JP2014045621A - Energy management system, energy management method and server device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an energy management system, an energy management method, and a server device that can provide appropriate information for an electric power user in an easy-to-understand manner.SOLUTION: An energy management system is characterized by obtaining information including a residual time of a reference time used for electric power charge calculation of a user by a power company, a usable power amount which is a power consumption amount usable in the reference time, a cumulative used power amount consumed by a load apparatus 16 of the user from the start of the reference time to now, and an expected power consumption by a load apparatus 16 which is not used at the moment, estimates a cumulative used power amount in the reference time on the basis of the information, determines whether use of the load apparatus 16 which is not used at the moment will be permitted or not, and displays on a communication terminal 11 a load apparatus 16 about which it has been determined that its use is permitted and is not used at the moment.

Description

  The present invention relates to an energy management system, an energy management method, and a server device.

  For example, in Japan, the total power charge for high-voltage power receivers is determined by the basic charge and the power charge, although it depends greatly on the power situation in each country. The basic charge is determined based on a peak power amount in a predetermined period (for example, 30 minutes) such as a demand time limit. On the other hand, the electric energy charge is determined based on the electric power consumption in the calculation target period. Such a method for determining the electricity rate in Japan is disclosed in Patent Document 1, for example.

JP 2010-237119 A

In such a method for determining a power charge, a high-voltage power receiver desires to grasp the usage state of power with respect to the current power charge when considering operation of owned equipment in consideration of the power charge. However, since the system itself for determining the power charge is complicated, it takes time to grasp the state. The same applies to those who are not high-voltage power receivers in Japan but who receive power supply and demand from power companies that have a similar pricing system.
Therefore, the present invention has been made to solve the above-described problems, and an object of the present invention is to provide a display device and a display method capable of easily providing appropriate information to a power receiver. And

In order to solve the above problems, an energy management system according to the present invention includes:
The remaining time of the base time used for calculating the electricity charges of consumers and power companies,
Usable power amount that is power consumption amount usable at the reference time;
From the start of the reference time to the present, the cumulative power consumption consumed by the load equipment in the consumer,
Get information including the planned power consumption of load equipment that is not currently in use,
Based on the information, estimate the accumulated power consumption at the reference time, determine whether the load equipment that is not currently used can be used,
The load device which is determined to be usable and which is not currently used is displayed on a communication terminal.

Moreover, the energy management system according to the present invention includes:
The information includes a current value of power consumption of the load device and a scheduled use time of the load device that is not currently used.

Moreover, the energy management system according to the present invention includes:
In determining whether to use a load device that is not currently used,
The cumulative power consumption consumed by the load device at the consumer from the start of the reference time to the present time, the value obtained by multiplying the current value of the power consumption by the remaining time, and the planned power consumption of the load device. The load device is determined to be usable when a value obtained by adding a value obtained by multiplying the time is smaller than the usable electric energy.

Moreover, the energy management system according to the present invention includes:
When determining whether or not the load device is usable, the determination is performed based on a plurality of reference times.

Moreover, the energy management system according to the present invention includes:
The planned power consumption and the planned usage time of the load device not currently used are calculated based on past power information.

The energy management method according to the present invention includes:
The remaining time of the base time used for calculating the electricity charges of consumers and power companies,
Usable power amount that is power consumption amount usable at the reference time;
From the start of the reference time to the present, the cumulative power consumption consumed by the load equipment in the consumer,
Obtaining information including scheduled power consumption of a load device that is not currently in use;
Estimating a cumulative amount of power used in the reference time based on the information, and determining whether or not to use a load device that is not currently used;
And displaying on the communication terminal the load device that is determined to be usable and that is not currently used.

Moreover, the server device according to the present invention provides:
The remaining time of the base time used for calculating the electricity charges of consumers and power companies,
Usable power amount that is power consumption amount usable at the reference time;
From the start of the reference time to the present, the cumulative power consumption consumed by the load equipment in the consumer,
An acquisition unit that acquires information including scheduled power consumption of a load device that is not currently used;
And a controller that estimates the accumulated power consumption during the reference time based on the information and determines whether or not the load device that is not currently used can be used.

