JP2021158444A - Controller, apparatus control system, upload method, and program - Google Patents

Abstract

To avoid congestion of a shared wide-area communication line.SOLUTION: An apparatus state data collection section 200 collects apparatus state data from each of a plurality of apparatuses 4 installed in a multiple dwelling house having a shared Internet line, the apparatus state data showing an operational state of the apparatus 4. A number-of-at-home-dwelling-units acquisition section 202 acquires the number of at-home dwelling units of the multiple dwelling house, the number of dwelling units in which residents are at home. An upload section 204 uploads the collected apparatus state data on each apparatus 4 to a cloud server 6 via the Internet line when the acquired number of at-home dwelling units is equal to or smaller than a predetermined allowable number; and stops uploading the collected apparatus state data on each apparatus 4 when the number of at-home dwelling units exceeds the allowable number.SELECTED DRAWING: Figure 4

Description

The present disclosure relates to control devices, device control systems, upload methods and programs.

In recent years, various technologies related to a system capable of monitoring a device installed in a house by an operation terminal such as a smartphone or a tablet terminal or remotely controlling the device have been proposed (for example, Patent Document 1). Normally, in this type of system, data on the operating state of the device is periodically uploaded to the cloud server.

Japanese Unexamined Patent Publication No. 2016-11164

By the way, in apartments, condominiums, and other condominiums, wide-area communication lines such as one Internet line that is commonly used are drawn, and information devices that are not subject to remote control (for example, personal computers, smartphones, tablet terminals, televisions). ) Also generally communicates using the wide area communication line. Therefore, for example, when the number of dwelling units with home residents is large, such as at night or on holidays, if the periodic data upload to the cloud server as described above is executed, the wide area communication line is congested and the communication speed is increased. There is a risk of causing adverse effects such as reduction and delay.

The present disclosure has been made to solve the above problems, and an object of the present disclosure is to provide a control device or the like that enables congestion avoidance of a wide area communication line commonly used in an apartment house.

In order to achieve the above object, the control device according to the present disclosure is
It is a control device that controls a plurality of devices installed in an apartment house with a wide area communication line that is commonly used and communicates with an external server via the wide area communication line.
A device status data collecting means for collecting device status data indicating the operating status of the device from each of the plurality of devices, and a device status data collecting means.
A means for acquiring the number of home-based dwelling units, which is the number of dwelling units in the apartment house, and a means for acquiring the number of home-based dwelling units.
When the acquired number of home dwelling units is equal to or less than a predetermined allowable number, the device status data of each of the collected devices is uploaded to the external server via the wide area communication line, and the number of home dwelling units is the permissible number. If the number exceeds, the uploading means for stopping the uploading of the collected device status data of each device is provided.

According to the present disclosure, it is possible to avoid congestion of a wide area communication line commonly used in an apartment house.

The figure which shows the whole structure of the device control system in Embodiment 1. Block diagram showing the hardware configuration of the cloud server in the first embodiment A block diagram showing a hardware configuration of a control device according to the first embodiment. A block diagram showing a functional configuration of a control device according to the first embodiment. A flowchart showing the procedure of the upload process executed by the control device of the first embodiment. The figure which shows the whole structure of the device control system in Embodiment 2. A block diagram showing a functional configuration of the control device according to the second embodiment. The figure which shows the whole structure of the device control system in Embodiment 3. A block diagram showing a functional configuration of the control device according to the third embodiment.

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings.

(Embodiment 1)
FIG. 1 is a diagram showing an overall configuration of the device control system 1 according to the first embodiment of the present disclosure. The device control system 1 is a system for controlling and monitoring a plurality of devices 4 installed in a plurality of dwelling units in an apartment house H such as an apartment or a condominium. The device control system 1 includes a control device 2, a plurality of power measuring devices 3, a plurality of devices 4, a plurality of mobile terminals 5, and a cloud server 6.

