JP5308025B2 - Power supply system - Google Patents

Description

  The present invention relates to a power supply system that mainly supplies power to equipment arranged in a building such as a house, a store, or an office building.

Conventionally, an electrical device that receives power from a wiring that supplies DC power transmits a signal indicating the start of operation before the start of power consumption, and other electrical devices receive this signal, so that the electrical device cooperates. A device that consumes power from the wiring has been proposed (for example, see Patent Document 1). The technique described in Patent Document 1 optimizes the flow of electric power when electric devices receive power in cooperation with each other.
JP 2007-215258 A

  By the way, in Patent Document 1, it is possible to prevent an excessive current from flowing in the wiring, but which electric device is used when the power supply device is overloaded due to the use of the electric device (apparatus). Is not considered.

  The present invention has been made in view of the above reasons, and its purpose is to be used on the device side based on the priority of the device when there is a possibility of exceeding the power capacity allowed by the use of the device. The power is limited, the equipment cannot be used due to the drop in the line voltage of the power supply line, the load on the power supply part increases due to overcurrent, or the breaker provided on the power supply line is cut off An object of the present invention is to provide a power supply system that can avoid such inconveniences.

The invention of claim 1 includes a power supply unit that supplies power to a plurality of devices via a power supply line, and a power reception control unit that controls power reception from the power supply line to each device, and a power reception control unit Includes a power receiving side communication unit capable of communicating with the power supply unit, and the power supply unit relates power usage and priority for each device, and power supply side communication unit communicating with the power receiving side communication unit. The device information storage unit stored, the usage prediction unit that predicts the start of operation for each device, and the power usage and priority of the device at the specified timing before use of the device predicted by the usage prediction unit Comparison result between the information extraction unit extracted from the device information storage unit and the marginal power, which is the difference between the power capacity of the power supply unit and the supply power supplied to the operating device, and the used power extracted by the information extraction unit To the power reception control unit corresponding to the device that starts operation. Table and an operation instructing section, the device information storage unit includes a combination of devices to be operated in each time period or scene, the received power at the time of limiting the power receiving for each device as a percentage of the power used to instruct whether to electrostatic The use prediction unit uses the data stored in the device information storage unit to predict whether or not it is necessary to limit the power reception of the device, and the operation instruction unit If it is within the power range, allow the power reception control unit to receive power.If the power used exceeds the surplus power, if there is no device that has a lower priority than the device that starts operation, If the device that starts the operation is rejected and there is a device with a lower priority than the device that starts the operation, the device with the higher priority is restricted by restricting the operation of the device with the lower priority. Special permission to allow the device to receive power To.

According to a second aspect of the present invention, in the first aspect of the present invention, the operation instruction unit may be configured such that the power consumption exceeds the marginal power, and the device has a low priority before restricting the operation of the low priority device. The power reception control unit includes a notification unit that notifies the corresponding power reception control unit, and notifies the user when receiving a notification that restricts the operation of the device from the operation instruction unit.

According to a third aspect of the present invention, in the first aspect of the invention, the operation instruction unit is configured to limit the operation of the device having a low priority when the power used exceeds the marginal power. Is notified to the power reception control unit corresponding to the device, and the power reception control unit causes the device to receive power within the range of the notified power.

According to a fourth aspect of the present invention, in any one of the first to third aspects, the power reception control unit is provided at an outlet connected to the power supply line and detachably connected to the device. It is characterized by that.

In the invention of claim 5, in the invention of claim 4 , the power reception control unit acquires the power consumed by the device during operation of the device connected to the outlet, and stores it in the device information storage unit. It is characterized by.

According to a sixth aspect of the present invention, in any one of the first to fifth aspects of the present invention, the power supply unit supplies direct current power, and the device is a direct current device driven by direct current power. .

In the invention of claim 7 , the power receiving unit includes a power supply unit that supplies power to a plurality of devices via the power supply line, and a power reception control unit that controls power reception from the power supply line to each device. Includes a power receiving side communication unit that can communicate with the power supply unit, and the power supply unit relates a power supply side communication unit that communicates with the power receiving side communication unit, and a use current and a priority for each device. The device information storage unit stored, the use prediction unit that predicts the start of operation for each device, and the usage current and priority of the device at the specified timing before use of the device predicted by the use prediction unit An information extraction unit that is extracted from the device information storage unit, a margin current that is a difference between a current capacity allowed for the power supply unit and a supply current that is supplied to the device in operation, and a use current that is extracted by the information extraction unit It corresponds to the device that starts operation by the comparison result of And a operation instruction unit for instructing whether to receiving the charge control unit, the device information storage unit, using a combination of devices to be operated in each time period or scene, the receiving current when limiting the power receiving for each device current The usage prediction unit predicts whether or not the power reception limit of the device is necessary using the data stored in the device information storage unit, and the operation instruction unit If the current used is within the range of the surplus current, the power reception control unit is allowed to receive power. If the current used exceeds the surplus current, the device that is in operation has a lower priority than the device that starts the operation. If there is no device, the operation of the device that starts the operation is refused, and if there is a device with a lower priority than the device that starts the operation, the operation of the device with the lower priority is restricted. Allow power reception with high-priority devices It characterized the Rukoto.

