JP2011160520A - Power controller, power system, and power control program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To give operation opportunity equally to each apparatus while suppressing its cost. <P>SOLUTION: A waiting time calculator 110 generates random numbers at specified timing, and calculates a waiting time based on the generated random numbers. A tolerable power calculator 120 calculates a tolerable power value, which shows the value of the tolerable power of a cable 1 based on the voltage of the cable 1 connected to its own device with a lapse of the waiting time after the specified timing. A reception/supply determinator 130 determines whether to permit the reception/supply of power by a power receiver and supplier 2, based on the tolerable power value and the received/supplied power value which shows the value of power that the power receiver and supplier 2 receives/supplies via the cable. A power reception/supply control unit 140 sets a power reception/supply period while the power receiver and supplier 2 receives/supplies power to a constant period, based on the determination results of the reception/supply determinator 130. Then, the power reception/control unit 140 supplies the power via the cable 1 to the power receiver and supplier 2 in the reception/supply period. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a power control device, a power system, and a power control program.

  A general electric power system often connects a plurality of devices to a single distribution line. Each device operates randomly and consumes its own power. In addition, this power system monitors the power consumption consumed by each device connected to the distribution line, and controls the breaker to supply power to each device when the total power consumption exceeds the allowable value. Shut off. In this manner, the power system controls the breaker based on the total value of power consumption, thereby protecting the distribution line and preventing disasters such as fires.

  Here, assuming that all devices connected on the same distribution line operate at the same time, if a power system is constructed using a distribution line that can withstand high current and high voltage, the cost becomes high. For this reason, a technique is known in which the operation timing of each device is controlled and the power consumption is leveled so that the maximum power consumption of the entire power system does not increase.

  FIG. 11 is a diagram for explaining the prior art. As illustrated in FIG. 11, the power system includes a power supply 5, a distribution line 10, devices 20 a to 20 c, and an operation control unit 30. Among these, the power source 5 supplies power to the distribution line 10. The distribution line 10 is connected to the devices 20a to 20c, and supplies the power supplied from the power source 5 to the devices 20a to 20c. The devices 20a to 20c operate by consuming predetermined power.

  When the operation control unit 30 receives an operation start request from each of the devices 20a to 20c, the operation control unit 30 controls the devices 20a to 20c so as not to operate at the same time, thereby leveling the power consumption. For example, when the operation control unit 30 simultaneously receives an operation start request from the devices 20a to 20c, the operation control unit 30 first operates the devices 20a and 20b, and then operates the device 20c after the operation of the device 20a is completed. In this manner, the operation control unit 30 can control the operation of the devices 20a to 20c, thereby leveling the power consumption of the entire power system. For this reason, while saving the power consumption of the whole electric power system, since an inexpensive distribution line can be used, the cost of an electric power system can be reduced.

  As another conventional technique, when the total power value of the entire system at the present time is estimated and an operation start request is received from an unoperated device, the device that made the operation start request is operated if there is enough power. Thus, a technique for leveling power consumption is also known.

JP 2007-199204 A JP-A-8-317565 JP 7-274394 A

  However, the above-described conventional technology is based on the premise that each device included in the power system stops operating in a short period. For this reason, when the operation period of a predetermined device becomes long, the operation of the remaining devices cannot be started, and it is not possible to equally give an operation opportunity to each device included in the power system. there were.

  For example, in FIG. 11, when the operation control unit 30 starts the operation from the devices 20a and 20b and the operation of the devices 20a and 20b continues for a long period of time, the operation control unit 30 gives an operation opportunity to the device 20c. Will not be able to.

  Further, in the technique shown in FIG. 11, the operation control unit 30 collects various information from all the devices 20a to 20c and controls the operations of the devices 20a to 20c. Will occur.

  The disclosed technology has been made in view of the above, and an object thereof is to provide a power control device, a power system, and a power control program capable of equally providing an operation opportunity to each device while suppressing cost. To do.

  In one aspect, the power control device disclosed in the present application generates a random number at a predetermined timing, calculates a waiting time based on the generated random number, and calculates the waiting time from the predetermined timing. After elapses, based on the voltage of the electric wire connected to its own device, an allowable power calculation unit that calculates an allowable power value indicating a value of the allowable power of the electric wire, the allowable power value, and the power supply / reception device are connected to the electric wire On the basis of the received power value indicating the value of the power received from the power receiving device, based on the determination result of the receiving determination unit, which determines whether to allow the power receiving device to receive power, It is a requirement that the power supply / reception device has a power reception period for receiving power, and that the power supply / reception control unit supplies power from the electric wire to the power supply / reception device during the power reception period.

  According to one aspect of the power control device disclosed in the present application, it is possible to equally give an operation opportunity to each device while suppressing cost.

FIG. 1 is a functional block diagram of the configuration of the power control apparatus according to the first embodiment. FIG. 2 is a diagram illustrating the configuration of the power system according to the second embodiment. FIG. 3 is a functional block diagram of the configuration of the total power consumption recording server according to the second embodiment. FIG. 4 is a functional block diagram illustrating the configuration of the power supply / reception control device. FIG. 5 is a diagram illustrating an example of a data structure of the learning table storage unit. FIG. 6 is a flowchart (1) illustrating a processing procedure of the power supply / reception control device. FIG. 7 is a flowchart (2) illustrating the processing procedure of the power supply / reception control device. FIG. 8 is a flowchart (3) illustrating the processing procedure of the power supply / reception control device. FIG. 9 is a flowchart (4) illustrating the processing procedure of the power supply / reception control device. FIG. 10 is a diagram illustrating a hardware configuration of a computer constituting the power supply / reception control device. FIG. 11 is a diagram for explaining the prior art.

  Hereinafter, embodiments of a power control apparatus, a power system, and a power control program disclosed in the present application will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

  A configuration of the power control apparatus according to the first embodiment will be described. FIG. 1 is a functional block diagram of the configuration of the power control apparatus according to the first embodiment. As illustrated in FIG. 1, the power control apparatus 100 includes a waiting time calculation unit 110, an allowable power calculation unit 120, a reception determination unit 130, and a power supply / reception control unit 140. The power control device 100 is connected to the electric wire 1 and the power supply / reception device 2.