The control device 2 is installed at an appropriate place in the apartment house H, and comprehensively controls a plurality of devices 4 installed in the apartment house H. In the present embodiment, the control device 2 is an energy management controller that constitutes a MEMS (Mansion Energy Management System) that manages the power of the housing complex H. The details of the control device 2 will be described later.

Each power measuring device 3 is installed in each of all the dwelling units of the apartment house H, and measures the power consumption of each dwelling unit. Each power measuring device 3 is provided with a wireless communication interface, and is communicably connected to the control device 2 via a wireless network constructed in the housing complex H (hereinafter, referred to as a housing complex network). Each power measuring device 3 may be connected to an apartment network via an external communication adapter (not shown).

In response to the request from the control device 2, each power measuring device 3 stores the device ID (identification) of its own device, the current time (meaning the measurement time), and the measured value of the electric energy consumption. The power data is transmitted to the control device 2. The device ID is an ID for identifying each power measuring device 3 and each device 4. Each power measuring device 3 may spontaneously transmit power data to the control device 2 at regular time intervals (for example, 1 minute intervals).

Each device 4 is, for example, an electric device such as an air conditioner, a lighting device, an IH (Induction Heating) cooker, a water heater, and an AI speaker. In the present embodiment, one or more devices 4 are installed in each of at least a part of all the dwelling units in the apartment house H. Each device 4 is communicably connected to the control device 2 via the above-mentioned collective housing network. In addition, all or a part of the devices 4 may be connected to the apartment building network via an external communication adapter (not shown).

The operating state of each device 4 is managed by the cloud server 6. As a result, the user of the dwelling unit in which the device 4 is installed can monitor the operating state of the device 4 or remotely control the device 4 via his / her own mobile terminal 5. In order to realize such a remote monitoring / control service, the details will be described later, but the cloud server 6 controls each device status data indicating the operating status of each device 4 in a predetermined cycle (for example, a 1-minute cycle). It needs to be collected via device 2.

Each mobile terminal 5 is, for example, a smart device such as a smartphone or a tablet terminal, which includes an input device such as a push button, a touch panel, and a touch pad, a display device such as an organic EL display and a liquid crystal display, and a communication interface. , Possessed by the user of the dwelling unit in which the device 4 is installed. The user who owns the mobile terminal 5 can monitor the operating state of the device 4 installed at home by operating the mobile terminal 5 regardless of whether it is inside or outside the home (that is, the user's dwelling unit). The device 4 can be made to perform a desired operation.

In the apartment house H, a plurality of information devices 7 are installed in addition to the control device 2, the plurality of power measurement devices 3, and the plurality of devices 4. Each information device 7 is an electric device having a function of data communication with another server or the like different from the cloud server 6 via the Internet, such as a personal computer, a tablet terminal, or a television. Each information device 7 is pulled by the apartment house H and connected to the Internet line 8 commonly used by each dwelling unit. The Internet line 8 is an example of a wide area communication line. In the present embodiment, one or a plurality of information devices 7 are installed in each of at least a part of all the dwelling units in the apartment house H.

The cloud server 6 is a server computer installed and operated by a manufacturer, a sales company, or the like of the device 4, and is connected to the Internet. The cloud server 6 is an example of an external server. As shown in FIG. 2, the cloud server 6 includes a communication interface 60, a CPU (Central Processing Unit) 61, a ROM (Read Only Memory) 62, a RAM (Random Access Memory) 63, and a secondary storage device 64. To be equipped. These components are connected to each other via a bus 65.

The communication interface 60 is an interface for connecting to the Internet and communicating with the control device 2 and each mobile terminal 5. The CPU 61 comprehensively controls the cloud server 6. The ROM 62 stores a plurality of firmwares and data used when executing these firmwares. The RAM 63 is used as a work area of the CPU 61.

