JP5027282B2 - Power supply control device and power supply control method - Google Patents

Description

  The present invention relates to a technique for preventing standby power consumption in an electrical device.

  In general, an electric device whose position is fixed or frequently used is often in a state where its plug is always inserted into an outlet.

  Even when the electric device is not actually used (that is, when the power is off), the electric device consumes power called so-called standby power. Therefore, if the plug of the electrical device is left plugged in for a long period of time, unnecessary power will be consumed, which is not preferable from the viewpoint of power saving. It may also be a cause of tracking phenomenon.

  This problem can be solved by thoroughly removing the plug from the outlet when the electrical equipment is not used, and inserting the plug when using again. However, this is a very complicated operation and is not a suitable solution.

  On the other hand, for example, in Patent Document 1, the power value serving as a determination parameter for power-off and the duration can be variably set according to the type of the connected electronic device, and the measured electronic device There has been proposed an outlet that shuts off the power supplied to the electronic device after the set duration has elapsed when the power consumption value is equal to or less than the set power value.

Special table 2009-507340

  However, in the technique according to Patent Document 1, in order to start the supply of power again after the power is turned off, it is necessary to input a predetermined control signal from the outside, which takes time and effort for the user. Furthermore, since the power supply is shut off every time a predetermined determination parameter meets the above condition, the shutoff timing is uniform. Accordingly, there is a possibility that the power supply and the power supply are frequently repeated in a short span without adapting to the usage pattern of the electronic device by the user. This further increases the complexity of the user, and may also reduce the energy saving effect.

  The present invention has been made to solve the above-described conventional problems, and can provide a convenient power supply control device and the like that can effectively prevent standby power consumption in electrical equipment from the viewpoint of energy saving. For the purpose.

In order to achieve the above object, a power supply control device according to the present invention includes:
Plug connection means for connecting to the plug of the electrical equipment;
Switching means for switching the power supply line between the commercial power supply and the plug connecting means to be disconnected and connected under a predetermined condition;
Current measuring means for measuring current consumption of the electrical equipment connected through the plug connecting means;
Measurement data storage means for generating measurement data in which the measurement result of the current measurement means is associated with the current date and time, and storing the measurement data in a predetermined memory;
A standby state determination unit that determines whether or not the electrical device is in a standby state consuming standby power based on a measurement result of the current measurement unit;
When the preset first time elapses after the standby state determination means determines that the electrical device is in the standby state, based on the contents of past measurement data stored in the memory, Supply stop determination means for determining whether or not to stop power supply to the electrical device;
When the preset second time elapses after the power supply line is cut off by the switching means, the power supply to the electric device is performed based on the contents of the past measurement data stored in the memory. Supply start determining means for determining whether it is necessary to start,
The switching means shuts off the power supply line when the supply stop determination means determines that it is necessary to stop the power supply to the electric equipment, and the supply start determination means determines the power supply to the electric equipment. When it is determined that the supply needs to be started, the power supply line is connected,
The supply stop determination unit repeats the determination every predetermined time while the standby state continues,
The supply start determination unit repeats the determination every predetermined time while the blocked state continues.

  ADVANTAGE OF THE INVENTION According to this invention, consumption of the standby power in an electric equipment can be prevented appropriately, without forcing a user a complicated operation | work.

It is a figure which shows the structure of the power supply control apparatus which concerns on Embodiment 1 of this invention. It is a block diagram which shows the function structure of the control part of FIG. It is a graph which shows transition of the consumption current in a certain period of electric equipment. It is a flowchart which shows the procedure of a power supply stop process. It is a flowchart which shows the procedure of a power supply start process. It is a figure for demonstrating the power supply control apparatus which concerns on Embodiment 2 of this invention.

  Hereinafter, a power supply control device according to an embodiment of the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
FIG. 1 is a diagram showing a configuration of a power supply control device 1 according to Embodiment 1 of the present invention. As shown in FIG. 1, the power supply control device 1 includes a plug 2, a power on / off switch 3, a current measurement unit 4, a plug insertion port 5, and a control unit 6.

