JP4696859B2 - Outlet control system - Google Patents

Description

  The present invention relates to an outlet control system, and more particularly to an outlet control system that performs remote control by power line carrier communication.

  2. Description of the Related Art Conventionally, there has been provided an outlet control system that can turn on or off the power supply to devices by remote control (remote control). In such an outlet control system, infrared communication or a telephone line is used. Many devices that perform remote control using ADSL or the like have been provided.

  However, when using ADSL, etc., in order to newly introduce ADSL, etc., construction for new wiring and construction for providing an outlet are required, and equipment is placed where there is a telephone jack. There was an inconvenience that the place to put the equipment was very limited.

  On the other hand, in recent years, there has been provided an outlet control system that performs remote control of a table tap by using power line communication (hereinafter referred to as “PLC”) for those using infrared communication or ADSL as described above. (For example, Patent Document 1), the outlet control system using the PLC has the following advantages.

That is, the PLC superimposes a high-frequency signal on the power line of a commercial AC power supply (generally 100V, 50/60 Hz), and performs bidirectional communication using the power line as a transmission line. It can be used, so there is no need for any new wiring work or installation work required for newly introducing broadband such as optical fiber or ADSL, and where there is an outlet. However, since information communication is possible, there is no need to place a device where there is a telephone jack like ADSL, and there is an advantage that there is no restriction on the place where the device is placed.
Japanese Patent Laid-Open No. 2002-75562 (FIGS. 1 and 3)

However, in the conventional outlet control system, when power is not supplied to the operating device side, a control signal cannot be transmitted to the connected device, and in this case, the operation of the connected device can be controlled. could not.

The present invention has been made in view of the above points, and an object of the present invention is to provide an outlet control system capable of controlling the operation of a connected device even when power is not supplied to the operating device .

In order to solve the above-mentioned problems, in the invention of the outlet control system according to the first aspect, the first power plug and a first transmission signal for transmitting the power line carrier communication to the power line via the first power plug. An operation power supply unit that provides an operating power to the first communication unit when it is detected that power is not supplied from the power line , and a second power plug, A power outlet connected to the power line through a second power plug, and a bypass for transmission signals provided between the second power plug and the power outlet, to which a control target device is connected. A second communication unit that receives the transmission signal transmitted from the first communication unit to the power line, and the outlet port from the power line according to the content of the transmission signal received by the second communication unit. Connected to When controlling the power supply to the device to be controlled and detecting that the power supply from the power line to the operating device is not performed according to the content of the transmission signal received by the second communication unit Includes a device connection device including a power control unit that turns off power supply to the device to be controlled, and the first communication unit is configured to turn off the device when operating power is supplied from the auxiliary power unit. The power control unit turns off the power supply to the device to be controlled when the second communication unit receives the transmission signal for device off. It has a function .

According to the invention of the outlet control system of claim 2, in addition to the configuration of claim 1, the first power plug of the operating device is connected to an outlet device provided on a power line and communicates with the operating device. The second power plug of the device connection apparatus is connected to an outlet device provided on the power line, and the first power plug of at least one other operation device is connected to the outlet port of the device connection apparatus. In addition, the second power plug of at least one other device connection device that communicates with the other operation device is connected to the outlet device of the power line .

  According to the present invention, the outlet control system can be installed simply by connecting the first power plug of the operating device and the second power plug of the device connecting device to the outlet device provided on the power line. Even if it is a general user who does not need complicated work such as address setting and does not have specialized knowledge, the outlet control system can be easily installed.

  Further, the present invention provides, for example, a method in which a first power plug of an operating device is connected to an outlet device provided on a power line, and a second power plug of a device connecting device that communicates with the operating device is provided on a power line. A first power plug of another operation device is connected to the outlet port of the device connection device, and a second power plug of another device connection device that communicates with the other operation device is connected to the outlet device of the device connection device. If connected to another outlet device provided on the power line, when the device connecting device is turned off by the operating device, power supply to the other operating device is not performed, and the other device connecting device is Since the operation device is turned off, the device connection device and the other device connection device can be turned off all at once by the operation device, thereby performing complicated work such as address setting. Even without I, only for connecting the power plug of the operating device and device connection device, an effect that one-to-N (N = 2,3,4, ...) can be easily installed corresponding outlet control systems.

(Embodiment 1)
As shown in FIG. 1, the outlet control system of the present embodiment is connected to, for example, an outlet device 3B provided on the power line PL, and various devices to be controlled (hereinafter referred to as lighting equipment, air conditioning equipment, AV equipment, etc. Simply referred to as “device”) is connected to the table tap 2A, which is a device connection device that supplies power from the power line PL, and the outlet device 3A provided on the power line PL, so that It has a remote controller (hereinafter abbreviated as “remote controller”) 1A which is electrically connected and is an operation device for remotely controlling the table tap 2A by the PLC.

  First, the remote controller 1A will be described. As shown in FIG. 1, the remote controller 1A includes a first power plug 10 that can be connected to the outlet devices 3A to 3D provided on the power line PL, and a PLC for the power line PL via the first power plug 10. First communication unit 11 that transmits a transmission signal (communication packet), communication control unit 12 that controls first communication unit 11, and detection of whether power is supplied from power line PL to remote controller 1A. A power detection unit 13 that performs power supply to the first remote control unit 12 and the communication control unit 12 when it is detected that power is not supplied from the power line PL to the remote controller 1A, An ID storage unit 15, an operation switch unit 16 for on / off control of the table tap 2A, and a display unit 17 for displaying the status of the table tap 2A are provided.