The secondary storage device 64 is a large-capacity storage device including an EEPROM (Electrically Erasable Programmable Read-Only Memory), a readable / writable non-volatile semiconductor memory such as a flash memory, or an HDD (Hard Disk Drive). .. The secondary storage device 64 stores various programs including programs for realizing the remote monitoring / control service described above, and data used when executing these programs.

As shown in FIG. 3, the control device 2 includes a first communication interface 20, a second communication interface 21, a CPU 22, a ROM 23, a RAM 24, and a secondary storage device 25. These components are connected to each other via the bus 26. The first communication interface 20 is an interface for wireless communication with each power measuring device 3 and each device 4 via the above-mentioned apartment network. The second communication interface 21 is an interface for connecting to the Internet via the Internet line 8. The first communication interface 20 is an example of the first communication means, and the second communication interface 21 is an example of the second communication means.

The CPU 22 controls the control device 2 in an integrated manner. The details of the function of the control device 2 realized by the CPU 22 will be described later.

The ROM 23 stores a plurality of firmwares and data used when executing these firmwares. The RAM 24 is used as a work area of the CPU 22.

The secondary storage device 25 includes a readable and writable non-volatile semiconductor memory such as an EEPROM and a flash memory, or an HDD. The secondary storage device 25 stores a program for comprehensively controlling a plurality of devices 4 installed in the apartment house H (hereinafter referred to as a device control program) and data used when executing the device control program. do. In addition to this, the secondary storage device 25 stores one or a plurality of programs for managing the electric power consumed in the home and data used at the time of executing each program.

FIG. 4 is a block diagram showing a functional configuration of the control device 2. The control device 2 functionally includes a device state data collection unit 200, a power data collection unit 201, a home-based number acquisition unit 202, a suppression necessity determination unit 203, and an upload unit 204. These functional units are realized by the CPU 22 executing the above-mentioned device control program stored in the secondary storage device 25. It should be noted that these functions are characteristic functions of the control device 2 in the first embodiment, and the control device 2 is a general function provided in the conventional control device of this type, for example, a cloud server. It also has a function of controlling the device 4 according to the command from No. 6, a function of managing the electric power consumed in the housing complex H, and the like, but the description of these general functions will be omitted.

The device state data collecting unit 200 is an example of the device state data collecting means, and collects the device state data from each device 4. Specifically, the device state data collection unit 200 requests each device 4 to transmit the device state data at a predetermined cycle (for example, a 1-minute cycle). In response to such a request, each device 4 transmits device status data in which the device ID of the own device, the current time, and the operating state of the own device are stored to the control device 2. The device status data collecting unit 200 receives each device status data transmitted from each device 4, and stores each received device status data in the device status DB 250.

The device state DB 250 is a database for storing the history of device state data of each device 4, and is stored in the secondary storage device 25. In the device status DB 250, for example, the history of device status data for the past week of each device 4 is stored.

The electric power data collecting unit 201 is an example of the electric energy acquisition means. The electric power data collecting unit 201 collects electric power data from each electric power measuring device 3. Specifically, the power data collection unit 201 requests each power measurement device 3 to transmit power data at a predetermined cycle (for example, a 1-minute cycle). In response to such a request, each power measuring device 3 transmits power data in which the device ID of the own device, the current time, and the measured value of the power consumption amount are stored to the control device 2. The electric power data collecting unit 201 receives each electric power data transmitted from each electric power measuring device 3, and supplies each received electric power data to the home number of dwelling units acquisition unit 202.

The home-based number acquisition unit 202 is an example of a home-based number acquisition means, and acquires the number of home-based dwelling units, which is the number of dwelling units in which a home-based person is present in the housing complex H. Specifically, first, the home-based number acquisition unit 202 estimates the presence or absence of a home-based person in each dwelling unit based on the power consumption of each dwelling unit. Specifically, if the power consumption is equal to or greater than the predetermined standard power amount, it is estimated that there is a resident in the dwelling unit, and if the power consumption is less than the standard power amount, there is no resident in the dwelling unit. Presumed to be. Then, the home-based number acquisition unit 202 acquires the number of dwelling units estimated to have a home-based person as the number of home-based dwelling units. The home-based number acquisition unit 202 acquires the number of home-based dwelling units in a predetermined cycle (for example, a 1-minute cycle), and notifies the suppression necessity determination unit 203 of the acquired number of home-based dwelling units.

