JP2020088733A - Power switch management server, switch control device and program - Google Patents

Abstract

To provide a remote distribution board power switch management system for temporary installation at a construction site, which can control each power switch from a free place.SOLUTION: In the remote distribution board power switch management system for temporary installation at a construction site, a power switch management server 10 includes: a communication unit 101 communicable with both one or more switch control devices 20 each controlling to switch on/off one or more power switches 41, and one or more portable devices 30 each transmitting an instruction for the remote control of each power switch 41; and a control unit 104 which, according to an instruction received from each portable device 30, transmits to each switch control device 20 a control signal to switch on/off the power switch 41.SELECTED DRAWING: Figure 1

Description

The present invention relates to a power switch management server that performs processing related to management of the on/off state of a power switch at a construction site, a switch control device that controls the power switch, and a computer program that executes those processing.

When power switches for lighting and others (construction site temporary distribution board remote power switch management system) are installed at multiple remote locations on a construction site, it is a great labor to manage on/off of each power switch manually. It costs. For example, it may take an hour or more to turn on or off all the power switches in the morning and evening. For this reason, there are cases where a power supply facility that allows centralized control and management of each power switch at one place in the facility is provided.

However, the power switch control system provided as a facility in the facility has a problem that each power switch cannot be centrally controlled from a free place such as a remote place away from the facility.

The present invention has been made in view of the above circumstances, and an object thereof is to control a power switch which can control each power switch from a free place, its program, and control the power switch according to a signal from such a server. To provide a switch control device and its program.
In addition, the power switches could not be grouped and managed.

The power switch management server according to the first aspect of the present invention is capable of communicating with one or more switch control devices that control on/off of one or more power switches, and transmits an instruction related to remote operation of the power switch. The communication unit includes a communication unit that can communicate with the mobile device described above, and a control unit that transmits a control signal for turning on and off the power switch to the switch control device according to an instruction received from the mobile device.
According to this configuration, when an instruction related to remote operation of one or more power switches is transmitted from the mobile device to the power switch management server, a control signal corresponding to the instruction is transmitted from the power switch management server to the one or more switch control devices. The power supply switch is controlled by the switch control device that is transmitted to the switch controller and receives the control signal. Therefore, it is possible to control ON/OFF of one or more power switches using a portable device from a free place.

Preferably, the control unit transmits a control signal for turning on/off each power switch belonging to the group to one or more switch control devices when receiving an instruction from the mobile device to collectively control the group of power switches. Based on the group control and the instruction received from the mobile device, it is determined whether or not the set time condition is satisfied, and if the condition is satisfied, a control signal for turning on or off one or more power switches is controlled by one or more switches. At least one of condition control for transmitting to the device is performed.

Preferably, the power switch management server has a storage unit that stores a power switch management table in which the on/off state of each power switch is registered, and the control unit switches a state notification signal for notifying the on/off state of the power switch. When received from the device, the on/off state of the power switch registered in the power switch management table is updated according to the on/off state of the power switch indicated by the state notification signal.

Preferably, when the control unit receives a request signal requesting information regarding the on/off state of one or more power switches from the portable device, the control unit acquires the information requested in the request signal from the power switch management table, Send to mobile device.

Preferably, the power switch management table includes position information associated with the identification information of the power switch, and when the control unit receives the position notification signal notifying the position of one mobile device, the position notification signal is received. If the position of the one portable device indicated by is included in the range specified in the position information registered in the power switch management table, the information about the power switch corresponding to the identification information associated with the position information is changed to the power switch. The information is transmitted to the one mobile device.

Preferably, the control unit, when transmitting the power switch information regarding the one or more power switches to one mobile device, acquires the information regarding the on/off state of the one or more power switches from the power switch management table, and acquires the acquired information. The power switch information including is transmitted.

Preferably, when the control unit sets the on/off state of the one or more power switches to a desired state in response to the instruction received from the mobile device, the on/off state registered in the power switch management table for the one or more power switches. And an on/off state set for the one or more power switches, and based on the result of the comparison, a power switch whose on/off state should be inverted is identified from the one or more power switches, and the identified. A control signal instructing to invert the on/off state of the power switch is transmitted to one or more switch control devices that control the specified power switch.

Preferably, when the control unit transmits a control signal instructing the inversion of the on/off state of the power switch to one switch control device, the control unit controls the on/off state of the power switch in a predetermined monitoring period after transmitting the control signal. When the reception of the status notification signal to be transmitted from the one switch control device is monitored due to the inversion, and the status notification signal to be transmitted from the one switch control device is not received in the monitoring period. , It is determined that the switch control device in question 1 has not responded to the control signal.

Preferably, the control unit determines that the on/off state of the power switch is inverted due to a factor other than the control signal when the state notification signal is received from the one switch control device during the period other than the monitoring period.

Preferably, when the control unit receives the state notification signal from the one switch control device during a period other than the monitoring period, the state notification signal includes manual operation information indicating that the on/off state of the power switch is inverted by the manual operation. If it is, it is determined that the on/off state of the power switch is reversed by manual operation. If the manual operation information is not included in the status notification signal, the on/off state of the power switch is reversed due to a factor other than manual operation. To determine.

A second aspect of the present invention relates to a program for causing one or more computers included in the power switch management server to function as a control unit.

