JP2014153337A - Electric energy calculation device and electric energy calculation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce deviation between the measurement value of a power measurement device and the measurement value of a power meter, and to show the transition of integral power consumption in detail.SOLUTION: In a management device (electric energy calculation device) 1, a first communication part (communication part) 11 acquires the measurement value of integral power consumption from a power meter 5 which measures a power to be supplied from an electricity undertaker to a client by communication at a first time interval, and acquires an instantaneous power value indicating the scale of an instantaneous power to be supplied from the electricity undertaker to the client at a second time interval shorter than the first time interval, and the calculation part of an arithmetic part 13 acquires the latest integral power consumption at a point of time when the first communication part 11 acquires the instantaneous power value by using the measurement value of the integral power consumption acquired by the first communication part 11, the instantaneous power value acquired by the first communication part 11 and the second time interval, and a second communication part (output part) 14 outputs the calculation result of the calculation part to a monitor 6.

Description

  The present invention relates to an electric energy calculation device and an electric energy calculation system for obtaining an integrated electric energy supplied to a consumer from an electric utility (for example, an electric power supplier such as an electric power company).

  2. Description of the Related Art Conventionally, a technique for measuring an integrated power amount supplied from an electric power company to a consumer using a power measuring device built in a distribution board is known (see, for example, Patent Document 1).

  However, there is a problem that the measured value of the power measuring device is different from the measured value of the billing power meter.

  On the other hand, when a power meter having a communication function, a so-called smart meter, becomes widespread, a technique for receiving a measured value of the integrated power amount from the power meter can be used.

JP 2009-130983 A

  However, in the conventional technique, the measured value of the integrated power amount can be acquired from the power meter only every 30 minutes. For this reason, even if the measurement value is received from the power meter, the integrated electric energy can be updated only every 30 minutes, and the transition of the integrated electric energy in less than 30 minutes cannot be shown.

  The present invention is an invention made in view of the above points, and an object of the present invention is to reduce the deviation from the measured value of the power meter and to show the transition of the integrated power amount in detail. To provide a calculation device and a power amount calculation system.

  The power amount calculation device of the present invention includes a communication unit that acquires a measured value of an integrated power amount by communication at a first time interval from a power meter that measures power supplied from an electric power company to a consumer, and the electric power business An acquisition unit for acquiring an instantaneous power value representing the magnitude of the instantaneous power supplied from the user to the consumer at a second time interval shorter than the first time interval; and the acquisition unit calculates the instantaneous power value A calculation unit that obtains the latest integrated power amount at the time of acquisition, and an output unit that outputs a calculation result of the calculation unit, the calculation unit, when the acquisition unit acquires the instantaneous power value, The latest integrated electric energy is obtained using the measured value of the integrated electric energy acquired by the communication unit, the instantaneous electric power value acquired by the acquiring unit, and the second time interval. .

  In this power amount calculation device, it is preferable that the power meter measures instantaneous power, and the acquisition unit acquires the instantaneous power value from the power meter.

  In this power amount calculation device, it is preferable that the acquisition unit measures the power of the customer's main circuit as the instantaneous power and acquires the instantaneous power value.

  In the power amount calculation device, a fluctuation that varies the second time interval according to at least one of the measured value of the integrated power amount acquired by the communication unit and the instantaneous power value acquired by the acquisition unit. The acquisition unit preferably acquires the instantaneous power at the second time interval changed by the change unit.

  The power amount calculation device preferably further includes a correction unit that corrects the integrated power amount based on the measurement value of the acquisition unit so as to match the measurement value of the integrated power amount acquired by the communication unit.

  In this power amount calculation device, the acquisition unit further measures and acquires the power of each of the plurality of branch circuits of the consumer, and the correction unit calculates the sum of the measured values of the plurality of branch circuits and the trunk. It is preferable to correct the measured values of each of the plurality of branch circuits so that the measured values of the circuits match.