Based on the number of home-based dwelling units notified from the home-based dwelling unit number acquisition unit 202, the suppression necessity determination unit 203 determines the necessity of suppressing the amount of communication data, which is the amount of data uploaded to the cloud server 6 via the Internet line 8. judge. For example, the suppression necessity determination unit 203 determines that it is not necessary to suppress the amount of communication data when the number of home-based dwelling units is less than or equal to a predetermined allowable number, and when the number of home-based dwelling units exceeds the allowable number, the amount of communication data is suppressed. May be determined to be necessary.

Alternatively, the suppression necessity determination unit 203 determines that it is not necessary to suppress the amount of communication data when the ratio of the number of home-based dwelling units to all the dwelling units of the housing complex H is equal to or less than the predetermined tolerance, and the number of home-based dwelling units to all the dwelling units. If the ratio of the above exceeds the permissible rate, it may be determined that the amount of communication data needs to be suppressed. The suppression necessity determination unit 203 determines the suppression necessity of the communication data amount in a predetermined cycle (for example, a 1-minute cycle), and notifies the upload unit 204 of the determination result.

The upload unit 204 is an example of an upload means. When the upload unit 204 determines that it is not necessary to suppress the amount of communication data by the suppression necessity determination unit 203, the upload unit 204 uses the latest device status data of each device 4 read from the device status DB 250 as upload data via the Internet line 8. And upload it to the cloud server 6.

On the other hand, when the suppression necessity determination unit 203 determines that the communication data amount needs to be suppressed, the upload unit 204 stops uploading the upload data. That is, in this case, the upload unit 204 does not upload the upload data to the cloud server 6.

FIG. 5 is a flowchart showing the procedure of the upload process executed by the control device 2 of the present embodiment. The control device 2 executes the upload process at a predetermined cycle (for example, a 1-minute cycle).

In step S101, the device status data collecting unit 200 collects device status data from each device 4 installed in the apartment house H.

In step S102, the electric power data collecting unit 201 collects electric power data from each electric power measuring device 3 installed in the apartment house H.

In step S103, the home-based dwelling unit number acquisition unit 202 acquires the number of home-based dwelling units, which is the number of dwelling units in which the home-based dwelling units are present, by estimating the presence or absence of a home-based person in each dwelling unit from the power consumption of each dwelling unit.

In step S104, the suppression necessity determination unit 203 determines the suppression necessity of the communication data amount based on the number of home dwelling units. When it is determined by the suppression necessity determination unit 203 that the suppression of the communication data amount is not necessary (step S104; NO), the upload unit 204 executes the process of step S105. On the other hand, when the suppression necessity determination unit 203 determines that the communication data amount needs to be suppressed (step S104; YES), the control device 2 ends the upload process in this cycle. That is, in this cycle, the uploaded data is not uploaded to the cloud server 6.

In step S105, the upload unit 204 uploads the latest device status data of each device 4 read from the device status DB 250 to the cloud server 6 via the Internet line 8 as upload data. After that, the control device 2 ends the upload process in this cycle.

As described above, according to the device control system 1 of the first embodiment, the control device 2 uploads data to the cloud server 6 via the Internet line 8 based on the number of dwelling units in which the resident is present in the apartment house H. It is determined whether or not it is necessary to suppress the amount of communication data, which is the amount of. Then, when it is determined that it is necessary to suppress the amount of communication data, the control device 2 stops uploading the upload data to the cloud server 6 and suppresses the amount of communication data.

