JP2016019084A - controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a controller, which is provided to a building for controlling operation of plural apparatuses as control target which are installed in the building, capable of allowing a user to easily comprehend which operation unit initiates the operation of a control target apparatus.SOLUTION: Having acquired an operation request including operation information to the unites to be controlled 11-15 based on a piece of information from one operation unit in plural operation units 2, 4, 5, 16 and 17, a HEMS controller 19 stores a piece of identification information and the operation information of the one operation unit in an operation history of a memory while associating the identification information and the operation information with each other. The HEMS controller 19 controls the display of the units 4, 5, 16, 17, 18 and 19 to display the identification information and the operation information of the one operation unit which are stored therein in association with the operation history.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a controller that is attached to a building and controls the operation of a plurality of controlled devices installed in the building.

  2. Description of the Related Art Conventionally, a controller that is attached to a building and controls the operation of a controlled device (such as a home appliance) installed in the building is known. For example, the controller (gateway) described in Patent Document 1 receives an operation request from an operation device inside or outside a building, and outputs a control command to the controlled device in response to the received operation request.

JP 2002-44765 A

  In the prior art as described above, there is a problem that it is difficult for the user to determine from which operation device the operation request that realized the operation of the current or past controlled device is transmitted.

  In view of the above problems, the present invention relates to a controller that is attached to a building and controls the operation of a plurality of controlled devices installed in the building. The purpose is to make it easy for the user to grasp whether it has been realized.

  The invention according to claim 1 for achieving the above object is a controller that is attached to a building (10a to 10c) and controls the operation of controlled devices (11 to 15) installed in the building, A memory (191) and a calculation unit (195), wherein the calculation unit sends an operation request (60) including an operation content (64) to the controlled device to a plurality of operation devices (2, 4, 5). , 16, 17, 192) to acquire based on information from one operating device, and to identify the one operating device based on the acquisition means acquiring the operation request Recording means (130) for associating information and the operation content with each other and recording it in the operation history (191b) in the memory, and based on the acquisition means acquiring the operation request, Control Control command transmission means (140) for transmitting a control command for realizing the contents to the controlled device, identification information of the one operating device recorded in association with the operation history by the recording means, and the operation contents And a display control means (230) for displaying on the display unit (193, 43).

  Thus, when the controller acquires the operation request based on the information from the one operating device, the controller associates the identification information of the one operating device with the operation content in the operation history. Record and transmit a control command for realizing the operation content to the controlled device. Then, the controller causes the display unit to display the identification information of the one operation device and the operation content recorded in association with each other in the operation history. Therefore, the user can easily understand what operation device operation request the current or past operation of the controlled device is realized by looking at the display on the display unit.

  The invention according to claim 5 is a controller that is attached to a building (10a to 10c) and controls the operation of controlled devices (11 to 15) installed in the building, and includes a memory (191) and A calculation unit (195), and the calculation unit sends an operation request (60) including an operation content (64) to the controlled device to a plurality of operation devices (2, 4, 5, 16, 17, 192), the acquisition unit (110) that acquires the operation content based on information from one operation device, and the acquisition unit acquires the operation content to the controlled device based on the acquisition of the operation request (60). Based on the control command transmission means (140) for transmitting the control command to be realized to the controlled device and the acquisition means acquiring the operation request (60), the identification information of the one operating device and the controlled device Control device operation Controller, characterized in that it comprises a display unit and a state (193,43) display control means for displaying on the (160), the.

  Thus, when the controller acquires the operation request based on the information from the one operating device, the controller transmits a control command for realizing the operation content to the controlled device. Then, the controller causes the display unit to display the identification information of the one operating device recorded in association with the operation history and the current operating state of the controlled device. Therefore, the user can easily grasp what operation device operation request the operation of the controlled device is realized by looking at the display on the display unit.

  In addition, the code | symbol in the bracket | parenthesis in the said and the claim shows the correspondence of the term described in the claim, and the concrete thing etc. which illustrate the said term described in embodiment mentioned later. .

1 is a configuration diagram of an energy management system 100 according to an embodiment of the present invention. It is a figure which shows the structure which each of the operating devices 4, 5, 16, and 17 has. 2 is a configuration diagram of a HEMS controller 19. FIG. It is a figure which shows the structure of the operation request | requirement 60. FIG. It is a flowchart of an operation request reception process. It is a figure which shows the availability list | wrist 191a. It is an example of a display of an operation state and an operation origin apparatus name. It is a flowchart of an operation history display control process. It is a figure which shows the operation history displayed by the operation history display control process.

  Hereinafter, an embodiment of the present invention will be described. An energy management system 100 according to the present embodiment shown in FIG. 1 is for realizing a CEMS (Cluster Energy Management System or Community Energy Management System).

  As shown in FIG. 1, the energy management system 100 is supplied with electric power from the system power source 1 and includes a CEMS server 2, a remote center 3, a first outside operating device 4, and a second outside operating device 5. In addition, a plurality of consumers (corresponding to an example of a building) 10a to 10c are included.

  The consumers 10a to 10c included in the energy management system 100 are built in the same area. The number of customers included in the energy management system 100 may be about 10 units, about 100 units, or about 1000 units. However, in the present embodiment, as an example, three customers 10a to 10c are energized. It is included in the management system 100. In the present embodiment, each of the customers 10a to 10c is also a supplier with a power generation device installed.