  The power amount calculation system of the present invention includes the power amount calculation device, a main breaker to which the power meter is connected on the primary side, and a plurality of branch breakers inserted between a secondary side of the main breaker and a load. And a distribution board in which the power amount calculation device, the main breaker, and the plurality of branch breakers are housed.

  In the present invention, the deviation from the measured value of the power meter can be reduced, and the transition of the integrated electric energy can be shown in detail.

It is the schematic of the electric energy calculation system which concerns on Embodiment 1. FIG. It is a figure which shows transition of integrated electric energy. FIG. 3 is a sequence diagram illustrating an operation of the power amount calculation system according to the first embodiment. It is the schematic of the electric energy calculation system which concerns on Embodiment 2. FIG. FIG. 10 is a sequence diagram illustrating an operation of the power amount calculation system according to the second embodiment. It is explanatory drawing of operation | movement of the electric energy calculation system which concerns on Embodiment 3. FIG. It is the schematic of the electric energy calculation system which concerns on Embodiment 3. FIG. It is the schematic of the electric energy calculation system which concerns on Embodiment 4.

  The management devices (power amount calculation devices) according to the following first to fifth embodiments acquire the measured value of the integrated power amount from the power meter by communication at the first time interval, and the second is shorter than the first time interval. The instantaneous power value is acquired at the time interval. When the instantaneous power value is acquired, the management device uses the measured value of the integrated power amount, the instantaneous power value, and the second time interval to obtain the latest integrated power amount at the time of acquiring the instantaneous power value. Find and output.

  That is, the management device estimates the latest integrated power amount at a time interval (second time interval) shorter than an acquisition interval (first time interval) at which the measured value of the integrated power amount is acquired from the power meter.

  Hereinafter, the details of the management device according to the first to fifth embodiments will be described with reference to the drawings.

(Embodiment 1)
The management device (power amount calculation device) 1 according to the first embodiment manages the state of a plurality of loads (not shown) provided in a consumer (not shown) and the amount of power used by the consumer. HEMS (Home Energy Management System) unit. As shown in FIG. 1, the management apparatus 1 is accommodated in the distribution board 2 provided in the consumer. In the distribution board 2, in addition to the management device 1, a main breaker 3 and a plurality of branch breakers 4, 4,. A power meter 5 is connected to the primary side of the main breaker 3. A monitor 6 is connected to the management device 1. The management device 1, the distribution board 2, the main breaker 3, the plurality of branch breakers 4, 4,..., The power meter 5 and the monitor 6 constitute an electric energy calculation system.

  In addition, although this embodiment demonstrates the case where a consumer is a detached house, a consumer is not restricted to a detached house, For example, each dwelling unit of an apartment house may be sufficient, an office, a factory, etc. It may be.

  The power meter 5 is an electronic power meter having a communication function, a so-called smart meter. The power meter 5 is a billing meter installed at the consumer in order to charge the consumer from the electric utility. The electric power meter 5 measures the integrated electric energy supplied from an electric power company to a consumer. The power meter 5 includes a weighing unit 51 and a communication unit 52.

  The measuring unit 51 includes a measuring unit (not shown) for measuring the integrated power amount, and a switch (not shown) inserted in a distribution line from an electric power company to a consumer. The measuring unit is inserted into the distribution line from the electric power company to the consumer, and obtains the integrated power amount supplied from the electric power company to the consumer side by integrating the instantaneous power. That is, the metering unit measures the instantaneous power supplied from the electric power company to the consumer, calculates the integrated power amount by integrating the instantaneous power every first time (for example, 30 minutes), and calculates the integrated power amount. Is output to the communication unit 52 as a meter reading result. The instantaneous power is, for example, a power amount for 1 second. The distribution line in the weighing unit 51 is connected to a pole transformer (not shown) on the supply side, and connected to the distribution board 2 in the house on the demand side. A switch opens and closes a distribution line from an electric power company to a consumer, for example, according to an instruction of a center device (not shown) of the electric power company.