  Here, the power detection unit 13 detects whether or not power is supplied from the power line PL to the remote control 1A. If power is not supplied from the power line PL to the remote control 1A, the power detection unit 13 For example, a voltage detection circuit that detects a voltage of a current flowing between the first power plug 10 and the first communication unit 11 or a voltage obtained by the voltage detection circuit. This can be realized by using a comparison circuit or the like that determines whether or not the value exceeds a predetermined threshold value. In addition, when the power detection unit 13 detects that power is supplied from the power line PL to the remote control 1A after outputting the operation start signal, that is, when power supply is resumed, the power detection unit 13 sends an operation stop signal to the auxiliary power supply unit. 14 to output to 14.

  The auxiliary power supply unit 14 includes a battery (not shown) such as a primary battery, for example. When the operation start signal is received from the power detection unit 13, the first communication unit 11 and communication control are performed using the battery. When the operation power is supplied to the unit 12 and an operation stop signal is received from the power detection unit 13, the supply of the operation power to the first communication unit 11 and the communication control unit 12 is stopped. The auxiliary power supply unit 14 is configured to always supply an operating power to the power detection unit 13 in order to detect whether or not power is supplied from the power line PL to the remote controller 1A. The battery used in the auxiliary power supply unit 14 is not limited to a primary battery, but may be a secondary battery or a large-capacity capacitor that can be charged when power is supplied from the power line PL.

  The ID storage unit 15 is a storage device such as a RAM or a flash memory, and stores an ID number indicating the table tap 2A, an ID number indicating the remote controller 1A, and the like. The operation switch unit 16 is a manually switchable one such as a slide switch, toggle switch, push switch, and seesaw switch. An operation knob 16a for switching on / off the operation switch unit 16 is provided on the remote control 1A. It is exposed on the main body.

  The display unit 17 is for displaying on / off of power supply from the table tap 2A to the device. For example, the display unit 17 has one green light emitting diode (not shown), and the green light emitting diode is turned on / off. On / off of power supply from the table tap 2A to the device is displayed. As such a display unit 17, for example, a green light-emitting diode that displays that power supply from the table tap 2A to the device is turned on, and power supply from the table tap 2A to the device is turned off. And a red light emitting diode for indicating that the light is present. In addition, the light color of the light emitting diode is not limited to the above example, and various light colors may be used, and a neon lamp or the like may be used as the light source instead of the light emitting diode.

  The first communication unit 11 is for communicating with the table tap 2A by the PLC, and is a transmission composed of a high-frequency current on a power line PL through which a commercial alternating current (generally, a low-frequency current of 50 Hz / 60 Hz) flows. It has a transmission function for superimposing signals, a reception function for extracting a transmission signal from a current flowing through the power line PL using a high-pass filter (not shown), and the like. The first communication unit 11 is set to communicate with the second communication unit 24 of the table tap 2A described later in a one-to-one correspondence. For example, when transmitting a transmission signal, The ID number indicating the table tap 2A stored in the ID storage unit 15 is attached to the transmission signal and transmitted, and when receiving the transmission signal, the ID number indicating the remote control 1A stored in the ID storage unit 15 It is set to receive only transmission signals marked with.

  The communication control unit 12 has a function of controlling the first communication unit 11 and a function of controlling the display unit 17 in order to transmit a transmission signal to the table tap 2A. More specifically, when the operation switch unit 16 is turned on, the communication control unit 12 sends an ON signal, which is a device-on transmission signal that starts supplying power from the table tap 2A to the device, to the first communication unit 11. To the power line PL, and the green light emitting diode of the display unit 17 is turned on to display that the power supply from the table tap 2A to the device is on. Further, when the operation switch unit 16 is turned off, the communication control unit 12 sends an off signal, which is a transmission signal for turning off the device from the table tap 2A to the device, from the first communication unit 11 to the power line PL. And the green light emitting diode of the display unit 17 is turned off to indicate that the power supply from the table tap 2A to the device is off.

  In addition, the communication control unit 12 sends an off signal from the first communication unit 11 to the power line PL when the operation power is supplied from the auxiliary power supply unit 14 in the same manner as when the operation switch unit 16 is turned off. While transmitting, the green light emitting diode of the display part 17 is light-extinguished, and it is configured to display that the power supply from the table tap 2A to the device is off. As a result, the first communication unit 11 has a function of transmitting an off signal to the power line PL when operating power is supplied from the auxiliary power unit 14. Further, the communication control unit 12 is configured not to accept the operation by the operation switch unit 16 while the operation power is supplied from the auxiliary power unit 14.

  Next, the table tap 2A will be described. As shown in FIG. 1, the table tap 2 </ b> A is connected to the power line PL via the second power plug 20 that can be connected to the outlet devices 3 </ b> A to 3 </ b> D provided on the power line PL, and the second power plug 20. In addition, a plurality (six in this embodiment) of outlets 21 to which devices are connected, an opening / closing part 22 provided between the second power plug 20 and the outlets 21, and the opening / closing part 22 are arranged in parallel. Received by the second communication unit 24, the second communication unit 24 that receives the transmission signal transmitted from the first communication unit 11 of the remote control 1A to the power line PL, and the transmission signal bypass unit 23 When the second communication unit 24 receives an ON signal by controlling the power supply from the power line PL to the device connected to the outlet port 21 by controlling the open / close unit 22 according to the content of the transmission signal, the open / close unit 22 Close When the power supply to the device is turned on and the second communication unit 24 receives the off signal, the power control unit 25 opens the opening / closing unit 22 and turns off the power supply to the device, and the ID storage unit 26 is provided. ing.