  Since all the apparatuses installed in the consumers 10a to 10c have the same configuration, the same reference numerals are used. In each of the consumers 10a to 10c, in the vicinity of the inside or outside, the distribution board 11, the hot water supply device 12, the power generation device 13, the power storage device 14, the device group 15, the first in-home operation device 16, and the second in-home operation device 17 are provided. A gateway 18 and a HEMS controller 19 are installed.

  The distribution board 11 is supplied with power from the grid power source 1 via the local power line 21 and further connected to the equipment 12, 13, 15, 18, 19 installed in the same consumer via the residential power line 22. Has been. The distribution board 11 supplies the power received from the system power source 1 and the like to the devices 12, 13, 15, 18, and 19 via the home power line 22. Conversely, power is supplied from the power generation device 13 and the power storage device 14 to the distribution board 11, and the power supplied from the distribution board 11 is supplied to the device group 15 in the same consumer or the distribution board 11 in another consumer. In some cases, power is supplied.

  The hot water supply device 12 includes a heat pump unit and a hot water storage unit. The heat pump unit heats water with the electric power supplied from the distribution board 11 to boil the hot water, and stores the heated hot water in the hot water storage unit. Hot water stored in the hot water storage unit is supplied to a bath, a kitchen, etc. via a pipe (not shown).

  The power generation device 13 is a device that supplies power to the distribution board 11 or the power storage device 14 by generating power, and can be realized by a solar power generation device, for example. The power storage device 14 includes a secondary battery that is charged by receiving power supply from the power generation device 13 and a charge / discharge control device that controls charging and discharging by the secondary battery. The device group 15 includes a plurality of devices that operate by receiving power from the distribution board 11 such as indoor air conditioners, lighting, electronic locks, and floor heating devices. Since the operations of the devices 11 to 15 are controlled by the HEMS controller 19, each corresponds to an example of a controlled device.

  The home operation devices 16 and 17 are devices such as a mobile phone (smart phone), a tablet computer, and a stationary personal computer, and a HEMS controller 19 installed in the same consumer and a LAN (local area network) in the consumer. To communicate via. The in-home operation devices 16 and 17 generate an operation request according to the user's operation, and transmit the operation request to the HEMS controller 19 via the LAN.

  The gateway 18 is a gateway device that connects a LAN in a consumer in which the gateway 18 is installed and the above-described wide area network outside the consumer. The customer's HEMS controller 19 and the CEMS server 2, and the customer's HEMS controller 19 and the remote center 3 can communicate via the gateway 18.

  The HEMS controller 19 is a device that controls the operation of the controlled devices 11 to 15 installed in the same consumer and provides the user with information such as the operating state of the controlled devices 11 to 15.

  The CEMS server 2 is a device that performs peak shift or leveling of energy supply and demand of the entire energy management system 100 by communicating with the HEMS controller 19 via the gateway 18 of each consumer 10a to 10c. The CEMS server 2 corresponds to an example of the operation device, like the operation devices 4, 5, 16, and 17.

  The remote center 3 receives an operation request from the first out-of-home operating device 4 and the second out-of-home operating device 5 via a wide-area communication network such as the Internet, and sends the received operation request to each consumer 10a to 10HEMS controller 19. It is a device that transmits.

  The out-of-home operating devices 4 and 5 are communication devices such as mobile phones (smartphones), tablet computers, and stationary personal computers, and can communicate with the remote center 3 via a wide-area communication network such as the Internet. . The out-of-home operating devices 4 and 5 generate an operation request based on the user's input operation, and transmit the operation request to the remote center 3 via the wide area communication network.

  As shown in FIG. 2, each of the above-mentioned outside and home operation devices 4, 5, 16, and 17 includes a memory 41, a manual operation unit 42, a display unit 43, a communication interface 44, and a calculation unit 45. .

  The manual operation unit 42 is a device that directly receives a user input operation, and can be realized by, for example, a touch panel, a keyboard, a mouse, a microphone, a camera, or the like. The display unit 43 is a device that displays an image to the user. The communication interface 44 is an interface circuit for performing communication via the above-described wide area network or LAN. The calculation unit 45 executes various programs recorded in the memory 41 to perform communication using the communication interface 44 as necessary, and causes the display unit 43 to display an image.

  As shown in FIG. 3, the HEMS controller 19 of each customer 10a-10c has the memory 191, the manual operation part 192, the display part 193, the communication interface 194, and the calculating part 195, respectively.

  The memory 191 includes a nonvolatile memory such as a flash memory and a volatile memory such as a RAM. In the nonvolatile memory, in addition to the program executed by the calculation unit 195, data such as the availability list 191a and the operation history 191b are recorded.

  The manual operation unit 192 is a device that directly receives a user input operation, and can be realized by, for example, a touch panel, a keyboard, a mouse, a microphone, a camera, and the like. The display unit 193 is a device that displays an image to the user.

  The communication interface 194 is a LAN interface for communicating with the first in-home operating device 16, the second in-house operating device 17, and the gateway 18 via the above-mentioned LAN, and for control for communicating with the controlled devices 11 to 15. And a communication interface.

  The calculation unit 195 executes various programs recorded in the memory 191 to perform communication using the communication interface 194 as necessary, and causes the display unit 193 to display an image.

  Hereinafter, the operation of the energy management system 100 configured as described above will be described. First, transmission of an operation request will be described. There are three examples where the operation request is transmitted: an example transmitted from the out-of-home operating devices 16, 17, an example transmitted from the out-of-home operating devices 4, 5, and an example transmitted from the CEMS server 2.

[Generation and transmission of operation requests in home operation devices]
Each of the above-described operation devices 4, 5, 16, and 17 transmits an operation request based on a user input operation.

