JP2018170848A - Power device network construction program, power device network construction method, and home device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make a newly connected electric power device participate in a home network by a function such as a smart meter, simplify the registration operation or make the operation unnecessary, and facilitate the registration operation. SOLUTION: When a request for connection to a network is received from a newly installed power device, a request for controlling the power usage amount to a constant value is transmitted to an existing power device, and when a constant power usage amount is detected. A process of transmitting a request to start power use to the newly installed power device and transmitting identification information used for connection to the network to the newly installed power device when a change in power usage is detected Causes the computer to execute. [Selection diagram] Fig. 6

Description

  The present invention relates to a power equipment network construction program, a power equipment network construction method, and a home device.

  In order to save the amount of electric power used at home, a smart meter is installed instead of the conventional electric energy meter, and the display and control of the electric power consumption are being performed by a HEMS (Home Energy Management System) (for example, Patent Document 1). See ~ 3 etc.).

  In general, when using a HEMS, a consumer needs to register the power device in the HEMS when a new power device is introduced. The operation is difficult for general customers who have no special knowledge, and there is a possibility that an incorrect operation is performed, the operation is troublesome and postponed, or the operation is forgotten. As a result, proper control by HEMS is not performed.

  A technique for simplifying the registration operation has also been proposed (for example, Patent Document 3). However, it is necessary to install a new device having a function of detecting electric power in addition to the smart meter, and the introduction is not easy. .

WO2012 / 008104 JP 2011-150663 A JP 2011-150664 A

  As described above, there is a demand for simplification of registration operation by the customer and further elimination of the operation, but this has not been realized by functions of a standard smart meter or the like.

  In view of this, an object of one aspect is to make a newly connected power device participate in a home network by a function such as a smart meter, simplify the registration operation or eliminate the need for the operation, and facilitate the registration operation.

  In one form, when a request for connection to the network is received from a newly installed power device, a request to control the power usage is sent to an existing power device, and a constant power usage is detected. When transmitting a request to start power use to the newly installed power device and detecting a change in power consumption, the identification information used for connection to the network is transmitted to the newly installed power device. Have the computer execute the process.

  Registration operation can be facilitated.

It is a figure which shows the structural example of the system concerning one Embodiment. It is a figure which shows the hardware structural example of a smart meter. It is a figure which shows the function structural example of a smart meter. It is a figure which shows the hardware structural example of an electric power apparatus. It is a figure which shows the function structural example of an electric power apparatus. It is a sequence diagram which shows the process example of embodiment. It is a figure which shows the example of the state by which the electric power apparatus was newly connected. It is a figure which shows the example of the state by which the network connection request message was transmitted. It is a figure which shows the example of the state by which the electric power usage fixed request message was transmitted. It is a figure which shows the example of the state by which the power usage request message was transmitted to the new electric power apparatus. It is a figure which shows the example of the state which the new electric power apparatus started use of electric power. It is a figure which shows the example of the state by which network ID was notified to the new electric power apparatus. It is a figure which shows the example of the state by which the network was comprised. It is a flowchart which shows the process example at the time of the network connection request message reception of a smart meter. It is a flowchart which shows the process example of the electric power consumption fixed amount monitoring of a smart meter. It is a flowchart which shows the process example of the electric power usage amount change monitoring of a smart meter.

  In the following, preferred embodiments of the present invention will be described with reference to the drawings.

<Configuration>
FIG. 1 is a diagram illustrating a configuration example of a system according to an embodiment. In FIG. 1, a consumer's house 1 is provided with a smart meter 2, a distribution board 3, a plurality of power devices 4 </ b> A, 4 </ b> B, 4 </ b> C, ..., a near-field communication network 5, and a HEMS 6. ing. The smart meter 2 is a next-generation watt-hour meter that measures power digitally and has a communication function in the meter, unlike a conventional analog inductive watt-hour meter. One end is connected to the power line of the local infrastructure. The other end is connected to the distribution board 3. Power equipment 4 (4A, 4B, 4C,...) Includes air conditioners, televisions, refrigerators, home appliances such as washing machines, heat pump devices, solar power generation PCS (Power Conditioning System), storage batteries, PV (Photovoltaics), etc. Is included. The home short-range communication network 5 is a narrow-range network using Wi-SUN (Wireless Smart Utility Network), Bluetooth (registered trademark), PLC (Power Line Communication), or the like. The HEMS 6 is a management system for saving energy used at home, and has a function of displaying the amount of electricity used on a monitor screen or the like and controlling the power device 4.