In a dwelling unit where a resident is present, there is a high possibility that an information device 7 that communicates via an Internet line 8 such as a personal computer, a tablet terminal, or a television is used. Therefore, if the number of dwelling units with home residents is large, the communication traffic of the Internet line 8 is expected to increase. In such a situation, if the periodic upload data is uploaded to the cloud server 6, the Internet line 8 may be congested due to the further increase in communication traffic, which may cause adverse effects such as a decrease in communication speed and a delay. ..

However, in the device control system 1 of the present embodiment, since the amount of communication data is suppressed as described above, it is possible to avoid the congestion of the Internet line 8 as described above.

In the above embodiment, the upload of the upload data (that is, the device status data of each device 4) is stopped as a means of suppressing the amount of communication data, but by lengthening the upload cycle (for example, the 1-minute cycle is 2). The cycle may be divided.), And the amount of communication data may be suppressed.

Further, the control device 2 may determine the presence or absence of a resident based on the detection result of the motion sensor installed in each dwelling unit, or lock or unlock the electronic lock provided on the entrance door of each dwelling unit. It may be determined by detecting.

Further, even if it is determined by the suppression necessity determination unit 203 that the amount of communication data needs to be suppressed, if at least one device 4 is installed in the dwelling unit where the resident is present, the relevant device 4 is applicable. Each device status data of all the devices 4 installed in the dwelling unit may be uploaded to the cloud server 6 at a normal cycle. By doing so, for example, it is possible to prevent adverse effects such as the person at home not being able to normally monitor the operating state of the device 4 or being unable to operate the device 4 via the mobile terminal 5. be able to.

Further, in the above embodiment, the upload unit 204 uploads the latest device status data of each device 4 read from the device status DB 250 to the cloud server 6 as upload data, but the upload cycle is from each device 4. If the cycle is longer than the cycle for collecting device status data, the device status data of each device 4 for a predetermined time may be uploaded to the cloud server 6 as upload data.

Further, when the suppression of the amount of communication data is released, the upload unit 204 may collectively transmit the device status data for which upload has been stopped to the cloud server 6.

Further, the suppression necessity determination unit 203 may determine the suppression necessity of the amount of communication data uploaded to the cloud server 6 based on the communication traffic on the Internet line 8 instead of the number of home dwelling units. In this case, the control device 2 includes a traffic measuring unit (not shown) that measures communication traffic on the Internet line 8. The traffic measuring unit is an example of a traffic measuring means.

In the above modification, when the communication traffic measured by the traffic measurement unit is equal to or less than the predetermined allowable amount, the suppression necessity determination unit 203 determines that the suppression of the communication data amount is not necessary. In this case, the upload unit 204 uploads the latest device status data of each device 4 read from the device status DB 250 to the cloud server 6 via the Internet line 8 as upload data. On the other hand, when the communication traffic measured by the traffic measurement unit exceeds the permissible amount, the suppression necessity determination unit 203 determines that the communication data amount needs to be suppressed. In this case, the upload unit 204 cancels the upload of the upload data or prolongs the upload cycle.

(Embodiment 2)
Subsequently, the second embodiment of the present disclosure will be described. In the following description, components and the like common to the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 6 is a diagram showing an overall configuration of the device control system 1A according to the second embodiment of the present disclosure. The device control system 1A includes a control device 2A, a plurality of power measuring devices 3, a plurality of devices 4, a plurality of mobile terminals 5, and a cloud server 6.

The hardware configuration of the control device 2A is the same as that of the control device 2 (see FIG. 3) of the first embodiment, but the functional configuration of the control device 2A is different from that of the control device 2 (see FIG. 4) of the first embodiment. .. As shown in FIG. 7, the control device 2A functionally includes a device state data collection unit 200, a power data collection unit 201A, an upload unit 204A, and a minimum time zone acquisition unit 205. These functional units execute a device control program in which the CPU 22 of the control device 2A is stored in the secondary storage device 25 to collectively control a plurality of devices 4 installed in the housing complex H. It will be realized.