  Specifically, the user operates the manual operation unit 42 with respect to one of the in-home operation devices 16 and 17 in one of the customers 10a to 10c (here, the customer 10a is taken as an example). Suppose that an input operation is performed using. The contents of the input operation include the name of one specific controlled device among the controlled devices 11 to 15 installed in the consumer 10a and the operation content for the one controlled device (for example, activation, stop, charging start) , Discharge start, etc.).

  Then, the computing unit 45 of the one in-home operating device creates an operation request based on the name of the specific one controlled device specified by the input operation and the operation content for the one controlled device.

  As illustrated in FIG. 4, the operation request 60 is data including four data, that is, an occurrence date and time 61, an operation source device name 62, an operation target device name 63, and an operation content 64. In the case of the above-described example, the calculation unit 45 sets the current date and time as the generation date and time 61, and sets the operation source device name 62 as the device name assigned to the own device (the operation device having the calculation unit 45).

  It is assumed that the device name (corresponding to an example of identification information of the operating device) assigned to the own device is recorded in advance in a nonvolatile storage medium in the memory 41. This device name is identification information for uniquely identifying each operating device. Therefore, the own device can be distinguished from other operation devices by the operation source device name 62. For example, as the device name, a MAC (Meida Access Control) address of the device may be used, or a computer name given by the user for each device may be used.

  In addition, the calculation unit 45 displays the name of the specific one controlled device specified by the user's input operation and the operation contents for the one controlled device as an operation target device name 63 and an operation content 64, respectively. To do.

  Then, the calculation unit 45 includes the generation date and time 61, the operation source device name 62, the operation target device name 63, and the operation content 64 created in this way in the operation request 60. Further, the operation request 60 is transmitted to the HEMS controller 19 in the customer 10a via the LAN in the customer 10a using the communication interface 44. At this time, the transmitted operation request 60 passes through the LAN in the customer 10a, but does not pass through a network (including a wide area network) outside the gateway 18. Of course, the LANs in the other customers 10b and 10c do not pass.

[Generation and transmission of operation requests on the outside operating device]
In addition, it is assumed that the user performs an input operation using one of the manual operation units 42 for one of the out-of-home operating devices 4 and 5 located at a remote place far from the consumers 10a to 10c. The content of the input operation is the name of one specific customer (referred to here as the customer 10a) among the customers 10a to 10c, and a specific one of the controlled devices 11 to 15 installed in the customer 10a. It defines the name of one controlled device and the operation details (for example, activation, stop, start of charge, start of discharge, etc.) for the one controlled device.

  Then, the computing unit 45 of the one out-of-home operating device, the name of the specific one consumer 10a defined by the input operation, the name of the one specific controlled device, and the one controlled device An operation request having the configuration shown in FIG.

  More specifically, the generation date and time 61, the operation source device name 62, and the operation content 64 are generated in the same manner as when the operation request is generated in the in-home operation devices 16 and 17.

  For the operation target device name 63, the calculation unit 45 includes both the name of the specific one consumer 10a defined by the input operation of the user and the name of the specific one controlled device. The data is an operation target device name 63. Thereby, the operation target device name 63 includes not only the name of the controlled device to be operated but also the name of the customer 10a in which the controlled device is installed.

  Then, the calculation unit 45 includes the generation date and time 61, the operation source device name 62, the operation target device name 63, and the operation content 64 created in this way in the operation request 60. Further, the operation request 60 is transmitted to the remote center 3 through the wide area network using the communication interface 44.

  The remote center 3 receives the operation request 60 transmitted from the remote operation devices 4 and 5 in this way via the wide area network, and is included in the operation target device name 63 in the received operation request 60. Read the names of customers. And the said operation request | requirement 60 is transmitted with respect to the HEMS controller 19 installed in the consumer who has the read name. The operation request 60 transmitted in this way reaches the HEMS controller 19 via the wide area network, the gateway 18, and the LAN in the customer. Thus, the remote center 3 has a relay function for the operation request 60. When the remote center 3 relays the operation request 60 in this way, a predetermined relay indicating that the own machine (remote center 3) relays the operation request 60 received from the outside operating device. The data is included and transmitted to the HEMS controller 19.

[Generation and transmission of operation request in CEMS server 2]
The CEMS server 2 generates an operation request and transmits it to each HEMS controller 19 in order to perform peak shift or leveling of energy supply and demand of the entire energy management system 100.

  Specifically, in the HEMS controller 19 of each customer 10a to 10c, the calculation unit 195 repeatedly generates performance data periodically and transmits it to the CEMS server 2 using the communication interface 194. And the CEMS server 2 receives the performance data.

  These actual data include the supply and demand of energy (electric power, etc.) at the consumer, such as the amount of power used by the consumer at the installation destination of the HEMS controller 19, the amount of hot water stored in the hot water supply device 12, the amount of electricity stored in the power storage device 14 Actual data is included. The calculation unit 195 of each HEMS controller 19 receives the supply and demand results (power consumption, power usage amount) of each controlled device 11-15 received via the communication interface 194 from each controlled device 11-15 installed in the same consumer. Based on the amount of stored hot water, the amount of electricity stored, etc., the data of these supply and demand results is generated.

  The CEMS server 2 predicts the amount of energy supply and demand of the entire consumers 10a to 10c in a period after the current time based on each received performance data. Then, based on the prediction result of the energy demand and supply of the entire consumer customers 10a to 10c, the customer demand 10a to 10c is subjected to a peak shift or leveling of energy supply and demand in a period after the present time. An operation plan for the controlled devices 10a to 10c is created.