A third aspect of the present invention is a switch control device that controls on/off of one or more power switches, and inputs a communication unit capable of communicating with a server and a status signal indicating an on/off state of one or more power switches. When a communication unit receives a control signal from an input unit, an output unit that outputs a drive signal for turning on and off one or more power switches, and a server that instructs to invert the on/off state of one power switch, It has a control part which outputs a drive signal which inverts the on/off state of the one power switch from an output part, and a storage part which memorizes a state signal inputted in an input part. The control unit repetitively inputs the status signal at the input unit, compares the input status signal with the status signal stored in the storage unit, and determines whether the input status signal and the stored status signal do not match. In this case, the stored state signal is updated by the input state signal, and a state notification signal indicating the on/off state of one or more power switches is generated based on the updated state signal, and the generated state notification signal is generated. Is transmitted from the communication unit to the server.

Preferably, the control unit causes a discrepancy between the number of times the drive signal is output from the output unit in response to the reception of the control signal and the state signal input from the input unit and the state signal stored in the storage unit. The difference with the number of times of mismatch occurrence is monitored, and if the number of times of mismatch occurrence is greater than the number of drive signal outputs, the communication unit sends a status notification signal including manual operation information indicating that the on/off status of the power switch is reversed by manual operation. To the server and reset the difference to zero.

A fourth aspect of the present invention relates to a program for causing one or more computers included in the switch control device to function as a control unit.

According to the present invention, each power switch can be controlled from a free place.

FIG. 1 is a diagram showing an example of the configuration of a construction site temporary distribution board remote power switch management system using the power switch management server according to the present embodiment. FIG. 2 is a diagram showing an example of the configuration of the power switch management server according to the present embodiment. FIG. 3 is a diagram for explaining the power switch management table. FIG. 4 is a diagram for explaining the group management table. FIG. 5 is a diagram for explaining the condition management table. FIG. 6 is a diagram showing a configuration example of the switch control device and the power switch system according to the present embodiment. FIG. 7 is a flowchart for explaining the processing of the power switch management server when transmitting a control signal to the switch control device. FIG. 8 is a flowchart for explaining an example of processing of the switch control device. FIG. 9 is a flowchart for explaining an example of processing of the power switch management server when a state notification signal is received from the switch control device. FIG. 10 is a flowchart for explaining an example of processing of the power switch management server when a request signal is received from the mobile device. FIG. 11 is a flowchart for explaining an example of processing when a position notification signal is received from a mobile device. FIG. 12 is a diagram showing an example of a screen display in the mobile device, and shows a screen display when controlling ON/OFF of each power switch. FIG. 13 is a diagram showing an example of a screen display on the portable device, and shows a screen display when the condition of the control pattern is set for one power switch. FIG. 14 is a diagram showing an example of a screen display on the mobile device, which shows a screen display when collectively controlling groups. FIG. 15 is a diagram showing an example of a screen display on the mobile device, showing a screen display according to position information.

Hereinafter, a construction site temporary distribution board remote power switch management system according to an embodiment of the present invention will be described.
FIG. 1 is a diagram showing a configuration example of a construction site temporary distribution board remote power switch management system using a power switch management server according to the present embodiment. The system illustrated in FIG. 1 includes a power switch management server 10, portable devices 30-1 and 30-2, switch control devices 20-1 and 20-2, and power switch systems 40-1 and 40-2. ..
The switch control devices 20-1 and 20-2 and the power switch systems 40-1 and 40-2 are installed, for example, at a construction site. These are, for example, full two-wire type.

In the system shown in FIG. 1, a plurality of power switch systems 40-1 and 40-2 (hereinafter sometimes referred to as “power switch system 40” without distinction) are provided in facilities such as buildings and factories. Is a system for controlling ON/OFF of the power switch 41 (see FIG. 6 described later) of the power switch 41 and constitutes a part of the facility related to the power system in the facility.

The switch control devices 20-1 and 20-2 (hereinafter, sometimes referred to as “switch control device 20” without distinction) turn on/off each power switch 41 of the power switch system 40 from the power switch management server 10. Is a device provided for controlling in accordance with the control signal. The switch control device 20 is attached to, for example, a switch operation panel provided on a wall of a room, and is connected to the power switch system 40. The switch control device 20 is connected to, for example, a base station 8 of a mobile communication network such as LTE (Long Term Evolution) or an access point of a wireless LAN by wireless communication, and a power switch management server via a network 9 such as the Internet. Communicate with 10.

The mobile devices 30-1 and 30-2 (hereinafter sometimes referred to as “mobile device 30” without distinction) are portable electronic devices such as a smart phone, a tablet, and a laptop computer, and the base station 8 And a wireless LAN access point or the like by wireless communication, and communicates with the power switch management server 10 via the network 9. From the power switch management server 10, the mobile device 30 transmits, to the power switch management server 10, processing for transmitting an instruction to turn on and off each power switch 41 to the power switch management server 10 in response to a user operation. It receives and displays on the screen.

Further, the mobile device 30 includes means for acquiring position information such as a GPS receiver, and has a function of periodically reporting the acquired position information to the power switch management server 10.

The power switch management server 10 has a function of communicating with the mobile device 30 and the switch control device 20 via the network 9 such as the Internet. The power switch management server 10 transmits from the switch control device 20 a process of transmitting a control signal for turning on/off the power switch 41 to the switch control device 20 in response to an instruction from the mobile device 30 and information regarding an on/off state of each power switch 41. The process of acquiring and transmitting to the mobile device 30 is performed.