  The waiting time calculation unit 110 generates a random number at a predetermined timing, and calculates the waiting time based on the generated random number. The allowable power calculation unit 120 calculates an allowable power value indicating the value of power that can be received from the electric wire 1 based on the voltage of the electric wire 1 connected to the own device after the waiting time has elapsed from a predetermined timing.

  Whether or not to allow the power supply / reception device 2 to receive power based on the allowable power value and the received power value indicating the value of the power received and used by the power supply / reception device 2 from the electric wire. Determine whether. The power supply / reception control unit 140 sets a reception period during which the power supply / reception device 2 receives power based on the determination result of the reception determination unit 130 to a certain period. The power supply / reception control unit 140 supplies power from the electric wire 1 to the power supply / reception device 2 during the reception period. The power supply / reception device 2 receives power from the electric wire 1 via the power control device 100.

  The power control apparatus 100 according to the first embodiment generates a random number at a predetermined timing, calculates a waiting time based on the generated random number, and supplies the power of the electric wire 1 to the power supply / reception device 2 after the waiting time has elapsed. It is determined whether or not to do. For this reason, even when the set of the power control device 100 and the power supply / reception device 2 is connected to the plurality of electric wires 1, an operation opportunity can be given according to the random number generation probability. For this reason, if the random number generation probability is made equal, each power supply / reception device 2 can be equally given an opportunity to operate. In addition, since the power control apparatus 100 sets the power reception period of the power supply / reception device 2 to a certain period, it is possible to prevent the power from being occupied by the specific power supply / reception device 2. Further, by using the power control device 100, it is not necessary to use a device that centrally manages power control of each power supply / reception device, so that the cost for network construction and control processing can be reduced.

  Next, the configuration of the power system according to the second embodiment will be described. FIG. 2 is a diagram illustrating the configuration of the power system according to the second embodiment. As shown in FIG. 2, the power system includes a power supply 50, a distribution line 60, power supply / reception terminals 70a to 70c, power supply / reception devices 80a to 80c, and power supply / reception control devices 200a to 200c. Here, for convenience of explanation, it is assumed that the power supply / reception devices 80a and 80b consume power and perform predetermined processing. The power supply / reception device 80 c generates power and supplies the generated power to the distribution line 60. The power supply / reception devices 80a and 80b may supply power to the distribution line 60, and the power supply / reception device 80c may receive power.

  The power supply 50 supplies power to the distribution line 60. The distribution line 60 is connected to the power supply / reception terminals 70a to 70c and the total power consumption recording server 90, and supplies power supplied from the power supply 50 to the power supply / reception devices 80a and 80b. Further, the distribution line 60 is supplied with electric power from a power supply / reception device 80c that generates electric power. The power supply / reception terminals 70a to 70c connect the power supply / reception control devices 200a to 200c and the distribution line 60, respectively.

  The power supply / reception devices 80a and 80b receive power from the distribution line 60 via the power supply / reception control devices 200a and 200b, respectively, and perform predetermined operations. When the power supply / reception devices 80a and 80b accept the receipt of power, the power supply / reception control device at the connection destination is requested to receive power.

  The power supply / reception device 80c generates power and supplies power to the distribution line 60 via the power supply / reception control device 200c. Any conventional technique may be used for power generation performed by the power supply / reception device 80c. For example, the power supply / reception device 80c may generate power using a technique such as solar power generation or wind power generation, or obtain electric power from mechanical energy using the law of electromagnetic induction like a generator. Also good.

  The total power consumption recording server 90 measures the voltage and current of the distribution line 60, and calculates the total power consumption that is the sum of the power consumption of the entire power system based on the measured voltage and current. Then, the total power consumption recording server 90 transmits the calculated total power consumption value, voltage value, and the like as correction information to the power supply / reception control devices 200a to 200c.

  The power supply / reception control devices 200a to 200c randomly set the standby time when the voltage of the distribution line 60 changes. Then, after the standby time has elapsed, the power supply / reception control devices 200a to 200c estimate the total power consumption of the entire power system, and receive power by the power supply / reception devices 80a to 80c based on the estimated power consumption values. Or supply is allowed for a certain period.

  Next, an example of the configuration of the total power consumption recording server 90 illustrated in FIG. 2 will be described. FIG. 3 is a functional block diagram of the configuration of the total power consumption recording server 90 according to the second embodiment. As illustrated in FIG. 3, the total power consumption recording server 90 includes a current voltage acquisition unit 91, a current voltage management table 92, a total power consumption calculation unit 93, and a total power consumption notification unit 94. In addition, a voltmeter 61 and an ammeter 62 are connected to the distribution line 60. The voltmeter 61 measures the voltage of the distribution line 60 and notifies the total power consumption recording server 90 of the measured voltage value. The ammeter 62 measures the current of the distribution line 60 and notifies the total power consumption recording server 90 of the measured current value.

The current / voltage acquisition unit 91 performs data communication with the voltmeter 61 and the ammeter 62, acquires the voltage value V ₀ (t) at the time t from the voltmeter 61, and the current value I (t (t) at the time t from the ammeter 62. ) To get. Then, the current voltage acquisition unit 91 registers the time t, the voltage value V ₀ (t), and the current value I (t) in the current voltage management table 92 in association with each other. The current-voltage management table 92 is a table that stores time t, voltage value V ₀ (t), and current value I (t) in association with each other.

The total power consumption calculation unit 93 calculates the total power consumption value P (t) of the entire power system based on the voltage value V ₀ (t) and the current value I (t) registered in the current / voltage management table 92. calculate. For example, the total power consumption calculation unit 93
P (t) = V ₀ (t) × I (t) (1)
Thus, the total power consumption value P (t) is calculated. The total power consumption calculation unit 93 outputs the total power consumption value P (t) and the voltage value V ₀ (t) to the total power consumption notification unit 94.

The total power consumption notification unit 94 outputs correction information to the power supply / reception control devices 200a to 200c. This correction information includes, for example, information that associates the total power consumption value P (t) with the voltage value V ₀ (t).