  FIG. 2 is a diagram illustrating a hardware configuration example of the smart meter 2. In FIG. 2, the smart meter 2 includes an electric energy measuring device 21, a CPU (Central Processing Unit) 22, a flash memory 23, and a home short-range communication unit 24. The electric energy measuring device 21 has a function of measuring the electric energy passing through the electric power path. The CPU 22 has a function of executing predetermined information processing by executing a program stored in the flash memory 23. The program may be preinstalled in the flash memory 23, may be acquired via a recording medium, or may be acquired via a network. The home short-range communication unit 24 has a function of performing data communication with the power device 4 or the HEMS 6 via the home short-range communication network 5.

  FIG. 3 is a diagram showing an example of the functional configuration of the smart meter 2, which is realized on the hardware configuration shown in FIG. In FIG. 3, the smart meter 2 includes a power amount measuring unit 201 and a power amount counter 202 as smart meter function units, and also assigns a network ID to the newly connected power device 4 so that the network in the house can be used. A part for performing the process of participation is provided. That is, the smart meter 2 includes a time zone power amount calculation unit 203 and a time zone power amount storage unit 204. The smart meter 2 includes a home short-range communication unit 205, a network connection request reception unit 206, a measurement trigger determination unit 207, a power usage stabilization request transmission unit 208, a power amount monitoring unit 209, a power usage request transmission unit 210, and a network. ID transmission part 211 is provided.

  The power amount measuring unit 201 has a function of measuring the amount of power per unit time passing through the smart meter 2 between the power lead-in line and the distribution board 3. The power amount counter 202 has a function of counting the power amount from the measurement result of the power amount measuring unit 201 and the elapsed time.

  The time zone power amount calculation unit 203 has a function of calculating the power amount for each time zone of a predetermined time (for example, one minute) from the count value of the power amount counter 202. The time zone power amount storage unit 204 has a function of storing the calculation result of the time zone power amount calculation unit 203 in association with the time zone. The current power amount is the power amount of the latest time zone stored at the end of the time zone power amount storage unit 204.

  The home short-range communication unit 205 has a function of performing data communication with the power device 4 or the HEMS 6 via the home short-range communication network 5. The network connection request receiving unit 206 has a function of receiving a network connection request (network connection request message) from the newly connected power device 4 via the home short-range communication unit 205. The measurement opportunity determination unit 207 has a function of issuing an operation instruction to the power use stabilization request transmission unit 208 and the power amount monitoring unit 209 at a predetermined timing when the network connection request reception unit 206 receives the network connection request. Have.

  The power usage stabilization request transmission unit 208 has a function of transmitting a power usage stabilization request (power usage stabilization request message) to an existing power device 4 other than the newly connected power device 4. The power amount monitoring unit 209 monitors whether or not the power usage stabilization has succeeded after the power usage stabilization request is transmitted. If the power usage stabilization is successful, the power amount monitoring unit 209 issues an operation instruction to the power usage request transmission unit 210. Has the function to perform. The power amount monitoring unit 209 also has a function of monitoring whether or not there is a change in the power usage after the power usage request is transmitted. The power usage request transmitting unit 210 transmits a power usage request (power usage request message) to the newly connected power device 4 when the power amount monitoring unit 209 determines that the constant power usage has been successful. It has a function to do. The network ID transmission unit 211 becomes identification information used for participation in the home network for the newly connected power device 4 when the power amount monitoring unit 209 determines that there has been a change in power usage. It has a function of transmitting a network ID.