According to the configuration of the first aspect of the present invention, the operation start is predicted for each device, and the power consumption of the device is obtained in advance before the predicted use of the device is newly started. When the power capacity allowed by the power supply unit is within the range of the marginal power that is the difference between the supply power supplied to the operating device, the use of the device is allowed as it is and the newly used device when the power consumption exceeds the power margin is that limits the operation of the low priority device with a priority between devices. Furthermore, it is necessary to determine whether or not it is necessary to limit the power reception of the device by using the combination of the devices that operate for each time zone or each scene and the data that represents the power received when limiting the power reception for each device as a percentage of the power used. expected, and because perform such priority judgment in advance for the use start to be expected, the time from the user instructs the use of the equipment until the instruction is given to the power reception control unit short Kunar .

According to the configuration of the invention of claim 2 , when the operation is restricted in the device, the user is notified of the power capacity when an event occurs that the device stops or the output of the device decreases. Since it recognizes that the event has occurred due to restrictions, it does not make the user feel uneasy.

According to the configuration of the invention of claim 3 , since the power that can be received by the device is adjusted in the power reception control unit, if even a small amount of power for operating the device can be supplied, the use of the device can be continued. It is possible to avoid as much as possible the situation where the equipment stops due to insufficient power capacity.

According to the configuration of the invention of claim 4 , since the power reception control unit is provided at the outlet, the above-described operation can be performed even with a general device that does not include the power reception control unit including the power reception side communication unit.

According to the configuration of the invention of claim 5 , since the power used in the device can be detected by monitoring the operation of the device connected to the outlet, the device specification is registered in advance in the device information storage unit. The power used to be stored in the device information storage unit can be acquired simply by connecting a general device that does not have a power reception control unit to the outlet, and can be used easily.

According to the configuration of the invention of claim 6 , since the device is a DC device and supplies DC power from the power supply unit, it is possible to easily distribute various voltages by using a switching power supply or the like as the power supply unit. it can. In addition, it is possible to supply power to the DC device without using a power adapter.

The invention of claim 7, power use in the invention of claim 1, power margin, power capacity, the power supply, respectively using current margin current, current capacity, which was read as the supply current, the invention of claim 1 Has the same effect as.

(Basic configuration)
Although the embodiment described below is described assuming a detached house as a building to which the present invention is applied, it does not preclude applying the technical idea of the present invention to an apartment house. FIG. 2 shows the overall configuration of a power supply system to which this embodiment is applied. As shown in FIG. 2, the house H is provided with a DC power supply unit 101 that outputs DC power and a DC device 102 as a load driven by the DC power, and an output end of the DC power supply unit 101. DC power is supplied to the DC device 102 through the DC supply line Wdc connected to the. A current flowing through the DC supply line Wdc is monitored between the DC power supply unit 101 and the DC device 102. When an abnormality is detected, power is supplied from the DC power supply unit 101 to the DC device 102 on the DC supply line Wdc. A DC breaker 114 is provided for limiting or blocking the current.

  The DC supply line Wdc is used as both a DC power supply path and a communication path, and is connected to the DC supply line Wdc by superimposing a communication signal for transmitting data on a DC voltage using a high-frequency carrier wave. Enables communication between devices. This technique is similar to a power line carrier technique in which a communication signal is superimposed on an AC voltage in a power line that supplies AC power.

  The DC supply line Wdc is connected to the home server 116 via the DC power supply unit 101. The in-home server 116 is a main device for constructing a home communication network (hereinafter referred to as “home network”), and communicates with a subsystem constructed by the DC device 102 in the home network.

  In the example shown in the drawing, as an subsystem, an illumination system comprising an information equipment system K101 comprising an information-system DC device 102 such as a personal computer, a wireless access point, a router, and an IP telephone, and an illumination system DC equipment 102 such as a lighting fixture. K102, K105, an intercom system K103 including a DC device 102 for handling visitors and monitoring intruders, a residential alarm system K104 including a DC device 102 for an alarm system such as a fire detector, and the like. Each subsystem constitutes a self-supporting distributed system, and can operate even with the subsystem alone.