The electric power data collecting unit 201A collects electric power data from each electric power measuring device 3 as in the electric power data collecting unit 201 of the first embodiment. The electric power data collecting unit 201A stores each collected electric power data in the electric power DB 251. The electric power DB 251 is a database for storing the history of each electric power data corresponding to each collected dwelling unit, and is stored in the secondary storage device 25. In the electric power DB 251 for example, the history of electric power data for the past one month is stored for each dwelling unit.

The minimum time zone acquisition unit 205 is an example of the minimum time zone acquisition means. The minimum time zone acquisition unit 205 acquires the minimum time zone, which is the time zone in which the number of dwelling units in the apartment house H (that is, the number of dwelling units at home) is the minimum. Specifically, the minimum time zone acquisition unit 205 acquires the minimum time zone based on the history of power data (that is, power consumption) for the past month of each dwelling unit stored in the power DB 251. The method of estimating the presence or absence of a home-based person based on the amount of power consumption is as described in the first embodiment. The minimum time zone acquisition unit 205 notifies the upload unit 204A of the acquired minimum time zone.

The upload unit 204A is an example of the upload means. The upload unit 204A uploads the device status data of each device 4 for the past day to the cloud server 6 as upload data in the minimum time zone notified by the minimum time zone acquisition unit 205. The upload unit 204A is initially set until the minimum time zone acquisition unit 205 notifies the first minimum time zone, that is, until one month has passed since the device control system 1A was introduced into the housing complex H. The above upload data is uploaded to the cloud server 6 at the time zone.

As described above, according to the device control system 1A of the second embodiment, the control device 2A is a time zone in which the number of dwelling units in the housing complex H is the minimum, and the device 4 for the past day is used. The device status data is uploaded to the cloud server 6 as upload data. Therefore, it is possible to avoid congestion of the Internet line 8.

The control device 2A may acquire the minimum time zone based on the history of the detection results of the motion sensor installed in each dwelling unit for the past one month, or the electronic lock provided on the entrance door of each dwelling unit. It may be acquired based on the detection result of locking and unlocking in the past one month.

(Embodiment 3)
Subsequently, the third embodiment of the present disclosure will be described. In the following description, components and the like common to the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 8 is a diagram showing an overall configuration of the device control system 1B according to the third embodiment of the present disclosure. The device control system 1B includes a control device 2B, a plurality of devices 4, a plurality of mobile terminals 5, and a cloud server 6.

The hardware configuration of the control device 2B is the same as that of the control device 2 (see FIG. 3) of the first embodiment, but the functional configuration of the control device 2B is different from that of the control device 2 (see FIG. 4) of the first embodiment. .. As shown in FIG. 9, the control device 2B functionally includes a device state data collection unit 200A, an upload unit 204B, and a grouping unit 206. These functional units execute a device control program in which the CPU 22 of the control device 2B is stored in the secondary storage device 25 to collectively control a plurality of devices 4 installed in the housing complex H. It will be realized.

The grouping unit 206 is an example of grouping means, and divides a plurality of devices 4 installed in an apartment house H into a plurality of groups. Specifically, the grouping unit 206 acquires information on all the devices 4 connected to the control device 2B at the time of starting up the device control system 1B (hereinafter, referred to as connected device information), and is based on the acquired connected device information. All the devices 4 are divided into a plurality of groups. The number of groups at that time is determined according to the number of connected devices 4. The grouping unit 206 randomly groups each group so that the number of devices 4 is about the same, and stores the grouping result in the grouping information table 252.

The grouping information table 252 is, for example, a data table in which the information for identifying the group and the device ID of the device 4 are associated with each other, and is stored in the secondary storage device 25.

The device state data collecting unit 200A is an example of the device state data collecting means. The device status data collection unit 200A collects device status data from each device 4 at different timings for each group with reference to the grouping information table 252, and stores the collected device status data for each group in the device status DB 250A for each group. Store. The cycle for collecting device state data is determined by, for example, the line speed of the Internet line 8, and is the same for each group.