  FIG. 4 is a diagram illustrating a hardware configuration example of the power device 4 (4A, 4B, 4C,...). In FIG. 4, the power device 4 includes a power device unique function unit 41, a CPU 42, a flash memory 43, and an in-home short-range communication unit 44. The power device unique function unit 41 is a part that realizes a unique function as a power device. The CPU 42 has a function of executing predetermined information processing by executing a program stored in the flash memory 43. The program may be preinstalled in the flash memory 43, may be acquired via a recording medium, or may be acquired via a network. The home short-range communication unit 44 has a function of performing data communication with the smart meter 2, the HEMS 6, or another power device 4 via the home short-range communication network 5.

  FIG. 5 is a diagram illustrating a functional configuration example of the electric power device 4 and is realized on the hardware configuration illustrated in FIG. 4. In FIG. 5, the power device 4 includes a power device specific processing unit 401, a near-field communication unit 402, a network connection request transmission unit 403, a power usage stabilization request reception unit 404, a power usage request reception unit 405, and a network ID reception unit. 406 and a power usage control unit 407 are provided.

  The power device specific processing unit 401 is a part that executes processing specific to the power device. The home short-range communication unit 402 has a function of performing data communication with the smart meter 2, the HEMS 6, or another power device 4 via the home short-range communication network 5. The network connection request transmission unit 403 requests the smart meter 2 to connect to the network (network connection request message) when the power device specific processing unit 401 detects the connection to the power line due to the connection of the power plug to the outlet. It has the function to transmit. The power usage stabilization request receiving unit 404 has a function of receiving a power usage stabilization request (power usage stabilization request message) from the smart meter 2. The power usage request receiving unit 405 has a function of receiving a power usage request (power usage request message) from the smart meter 2. The network ID receiving unit 406 has a function of receiving a network ID from the smart meter 2 and storing it in an internal storage area. After being notified of the network ID, the home short-range communication unit 402 accompanies the network ID at the time of transmission and determines that the message is accompanied by the same network ID as that at the time of reception. Can participate. The power usage control unit 407 controls the power device specific processing unit 401 so that the power usage amount is constant over a certain period of time when the power usage stabilization request is received, and the power usage control unit 407 uses the power usage when the power usage request is received. It has a function of controlling the power device specific processing unit 401 to start.

<Operation>
FIG. 6 is a sequence diagram showing a processing example of the above embodiment. In FIG. 6, it is assumed that the power devices 4 </ b> A and 4 </ b> B have already been notified of the network ID and can join the common network together with the smart meter 2 and the HEMS 6. When the power device 4C is newly connected to the power line in this state, the network connection request transmission unit 403 of the power device 4C transmits a network connection request (step S101). At this point, the power device 4C does not have a network ID, and therefore transmits a network connection request by broadcast (broadcast) that does not accompany the network ID and does not identify the other party. In the network connection request, the network address of the power device 4C as the transmission source is added according to the communication protocol.

  FIG. 7 shows a state where a power plug of a new power device 4C not participating in the network is connected to an outlet in the house 1. Further, FIG. 8 shows a state in which the network connection request message from the power device 4C is received by the smart meter 2 in the house 1 and also by the smart meter in the neighboring house where short-range communication reaches. Although the operation triggered by the reception of the network connection request is started even in the neighboring house, there is no harmful effect because the subsequent power use amount is not fixed and the process ends in the middle.

  Returning to FIG. 6, in the smart meter 2, when the network connection request receiving unit 206 receives the network connection request, the power usage stabilization request transmission unit 208 transmits a power usage stabilization request according to the instruction of the measurement trigger determination unit 207 ( Steps S102 and S103). This request for constant power usage is transmitted by broadcast with a common network ID in the house. Since the power devices 4A and 4B already have the same network ID, the power usage stabilization request receiving unit 404 receives the power usage stabilization request, but the power device 4C does not receive the network ID because it does not have the network ID. FIG. 9 shows a state where the power usage stabilization request message from the smart meter 2 is received by the power devices 4A and 4B.

