JP5967716B2 - Power control system, power control apparatus, power control method, and program - Google Patents

Description

  The present invention relates to a power control system, a power control device, a power control method, and a program, for example, a power control system, a power control device, a power control method, and a program for supplying surplus power to a commercial power source.

  Of the power generated using the solar power generation system, surplus power can be sold to a power company. For example, when a solar power generation system is installed in each household, an electric product is operated in the home using electric power generated in the solar power generation system. Surplus power is power that has not been used in homes or the like, among the power generated by the solar power generation system.

  When selling surplus power to a power company, the solar power generation system reversely flows surplus power to a distribution line connecting the power company and a general household. Here, when a general household supplies surplus power to an electric power company, the voltage value of the surplus power needs to be higher than the voltage value of the electric power supplied from the power company. However, the voltage value of the power supplied from the power company may increase depending on the power consumption situation in the surrounding area. For example, if there is a factory near the home using a solar power generation system, or if the factory is not in operation, etc. The voltage value rises. In such a case, it is not possible to efficiently supply surplus power from a general household to the power company.

  Patent Document 1 discloses a configuration of a system that stores surplus power in a power storage device in a state where surplus power cannot be sold. By storing the surplus power in the power storage device, it is possible to discharge the power stored in the power storage device and operate the electrical appliances in the home, so that the surplus power that could not be sold is discarded It can be used efficiently without any problems.

JP 2010-130836 A

  However, in the system disclosed in Patent Document 1, surplus power is generated when surplus power is generated more than the sum of the power consumed in the electrical product and the power that can be stored in the power storage device. There is a problem that the power cannot be consumed effectively and is wasted power.

  An object of the present invention is to provide a power control system, a power control apparatus, a power control method, and a program that can effectively use surplus power.

  The power control system according to the first aspect of the present invention includes a power transmission / reception unit that receives commercial power supplied from a commercial power source, and supplies surplus power to the commercial power source among generated power generated in the power generation unit; A load unit that operates using the commercial power or the generated power; and a power consumption control unit that sets an operation in the load unit, wherein the power transmission / reception unit has a voltage value of the commercial power determined in advance. The supply of the surplus power to the commercial power supply is stopped when the surplus power is stopped, and the power consumption control unit uses the surplus power to stop the load. The operation of the load unit is changed so as to increase the power consumed in the unit.

  The power control device according to the second aspect of the present invention receives commercial power supplied from a commercial power source, supplies generated power generated in a power generation unit or the commercial power to a load unit, and surplus in the generated power A power transmission / reception unit that supplies power to the commercial power supply; and a power consumption control unit that sets an operation in the load unit, wherein the power transmission / reception unit has a predetermined threshold value of the voltage of the commercial power The supply of the surplus power to the commercial power supply is stopped, and the power consumption control unit uses the surplus power when the supply of the surplus power to the commercial power supply is stopped. The operation of the load unit is changed so as to increase the power consumed.

  In the power control method according to the third aspect of the present invention, it is determined whether or not the voltage value of the commercial power supplied from the commercial power source is larger than a predetermined threshold value, and the voltage value of the commercial power is determined in advance. If the threshold value is greater than the threshold value, the supply of the surplus power included in the generated power generated in the power generation unit to the commercial power supply is stopped, and the supply of the surplus power to the commercial power supply is stopped, the surplus power is used. The operation of the load unit that operates using the supplied power so as to increase the power consumed in the load unit is changed.

  The program according to the fourth aspect of the present invention includes a step of determining whether or not a voltage value of commercial power supplied from a commercial power source is greater than a predetermined threshold value, and the voltage value of the commercial power is predetermined. The supply of the surplus power included in the generated power generated in the power generation unit to the commercial power supply is stopped, and when the supply of the surplus power to the commercial power supply is stopped, the surplus power is And changing the operation of the load unit that operates using the supplied power so as to increase the power consumed in the load unit.

  According to the present invention, it is possible to provide a power control system, a power control apparatus, a power control method, and a program that can effectively use surplus power.

