JP2018191097A - Remote control system and remote control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote control system capable of enhancing versatility against remote control of an external apparatus.SOLUTION: A smart plug 40 supplies electric power to an a-contact output device 50 when an energization instruction is received. The a-contact output device 50 starts on electric power supplied from the smart plug 40 and transmits an a-contact signal to an automatic door 60 as an operating signal.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a remote operation system and a remote operation method for remotely operating an external device, and more particularly to a remote operation system and a remote operation method for remotely operating an automatic door.

  In recent years, a technique for remotely operating an external device using a mobile terminal such as a smartphone has attracted attention. For example, Patent Document 1 discloses a technique for unlocking an electronic lock, which is an external device, using a mobile terminal. In this technique, when the mobile terminal reaches a position where it can be connected to a specific electronic lock, the mobile terminal establishes a connection with the electronic lock and transmits an unlock signal to the electronic lock.

JP 2017-014736 A

  However, the technique described in Patent Document 1 has a problem that the external device has a communication function that can communicate with the mobile terminal, and the versatility is low. For example, an automatic door provided at the entrance of a building such as a condominium or a public facility usually does not have a communication function, and the technique described in Patent Document 1 cannot be applied. In addition, since the automatic door provided at the entrance of the building is shared by people using the building, it is not easy to replace it with a special one having a communication function.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a remote operation system and a remote operation method capable of enhancing versatility for remote operation of an external device.

  A remote operation system according to the present invention is a remote operation system having an operation control device connected to an external device and a power control device connected to the operation control device, wherein the power control device is the operation control device. A receiving unit that receives an energization instruction for supplying power to the power supply, and a power control unit that supplies power to the operation control device when the receiving unit receives the energization instruction. It has an operation control part which starts with the electric power supplied from the power control device and transmits a drive signal to the external device.

  A remote operation method according to the present invention is a remote operation method by a remote operation system having an operation control device connected to an external device and a power control device connected to the operation control device, wherein the power control device includes: Receiving an energization instruction for supplying power to the operation control device; and, when the power control device receives the energization instruction, supplying power to the operation control device; and Starting with power supplied from the power control device, and transmitting a drive signal to the external device.

  According to the present invention, versatility for remote operation of an external device can be increased.

It is a lineblock diagram showing the whole remote control system composition concerning one embodiment of the present invention. It is a block diagram which shows the function structure of a management server. It is a block diagram which shows the function structure of a smart plug. It is a block diagram which shows the function structure of a contact output device. It is a sequence diagram for demonstrating the operation example of the remote control system which concerns on one Embodiment of this invention.

  Embodiments of the present invention will be described below with reference to the drawings. In addition, in each drawing, the same code | symbol is attached | subjected to what has the same function, and the description may be abbreviate | omitted.

<Configuration example of remote control system>
FIG. 1 is a configuration diagram showing the overall configuration of a remote control system according to an embodiment of the present invention. The remote operation system 1 illustrated in FIG. 1 includes a mobile terminal 10, a management server 20, a gateway 30, a smart plug 40, an a-contact output device 50, and an automatic door 60. The mobile terminal 10, the management server 20, and the gateway 30 are connected to be communicable with each other via the communication network 100. The communication network 100 includes, for example, the Internet and a mobile network. The smart plug 40 is communicably connected to the gateway 30 and is communicably connected to the management server 20 via the gateway 30.

  The mobile terminal 10 is a terminal device used by a user of the remote operation system 1. The mobile terminal 10 receives an operation instruction for an external device that is an operation target of the remote operation system 1 from a user. In the present embodiment, the external device is an automatic door 60, and the mobile terminal 10 receives an opening instruction for opening the automatic door 60 as an operation instruction. The mobile terminal 10 transmits the release instruction received from the user to the management server 20 via the communication network 100.

  The management server 20 is a management device that manages the remote operation system 1 and is operated by an administrator who manages the remote operation system 1.

  FIG. 2 is a block diagram showing a functional configuration of the management server 20. The management server 20 illustrated in FIG. 2 includes a communication unit 21 and a management unit 22.

  The communication unit 21 is communicably connected to the mobile terminal 10 and the gateway 30 via the communication network 100, and is further connected to be communicable with the smart plug 40 via the gateway 30. The communication unit 21 receives an opening instruction from the mobile terminal 10.

  The management unit 22 manages the entire management server 20. For example, when the communication unit 21 receives an opening instruction, the management unit 22 transmits an energization instruction for supplying power to the a-contact output device 50 to the smart plug 40. In addition, the management unit 22 transmits to the smart plug 40 an energization release instruction for stopping the supply of power to the a-contact output device 50 a predetermined time after transmitting the energization instruction. The predetermined time is sufficient for the a-contact output device 50 to open the automatic door 60 as described later, and is several seconds, for example.

  Returning to the description of FIG. The gateway 30 is a terminal device of the communication network 100 and relays communication between the management server 20 and the smart plug 40.

  The smart plug 40 is a plug receptacle (outlet) having a communication function, and is a power control device that switches between supply and interruption of power to a connected target device. The target device is the a-contact output device 50 in the present embodiment.