  Returning to FIG. 6, the power devices 4 </ b> A and 4 </ b> B that have received the power usage stabilization request enter a state in which the power usage amount is not changed over a predetermined time under the control of the power usage control unit 407 (steps S <b> 104 and S <b> 105).

  Next, in the smart meter 2, the power amount monitoring unit 209 starts monitoring the power usage amount according to an instruction from the measurement trigger determination unit 207 (step S106). Then, when the power amount monitoring unit 209 confirms the success of power usage stabilization (step S107), the power usage request transmission unit 210 transmits a power usage request to the power device 4C using the transmission source address of the network connection request. (Step S108). FIG. 10 shows a state where the power usage request message from the smart meter 2 is received by the power device 4C.

  Returning to FIG. 6, in the power device 4C, when the power usage request receiving unit 405 transmits a power usage request, the power usage control unit 407 controls to use power (eg, normal power on) (step S109). ). FIG. 11 shows a state where the power supply is turned on in the power device 4C.

  Returning to FIG. 6, in the smart meter 2, the power amount monitoring unit 209 starts monitoring the power consumption (step S110). When the power amount monitoring unit 209 detects a change (increase) in the power usage amount (step S111), the network ID transmission unit 211 transmits a network ID to the power device 4C using the transmission source address of the network connection request. (Step S112). That is, in the existing power devices 4A and 4B, the power device 4C is actually connected because there is an increase in power due to a power use request to the power device 4C in a state where the power amount does not vary due to the constant power usage. And a network ID is given. FIG. 12 shows a state in which the network ID is transmitted from the smart meter 2 to the power device 4C. FIG. 13 shows a state where the power ID 4C enables data communication via the same network as the existing power devices 4A and 4B, the smart meter 2 and the like due to the assignment of the network ID.

  Returning to FIG. 6, the power devices 4A and 4B resume the use of power in the normal state after a lapse of a certain time from the reception of the power use stabilization request (steps S113 and S114). The power devices 4A and 4B do not change the power usage over a certain period of time after receiving the power usage stabilization request, but do not change the power usage by receiving the power usage stabilization request. You may make it resume use of electric power, when a usage-quantization fixed cancellation request | requirement is received.

  As a result of the above processing, the newly connected power device 4C can perform data communication with the HEMS 6 using a common network ID in the house, so that necessary information can be automatically registered by an inquiry from the HEMS 6, and the user is troublesome. Freed from registration operations.

<Details of processing>
FIG. 14 is a flowchart showing a processing example when the smart meter 2 receives a network connection request message. In FIG. 14, when the smart meter 2 starts processing upon reception of a network connection request from the newly connected power device 4, the power usage stabilization request transmission unit 208 uses the power usage stabilization request transmission unit 208 according to an instruction from the measurement trigger determination unit 207. A request for stabilization is transmitted (step S211). This request for constant power usage is transmitted by broadcast with a common network ID in the house.

  Next, in response to an instruction from the measurement trigger determination unit 207, the smart meter 2 causes the power amount monitoring unit 209 to start monitoring the stabilization of the power usage (step S212), and when the stabilization has not been successful (step S213). NO) terminates the process.

When there is a power device that does not participate in the home wireless network in the consumer, there is a possibility that the power usage amount may not be constant even after transmission of the power usage stabilization request. The following can be considered as a workaround in such a case.
(1) Do not transmit a power usage request, and start again after transmitting a power usage stabilization request message after a while.
(2) The smart meter 2 monitors the time period in which the power usage is constant within one day, and starts again from the transmission of the power usage constant request in that time period.
(3) The process is continued even if the stabilization is not successful, and the power usage request is accompanied by the retry interval and the number of retries.