1 is a configuration diagram of a power control apparatus according to a first embodiment. 1 is a configuration diagram of a power control apparatus according to a first embodiment. FIG. 3 is a diagram illustrating a flow of setting change processing of a load unit according to the first embodiment. FIG. 10 is a diagram illustrating a flow of setting change processing of a load unit according to the second embodiment. FIG. 6 is a configuration diagram of a power control apparatus according to a third embodiment. FIG. 10 is a diagram illustrating a flow of setting change processing of a load unit according to the third embodiment; FIG. 10 is a diagram illustrating a flow of setting change processing for a load unit according to a fourth embodiment;

(Embodiment 1)
Embodiments of the present invention will be described below with reference to the drawings. A configuration example of the power control apparatus 20 according to the first embodiment of the present invention will be described with reference to FIG. In addition, the power control device 20 is connected to the commercial power supply 10 and the load unit 60.

  The commercial power source 10 is a power source managed by, for example, an electric power company. The power control device 20 receives power generated by the commercial power supply 10.

  The load unit 60 is a device that consumes power generated in the commercial power source 10 or the power generation unit 30 in the power control device 20, and may be, for example, an electrical product that operates using power. Alternatively, the load unit 60 may be a battery that stores electric power generated in the commercial power supply 10 or the power generation unit 30.

  Next, a configuration example of the power control device 20 will be described. The power control device 20 includes a power generation unit 30, a power transmission / reception unit 40, and a power consumption control unit 50.

  The power generation unit 30 generates electric power. For example, the power generation unit 30 may be a power generation device that generates power using natural energy. Natural energy may be, for example, wind power or sunlight, and the power generation unit 30 may be a solar power generation system that generates power using sunlight.

  The power transmission / reception unit 40 receives the commercial power supplied from the commercial power supply 10. The power transmission / reception unit 40 also receives power supplied from the power generation unit 30. Furthermore, the power transmission / reception unit 40 supplies surplus power among the power supplied from the power generation unit 30 to the commercial power supply 10. The action in which the power transmission / reception unit 40 supplies power to the commercial power supply 10 is that a power company that manages the commercial power supply 10 purchases the power generated in the power generation unit 30 and is called, for example, power sale. The surplus power is power obtained by subtracting the power consumed in the load unit 60 from the power generated in the power generation unit 30. That is, surplus power is power that is not consumed in the load unit 60 among the power generated in the power generation unit 30.

  The power consumption control unit 50 sets the operation in the load unit 60. For example, the power consumption control unit 50 may set the load unit 60 to perform an operation with higher power consumption than normal or perform an operation with reduced power consumption.

  Here, the operation when the voltage value of the electric power supplied from the commercial power supply 10 becomes larger than a predetermined threshold will be described. In such a case, the power transmission / reception unit 40 stops supplying surplus power to the commercial power supply 10. The predetermined threshold may be, for example, a voltage value of power supplied from the power transmission / reception unit 40 to the commercial power supply 10. That is, when the voltage value of the power supplied from the commercial power supply 10 to the power transmission / reception unit 40 becomes larger than the voltage value of the power supplied from the power transmission / reception unit 40 to the commercial power supply 10, the power transmission / reception unit 40. Stops supplying surplus power to the commercial power supply 10.

  There are various factors in the event that the voltage value of the power supplied from the commercial power supply 10 to the power transmission / reception unit 40 becomes larger than the voltage value of the power supplied from the power transmission / reception unit 40 to the commercial power supply 10. For example, the voltage value of the power supplied from the commercial power supply 10 to the power transmission / reception unit 40 when the power demand decreases in the surrounding area of the residence having the power control device 20 and the power consumption in the surrounding area decreases. Rises. In such a case, the voltage value of the power supplied from the commercial power supply 10 to the power transmission / reception unit 40 may exceed the voltage value of the power supplied from the power transmission / reception unit 40 to the commercial power supply 10.

  Here, when the supply of surplus power from the power transmission / reception unit 40 to the commercial power supply 10 is stopped, the power consumption control unit 50 sets the operation in the load unit 60 so as to increase the power consumed in the load unit 60. . The power consumption control unit 50 sets so as to allocate surplus power to the power consumption that increases due to the change in the operation of the load unit 60. That is, the power transmission / reception unit 40 increases the power consumption in the load unit 60 within a range that can be covered by using surplus power. A specific example regarding the setting of an operation for increasing power consumption in the load unit 60 will be described. For example, when the load unit 60 is an air conditioner used as a cooling device in a home, the power consumption of the air conditioner increases by setting the temperature to a temperature lower than the currently set temperature.