  The communication unit 52 includes a communication unit 521 provided for communicating with a parent device (not shown) and a communication unit 522 provided for communicating with the management apparatus 1.

  The communication unit 521 transmits meter reading information indicating the accumulated power measured by the measuring unit 51 to a center device (not shown) of an electric power company via a master unit (not shown). A plurality of consumer communication units 52 (communication unit 521) and a master unit construct a communication system for performing remote meter reading on meter reading information. The base unit communicates with each of the plurality of communication units 52 (communication unit 521).

  In the communication system, the communication unit 52 transmits and receives a radio signal using a multi-hop communication method that enables communication with a parent device using another communication unit 52 for relaying communication. That is, in the communication system, each communication unit 52 and the parent device communicate directly or indirectly, and a communication unit 52 that cannot communicate directly with the parent device is sequentially relayed by other communication units 52 within a communicable distance. To communicate with the base unit. In the case of the communication unit 52 that cannot directly communicate with the parent device, the communication route between the communication unit 52 and the parent device is determined in consideration of the communication quality between the communication units 52 that directly communicate with the plurality of candidates. Is done.

  The center device is, for example, a management server operated by an electric power company or a service providing company entrusted by the electric power company. The center device collects meter reading information of each customer. The center device can acquire not only meter reading information but also information other than meter reading information from each communication unit 52.

  The communication unit 522 of the communication unit 52 transmits the measured value of the integrated power amount measured by the measuring unit 51 to the management device 1 in response to the request for the integrated power amount from the management device 1. Further, the communication unit 522 transmits the instantaneous power value measured by the measuring unit 51 to the management device 1 in response to the request for the instantaneous power value from the management device 1.

  The management device 1 includes a first communication unit (communication unit, acquisition unit) 11, a clock unit 12, a calculation unit 13, a second communication unit (output unit) 14, a storage unit 15, and a power supply unit 16. And. The management device 1 includes, for example, a computer (including a microcomputer) on which a CPU (Central Processing Unit) and a memory are mounted as main components.

  The first communication unit 11 exchanges information with the communication unit 52 (communication unit 522) of the power meter 5 by PLC (Power Line Communications). The 1st communication part 11 acquires the measured value of integrated electric energy from the electric power meter 5 by communication at a 1st time interval (for example, 30 minute interval).

  Moreover, the 1st communication part 11 acquires an instantaneous electric power value by communication from the communication unit 52 of the electric power meter 5 by the 2nd time interval (for example, 3 minute interval) shorter than a 1st time interval. The instantaneous power value is a value representing the magnitude of the instantaneous power supplied from the electric power company to the consumer.

  The timer 12 measures the first time interval and the second time interval shorter than the first time interval.

  The calculation unit 13 includes a calculation unit (not shown) that obtains the latest integrated power amount at the time when the first communication unit 11 acquires the instantaneous power value. When the first communication unit 11 acquires the instantaneous power value, the calculation unit adds the product of the instantaneous power value and the second time interval to the measured value of the integrated power amount, and calculates the latest integrated power amount. Ask.

  The second communication unit 14 communicates with the monitor 6. The second communication unit 14 outputs the calculation result of the calculation unit 13 to the monitor 6. Communication between the second communication unit 14 and the monitor 6 may be wired communication or wireless communication using radio waves as a medium.

  The storage unit 15 stores the measured value of the integrated power amount and the instantaneous power value that the first communication unit 11 has acquired from the power meter 5 so far. In addition, the storage unit 15 stores the latest calculated value of the integrated power amount obtained by the calculation unit of the calculation unit 13 so far.

  The power supply unit 16 generates power for operating each unit of the management device 1 from the power supplied from the electric power company, and supplies the power to each unit of the management device 1.