  In FIG. 14, when the stabilization is successful (YES in step S213), the power usage request transmission unit 210 transmits a power usage request to the newly connected power device 4 using the transmission source address of the network connection request. (Step S214).

  Next, in the smart meter 2, the power amount monitoring unit 209 starts monitoring the power usage amount (step S215), and if there is no change (increase) in the power amount (NO in step S216), the process ends.

  When there is a change (increase) in the amount of power (YES in step S216), the network ID transmission unit 211 transmits a network ID to the power device 4C using the transmission source address of the network connection request (step S217). Then, the process ends.

  FIG. 15 is a flowchart showing an example of processing for monitoring power consumption constant of the smart meter 2. In FIG. 15, when the process of monitoring the power usage amount is started, the power amount monitoring unit 209 clears the first and second counters to 0 (step S221).

  Next, the power amount monitoring unit 209 acquires the current power amount value P1 from the latest record of the time period power amount storage unit 204 and stores it in the memory (step S222).

  Next, the power amount monitoring unit 209 pauses for a certain time (for example, 1 second) (step S223), acquires the current power amount value from the latest record in the time zone power amount storage unit 204, and stores the power stored previously. Comparison is made with the quantity value P1 (step S224).

  Then, the power amount monitoring unit 209 determines whether or not the difference between the power amount values is equal to or less than a predetermined threshold value (step S225). If the difference is equal to or less than the threshold value (YES in step S225), the first counter is incremented (incremented). (Step S226).

  Next, the power amount monitoring unit 209 determines whether or not the first counter is equal to or greater than the specified value (step S227). If it is determined that the first counter is not equal to or greater than the specified value (NO in step S227), the power consumption monitoring unit 209 pauses for a certain time (step S223). ) Repeat the process. If the power amount monitoring unit 209 determines that the power amount is equal to or greater than the specified value (YES in step S227), the process ends as a successful stabilization.

  On the other hand, when the difference between the power amount values is not equal to or less than the specified threshold value (NO in step S225), the power amount monitoring unit 209 adds (increments) the second counter (step S228).

  Next, the power amount monitoring unit 209 determines whether or not the second counter is equal to or greater than the specified value (step S229). If it is determined that the second counter is not equal to or greater than the specified value (NO in step S229), the power consumption monitoring unit 209 pauses for a certain time (step S223). ) Repeat the process. If the power amount monitoring unit 209 determines that the power amount is equal to or greater than the specified value (YES in step S229), the power amount monitoring unit 209 ends the process as a failure to stabilize.

  FIG. 16 is a flowchart illustrating a processing example of power consumption change monitoring of the smart meter 2. In FIG. 16, when the process of monitoring the power usage amount is started, the power amount monitoring unit 209 clears the first and second counters to 0 (step S231).

  Next, the power amount monitoring unit 209 acquires the current power amount value P1 from the latest record of the time period power amount storage unit 204 and stores it on the memory (step S232).

  Next, the power amount monitoring unit 209 pauses for a certain time (for example, 1 second) (step S233), acquires the current power amount value from the latest record in the time zone power amount storage unit 204, and stores the power stored previously. Comparison is made with the quantity value P1 (step S234).

  Then, the power amount monitoring unit 209 determines whether or not the difference between the power amount values is equal to or less than a predetermined threshold value (step S235). If the difference is equal to or less than the threshold value (YES in step S235), the first counter is incremented (incremented). (Step S236).

  Next, the power amount monitoring unit 209 determines whether or not the first counter is greater than or equal to a specified value (step S237). ) Repeat the process. If the power amount monitoring unit 209 determines that the power amount is equal to or greater than the specified value (YES in step S237), the process ends as no change has been detected.

  On the other hand, when the difference between the power amount values is not equal to or less than the specified threshold value (NO in step S235), the power amount monitoring unit 209 adds (increments) the second counter (step S238).