  The operation plan is a schedule (time table) for how and in which time zone the operation of the controlled devices 11 to 15 is controlled. It is well known how to create an operation plan for performing peak shift or leveling of energy supply and demand based on prediction results of energy supply and demand, and is described in, for example, Japanese Patent Application Laid-Open No. 2013-156937. Yes.

  Then, the CEMS server 2 transmits an operation request 60 having the configuration shown in FIG. 4 to the HEMS controller 19 at a necessary timing according to the created operation plan. For example, in the operation plan, when the power storage device 14 of the customer 10a starts discharging at time T1, the CEMS server 2 starts creating the operation request 60 when the time T1 arrives. The current date and time is set as the occurrence date and time 61, and the operation source device name 62 is set as the device name assigned to the own device (CEMS server 2).

  It is assumed that the device name (corresponding to an example of the identification information of the operation device) assigned to the CEMS server 2 is recorded in advance in a nonvolatile storage medium in the CEMS server 2. This device name is identification information for uniquely identifying each operating device. Therefore, the CEMS server 2 can be distinguished from other operation devices by the operation source device name 62. For example, as the device name, a MAC (Meida Access Control) address of the device may be used, or a computer name given by the user for each device may be used.

  Further, the CEMS server 2 sets the data including both the names of the power storage devices 14 that are the operation targets as the operation target device name 63. Further, the CEMS server 2 sets the operation content 64 to “discharge start” which is the operation content for the controlled device (power storage device 14) to be operated.

  The CEMS server 2 includes the generation date and time 61, the operation source device name 62, the operation target device name 63, and the operation content 64 created in this way in the operation request 60, and the same customer 10 a as the operation target power storage device 14. The operation request 60 is transmitted to the HEMS controller 19 installed in the system. The operation request 60 transmitted in this way reaches the HEMS controller 19 via the wide area network, the gateway 18, and the LAN in the customer.

[Handling of operation requests in the HEMS controller 19]
Next, the operation of the HEMS controller 19 that has received the operation request 60 transmitted as described above will be described. In each of the HEMS controllers 19, the calculation unit 195 executes an operation request receiving process shown in FIG.

  In the processing of FIG. 5, the arithmetic unit 195 first outputs the operation request 60 generated and transmitted by any one of the operation devices 2, 4, 5, 16, and 17 through the communication interface 194 in step 110. Wait for reception.

  When the operation request 60 is received, the process proceeds to step 120, where whether or not the received operation request 60 can be accepted is determined based on the contents of the availability list 191a recorded in the memory 191 of the own device. judge. FIG. 6 shows a configuration example of the availability list 191a.

  The availability list 191a recorded in the memory 191 of the HEMS controller 19 accepts an operation request for each of the operation devices 2, 4, 5, 16, and 17 with or without specifying a controlled device to be operated. This is data in which whether or not is set.

  For example, the availability list 191a has a plurality of records (corresponding to each row of the second row transition in FIG. 6), and each record includes the name of the operation source device, the name of the operation target device, and whether or not it is possible. 1 set of data.

  The computing unit 195 extracts the operation source device name 62 from the received operation request 60, and searches the availability list 191a for a record including the extracted operation source device name 62. If no such record is found, it is determined that the operation request 60 cannot be accepted, and the process returns to step 110. That is, the calculation unit 195 does not accept the operation request 60 unless the operation source device name 62 is in the availability list 191a.

  In addition, if the operation unit 195 finds a record including the operation source device name 62 extracted from the operation request 60 as a result of the above search, the operation target device name 63 extracted from the operation request 60 includes the operation included in the record. It is determined whether it corresponds to the name of the target device.

  For example, when the name of the operation target device included in the record is one, if the operation target device name 63 extracted from the operation request 60 is the same as the operation target device included in the record, “applicable”. If it is not the same, it is determined as “not applicable”. Further, when there are two or more names of operation target devices included in the record, the operation target device name 63 extracted from the operation request 60 is the same as any one of the names of operation target devices included in the record. If so, it is determined as “applicable”, and if it is not the same, it is determined as “not applicable”. When the name of the operation target device included in the record is “all”, it is determined as “applicable” regardless of the operation target device name 63 extracted from the operation request 60.

  Further, when the calculation unit 195 determines “applicable”, if the value of the data indicating whether or not it is possible in the record is “permitted”, it determines that the operation request 60 is acceptable and proceeds to step 130. If “No”, it is determined that the operation request 60 cannot be accepted, and the process returns to Step 110.

  Further, when the calculation unit 195 determines that “not applicable” and the data value indicating whether or not data in the record is “enabled”, the operation unit 60 determines that the operation request 60 cannot be accepted and returns to step 110. If “impossible”, it is determined that the operation request 60 is acceptable, and the process proceeds to step 130.

  The contents of the availability list 191a can be edited by a user's manual operation. That is, the user can manually operate the manual operation unit 192 of the HEMS controller 19 that stores the availability list 191a, and input instructions to add, delete, and change records to the availability list 191a.

  The calculation unit 195 rewrites the contents of the availability list 191a in accordance with the input instruction. For example, the CEMS server 2 transmits an operation request 60 for causing the power storage device 14 to discharge in order to cause the power storage device 14 to discharge and reduce the load on the system power source 1 for the purpose of performing peak shift or leveling of the area as described above. There is a case. However, the user at the consumer may want to prohibit the discharge of the power storage device 14 in order to prioritize his own convenience over the benefits of the entire region. In such a case, as shown in FIG. 6, a record that includes the name of the CEMS server 2 as the operation source device, includes the power storage device 14 as the operation target device, and includes “NO” as data indicating whether or not the operation is possible. If the user adds manually, the CEMS server 2 cannot control the power storage device 14.