  The power transmission / reception unit 40 determines the set temperature after the change so that the power consumption that rises after the change of the set temperature does not exceed the surplus power. In the above description, an example in which an air conditioner is used as the load unit 60 has been described. However, the load unit 60 may be another electrical product. For example, the load unit 60 may be a home appliance such as a refrigerator.

  As described above, by using the power control device 20 of FIG. 1, surplus power that the power transmission / reception unit 40 can no longer supply to the commercial power supply 10 can be consumed in the load unit 60. In other words, the power control apparatus 20 can control the load unit 60 to consume the surplus power that could not be sold, instead of discarding it unnecessarily, by changing the setting in the load unit 60. For example, when an electrical product is operated in a power saving mode that saves power, surplus power that would otherwise be discarded can be used to operate in a normal mode that does not save power. As a result, surplus power that could not be sold can be effectively consumed in the load unit 60.

  Next, a detailed configuration example of the power control device 20 will be described with reference to FIG. The power generation unit 30 of the power control device 20 includes a power conditioner 31, a sensor 32, and a solar power generation panel 33.

  The photovoltaic power generation panel 33 generates electric power using sunlight. The photovoltaic power generation panel 33 outputs the generated power to the power conditioner 31. The sensor 32 detects the voltage value of the electric power output from the photovoltaic power generation panel 33 to the power conditioner 31.

  The power conditioner 31 adjusts the power value of the power output from the solar power generation panel 33 and outputs the adjusted power to the power transmission / reception unit 40. The power conditioner 31 adjusts the power value in order to stably supply the power having a random value output from the photovoltaic power generation panel 33 to the load unit 60.

  Next, a configuration example of the power transmission / reception unit 40 will be described. The power transmission / reception unit 40 includes a power receiving ELCB 41, sensors 42_1 to 42_3, switches 43_1 to 43_3, an inverter transformer 44, a bidirectional converter 45, and a converter control unit 46.

  The power receiving ELCB 41 is connected to the commercial power supply 10. The power receiving ELCB 41 detects a leakage of electric power supplied from the commercial power supply 10 and cuts off the supply of electric power when a leakage occurs.

  The sensor 42_1 is connected to the power receiving ELCB 41 and detects the voltage value of the voltage supplied from the commercial power supply 10. Further, the sensor 42_1 detects a voltage value of surplus power output from the power conditioner 31. Further, the sensor 42_1 may detect whether or not a power outage has occurred by detecting the presence or absence of power output from the power receiving ELCB 41.

  The sensor 42_2 detects the voltage value of the power output from the power conditioner 31 or the power receiving ELCB 41. The sensor 42_3 detects, for example, a voltage value of electric power that is discharged from the power storage battery 65 or stored in the power storage battery 65.

  The inverter transformer 44 converts the frequency of the voltage value of the electric power output from the sensor 42_3 or the bidirectional converter 45 into an arbitrary value. Bidirectional converter 45 outputs the power output from inverter transformer 44 to power storage battery 65 or outputs the power output from power storage battery 65 to inverter transformer 44. Converter control unit 46 controls the output direction of power in bidirectional converter 45. The power storage battery 65 stores the power output from the bidirectional converter 45. Alternatively, the power storage battery 65 discharges power used when consuming power in the load unit 60.

  The switch 43_1 is connected to the switch 43_2, the sensor 42_1, the sensor 42_2, and the power conditioner 31. The switch 43_2 is connected to the sensor 42_1, the switch 43_1, and the load unit 60. The switch 43_3 is connected to the switch 43_2, the sensor 42_3, and the load unit 60.

  Next, a configuration example of the power consumption control unit 50 will be described. The power consumption control unit 50 includes a switch control unit 51, a load control unit 52, a storage unit 53, and a load data input / output unit 54.

  The storage unit 53 stores setting information in the load unit 60. For example, the storage unit 53 includes a plurality of temperature setting information such as when the load unit 60 is an air conditioner, when the temperature setting is set to a power cooling mode of 20 degrees, and when the temperature setting is set to an energy saving cooling mode of 28 degrees. And the value of power consumption at each temperature setting is stored.