  Next, the power amount monitoring unit 209 determines whether or not the second counter is equal to or greater than the specified value (step S239). If it is determined that the second counter is not equal to or greater than the specified value (NO in step S239), the power consumption monitoring unit 209 pauses for a certain time (step S233). ) Repeat the process. If the power amount monitoring unit 209 determines that the power amount is equal to or greater than the specified value (YES in step S239), the process is terminated as a change detection.

<Modification>
In the above-described embodiment, a case has been described in which the smart meter 2 receives a network connection request from the newly connected power device 4, and transmits a power usage stabilization request, a power usage request, and a network ID from the smart meter 2. . However, the configuration is not limited thereto, and for example, an information terminal such as a smartphone may receive a network connection request instead of the smart meter 2 and transmit a power usage stabilization request, a power usage request, and a network ID. . In this case, an information terminal such as a smartphone acquires information on the amount of power from the smart meter 2, and monitors power usage stabilization and changes in power usage.

<Summary>
As described above, according to the present embodiment, a newly connected power device can be joined to the home network by a function such as a smart meter, simplifying the registration operation or eliminating the need for the operation, thereby facilitating the registration operation. Can be.

  In the above, it demonstrated by preferred embodiment. While specific embodiments have been illustrated and described herein, it will be apparent that various modifications and changes may be made thereto without departing from the broad spirit and scope as defined in the claims. . That is, it should not be construed as being limited by the details of the specific examples and the accompanying drawings.

Regarding the above description, the following items are further disclosed.
(Appendix 1)
When a connection request to the network is received from a newly installed power device, a request to control the power consumption to a certain level is sent to the existing power device,
When a constant power consumption is detected, a request to start using the power is sent to the newly installed power device,
When a change in power usage is detected, the identification information used for connection to the network is transmitted to the newly installed power device.
A power equipment network construction program characterized by causing a computer to execute processing.
(Appendix 2)
The connection request to the network is transmitted by broadcast without the identification information.
The power equipment network construction program according to supplementary note 1, characterized by:
(Appendix 3)
The request to control the power consumption to be constant is transmitted by broadcast with the identification information,
A power device that has already been notified of the identification information responds.
The power equipment network construction program according to supplementary note 1, characterized by:
(Appendix 4)
The request to start using the power is transmitted with the transmission source of the connection request to the network as a destination.
The power equipment network construction program according to supplementary note 1, characterized by:
(Appendix 5)
The stabilization of the amount of power used is assumed to be constant when a certain number of times of constantity is confirmed with a pause for a certain period of time.
The power equipment network construction program according to supplementary note 1, characterized by:
(Appendix 6)
The change in the amount of power used is assumed to have changed when a predetermined number of changes have been confirmed with a certain period of pause.
The power equipment network construction program according to supplementary note 1, characterized by:
(Appendix 7)
When a connection request to the network is received from a newly installed power device, a request to control the power consumption to a certain level is sent to the existing power device,
When a constant power consumption is detected, a request to start using the power is sent to the newly installed power device,
When a change in power usage is detected, the identification information used for connection to the network is transmitted to the newly installed power device.
A power equipment network construction method, wherein a computer executes processing.
(Appendix 8)
The connection request to the network is transmitted by broadcast without the identification information.
The power equipment network construction method according to appendix 7, characterized by:
(Appendix 9)
The request to control the power consumption to be constant is transmitted by broadcast with the identification information,
A power device that has already been notified of the identification information responds.
The power equipment network construction method according to appendix 7, characterized by:
(Appendix 10)
The request to start using the power is transmitted with the transmission source of the connection request to the network as a destination.
The power equipment network construction method according to appendix 7, characterized by:
(Appendix 11)
The stabilization of the amount of power used is assumed to be constant when a certain number of times of constantity is confirmed with a pause for a certain period of time.
The power equipment network construction method according to appendix 7, characterized by:
(Appendix 12)
The change in the amount of power used is assumed to have changed when a predetermined number of changes have been confirmed with a certain period of pause.
The power equipment network construction method according to appendix 7, characterized by:
(Appendix 13)
When a connection request to the network is received from a newly installed power device, a request to control the power consumption to a certain level is sent to the existing power device,
When a constant power consumption is detected, a request to start using the power is sent to the newly installed power device,
When a change in power usage is detected, the identification information used for connection to the network is transmitted to the newly installed power device.
A home device having a function of executing processing.
(Appendix 14)
The connection request to the network is transmitted by broadcast without the identification information.
The in-home device according to Supplementary Note 13, wherein
(Appendix 15)
The request to control the power consumption to be constant is transmitted by broadcast with the identification information,
A power device that has already been notified of the identification information responds.
The in-home device according to Supplementary Note 13, wherein
(Appendix 16)
The request to start using the power is transmitted with the transmission source of the connection request to the network as a destination.
The in-home device according to Supplementary Note 13, wherein
(Appendix 17)
The stabilization of the amount of power used is assumed to be constant when a certain number of times of constantity is confirmed with a pause for a certain period of time.
The in-home device according to Supplementary Note 13, wherein
(Appendix 18)
The change in the amount of power used is assumed to have changed when a predetermined number of changes have been confirmed with a certain period of pause.
The in-home device according to Supplementary Note 13, wherein