  The above-described DC breaker 114 is provided in association with a subsystem. In the illustrated example, four DCs are associated with the information equipment system K101, the lighting system K102 and the intercom system K103, the house alarm system K104, and the lighting system K105. A breaker 114 is provided. When a plurality of subsystems are associated with one DC breaker 114, a connection box 121 for dividing the system of the DC supply line Wdc is provided for each subsystem. In the illustrated example, a connection box 121 is provided between the illumination system K102 and the intercom system K103.

  As the information equipment system K101, there is provided an information equipment system K101 composed of a DC equipment 102 connected to a DC outlet 131 arranged in advance in the house H (constructed when the house H is constructed) in the form of a wall outlet or a floor outlet.

  The lighting systems K102 and K105 include a lighting system K102 composed of a lighting device (DC device 102) arranged in advance in the house H and a lighting device (DC device 102) connected to a hook ceiling 132 arranged in advance on the ceiling. An illumination system K105 is provided. At the time of interior construction of the house H, the contractor attaches the lighting fixture to the hook ceiling 132, or the householder himself attaches the lighting fixture.

  In addition to using an infrared remote control device, a control instruction for the lighting apparatus that is the DC device 102 constituting the lighting system K102 can be given using a communication signal from the switch 141 connected to the DC supply line Wdc. That is, the switch 141 has a communication function together with the DC device 102. In addition, a control instruction may be given by a communication signal from another DC device 102 in the home network or the home server 116 regardless of the operation of the switch 141. The instructions to the lighting fixture include lighting, extinguishing, dimming, and blinking lighting.

  Since any DC device 102 can be connected to the DC outlet 131 and the hooking ceiling 132 described above and DC power is output to the connected DC device 102, the DC outlet 131 and the hooking ceiling 132 are distinguished below. When it is not necessary, it is called “DC outlet”.

  These DC outlets have a plug-in connection port into which a contact (not shown) provided directly on the DC device 102 or a contact (not shown) provided via a connection line is inserted into the body. The contact receiver that directly contacts the contact inserted into the connection port is held by the container. That is, the direct current outlet supplies power in a contact manner. When the DC device 102 connected to the DC outlet has a communication function, a communication signal can be transmitted through the DC supply line Wdc. A communication function is provided not only in the DC device 102 but also in the DC outlet.

  The home server 116 not only is connected to the home network, but also has a connection port connected to the wide area network NT that constructs the Internet. When the in-home server 116 is connected to the wide area network NT, it is possible to receive services from the center server 200 that is a computer server connected to the wide area network NT.

  The service provided by the center server 200 includes a service that enables monitoring and control of equipment (including mainly the DC equipment 102 but also other equipment having a communication function) connected to the home network through the wide area network NT. is there. This service makes it possible to monitor and control devices connected to the home network using a communication terminal (not shown) having a browser function such as a personal computer, Internet TV, or mobile phone.

  The in-home server 116 has both functions of communication with the center server 200 connected to the wide area network NT and communication with equipment connected to the home network, and identification information about equipment in the home network ( Here, it is assumed that an IP address is used).

  The home server 116 enables monitoring and control of home devices through the center server 200 from a communication terminal connected to the wide area network NT by using a communication function with the center server 200. The center server 200 mediates between home devices and communication terminals on the wide area network NT.

  When monitoring and controlling home devices from a communication terminal, monitoring and control requests are stored in the center server 200, and the home device periodically performs one-way polling communication to monitor from the communication terminal. And receive control requests. With this operation, it is possible to monitor and control devices in the house from the communication terminal.

  Further, when an event that should be notified to the communication terminal, such as a fire detection, occurs in the home device, the home device notifies the center server 200, and the center server 200 notifies the communication terminal by e-mail.

  An important function among the communication functions with the home network in the home server 116 is the detection and management of the devices constituting the home network. The home server 116 automatically detects devices connected to the home network by applying UPnP (Universal Plug and Play). The home server 116 includes a display device 117 having a browser function, and displays a list of detected devices on the display device 117. The display device 117 has a configuration with a touch panel type or an operation unit, and can perform an operation of selecting desired contents from options displayed on the screen of the display device 117. Therefore, the user (contractor or householder) of the home server 116 can monitor or control the device on the screen of the display device 117. The display device 117 may be provided separately from the home server 116.

  The in-home server 116 manages information related to device connection, and grasps the type, function, and address of the device connected to the home network. Accordingly, the devices in the home network can be operated in conjunction with each other. Information on the connection of the device is automatically detected as described above. In order to operate the device in an interlocking manner, the device itself is automatically associated with the attribute held by the device itself, and the home server 116 is configured as a personal computer. It is also possible to connect various information terminals and use the browser function of the information terminals to associate devices.