  In step 130, the operation request 60 received in step 110 and determined to be acceptable in step 120 is additionally recorded in the operation history 191b of the memory 191 as one record. As a result, the occurrence date and time 61, the operation source device name 62, the operation target device name 63, and the operation content 64 in the operation request 60 are associated with each other and recorded in the operation history 191b as one record.

  In this way, every time the operation unit 195 receives the operation request 60 in step 110 and determines that the operation request 60 is acceptable in step 120, the calculation unit 195 additionally records the operation request 60 in the operation history 191b. Accordingly, every time an operation request 60 that has been accepted is received, the number of records in the operation history 191b increases by one, and a plurality of operation requests 60 that have been accepted are recorded in the operation history 191b. become.

  Subsequently, at step 140, the arithmetic unit 195 generates and transmits a control command based on the operation request 60 received at the previous step 110 and recorded at step 130. Specifically, the calculation unit 195 reads the operation content 64 from the operation request 60 and uses the data including the operation content 64 as a control command. Thereby, a control command is generated. Then, the operation source device name 62 is extracted from the operation request 60, and the control command is transmitted to the controlled device having the extracted operation source device name 62 among the controlled devices 11 to 15. The transmission of the control command is performed using the above-described control communication interface in the communication interface 194.

  The controlled device that has received this control command realizes the operation content included in the received control command. For example, if the controlled device that received the control command is the power storage device 14 and the operation content included in the received control command is “start discharge”, the power storage device 14 starts discharging. Further, for example, if the controlled device that has received the control command is an air conditioner and the operation content included in the received control command is “ON”, the power storage device 14 starts operating.

  Subsequently, in step 150, the process waits until a predetermined time (for example, 1 second) elapses after the control command is transmitted in the immediately preceding step 140, and then acquires the operation state of the controlled device to which the control command is transmitted.

  Specifically, an operation state inquiry is transmitted to the controlled device to which the control command is transmitted via the control communication interface. The controlled device that has received the operation state inquiry transmits the operation state (ON, OFF, discharging, charging, hot water filling, etc.) of its own device to the HEMS controller 19. The calculation unit 195 acquires the operation state of the controlled device by receiving the operation state transmitted in this way via the control communication interface.

  Subsequently, in step 160, the name of the controlled device to which the control command is transmitted (operation target device name 63), the operation state acquired in the immediately preceding step 150, and the operation in the operation request 60 received in the immediately preceding step 110. The original device name 62 is displayed on the display unit 193.

  In the display example of FIG. 7, the name of the controlled device to which the control command is transmitted is “living air conditioner”, the acquired operating state is “on”, and the operation request 60 received in step 110 immediately before is received. The example of a display when the operation origin apparatus name 62 is the 1st in-home operating device 16 is shown.

  Subsequently, in step 170, a reception completion notification is transmitted to the operation source device. Specifically, first, the operation source device name 62 in the operation request 60 received in the immediately preceding step 110 is extracted. Then, it is determined whether or not the operation request 60 includes relay data.

  The fact that relay data is included in the operation request 60 means that the operation request 60 has been relayed by the remote center 3. The fact that the operation request 60 does not include relay data means that the operation request 60 is not relayed by the remote center 3 and any one of the CEMS server 2, the first in-home operation device 16, and the second in-home operation device 17. Is sent from.

  When it is determined that the operation request 60 does not include relay data, the arithmetic unit 195 uses the communication interface 194 to select the operation device having the extracted operation source device name 62 among the operation devices 2, 16, and 17. A reception completion notification indicating that the reception of the operation request 60 has been completed is transmitted to the addressee.

  If the calculation unit 195 determines that the relay request is included in the operation request 60, the communication unit 194 uses the communication interface 194 to notify the remote center 3 that the operation request 60 has been received. Send. However, the reception completion notification includes the extracted operation source device name 62 as a final destination.

  When the destination of the reception completion notification is the home operation device, the reception completion notification reaches the home operation device through the LAN without passing through the wide area network. When the destination of the reception completion notification is the CEMS server 2, the reception completion notification reaches the CEMS server 2 through the gateway 18 and the wide area network. When the destination of the reception completion notification is the remote center 3, the reception completion notification is first sent to the remote center 3, and then the remote center 3 is the final destination outdoor operation device included in the reception completion notification. The reception completion notice is transmitted.

  When the destination operating device is an operating device 4, 5, 16, or 17 other than the CEMS server 2, the arithmetic unit 45 of the operating device receives the operation request 60 when receiving the reception completion notification via the communication interface 44. Is displayed on the display unit 43.

  As described above, each HEMS controller 19 sends an operation request 60 including an operation content 64 for any one of the controlled devices 11 to 15 to the plurality of operation devices 2, 4, 5, 16, 17 via the communication interface. Based on the fact that one of the controlled devices is received (step 110), a control command for causing the one controlled device to realize the operation content 64 is transmitted to the one controlled device (step 140). Further, the HEMS controller 19 causes the display unit 193 to display the name of the one operating device (operation source device name 62) and the current operation state of the one controlled device (step 160). In this way, the user can easily see what operation device operation request the current operation of the controlled device is realized by looking at the display on the display unit 193. I can grasp it.