  The monitor 6 displays the calculation result output by the second communication unit 14. The monitor 6 includes a communication unit 61, a calculation unit 62, a storage unit 63, and a display unit 64.

  The communication unit 61 communicates with the management device 1. The communication unit 61 receives the calculation result of the calculation unit 13 from the management device 1. The calculation unit 62 writes the calculation result of the calculation unit 13, that is, the latest calculated value of the integrated power amount in the storage unit 63. Then, the calculation unit 62 outputs the history of accumulated electric energy stored so far in the storage unit 63 to the display unit 64. The output unit 64 displays a history of the integrated power amount from the calculation unit 62.

  As shown in FIG. 2 (a), the conventional management apparatus can only show the integrated power amount at every first time (30 minutes) T1, whereas the management apparatus 1 of the present embodiment is As shown in FIG. 2B, the integrated electric energy can be shown for each time (second time interval) T2 shorter than the first time T1.

  Next, the operation of the power amount calculation system according to the present embodiment will be described with reference to FIG.

  First, the management device 1 requests the measured value of the integrated power amount from the power meter 5 (S1). When the power meter 5 receives a request for the integrated power amount from the management device 1, the power meter 5 transmits the integrated power amount (1) at this time to the management device 1 (S2). When receiving the integrated power amount (1) from the power meter 5, the management device 1 sets the integrated power amount (1) to the latest integrated power amount (S3). Then, the management device 1 outputs the latest accumulated power amount to the monitor 6. The monitor 6 displays the latest accumulated power amount.

  Thereafter, when the second time T2 has elapsed from step S1, the management device 1 requests an instantaneous power value from the power meter 5 (S4). When receiving the request for the instantaneous power value from the management device 1, the power meter 5 transmits the instantaneous power value (1) at this time to the management device 1 (S5). When the management device 1 receives the instantaneous power value (1) from the power meter 5, the latest integrated power is obtained by adding the product of the instantaneous power value (1) and the second time T2 to the integrated power amount (1). The amount is set (S6). Then, the management device 1 outputs the latest accumulated power amount to the monitor 6. The monitor 6 displays a history of the integrated power amount received from the management device 1 so far. Thereafter, the operations in steps S4 to S6 are repeated every second time T2 (S7 to S12).

  Thereafter, when the first time T1 has elapsed from step S1, the management device 1 requests the power meter 5 for a measured value of the integrated power amount (S13). When receiving the request for the integrated power amount from the management device 1, the power meter 5 transmits the integrated power amount (2) at this time to the management device 1 (S14). When receiving the integrated power amount (2) from the power meter 5, the management device 1 updates the latest integrated power amount to the integrated power amount (2) (S15). Then, the management device 1 outputs the latest accumulated power amount to the monitor 6. The monitor 6 displays a history of the integrated power amount received from the management device 1 so far. Thereafter, the operations in steps S4 to S6 are repeated (S16 to S24). And if 1st time T1 passes since step S13, the management apparatus 1 will repeat the operation | movement of step S13-step S24 (S25, S26).

  The management device 1 according to the present embodiment described above has the latest integration at a time interval (second time interval) shorter than the acquisition interval (first time interval) of the measurement value of the integrated electric energy acquired from the power meter 5. Find the amount of power. Thereby, in the management apparatus 1 of this embodiment, compared with the case where only the measured value of the electric power meter 5 is output, the transition of the integrated electric energy until now can be shown in detail. As a result, the user can confirm the transition of the integrated power amount more finely, and can analyze the power usage in detail.

  In addition, the management device 1 of the present embodiment obtains the latest integrated power amount using the measured value of the integrated power amount acquired from the power meter 5. Thereby, in the management apparatus 1 of this embodiment, about the latest integrated electric energy, the shift | offset | difference with the measured value of the electric power meter 5, ie, the measured value used for the charge by an electric power provider, can be made small. For example, the deviation of the calculation value of the calculation unit 13 of the calculation unit 13 from the measurement value of the power meter 5 is large, and the measurement value acquired from the power meter 5 is less than the calculation value obtained immediately before. can do.