  The switch control unit 51 performs open / close control of the switches 43_1 to 43_3 using voltage values detected by the sensors 42_1 to 42_3. For example, the switch control unit 51 compares the voltage value of power supplied from the commercial power supply 10 measured by the sensor 42_1 with the voltage value of surplus power output from the power conditioner 31. At this time, the switch control unit 51 cannot perform power sale when the voltage value of the power supplied from the commercial power supply 10 exceeds the voltage value of the surplus power output from the power conditioner 31, and therefore, the switch 43_1 And 43_2 are opened. In this way, the commercial power supply 10 can be disconnected from the power transmission / reception unit 40.

  Moreover, the switch control part 51 makes switch 43_1 and 43_3 a closed state, when outputting the electric power supplied from the commercial power source 10 or the power conditioner 31 to the load part 60 and the power storage battery 65. FIG. Here, when only the electric power supplied from the power conditioner 31 is output to the load unit 60 or the power storage battery 65, the switch control unit 51 opens the switch 43_1 and closes the switch 43_3.

  When the sensor 42_2 does not detect the voltage value of the power output from the power conditioner 31, the switch control unit 51 determines that a failure has occurred in the power generation unit 30, opens the switch 43_1, and sets the switch 43_2 to the closed state. By doing so, the power supplied from the commercial power supply 10 and the power discharged from the power storage battery 65 are output to the load unit 60.

  The load control unit 52 calculates new setting information to be set in the load unit 60 when the switch 43_1 is in an open state and surplus power output from the power conditioner 31 is not sold. For example, the load control unit 52 calculates a setting value that can be set by using the information associated with the setting information and the power consumption stored in the storage unit 53 and the surplus power value. The load control unit 52 outputs new setting information to the load data input / output unit 54. Furthermore, the load control unit 52 outputs the determined setting information to the load unit 60 and changes the setting information in the load unit 60.

  The load data input / output unit 54 displays the setting information output from the load control unit 52 on a monitor or the like, and accepts input of setting values to be set in the load unit 60 from the user. The load data input / output unit 54 outputs the set value designated by the user to the load control unit 52.

  Next, the flow of the load information setting process in the load unit 60 will be described with reference to FIG. In this figure, the load data input / output unit 54 of FIG. 2 is a device such as a liquid crystal monitor, and the user can use the surplus power efficiently when the voltage of the power supplied from the commercial power supply 10 rises. Is a flow of processing assuming that the setting of the load unit 60 is manually changed.

  First, the sensor 42_1 detects the voltage value a of the electric power supplied from the commercial power supply 10, and stores information on the detected voltage value a in the storage unit 53 (S11). Next, the load control unit 52 compares the voltage value a with the maximum voltage value b of power output from the power conditioner 31 stored in the storage unit 53 (S12). When it is determined that the voltage value a is equal to or greater than the maximum voltage value b (S13: YES), the load control unit 52 estimates surplus power using the power output from the solar power generation panel 33 detected by the sensor 32. (S14).

  The surplus power is a value obtained by subtracting the power consumed in the load unit 60 from the power output from the photovoltaic power generation panel 33. Information regarding the power consumed in the load unit 60 is stored in the storage unit 53, for example.

  Next, the load control unit 52 calculates new setting information using the surplus power value and the setting information of the load unit 60 stored in the storage unit 53 (S15). The load control unit 52 calculates the changed setting information so that the power consumption of the load unit 60 that rises by setting new setting information does not exceed the surplus power. The load control unit 52 outputs the calculated new setting information to the load data input / output unit 54 and displays it on the load data input / output unit 54.

  Next, the load control unit 52 accepts a user selection instruction regarding whether or not to change the setting information in the current load unit 60 to new setting information displayed on the load data input / output unit 54 (S16). When information instructing to change to new setting information is input from the user (S16: YES), the switch control unit 51 opens the switches 43_1 and 43_2 and supplies surplus power to the commercial power supply 10. Is stopped (S17). Next, the load control unit 52 changes the setting of the load unit 60 (S18). The load control part 52 repeats the process of step S11, when the information which instruct | indicates that a user does not change to new setting information is input (S17: NO).

  In step S13, when the voltage value a is lower than the maximum voltage value b (S13: NO), the load control unit 52 determines whether or not a commercial power source is connected (S19). The state in which the commercial power source is connected is a state in which the switch 43_1 is in a closed state, and the power output from the power conditioner 31 can be supplied to the commercial power source 10 to sell power.