  The opening / closing unit 22 is provided between the second power plug 20 and the outlet port 21 in order to turn on / off the power supply from the power line PL to the outlet port 21. For example, a relay (not shown) ) Etc. are used.

  The bypass unit 23 is provided to ensure a transmission signal path between the second power plug 20 and the outlet port 21 even when the power supply from the power line PL to the outlet port 21 is turned off by the opening / closing unit 22. For example, a high-pass filter (not shown) that cuts a commercial alternating current flowing through the power line PL and passes only a transmission signal composed of a high-frequency current is used.

  The second communication unit 24 is for communicating with the remote controller 1A through the PLC, and has the same transmission function and reception function as the first communication unit 11. The second communication unit 24 is set to communicate with the first communication unit 11 in a one-to-one correspondence. For example, when transmitting a transmission signal, the second communication unit 24 stores the transmission in the ID storage unit 26. The transmission signal with the ID number indicating the table tap 2A stored in the ID storage unit 26 when the transmission signal is transmitted with the ID number indicating the remote control 1A being transmitted. Is set to receive only.

  The power control unit 25 controls the opening / closing operation of the opening / closing unit 22. When the second communication unit 24 receives an ON signal, the power control unit 25 closes the opening / closing unit 22 and is connected to the outlet port 21 from the power line PL. When power supply to the connected device is turned on and the second communication unit 24 receives the off signal, the open / close unit 22 is opened to turn off the power supply to the device connected to the outlet port 21 from the power line PL. It is configured as follows.

  The ID storage unit 26 is a storage device such as a RAM or a flash memory, and stores an ID number indicating the table tap 2A, an ID number indicating the remote controller 1A, and the like as described above.

  The operation of the outlet control system will be described below. In the initial state, it is assumed that the operation switch unit 16 of the remote controller 1A is off and the opening / closing unit 22 of the table tap 2A is open (that is, no power is supplied to the device).

  When the operation switch unit 16 of the remote controller 1A is turned on from the above initial state, the communication control unit 12 transmits an on signal from the first communication unit 11 to the power line PL and turns on the green light emitting diode of the display unit 17. Then, it is displayed that the power supply from the table tap 2A to the device is on. In the table tap 2A, the second communication unit 24 receives the ON signal, and accordingly, the power control unit 25 closes the opening / closing unit 22 and supplies power to the device connected to the outlet port 21 from the power line PL. Is started.

  Thereafter, when the operation switch unit 16 of the remote controller 1A is turned off, the communication control unit 12 transmits an off signal from the first communication unit 11 to the power line PL and turns off the green light-emitting diode of the display unit 17 to turn on the table. It is displayed that the power supply from the tap 2A to the device is off. And in the table tap 2A, the 2nd communication part 24 receives an OFF signal, and the electric power control part 25 opens the opening / closing part 22 in connection with this, The electric power supply to the apparatus connected to the outlet port 21 from the power line PL Is stopped.

  According to such an outlet control system having the remote controller 1A and the table tap 2A, by manually operating the operation switch unit 16 of the remote controller 1A, the power supply to the device connected to the outlet port 21 of the table tap 2A is turned on. It can be controlled remotely.

  Further, by using a plurality of sets of remote controllers and table taps as described above, an outlet control system capable of collectively controlling the table taps can be configured. Hereinafter, such an outlet control system will be described with reference to FIG. Will be described with reference to FIG.

  As shown in FIG. 1, the outlet control system includes a remote controller (hereinafter referred to as “first remote controller”) 1A and a table tap corresponding to the remote controller 1A (hereinafter referred to as “first table tap”). In addition to 2A, second and third remote controllers 1B and 1C and second and third table taps 2B and 2C respectively corresponding to the second and third remote controllers 1B and 1C are provided. In addition, the first power plug 10 of the first remote controller 1A is connected to the outlet device 3A, and the second power plug 20 of the first table tap 2A is connected to the outlet device 3B. Further, the first power plug 10 of the second remote control 1B is connected to the outlet port 21 of the first table tap 2A, and the second power plug 20 of the second table tap 2B is connected to the outlet device 3C. . In addition, the first power plug 10 of the third remote controller 1C is connected to the outlet port 21 of the first table tap 2A, and the second power plug 20 of the third table tap 2C is connected to the outlet device 3D. Yes.

  Here, the second and third remote controllers 1B and 1C and the second and third table taps 2B and 2C have the same configurations as the first remote controller 1 and the first table tap 2A, respectively. However, the ID numbers stored in the respective ID storage units 15 and 26 are different, so that the first remote control 1A and the first table tap 2A, the second remote control 1B and the second table tap are different. Communication is performed only between 2B and the third remote controller 1C and the third table tap 2C.