[Operation history display control processing]
Next, an operation history display control process performed by the HEMS controller 19 will be described. First, transmission of an operation history display request will be described. The operation history display request is generated and transmitted based on a user input operation in any of the operation devices 4, 5, 16, and 17.

  Specifically, the user operates the manual operation unit 42 with respect to one of the in-home operation devices 16 and 17 in one of the customers 10a to 10c (here, the customer 10a is taken as an example). Suppose that an input operation for requesting history display is performed using. Then, the computing unit 45 of the one in-home operating device has a request source device name that is a device name given to the own device (in-home operating device having the computing unit 45) and a predetermined operation history display request. And an operation history display request including the data. Further, the operation history display request is transmitted to the HEMS controller 19 in the customer 10a via the LAN in the customer 10a using the communication interface 44. At this time, the transmitted operation history display request passes through the LAN in the customer 10a, but does not pass through a network (including a wide area network) outside the gateway 18. Of course, the LANs in the other customers 10b and 10c do not pass.

  In addition, it is assumed that the user performs an input operation for requesting history display using one of the manual operation units 42 to one of the remote operation devices 4 and 5 located far away from the consumers 10a to 10c. . Further, it is assumed that the user performs an input operation of the name of a specific customer (referred to here as the customer 10a) among the customers 10a to 10c using the manual operation unit 42. Then, the calculation unit 45 of the one out-of-home operating device includes a request source device name that is a device name given to the own device (out-of-home operating device having the calculation unit 45), and the one consumer 10a. And an operation history display request including predetermined data indicating an operation history display request. Further, the operation history display request is transmitted to the remote center 3 through the wide area network using the communication interface 44.

  The remote center 3 receives the operation history display request transmitted from the outside operation devices 4 and 5 in this way via the wide area network, and reads the name of the customer included in the received operation history display request. . And the said operation log | history display request | requirement is transmitted with respect to the HEMS controller 19 installed in the consumer 10a which has the read name. The operation history display request transmitted in this way reaches the HEMS controller 19 via the wide area network, the gateway 18, and the LAN in the customer 10a. As described above, the remote center 3 has a relay function of the operation history display request. When the remote center 3 relays the operation history display request in this way, the remote center 3 indicates that the own device (remote center 3) relayed the operation history display request received from the outside operating device. Are transmitted to the HEMS controller 19.

  Next, the operation of the HEMS controller 19 that has received the operation history display request transmitted as described above will be described. In each HEMS controller 19, the calculation unit 195 is configured to execute the operation history display control process shown in FIG. 8 in parallel with the process of FIG.

  In the process of FIG. 8, the arithmetic unit 195 first receives an operation history display request generated and transmitted from any of the operation devices 4, 5, 16, and 17 as described above via the communication interface 194 in step 210. Wait until

  When the operation history display control request is received, the process proceeds to step 220, and the operation history 191b recorded in the memory 191 of the own device is read.

  Subsequently, in step 230, display control of the operation history 191b read out in the immediately preceding step 220 is performed. Specifically, first, the request source device name included in the operation history display request received in the immediately preceding step 210 is extracted. Then, it is determined whether or not relay data is included in the operation history display request.

  The fact that relay data is included in the operation history display request means that the operation history display request has been relayed by the remote center 3. The fact that the relay data is not included in the operation history display request means that the operation history display request is not relayed by the remote center 3 and is transmitted from one of the home operation devices 16 and 17. .

  When it is determined that the operation history display request does not include relay data, the calculation unit 195 uses the communication interface 194 to address the operation device having the extracted request source device name among the home operation devices 16 and 17. In addition, the operation history 191b read out in the immediately preceding step 220 is transmitted. In addition, what is specifically transmitted is a predetermined plurality of occurrence dates and times among the plurality of records included in the operation history 191b. The predetermined plurality may be the total number of records included in the operation history 191b, or may be a number smaller than the total number.

  If the calculation unit 195 determines that relay data is included in the operation history display request, the calculation unit 195 transmits the operation history 191b read in step 220 immediately before to the remote center 3 using the communication interface 194. . In addition, what is specifically transmitted is a predetermined plurality of occurrence dates and times among the plurality of records included in the operation history 191b. The predetermined plurality may be the total number of records included in the operation history 191b, or may be a number smaller than the total number. However, the extracted request source device name is included in the transmission operation history 191b as the final destination.

  When the destination of the operation history 191b is a home operation device, the operation history 191b reaches the home operation device through the LAN without passing through the wide area network. When the destination of the operation history 191b is the remote center 3, the operation history 191b first reaches the remote center 3, and then the remote center 3 receives the final destination outside operation device included in the operation history 191b. The operation history 191b is transmitted.

  When the operation unit 45 of the destination operation device receives the operation history 191b via the communication interface 44, all the records included in the received operation history 191b are displayed on the display unit 43 of the own device, for example, as shown in FIG. Display. In the display form illustrated in FIG. 9, each row corresponds to one record. By viewing this display, the user can list a plurality of records as to which controlled device is operated by which operation device and by what operation content. Therefore, the user can easily understand what operation device operation request the current or past operation of the controlled devices 11 to 15 is realized by looking at the display on the display unit 43. Can do.

  For example, the user sees the display of the operation history 191b as described above, and the operation request 60 of which operation device realizes an operation that the user did not intend for the controlled devices 11 to 15 installed in his / her customer. It is possible to know retrospectively what has been done. Based on this knowledge, the operation history 191b is edited by operating the manual operation unit 192 so that the operation request 60 for a specific controlled device cannot be received from a specific operation device. Is possible.