  Each device holds the relationship of the interlocking operation of the devices. Therefore, the device can operate in an interlocked manner without passing through the home server 116. By associating the linked operations for each device, for example, by operating a switch that is a device, it is possible to turn on or off the lighting fixture that is the device. In many cases, the association of the interlocking operations is performed within the subsystem, but the association beyond the subsystem is also possible.

  By the way, the DC power supply unit 101 basically generates DC power by power conversion of an AC power supply AC supplied from outside the house like a commercial power supply. In the configuration shown in the figure, the AC power source AC is input to an AC / DC converter 112 including a switching power source through a main circuit breaker 111 attached to the distribution board 110 as an internal unit. The DC power output from the AC / DC converter 112 is connected to each DC breaker 114 through the cooperative control unit 113.

  The DC power supply unit 101 is provided with a secondary battery 162 in preparation for a period in which power is not supplied from the AC power supply AC (for example, a power failure period of the commercial power supply AC). It is also possible to use a solar cell 161 or a fuel cell 163 that generates DC power. The solar battery 161, the secondary battery 162, and the fuel battery 163 are distributed power supplies with respect to the main power supply including the AC / DC converter 112 that generates DC power from the AC power supply AC. In the illustrated example, the solar cell 161, the secondary battery 162, and the fuel cell 163 include a circuit unit that controls the output voltage, and the secondary battery 162 includes a circuit unit that controls charging as well as discharging.

  Of the distributed power sources, the solar cell 161 and the fuel cell 163 are not necessarily provided, but the secondary battery 162 is preferably provided. The secondary battery 162 is charged in a timely manner by a main power source or other distributed power source, and the secondary battery 162 is discharged not only in a period in which power is not supplied from the AC power source AC but also in a timely manner as necessary. The coordination control unit 113 performs charge / discharge of the secondary battery 162 and coordination between the main power source and the distributed power source. That is, the cooperative control unit 113 functions as a DC power control unit that controls the distribution of power from the main power source and the distributed power source constituting the DC power supply unit 101 to the DC device 102. Note that a configuration may be adopted in which the outputs of the solar cell 161, the secondary battery 162, and the fuel cell 163 are converted into AC power and used as input power of the AC / DC converter 112.

  Since the driving voltage of the DC device 102 is selected from a plurality of types of voltages depending on the device, a DC / DC converter is provided in the cooperative control unit 113 to convert the DC voltage obtained from the main power source and the distributed power source into a necessary voltage. Is desirable. Normally, one type of voltage is supplied to one subsystem (or DC device 102 connected to one DC breaker 114), but three or more wires are used for one subsystem. A plurality of types of voltages may be supplied. Alternatively, it is possible to adopt a configuration in which the DC supply line Wdc is of a two-wire type and the voltage applied between the lines is changed with time. The DC / DC converter may be provided in a plurality of dispersed manners like the DC breaker.

  In the above configuration example, only one AC / DC converter 112 is illustrated, but a plurality of AC / DC converters 112 can be arranged in parallel, and when a plurality of AC / DC converters 112 are provided. It is desirable to increase or decrease the number of AC / DC converters 112 that are operated according to the magnitude of the load.

  The AC / DC converter 112, the cooperative control unit 113, the DC breaker 114, the solar cell 161, the secondary battery 162, and the fuel cell 163 described above are provided with a communication function, and include a main power source, a distributed power source, and a DC device 102. It is possible to perform cooperative operations that deal with the load status. The communication signal used for this communication is transmitted in the form of being superimposed on the DC voltage in the same manner as the communication signal used for the DC device 2.

  In the above example, the AC / DC converter 112 is arranged in the distribution board 110 in order to convert the AC power output from the main breaker 111 into DC power by the AC / DC converter 112. On the output side, a branch breaker (not shown) provided in the distribution board 110 branches the AC supply line into a plurality of systems, and an AC / DC converter is provided on the AC supply line of each system to convert it into DC power for each system. You may employ | adopt the structure to do.

  In this case, since the DC power supply unit 101 can be provided for each floor or room of the house H, the DC power supply unit 101 can be managed for each system, and the DC device 102 that uses DC power and Since the distance of the DC supply line Wdc between the two is reduced, the power loss due to the voltage drop in the DC supply line Wdc can be reduced. Also, the main breaker 111 and the branch breaker are housed in the distribution board 110, and the AC / DC converter 112, the cooperative control unit 113, the DC breaker 114, and the home server 116 are housed in a separate board from the distribution board 110. Also good.

(Embodiment 1)
Below, the principal part of this embodiment is demonstrated with reference to FIG. In FIG. 1, a solid line indicates a power supply path, and a broken line indicates a signal path. As described above, the communication signal is superimposed on the DC voltage, but a communication path for transmitting the communication signal may be provided separately from the DC supply line Wdc (power supply line). The DC power supply unit 101 (power supply unit) includes a power supply circuit unit 10. Here, the AC / DC converter 112, the solar cell 161, the secondary battery 162, and the fuel cell 163 are not particularly distinguished, and the configuration for supplying power to the DC supply line Wdc is collectively referred to as the power supply circuit unit 10. The power supply circuit unit 10 includes a switching power supply.