  Furthermore, the management device 1 of the present embodiment acquires an instantaneous power value from the power meter 5. Thereby, in the management apparatus 1 of this embodiment, an integrated electric energy can be shown with a higher precision.

(Embodiment 2)
As shown in FIG. 4, the management device 1 according to the second embodiment is different from the management device 1 according to the first embodiment (see FIG. 1) in that it includes a measurement unit 17 that measures instantaneous power. In addition, about the component similar to the management apparatus 1 of Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The management device 1 according to the present embodiment does not obtain the latest integrated power amount by obtaining the instantaneous power value from the power meter 5 but uses the instantaneous power value measured by the measurement unit 17 to calculate the latest integrated power amount. Ask.

  The measuring unit 17 measures the power of the customer's main circuit 7 as instantaneous power and acquires the instantaneous power value. The measuring unit 17 measures the voltage and current from the main circuit 7 between the power meter 5 and the main circuit breaker 3 using the current transformer 171 and the voltage measuring unit, and uses the main circuit 7 from the voltage and the current. The instantaneous power of is calculated. The instantaneous power at this time is also, for example, the amount of power for one second. The measurement unit 17 corresponds to an acquisition unit that acquires an instantaneous power value.

  Next, operation | movement of the electric energy calculation system which concerns on this embodiment is demonstrated using FIG.

  First, the management device 1 requests the measured value of the integrated power amount from the power meter 5 (S31). When receiving the request for the integrated power amount from the management device 1, the power meter 5 transmits the integrated power amount (1) at this time to the management device 1 (S32). When receiving the integrated power amount (1) from the power meter 5, the management device 1 sets the integrated power amount (1) to the latest integrated power amount (S33). Then, the management device 1 outputs the latest accumulated power amount to the monitor 6. The monitor 6 displays the latest accumulated power amount.

  Thereafter, when the second time T2 has elapsed from step S31, the management device 1 measures the instantaneous power value (1) (S34). Thereafter, the management device 1 sets a value obtained by adding the product of the instantaneous power value (1) and the second time T2 to the integrated power amount (1) as the latest integrated power amount (S35). Then, the management device 1 outputs the latest accumulated power amount to the monitor 6. The monitor 6 displays a history of the integrated power amount received from the management device 1 so far. Thereafter, the operations of steps S34 and S35 are repeated every second time T2 (S36 to S39).

  Thereafter, when the first time T1 has elapsed from step S31, the management device 1 requests the power meter 5 for a measured value of the integrated power amount (S40). When receiving the request for the integrated power amount from the management device 1, the power meter 5 transmits the integrated power amount (2) at this time to the management device 1 (S41). When receiving the integrated power amount (2) from the power meter 5, the management device 1 updates the latest integrated power amount to the integrated power amount (2) (S42). Then, the management device 1 outputs the latest accumulated power amount to the monitor 6. The monitor 6 displays a history of the integrated power amount received from the management device 1 so far. Thereafter, the operations of steps S33 and S34 are repeated (S43 to S48). And when 1st time T1 passes since step S40, the management apparatus 1 repeats operation | movement of step S40-step S48 (S49, S50).

  The management apparatus 1 according to the present embodiment described above does not acquire the instantaneous power value from the power meter 5 but measures it with the measuring unit 17. Thereby, in the management apparatus 1 of this embodiment, the latest integrated electric energy can be calculated | required and output to the monitor 6, without increasing the communication traffic of the management apparatus 1 and the electric power meter 5. FIG.

  Moreover, even if the power meter 5 cannot output the instantaneous power value to the management device 1, the management device 1 of the present embodiment can acquire the instantaneous power value.