Like the device state DB 250 of the first embodiment, the device state DB 250A is a database for storing the history of the device state data of each device 4. Further, the device status DB 250A has a configuration capable of managing the history of device status data of each device 4 for each group.

The upload unit 204B is an example of an upload means. The upload unit 204B refers to the grouping information table 252, reads the latest device status data from the device status DB 250A at different timings for each group, and uploads the latest device status data to the cloud server 6 as upload data. The upload cycle is the same for each group, and is the same as the cycle for collecting device status data.

As described above, according to the device control system 1B of the third embodiment, the control device 2B divides all the devices 4 in the housing complex H into a plurality of groups, and each device state periodically at a different timing for each group. The data is uploaded to the cloud server 6 as upload data. Therefore, the amount of data uploaded at the same timing can be reduced, and congestion of the Internet line 8 can be avoided.

The device state data collecting unit 200A collects device state data from each of all the devices 4 at the same timing as in the device state data collecting unit 200 of the first embodiment, and refers to the grouping information table 252. The collected device status data may be stored in the device status DB 250A for each group.

Further, the grouping unit 206 may group a plurality of devices 4 for each floor of the apartment house H.

The present disclosure is not limited to each of the above embodiments, and various modifications can be made without departing from the gist of the present disclosure.

For example, the present disclosure can also be applied to a building, in which case the control devices 2, 2A and 2B may be energy management controllers constituting a BEMS (Building Energy Management System).

Further, all or a part of the functional parts (see FIGS. 4, 7 and 9) of the control devices 2, 2A and 2B may be realized by dedicated hardware. Dedicated hardware is, for example, a single circuit, a composite circuit, a programmed processor, an ASIC (Application Specific Integrated Circuit), an FPGA (Field-Programmable Gate Array), or a combination thereof.

The device control program in each of the above embodiments includes a CD-ROM (Compact Disc Read Only Memory), a DVD (Digital Versatile Disc), a magneto-optical disc (Magneto-Optical Disc), a USB (Universal Serial Bus) memory, and a memory card. , It is also possible to store and distribute it in a computer-readable recording medium such as an HDD.

Further, even if the device control program is stored in a storage device of a server (not shown) on the Internet, the corresponding device control program is downloaded from the server to the control devices 2, 2A, and 2B, respectively. good.

1,1A, 1B device control system, 2,2A, 2B control device, 3 power measurement device, 4 device, 5 mobile terminal, 6 cloud server, 7 information device, 8 internet line, 20 1st communication interface, 21 2nd Communication interface, 22,61 CPU, 23,62 ROM, 24,63 RAM, 25,64 secondary storage device, 26,65 bus, 60 communication interface, 200,200A Equipment status data collection unit, 201,201A Power data collection Unit, 202 Home unit number acquisition unit, 203 Suppression necessity determination unit, 204, 204A, 204B Upload unit, 205 Minimum time zone acquisition unit, 206 grouping unit, 250, 250A Equipment status DB, 251 power DB, 252 grouping information table

Claims (10)