  FIG. 1 shows a DC device 102 that is directly connected to the DC supply line Wdc and a DC device 102 ′ that is detachably connected to a DC outlet (outlet) connected to the DC supply line Wdc. That is, there are a case where the power reception control unit 20 is provided integrally with or connected to the DC device 102 and a case where the power reception control unit 20 is provided separately from the DC device 102 ′ and provided within the DC outlet. Show. In any case, DC power is supplied to a plurality of DC devices 102 and 102 'from one system DC supply line Wdc.

  In the following, the DC outlet 131 is exemplified as the DC outlet, but the hook ceiling 132 can also be used. In the example of FIG. 1, an example (left side) in which the power reception control unit 20 is built in the DC device 102 and an example (right side) in which the power reception control unit 20 is built in the DC outlet 131 are shown.

  The power reception control unit 20 controls power reception from the power supply line Wdc to the DC devices 102 and 102 ′. The power reception control unit 20 is provided with a limiting unit 21. The limiting unit 21 switches on / off using a switching element such as an electromagnetic relay or a semiconductor switch, or controls a passing current. The configuration for controlling the passing current includes a configuration in which the current is continuously controlled using a constant current circuit and the like, and a configuration in which the average current is controlled by intermittently passing the current. , 102 '.

  Hereinafter, after describing the DC device 102 provided with the power reception control unit 20, the DC outlet 131 provided with the power reception control unit 20 will be described. The DC device 102 is provided with a main function unit 25 that performs functions expected as the DC device 102, and a limiting unit 21 is inserted in a power supply path from the DC supply line Wdc to the main function unit 25. Therefore, by controlling the limiting unit 21 as described above, the power reception by the main function unit 25 can be limited for the DC power supplied from the DC supply line Wdc.

  The power reception control unit 20 includes a power reception side communication unit 22 that can communicate with the DC power supply unit 101, and the power reception side communication unit 22 communicates with the DC power supply unit 101 to give an instruction from the DC power supply unit 101. By receiving, the limiting unit 21 is controlled. When a power switch (not shown) provided in the DC device 102 is turned on or an operation start of the DC device 102 is instructed by operating a switch 141 (see FIG. 2) provided separately from the DC device 102, the power receiving side The communication unit 22 transmits an operation start request to the DC power supply unit 101.

  The power receiving communication unit 22 is connected to a setting unit 23 configured by a dip switch or the like, and the setting unit 23 can set the priority of the DC device 102. Furthermore, a notification unit 24 that allows the user to easily recognize the notification state, such as a buzzer or a light emitting diode, is connected to the power reception side communication unit 22, and power reception is stopped by the limiting unit 21 or received power. Is restricted to the user through the notification unit 24. Here, a non-volatile memory may be used for the setting unit 23. In that case, the priority is set by writing the contents of the non-volatile memory using a separate setting device. The priority will be described later.

  On the other hand, the DC power supply unit 101 includes the power supply circuit unit 10, the power supply side communication unit 11 that can communicate with the power reception side communication unit 22, and the priority set by the setting unit 23 of the DC device 102 and the DC device 102. And a device information storage unit 12 that stores power used during operation in association with identification information of the DC device 102. An example of data stored in the device information storage unit 12 is shown in Table 1.

  The DC power supply unit 101 further gives priority to the power used by the DC device 102 that made the start request when the power supply side communication unit 11 receives the start request from the power receiving side communication unit 22 provided in the DC device 102. The difference between the information extraction unit 13 that extracts the degree of power from the device information storage unit 12, the power capacity allowed for the power supply circuit unit 10 and the supplied power supplied from the power supply circuit unit 10 to the operating DC device 101. An operation instructing unit 14 is provided for instructing whether or not power can be received to the DC device 102 that has issued a start request for a certain amount of surplus power.

  The operation instruction unit 14 compares the used power of the DC device 102 extracted from the device information storage unit 12 for the DC device 102 that is the transmission source of the start request with the obtained surplus power, and the surplus power is used in the comparison result. When the power is greater than the power, the DC device 102 is instructed to permit power reception to the DC device 102 that has requested the start.