  In the power supply control device 1, an electric device (for example, a plug 2 is inserted into an outlet of a commercial commercial power supply (AC 100 V), for example, and installed in the household at a plug insertion port 5 (plug connection means). It is used in a mode in which a plug of an air conditioner or the like is inserted.

  The power on / off switch 3 (switching means) is constituted by, for example, a relay or the like, and is provided on a pair of power lines 7 between the plug 2 and the plug insertion port 5 (that is, a power supply line to the connected electrical device). The power on / off switch 3 is opened / closed according to a control signal from the control unit 6 to cut off / connect the power supply line.

  The current measuring unit 4 is provided in the power supply line behind the connection position of the power on / off switch 3 and measures the current flowing into the electrical equipment (that is, the current consumed by the electrical equipment), and the measurement result (current consumption value). ) To the control unit 6.

  The control unit 6 includes a readable / writable nonvolatile memory such as a CPU, a ROM, and a flash memory (all not shown). The control unit 6 is configured to be constantly supplied with power from a commercial power source via a pair of power lines 8.

  As shown in FIG. 2, the control unit 6 functionally includes a current consumption acquisition unit 61, a data storage unit 62, a standby state determination unit 63, a supply stop determination unit 64, and a supply start determination unit 65. The switch control unit 66 and the time measuring unit 67 are provided. The consumption current acquisition unit 61 (measurement data storage means) acquires the measurement result (consumption current value of the electrical device) of the current measurement unit 4 every predetermined time, and acquires the acquired consumption current value and the current date and time (month also Measurement data in association with each other is generated and stored in the data storage unit 62.

  The standby state determination unit 63 determines whether or not the power of the electrical device to be connected is turned off (that is, in a standby state). Specifically, the standby state determination unit 63 compares the current consumption current value acquired by the consumption current acquisition unit 61 with a preset standby current threshold value (stored in the data storage unit 62). When the current consumption current value is less than or equal to the standby current threshold, it is determined that the electrical device is in a standby state. The standby state determination unit 63 notifies the supply stop determination unit 64 of the determination result.

  When the supply stop determination unit 64 is notified of the standby state from the standby state determination unit 63 while the power is being supplied to the electrical device (that is, the power supply line is connected), the supply stop determination unit 64 uses the timing unit 67. Start timing. When the timekeeping time reaches a preset time (first time), the supply stop determination unit 64 determines the future operating state of the electrical device based on the past measurement data stored in the data storage unit 62. A tendency is acquired, and it is determined whether or not it is necessary to stop power supply to the electrical device (whether or not power supply needs to be stopped). However, during this time, upon receiving a notification from the standby state determination unit 63 that it is not in the standby state (that is, the operation state), the supply stop determination unit 64 stops the timing.

  The determination of whether or not to stop power supply will be described in more detail. When the timekeeping time reaches the first time, the supply stop determination unit 64 starts from the data storage unit 62 with the measurement data for a predetermined time set in advance starting from the same date and time one year ago. read out. For example, when the current date and time is 12:00 on June 1, the supply stop determination unit 64 starts from 12:00 on June 1 one year ago from the data storage unit 62 to the present. Then, all measurement data for a predetermined time is read out. For example, assuming that this time is 1 hour, measurement data from 12:00 to 13:00 on June 1, one year ago is read out.

  The supply stop determination unit 64 determines whether or not the consumption current value in all the read measurement data is equal to or less than the standby current threshold value. When all the consumption current values are equal to or less than the standby current threshold, the supply stop determination unit 64 determines that the power supply needs to be stopped. Then, it issues a notification (power supply stop request) requesting to stop power supply to the switch control unit 66. On the other hand, when the consumption current value of any measurement data exceeds the standby current threshold, the supply stop determination unit 64 determines that it is not necessary to stop the power supply. In this case, the supply stop determination unit 64 sleeps for a predetermined time (for example, one hour), and does not determine whether or not it is necessary to stop the power supply during that time.