(Embodiment 3)
The management device 1 according to the third embodiment is different from the management device 1 according to the second embodiment in that the instantaneous power value acquisition interval (second time interval) is changed. In addition, about the component similar to the management apparatus 1 of Embodiment 2, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The computing unit 13 includes a varying unit (not shown) that varies the second time interval according to the integrated power amount acquired by the first communication unit 11 and the instantaneous power value acquired by the measuring unit 17. ing.

  The measurement unit 17 measures the instantaneous power at the second time interval changed by the changing unit of the calculation unit 13 and acquires the instantaneous power value.

  Next, an example of an operation for changing the second time interval in the management apparatus 1 according to the present embodiment will be described with reference to FIG.

  The example of FIG. 6 is an example in which the fact that the actual integrated electric energy has reached the first threshold value (target value) is issued. The management device 1 includes a determination unit (not shown) that determines whether or not the latest integrated power amount has reached the first threshold value. The first threshold value is set in advance. As described above, the latest integrated power amount is obtained by calculating the integrated power amount acquired by the first communication unit 11 and the instantaneous power measured by the measurement unit 17 in the calculation unit (not shown) of the calculation unit 13. It is obtained from the value. The reporting unit may be provided in the management apparatus 1 or may be provided separately from the management apparatus 1. When the actual integrated power amount reaches the first threshold value, it is desirable to issue the notification with as little delay as possible.

  First, when the difference between the integrated power amount and the first threshold value is equal to or greater than a predetermined amount, that is, the integrated power amount has not reached the second threshold value (first threshold value−predetermined amount). In this case, after the first communication unit 11 of the management device 1 acquires the measured value of the integrated power amount from the power meter 5 (time t1), the measurement unit 17 of the management device 1 periodically (for example, every 10 minutes). Instantaneous power is measured (time t2, t3).

  After that, when the difference between the integrated power amount and the first threshold value is less than the predetermined amount (time t5), that is, when the integrated power amount is equal to or greater than the second threshold value, the variable unit of the management device 1 (Not shown) makes the acquisition interval (second time interval) of the instantaneous power value shorter (for example, 1 minute interval) than before (10 minute interval). That is, the measurement unit 17 measures instantaneous power at a time interval shorter than before, and the calculation unit of the calculation unit 13 obtains the latest integrated power amount at a time interval shorter than before (time t6 to t9). ).

  Thereafter, when the integrated power amount reaches the first threshold value (time t10), the management device 1 executes a process for reporting that the integrated power amount has reached the first threshold value.

  Thereafter, the fluctuation unit of the management device 1 returns the instantaneous power acquisition interval (second time interval) to the original time interval (10 minute interval), and the measurement unit 17 supplies the instantaneous power at the original time interval. Measure (time t12, t13). That is, the calculation unit of the calculation unit 13 obtains the latest integrated power amount at the original time interval. Even if the second time interval fluctuates, the interval (first time interval) for acquiring the measured value of the integrated electric energy from the power meter 5 is constant (time t1, t4, t11, t14).

  In the example of FIG. 6, when detecting whether or not the integrated power amount exceeds the target value (first threshold value), when the time interval (second time interval) for obtaining the latest integrated power amount becomes long, The latest integrated power amount greatly exceeds the first threshold value, and the timing of notification is delayed.

  On the other hand, if the frequency at which the management device 1 measures the instantaneous power and obtains the latest integrated power amount is constantly increased, the load increases, so it is preferable to increase the frequency only during a necessary period.

  Therefore, the management device 1 according to the present embodiment corresponds to the latest integrated power amount obtained from the measured value of the integrated power amount acquired by the first communication unit 11 and the instantaneous power value measured by the measuring unit 17. The second time interval is varied. Thereby, in the management apparatus 1 of this embodiment, when integrated electric energy approaches a target value, the time interval (2nd time interval) which calculates | requires the newest integrated electric energy can be shortened. As a result, the timing at which the integrated power amount exceeds the target value can be detected almost in real time.