  FIG. 3 is a block diagram showing a functional configuration of the smart plug 40. The smart plug 40 illustrated in FIG. 3 includes an input terminal 41, an output terminal 42, a switching unit 43, a communication unit 44, and a power control unit 45.

  The input terminal 41 is connected to a commercial power source (not shown). The input terminal 41 is supplied with power from a commercial power source. The output terminal 42 is connected to the a-contact output device 50 that is a supply target for supplying power. The switching unit 43 switches between connection and disconnection between the input terminal 41 and the output terminal 42. In the initial state, the switching unit 43 is disconnected from the input terminal 41 and the output terminal 42.

  The communication unit 44 is communicably connected to the management server 20 via the gateway 30 and the communication network 100. The communication unit 44 also functions as a receiving unit that receives an energization instruction and an energization release instruction from the management server 20.

  The power control unit 45 controls the entire smart plug 40. For example, when the communication unit 44 receives an energization instruction, the power control unit 45 supplies power to the a-contact output device 50 that is a supply target for supplying power. Specifically, the power control unit 45 uses the switching unit 43 to connect the input terminal 41 and the output terminal 42, so that power from the commercial power source is connected to the output terminal 42. To supply.

  Further, when the communication unit 44 receives an energization release instruction, the power control unit 45 stops supplying power to the a-contact output device 50. Specifically, the power control unit 45 uses the switching unit 43 to release the connection between the input terminal 41 and the output terminal 42, thereby stopping the supply of power to the a-contact output device 50.

  Returning to the description of FIG. The a-contact output device 50 is an operation control device that is connected to an automatic door 60 that is an external device in a communicable manner and controls the operation of the automatic door 60.

  FIG. 4 is a block diagram illustrating a functional configuration of the a-contact output device 50. The a-contact output device 50 illustrated in FIG. 4 includes a power input unit 51, a connection unit 52, and an operation control unit 53.

  The power input unit 51 is connected to the output terminal 42 of the smart plug 40 so as to be energized. When power is supplied from the output terminal 42, the power input unit 51 supplies the power to the operation control unit 53.

  The connection unit 52 is connected to the automatic door 60 so as to be communicable. In the present embodiment, the connection part 52 is connected to a contact control terminal provided in a general automatic door or the like. The a contact control terminal receives a drive signal for opening the automatic door, more specifically, an a contact signal that is a drive signal for turning on the a contact switch for opening and closing the automatic door 60. Input terminal.

  The operation control unit 53 controls the a contact output device 50 as a whole. For example, when power is supplied from the output terminal 42, the operation control unit 53 starts with the power and transmits an a contact signal to the automatic door 60 via the connection unit 52. The operation control unit 53 stops the transmission of the a contact signal after a specified time from the transmission of the a contact signal. The specified time is a time sufficient to open the automatic door 60, and is several hundred milliseconds, for example.

  Returning to the description of FIG. The automatic door 60 is an external device that is an operation target of the remote operation system 1. The automatic door 60 is normally locked, and when an a contact signal is input from the a contact output device 50, the a contact switch provided inside is turned on to unlock and open / close the automatic door 60. I do. Note that the automatic door 60 can normally perform the opening / closing operation even if the input of the a contact signal is stopped during the opening / closing operation. Therefore, a few hundred milliseconds is sufficient for the specified time.

<Operation example of remote control system>
FIG. 5 is a sequence diagram for explaining an operation example of the remote operation system 1.

  First, the mobile terminal 10 receives an opening instruction from the user of the remote operation system 1, and transmits the opening instruction to the management server 20 via the communication network 100 (step S501).

  When receiving the release instruction, the communication unit 21 of the management server 20 transmits the release instruction to the management unit 22. Upon receiving the release instruction, the management unit 22 transmits an energization instruction to the smart plug 40 via the communication unit 21, the communication network, and the gateway 30 (Step S502).

  When receiving the energization instruction, the communication unit 44 of the smart plug 40 transmits the energization instruction to the power control unit 45. The power control unit 45 uses the switching unit 43 to connect the input terminal 41 and the output terminal 42 so that the power from the commercial power supply is output to the a contact via the input terminal 41, the switching unit 43 and the output terminal 42. This is supplied to the device 50 (step S503).

  The power input unit 51 of the a-contact output device 50 supplies the power supplied from the smart plug 40 to the operation control unit 53. The operation control unit 53 is activated when power is supplied, and transmits an a contact signal to the automatic door 60 via the connection unit 52 (step S504).

  When receiving the a contact signal, the automatic door 60 unlocks and opens / closes (step S505). On the other hand, the operation control unit 53 of the a-contact output device 50 stops the transmission of the a-contact signal after a specified time after transmitting the a-contact signal (step S506).

  In step S502, the management unit 22 of the management server 20 transmits an energization release instruction to the smart plug 40 via the communication unit 21, the communication network, and the gateway 30 after a predetermined time from transmitting the energization instruction (step S502). S507). When receiving the energization cancellation instruction, the communication unit 44 of the smart plug 40 transmits the energization cancellation instruction to the power control unit 45. The power control unit 45 uses the switching unit 43 to release the connection between the input terminal 41 and the output terminal 42, thereby stopping the supply of power to the a-contact output device 50 (step S508).

