20b,. Request to In response to the information transmission request, various data regarding the air conditioners 10a, 10b,... Stored in the storage unit 63 of the adapters 20a, 20b,. The various data related to the air conditioners 10a, 10b,... Include device data 25a including retained function information 18a, temperature data 25b such as a set temperature, and the like.

  Subsequent generation of the monitoring / operation air conditioner management screen is the same as the operation of the air conditioning management application 54 of the smartphone 50 outside the building 30.

  Further, the operation until the reception of the operation input of the air conditioners 10a, 10b,... From the user is the same as the operation of the air conditioning management application 54 of the smartphone 50 outside the building 30. However, in the building 30, an operation command is transmitted from the smartphone 50 to the adapters 20a, 20b,... Via the second wireless communication unit 51b. The adapters 20a, 20b,... That have received the operation commands directly from the smartphone 50 send commands corresponding to the operation commands to the air conditioners 10a, 10b,.

(5) Function of adapter when receiving power consumption adjustment request As described above, the adapters 20a, 20b,... Connected to the air conditioners 10a, 10b,. The air conditioner 10a, 10b,... Has a function of receiving the power consumption adjustment request DM sent from the supply and demand adjustment server 91 and causing the air conditioners 10a, 10b,. Hereinafter, this function will be described in detail.

  The power supply company 90 is a company that supplies power to the entire area including the building 30 where the air conditioners 10a, 10b,... Are installed. The power supply / demand adjustment server 91 of the power supply company 90 adjusts the adapters 20a, 20b,... As necessary so that the power supply amount of the power supply company 90 and the power consumption of the power consumer are balanced. A power consumption adjustment request (power consumption adjustment request DM) is transmitted. The power consumption adjustment request DM includes a suppression request for requesting a reduction in power consumption and a promotion request for requesting an increase in power consumption. The power consumption adjustment request DM of the power supply and demand adjustment server 91 includes a power consumption adjustment request period and a power consumption target adjustment amount. The power consumption adjustment request period is a period in which a power consumption device such as the air conditioner 10a, 10b,... Is requested to execute reduction or increase in power consumption. The target adjustment amount of power consumption is an amount for requesting reduction or increase of power consumption.

  When the wireless communication unit 61 receives the power consumption adjustment request DM from the power supply and demand adjustment server 91, the adapter unit 20a, 20b, ... receives the power consumption adjustment request DM from the air conditioner 10a, A power adjustment instruction CM for 10b,. The process of creating the power adjustment instruction CM for the adapters 20a, 20b,... Will be described with reference to the control flow shown in FIG.

  In step S1, the adapters 20a, 20b,... Determine whether or not the wireless communication unit 61 has received the power consumption adjustment request DM. If received, the process proceeds to step S2. The wireless communication unit 61 includes a first power consumption adjustment request that is a power consumption adjustment request DM in a first request format, and a second power consumption adjustment request that is a power consumption adjustment request DM in a second request format; Can be received.

  In step S2, it is determined whether the power consumption adjustment request DM is a first power consumption adjustment request of the first request format. A 1st request | requirement format is a format which increases / decreases power consumption by a fixed ratio (for example, 20%) with respect to the power consumption of the present air conditioners 10a, 10b, .... For example, the first power consumption adjustment request includes a request to reduce the power to 80% of the current power consumption.

  When it is determined in step S2 that the power consumption adjustment request DM is the first power consumption adjustment request, the process proceeds to step S3, where the first instruction generation unit 62a of the instruction unit 62 performs air conditioning in the first request format. A power adjustment instruction CM for the machines 10a, 10b,. That is, the first instruction generation unit 62a uses the power consumption adjustment request DM as the power from the power consumption adjustment request DM using the form in which the power consumption is increased or decreased at a constant rate with respect to the current power consumption of the air conditioners 10a, 10b,. An adjustment instruction CM is generated.

  The power consumption adjustment requests DM sent from the power supply / demand adjustment server 91 of the power supply company 90 are all the first power consumption adjustment requests that adopt the first request format. Therefore, when the power consumption adjustment request DM is received from the power supply and demand adjustment server 91, the process always proceeds from step S2 to step S3.

  When it is determined in step S2 that the power consumption adjustment request DM is not the first power consumption adjustment request, the process proceeds to step S4. When the power supply company 90 is connected to the air conditioners 10a, 10b,... Installed in the building 30 that supplies power, the adapters 20a, 20b,. When receiving a request DM, but connected to an air conditioner installed in a different power supply company in a different region, the power that adopts the second request format for the adapters 20a, 20b,. It is also assumed that a power consumption adjustment request DM is sent from the supply and demand adjustment server. The adapters 20a, 20b,... According to the present embodiment are designed assuming a power consumption adjustment request DM from a power supply / demand adjustment server of another power supply company, and step S4 is implemented. In step S4, it is determined whether the power consumption adjustment request DM is a second power consumption adjustment request of the second request format. The second request format is a request to increase / decrease a predetermined amount of power consumption in the air conditioners 10a, 10b,.