Hereinafter, an example of a specific configuration of each device included in the system illustrated in FIG. 1 will be described with reference to FIGS. 2 to 6.

[Power switch management server 10]
FIG. 2 is a diagram showing an example of the configuration of the power switch management server 10 according to the present embodiment. The switch control device 20 illustrated in FIG. 1 includes a communication unit 101, a display device 102, an input device 103, a control unit 104, and a storage unit 105.

The communication unit 101 communicates with the switch control device 20 and the mobile device 30 via the network 9 such as the Internet. The communication unit 101 can communicate with one or more switch control devices 20 and also with one or more mobile devices 30. The communication unit 101 communicates with the switch control device 20 and the mobile device 30 using a communication protocol such as WebSocket.

The communication unit 101 may use a common communication circuit for communication with the switch control device 20 and communication with the mobile device 30, or may use a different communication circuit that is at least partially independent. Further, the communication unit 101 may use a common communication network for communication with the switch control device 20 and communication with the mobile device 30, or may use different communication networks at least a part of which is independent.

The display device 102 and the input device 103 are devices for a user interface used when a system administrator operates the power switch management server 10. The display device 102 includes, for example, a liquid crystal display or an organic EL display. The input device 103 includes, for example, a keyboard, a mouse, a touch panel, and the like.

The control unit 104 is a device that generally controls the overall processing of the power switch management server 10, and includes, for example, one or more computers that perform processing in accordance with the instruction code of the program stored in the storage unit 105. The storage unit 105 stores a computer program, data repeatedly used in the processing of the control unit 104 (a power switch management table 110, a group management table 120, a condition management table 130, etc., which will be described later), and temporary data during the processing. This is a device for storing variable data and the like that are commonly used. The storage unit 105 includes, for example, ROM, RAM, flash memory, hard disk, optical disk, and the like.

The control unit 104 performs on/off control and management of the on/off state of each power switch 41 based on the information registered in the power switch management table 110 stored in the storage unit 105. The power switch management table 110 includes records for power switch management registered for each power switch 41. One record corresponding to one power switch 41 includes switch identification information 111, switch registration information 112, position information 113, an on/off state 114, and status information 115, as shown in FIG. 3, for example.

The switch identification information 111 is information for identifying each power switch 41.
The switch registration information 112 includes an address on the network of the switch control device 20 that controls the power switch 41, information for designating the power switch 41 to be controlled to the switch control device 20, and the like.
The position information 113 is information referred to in a process described later that provides the mobile device 30 with information regarding a specific power switch 41 according to the geographical position of the mobile device 30, and is a range of positions (for example, a predetermined position). Information such as a range within a predetermined distance from the coordinates).
The on/off state 114 indicates whether the power switch 41 is in the on state or the off state.
The status information 115 indicates whether or not the power switch 41 can be controlled.

When the control unit 104 receives from the switch control device 20 a state notification signal for notifying the on/off state of the power switch 41, the control unit 104 is registered in the power switch management table 110 according to the on/off state of the power switch 41 indicated by the state notification signal. The information on the on/off state of the power switch 41 (on/off state 114) is updated.

Further, when the control unit 104 receives from the mobile device 30 a request signal requesting information regarding the on/off state of one or more power switches 41, the power switch management server 10 receives the information (on/off state 114) requested in the request signal. And transmits it to the requesting mobile device 30.

When the control unit 104 receives from the mobile device 30 an instruction related to the remote control of the power switch 41, the control unit 104 generates a control signal for turning on/off the power switch 41 according to the received instruction, and transmits the control signal to the switch control device 20. For example, the control unit 104 acquires from the power switch management table 110 the information (switch registration information 112) regarding the power switch 41 to be controlled in the instruction received from the mobile device 30, and sends the control signal based on the acquired information. To generate.

When the control unit 104 sets the on/off state of the one or more power switches 41 to a desired state according to the instruction received from the mobile device 30, the control unit 104 registers the one or more power switches 41 in the power switch management table 110. The on/off state 114 is compared with the on/off state set in the one or more power switches 41. Based on the result of this comparison, the control unit 104 specifies the power switch 41 whose on/off state should be reversed from the one or more power switches 41. Then, the control unit 104 transmits a control signal instructing to invert the on/off state of the specified power switch 41 to one or more switch control devices 20 that control the specified power switch 41.

For example, when the control unit 104 receives from the mobile device 30 an instruction to set the specific power switch 41 to “on”, the control unit 104 acquires the on/off state 114 registered in the power switch management table 110 for the specific power switch 41. To do. Then, when the acquired on/off state 114 indicates “off”, the control unit 104 transmits a control signal for inverting the on/off state of the specific power switch 41 from “off” to “on” to the switch control device 20. .. On the other hand, when the acquired on/off state 114 indicates “on”, the control unit 104 does not transmit the control signal instructing the inversion of the on/off state.

The control unit 104 controls ON/OFF of each power switch 41 according to an instruction received from the mobile device 30, and also performs “group control” to collectively control the plurality of power switches 41. When the control unit 104 receives, from the mobile device 30, an instruction of “group control” for collectively controlling a group of power switches 41, the control unit 104 outputs one or more control signals for turning on/off each power switch 41 belonging to the group. It is transmitted to the switch control device 20.