  On the other hand, when the power used by the DC device 102 that is the transmission source of the start request exceeds the surplus power, the operation instruction unit 14 compares the priorities of the DC device 102 that has made the start request and the DC device 102 currently in use. To do. Here, the DC device 102 having a low priority is instructed to restrict power reception so that the power necessary to operate the DC device 102 having the highest priority can be secured. That is, when the priority of the DC device 102 that has requested start is lower than the priority of any DC device 102 that is in use, the operation of the DC device 102 that has requested start is limited. In addition, when the priority of the DC device 102 that has requested the start is higher than at least one of the DC devices 102 that are in use, sufficient power is required to operate the DC device 102 that has requested the start. In order to be able to do so, the power reception by the DC device 102 with the lower priority among the DC devices 102 in use is restricted, and an instruction is given to permit the power reception of the DC device 102 that has made the start request.

  In the above operation example, the power used in the DC device 102 that is the transmission source of the start request is compared with the surplus power. However, in each combination, the combination of operating the DC device 102 connected to the DC supply line Wdc A supply power storage unit that associates and stores a DC device 102 that restricts power reception is provided, and a DC device 102 that restricts power reception for a combination of the DC device 102 that has made a start request and the DC device 102 that is operating You may extract from a supply electric power memory | storage part. If a supply power storage unit is created in advance, it is possible to easily determine the DC device 102 that restricts power reception without any calculation related to the power relationship. The power supply storage unit is as shown in Table 2, for example. In Table 2, it is assumed that three DC devices 102, A, B, and C, are in descending order of priority, and cannot be operated simultaneously.

  As is clear from the above description, the priority is the order in which each DC device 102 receives power preferentially. The higher the priority, the higher the probability of receiving power. Since the priority can be set in the setting unit 23 provided in the DC device 102 as described above, the user can appropriately determine the priority. As described above, by limiting the power used in the DC device 102, the DC device 102 can be used within the range of the power capacity allowed for the power supply circuit unit 10, and therefore, the line voltage of the DC supply line Wdc is reduced. The DC device 102 can be used without lowering the use of the DC device 102, increasing the burden on the power supply circuit unit 10 due to overcurrent, or interrupting the breaker provided on the DC supply line Wdc. It becomes possible to do.

  By the way, when any DC device 102 makes a start request, if the power used in the DC supply line Wdc exceeds the power capacity of the power supply circuit unit 10, the DC device 102 with low priority receives power. Therefore, the operation of the DC device 102 is suddenly stopped, or the output is suddenly reduced. Therefore, before limiting the operation of the DC device 102 having a low priority, the power reception control unit 22 of the DC device 102 is notified of the power reception restriction, and the notification unit 24 notifies the power reception control unit 22. Since the user recognizes that the operation of the DC device 102 is restricted by the restriction of the power capacity by the notification by the notification unit 24, the user's anxiety can be alleviated.

  When the notification unit 24 is provided, an energy saving mode or a low output operation for reducing power consumption in the low-priority DC device 102 (an operation for lowering the light output of the lighting device or lowering the motor of the electric device) ) May be selected.

  Further, when the DC device 102 is a lighting device and performs dimming control and can operate even when the output is limited, the operation instruction unit 14 operates the DC device 102 with a low priority. When the DC device 102 is instructed to limit the power available to the DC device 102, the DC device 102 controls the limiting unit 21 so that the DC device 102 receives power within the notified power range. It may be. That is, the energy saving mode or the low output operation may be automatically selected in the DC device 102 having a low priority.

  If such an operation is performed, the DC device 102 has a low output, but the power capacity of the power supply circuit unit 10 is satisfied and the power supply is continued. Can be avoided as much as possible. Of course, the operation of the DC device 102 is stopped when the power supply capacity of the power supply circuit unit 10 cannot be satisfied even if the power used by the DC device 102 is limited.

  In the configuration example described above, the DC device 102 includes the limiting unit 21 and the power receiving side communication unit 22, but a configuration excluding the main function unit 25 may be provided in the DC outlet 131. A power source connection terminal 131a for connecting to the power supply line Wdc and a plug connector provided on the DC device 102 ′ not including the power reception control unit 20 are detachably connected to the body of the DC outlet 131. Device connection port 131b. The device connection port 131b preferably has a structure in which a connector is inserted and connected. The power receiving side communication means 22 is configured to transmit and receive a communication signal to and from the power supply side communication means 12 by superimposing a high frequency communication signal on a DC voltage applied between the DC supply lines Wdc. It is not necessary to provide a connection dedicated for communication at the connection terminal 131a, and the connection work between the DC outlet 131 and the DC supply line Wdc is easy and the construction is facilitated. The same applies to the case where the DC device 102 including the power reception control unit 20 is connected to the DC supply line Wdc.