  The operation of the outlet control system having the above three sets of remote controls and table taps will be described below. In the initial state, the operation switch unit 16 of each of the remote controllers 1A to 1C is off, and the open / close unit 22 of each of the table taps 2A to 2C is open (that is, power is not supplied to the device). And

  When the operation switch unit 16 of the first remote controller 1A is turned on from the above initial state, an ON signal is transmitted from the first remote controller 1A to the first table tap 2A, and the outlet port of the first table tap 2A. Power supply to the device connected to 21 is started.

  In this state, when the operation switch unit 16 of the second remote control 1B is turned on, an on signal is transmitted from the second remote control 1B to the second table tap 2B, and the outlet 21 of the second table tap 2B is transmitted. Power supply to the connected device is started. When the operation switch unit 16 of the second remote control 1B is turned off, an off signal is transmitted from the second remote control 1B to the second table tap 2B and connected to the outlet port 21 of the second table tap 2B. The power supply to the connected device is stopped. This operation is the same in the third remote controller 1C and the third table tap 2C.

  Here, when the operation switch unit 16 of the first remote controller 1A is turned off while the operation switch unit 16 of each of the remote controllers 1B and 1C is turned on, connection to the device connected to the outlet port 21 of the first table tap 2A is performed. Since the power supply is stopped, the power supply to each of the remote controllers 1B and 1C connected to the outlet port 21 of the first table tap 2A is stopped.

  When the power supply to the second remote controller 1B is stopped in this way, in the second remote controller 1B, the power detector 13 detects that power is not supplied from the power line PL to the remote controller 1B and operates. A start signal is output to the auxiliary power supply unit 14. Then, the auxiliary power supply unit 14 that has received the operation start signal supplies operation power to the first communication unit 11 and the communication control unit 12 using a battery. As a result, the communication control unit 12 transmits an off signal from the first communication unit 11 to the power line PL, turns off the green light-emitting diode of the display unit 17, and turns off the power supply from the table tap 2B to the device. Is displayed.

  As shown in FIG. 1, the OFF signal output from the first communication unit 11 in this way is the first power plug 10 of the second remote control 1B, the outlet port 21 of the first table tap 2A, the bypass. Part 23, the second power plug 20 of the first table tap 2A, the outlet device 3B, the power line PL, and the outlet device 3C to be transmitted to the second table tap 2B, whereby the second table tap 2B In addition, the power supply to the device connected to the outlet 21 is stopped.

  At this time, even if the operation switch unit 16 of the second remote controller 1B is turned on / off, the communication control unit 12 accepts the operation by the operation switch unit 16 while the operation power is supplied from the auxiliary power unit 14. Therefore, power supply from the second table tap 2B to the device cannot be turned on / off.

  The same operation is performed in the third remote controller 1C, and the power supply to the device connected to the outlet port 21 of the third table tap 2C is stopped.

  Thereafter, when the operation switch unit 16 of the first remote controller 1A is turned on, the power supply to the device connected to the outlet port 21 of the first table tap 2A is resumed, and accordingly, the remote controllers 1B and 1C are resumed. The power supply to will be resumed. In each of the remote controllers 1B and 1C, the power detection unit 13 detects that the power supply from the power line PL has been obtained, and outputs an operation stop signal to the auxiliary power supply unit 14, whereby the first power supply unit 14 outputs the first operation stop signal. The supply of operation power to the communication unit 11 and the communication control unit 12 is stopped, and the communication control unit 12 accepts the operation of the operation switch unit 16 again.

  Here, if the operation switch unit 16 of each of the remote controllers 1B and 1C is not operated after the operation switch unit 16 of the first remote control 1A is turned off, each operation switch unit 16 remains on. An ON signal is transmitted from each of the remote controllers 1B and 1C, whereby the power supply to the devices connected to the outlet ports 21 of the table taps 2B and 2C is resumed.

  In the outlet control system as described above, devices connected from the table taps 2A to 2C to the outlet ports 21 of the table taps 2A to 2C by turning on / off the operation switch unit 16 of the first remote controller 1A. The power supply to can be turned on / off collectively. Further, when the operation switch section 16 of the first remote controller 1A is turned on, the table taps 2B and 2C can be turned on / off by turning on / off the operation switch section 16 of each remote controller 1B, 1C. It has become.

  Therefore, according to the outlet control system of the present embodiment, the first power plug 10 of the remote controllers 1A to 1C is connected to the outlet devices 3A to 3D provided on the power line PL or the outlet ports 21 of the table taps 2A to 2C. In addition, since the outlet control system can be installed simply by connecting the second power plugs 20 of the table taps 2A to 2C to the outlet devices 3A to 3D, complicated operations such as address setting are not necessary. Even if it is a general user who does not have technical knowledge, there exists an effect that an outlet control system can be installed easily.

  Moreover, when the table taps 2A to 2C detect that the power is not supplied from the power line PL to the corresponding remote controllers 1A to 1C according to the content of the transmission signal received by the second communication unit 24, Since the power control unit 25 for stopping the power supply to the devices connected to the respective outlet ports 21 is provided, a table for connecting the first power plug 10 of the remote controller 1A to the outlet device 3A and communicating with the remote controller 1A. The second power plug 20 of the tap 2A is connected to the outlet device 3B, the first power plug 10 of another remote controller 1B, 1C is connected to the outlet port 21 of the table tap 2A, and the other remote controllers 1B, 1C are connected. If the second power plugs 20 of the table taps 2B and 2C that perform communication are connected to the outlet devices 3A to 3D, the remote controller 1A Therefore, it is possible to turn on / off collectively strip 2A-2C. As a result, according to the outlet control system of the present embodiment, one-to-N (N = 2, 3, 4) can be obtained by simply connecting the power plug of the remote control and the table tap without performing complicated operations such as address setting. , ...) It is possible to easily install a corresponding outlet control system.