The control unit 104 performs group control based on the information registered in the group management table 120 stored in the storage unit 105. The group management table 120 includes a group management record for each group of power switches 41 to be controlled. One record corresponding to one group is, for example, as shown in FIG. 4, group identification information 121 for identifying each group, a group name 122, and belonging switch information indicating each power switch 41 belonging to the group. 123 and.

Further, the control unit 104 performs “condition control” for controlling on/off of the specific power switch 41 when a preset condition is satisfied. The control unit 104 determines whether a predetermined condition (for example, time) set in advance is satisfied based on the instruction received from the mobile device 30, and if the condition is satisfied, controls to turn on or off one or more power switches 41. The signal is transmitted to one or more switch control devices 20.

The control unit 104 performs condition control based on the information registered in the condition management table 130 stored in the storage unit 105. The condition management table 130 includes a condition management record for each set condition. One record corresponding to one condition is, for example, as shown in FIG. 5, condition identification information 131 for identifying each set condition, a condition name 132, and each power switch 41 to be controlled. Alternatively, the group/switch information 133 indicating a group and the condition content 134 are included.

Further, when the control unit 104 receives the position notification signal for notifying the position of the one switch control device 20, the position of the one portable device 20 indicated by the position notification signal and each registered in the power switch management table 110. The position information 113 (FIG. 3) of the power switch 41 is collated. When the position of the one mobile device 20 indicated by the position notification signal is included in the range specified in the position information 113 registered in the power switch management table 110, the control unit 104 is associated with this position information 113. Information about the power switch 41 corresponding to the switch identification information 111 is acquired from the power switch management table 110 and transmitted to the one portable device 20 as “power switch information”. For example, when the control unit 104 transmits the power switch information regarding the one or more power switches 41 to the one mobile device 20, the control unit 104 stores information regarding the on/off states of the one or more power switches 41 (on/off state 114). The power switch information is acquired from 110 and the power switch information including the acquired information is transmitted.

[Switch control device 20]
FIG. 6 is a diagram showing a configuration example of the switch control device 20 and the power switch system 40. The switch control device 20 illustrated in FIG. 6 includes a communication unit 201, interface units 203-1 and 203-2 (hereinafter, may be referred to as “interface unit 203” without distinction), and a control module 210-1. And 210-2 (hereinafter sometimes referred to as “control module 210” without distinction).

The communication unit 201 connects to a base station 8 of a mobile communication network such as LTE or an access point of a wireless LAN by wireless communication, and communicates with the power switch management server 10 via a network 9 such as the Internet.

The control module 210 is a device provided for each manual operation device 400 of the power switch system 40, which will be described later. The control module 210 is a device for inputting a status signal indicating the on/off state of the power switch 41 from the manual operation device 400, and the power switch 41. A process of outputting a drive signal for turning on and off to the manual operation device 400 is performed. The control module 210 is connected to the communication bus 202 such as RS485 via the interface unit 203, and exchanges signals with the communication unit 201 via the communication bus 202.

The control module 210 includes an input unit 211, an output unit 212, a control unit 213, and a storage unit 214 in the example of FIG. The input unit 211 inputs a state signal indicating the on/off state of one or more power switches 41 from the state output unit 401 of the manual operation device 400 described later. The output unit 212 outputs a drive signal for turning on and off the one or more power switches 41 to the operation input unit 402 of the manual operation device 400 described later.

The control unit 213 is a device that controls the overall processing of the control module 210, and includes, for example, one or more computers that execute processing according to the instruction code of the program stored in the storage unit 214. The storage unit 214 is a device that stores a computer program, data repeatedly used in the process of the control unit 213, variable data temporarily used in the process of the process, and the like. The storage unit 214 includes, for example, ROM, RAM, flash memory, and the like.

When the control unit 213 receives a control signal from the power switch management server 10 instructing to invert the on/off state of one power switch 41 in the communication unit 201 and inputs the control signal via the communication bus 202, A drive signal for inverting the on/off state of the one power switch 41 is output from the output unit 212. In addition, when the control unit 213 inputs a status signal (a signal indicating the on/off state of the power switch 41) to the input unit 211, the control unit 213 writes this as a recent status signal in the storage unit 214.

The control unit 213 repeatedly inputs the status signal at the input unit 211 and compares the input status signal with the latest status signal stored in the storage unit 214. When the state signal input in the input unit 211 and the latest state signal stored in the storage unit 214 do not match, the control unit 213 indicates the state in which the latest state signal stored in the storage unit 214 is input from the input unit 211. Update by signal. Further, in this case, the control unit 213 generates a state notification signal indicating the on/off state of the one or more power switches 41 based on the updated state signal, and the generated state notification signal is managed by the communication unit 201 from the power switch management unit. Send to the server 10.

[Power switch system 40]
The power switch system 40 shown in FIG. 6 includes manual operating devices 400-1 and 400-2 (hereinafter, sometimes referred to as “manual operating device 400” without distinction), a controller 420, and a switch driving device 430. -1 to 430-3 (hereinafter, sometimes referred to as "switch drive device 430" without distinction).