  When it is determined in step S4 that the power consumption adjustment request DM is the second power consumption adjustment request, the process proceeds to step S5 and step S6, and the second instruction generation unit 62b of the instruction unit 62 receives the second request format. Are converted into the first request format to generate the power adjustment instruction CM for the air conditioners 10a, 10b,. That is, the second instruction generation unit 62b uses the second request format for increasing or decreasing a predetermined amount of power consumption at a constant rate with respect to the current power consumption of the air conditioners 10a, 10b,. Is converted into a first request format that increases or decreases, and a power adjustment instruction CM is generated from the power consumption adjustment request DM. Specifically, in step S5, the second required form is set using the rated power 18d of the compressors of the air conditioners 10a, 10b,... Stored in the storage unit 63 and the rated power 18d. The conversion table 62c to be converted into one request format is read, and in step S6, the second instruction generation unit 62b generates a power adjustment instruction CM.

  As described above, both of the first instruction generation unit 62a that generates the power adjustment instruction CM in step S3 and the second instruction generation unit 62b that generates the power adjustment instruction CM in step S6 have the same first request format power. An adjustment instruction CM is generated. And in step S7, electric power adjustment instruction | indication CM is sent from the instruction | indication part 62 to the control part 13 of air conditioner 10a, 10b, .... The air conditioners 10a, 10b,... That have received this power adjustment instruction CM have reduced power consumption for a specified period, for example, by lowering the upper limit frequency of a variable capacity inverter compressor. Perform power adjustment operation.

  Note that the adapters 20a, 20b,... Only support the power consumption adjustment request DM in the first request format and the second request format described above. Is not supported. Therefore, when it is determined in step S2 that the power consumption adjustment request DM is not the first power consumption adjustment request, and in step S4, it is determined that the power consumption adjustment request DM is not the second power consumption adjustment request. In step S8, an error notification process is performed. Specifically, a notification (notification) that the adapter 20a, 20b,... Could not respond to the power supply / demand adjustment request is returned to the upper power supply / demand adjustment server.

(6) Notification to the user of the power adjustment operation of the air conditioner in accordance with the power adjustment instruction As described above, the air conditioners 10a, 10b, which have received the power adjustment instruction CM from the adapters 20a, 20b,. ..., power adjustment operation is performed instead of normal operation. In the air conditioning system 100, the user can confirm with the smartphone 50 via the remote management server 40 that the air conditioners 10a, 10b,...

  Specifically, when the air conditioners 10a, 10b,... Are performing the power adjustment operation, the control unit 13 of the air conditioners 10a, 10b,. The data is sent to the adapters 20a, 20b,. The adapters 20a, 20b,... Periodically send information to the remote management server 40 that the air conditioners 10a, 10b,... . The remote management server 40 stores this information in the adapter-specific database 43a as the power adjustment operation ON / OFF information 25c. When the user accesses the remote management server 40 using the air conditioning management application 54 from the smartphone 50, the power adjustment operation ON regarding whether or not the air conditioners 10a, 10b,... The remote management server 40 sends the / OFF information 25c together with other information such as the device data 25a and the temperature data 25b to the smartphone 50 (see the air conditioner information IF in FIG. 1). Receiving this, the air conditioning management application 54 of the smartphone 50 informs that, for example, the power adjustment operation is being performed on the air conditioner management screen displayed on the touch panel 55.

  FIG. 5 is an example of an air conditioner management screen of a user's living air conditioner that is one of the air conditioners 10a, 10b,. FIG. 5 shows that the living air conditioner performs normal cooling operation. On the other hand, FIG. 6 is an example of a screen informing in the notification area 55f that the living air conditioner is performing power adjustment operation instead of normal cooling operation. In the air conditioner management screen of FIG. 6, although the cooling operation is performed, the fact that the power adjustment operation in which the power adjustment is prioritized over the set temperature is performed is indicated as “during power adjustment operation”. It shows.

(7) Features (7-1)
In the air conditioning system 100, the adapters 20a, 20b, ... connected to the air conditioners 10a, 10b, ... are provided with an instruction unit 62 including two instruction generation units 62a, 62b. The first instruction generation unit 62a and the second instruction generation unit 62b correspond to the power consumption adjustment requests DM in different request formats, and both generate the power adjustment instruction CM in the same instruction format. As a result, the second power consumption adjustment request in the second request format is also sent to the power supply and demand adjustment server 91 of the power supply company 90 that sends the first power consumption adjustment request in the first request format. For the power supply / demand adjustment servers of other power supply companies, if the adapters 20a, 20b,... Are used, the air conditioners 10a, 10b,. It can be done.

(7-2)
In the air conditioning system 100, the instruction format of the power adjustment instruction CM sent to the air conditioners 10a, 10b,... Is unified into a format in which the power consumption is increased or decreased at a constant rate with respect to the current power consumption. Thus, the first instruction generation unit 62a and the second instruction generation unit 62b adopt a configuration for generating the power adjustment instruction CM. And the 2nd instruction | indication production | generation part 62b changes the format of the 2nd power consumption adjustment request | requirement which is a format different from it. Specifically, by using the rated power information 18d of the compressors of the air conditioners 10a, 10b,..., The second instruction generating unit 62b can generate the air conditioners 10a, 10b,. A power adjustment instruction CM to be sent to ... is generated. By configuring the first instruction generation unit 62a and the second instruction generation unit 62b in this manner, the same type of power adjustment instruction CM is sent to the air conditioners 10a, 10b,.