  As described above, by adopting the configuration in which the power reception control unit 20 is provided in the DC outlet 131, the power reception control unit 20 is provided even in the DC device 102 ′ that does not have a communication function with the DC power supply unit 101. Operation similar to that of the DC device 102 is possible. When the power reception control unit 20 is provided in the DC outlet 131, the identification information of the DC outlet 131 is used as the identification information of the DC device 102 ′. Further, since the DC device 102 ′ does not have information on the power used, the current supplied to the DC device 102 ′ from the device connection port 131 b is monitored by the current sensor SI, and the DC power is detected by the power detection unit 26 from the output of the current sensor SI. The power used by the device 102 'is estimated. As the current sensor SI, for example, a so-called DC current transformer in which a toroidal core and a Hall element are combined can be used.

  The power detection unit 26 can acquire the power consumed by the DC device 102 'based on the output of the current sensor SI, at least when the DC device 102' is stopped and operating. The power acquired together with the identification information 131 is notified to the DC power supply unit 101 as the power used by the DC device 102 ′. In addition, since the DC outlet 131 is provided with the setting unit 23 and the notification unit 24 as in the case of the DC device 102 including the power reception control unit 20, the priority set by the setting unit 23 is also notified to the DC power supply unit 101. To do.

  In the DC power supply unit 101, the identification information notified from the DC outlet 131, the used power, and the priority are associated with each other and stored in the device information storage unit 12. Accordingly, the DC device 102 ′ connected to the DC supply line Wdc via the DC outlet 131 can be handled in the same manner as the DC device 102 including the power reception control unit 20.

(Embodiment 2)
The first embodiment employs a configuration in which a DC outlet 131 connected to a DC device 102 or a DC device 102 ′ having a power reception control unit 20 notifies the DC supply unit 101 of a start request before starting operation. In this case, since the DC supply unit 101 receives the start request and determines the priority and gives an instruction to the power reception control unit 20 of the DC device 102 or the outlet 131, the power reception control unit 20 is instructed from the start request. There will be a slight time delay until

  In the present embodiment, as shown in FIG. 3, a use prediction unit 16 that predicts the start of operation for each DC device 102 is provided, and the DC device 102 (the DC outlet 131 is expected to start operation in the use prediction unit 16). Power using the connected DC device 102 ′), the power supplied to the operating DC devices 102, 102 ′, and the power capacity of the power supply circuit unit 10. The presence or absence of the DC devices 102 and 102 'that need to be restricted is obtained at a prescribed timing before use. That is, information is extracted from the device information storage unit 12 at a specified timing before use of the DC devices 102 and 102 ′ predicted by the use prediction unit 16, and the operation instruction unit 13 instructs the power reception control unit 20 whether or not power can be received. To do. The timing is set in consideration of the time necessary for this processing.

  In the present embodiment, it is possible to automatically operate the DC devices 102 and 102 ′ at the timing predicted by the use predicting unit 16 without a start request, but basically the DC devices 102 and 102 ′. After receiving the start request from, the operation is to notify the DC devices 102 and 102 'whether or not to limit power reception.

  By the way, in the operation of this embodiment, when it is expected that the DC devices 102 and 102 ′ with high priority are used, it is only necessary to be able to limit power reception of the DC devices 102 and 102 ′ with low priority. The use prediction unit 16 only needs to be able to predict whether or not to restrict power reception for the DC devices 102 and 102 'having low priority.

  Specifically, the usage status of the DC devices 102 and 102 'corresponding to the scene such as getting up or going home is specified in advance, or the daily usage status history of the DC devices 102 and 102' is taken to obtain the time A combination of DC devices 102 and 102 'that are likely to operate every time is created as data, and it is predicted whether or not it is necessary to limit power reception of the DC devices 102 and 102' using this data.

  Table 3 shows an example of data of the DC devices 102 and 102 'operated for each time zone, and Table 4 shows an example of data of the DC devices 102 and 102' operated for each scene. Each scene is associated with a time zone or a scene selection switch 141. Also, in Tables 3 and 4, when each DC device 102, 102 'restricts power reception by the limiting unit 21, the received power is the power used (maximum power reception) defined for each DC device 102, 102'. It is assumed that the power reception can be continued by lowering the power than the power), and the numerical values in the table indicate the percentage of the power used by each DC device 102, 102 'when the power reception is restricted. Yes. Other configurations and operations of the second embodiment are the same as those of the first embodiment.

  In the above-described embodiment, the DC power supply unit 101 is exemplified as the power supply unit, but an AC power supply unit can also be used. In this case, instead of the DC device 102, an AC device is used as the device. Moreover, although the example in which the power supply side communication unit 12 directly communicates with the power reception side communication unit 22 of the power reception control unit 20 has been shown, an in-home server 116 is interposed between the power supply side communication unit 12 and the power reception side communication unit 22. Communication may be performed.