The manual operation device 400 is a device mounted on a switch operation panel provided on a wall of a room or the like. In the example of FIG. 6, a state output unit 401, an operation input unit 402, and a communication unit 403 are provided. Including. The state output unit 401 is a circuit that outputs a state signal regarding the on/off state of each power switch 41, and outputs, as a state signal, a signal that drives a light emitting element such as an LED according to the on/off state of the power switch 41, for example. The operation input unit 402 is a device for a user to perform an input operation, and includes a push button, a touch sensor, and the like. The output unit 212 of the control module 210 inputs a signal equivalent to the case where a push button or the like is operated in the operation input unit 402 to the circuit of the operation input unit 402. The communication unit 403 communicates with the controller 420 via the communication bus 410 (full two-wire system) to transmit the drive signal of each power switch 41 input in the operation input unit 402 to the controller 420 and each power source. A process of receiving a state signal indicating the on/off state of the switch 41 from the controller 420 and outputting the state signal to the state output unit 401 is performed.

The controller 420 controls communication on the communication bus 410. The controller 420 transmits the drive signal of the power switch 41 input in the operation input unit 402 of the manual operation device 400 to the switch drive device 430 that drives the power switch 41, and the drive state of each power switch 41 ( A process of transmitting the “on/off state” from the switch driving device 430 to the manual operation device 400 is performed.

The switch drive device 430 drives the power switch 41 (relay or the like) in response to a drive signal input from the communication bus 410, and outputs a state signal indicating the on/off state of each power switch 41 to the communication bus 410.

Here, the operation of the system according to this embodiment having the above-described configuration will be described with reference to FIGS. 7 to 11.

FIG. 7 is a flowchart for explaining processing of the power switch management server 10 when transmitting a control signal to the switch control device 20. The power switch management server 10 repeatedly executes the processing shown in FIG. 7.

The power switch management server 10 monitors an instruction from the mobile device 30 regarding on/off control of the power switch 41 (ST100) and also monitors whether or not the condition registered in the condition management table 130 (FIG. 5) is satisfied (ST105). ). When the instruction of the on/off control is received from the mobile device 30 (Yes in ST100) or when the condition registered in the condition management table 130 is satisfied (Yes in ST105), the power switch management server 10 controls the power switch to be controlled. 41, the on/off state 114 registered in the power switch management table 110 (FIG. 3) is compared with the on/off state set based on the instruction from the mobile device 30 or the condition content 134 of the condition management table 130 to determine the on/off state. The power switch 41 to be inverted is specified (ST110). Then, the power switch management server 10 transmits a control signal instructing to invert the on/off state of the specified power switch 41 to the switch control device 20 that controls the power switch 41 (ST115).

FIG. 8 is a flowchart for explaining an example of processing of the switch control device 20.
The control unit 213 of the switch control device 20 acquires a state signal indicating the on/off state of each power switch 41 at the input unit 211 and stores the state signal in the storage unit 214 as the latest state signal (ST205). When the latest status signal is stored in the storage unit 214, the control unit 213 generates a status notification signal based on the latest status signal (ST210) and transmits it from the communication unit 201 to the power switch management server 10 (ST230). .. After that, the control unit 213 shifts to the state monitoring mode in which the state signal is acquired by the input unit 211 and the process of comparing the acquired state signal with the latest state signal stored in the storage unit 214 is repeated (ST235). When the latest status signal stored in the storage unit 214 and the status signal acquired by the input unit 211 do not match (No in ST240), the control unit 213 proceeds to step ST205 described above and updates the latest status signal (ST205). ) And the transmission of the state notification signal (ST210, ST230), and then the state monitoring mode is returned again (ST235).

When the communication unit 201 receives a signal from the power switch management server 10 and the signal is input from the communication unit 201 to the interface unit 203 via the communication bus 202, the control unit 213 shifts to interrupt processing (ST250). .. When the signal received from the power switch management server 10 is a signal requesting notification of the on/off state (Yes in ST255), the control unit 213 proceeds to step ST205, and updates the latest status signal (ST205) and notifies the status. After transmitting the signals (ST210, ST230), the process returns to the state monitoring mode (ST235). When the signal received from the power switch management server 10 is the control signal for instructing the on/off control of the power switch 41 (Yes in ST260), the control unit 213 manually operates the drive signal corresponding to the control signal from the output unit 212. Output to the device 400 (ST265) and return to the state monitoring mode (ST235). When the signal received from the power switch management server 10 is another signal, the control unit 213 does not perform any processing and returns to the state monitoring mode (ST235).

FIG. 9 is a flowchart for explaining an example of processing of the power switch management server 10 when a state notification signal is received from the switch control device 20. The power switch management server 10 repeatedly executes the processing shown in FIG. When the state notification signal (ST210 in FIG. 8) notifying the on/off state of the power switch 41 is received from the switch control device 20 (Yes in ST300), the power switch management server 10 determines the power switch management table 110 for this power switch 41. The on/off state 114 registered in is updated (ST335).

FIG. 10 is a flowchart for explaining an example of processing of the power switch management server 10 when a request signal is received from the mobile device 30. The power switch management server 10 repeatedly executes the processing shown in FIG. When a request signal requesting information on the on/off state of one or more power switches 41 is received from the mobile device 30 (Yes in ST400), the power switch management server 10 sends the information (on/off state 114) requested in the request signal. It is acquired from the power switch management table 110 and transmitted to the requesting portable device 30 (ST405).