  According to this embodiment described above, when the communication unit 44 of the smart plug 40 receives an energization instruction, the power control unit 45 supplies power to the a-contact output device 50. The operation control unit 53 of the a-contact output device 50 is activated by the power supplied from the smart plug 40 and transmits an a-contact signal as an operation signal to the automatic door 60. For this reason, even if the automatic door 60 that is an external device does not have a communication function for communicating with the mobile terminal 10 or the like, the automatic door 60 can be opened and closed externally. Therefore, it is possible to increase the versatility for remote operation of the external device.

  In the present embodiment, the power control device is the smart plug 40, and the power control unit 45 uses the switching unit 43 to connect the input terminal 41 and the output terminal 42, thereby supplying power from the commercial power source a Supply to contact output device. For this reason, electric power can be easily supplied to the a-contact output device 50.

  In the present embodiment, when the communication unit 21 of the management server 20 receives an operation instruction, the management unit 22 transmits an energization instruction to the smart plug 40. Therefore, the management server 20 can centrally manage the operation of the external device.

  In the present embodiment, the management unit 22 transmits an energization release instruction to the smart plug 40 after a predetermined time after transmitting the energization instruction. For this reason, even if a user does not perform special operation, since the remote operation system 1 can be returned to the state in which the operation | movement of an external device is possible, it becomes possible to improve the convenience.

  In the present embodiment, when the communication unit 21 of the management server 20 receives an operation instruction from the mobile terminal 10, the communication unit 21 transmits an energization instruction. For this reason, since the user can operate the external operation using the mobile terminal 10, the convenience can be improved.

  In each embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

  For example, in the above embodiment, the automatic door 60 is used as the external device. However, the external device is not limited to the automatic door, and may be another device such as a home appliance. Moreover, although the smart plug 40 that is a plug receiver having a communication function is used as the power control device, the power control device is not limited to the smart plug 40.

  The smart plug 40 is connected to the communication network 100 via the gateway 30, but may be directly connected to the communication network 100 without going through the gateway 30. Furthermore, the smart plug 40 and the a-contact output device 50 may be integrated, that is, housed in the same housing.

  In addition, one management server 20 may perform remote operation of a plurality of automatic doors 60 by managing a plurality of sets of smart plugs 40, a-contact output devices 50, and automatic doors 60. In this case, for example, the mobile terminal 10 transmits an opening instruction including identification information of the smart plug 40 (or the a contact output device 50 or the automatic door 60), and the management unit 22 of the management server 20 includes the opening instruction. The automatic door 60 is remotely operated by transmitting an energization instruction to the smart plug 40 corresponding to the identification information.

  One management server 20 may manage a plurality of types of external devices. Furthermore, a set of the smart plug 40 and the a-contact output device 50 may be connected to one external device. In this case, since a plurality of types of operation instructions can be input to one external device, it is possible to cause the external device to execute a plurality of types of operations.

DESCRIPTION OF SYMBOLS 1 Remote operation system 10 Mobile terminal 20 Management server 21 Communication part 22 Management part 30 Gateway 40 Smart plug 41 Input terminal 42 Output terminal 43 Switching part 44 Communication part 45 Power control part 50 A contact output device 51 Power input part 52 Connection part 53 Operation control unit 60 Automatic door

Claims (7)

A remote operation system having an operation control device connected to an external device and a power control device connected to the operation control device,
The power control device
A receiving unit that receives an energization instruction for supplying power to the operation control device;
A power control unit that supplies power to the operation control device when the receiving unit receives the energization instruction;
The said operation control apparatus is a remote control system which has an operation control part which starts with the electric power supplied from the said power control apparatus, and transmits a drive signal with respect to the said external device. The power control device
An input terminal to which power is supplied from a commercial power source;
An output terminal connected to the operation control device;
A switching unit that switches between connection and disconnection of the input terminal and the output terminal,
The remote control system according to claim 1, wherein the power control unit supplies power from the commercial power source to the operation control device by connecting the input terminal and the output terminal using the switching unit. . The external device is an automatic door;
The remote control system according to claim 1, wherein the drive signal is an a contact signal for opening the automatic door. The remote control system further includes a management device,
The management device
A communication unit for receiving an operation instruction for the external device;
The remote operation system according to claim 1, further comprising: a management unit that transmits the energization instruction to the power control device when the communication unit receives the operation instruction. The management device transmits an energization release instruction to stop energization to the operation control device to the power control device after a predetermined time after transmitting the energization instruction,
The receiving unit receives the energization release instruction,
The remote control system according to claim 4, wherein the power control unit stops supplying power to the operation control device when the receiving unit receives the energization release instruction.   The remote operation system according to claim 4 or 5, wherein the communication unit receives the operation instruction from a mobile terminal. A remote operation method by a remote operation system having an operation control device connected to an external device and a power control device connected to the operation control device,
The power control device receiving an energization instruction to supply power to the operation control device;
When the power control device receives the energization instruction, supplying power to the operation control device;
The operation control device includes a step of starting with power supplied from the power control device and transmitting a drive signal to the external device.

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