  Next, an example of the configuration of the power supply / reception control device 200a illustrated in FIG. 2 will be described. The configurations of the power supply / reception control devices 200b and 200c are the same as the configuration of the power supply / reception control device 200a. FIG. 4 is a functional block diagram showing the configuration of the power supply / reception control device 200a. As shown in FIG. 4, the power supply / reception control device 200a includes a correction information acquisition unit 201, a correction information storage unit 202, a voltage measurement unit 203, a total power determination unit 204, a learning table storage unit 205, a target power storage unit 206, The power receiving recommended power calculation unit 207 and the unused detection unit 208 are included. The power supply / reception control device 200a includes a power change point detection unit 209, a random number generation unit 210, a power supply / reception request reception unit 211, a power supply / reception start determination unit 212, a minimum standby time storage unit 213, a power supply / reception prohibition period determination unit 214, A power supply / reception end determination unit 215 and a power supply / reception control unit 216 are provided.

  The power supply / reception control device 200a is connected to the power supply / reception terminal 70a and the power supply / reception device 80a. The power supply / reception device 80a includes a power supply / reception terminal 81a and a power supply / reception request notification unit 81b. Among these, the power supply / reception terminal 81a is a terminal that receives or supplies power from the power supply / reception control apparatus 200a. The power supply / reception request notifying unit 81b is a processing unit that makes a power supply request or supply request to the power supply / reception control device 200a. The power supply / reception device 80a may not necessarily include the power supply / reception request notification unit 81b when the content of the power supply request and the content of the supply request are fixed.

  First, processing of the power supply / reception control device 200a when the power supply / reception device 80a receives power will be described.

  The correction information acquisition unit 201 is a processing unit that acquires correction information from the total power consumption recording server 90 and stores the acquired correction information in the correction information storage unit 202. The correction information storage unit 202 is a storage unit that stores correction information.

  The voltage measurement unit 203 is a processing unit that measures the voltage value V (t) of the distribution line connected to the power supply / reception terminal 70a. The voltage measurement unit 203 notifies the total power determination unit 204 of the measured voltage value V (t).

The total power determination unit 204 is based on the voltage value V (t) measured by the voltage measurement unit 203 and the correction information stored in the correction information storage unit 202, so that the total power consumption value P (t ). For example, the total power determination unit 204
P (t) = V ₀ × [{V ₀ −V (t)} / R ₀ ] (2)
Thus, the total power consumption value P (t) is calculated. In Expression (2), V ₀ corresponds to the voltage value V ₀ (t) included in the correction information. R ₀ corresponds to the resistance value of the distribution line 60. The total power determination unit 204 sends the estimated total power consumption value P (t) to the recommended reception power calculation unit 207, the unused detection unit 208, and the power change point detection unit 209. Note that the total power determination unit 204 may calculate P (t) using V ₀ and R ₀ measured in advance. The method for calculating the total power consumption value P (t) of the entire power system is not limited to the above method, and any known technique may be used.

  Further, every time the total power consumption value P (t) is calculated, the total power determination unit 204 stores information associating the voltage value V (t) and the total power consumption value P (t) with the learning table storage unit 205. To remember. The total power determination unit 204 may also store a combination of the voltage value and the total power consumption value included in the correction information stored in the correction information storage unit 202 in the learning table storage unit 205. The total power determination unit 204 may estimate the total power consumption value P (t) using information stored in the learning table storage unit 205. For example, when the total power determination unit 204 acquires the voltage value V (t) from the voltage measurement unit 203, the total power determination unit 204 compares the voltage value V (t) with information stored in the learning table storage unit 205. Then, the total power determination unit 204 identifies the total power consumption value P (t) corresponding to the voltage value V (t), and uses the identified total power consumption value P (t) as the recommended reception power calculation unit 207, unused. The data is sent to the detection unit 208 and the power change point detection unit 209. As described above, the total power determination unit 204 estimates the total power consumption value P (t) by using the information in the equation (2) or the learning table storage unit 205.

  The learning table storage unit 205 is a storage unit that stores the voltage value V (t) measured by the voltage measurement unit 203 and the total power consumption value P (t) calculated by the total power determination unit 204 in association with each other. FIG. 5 is a diagram illustrating an example of a data structure of the learning table storage unit. As illustrated in FIG. 5, the learning table storage unit 205 stores the voltage value V (t) and the total power consumption value P (t) in association with each other.

  The target power storage unit 206 is a storage unit that stores a target power value of the entire power system. This target power value is a power value set in advance by the administrator. Each of the power supply / reception control devices 200a to 200c permits the power supply / reception device 80a to receive and supply power based on the power consumption value and the target power value of the entire power system.

  The recommended power reception calculation unit 207 is a processing unit that calculates a difference between the target power value and the total power consumption value P (t) and notifies the power reception start determination unit 212 of the calculated value. In the following description, the value calculated by the recommended reception power calculation unit 207 is referred to as a recommended power value.

  The unused detection unit 208 acquires the total power consumption value P (t) from the total power determination unit 204, and whether or not the power supply / reception devices 80a to 80c are stopped based on the total power consumption value P (t). It is a processing part which determines. For example, the unused detection unit 208 determines that the power supply / reception devices 80a to 80c are stopped when the total power consumption value P (t) is included in a predetermined range. The unused detection unit 208 outputs a stop signal to the power supply / reception start determination unit 212 when it is determined that the power supply / reception devices 80a to 80c are stopped.

  The power change point detection unit 209 is a processing unit that detects a change in the total power consumption value P (t). For example, the power change point detection unit 209 uses the total power consumption value P (t) acquired from the total power determination unit 204 last time and the total power consumption value P (t) acquired from the total power determination unit 204 this time. Compare. The power change point detection unit 209 determines that the total power consumption value P (t) has changed when the absolute value of the difference between the total power consumption values P (t) is greater than or equal to the threshold, and the total power consumption value P ( The random number generator 210 is notified that t) has changed.

  The random number generation unit 210 is a processing unit that generates a random number and outputs the generated random number to the power supply / reception start determination unit 212 when receiving a notification that the total power consumption value P (t) has changed. When the random number generator 210 generates a random number, any conventional technique may be used.

  The power supply / reception request reception unit 211 is a processing unit that notifies the power reception / power supply start determination unit 212 of a power reception request and a power reception value when a power reception request is received from the power supply / reception device 80a. Here, the received power value is a value of power received by the power supply / reception device 80a. It is assumed that the power supply / reception request reception unit 211 acquires the received power value and the reception period from the power supply / reception device 80a in addition to the reception request. The receiving period is a period during which the power supply / reception device 80a receives the received power. Note that the power supply / reception request reception unit 211 may store the received power value and the reception period in advance.