FIG. 11 is a flowchart for explaining an example of processing when a position notification signal is received from the mobile device 30. The power switch management server 10 repeatedly executes the processing shown in FIG. 11. When the position notification signal is received from the mobile device 30 (Yes in ST500), the power switch management server 10 determines the position of the mobile device 20 indicated by the received position notification signal and each power switch registered in the power switch management table 110. The position information 113 of 41 (FIG. 3) is collated. When the position of the mobile device 20 indicated by the position notification signal is included in the range specified in the position information 113 registered in the power switch management table 110 (Yes in ST505), the power switch management server 10 determines the position information 113. Information (on/off state 114, etc.) regarding the power switch 41 corresponding to the switch identification information 111 associated with is acquired from the power switch management table 110 and transmitted to the mobile device 20 as power switch information (ST510).

12 to 15 are diagrams illustrating examples of screen displays on the mobile device 30.
FIG. 12 shows an example of the screen 31 when remotely turning on/off eight power switches operated by one manual operation device 400. On the screen 31 shown in this example, on/off control of eight power switches in the operation panel (manual operation device 400) named “1F unloading” represented by the symbol “SW-1” is performed. The buttons represented by “ON” and “off” on the screen represent the on/off state of the power switch 41 registered in the power switch management server 10. By touching these buttons, a signal instructing on/off control is transmitted from the mobile device 30 to the power switch management server 10.

FIG. 13 shows a screen display when the condition of the control pattern is set for one power switch 41 in the screen display shown in FIG. For example, when the button “2” is touch-operated to set the power switch 41 with the number “2” in the screen display shown in FIG. 12, a window 310 opens, and the power switch 41 is turned on/off in the window 310. You can enter the time, day of the week, date, etc. It is also possible to register a plurality of patterns for one power switch 41.

FIG. 14 shows an example of a screen display when collectively controlling groups. In the example of FIG. 14, four registered groups are displayed. The groups can be collectively turned on/off by touching the buttons arranged on the left and right sides of the display of the group name. Further, by touching a button representing the group number, the power switch 41 forming the group can be set, and the on/off time condition can be set in the same manner as in FIG.

FIG. 15 shows an example of a screen display according to position information. When the position of the mobile device 30 acquired based on a GPS reception signal or the like falls within the setting range of the position information 113 registered in the power switch management table 110, information on the power switch 41 corresponding to the position information 113. Is transmitted from the power switch management server 10 to the mobile device 30 and displayed on the screen of the mobile device 30. In the example of FIG. 15, a column 331 showing information on the individual power switch 41 and a column 332 showing information on the group of the power switch 41 are displayed.

As described above, according to the present embodiment, when an instruction related to remote operation of one or more power switches 41 is transmitted from the mobile device 30 to the power switch management server 10, a control signal corresponding to the instruction is turned on. The switch management server 10 transmits the control signal to one or more switch control devices 20, and the switch control device 20 that receives the control signal controls ON/OFF of the power switch 41. Therefore, it is possible to control ON/OFF of one or more power switches 41 using the mobile device 30 from a free place.

The present invention is not limited to the above-described embodiments, but includes various variations.

In the above-described embodiment, the manual operation device 400 is capable of both manual operation by pressing a button or the like and remote operation by a control signal from the power switch management server 10. Therefore, in the modified examples described below, the control unit 104 of the power switch management server 10 determines the factor (manual operation, remote operation) that the on/off state of each power switch 41 has changed, and the status information of the power switch management table 110. You may register in 115.

For example, when the control unit 104 transmits a control signal instructing to invert the on/off state of the power switch 41 to one switch control device 20, the control unit 104 turns on/off the power switch 41 in a predetermined monitoring period after transmitting the control signal. The reception of the status notification signal to be transmitted from the one switch control device is monitored with the status being inverted. When the state notification signal to be transmitted from the one switch control device 20 is not received in the monitoring period, the control unit 104 determines that the one switch control device is unresponsive to the control signal, The determination result is registered in the status information 115 of the power switch management table 110.

Further, when the control unit 104 receives the state notification signal from the one switch control device 20 during the period other than the monitoring period, the control unit 104 determines that the on/off state of the power switch 41 is inverted due to a factor other than the control signal, and the determination result Is registered in the status information 115 of the power switch management table 110.

Further, when the control unit 104 receives the state notification signal from the one switch control device 20 during the period other than the monitoring period, the “manual operation information” indicating that the on/off state of the power switch 41 is inverted by the manual operation is the state. If it is included in the notification signal, it is determined that the on/off state of the power switch 41 is inverted by the manual operation, and if the manual operation information is not included in the status notification signal, the power switch 41 is caused by a factor other than the manual operation. It is determined that the on/off state of is reversed.

Here, the "manual operation information" is information added to the state notification signal based on the result of the control unit 213 of the switch control device 20 determining whether or not a manual operation is performed. The control unit 213 does not match the number of times the drive signal is output from the output unit 212 with the reception of the control signal, the state signal input from the input unit 211, and the latest state signal stored in the storage unit 214. The difference with the number of times of occurrence of inconsistency is monitored. When the number of times of occurrence of disagreement is larger than the number of times of output of the drive signal, since the on/off state is changed by the manual operation, the control unit 213 informs the manual operation information that the on/off state of the power switch 41 is reversed by the manual operation. A state notification signal including the above is generated and transmitted from the communication unit 201 to the power switch management server 10. Further, when the state notification signal including the manual operation information is transmitted, the difference between the number of times of mismatch occurrence and the number of times of driving signal output is reset to zero, and the monitoring of the difference is continued.