  When a preset time (second time) elapses after the power supply to the electrical device is stopped (that is, the power supply line is cut off), the supply start determination unit 65 determines from the trend of past measurement data, The tendency of the future operating state of the electric device is acquired, and it is determined whether or not the power supply needs to be started (whether or not the power supply needs to be started). Specifically, the supply start determination unit 65 reads the measurement data for a predetermined time set in advance from the data storage unit 62 starting from the same date one year ago. The supply start determination unit 65 determines whether there is any read measurement data whose current consumption value exceeds the standby current threshold.

  When there is measurement data that exceeds the standby current threshold (see FIG. 3), the supply start determination unit 65 determines that it is necessary to start power supply. Then, a notification for requesting the start of power supply (power supply start request) is issued to the switch control unit 66. On the other hand, when the consumption current value in all the measurement data is equal to or less than the standby current threshold, the supply start determination unit 65 determines that it is not necessary to start the power supply.

  The supply start determination unit 65 repeatedly performs a determination process on whether or not to start power supply every predetermined time (for example, the second time) while the power supply stop state continues.

  When the switch control unit 66 receives the power supply stop request described above from the supply stop determination unit 64, the switch control unit 66 sends an “open” signal to the power on / off switch 3. When receiving the “open” signal, the power on / off switch 3 is opened, whereby the power supply line is cut off and the power supply to the electrical equipment is stopped.

  When the switch control unit 66 receives the above-described power supply start request from the supply start determination unit 65, the switch control unit 66 sends a “closed” signal to the power on / off switch 3. When receiving the “close” signal, the power on / off switch 3 is in a closed state, whereby the power supply line is connected and the power supply to the electric device is started.

  FIG. 4 is a flowchart showing a procedure of power supply stop processing by the power supply control device 1 configured as described above. The power supply stop process is executed during power supply to the electrical device. First, the standby state determination unit 63 determines whether or not the electrical device to be connected is in a standby state (step S101). As a result, when it is determined to be in the standby state (step S101; YES), the supply stop determination unit 64 starts measuring time using the time measuring unit 67 (step S102).

  When the electric device is in an operating state after the start of time measurement until the first time is reached (step S103; YES), the supply stop determination unit 64 stops the time measurement, and the process of step S101 is executed again.

  On the other hand, after the start of timing, when the first time is reached (step S104; YES) without the electric device being in an operating state (step S103; NO), the supply stop determination unit 64 causes the power supply control device 1 to It is determined whether or not a predetermined period has elapsed since operation (step S105). As a result, if the predetermined period has not elapsed (step S105; NO), measurement data for the predetermined period is stored in the data storage unit 62. Therefore, the supply stop determination unit 64 immediately issues a power supply stop request without checking the past measurement data because the tendency of the future operating state of the electrical device cannot be acquired (cannot be estimated). Issued to the switch controller 66. Then, the switch control unit 66 sends an “open” signal to the power on / off switch 3 (step S108).

  On the other hand, when the predetermined period has elapsed (step S105; YES), as described above, the supply stop determination unit 64 starts from the same date and time before the predetermined period (for example, one year) from the data storage unit 62. As a result, measurement data for a predetermined time (for example, 1 hour) is read from the present (step S106).

  Then, the supply stop determination unit 64 determines whether or not the consumption current value in all the read measurement data is equal to or less than a standby current threshold (for example, 0.01 A) (step S107). When all the consumption current values are equal to or less than the standby current threshold (step S107; YES), the supply stop determination unit 64 issues a power supply stop request to the switch control unit 66. Then, the switch control unit 66 sends an “open” signal to the power on / off switch 3 (step S108). When receiving the “open” signal, the power on / off switch 3 shifts from the closed state to the open state (step S110), whereby the power supply line is cut off and the power supply to the electrical equipment is stopped.