  According to the energy management system, the energy management method, and the server device of the present invention, it is possible to easily provide appropriate information to the power receiver.

It is a communication system block diagram which shows schematic structure of the energy management system which concerns on one Embodiment of this invention. It is a graph which shows the relationship of the demand power with respect to the elapsed time within a demand time limit. It is a flowchart which shows operation | movement of the energy management system which concerns on one Embodiment of this invention. It is a flowchart which shows the operation | movement regarding determination of the availability of the load apparatus in the energy management system which concerns on one Embodiment of this invention.

  Embodiments of the present invention will be described below.

(Embodiment)
First, an energy management system according to an embodiment of the present invention will be described. FIG. 1 is a communication system configuration diagram showing a schematic configuration of an energy management system according to an embodiment of the present invention.

  As shown in FIG. 1, the energy management system includes an energy management device 10, a communication terminal 11, and an EMS (Energy Management System) server 20 that is a server device. In FIG. 1, an example in which there is one energy management device 10 and one communication terminal 11 is shown, but the present invention is not limited to this, and there may be two or more each.

  The Internet 30 connects the energy management apparatus 10, the communication terminal 11, and the EMS server 20, and communicates signals such as data and control instructions. The energy management apparatus 10 and the communication terminal 11 exist in a LAN (Local Area Network) 40.

  The energy management device 10 is, for example, an EMS Gateway. The energy management apparatus 10 periodically transmits a measurement value such as power consumption detected by a sensor described later to the EMS server 20. The energy management apparatus 10 can also transmit its own address within the LAN 40 to the EMS server 20.

  Here, the address in the LAN 40 is preferably a local IP address. In the following description, it is assumed that the address is a local IP address. The local IP address is an IP address for specifying a network device only in the LAN 40, and is, for example, “192.168.1.4”. Further, the MAC address of the energy management apparatus 10 may be used instead of the local IP address.

  Furthermore, the energy management apparatus 10 acquires a control instruction for the load device 16 existing in the LAN 40 to which the energy management apparatus 10 belongs from the EMS server 20 by polling. In addition, the energy management apparatus 10 acquires a control instruction for the load device 16 existing in the LAN 40 to which the energy management apparatus 10 belongs via the local network or the like from the communication terminal 11. The energy management apparatus 10 controls the load device 16 existing in the LAN 40 to which the energy management apparatus 10 belongs based on the control instruction received from the EMS server 20 or the communication terminal 11.

  The communication terminal 11 has a display, and can display the measured value measured by the sensor existing in the LAN 40 to which the communication terminal 11 belongs and the operating state of the load device 16 existing in the LAN 40. Further, the communication terminal 11 can display the load device 16 determined to be usable by the EMS server 20 with characters and symbols. When the communication terminal 11 displays the measurement value and the operation state, the communication terminal 11 acquires data from the EMS server 20 by HTTP, and the web browser of the communication terminal 11 forms a measurement value display page. Further, the communication terminal 11 can acquire the local IP address of the energy management apparatus 10 as a response to the HTTP request from the EMS server 20. Then, the communication terminal 11 acquires data by directly requesting the measurement value and the operation state from the energy management apparatus 10 via the network in the LAN 40, and the web browser of the communication terminal 11 forms the measurement value display page. Is also possible.

  The communication terminal 11 issues a control instruction for the load device 16 existing in the LAN 40 to which the communication terminal 11 belongs. The issuance of the control instruction is based on detection of a user operation on the device control page configured by the web browser. The communication terminal 11 can transmit the issued control instruction to the EMS server 20 via the Internet 30. Further, the communication terminal 11 can directly transmit the issued control instruction to the energy management apparatus 10 through the network in the LAN 40 based on the local IP address of the energy management apparatus 10.