  The fluctuation unit (not shown) of the calculation unit 13 is configured to change the second power according to either the measured value of the integrated power amount acquired by the first communication unit 11 or the instantaneous power value acquired by the measurement unit 17. The time interval may be varied.

  As another method, there is a method of estimating the timing at which the integrated power amount exceeds the target value from the slope of the actual increase in the integrated power amount. However, since the increase in the integrated power amount is not monotonous, As described above, the accuracy can be further improved by measuring the instantaneous power and shortening the time interval for obtaining the integrated power amount.

(Embodiment 4)
As shown in FIG. 7, the management device 1 according to the fourth embodiment is different from the management device 1 according to the third embodiment in that a correction unit 18 that corrects the measurement value of the measurement unit 17 is provided. In addition, about the component similar to the management apparatus 1 of Embodiment 3, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  As described above, the measurement unit 17 measures the power of the customer's main circuit 7 as instantaneous power at the second time interval. Furthermore, the measurement unit 17 measures the power of the main circuit 7 as instantaneous power even in the timing when the first communication unit 11 acquires the measurement value of the integrated power amount from the power meter 5.

  The calculation unit of the calculation unit 13 adds the product of the instantaneous power measured by the measurement unit 17 when the integrated power amount is acquired from the power meter 5 and the second time interval to the previously calculated integrated power amount. Is obtained.

  When the first communication unit 11 acquires the measured value of the integrated power amount from the power meter 5, the correcting unit 18 indicates the integrated power amount based on the measured value of the measuring unit 17. 5 is corrected so as to coincide with the measured value of the integrated electric energy acquired from 5, and a correction coefficient is obtained. Then, the correction unit 18 writes the correction coefficient in the storage unit 15.

  After the correction unit 18 obtains the correction coefficient, the calculation unit of the calculation unit 13 corrects the instantaneous power measured by the measurement unit 17 using the correction coefficient. Then, the calculation unit adds the product of the corrected instantaneous power value and the second time interval to the measured value of the integrated power amount to obtain the latest integrated power amount.

  The management device 1 according to the present embodiment described above corrects the integrated power amount obtained by integrating the instantaneous power values measured by the measurement unit 17 so as to match the integrated power amount measured by the power meter 5. Thereby, in the management apparatus 1 of this embodiment, since the measurement precision of the measurement part 17 can be improved, transition of integrated electric energy can be shown accurately.

(Embodiment 5)
The management device 1 according to the fifth embodiment is different from the management device 1 according to the fourth embodiment in that the power measurement values of the branch circuits 8, 8,. In addition, about the component similar to the management apparatus 1 of Embodiment 4, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The measuring unit 17 of the present embodiment measures the instantaneous power of the customer main circuit 7 and the instantaneous power of each of the plurality of branch circuits 8, 8,. The measuring unit 17 measures the voltage of the main circuit 7 using voltage measuring means, and measures the current flowing through the branch circuit 8 between the branch breaker 4 and a load (not shown) using the current transformer 172. Then, the instantaneous power of the branch circuit 8 is calculated from the voltage and the current. The instantaneous power at this time is, for example, a power amount for one second.

  The correction unit 18 instantaneously outputs each of the plurality of branch circuits 8, 8,... So that the sum of the instantaneous power values of the plurality of branch circuits 8, 8,. The power value is corrected to obtain a correction coefficient. Then, the correction unit 18 writes the correction coefficient in the storage unit 15.