(Embodiment 2)
The outlet control system of the present embodiment includes the table tap 5A and the remote controller 4A as in the first embodiment, but the configurations of the table tap 5A and the remote controller 4A are different from those of the first embodiment.

  First, the remote controller 4A will be described. As shown in FIG. 2, the remote control 4A includes a first power plug 40 connected to the outlet devices 3A to 3D provided on the power line PL, and a PLC for the power line PL via the first power plug 40. A first communication unit 41 for transmitting a transmission signal, a communication control unit 42 for controlling the first communication unit 41 to transmit the transmission signal from the first communication unit 41 to the power line PL at a constant period, and an ID Storage unit 43, operation switch unit 44 for on / off control of table tap 5A, display unit 45 for displaying state of table tap 5A, and cycle of a transmission signal transmitted from first communication unit 41 to power line PL And a cycle setting unit 46 for setting.

  Here, the ID storage unit 43 is a storage device such as a RAM or a flash memory, and stores an ID number indicating the table tap 5A, an ID number indicating the remote controller 4A, and the like. As the operation switch section 44, a manually operable one such as a slide switch is used in the same manner as the operation switch section 16, and an operation knob 44a for switching on / off of the operation switch section 44 is provided on the main body of the remote controller 4A. It is open to the public. The display unit 45 has one green light emitting diode as in the display unit 17 described above, and displays whether or not the power supply from the table tap 5A to the device is turned on by turning on / off the green light emitting diode. Is configured to do. The cycle setting unit 46 is for setting the cycle of a transmission signal transmitted from the first communication unit 41 to the power line PL, and includes a cycle input operation key (not shown) and the like.

  The first communication unit 41 is for communicating with the table tap 5A by the PLC, and has a transmission function, a reception function, and the like similar to those of the first communication unit 11 described above. The first communication unit 41 is set to communicate with a second communication unit 53 of a table tap 5A described later in a one-to-one correspondence. For example, when transmitting a transmission signal, The ID number indicating the table tap 5A stored in the ID storage unit 43 is attached to the transmission signal and transmitted, and when receiving the transmission signal, the ID number indicating the remote control 4A stored in the ID storage unit 43 It is set to receive only transmission signals marked with.

  The communication control unit 42 has a function of controlling the first communication unit 41 and a function of controlling the display unit 43 in order to transmit a transmission signal to the table tap 5A. Then, when the operation switch unit 44 is turned on, the communication control unit 42 sends a transmission signal from the first communication unit 41 to the power line PL to start the power supply from the table tap 5A to the device. 46 is transmitted at a constant cycle set in 46 (in other words, the first communication unit 41 causes the second communication unit 53 to perform polling), and the green light emitting diode of the display unit 45 is turned on to turn on the table tap 5A. Is configured to display that the power supply to the device is turned on. Here, the transmission signal is attached with period information set by the period setting unit 46. In addition, when the operation switch unit 44 is turned off, the communication control unit 42 stops transmission of the transmission signal from the first communication unit 41 to the power line PL, and turns off the green light emitting diode of the display unit 45. It is configured to display that the power supply from the tap 5A to the device is off.

  Next, the table tap 5A will be described. As shown in FIG. 2, the table tap 5 </ b> A is connected to the power line PL via the second power plug 50 connected to the outlet devices 3 </ b> A to 3 </ b> D provided on the power line PL, and the second power plug 50. In addition, a plurality (six in this embodiment) of outlets 51 to which devices are connected, an opening / closing part 52 provided between the second power plug 50 and the outlet 51, and the first of the remote controller 4A The second communication unit 53 that receives the transmission signal transmitted from the communication unit 41 to the power line PL, and the period set by the cycle setting unit 46 after the second communication unit 53 receives the transmission signal. When the next transmission signal is not received even after a lapse of time, the power control unit 54 that opens the opening / closing unit 52 to turn off the power supply to the device, the ID storage unit 55, and the timer unit 56 are provided. .

  The opening / closing unit 52 is provided between the second power plug 50 and the outlet port 51 in order to turn on / off the power supply from the power line PL to the outlet port 51. For example, a relay (not shown) ) Etc. are used. The ID storage unit 55 is a storage device such as a RAM or a flash memory, and stores an ID number indicating the table tap 5A, an ID number indicating the remote controller 4A, and the like.

  The timer unit 56 sets the count time based on the cycle information attached to the transmission signal (for example, sets the time exceeding the cycle set by the cycle setting unit 46), and the set signal of the power control unit 54 is input. When the set signal of the power control unit 54 is input again before the count time elapses, the count time is returned to the initial value and the count is started again, and again before the count time elapses. If the set signal 54 is not input, the elapsed signal is output to the power controller 54 after the count time has elapsed.