  The EMS server 20 receives and stores information such as measurement values transmitted from the energy management apparatus 10. In addition, the EMS server 20 receives a control instruction issued by the communication terminal 11. In addition, the EMS server 20 creates a control instruction for each load device 16. The energy management apparatus 10 reads the accepted control instruction or the created control instruction by polling. In addition, the EMS server 20 can accept and update registration of sensor information existing in each LAN 40. Here, the “sensor information” includes the measurement value measured by the sensor and the operating state of the load device 16.

  The EMS server 20 includes an acquisition unit 201, a control unit 202, and a memory 203.

  The acquisition unit 201 collects information including measurement values and sensor information, and stores the information in the memory 203 or updates the memory 203. The acquisition unit 201 acquires information from the energy management apparatus 10 or the memory 203 and passes the information to the control unit 202.

  The control unit 202 creates control instructions for each load device 16 with various algorithms so as to achieve various purposes. Further, the control unit 202 determines whether or not the load device 16 that is not currently used can be used.

  The memory 203 stores various data used by the control unit 202 to create a control instruction. For example, the memory 203 stores information for determining the usable load device 16 including the planned power consumption and the scheduled usage time of each load device 16. The memory 203 stores the load device 16 determined to be usable together with the time in the demand time period. The control unit 202 then uses the remaining time of the demand time period, the amount of power that can be used in the demand time period, the accumulated power consumption consumed from the beginning of the demand time period to the present time, the current value of power consumption, and the currently unused time. Based on the information including the scheduled power consumption and the scheduled usage time of the load device 16, it is possible to estimate whether or not the load device 16 can be used by estimating the accumulated power consumption at the reference time. The planned power consumption and planned usage time of each load device 16 that is not currently used can be set in advance by the user's input from the communication terminal 16 and stored in the memory 203. The control unit 202 can also create and update the power consumption and usage time history information of the device 16.

  Next, transmission of measured values and control of the load device 16 by the energy management apparatus 10 will be described.

  In the LAN 40, there are a first sensor 12, a sensor management unit 13, a second sensor 14, a third sensor 15, a load device 16, an energy management device 10, and a communication terminal 11. . Although FIG. 1 shows an example in which two load devices 16 exist, the present invention is not limited to this, and there may be one load device 16 or three or more load devices 16. Further, the energy management device 10 is connected to the wattmeter 25 via the demand monitoring device 24.

  The first sensor 12 is an arbitrary sensor such as a current sensor, a power sensor, a temperature sensor, or an illuminance sensor, and detects a measurement value related to the driving state of the load device 16 existing in the LAN 40.

  The sensor management unit 13 detects a measurement value from the first sensor 12. The sensor management unit 13 periodically communicates with the energy management apparatus 10 using standard protocols such as Sig 2.0 (Smart Energy Profile 2.0) of ZigBee (registered trademark) and ECHONET Lite (registered trademark).

  The second sensor 14 is an arbitrary sensor such as a current sensor, a power sensor, a temperature sensor, or an illuminance sensor, and detects a measurement value related to the driving state of the load device 16 existing in the LAN 40. Further, unlike the first sensor 12, the second sensor 14 communicates with the energy management apparatus 10 using a unique protocol.

  The third sensor 15 is an arbitrary sensor such as a current sensor, a power sensor, a temperature sensor, or an illuminance sensor, and detects a measurement value related to the driving state of the load device 16 existing in the LAN 40. The third sensor 15 directly communicates with the energy management apparatus 10 by a standard protocol such as SEP2.0 and ECHONET Lite (registered trademark).

  The load device 16 is a device that is driven based on electric power, such as an air conditioner, a lamp, and a refrigerator. The load device 16 communicates with the energy management apparatus 10 by a standard protocol such as ECHONET Lite (registered trademark).