1 Housing 2 Smart Meter 21 Energy Measuring Device 22 CPU
DESCRIPTION OF SYMBOLS 23 Flash memory 24 In-home short-distance communication unit 201 Electric energy measuring part 202 Electric energy counter 203 Time-zone electric energy calculation part 204 Time-zone electric energy storage part 205 In-home short-distance communication part 206 Network connection request receiving part 207 Measurement opportunity judgment part 208 Stabilization request transmission unit 209 Electric energy monitoring unit 210 Electric power use request transmission unit 211 Network ID transmission unit 3 Distribution board 4, 4A to 4C Power device 41 Power device specific function unit 42 CPU
43 Flash memory 44 Home near field communication unit 401 Power device specific processing unit 402 Home near field communication unit 403 Network connection request transmitting unit 404 Power use stabilization request receiving unit 405 Power use request receiving unit 406 Network ID receiving unit 407 Power use control Department 5 Home short-range communication network 6 HEMS

Claims (8)

When a connection request to the network is received from a newly installed power device, a request to control the power consumption to a certain level is sent to the existing power device,
When a constant power consumption is detected, a request to start using the power is sent to the newly installed power device,
When a change in power usage is detected, the identification information used for connection to the network is transmitted to the newly installed power device.
A power equipment network construction program characterized by causing a computer to execute processing. The connection request to the network is transmitted by broadcast without the identification information.
The electric power equipment network construction program according to claim 1 characterized by things. The request to control the power consumption to be constant is transmitted by broadcast with the identification information,
A power device that has already been notified of the identification information responds.
The electric power equipment network construction program according to claim 1 characterized by things. The request to start using the power is transmitted with the transmission source of the connection request to the network as a destination.
The electric power equipment network construction program according to claim 1 characterized by things. The stabilization of the amount of power used is assumed to be constant when a certain number of times of constantity is confirmed with a pause for a certain period of time.
The electric power equipment network construction program according to claim 1 characterized by things. The change in the amount of power used is assumed to have changed when a predetermined number of changes have been confirmed with a certain period of pause.
The electric power equipment network construction program according to claim 1 characterized by things. When a connection request to the network is received from a newly installed power device, a request to control the power consumption to a certain level is sent to the existing power device,
When a constant power consumption is detected, a request to start using the power is sent to the newly installed power device,
When a change in power usage is detected, the identification information used for connection to the network is transmitted to the newly installed power device.
A power equipment network construction method, wherein a computer executes processing. When a connection request to the network is received from a newly installed power device, a request to control the power consumption to a certain level is sent to the existing power device,
When a constant power consumption is detected, a request to start using the power is sent to the newly installed power device,
When a change in power usage is detected, the identification information used for connection to the network is transmitted to the newly installed power device.
A home device having a function of executing processing.

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