  The power supply / reception start determination unit 212 is a processing unit that determines whether or not power reception by the power supply / reception device 80a is permitted when a reception request is received. The power supply / reception start determination unit 212 outputs the received power value to the power supply / reception control unit 216 when permitting power reception by the power supply / reception device 80a. In addition, the power supply / reception start determination unit 212 outputs a power reception / power supply start signal to the power reception / power supply end determination unit 215 at the timing when the power reception value is output to the power reception / power supply control unit 216.

  Hereinafter, the process of the power supply / reception start determination unit 212 will be specifically described. First, a process when the power supply / reception start determination unit 212 receives a stop signal from the unused detection unit 208 will be described. When the power supply / reception device 80a receives a reception request from the power supply / reception request reception unit 211 during the period in which the stop signal is received, the power reception / power supply device 80a immediately outputs the received power value to the power reception / power supply control unit 216. Since the power supply / reception devices 80a to 80c are stopped during the period when the stop signal is not received, there is no problem even if the power supply / reception device 80a is operated.

  Next, processing when the power supply / reception start determination unit 212 has not received a stop signal from the unused detection unit 208 will be described. The power supply start / reception determination unit 212 waits until a random number is acquired from the random number generation unit 210 when a reception request is received from the power supply / reception request reception unit 211 during a period in which no stop signal is received. Then, the power supply / reception start determination unit 212 calculates the standby time by acquiring the random number and then multiplying the random number by a predetermined time.

  The power supply / reception start determination unit 212 acquires the recommended power value from the recommended power reception calculation unit 207 after the standby time has elapsed from the timing when the random number is received. Then, when the recommended power value exceeds the received power value, the power supply / reception start determination unit 212 outputs the received power value to the power supply / reception control unit 216. When the recommended power value exceeds the received power value, even if the power supply / reception device 80a receives power, the power of the distribution line 60 can be used.

  The minimum standby time storage unit 213 is a storage unit that stores information from when the power supply / reception device 80a stops receiving power until the power supply / reception device 80a determines whether or not it can receive power again.

  The power supply / reception prohibition period determination unit 214 is a processing unit that determines a power reception prohibition period in which the power supply / reception device 80a is prohibited from receiving power. Specifically, the power supply / reception prohibition period determination unit 214 is a period from when the power reception / power supply end determination unit 215 ends the power reception by the power supply / reception device 80a to when the standby time of the minimum standby time storage unit 213 elapses. Is determined to be a period of prohibition of receipt. The power supply / reception prohibition period determination unit 214 outputs information on the power reception prohibition period to the power reception / reception end determination unit 215.

  The power supply / reception end determination unit 215 is a processing unit that determines whether or not to end the power reception by the power supply / reception device 80a. When it is determined that the reception is to be ended, the power supply / reception end determination unit 215 outputs a reception end instruction to the power supply / reception control unit 216. Specifically, the process of the power supply / reception end determination unit 215 will be described. The power reception end determination unit 215 waits from the timing at which the power reception start signal is received from the power reception / power supply start determination unit 212 until the reception period elapses. When the reception period elapses, the power reception end instruction is sent to the power reception control unit 216. Output. The power supply / reception end determination unit 215 outputs a power supply / reception prohibition signal to the power supply / reception control unit 216 from the timing when the power reception end instruction is output until the power supply / reception prohibition period elapses.

  The power supply / reception control unit 216 is a processing unit that controls power supply to the power supply / reception device 80a. Specifically, the power supply / reception control unit 216 supplies power corresponding to the received power value to the power supply / reception device 80a when the received power value is acquired from the power supply / reception start determination unit 212. The power supply / reception control unit 216 ends the supply of power to the power supply / reception device 80a when the power supply / reception control unit 216 acquires a power supply end instruction from the power reception / power supply end determination unit 215 after starting the supply of power to the power supply / reception device 80a. The power supply / reception control unit 216 does not supply power to the power supply / reception device 80a while receiving the power supply / reception prohibition signal from the power supply / reception end determination unit 215. The power supply / reception control unit 216 deletes the received power value after the start of receiving. In addition, when the power supply / reception control device 216 acquires the received power value while receiving the power supply / reception prohibition signal, the power supply / reception control device 216 ignores the received power value.

  Next, processing of the power supply / reception control device 200a when the power supply / reception device 80a supplies power will be described. The descriptions of the correction information acquisition unit 201, the correction information storage unit 202, the voltage measurement unit 203, the total power determination unit 204, and the learning table storage unit 205 are the same as described above. The description of the target power storage unit 206, the recommended reception power calculation unit 207, and the unused detection unit 208 is the same as described above. In the power supply / reception control device 200a, the description of the power change point detection unit 209 and the random number generation unit 210 is the same as described above.

  The power supply / reception request receiving unit 211 is a processing unit that notifies the power supply / reception start determination unit 212 of the supply request and the supply power value when a power supply request is received from the power supply / reception device 80a. Here, the supplied power value is a value of power supplied to the distribution line 60 by the power supply / reception device 80a. It is assumed that the power supply / reception request receiving unit 211 acquires the supply power value and the supply period from the power supply / reception device 80a in addition to the supply request. The supply period is a period during which the power supply / reception device 80a supplies supply power. The power supply / reception request accepting unit 211 may store the supply power value and the supply period in advance.

  The power supply / reception start determination unit 212 is a processing unit that determines whether or not to permit power supply by the power supply / reception device 80a when a supply request is received. The power supply / reception start determination unit 212 outputs the supply power value to the power supply / reception control device 216 when permitting power supply by the power supply / reception device 80a. The power supply / reception start determination unit 212 outputs a power supply start signal to the power supply / reception end determination unit 215 at the timing when the power supply value is output to the power supply / reception control unit 216.

  Hereinafter, the process of the power supply / reception start determination unit 212 will be specifically described. First, a process when the power supply / reception start determination unit 212 receives a stop signal from the unused detection unit 208 will be described. When the power supply / reception device 80a receives a supply request from the power supply / reception request reception unit 211 during the period in which the stop signal is received, the power supply / reception device 80a immediately outputs the supply power value to the power supply / reception control unit 216. Since the power supply / reception devices 80a to 80c are stopped during the period when the stop signal is not received, there is no problem even if the power supply / reception device 80a is operated.