It is a control device that controls a plurality of devices installed in an apartment house with a wide area communication line that is commonly used and communicates with an external server via the wide area communication line.
A device status data collecting means for collecting device status data indicating the operating status of the device from each of the plurality of devices, and a device status data collecting means.
A means for acquiring the number of home-based dwelling units, which is the number of dwelling units in the apartment house, and a means for acquiring the number of home-based dwelling units.
When the acquired number of home dwelling units is equal to or less than a predetermined allowable number, the device status data of each of the collected devices is uploaded to the external server via the wide area communication line, and the number of home dwelling units is the permissible number. A control device comprising an uploading means for stopping the uploading of the device status data of each of the collected devices when the number exceeds. A first communication means for communicating with each of the plurality of devices via a network constructed in the apartment house, and
The control device according to claim 1, further comprising a second communication means for communicating with the external server via the wide area communication line. Further equipped with an electric energy acquisition means for acquiring the electric energy consumed by each dwelling unit of the apartment house,
The control device according to claim 1 or 2, wherein the home-based dwelling unit acquisition means acquires the number of home-based dwelling units based on the amount of electric power of each acquired dwelling unit. Even if the number of home-based dwelling units exceeds the permissible number, the uploading means may be used when one or more of the plurality of devices are installed in the dwelling unit where the resident is present. The control device according to any one of claims 1 to 3, wherein each device state data of the device is uploaded to the external server via the wide area communication line. It is a control device that controls a plurality of devices installed in an apartment house with a wide area communication line that is commonly used and communicates with an external server via the wide area communication line.
A device status data collecting means for collecting device status data indicating the operating status of the device from each of the plurality of devices, and a device status data collecting means.
A traffic measuring means for measuring communication traffic on the wide area communication line,
When the measured communication traffic is equal to or less than a predetermined allowable amount, the collected device status data of each device is uploaded to the external server via the wide area communication line, and the communication traffic exceeds the allowable amount. In the case, a control device including an uploading means for stopping the uploading of the device status data of each of the collected devices. It is a control device that controls a plurality of devices installed in an apartment house with a wide area communication line that is commonly used and communicates with an external server via the wide area communication line.
A device status data collecting means for collecting device status data indicating the operating status of the device from each of the plurality of devices, and a device status data collecting means.
The minimum time zone acquisition means for acquiring the minimum time zone, which is the time zone in which the number of dwelling units with residents in the apartment house is the minimum,
A control device including an uploading means for uploading the collected device state data of each device to the external server via the wide area communication line in the acquired minimum time zone. It is a control device that controls a plurality of devices installed in an apartment house with a wide area communication line that is commonly used and communicates with an external server via the wide area communication line.
A grouping means for dividing the plurality of devices into a plurality of groups,
A device status data collecting means for collecting device status data indicating the operating status of the device from each of the plurality of devices, and a device status data collecting means.
A control device including an uploading means for uploading the collected device state data of each device to the external server via the wide area communication line at different timings for each group. A plurality of devices installed in an apartment house on which a wide area communication line used in common is drawn, a control device for controlling the plurality of devices, and an external server that communicates with the control device via the wide area communication line. Prepare,
The control device is
A device status data collecting means for collecting device status data indicating the operating status of the device from each of the plurality of devices, and a device status data collecting means.
A means for acquiring the number of home-based dwelling units, which is the number of dwelling units in the apartment house, and a means for acquiring the number of home-based dwelling units.
When the acquired number of home dwelling units is equal to or less than a predetermined allowable number, the device status data of each of the collected devices is uploaded to the external server via the wide area communication line, and the number of home dwelling units is the permissible number. A device control system comprising an uploading means for stopping the uploading of the device status data of each of the collected devices when the number exceeds. Device status data indicating the operating status of the device is collected from each of the multiple devices installed in the apartment house where the wide area communication line used in common is drawn.
Obtain the number of home-based dwelling units, which is the number of dwelling units with home-based residents in the above-mentioned apartment building.
When the number of home-based dwelling units acquired is less than or equal to a predetermined allowable number, the device status data of each device collected is uploaded to an external server via the wide area communication line.
An upload method for stopping the uploading of the device status data of each of the collected devices when the number of home-based dwelling units exceeds the permissible number. Computer,
A device status data collection means that collects device status data indicating the operating status of the device from each of a plurality of devices installed in an apartment house with a commonly used wide area communication line.
A means for acquiring the number of home-based dwelling units, which is the number of home-based dwelling units in the apartment house.
When the acquired number of home-based dwelling units is less than or equal to a predetermined allowable number, the device status data of each of the collected devices is uploaded to an external server via the wide-area communication line, and the number of home-based dwelling units determines the allowable number. A program that functions as an uploading means to stop uploading the device status data of each of the collected devices when the number exceeds the limit.

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