  The second communication unit 53 is for communicating with the remote controller 4A through the PLC, and has a transmission function, a reception function, and the like similar to those of the second communication unit 24 described above. The second communication unit 53 is set to communicate with the first communication unit 41 in a one-to-one correspondence. For example, when transmitting a transmission signal, the second communication unit 53 is stored in the ID storage unit 55. The transmission signal with the ID number indicating the table tap 5A stored in the ID storage unit 55 is received when the transmission signal is transmitted with the ID number indicating the remote control 4A being transmitted. Is set to receive only.

  The power control unit 54 controls the opening / closing operation of the opening / closing unit 52 according to the content of the transmission signal received by the second communication unit 53, and detects that the second communication unit 53 has received the transmission signal. Then, a set signal is output to the timer unit 56. When the second communication unit 53 detects again that the transmission signal has been received before receiving the progress signal from the timer unit 56, it outputs a set signal again to the timer unit 56 and closes the opening / closing unit 52 to thereby close the power line PL. Is turned on and the outlet 51 is turned on, and thereafter, the second communication unit 53 is configured to output a set signal to the timer unit 56 each time it detects that a transmission signal has been received. On the other hand, when the power control unit 54 receives a progress signal from the timer unit 56, the power control unit 54 is configured to open the opening / closing unit 52 to turn off the power supply from the power line PL to the outlet 51. In the above example, when the transmission signal is received again after the second communication unit 53 receives the transmission signal and before the progress signal is received from the timer unit 56, the opening / closing unit 52 is opened and power supply is started. However, instead of waiting for the second transmission signal, when the second communication unit 53 receives the first transmission signal, the power supply may be started by opening the opening / closing unit 52. .

  Therefore, as long as the transmission signal is transmitted from the first communication unit 41 to the power line PL in the cycle set by the cycle setting unit 46, the power control unit every time the second communication unit 53 receives the transmission signal. When the set signal is output from the timer unit 56 to the timer unit 56, no progress signal is output from the timer unit 56, so that the open / close unit 52 remains closed and the power line PL is connected to the outlet port 51. The power supply to is continued. On the other hand, when the transmission signal is not transmitted from the first communication unit 41 to the power line PL, the set signal is not output from the power control unit 54 to the timer unit 56 (the timer unit 56 is not reset by the power control unit 54). ). Therefore, a progress signal is output from the timer unit 56 to the power control unit 54, the power control unit 54 opens the opening / closing unit 52, and power supply to the device connected to the outlet port 51 from the power line PL is stopped. In other words, the power control unit 54 may pass the period exceeding the period after the second communication unit 53 receives the transmission signal depending on the content of the transmission signal received by the second communication unit 53 (the presence or absence of the transmission signal). When it is determined that the next transmission signal has not been received, it is considered that power is not being supplied from the power line PL to the remote control 4A, and the open / close unit 52 is opened to the device connected to the outlet 51 from the power line PL. The power supply is stopped.

  The operation of the outlet control system will be described below. In the initial state, it is assumed that the operation switch unit 44 of the remote controller 4A is off and the opening / closing unit 52 of the table tap 5A is open (that is, no power is supplied to the device).

  When the operation switch unit 44 of the remote controller 4A is turned on from the above initial state, the communication control unit 42 transmits the transmission signal from the first communication unit 41 to the power line PL at the cycle set by the cycle setting unit 46. The green light emitting diode of the display unit 45 is turned on. Then, in the table tap 5A, the transmission signal is received by the second communication unit 53, and accordingly, the power control unit 54 sets the timer unit 56, and before receiving the elapsed signal from the timer unit 56, the transmission signal is again transmitted. Is detected by the second communication unit 53, the timer unit 56 is reset and the opening / closing unit 52 is closed, whereby the power supply from the power line PL to the device connected to the outlet port 51 is started.

  Thereafter, when the operation switch unit 44 of the remote controller 4A is turned off, the communication control unit 42 causes the first communication unit 41 to stop transmitting the transmission signal and turns off the green light emitting diode of the display unit 45. Thus, when the transmission signal is not output from the first communication unit 41 to the power line PL, the power control unit 54 does not output the set signal to the timer unit 56 in the table tap 5A. A progress signal is output to the unit 54, whereby the power control unit 54 opens the opening / closing unit 52, and power supply from the power line PL to the device connected to the outlet port 51 is stopped.

  According to such an outlet control system having the remote controller 4A and the table tap 5A, by manually operating the operation switch unit 44 of the remote controller 4A, the power supply to the device connected to the outlet port 51 of the table tap 5A is turned on. It can be controlled remotely.

  Further, by using a plurality of sets of remote controllers and table taps as described above, an outlet control system capable of collectively controlling the table taps can be configured. Hereinafter, such an outlet control system will be described with reference to FIG. Will be described with reference to FIG.

  As shown in FIG. 2, the outlet control system includes a remote controller (hereinafter referred to as “first remote controller”) 4A and a table tap corresponding to the remote controller 4A (hereinafter referred to as “first table tap”). In addition to 5A, second and third remote controllers 4B and 4C and second and third table taps 5B and 5C respectively corresponding to the second and third remote controllers 4B and 4C are provided. The first power plug 40 of the first remote controller 4A is connected to the outlet device 3A, and the second power plug 50 of the first table tap 5A is connected to the outlet device 3B. In addition, the first power plug 40 of the second remote controller 4B is connected to the outlet port 51 of the first table tap 5A, and the second power plug 50 of the second table tap 5B is connected to the outlet device 3C. Yes. Further, the first power plug 40 of the third remote controller 4C is connected to the outlet 51 of the first table tap 5A, and the second power plug 50 of the third table tap 5C is connected to the outlet device 3D. .