This makes it possible to determine that the change in the on/off state of the power switch 41 has occurred due to a factor other than manual operation or remote operation (for example, unauthorized access), notify the mobile device 30 of a warning, or log as a log. You can leave.

10... Power switch management server, 101... Communication unit, 102... Display device, 103... Input device, 104... Control unit, 105... Storage unit, 110... Power switch management table, 120... Group management table, 130... Condition management table , 20... Switch control device, 201... Communication unit, 202... Communication bus, 203... Interface unit, 210... Control module, 211... Input unit, 212... Output unit, 213... Control unit, 214... Storage unit, 30... Mobile phone Device, 31... Screen, 40... Power switch system, 41... Power switch, 400... Manual operation device, 401... Status output unit, 402... Operation input unit, 403... Communication unit, 410... Communication bus, 420... Controller, 430 ... switch drive device, 7... load, 8... base station, 9... network

The power switch management server of the present invention is capable of communicating with one or more switch control devices that control on/off of one or more power switches, and one or more portable devices that send instructions related to remote control of the power switches. When receiving from the mobile device the instruction for collectively controlling a group including a communicable communication unit and a plurality of power switches, the control signal for turning on/off each of the power switches belonging to the group is one or more. Based on the group control transmitted to the switch control device and the condition of the time set based on the instruction received from the portable device, it is determined whether or not the condition is satisfied, and if the condition is satisfied, one or more power switches are turned on. A control unit that performs at least one of condition control for transmitting the control signal to be turned on and off to one or more of the switch control devices, and a position associated with identification information of the power switch by registering an on/off state of each power switch. And a storage unit that stores a power switch management table including information, and the control unit indicates the status notification signal when receiving a status notification signal that notifies the on/off state of the power switch from the switch control device. Depending on the on/off state of the power switch, the on/off state of the power switch registered in the power switch management table is updated, and a request signal requesting information about the on/off state of one or more of the power switches from the portable device. When received, the information requested in the request signal is obtained from the power switch management table, transmitted to the requesting mobile device, and a position notification signal for notifying the position of one mobile device is received, If the position of the one portable device indicated by the position notification signal is included in the range specified in the position information registered in the power switch management table, it corresponds to the identification information associated with the position information. Information about the power switch is transmitted to the one portable device as power switch information.

Preferably, when transmitting the power switch information regarding the one or more power switches to the one mobile device, the control unit obtains information regarding the on/off state of the one or more power switches from the power switch management table. Then, the power switch information including the acquired information is transmitted.

Preferably, when the control unit sets the on/off state of one or more power switches to a desired state in response to the instruction received from the portable device, the power switch management table for the one or more power switches. The on/off state registered in the power switch is compared with the on/off state set in the one or more power switches, and the on/off state of the one or more power switches should be inverted based on the result of the comparison. And transmits the control signal instructing the inversion of the on/off state of the specified power switch to one or more switch control devices that control the specified power switch.

Preferably, when the control unit transmits the control signal instructing the inversion of the on/off state of the power switch to one of the switch control devices, in the predetermined monitoring period after transmitting the control signal, The reception of the status notification signal to be transmitted from the one switch control device in association with the inversion of the on/off state of the power switch is monitored, and the status notification signal to be transmitted from the one switch control device is monitored. If not received during the monitoring period, it is determined that the one switch control device has not responded to the control signal.

Preferably, when the control unit receives the state notification signal from one of the switch control devices during a period other than the monitoring period, it is determined that the on/off state of the power switch is inverted due to a factor other than the control signal. To do.

Preferably, the control unit, when receiving the state notification signal from one of the switch control devices during a period other than the monitoring period, manual operation information indicating that the on/off state of the power switch is reversed by a manual operation. Is included in the state notification signal, it is determined that the on/off state of the power switch is inverted by manual operation, and if the manual operation information is not included in the state notification signal, other than manual operation It is determined that the on/off state of the power switch is reversed due to the cause.

The program of the present invention causes one or more computers included in the power switch management server to function as the control unit.

A switch control device of the present invention is a switch control device for controlling on/off of one or more power switches, and inputs a communication unit capable of communicating with a server and a status signal indicating an on/off state of the one or more power switches. In the communication unit, an input unit, an output unit that outputs a drive signal for turning on and off the one or more power switches, and a control signal from the server that instructs to invert the on/off state of one of the power switches in the communication unit. When receiving, the control unit that outputs the drive signal that inverts the on/off state of the one power switch from the output unit, and the storage unit that stores the state signal input at the input unit, The control unit repeatedly inputs the status signal at the input unit, compares the input status signal with the status signal stored in the storage unit, and compares the input status signal with the stored status. When the signals do not match, the stored status signal is updated by the input status signal, and a status notification signal indicating the on/off status of the one or more power switches is generated based on the updated status signal. Then, the generated state notification signal is transmitted from the communication unit to the server, the number of times the drive signal is output from the output unit in response to the reception of the control signal, and the state input from the input unit. A difference between the signal and the number of times of occurrence of a mismatch between the status signal stored in the storage unit is monitored, and when the number of times of the mismatch occurs more than the number of times the drive signal is output, the power switch is turned on/off. Is transmitted by the manual operation to the server, the state notification signal including the manual operation information indicating that the difference has been inverted by the manual operation, and the difference is reset to zero.