  Next, processing when the power supply / reception start determination unit 212 has not received a stop signal from the unused detection unit 208 will be described. When receiving a supply request from the power supply / reception request reception unit 211 during a period in which no stop signal is received, the power supply / reception start determination unit 212 waits until a random number is acquired from the random number generation unit 210. After acquiring the random number, the power supply / reception start determination unit 212 calculates the standby time by multiplying the random number by a predetermined time.

  The power supply / reception start determination unit 212 acquires the recommended power value from the recommended power reception calculation unit 207 after the standby time has elapsed from the timing when the random number is received. The power supply / reception start determination unit 212 outputs the supply power value to the power supply / reception control unit 216 when the total value of the recommended power value and the supply power value is lower than the predetermined power value. When the total value of the recommended power value and the supplied power value is lower than the predetermined power value, even if the power supply / reception device 80a supplies power, the allowable power value of the distribution line 60 is not exceeded.

  The minimum standby time storage unit 213 is a storage unit that stores information on a standby time after the power supply / reception device 80a stops supplying power until the power supply / reception device 80a starts supplying again.

  The power supply / reception prohibition period determination unit 214 is a processing unit that determines a supply prohibition period during which power supply to the power supply / reception device 80a is prohibited. Specifically, the power supply / reception prohibition period determination unit 214 is a period from when the power reception / power supply end determination unit 215 ends the supply of power by the power supply / reception device 80a to when the standby time of the minimum standby time storage unit 213 elapses. Is determined as the supply prohibition period. The power supply / reception prohibition period determination unit 214 outputs information on the supply prohibition period to the power reception / reception end determination unit 215.

  The power supply / reception end determination unit 215 is a processing unit that determines whether or not to stop the power supply by the power supply / reception device 80a. The power supply / reception end determination unit 215 outputs a supply end request to the power supply / reception control unit 216 when it is determined to end the supply of power. Specifically, the process of the power supply / reception end determination unit 215 will be described. The power supply / reception end determination unit 215 waits until the supply period elapses from the timing when the supply start signal is received from the power supply / reception start determination unit 212, and when the supply period elapses, the power supply / reception end determination unit 215 sends a supply end request to the power supply / reception control unit 216. Output. Also, the power supply / reception end determination unit 215 outputs a power supply prohibition signal to the power supply / reception control unit 216 from the timing when the supply end request is output until the supply prohibition period elapses.

  The power supply / reception control unit 216 is a processing unit that controls power supply from the power supply / reception device 80a. Specifically, the power supply / reception control unit 216 outputs the power supplied from the power supply / reception device 80 a to the distribution line 60 when the supply power value is acquired from the power supply / reception start determination unit 212. The power supply / reception control unit 216 shuts off the supply of power from the power supply / reception device 80a when the supply / reception control unit 216 acquires a supply end request from the power reception / power supply end determination unit 215 after starting the power supply from the power supply / reception device 80a. Further, the power supply / reception control unit 216 cuts off the power supply from the power supply / reception device 80a while receiving the power supply prohibition signal from the power supply / reception end determination unit 215.

  Next, a processing procedure of the power supply / reception control device 200a according to the second embodiment will be described. First, after describing the processing procedure of the power supply / reception control device 200a when receiving a power supply request from the power supply / reception device 80a, the processing procedure of the power supply / reception control device 200a when receiving the supply request from the power supply / reception device 80a will be described. 6 to 9 are flowcharts showing the processing procedure of the power supply / reception control device. 6 and 7 illustrate a processing procedure of the power supply / reception control device 200a when receiving a power reception request from the power supply / reception device 80a. 8 and 9 illustrate the processing procedure of the power supply / reception control device 200a when a supply request is received from the power supply / reception device 80a.

  As illustrated in FIG. 6, the power supply / reception control device 200a determines whether a reception request has been received (step S101). When the power supply / reception control device 200a has not received a power reception request (No in step S101), the power supply control device 200a proceeds to step S101 again. When receiving / receiving request (Yes in step S101), the power supply / reception control device 200a acquires the received power value (step S102).

  The power supply / reception control device 200a measures the voltage of the power supply / reception terminal 70a (step S103), and estimates the total power consumption value (step S104). Then, the power supply / reception control device 200a determines whether or not power is unused (step S105). When the power is not used (step S105, Yes), the power supply / reception control device 200a sets the timer to an initial value (step S106), and proceeds to step S117 in FIG.

  On the other hand, when power is not unused (No at Step S105), the power supply / reception control device 200a measures the voltage at the power supply / reception terminal 70a (Step S107) and estimates the total power consumption value (Step S108). The power supply / reception control device 200a determines whether or not a change in power is detected (step S109). The power supply / reception control device 200a proceeds to step S103 when no change in power is detected (No in step S109). On the other hand, when detecting a change in power (step S109, Yes), the power supply / reception control device 200a sets the timer to an initial value (step S110), and proceeds to step S111 in FIG.

  Shifting to the description of FIG. The power supply / reception control device 200a generates a random number (step S111) and determines whether or not the waiting time has elapsed (step S112). When the waiting time has not elapsed (No at Step S112), the power supply / reception control device 200a proceeds to Step S112 again.

  On the other hand, when the waiting time has elapsed (step S112, Yes), the power supply / reception control device 200a measures the voltage of the power supply / reception terminal 70a (step S113) and estimates the total power consumption value (step S114). ). The power supply / reception control device 200a calculates an estimated power value (step S115) and determines whether or not to start power supply (step S116).

  The power supply / reception control device 200a proceeds to step S101 in FIG. 6 when the supply is not started (No in step S116). On the other hand, when the supply / reception control device 200a starts supply (step S116, Yes), it starts supplying power to the power supply / reception device 80a and starts a timer (step S117).

  The power supply / reception control device 200a determines whether or not the timer has expired (step S118). Here, the expiration of the timer is equivalent to the end of the receiving period. When the timer has not expired (No at Step S118), the power supply / reception control device 200a proceeds to Step S118 again.

  When the timer expires (Yes at Step S118), the power supply / reception control device 200a ends the supply (Step S119). The power supply / reception control device 200a determines whether or not the power supply / reception prohibition period has elapsed (step S120). When the power supply / reception prohibition period has not elapsed (No at Step S120), the power supply / reception control device 200a proceeds to Step S120 again. On the other hand, when the power supply / reception prohibition period has elapsed (step S120, Yes), the power supply / reception control device 200a proceeds to step S101 in FIG.