  Thus, in the present embodiment, the HEMS controller 19 displays the display unit 193 when operating the controlled devices 11 to 15 based on the operation instructions received from each of the operation devices 2, 4, 5, 16, and 17. The device from which the operation instruction is accepted can be displayed. In addition, instructions from the respective operation devices 2, 4, 5, 16, 17 can be displayed on the display unit 43 as an operation history 191b. Therefore, the user can confirm the factor when the device operation is different from the user's assumption.

  In addition, if the out-of-home operating devices 4 and 5 of this embodiment are brought into one of the consumers 10a to 10c, the remote center 3 and the wide area network are not connected to the HEMS controller 19 only through the LAN in the customer. An operation request 60 can be transmitted. That is, the out-of-home operating devices 4 and 5 of the present embodiment function as in-home operating devices when brought into any of the customers 10a to 10c. Conversely, the in-home operation devices 16 and 17 of the present embodiment perform the same operation as the out-of-home operation devices 4 and 5 if they are taken away from the consumers 10a to 10c. An operation request 60 can be transmitted to the HEMS controller 19 via the center 3 and the wide area network.

  In the present embodiment, the part of the HEMS controller 19 excluding the manual operation unit 192 and the display unit 193 corresponds to an example of the controller. Further, the calculation unit 195 functions as an example of an acquisition unit by executing step 110, functions as an example of a recording unit by executing step 130, and an example of a control command transmission unit by executing step 140. And functions as an example of a display control unit by executing steps 160 and 230.

(Other embodiments)
In addition, this invention is not limited to above-described embodiment, In the range described in the claim, it can change suitably. In addition, in the above embodiment, the elements constituting the embodiment are not necessarily essential unless explicitly stated as essential and clearly considered essential in principle. Needless to say. Further, in the above embodiment, when numerical values such as the number, numerical value, quantity, range, etc. of the constituent elements of the embodiment are mentioned, it is particularly limited to a specific number when clearly indicated as essential and in principle. The number is not limited to a specific number except for cases. In the above embodiment, when referring to the shape, positional relationship, etc. of components, the shape, position, etc., unless otherwise specified and in principle limited to a specific shape, positional relationship, etc. It is not limited to relationships. The present invention also allows the following modifications to the above embodiment. In addition, the following modifications can select application and non-application to the said embodiment each independently. In other words, any combination of the following modifications can be applied to the above-described embodiment.

(Modification 1)
In the above embodiment, when the operation devices 2, 4, 5, 16, 17 transmit the operation request 60, the identification information of the operation device included in the operation request 60 indicates that the operation device is operated with another operation device. The name of the operation source device can be distinguished from the device.

  However, the identification information of the operating device does not necessarily have to be like this. For example, the identification information of the operation device included in the operation request 60 may be that the operation device has transmitted the operation request 60 via the wide area communication network outside the consumer, or is not in the consumer without using the wide area communication network. It may be identification information for distinguishing whether the operation request 60 is transmitted via the LAN.

  For example, when the remote center 3 relays the operation request 60, the remote center 3 may add the name of the own device to the operation source device name 62 in response to the operation request 60 received from the outside operating devices 4, 5. The contents of the operation source device name 62 may be replaced with the name of the own device. Then, the remote center 3 transmits an operation request 60 after addition or replacement to the HEMS controller 19. In this case, the calculation unit 195 of the HEMS controller 19 that has received the operation request 60 records the operation request 60 in the operation history 191b in step 130.

  If it becomes like this, the said operation request 60 operating device will be the said operation request 60 via the said wide communication network outside a consumer by the operation origin apparatus name 62 in the record of the operation request 60 and the operation history 191b. Or whether the operation request 60 is transmitted via the LAN in the consumer without passing through the wide area communication network.

  Specifically, if the name of the CEMS server 2 or the name of the remote center 3 is included in the operation source device name 62, the operation device that is the transmission source of the operation request 60 is connected to the wide area communication network outside the customer. This means that the operation request 60 has been transmitted via. If neither the name of the CEMS server 2 nor the name of the remote center 3 is included in the operation source device name 62, the operation device that is the transmission source of the operation request 60 does not connect the LAN in the customer without using the wide area communication network. That is, the operation request 60 is transmitted.

(Modification 2)
In the above embodiment, the availability list 191a has a plurality of records, and each record has a set of operation source device name, operation target device name, and availability data. Yes. However, this is not necessarily the case.

  For example, the configuration of the availability list 191a may be simpler, having a plurality of records, and each record may have only one set of data on the name of the operation source device and availability. Good.

  Further, for example, the configuration of the availability list 191a may be more complicated. For example, the availability list 191a includes a plurality of records, and each record includes the name of the operation source device, the name of the operation target device, availability data, and the necessity of password. One set of data may be included. The password necessity data can be either “necessary” or “unnecessary”.

  For example, in a certain record, it is assumed that the name of the operation source device is A, the name of the operation target device is B, and the value of the password necessity data is “necessary”. Then, it is assumed that the HEMS controller 19 receives the operation request 60, the operation source device name 62 in the operation request 60 is A, and the operation target device name 63 is B. In this case, the calculation unit 195 of the HEMS controller 19 determines in step 120 whether or not a predetermined password is included in the operation request 60, and if it is included, the operation request can be accepted. If NO in step 130, it is determined that the operation request cannot be accepted, and the process returns to step 110. In the case where the operation request 60 includes a predetermined password, in the operation device that is the transmission source of the operation request 60, the user inputs the password using the manual operation unit 42, and the calculation unit 45 is based on the input. The password may be input to the operation request 60.