  In addition, it is the same as that of the above-mentioned embodiment by managing electric current by replacing the electric power used, the surplus power, the power capacity, and the supply power in the above-described embodiment with the use current, the surplus current, the current capacity, and the supply current, respectively The function can be realized. In addition, when managing power, it is necessary to monitor both current and voltage. However, when managing current, it is only necessary to manage current, so there is an advantage that the configuration is simplified.

FIG. 3 is a principal block diagram showing Embodiment 1. It is a block diagram which shows the whole structure same as the above. It is a principal part block diagram which shows the direct-current power supply part used for Embodiment 2. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Power supply side communication part 12 Equipment information storage part 13 Information extraction part 14 Operation instruction part 16 Use prediction part 20 Power reception control part 21 Restriction part 22 Power reception side communication part 24 Notification part 101 DC power supply part (power supply part)
102 DC equipment (equipment)
131 DC outlet (Outlet)
Wdc DC supply line (power supply line)

Claims (7)

A power supply unit that supplies power to a plurality of devices via a power supply line, and a power reception control unit that controls power reception from the power supply line to each device. The power reception control unit communicates with the power supply unit. comprising a possible that the power receiving side communication unit, the power supply unit includes a feeding-side communication unit which communicates with the receiving-side communication unit, the device information storage that stores in association with the priority and used power for each device A unit, a use prediction unit that predicts the start of operation for each device, and a power consumption and priority of the device extracted from the device information storage unit at a specified timing before use of the device predicted by the use prediction unit Operation starts based on the comparison result between the information extraction unit and the marginal power, which is the difference between the power capacity allowed by the power supply unit and the supply power supplied to the operating device, and the power used by the information extraction unit Yes powered to the power receiving control unit corresponding to the device to be And a operation instruction section for instructing, device information storage unit includes a combination of devices to be operated in each time period, or scene, and the data expressed as a percentage of consumed electric power reception power when limiting the power receiving for each device The use prediction unit predicts whether or not it is necessary to limit the power reception of the device using the data stored in the device information storage unit, and the operation instruction unit uses the range where the power used is within the marginal power range. If it is within the permitted power reception to the power receiving control unit, if the power consumption exceeds the power margin, if there is less equipment priority than device starts operating in the device during operation, it starts the operation If there is a device with lower priority than the device that starts operation among the devices that are operating , the operation of the device with higher priority is restricted by restricting the operation of the device with lower priority. It is characterized by permitting power reception Power supply system. The operation instruction section is a case where the power consumption exceeds the power margin, notifies the power reception control unit corresponding to the device prior to limit the operation of the low priority the device, the power reception control unit The power supply system according to claim 1, further comprising a notification unit that notifies when receiving a notification that restricts the operation of the device from the operation instruction unit . The operation instruction unit is a case where the power consumption exceeds the marginal power, and when the operation of the device with a low priority is restricted, the power reception control corresponding to the device can use the power that can be used by the device. The power supply system according to claim 1 , wherein the power receiving control unit causes the device to receive power within the notified power range . The power reception control unit, the power according to any one of claims 1 to claim 3, characterized in that connected to said power supply line and the device is provided in an outlet that is connected detachably Supply system. The power supply system according to claim 4 , wherein the power reception control unit acquires power consumed by the device during operation of the device connected to the outlet and stores the power in the device information storage unit . The power supply system according to any one of claims 1 to 5, wherein the power supply unit supplies DC power, and the device is a DC device driven by DC power . A power supply unit that supplies power to a plurality of devices via a power supply line, and a power reception control unit that controls power reception from the power supply line to each device. The power reception control unit communicates with the power supply unit. The power supply unit includes a power-receiving-side communication unit that is capable, and the power-supply-side communication unit that communicates with the power-receiving-side communication unit, and the device information storage that stores the used current and the priority in association with each device A device, a use prediction unit for predicting the start of operation for each device, and a current and priority of the device extracted from the device information storage unit at a specified timing before use of the device predicted by the use prediction unit. Operation starts based on the comparison result between the information extraction unit and the marginal current, which is the difference between the current capacity allowed for the power supply unit and the supply current supplied to the operating device, and the current used extracted by the information extraction unit Power reception control unit corresponding to the device to be able to receive power The device information storage unit includes a combination of devices to be operated for each time zone or each scene, and data representing the received current when the power reception is restricted for each device as a percentage of the current used. The use prediction unit predicts whether or not it is necessary to limit the power reception of the device using the data stored in the device information storage unit. If it is within the range, the power reception control unit is allowed to receive power, and if the operating current exceeds the surplus current, if there is no device that has a lower priority than the device that starts the operation, the operation starts. If there is a device with lower priority than the device that starts operation among the devices that are operating, the operation of the device with higher priority is restricted by restricting the operation of the device with lower priority. It shall be the feature and allow the child to the receiving Power supply system.

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