  As illustrated in FIG. 8, the power supply / reception control device 200a determines whether a supply request has been received (step S201). When the power supply / reception control device 200a has not received a supply request (step S201, No), the power supply / reception control device 200a proceeds to step S201 again. When the power supply / reception control device 200a receives a supply request (step S201, Yes), the power supply / reception control device 200a acquires a supply power value (step S202).

  The power supply / reception control device 200a measures the voltage of the power supply / reception terminal 70a (step S203), and estimates the total power consumption value (step S204). Then, the power supply / reception control device 200a determines whether or not power is unused (step S205). When the power is not used (step S205, Yes), the power supply / reception control device 200a sets the timer to an initial value (step S206), and proceeds to step S217 in FIG.

  On the other hand, when power is not unused (No in step S205), the power supply / reception control device 200a measures the voltage of the power supply / reception terminal 70a (step S207) and estimates the total power consumption value (step S208). The power supply / reception control device 200a determines whether or not a change in power is detected (step S209). The power supply / reception control device 200a proceeds to step S203 when a change in power is not detected (step S209, No). On the other hand, when the power supply / reception control device 200a detects a change in power (step S209, Yes), it sets the timer to an initial value (step S210), and proceeds to step S211 in FIG.

  The description shifts to the description of FIG. The power supply / reception control device 200a generates a random number (step S211), and determines whether the waiting time has elapsed (step S212). When the waiting time has not elapsed (step S212, No), the power supply / reception control device 200a proceeds to step S212 again.

  On the other hand, when the waiting time has elapsed (step S212, Yes), the power supply / reception control device 200a measures the voltage of the power supply / reception terminal 70a (step S213) and estimates the total power consumption value (step S214). ). The power supply / reception control device 200a calculates an estimated power value (step S215), and determines whether to start accepting power supply (step S216).

  The power supply / reception control device 200a proceeds to step S201 in FIG. 8 when the reception of power supply is not started (step S216, No). On the other hand, if the power supply / reception control device 200a starts accepting power supply (step S216, Yes), it starts accepting supply to the power supply / reception device 80a and starts a timer (step S217).

  The power supply / reception control device 200a determines whether or not the timer has expired (step S218). Here, the expiration of the timer is equivalent to the end of the supply period. When the timer has not expired (No at Step S218), the power supply / reception control device 200a proceeds to Step S218 again.

  When the timer expires (step S218, Yes), the power supply / reception control device 200a blocks the acceptance of the supply (step S219). The power supply / reception control device 200a determines whether or not the power supply prohibition period has elapsed (step S220). When the power supply prohibition period has not elapsed (No at Step S220), the power supply / reception control device 200a proceeds to Step S220 again. On the other hand, when the power supply prohibition period has elapsed (Yes in step S220), the power supply / reception control device 200a proceeds to step S201 in FIG.

  6 to 9, the process of the power supply / reception control device 200a when receiving a power supply request from the power supply / reception device 80a and the process of the power supply / reception control device 200a when receiving a supply request from the power supply / reception device 80a are shown separately. It was. However, each process may be shared.

  As described above, the power supply / reception control device 200a according to the second embodiment generates a random number at a timing when the power changes, and calculates a standby time based on the generated random number. Then, the power supply / reception control device 200a determines whether or not the power of the distribution line 60 is supplied to the power supply / reception device 80a after the standby time has elapsed. For this reason, even when a set of the power supply / reception control device 200 and the power supply / reception device 80 is connected to the plurality of distribution lines 60, an operation opportunity can be equally given to each power supply / reception device 80.

  Further, the power supply / reception control device 200a according to the second embodiment generates a random number at a timing when the power changes, and calculates a standby time based on the generated random number. Then, the power supply / reception control device 200a determines whether or not the power generated by the power supply / reception device is supplied to the distribution line 60 after the standby time has elapsed. For this reason, even if the power supply / reception device 80 that supplies power and the power supply / reception device 80 that receives power are mixed in the power system, each power supply / reception device 80 can be equally provided with an operation opportunity.

  Further, the power supply / reception control device 200a according to the second embodiment prohibits power reception by the same power supply / reception device 80 for a certain period of time after the power reception by the power supply / reception device 80 ends. For this reason, it is possible to prevent the power of the distribution line 60 from being occupied by the predetermined power supply / reception device 80 included in the power system.

  Further, every time the total power consumption value is calculated, the power supply / reception control apparatus 200a according to the second embodiment stores information in which the voltage value and the total power consumption value are associated with each other in the learning table storage unit 205. Since the power supply / reception control device 200a estimates the total power consumption value using the learning table storage unit 205 that stores past calculation results, the calculation cost can be reduced.

  In the power supply / reception control device 200a according to the second embodiment, the length of the reception period and the supply period may be the same as the length of the reception period and the supply period of other power supply / reception control devices. In this way, by making the length of the receiving period and the supply period the same, it is possible to prevent the power supply by other power supply / reception devices from being stopped while a power supply / reception device receives power. it can.

  The power supply / reception control device 200a according to the second embodiment may change the reception period or the supply period according to the characteristics of the power supply / reception device 80a. For example, when the storage battery is provided in the power supply / reception device 80a, the power supply / reception control device 200a halves the reception period or the supply period of the power supply / reception device 80a. The power supply / reception control device 200a doubles the reception period or the supply period of the power supply / reception device 80a when the storage battery is not provided in the power supply / reception device 80a. In this way, the power supply / reception control device 200a can efficiently supply power to the power supply / reception device that requires power by changing the power reception period or the supply period according to the characteristics of the power supply / reception device 80a.

  The power supply / reception control device 200a according to the second embodiment may adjust the upper limit or lower limit of the random number for determining the standby time according to the characteristics of the power supply / reception device 80a. For example, when the power supply / reception device 80a is a refrigerator, the power supply / reception control device 200a makes the upper limit or lower limit of the random number smaller than the threshold. In addition, when the power supply / reception device 80a is an air conditioner, the power supply / reception control device 200a makes the upper limit or lower limit of the random number larger than the threshold. As described above, the power supply / reception control device 200a controls the operation opportunity of each power supply / reception device 80 by adjusting the upper limit or lower limit of the random number for determining the standby time according to the characteristics of the power supply / reception device 80a. Can be possible.