  On the other hand, if any of the current consumption values exceeds the standby current threshold (step S107; NO), the supply stop determination unit 64 determines that it is not necessary to stop the power supply at this time, and determines a predetermined time (for example, Sleep for the first time (step S109).

  FIG. 5 is a flowchart showing a procedure of power supply start processing by the power supply control device 1. The power supply start process is started when the second time has elapsed since the power supply to the electrical device is stopped, and is thereafter repeatedly executed at predetermined time intervals while the power supply stop state continues. First, the supply start determination unit 65 determines whether or not a predetermined period has elapsed since the power supply control device 1 was operated (step S201). As a result, when the predetermined period has not elapsed (step S201). NO), since the trend of the future operating state of the electrical device cannot be acquired, the supply start determination unit 65 immediately issues a power supply start request to the switch control unit 66 without checking past measurement data. Then, the switch control unit 66 sends a “closed” signal to the power on / off switch 3 (step S204).

  On the other hand, when the predetermined period has elapsed (step S201; YES), the supply start determination unit 65 starts from the same date and time before the predetermined period (for example, one year) from the data storage unit 62 as described above. As a result, the measurement data for a predetermined time is read out toward the present (step S202).

  Then, the supply start determination unit 65 determines whether there is any of the read out measurement data whose current consumption value exceeds the standby current threshold (step S203). As a result, when there is measurement data that exceeds the standby current threshold (step S203; YES), the supply start determination unit 65 issues a power supply start request to the switch control unit 66. Then, the switch control unit 66 sends a “closed” signal to the power on / off switch 3 (step S204). When receiving the “close” signal, the power on / off switch 3 shifts from the open state to the closed state (step S206), whereby the power supply line is connected and the power supply to the electric device is started.

  On the other hand, when there is no measurement data exceeding the standby current threshold (step S203; NO), the supply start determination unit 65 determines that it is not necessary to start the power supply at this time, and sleeps until a predetermined time elapses. (Step S205).

  As described above, according to the power supply control device 1 of the present embodiment, the current consumption of the electrical device to be connected is measured, and the measurement data in which the measurement result (current consumption value) is associated with the measurement date / time is obtained. The data is generated and stored in the data storage unit 62. Then, when the first time elapses after the operating state of the electrical device becomes the standby state, the trend of the future operating state of the electrical device is acquired using the past measurement data stored in the data storage unit 62. And based on the acquired tendency of the operating state, it is determined whether or not it is necessary to stop the power supply. Therefore, the power supply can be stopped at an appropriate timing in accordance with the daily usage pattern of the electronic device by the user. For this reason, for example, it is possible to prevent a situation in which the stop and start of power supply are frequently repeated in a short span.

  In addition, according to the power supply control device 1 of the present embodiment, after the power supply is stopped, the past measurement data stored in the data storage unit 62 is used to acquire the trend of the future operating state of the electrical device and acquire A determination is made as to whether or not to start power supply based on the tendency of the operating state. When it is determined that the power supply needs to be started, the power supply is automatically started. Therefore, unlike the prior art, it is not necessary to input a predetermined control signal from the outside, which saves the user trouble and is excellent in convenience.

(Embodiment 2)
Then, the power supply control apparatus which concerns on Embodiment 2 of this invention is demonstrated. The power supply control device 1 according to the first embodiment controls power supply to one electrical device, but the power supply control device according to the present embodiment individually supplies power to a plurality of electrical devices. It is characterized by control.

  As shown in FIG. 6, the power supply control device 100 is provided on a switchboard, for example, via each current measuring device 200 provided for each power supply line 400 corresponding to each outlet 300 and each communication line 500. Connect to enable communication.

  Further, the power supply control device 100 is communicably connected to each outlet 300 via each communication line 600.