  In step S19, if the load control unit 52 determines that the commercial power supply 10 is not connected (S19: NO), the load data input / output unit 54 displays the current setting information and the connection status with the commercial power supply 10. And receives a selection from the user regarding whether or not to change the setting information in the load unit 60 (S20).

  When information instructing to change to new setting information is input from the user (S20: YES), the load control unit 52 controls the commercial power supply 10 to be in a connected state (S21). For example, the load control unit 52 outputs an instruction message instructing the switch control unit 51 to place the commercial power supply 10 in a connected state. When the switch control unit 51 receives the instruction message from the load control unit 52, the switch control unit 51 closes the switch 43_1 so that the power output from the power conditioner 31 can be supplied to the commercial power supply 10.

  Next, the load control unit 52 returns the setting information in the load unit 60 to the setting before the commercial power supply 10 is disconnected (S22). That is, in step S19, when the commercial power supply 10 is in a disconnected state, the setting in the load unit 60 may be changed to a setting that increases power consumption. Therefore, when the user instructs to change the setting information in step S20, the load control unit 52 sets the setting in the load unit 60 to the setting of the load unit 60 when the commercial power supply 10 is in the connected state. Control to return to.

  If it is determined in step S19 that the commercial power supply 10 is in the connected state, or if it is determined in step S20 that the setting information is not changed, the processing in step S11 is repeated.

  As described above, by using the power control apparatus 20 according to the first embodiment of the present invention, surplus power that can no longer be supplied to the commercial power supply 10 is consumed in the load unit 60 without being discarded. I can do it. Thereby, for example, in the home, when the load unit 60 is an air conditioner, when the air conditioner is operated in the power saving mode, the surplus power is used to increase the power consumption. Since the set temperature of the air conditioner that operates as a cooling device can be lowered, it is possible to realize a comfortable life without power saving.

  Furthermore, even when the power storage battery 65 is not connected to the power control device 20, it is possible to prevent the surplus power from being discarded by changing the setting information so that the load unit 60 uses the surplus power.

(Embodiment 2)
Next, the flow of the load information setting process in the load unit 60 according to the second embodiment of the present invention will be described with reference to FIG. This figure shows that when the supply of surplus power to the commercial power supply 10 is stopped, the setting of the load unit 60 is automatically changed without user intervention.

  Steps S31 to S35 are the same as steps S11 to S15 in FIG. In step S36, the load control unit 52 determines whether or not the setting information can be changed to setting information for increasing the power consumption in the load unit 60 using the surplus power (S36). In Step S36, when it is determined that the setting information can be changed to increase the power consumption in the load unit 60, the switch control unit 51 opens the switches 43_1 and 43_2 and supplies the surplus power to the commercial power supply 10. Is stopped (S37). Next, the load control unit 52 changes the setting of the load unit 60 (S38). For example, the load control unit 52 determines that the setting information can be changed when the power consumption that increases after the setting change does not exceed the surplus power.

  In step S33, when the voltage value a is lower than the maximum voltage value b, the load control unit 52 determines whether or not the commercial power supply 10 is in a connected state (S39).

  If the load control unit 52 determines that the commercial power supply 10 is not in the connected state, the load control unit 52 outputs an instruction message to the switch control unit 51 so as to close the switch 43_1 so that the commercial power supply 10 is in the connected state (S40). ). Next, the load control unit 52 returns the setting of the load unit 60 to the setting information when the commercial power supply 10 is in the connected state (S41).

  Since other processing flows are the same as those in FIG. 3, detailed description thereof is omitted.

  As described above, by using the processing flow of this figure, it is not necessary to receive an instruction from the user, and the load control unit 52 automatically sets the load unit 60 within the range where surplus power is used. Can be changed. Therefore, it is possible to save the user from inputting information and to improve user convenience.

(Embodiment 3)
Subsequently, a detailed configuration example of the power control device 20 and peripheral devices according to the third exemplary embodiment of the present invention will be described with reference to FIG. The power control apparatus 20 in this figure is different from FIG. 2 in that the load data input / output unit 54 is connected to the weather information server 70 via the LAN control unit 55. The LAN control unit 55 and the weather information server 70 may be connected via a public network such as the Internet.