  In addition, the power supply / reception control device 200a according to the second embodiment obtains update information on the upper limit or lower limit of the random number, the receiving period, and the supply period from the total power consumption recording server 90, and the upper limit or lower limit of the random number, the receiving period, and the supply The period may be updated. In this way, by updating the upper limit or lower limit of the random number, the receiving period, and the supplying period, it is possible to more efficiently give the power supply / reception devices 80 equal operational opportunities.

  In the second embodiment, the case where the total power consumption recording server 90 exists in the power system has been described as an example. However, the total power consumption recording server 90 may not exist in such a power system.

  By the way, all or some of the processes described as being automatically performed among the processes described in the present embodiment can be manually performed. Alternatively, all or part of the processing described as being performed manually can be automatically performed by a known method. In addition, the processing procedure, control procedure, specific name, and information including various data and parameters shown in the above-described document and drawings can be arbitrarily changed unless otherwise specified.

  Further, each component of each illustrated apparatus is functionally conceptual, and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each device is not limited to that shown in the figure, and all or a part thereof may be functionally or physically distributed or arbitrarily distributed in arbitrary units according to various loads or usage conditions. Can be integrated and configured. For example, each information stored in the correction information storage unit 202, the learning table storage unit 205, the target power storage unit 206, and the minimum standby time storage unit 213 may be stored in a single storage unit.

  Each processing function performed in the power supply / reception control device 200a is realized in whole or in any part by a CPU and a program that is analyzed and executed by the CPU, or as hardware by wired logic. Can be done.

  FIG. 10 is a diagram illustrating a hardware configuration of a computer constituting the power supply / reception control device. As illustrated in FIG. 10, the computer 300 includes a CPU 301 that executes various arithmetic processes, an input device 302 that receives input of data from a user, and a monitor 303. The computer 300 includes a medium reading device 304 that reads a program and the like from a storage medium, and a network interface device 305 that exchanges data with other computers via a network. In addition, the computer 300 includes a power supply / reception terminal 306 connected to the distribution line, a power supply / reception control device 307 corresponding to the power supply / reception control unit 216 illustrated in FIG. 4, a RAM 308 that temporarily stores various information, and a hard disk device 309. Have. Each device 301 to 309 is connected to the bus 310.

  The hard disk device 309 stores a power supply / reception control program 309a and various data 309b. The various data 309b corresponds to each information stored in the correction information storage unit 202, the learning table storage unit 205, the target power storage unit 206, and the minimum standby time storage unit 213 illustrated in FIG.

  When the CPU 301 reads the power supply / reception control program 309a from the hard disk device 309 and expands it in the RAM 308, the power supply / reception control program 309a functions as the power supply / reception control process 308a. The power supply / reception control process 308a corresponds to the voltage measurement unit 203, the total power determination unit 204, the recommended reception power calculation unit 207, and the unused detection unit 208 illustrated in FIG. In addition, the power supply / reception control process 308 a includes a power change point detection unit 209, a random number generation unit 210, a power supply / reception request reception unit 211, a power supply / reception start determination unit 212, a power supply / reception prohibition period determination unit 214, and a power reception / power supply end determination unit 215. Correspond. The power supply / reception control process 308a controls the power supply / reception control device 307 in response to a power reception request or the like, and supplies power to the power supply / reception device.

  The power supply / reception control program 309a is not necessarily stored in the hard disk device 309, and the computer 300 may read and execute a program stored in a storage medium such as a CD-ROM. . The power supply / reception control program 309a is stored in a public line, the Internet, a LAN (Local Area Network), a WAN (Wide Area Network), etc., and the computer 300 reads out and executes the power supply / reception control program 309a. It may be.

  The following supplementary notes are further disclosed with respect to the embodiments including the above examples.

(Supplementary Note 1) A waiting time calculating unit that generates a random number at a predetermined timing and calculates a waiting time based on the generated random number;
Allowable power calculation for calculating an allowable power value indicating a value of power that can be received by the power supply / reception device from the electric wire based on the voltage of the electric wire connected to the device after the waiting time has elapsed from the predetermined timing. And
A reception determination unit that determines whether or not to allow the power supply / reception device to receive power based on the allowable power value and a power reception value indicating a value of power received by the power supply / reception device from the electric wire. When,
Based on the determination result of the receiving determination unit, a receiving period in which the power supply / reception device receives power is set to a fixed period, and power from the electric wire is supplied to the power supply / reception device during the reception period. A power control apparatus comprising: a control unit.

(Supplementary note 2) The power control device according to supplementary note 1, wherein the waiting time calculating unit generates a random number at a timing when the voltage of the electric wire changes, and calculates the waiting time based on the generated random number. .

(Additional remark 3) The said receipt determination part further determines whether supply of the electric power by the said electric power feeder is permitted based on the electric power value which shows the value of the electric power which the said electric power feeder supplies to the said electric wire The power supply / reception control unit supplies power from the power supply / reception device to the electric wire during a supply period in which the power supply / reception device supplies power based on a determination result of the reception determination unit. The power control apparatus according to Supplementary Note 1 or 2.

(Additional remark 4) The said receipt control part makes the length of the said receipt period and the said supply period which an other apparatus sets, and the length of the said receipt period and the said supply period which an own apparatus sets, It is characterized by the above-mentioned. The power control apparatus according to appendix 1, 2, or 3.

(Additional remark 5) The said receipt control part prohibits supply of the electric power from the said electric wire to the said power supply / reception apparatus from the said electric wire, or the supply of the electric power to the said electric wire from the said electric power supply / reception apparatus for a fixed time after the said receipt period or the said supply period is complete | finished. The power control apparatus according to any one of supplementary notes 1 to 4, wherein

(Additional remark 6) The said receipt control part sets the said receipt period or the said supply period to the period calculated | required by multiplying the predetermined | prescribed period and the numerical value calculated | required according to the characteristic of the said power supply / reception apparatus. The power control apparatus according to any one of appendices 1 to 5.

(Additional remark 7) The said waiting time calculation part adjusts the upper limit or the lower limit of a random number based on the characteristic of the said power supply / reception apparatus, The power control apparatus as described in any one of Additional remark 1-6 characterized by the above-mentioned.