  The power supply control device 100 is configured by hardware that is substantially the same as that of the control unit 6 in the power supply control device 1 of the first embodiment, except that it includes a communication interface with each of the current measurement device 200 and the outlet 300.

  Each current measuring device 200 measures the current consumption of the electrical equipment connected to the corresponding outlet 300 and outputs the measurement result (consumption current value) to the power supply control device 100. The power supply control device 100 acquires the measurement result (consumed current value of each electrical device) of each current measuring device 200 every predetermined time, and the current date and time (including month) for each acquired current consumption value. Is generated and stored in a flash memory or the like. At this time, each measurement data is sorted and stored in an area provided for each outlet 300.

  The power supply control device 100 determines whether or not to stop power supply to each electrical device or whether or not to start power supply, in the same manner as the control unit 6 of the first embodiment. If it is determined that power supply stop is necessary or power supply start is necessary, a control signal (supply stop signal) for requesting power supply stop to the corresponding outlet 300 or power supply A control signal (supply start signal) requesting start of supply is transmitted.

  Each outlet 300 includes a switch (not shown) similar to the power on / off switch 3 in the power supply control device 1 of the first embodiment. When receiving the above supply stop signal from the power supply control device 100, each outlet 300 is turned on. Change from closed to open. Thereby, the power supply to the electrical equipment connected to the outlet 300 is stopped.

  On the other hand, when each outlet 300 receives the supply start signal from the power supply control device 100, the outlet 300 changes the switch from the open state to the closed state. As a result, power supply to the electrical equipment connected to the outlet 300 is started.

  As described above, according to the power supply control apparatus 100 of the present embodiment, it is possible to individually control power supply to a plurality of electrical devices.

  In addition, this invention is not limited to the said embodiment, Of course, the various change in the range which does not deviate from the summary of this invention is possible.

  For example, in the above-described embodiment, the starting point of the past measurement data used for determining whether or not to stop the power supply is determined to be one year ago. However, the retroactive period is not limited. For example, when the target electrical device is a television or the like, the same time one day before may be used as the starting point. Further, an external switch or the like for allowing the user to arbitrarily set the retroactive period may be provided in the power supply control device 1 or 100. Similarly, the first and second times described above may be arbitrarily set by the user via an external switch or the like.

  Further, the power supply control device 1 according to the first embodiment may be configured such that the measurement data accumulated in the data storage unit 62 can be erased by operating an external switch or the like. With such a configuration, even if the electrical equipment to be connected is changed to a different type, it becomes easy to handle and the versatility is enhanced.

  Moreover, in the said embodiment, even if the electric equipment to connect is a standby state, when it is anticipated that it will be in an operation state within a predetermined time from the past measurement data, the power supply was not stopped. However, when the standby state continues for a preset third time longer than the first time, the power supply may be stopped regardless of the past trend.

  The power supply control device 1 according to the first embodiment includes a plug 2 for connecting to a household outlet and a plug insertion port 5 for connecting to a plug of an electric device, so that the power supply control device 1 is a detachable type. However, a power supply control device that performs the same processing as that of the power supply control device 1 of the first embodiment may be embedded in a wall or the like and integrated with a household outlet.

  The present invention can be applied to a technique for preventing standby power consumption in various electric devices installed in various places.

DESCRIPTION OF SYMBOLS 1,100 Power supply control apparatus 2 Plug 3 Power supply ON / OFF switch 4 Current measurement part 5 Plug insertion port 6 Control part 61 Current consumption acquisition part 62 Data storage part 63 Standby state determination part 64 Supply stop determination part 65 Supply start determination part 66 Switch control unit 67 Timekeeping unit 7, 8 Power line 200 Current measuring device 300 Outlet 400 Power supply line 500, 600 Communication line

Claims (8)