  Specifically, when the instantaneous power value of the main circuit 7 is a% larger than the sum of the instantaneous power values of the plurality of branch circuits 8, 8,... (The instantaneous power value of the main circuit 7 = the plurality of branch circuits 8) , 8,... (Total sum of instantaneous power values × (100 + a) / 100), the correction unit 18 increases the instantaneous power value of each branch circuit 8 by a%. That is, the correction coefficient is (100 + a) / 100. For example, when the instantaneous power value of the main circuit 7 is 4% larger than the sum of the instantaneous power values of the plurality of branch circuits 8, 8,... (The instantaneous power value of the main circuit 7 = the plurality of branch circuits 8, 8,. ... (Total sum of instantaneous power values × 1.04), the correction unit 18 increases the instantaneous power value of each branch circuit 8 by 4%. In this example, the correction coefficient is 1.04.

  After the correction unit 18 obtains the correction coefficient, the calculation unit of the calculation unit 13 corrects the instantaneous power value of each branch circuit 8 measured by the measurement unit 17 thereafter using the correction coefficient.

  The management device 1 according to the present embodiment described above corrects the instantaneous power value of each branch circuit 8 based on the instantaneous power value of the main circuit 7. Thereby, in the management apparatus 1 of this embodiment, since the measurement value of the electric power meter 5, the measurement value of the main circuit 7, and the measurement value of each branch circuit 8 can be matched, the measurement accuracy of the management apparatus 1 whole is improved. Can be increased.

  In each embodiment, the first communication unit 11 may exchange information with the communication unit 52 of the power meter 5 by wireless communication instead of the PLC.

  Moreover, in each embodiment, the management apparatus 1 as an electric energy calculation apparatus may be provided outside the distribution board 2 instead of inside the distribution board 2.

1 management device (electric energy calculation device)
11 First communication unit (communication unit, acquisition unit)
13 Calculation part (calculation part, fluctuation part)
14 Second communication unit (output unit)
17 Measurement unit (acquisition unit)
18 Correction Unit 5 Power Meter 6 Monitor 7 Main Circuit 8 Branch Circuit

Claims (7)

A communication unit that obtains a measured value of the integrated power amount by communication at a first time interval from a power meter that measures power supplied from an electric power company to a consumer;
An acquisition unit that acquires an instantaneous power value representing a magnitude of instantaneous power supplied from the electric power company to the consumer at a second time interval shorter than the first time interval;
A calculation unit for obtaining the latest integrated electric energy at the time when the acquisition unit acquires the instantaneous power value;
An output unit for outputting a calculation result of the calculation unit,
The calculation unit, when the acquisition unit acquires the instantaneous power value, the measured value of the integrated power amount acquired by the communication unit, the instantaneous power value acquired by the acquisition unit, and the second The latest amount of integrated electric power is obtained using a time interval. The power meter measures instantaneous power,
The power acquisition device according to claim 1, wherein the acquisition unit acquires the instantaneous power value from the power meter.   The said acquisition part measures the electric power of the main circuit of the said consumer as said instantaneous electric power, and acquires the said instantaneous electric power value, The electric energy calculation apparatus of Claim 1 characterized by the above-mentioned. A variable unit that varies the second time interval according to at least one of the measured value of the integrated power amount acquired by the communication unit and the instantaneous power value acquired by the acquisition unit;
The electric energy calculation device according to any one of claims 1 to 3, wherein the acquisition unit acquires the instantaneous power at the second time interval changed by the changing unit.   The electric energy according to claim 3, further comprising a correction unit that corrects the integrated electric energy based on the measurement value of the acquisition unit so as to coincide with the measurement value of the integrated electric energy acquired by the communication unit. Calculation device. The acquisition unit further measures and acquires the power of each of the plurality of branch circuits of the consumer,
The correction unit corrects the measurement values of the plurality of branch circuits so that the sum of the measurement values of the plurality of branch circuits matches the measurement value of the main circuit. The electric energy calculation apparatus of description. The electric energy calculation device according to any one of claims 1 to 6,
A main breaker to which the power meter is connected on the primary side;
A plurality of branch breakers inserted between the secondary side of the main breaker and the load;
A power amount calculation system comprising: the power amount calculation device; the main circuit breaker; and a distribution board in which the plurality of branch breakers are housed.

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