  Here, the second and third remote controllers 4B and 4C and the second and third table taps 5B and 5C have the same configuration as the first remote controller 4A and the first table tap 5A described above, respectively. However, the ID numbers stored in the ID storage units 43 and 55 are different from each other, whereby the first remote controller 4A and the first table tap 5A, the second remote controller 4B and the second table tap 5B. Meanwhile, communication is performed only between the third remote controller 4C and the third table tap 5C. In this outlet control system, since the transmission signal is transmitted from the first communication unit 41 of each of the remote controllers 4A to 4C to the power line PL that is the transmission path at a constant cycle, such transmission signal is transmitted through the transmission path. The period setting unit 46 sets the period of each transmission signal so as not to be congested on a certain power line PL.

  The operation of the outlet control system having the above three sets of remote controls and table taps will be described below. In the initial state, the operation switch unit 44 of each of the remote controllers 4A to 4C is off, and the open / close unit 52 of each of the table taps 5A to 5C is open (that is, power is not supplied to the device). And

  When the operation switch unit 44 of the first remote controller 4A is turned on from the above initial state, a transmission signal is transmitted from the first remote controller 4A to the first table tap 5A at a constant period, and the first table tap 5A. The power supply to the device connected to the outlet port 51 is started.

  In this state, when the operation switch unit 44 of the second remote controller 4B is turned on, a transmission signal is transmitted from the second remote controller 4B to the second table tap 5B at a constant period, and the outlet of the second table tap 5B. The power supply to the device connected to the mouth 51 is started. When the operation switch unit 44 of the second remote controller 4B is turned off, the transmission signal is not transmitted from the second remote controller 4B to the second table tap 5B and is connected to the outlet 51 of the second table tap 5B. The power supply to the connected equipment is stopped. This operation is the same in the third remote controller 4C and the third table tap 5C.

  Here, when the operation switch unit 44 of the first remote controller 4A is turned off while the operation switch unit 44 of each of the remote controllers 4B and 4C is turned on, the connection to the device connected to the outlet port 51 of the first table tap 5A is performed. Since the power supply is stopped, the power supply to the remote controllers 4B and 4C connected to the outlet port 51 of the first table tap 5A is stopped.

  When the power supply to the second remote controller 4B is stopped in this way, the second remote controller 4B stops operating because the operating power supply cannot be obtained, thereby turning off the green light emitting diode of the display unit 45. At the same time, the transmission signal cannot be transmitted to the second table tap 5B, and as a result, the power supply to the device connected to the outlet port 51 of the second table tap 5B is stopped.

  At this time, even if the operation switch unit 44 of the second remote controller 4B is turned on / off, the operation power is not supplied to the communication control unit 42. Therefore, the power supply from the second table tap 5B to the device is turned on. / Cannot be turned off.

  Further, the same operation is performed in the third remote controller 4C, and power supply to the device connected to the outlet port 51 of the third table tap 5C is stopped.

  Thereafter, when the operation switch unit 44 of the first remote controller 4A is turned on, the power supply to the device connected to the outlet port 51 of the first table tap 5A is resumed, and accordingly, the remote controllers 4B and 4C are resumed. The power supply to will be resumed.

  Here, after the operation switch unit 44 of the first remote controller 4A is turned off, if the operation switch unit 44 of each of the remote controllers 4B and 4C is not operated, each operation switch unit 44 remains in the on position. From the remote controllers 4B and 4C, transmission signals are transmitted to the table taps 5B and 5C at a constant cycle, whereby the power supply to the devices connected to the outlets 51 of the table taps 5B and 5C is resumed.

  In the outlet control system as described above, power is supplied from the table taps 5A to 5C to the devices connected to the table taps 5A to 5C by turning on / off the operation switch unit 44 of the first remote controller 4A. Can be turned on / off in a batch. Further, when the operation switch unit 44 of the first remote controller 4A is turned on, the table taps 5B and 5C can be turned on / off by turning on / off the operation switch unit 44 of each remote controller 4B, 4C. It has become.

  Therefore, according to the outlet control system of the present embodiment, the same effects as those of the first embodiment can be obtained.

  In the present embodiment, the operation switch unit 44 is provided in the remote controller 4A. However, such an operation switch unit 44 is not always necessary, and is always transmitted from the first communication unit 41 by the communication control unit 42, for example. If the signal is transmitted to the power line PL at the cycle set by the cycle setting unit 46 and the green light emitting diode of the display unit 45 is lit, the outlet devices 3A to 3D of the first power plug 40 are connected. The power supply from the power line PL to the remote control 4A is turned on / off, such as insertion / extraction of the power supply plug 40 and on / off of the switch device interposed between the first power plug 40 and the outlet devices 3A to 3D. It becomes possible to control the on / off of the power supply to the device connected to the outlet 51 of the table tap 5A.