The program of the present invention causes one or more computers included in the switch control device to function as the control unit.

Claims (14)

A communication unit that is capable of communicating with one or more switch control devices that control on/off of one or more power switches, and that is capable of communicating with one or more mobile devices that transmits an instruction related to remote control of the power switches;
A power switch management server comprising: a control unit that transmits a control signal for turning on and off the power switch to the switch control device in response to the instruction received from the portable device. The control unit is
When the instruction for collectively controlling a group of power switches is received from the portable device, the control signal for turning on/off each power switch belonging to the group is transmitted to one or more switch control devices. Group control,
as well as,
Based on the instruction received from the portable device, it is determined whether or not a condition for a set time is satisfied, and when the condition is satisfied, the control signal for turning on/off one or more power switches is set to one or more switches. The power switch management server according to claim 1, wherein the power switch management server performs at least one of condition control to be transmitted to the control device. A storage unit that stores a power switch management table in which the on/off state of each power switch is registered;
When the control unit receives a state notification signal notifying the on/off state of the power switch from the switch control device, the control unit registers in the power switch management table according to the on/off state of the power switch indicated by the state notification signal. The on/off state of the power switch
The power switch management server according to claim 2. When the control unit receives a request signal requesting information regarding the on/off state of one or more power switches from the portable device, the control unit acquires the information requested in the request signal from the power switch management table and requests the request source. To the portable device,
The power switch management server according to claim 3. The power switch management table includes position information associated with identification information of the power switch,
When the control unit receives a position notification signal for notifying the position of one of the mobile devices, the position information of the one mobile device indicated by the position notification signal is registered in the power switch management table. If it is included in the specified range, information about the power switch corresponding to the identification information associated with the position information is transmitted to the one mobile device as power switch information,
The power switch management server according to claim 4. When transmitting the power switch information regarding the one or more power switches to the one mobile device, the control unit acquires information regarding the on/off state of the one or more power switches from the power switch management table, and acquires the information. The power switch information including the information
The power switch management server according to claim 5. When the control unit sets the on/off state of one or more power switches to a desired state according to the instruction received from the portable device, the one or more power switches are registered in the power switch management table. An on/off state is compared with an on/off state set in the one or more power switches, and based on the result of the comparison, the power switch whose on/off state should be inverted is identified from the one or more power switches. Transmitting the control signal instructing to invert the on/off state of the specified power switch to one or more switch control devices that control the specified power switch;
The power switch management server according to any one of claims 3 to 6. The control unit is
When the control signal instructing to invert the on/off state of the power switch is transmitted to one of the switch control devices, the on/off state of the power switch is inverted in a predetermined monitoring period after transmitting the control signal. Accordingly, the reception of the status notification signal to be transmitted from the switch control device is monitored,
If the status notification signal to be transmitted from the one switch control device is not received in the monitoring period, it is determined that the one switch control device has not responded to the control signal.
The power switch management server according to claim 7. When the control unit receives the state notification signal from the one switch control device during a period other than the monitoring period, the control unit determines that the on/off state of the power switch is inverted due to a factor other than the control signal.
The power switch management server according to claim 8. When the control unit receives the state notification signal from one of the switch control devices during a period other than the monitoring period,
If manual operation information indicating that the on/off state of the power switch has been inverted by manual operation is included in the state notification signal, it is determined that the on/off state of the power switch has been inverted by manual operation,
If the manual operation information is not included in the state notification signal, it is determined that the on/off state of the power switch has been inverted due to a factor other than manual operation.
The power switch management server according to claim 9. A program for causing one or more computers of the power switch management server according to any one of claims 1 to 10 to function as the control unit. A switch control device for controlling on/off of one or more power switches,
A communication unit capable of communicating with the server,
An input unit for inputting a status signal indicating an on/off status of the one or more power switches;
An output unit that outputs a drive signal for turning on and off the one or more power switches;
When the communication unit receives a control signal from the server instructing to invert the on/off state of one power switch, the drive unit outputs the drive signal to invert the on/off state of the one power switch from the output unit. Control unit to
A storage unit that stores the state signal input at the input unit,
The control unit repeatedly inputs the state signal at the input unit, compares the input state signal with the state signal stored in the storage unit, and stores the input state signal and the stored state signal. When the status signals do not match, the stored status signal is updated with the input status signal, and a status notification signal indicating the on/off status of the one or more power switches is based on the updated status signal. Generate, and transmit the generated status notification signal from the communication unit to the server,
Switch control device. The control unit outputs the number of times the drive signal is output from the output unit in response to receiving the control signal, the state signal input from the input unit, and the state signal stored in the storage unit. The difference between the number of times of occurrence of mismatch and the number of times of mismatch occurrence is monitored, and when the number of times of mismatch occurrence is larger than the number of times the drive signal is output, manual operation information indicating that the on/off state of the power switch is inverted by manual operation is displayed. Transmitting the included status notification signal from the communication unit to the server and resetting the difference to zero;
The switch control device according to claim 12. A program for causing one or more computers of the switch control device according to claim 12 or 13 to function as the control unit.

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