(7-3)
In the air conditioning system 100, the air conditioners 10a, 10b,... From the adapters 20a, 20b,... Connected to the air conditioners 10a, 10b,.・ ・ Will be informed that the power adjustment operation is in progress. For this reason, the user who is monitoring the operating status of the air conditioners 10a, 10b,... From outside the building 30 confirms the screen on the touch panel 55 of the smartphone 50 shown in FIG. It is possible to grasp whether the air conditioners 10a, 10b,... Are in power adjustment operation or normal operation.

(8) Modification (8-1)
In the above embodiment, the rated power 18d of the compressors of the air conditioners 10a, 10b,... Is stored in advance in the storage unit 63 of the adapters 20a, 20b,. The instruction generation unit 62b employs a method of generating the power adjustment instruction CM (see step S5), but the second instruction generation unit 62b makes an inquiry to the control unit 13 of the air conditioners 10a, 10b,. You may employ | adopt the method performed each time.

  In this case, when a power consumption adjustment request is received from the power supply / supply adjustment server of the power supply company to reduce the amount of power, for example, OOWh, the second instruction generation unit 62b of the adapters 20a, 20b,. First, a signal requesting rated power is sent to the control unit 13 of the air conditioner 10a, 10b,..., And information on the rated power is obtained from the control unit 13. After that, the power reduction rate may be obtained by the conversion table 62c as in the above embodiment, or instead, the power reduction rate may be obtained by dividing the reduction required power amount by the rated power.

(8-2)
In the above embodiment, when the user accesses the remote management server 40 from the smartphone 50 using the air conditioning management application 54, the air conditioners 10a, 10b,... Although the power adjustment operation ON / OFF information 25c is sent to the smartphone 50, the remote management server 40 recognizes that the power adjustment operation has started instead of being sent to the smartphone 50. Alternatively, a configuration in which push notification is performed may be employed.

10a, 10b, ... Air conditioner 18d Rated power (rated power information)
20a, 20b, ... adapter (power consumption management device)
40 Remote management server (server equipment)
50 Smartphone (mobile terminal)
54 Air conditioning management application (air conditioning management program)
55 Touch panel (display)
61 Wireless communication unit (receiving unit)
62 instruction unit 62a first instruction generation unit 62b second instruction generation unit 80 public line 100 air conditioning system CM power adjustment instruction DM power consumption adjustment request

JP 2012-65407 A

Claims (2)

A power consumption management device (20a, 20b, ...) connected to the air conditioner,
A receiving unit (61) for receiving a power consumption adjustment request (DM) from the outside;
An instruction unit (62) that generates an electric power adjustment instruction (CM) to be performed by the air conditioner (10a, 10b,...) In response to the power consumption adjustment request and sends the electric power adjustment instruction to the air conditioner. )When,
With
The receiving unit (61) may receive a first power consumption adjustment request that is the power consumption adjustment request in the first request format and a power consumption adjustment request in a second request format that is different from the first request format. A second power consumption adjustment request can be received,
The instruction unit (62) generates a first instruction generation unit (62a) for generating the power adjustment instruction from the first power consumption adjustment request, and a second instruction for generating the power adjustment instruction from the second power consumption adjustment request. An instruction generation unit (62b),
The first instruction generation unit and the second instruction generation unit both generate the power adjustment instruction (CM) in the same instruction format ,
The first power consumption adjustment request is a request to increase or decrease the power consumption at a constant rate with respect to the current power consumption.
The first instruction generation unit generates an instruction in a form for increasing or decreasing power consumption at a certain rate with respect to current power consumption from the first power consumption adjustment request,
The second power consumption adjustment request is a request to increase or decrease a predetermined amount of power consumption,
The second instruction generation unit increases or decreases the power consumption at a certain rate with respect to the current power consumption using the rated power information (18d) of the air conditioner device from the second power consumption adjustment request. Generate instructions in the form of
Power consumption management device. The power consumption management device (20a, 20b, ...) according to claim 1 ,
The air conditioner (10a, 10b, ...);
A portable terminal (50) carried by a user of the air conditioner and having an air conditioning management program (54) for managing the air conditioner;
A server device (40) connected to the portable terminal and the power consumption management device via a public line (80);
With
When the power consumption management device sends the power adjustment instruction to the air conditioner and causes the air conditioner to perform an operation according to the power consumption adjustment request, the air conditioner is in a power adjustment operation. To the server device,
The server device informs the mobile terminal that the air conditioner is in power adjustment operation,
The air conditioning management program of the mobile terminal displays on the display (55) of the mobile terminal that the air conditioner is in power adjustment operation.
Air conditioning system (100).

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