(Additional remark 8) Whenever the said allowable power value is calculated, the said allowable power calculation part matches the voltage utilized for calculation of the said allowable power value, and the said allowable power value, and memorize | stores it in the learning table, The said learning table The power control device according to any one of appendices 1 to 7, wherein the allowable power value is calculated by further using

(Additional remark 9) It further has the parameter adjustment part which receives the update information of the upper limit or lower limit of a random number, the said receipt period, and the said supply period, and adjusts the upper limit or lower limit of a random number, the said receipt period, and the said supply period, It is characterized by the above-mentioned. The power control apparatus according to any one of Supplementary notes 1 to 8.

(Supplementary Note 10) A power system having a plurality of power supply / reception devices that operate using power of a distribution line and a plurality of power control devices that perform power control of each of the power supply / reception devices
Each of the power control devices
A waiting time calculating unit that generates a random number at a predetermined timing and calculates a waiting time based on the generated random number;
Allowable power calculation for calculating an allowable power value indicating a value of power that can be received by the power supply / reception device from the electric wire based on the voltage of the electric wire connected to the device after the waiting time has elapsed from the predetermined timing. And
A reception determination unit that determines whether or not to allow the power supply / reception device to receive power based on the allowable power value and a power reception value indicating a value of power received by the power supply / reception device from the electric wire. When,
Based on the determination result of the receiving determination unit, a receiving period in which the power supply / reception device receives power is set to a fixed period, and power from the electric wire is supplied to the power supply / reception device during the reception period. A power system comprising: a control unit.

(Supplementary Note 11) The power control device is
Generating a random number at a predetermined timing, and calculating a waiting time based on the generated random number;
Calculating an allowable power value indicating a value of power that can be received by the power supply / reception device from the wire based on the voltage of the wire connected to the device after the waiting time has elapsed from the predetermined timing;
Determining whether to allow the power supply / reception device to receive power based on the allowable power value and the received power value indicating the value of power received by the power supply / reception device from the wire;
Based on the determination result of whether or not to allow the power supply / reception device to receive power, the power supply / reception device sets a reception period for receiving power to a fixed period, and during the power reception period, power from the electric wire is set. Supplying the power to the power supply / reception device.

(Supplementary note 12)
A waiting time calculating procedure for generating a random number at a predetermined timing and calculating a waiting time based on the generated random number;
Allowable power calculation for calculating an allowable power value indicating a value of power that can be received by the power supply / reception device from the electric wire based on the voltage of the electric wire connected to the device after the waiting time has elapsed from the predetermined timing. Procedure and
A reception determination procedure for determining whether or not to allow the power supply / reception device to receive power based on the allowable power value and a received power value indicating a value of power received by the power supply / reception device from the electric wire. When,
Based on the determination result of the receiving determination procedure, a receiving period in which the power supply / reception device receives power is set to a certain period, and power from the electric wire is supplied to the power supply / reception device during the receiving period. A power control program for executing a control procedure.

DESCRIPTION OF SYMBOLS 100 Power control apparatus 110 Wait time calculation part 120 Allowable power calculation part 130 Receipt determination part 140 Power supply / reception control part

Claims (7)

A waiting time calculating unit that generates a random number at a predetermined timing and calculates a waiting time based on the generated random number;
Allowable power calculation for calculating an allowable power value indicating a value of power that can be received by the power supply / reception device from the electric wire based on the voltage of the electric wire connected to the device after the waiting time has elapsed from the predetermined timing. And
A reception determination unit that determines whether or not to allow the power supply / reception device to receive power based on the allowable power value and a power reception value indicating a value of power received by the power supply / reception device from the electric wire. When,
Based on the determination result of the receiving determination unit, a receiving period in which the power supply / reception device receives power is set to a fixed period, and power from the electric wire is supplied to the power supply / reception device during the reception period. A power control apparatus comprising: a control unit.   The power control device according to claim 1, wherein the waiting time calculation unit generates a random number at a timing when the voltage of the electric wire changes, and calculates the waiting time based on the generated random number.   The receipt determination unit further determines whether to permit the supply of power by the power supply / reception device based on a supply power value indicating a value of power supplied to the electric wire by the power supply / reception device, and The power control unit supplies power from the power supply / reception device to the electric wire during a supply period in which the power supply / reception device supplies power based on a determination result of the power reception determination unit. The power control apparatus according to 1 or 2.   The receipt control unit makes the length of the receipt period and the supply period set by another device equal to the length of the receipt period and the supply period set by the own device. The power control apparatus according to 2 or 3.   The receipt control unit prohibits, for a certain period of time, supply of electric power from the electric wire to the power supply / reception device or supply of electric power from the power supply / reception device to the electric wire after the receipt period or the supply period ends. The power control apparatus according to any one of claims 1 to 4. A power system having a plurality of power supply / reception devices that operate using power of a distribution line and a plurality of power control devices that respectively perform power control of each of the power supply / reception devices,
Each of the power control devices
A waiting time calculating unit that generates a random number at a predetermined timing and calculates a waiting time based on the generated random number;
Allowable power calculation for calculating an allowable power value indicating a value of power that can be received by the power supply / reception device from the electric wire based on the voltage of the electric wire connected to the device after the waiting time has elapsed from the predetermined timing. And
A reception determination unit that determines whether or not to allow the power supply / reception device to receive power based on the allowable power value and a power reception value indicating a value of power received by the power supply / reception device from the electric wire. When,
Based on the determination result of the receiving determination unit, a receiving period in which the power supply / reception device receives power is set to a fixed period, and power from the electric wire is supplied to the power supply / reception device during the reception period. A power system comprising: a control unit. On the computer,
A waiting time calculating procedure for generating a random number at a predetermined timing and calculating a waiting time based on the generated random number;
Allowable power calculation for calculating an allowable power value indicating the value of power that can be received by the power supply / reception device from the electric wire based on the voltage of the electric wire connected to the device after the waiting time has elapsed from the predetermined timing. Procedure and
A reception determination procedure for determining whether or not to allow the power supply / reception device to receive power based on the allowable power value and a received power value indicating a value of power received by the power supply / reception device from the electric wire. When,
Based on the determination result of the receiving determination procedure, a receiving period in which the power supply / reception device receives power is set to a certain period, and power from the electric wire is supplied to the power supply / reception device during the receiving period. A power control program for executing a control procedure.

Images