  Further, for example, in a record, it is assumed that the name of the operation source device is A, the name of the operation target device is B, and the value of the password necessity data is “unnecessary”. Then, it is assumed that the HEMS controller 19 receives the operation request 60, the operation source device name 62 in the operation request 60 is A, and the operation target device name 63 is B. In this case, the calculation unit 195 of the HEMS controller 19 determines in step 120 that the operation request can be accepted regardless of whether or not the predetermined password is included in the operation request 60 and proceeds to step 130. move on.

(Modification 3)
In the above-described embodiment, the calculation unit 195, in step 160 of FIG. 5, displays the name of the controlled device to which the control command is transmitted based on the operation request 60, as shown in FIG. 7, and the operating state of the controlled device. The operation device that is the transmission source of the operation request 60 is displayed on the display unit 193 of the own device.

  However, the calculation unit 195 of the HEMS controller 19 does not necessarily display this information on the display unit 193 of the own device. For example, instead of the display unit 193 of the own device, the above information may be displayed on the display unit 43 of the in-home operating device 16 or 17.

(Modification 4)
In addition to the above embodiment, the communication interface 194 of each HEMS controller 19 reads the operation history 191b recorded in the memory 191 of the own device when there is an input operation requesting the manual operation unit 192 to display the history. As shown in FIG. 9, a list may be displayed on the display unit 193.

(Modification 5)
In the above embodiment, the operation request 60 is created by a device other than the HEMS controller 19 and reaches the HEMS controller 19. However, the operation request 60 may be generated in the HEMS controller 19.

  For example, it is assumed that the user of the HEMS controller 19 performs an input operation using the manual operation unit 192. The contents of the input operation specify the name of one specific controlled device among the controlled devices 11 to 15 installed in the same consumer as the HEMS controller 19 and the operation content for the one controlled device. is there.

  Then, the calculation unit 195 creates an operation request 60 based on the name of the specific one controlled device specified by the input operation and the operation content for the one controlled device. Specifically, the current date and time is the generation date and time 61, and the operation source device name 62 is the device name assigned to the own device (manual operation unit 192 or HEMS controller 19). Further, the name of the specific one controlled device defined by the input operation and the operation contents for the one controlled device are referred to as an operation target device name 63 and an operation content 64, respectively. Then, an operation request 60 having the occurrence date and time 61, the operation source device name 62, the operation target device name 63, and the operation content 64 is created and recorded in the memory 191. As described above, the calculation unit 195 acquires the operation request 60 based on the information from the display unit 193.

  The subsequent steps are the same as those after step 120 in FIG. However, the “operation request 60” in steps 120 to 160 is the operation request 60 created and recorded by the calculation unit 195 by the input operation described above. Further, after step 160, the processing based on the input operation is terminated without performing the acceptance completion notification in step 170. In this case, the manual operation unit 192 corresponds to an example of the operation device.

2 CEMS server (operation device)
3 Remote center 4, 5 Outside operation device (operation device)
16, 17 In-home operation device (operation device)
10a to 10c Customer 191 Memory 191a Availability list 191b Operation history 192 Manual operation unit (operation device)
193 Display unit 195 Calculation unit

Claims (5)

A controller that is attached to a building (10a to 10c) and controls the operation of controlled devices (11 to 15) installed in the building,
A memory (191);
An arithmetic unit (195),
The computing unit is
An operation request (60) including an operation content (64) for the controlled device is acquired based on information from one operation device among a plurality of operation devices (2, 4, 5, 16, 17, 192). Acquisition means (110);
Recording means (130) for recording the operation history (191b) in the memory in association with the identification information of the one operation device and the operation content based on the acquisition means acquiring the operation request. ,
A control command transmitting means (140) for transmitting, to the controlled device, a control command for causing the controlled device to realize the operation content based on the acquisition means acquiring the operation request;
Display control means (230) for causing the display section (193, 43) to display the identification information of the one operation device and the operation content recorded in association with the operation history by the recording means. A controller characterized by.   The controller according to claim 1, wherein the identification information of the one operating device is identification information that can distinguish the one operating device from other operating devices.   The identification information of the one operation device distinguishes whether the calculation unit has acquired the operation request via the wide area communication network outside the building or whether the operation request has been acquired without using the wide area communication network. The controller according to claim 1, wherein the controller is identification information. The computing unit includes a availability list recording unit that records in the memory a availability list (191a) in which availability of acceptance of the operation request is set for one or more of the plurality of operating devices.
When the acquisition unit acquires the operation request, the recording unit associates the identification information of the one operating device with the operation content if the operation request can be accepted according to the availability list. Recorded in the operation history (191b) in the memory
The control command transmission unit causes the controlled device to realize the operation content if the acquisition unit acquires the operation request and the operation request can be accepted according to the availability list. The controller according to claim 1, wherein the controller is transmitted to the controlled device. A controller that is attached to a building (10a to 10c) and controls the operation of controlled devices (11 to 15) installed in the building,
A memory (191);
An arithmetic unit (195),
The computing unit is
An operation request (60) including an operation content (64) for the controlled device is acquired based on information from one operation device among a plurality of operation devices (2, 4, 5, 16, 17, 192). Acquisition means (110);
A control command transmitting means (140) for transmitting, to the controlled device, a control command for causing the controlled device to realize the operation content based on the acquisition means acquiring the operation request (60);
On the basis of the acquisition unit acquiring the operation request (60), the display control unit (193, 43) displays the identification information of the one operation device and the operation state of the controlled device. 160).

Images