  The user considers the weather information transmitted from the weather information server 70 when inputting the determination result as to whether or not to change the setting information of the load unit 60 in the load data input / output unit 54 used as a monitor. It is determined whether to change the setting information.

  Next, the flow of the load information setting process in the load unit 60 according to the third embodiment of the present invention will be described with reference to FIG. This figure is different from FIG. 2 in that steps S56 and S61 in which the load control unit 52 acquires weather information from the weather information server 70 are added. The other processing flow in this figure is the same as in FIG.

  In steps S57 and S62, the user can make a determination in consideration of the weather information when determining whether or not to change the setting information. For example, in the weather information, when it is predicted that a sunny time will continue in the future, the user thinks that surplus power will increase, and decides to change to setting information that further increases the power consumption in the load unit 60. May be. Or, in the weather information, if it is currently clear but it is predicted that the cloudy time will continue in the future, the user thinks that the surplus power will decrease and will not change the current setting or reduce the power consumption You may decide to change to setting information.

(Embodiment 4)
Next, the flow of the load information setting process in the load unit 60 according to the fourth embodiment of the present invention will be described with reference to FIG. This figure is different from FIG. 4 in that steps S76 and S81 in which the load control unit 52 acquires weather information from the weather information server 70 are added. The other processing flow in this figure is the same as in FIG.

  In steps S77 and S81, when the load control unit 52 determines whether it can be changed to a setting for increasing the power consumption in the load unit 60 by using the power within the range of the surplus power. Whether the setting can be changed is also determined using the weather information. For example, when the power within the range of surplus power is used, for example, there are a plurality of setting information that can be changed, and in the weather information, when it is predicted that the sunny time will continue in the future, the load control unit 52 It may be determined that the power is increased, and the setting information with the highest power consumption may be set in the load unit 60.

  In the above-described embodiments, the present invention has been described as a hardware configuration, but the present invention is not limited to this. The present invention can also be realized by causing a CPU (Central Processing Unit) to execute the processing of FIGS. 3, 4, 6, and 7 by executing a computer program. )

  In the above example, the program can be stored and supplied to a computer using various types of non-transitory computer readable media. Non-transitory computer readable media include various types of tangible storage media. Examples of non-transitory computer-readable media include magnetic recording media (for example, flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (for example, magneto-optical disks), CD-ROMs (Read Only Memory), CD-Rs, CD-R / W, semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, RAM (Random Access Memory)) are included. The program may also be supplied to the computer by various types of transitory computer readable media. Examples of transitory computer readable media include electrical signals, optical signals, and electromagnetic waves. The temporary computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

  Note that the present invention is not limited to the above-described embodiment, and can be changed as appropriate without departing from the spirit of the present invention.