Plug connection means for connecting to the plug of the electrical equipment;
Switching means for switching the power supply line between the commercial power supply and the plug connecting means to be disconnected and connected under a predetermined condition;
Current measuring means for measuring current consumption of the electrical equipment connected through the plug connecting means;
Measurement data storage means for generating measurement data in which the measurement result of the current measurement means is associated with the current date and time, and storing the measurement data in a predetermined memory;
A standby state determination unit that determines whether or not the electrical device is in a standby state consuming standby power based on a measurement result of the current measurement unit;
When the preset first time elapses after the standby state determination means determines that the electrical device is in the standby state, based on the contents of past measurement data stored in the memory, Supply stop determination means for determining whether or not to stop power supply to the electrical device;
When the preset second time elapses after the power supply line is cut off by the switching means, the power supply to the electric device is performed based on the contents of the past measurement data stored in the memory. Supply start determining means for determining whether it is necessary to start,
The switching means shuts off the power supply line when the supply stop determination means determines that it is necessary to stop the power supply to the electric equipment, and the supply start determination means determines the power supply to the electric equipment. When it is determined that the supply needs to be started, the power supply line is connected,
The supply stop determination unit repeats the determination every predetermined time while the standby state continues,
The supply start determination unit repeats the determination every predetermined time while the blocked state continues.
A power supply control device. The standby state determination unit determines whether or not the electrical device is in the standby state by comparing a value indicated by a measurement result of the current measurement unit with a preset standby current threshold value.
The power supply control device according to claim 1. The supply stop determination means reads out measurement data for a predetermined time from the past predetermined time point from the memory, and whether or not to stop power supply to the electric device based on the content of all the read measurement data Determine
The power supply control device according to claim 1, wherein the power supply control device is a power supply control device. The supply start determination unit reads out measurement data for a predetermined time from a predetermined point in the past from the memory, and whether or not to start power supply to the electric device based on the content of all the read measurement data Determine
The power supply control device according to claim 1, wherein the power supply control device is a power supply control device. When the measurement data for a predetermined period is not stored in the memory, the supply stop determination unit determines that the electric device is in the standby state by the standby state determination unit, and then the first stop When the time has elapsed, it is determined that it is necessary to stop the power supply to the electrical device.
The power supply control device according to claim 1, wherein the power supply control device is a power supply control device. When the measurement data for a predetermined period is not stored in the memory, the supply start determination unit is configured to output the electric power when the second time has elapsed after the power supply line is shut off by the switching unit. Determine that it is necessary to start supplying power to the device,
The power supply control device according to claim 1, wherein the power supply control device is a power supply control device. The supply stop determination means determines that it is necessary to stop the power supply to the electric device when the standby state is a preset time and continues for a third time longer than the first time. To
The power supply control device according to claim 1, wherein the power supply control device is a power supply control device. A switching step of switching off and connecting the power supply line to the electrical equipment to be connected under a predetermined condition;
A current measuring step for measuring current consumption of the electrical device;
A measurement data storage step of generating measurement data in which the measurement result in the current measurement step is associated with the current date and time, and storing the measurement data in a predetermined memory;
A standby state determination step for determining whether or not the electrical device is in a standby state consuming standby power based on the measurement result in the current measurement step;
When the preset first time elapses after the electrical device is determined to be in the standby state in the standby state determination step, based on the contents of past measurement data stored in the memory. A supply stop determination step for determining whether or not to stop power supply to the electrical device; and
When the preset second time elapses after the power supply line is cut off in the switching step, the power supply to the electrical device is performed based on the contents of past measurement data stored in the memory. A supply start determination step for determining whether or not it is necessary to start
In the switching step, when it is determined in the supply stop determination step that it is necessary to stop the power supply to the electric device, the power supply line is shut off, and the power supply to the electric device is determined in the supply start determination step. When it is determined that the supply needs to be started, the power supply line is connected,
The supply stop determination step is repeated every predetermined time while the standby state continues,
The supply start determination step is repeated every predetermined time while the blocked state continues.
The power supply control method characterized by the above-mentioned.

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