  By the way, in the above example, the cycle setting unit 46 is for the user to manually set the cycle, but detects and detects the number of other remote controllers electrically connected via the power line PL. Based on the number of different remote controllers, the polling cycle of the transmission signals may be automatically selected so that the transmission signals of each remote controller are not congested on the power line PL that is the transmission path. In this case, since the cycle of the transmission signal of each remote controller automatically becomes an optimum value, the user calculates a suitable cycle of the transmission signal and sets the cycle by the cycle setting unit 46 of each remote controller. This eliminates the need for setting work, thereby improving the usability of the outlet control system.

  Here, as a method of detecting the number of other remote controllers, for example, the presence of other table taps is detected by a transmission signal (communication packet) seen on the power line PL that is a communication path, and based on this detection result. Then, a method of detecting the number of other remote controllers by counting the number of table taps can be mentioned. In addition, an ID number indicating another remote controller is stored in the ID storage unit 43 of the remote controller 4A, and the remote controller 4A sequentially polls the ID number indicating the other remote controller and responds to this polling. There is a method of detecting the number of occurrences as the number of other remote controllers electrically connected through the power line PL. Further, instead of an ID number indicating another remote controller, an ID number indicating another table tap is stored in the ID storage unit 43 of the remote controller 4A, and an ID number indicating the other table tap is received from the remote controller 4A. The polling may be sequentially performed, and the number of responses to the polling may be detected as the number of other remote controllers electrically connected via the power line PL.

  Alternatively, as the period setting unit 46, instead of detecting the number of other remote controllers, the communication traffic amount of the transmission signal flowing through the power line PL is detected, and based on the communication traffic amount thus obtained, The transmission signal cycle may be automatically selected so that the transmission signal of each remote controller does not collide with the power line PL that is the transmission path.

  On the other hand, by using a device-embedded network technology called EMIT (Embedded Micro Internetworking Technology) (a network technology having a function of easily incorporating middleware into a device and connecting to the network, hereinafter referred to as an EMIT technology). Various equipment from external terminals such as mobile phones, PCs (Personal Computers), PDAs (Personal Digital Assistants), PHSs (Personal Handy phone Systems), etc. (lighting devices, air conditioners, power units, sensors, electric locks, webcams Etc., hereinafter referred to as an EMIT terminal), and there is a system that can remotely monitor and control the EMIT terminal.

  Note that the EMIT terminal is a built-in device equipped with a microcomputer, and is a device-embedded middleware for connecting to the network and is equipped with EMIT software that realizes the EMIT technology.

  As a system to which the above-mentioned EMIT technology is applied (hereinafter referred to as an EMIT system), an external terminal remotely monitors and controls an EMIT terminal via a center server provided on the Internet, or via a center server. For example, a configuration in which each EMIT terminal is directly accessed from an external terminal equipped with EMIT software to remotely monitor and control the EMIT terminal can be cited.

  The EMIT system distributes the above-mentioned EMIT terminals in buildings (for example, detached houses, condominiums, buildings, factories, etc.) and remotely monitors the state of the EMIT terminals from an external terminal, for example. Energy management and remote meter reading of gas, water and electricity in the building.

  Therefore, when the outlet control system according to the first and second embodiments of the present invention described above is adopted for outlet control of an apartment house, a building, etc., it is needless to say that the building may constitute the above-mentioned EMIT system.

  In the first and second embodiments, the second and third remote controllers are connected to the outlet of the first table tap. However, many more remote controllers may be connected, for example, the second table. If a plurality of remote controllers are connected to a tap outlet, a group of table taps that are collectively controlled by the second remote controller can be configured. By increasing the number of layers controlled in this way, a wider variety of types can be obtained. It is possible to construct an outlet control system that can perform control.

  In the first and second embodiments, the power plugs of the first remote controller and the first table tap are connected to different outlet devices, but may be connected to the same outlet device.

It is explanatory drawing of the outlet socket control system of Embodiment 1 of this invention. It is explanatory drawing of the outlet socket control system of Embodiment 2 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1A Remote control 10 1st power plug 11 1st communication part 2A Table tap 20 2nd power plug 21 Outlet port 24 2nd communication part 25 Power control part PL Power line 3A, 3B Outlet apparatus

Claims (2)

A first power plug, a first communication unit that transmits a transmission signal for power line carrier communication to the power line via the first power plug, and when it is detected that power is not supplied from the power line And an auxiliary power supply unit that supplies operating power to the first communication unit, a second power plug, and a device to be controlled while being connected to the power line via the second power plug. A power outlet connected to the power outlet; a transmission signal bypass section provided between the second power plug and the power outlet; and a transmission signal transmitted from the first communication section to the power line. A second communication unit that controls power supply from the power line to the device to be controlled connected to the outlet according to the content of the transmission signal received by the second communication unit, Before being received by the communication department of A device connection device comprising: a power control unit that turns off power supply to the control target device when it is detected that power is not supplied from the power line to the operation device according to the content of the transmission signal. Equipped ,
The first communication unit has a function of transmitting a device-off transmission signal to the power line when operating power is supplied from the auxiliary power unit, and the power control unit includes the second communication unit. Has a function of turning off power supply to the device to be controlled when receiving the device-off transmission signal . An outlet device in which the first power plug of the operation device is connected to an outlet device provided in a power line, and the second power plug of the device connection device that communicates with the operation device is provided in the power line. And at least one other device connection device for connecting the first power plug of at least one other operation device to the outlet port of the device connection device and communicating with the other operation device. The outlet control system according to claim 1, wherein the second power plug is connected to the outlet device of the power line .

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