(Supplementary Note 1) Using a power transmission / reception unit that receives commercial power supplied from a commercial power source and supplies surplus power among the generated power generated in the power generation unit to the commercial power source, and the commercial power or the generated power A load unit that operates, and a power consumption control unit that sets an operation in the load unit, wherein the power transmission / reception unit is configured to supply the commercial power when the voltage value of the commercial power is greater than a predetermined threshold value. When the supply of the surplus power to the commercial power supply is stopped, the power consumption control unit uses the surplus power to increase the power consumed in the load unit. A power control system for changing the operation of the load unit.
(Supplementary Note 2) When the supply of the surplus power to the commercial power supply is stopped, the power consumption control unit operates the load unit so that the power consumption that increases due to the operation after the change is smaller than the surplus power. The power control system according to appendix 1, wherein:
(Additional remark 3) The said power consumption control part has the information which matched the operation | movement set to the said load part, and the power consumption of the said operation | movement, and determines the operation | movement after a change using the said information, Additional remark 1 Or the electric power control system of 2.
(Additional remark 4) The said power consumption control part displays the power consumption which raises when the operation | movement of the said load part is changed, and the said surplus power on a monitor, and the operation of the said load part is performed from the user who operates the said monitor. The power control system according to any one of appendices 1 to 3, which receives selection instruction information regarding whether or not to change.
(Additional remark 5) The said power consumption control part is a power control system of Additional remark 4 which displays the weather information output from the weather information server on the said monitor.
(Additional remark 6) The said power consumption control part changes the operation | movement of the said load part, when the power consumption which raises when the operation | movement of the said load part is changed is less than the said surplus power, Any of Additional remark 1 thru | or 3 The power control system according to claim 1.
(Supplementary note 7) When the voltage value of the commercial power is higher than the voltage value of the generated power output from the power generation unit, the power transmission / reception unit stops the supply of the surplus power to the commercial power source. The power control system according to any one of appendices 1 to 6.
(Supplementary Note 8) Commercial power, a load unit that operates using the supplied power, and commercial power supplied from the commercial power are received, and surplus power among generated power generated in the power generation unit is supplied to the commercial power. A power transmission / reception unit to supply, and a power consumption control unit for setting an operation in the load unit, and when the power transmission / reception unit has a voltage value of the commercial power larger than a predetermined threshold, When the supply of the surplus power to the commercial power supply is stopped and the power consumption control unit stops the supply of the surplus power to the commercial power supply, the surplus power is used to increase the power consumed in the load unit. A power control system comprising: a power control device that changes the operation of the load unit so as to cause the power control system to operate.
(Supplementary Note 9) Power transmission for receiving commercial power supplied from a commercial power source, supplying generated power generated in a power generation unit or the commercial power to a load unit, and supplying surplus power of the generated power to the commercial power source A power reception unit, and a power consumption control unit that sets an operation in the load unit, and the power transmission / reception unit, when a voltage value of the commercial power is larger than a predetermined threshold, The supply of surplus power is stopped, and the power consumption control unit uses the surplus power to increase the power consumed in the load unit when the supply of surplus power to the commercial power supply is stopped. A power control device that changes the operation of a load unit.
(Additional remark 10) It is determined whether the voltage value of the commercial power supplied from commercial power supply is larger than a predetermined threshold value, and when the voltage value of the commercial power is larger than the predetermined threshold value, the power generation unit When the supply of the surplus power included in the generated power generated in step S2 to the commercial power supply is stopped and the supply of the surplus power to the commercial power supply is stopped, the surplus power is used to reduce the power consumed in the load unit. A power control method for changing an operation of a load unit that operates using electric power supplied so as to increase.
(Additional remark 11) The step which determines whether the voltage value of the commercial power supplied from a commercial power supply is larger than a predetermined threshold value, and the voltage value of the commercial power is larger than a predetermined threshold value, A step of stopping the supply of the surplus power included in the generated power generated in the power generation unit to the commercial power source, and when the surplus power supply to the commercial power source is stopped, the surplus power is used and consumed in the load unit And causing the computer to execute a step of changing the operation of the load unit that operates using the supplied power so as to increase the generated power.

DESCRIPTION OF SYMBOLS 10 Commercial power supply 20 Electric power control apparatus 30 Electric power generation part 31 Power conditioner 32 Sensor 33 Solar power generation panel 40 Electric power transmission / reception part 41 ELCB for electric power reception
42_1 sensor 42_2 sensor 42_3 sensor 43_1 switch 43_2 switch 43_3 switch 44 inverter transformer 45 bidirectional converter 46 converter control unit 50 power consumption control unit 51 switch control unit 52 load control unit 53 storage unit 54 load data input / output unit 55 LAN control unit 60 Load unit 65 Power storage battery 70 Weather information server

Claims (10)

A power transmission / reception unit that receives commercial power supplied from a commercial power source and supplies surplus power to the commercial power source among the generated power generated in the power generation unit;
A load unit that operates using the commercial power or the generated power;
A power consumption control unit that determines whether or not the surplus power increases using weather information transmitted from a weather information server connected via a public network, and sets an operation in the load unit according to a determination result; With
The power transmission / reception unit is
When the voltage value of the commercial power is larger than a predetermined threshold, the supply of the surplus power to the commercial power supply is stopped,
The power consumption control unit
When supply of the surplus power to the commercial power supply is stopped, setting information of the load unit is calculated so as to increase power consumed in the load unit using the surplus power, and the weather information is used. When it is determined that the surplus power increases, the calculated setting information is changed so as to further increase the power consumed in the load unit, and it is determined that the surplus power decreases using the weather information. The power control system changes the calculated setting information so as not to change the current setting information in the load unit or to reduce power consumed in the load unit . The power consumption control unit
2. The power according to claim 1, wherein when the supply of the surplus power to the commercial power supply is stopped, the operation of the load unit is changed so that the power consumption that is increased by the operation after the change is smaller than the surplus power. Control system. The power consumption control unit
The power control system according to claim 1, wherein the power control system includes information that associates an operation set to the load unit and power consumption of the operation, and determines the operation after the change using the information. The power consumption control unit
The power consumption that rises when the operation of the load unit is changed and the surplus power are displayed on the monitor, and selection instruction information regarding whether or not to change the operation of the load unit is received from the user who operates the monitor The power control system according to any one of claims 1 to 3. The power consumption control unit
The power control system according to any one of claims 1 to 3, wherein the operation of the load unit is changed when power consumption that increases when the operation of the load unit is changed is less than the surplus power. The power transmission / reception unit is
The supply of the surplus power to the commercial power supply is stopped when the voltage value of the commercial power is higher than the voltage value of the generated power output from the power generation unit. The power control system described. Commercial power,
A load unit that operates using the supplied power;
A power transmission / reception unit that receives the commercial power supplied from the commercial power source and supplies surplus power to the commercial power source among the generated power generated in the power generation unit, and a power consumption control unit that sets the operation in the load unit When the voltage value of the commercial power is greater than a predetermined threshold, the power transmission / reception unit stops supplying the surplus power to the commercial power source, and the power consumption control unit When the surplus power supply to the power supply stops, the surplus power is used to calculate the setting information of the load unit so as to increase the power consumed in the load unit, and the weather is connected via the public network If using the weather information transmitted from the information server determines whether the excess power is increased, the surplus power is determined to be increased, consumption in the load portion The calculated setting information is changed so as to further increase the power to be generated, and if it is determined that the surplus power decreases using the weather information, the current setting information in the load unit is not changed, or A power control system comprising: a power control device that changes the calculated setting information so as to reduce power consumed in the load unit . A power transmission / reception unit that receives commercial power supplied from a commercial power source, supplies generated power generated in a power generation unit or the commercial power to a load unit, and supplies surplus power of the generated power to the commercial power source; and
A power consumption control unit that determines whether or not the surplus power increases using weather information transmitted from a weather information server connected via a public network, and sets an operation in the load unit according to a determination result; With
The power transmission / reception unit is
When the voltage value of the commercial power is larger than a predetermined threshold, the supply of the surplus power to the commercial power supply is stopped,
The power consumption control unit
When supply of the surplus power to the commercial power supply is stopped, setting information of the load unit is calculated so as to increase power consumed in the load unit using the surplus power, and the weather information is used. When it is determined that the surplus power increases, the calculated setting information is changed so as to further increase the power consumed in the load unit, and it is determined that the surplus power decreases using the weather information. The power control apparatus changes the calculated setting information so as not to change the current setting information in the load unit or to reduce power consumed in the load unit . Determining whether the voltage value of the commercial power supplied from the commercial power supply is greater than a predetermined threshold;
When the voltage value of the commercial power is larger than a predetermined threshold, supply of the surplus power included in the generated power generated in the power generation unit to the commercial power supply is stopped,
When supply of the surplus power to the commercial power supply is stopped, the surplus power is used to calculate setting information of the load unit so as to increase the power consumed in the load unit, and connection is made via a public network It is determined whether the surplus power increases using the weather information transmitted from the weather information server, and when it is determined that the surplus power increases, the power consumed in the load unit is further increased. When the calculated setting information is changed and it is determined that the surplus power is reduced using the weather information, the current setting information in the load unit is not changed, or the power consumed in the load unit A power control method for changing the calculated setting information so as to decrease the value . Determining whether the voltage value of the commercial power supplied from the commercial power source is greater than a predetermined threshold;
When the voltage value of the commercial power is greater than a predetermined threshold, stopping the supply of surplus power included in the generated power generated in the power generation unit to the commercial power source; and
When supply of the surplus power to the commercial power supply is stopped, the surplus power is used to calculate setting information of the load unit so as to increase the power consumed in the load unit, and connection is made via a public network It is determined whether the surplus power increases using the weather information transmitted from the weather information server, and when it is determined that the surplus power increases, the power consumed in the load unit is further increased. When the calculated setting information is changed and it is determined that the surplus power is reduced using the weather information, the current setting information in the load unit is not changed, or the power consumed in the load unit A program for causing the computer to execute the step of changing the calculated setting information so as to decrease

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