  As described above, the energy management apparatus 10 can communicate with the sensor management unit 13, the second sensor 14, and the third sensor 15, and the first sensor 12, the second sensor 14, and the third sensor 15 can communicate with each other. The measurement value is periodically transmitted to the EMS server 20 via the Internet 30. Further, as described above, the energy management apparatus 10 acquires a control instruction for the load device 16 existing in the LAN 40 to which the energy management apparatus 10 belongs from the EMS server 20 by polling, and determines the operation state of the load device 16 based on the control instruction. Control.

  Furthermore, the energy management device 10 recognizes the start time (start time) of the demand time period from the output of the demand monitoring device 24. The demand time limit is a reference time used for a contract power agreement between a business operator (customer) operating a store or the like and a power company. For example, when the demand time period is 30 minutes and the contract power is 300 kW, the business operator is allowed to consume up to 300 kW in each demand time period. Further, the energy management device 10 acquires the current value of the power consumption of all load devices (including the load device 16) in the store in the current demand time period from the output of the demand monitoring device 24.

  As described above, the communication terminal 11 displays the measured values of the first sensor 12, the second sensor 14, and the third sensor 15 existing in the same LAN 40 and displays the operation state of each load device 16. To do. Further, as described above, the communication terminal 11 can directly instruct control of each load device 16, for example, setting of the temperature itself and setting of the illuminance itself.

  The demand monitoring device 24 reads a pulse output from the wattmeter 25 and outputs the pulse to the energy management device 10.

  The wattmeter 25 measures the accumulated power consumption (hereinafter referred to as demand power) of the entire load device 16 existing in the same LAN 40 for each store in the demand time period. The power meter 25 resets the demand power at the beginning of the demand time period, and measures the demand power from the beginning of the demand time period to the present time.

  In the configuration as described above, a method in which the control unit 202 of the EMS server 20 determines whether or not the load device 16 that is not currently used can be used will be specifically described with reference to FIG. The graph of FIG. 2 is a graph showing demand power with respect to elapsed time. In FIG. 2, the slope of the straight line representing the demand power with respect to the elapsed time corresponds to the power consumption. Therefore, when the power consumption increases due to the additional use of the load device 16 that is not currently used, the slope of the straight line increases.

  In FIG. 2, a broken line A represents predicted demand power when a load device A that is not currently used is used in addition to the load device 16 currently being used. Note that the power consumption when the load device A is added in addition to the load device 16 currently in use is represented by the slope of the broken line A. In this case, the scheduled usage time of the load device A is equal to or longer than the remaining time of the demand time limit. Similarly, the broken line B represents the predicted demand power when the load device B that is not currently used is additionally used. The scheduled usage time of the load device B is also set to be longer than the remaining time of the demand time limit. A broken line C indicates demand power when the additional load device 16 is not used. In this case, since the current power consumption does not change, the slope of the broken line C is equal to the slope of the straight line from the beginning of the demand time period to the present time. The broken line D represents the predicted demand power when the load device D that is not currently used is used. In this example, the scheduled usage time of the load device D is shorter than the remaining time of the demand time limit (see “scheduled usage time of the load device D” in FIG. 2). Since the power consumption returns to the original value after the scheduled usage time of the load device D has elapsed, the slope of the broken line D returns to the slope at the time of determination (current).

  In FIG. 2, the dashed line A is expected to exceed the available power amount of the demand power at the end of the demand time period, so that the load device A is determined to be unusable. On the other hand, since the broken lines B, C, and D are expected that the demand power does not exceed the target value at the end of the demand time period, the load devices B, C, and D are determined to be usable and displayed on the communication terminal 11. .

  Here, if the broken line C representing the use of only the load device 16 currently in use exceeds the available power amount at the end of the demand time period, there is no load device 16 that can be used. In such a case, the load device 16 to be preferentially stopped may be determined and displayed.

Whether or not the load device 16 that is not currently used can be used is determined based on the following mathematical formula. When the remaining time of the demand time limit is shorter than the set scheduled use time of the load device 16, that is, as shown by the broken lines A and B in FIG. 2, the control unit 202 satisfies the following formula (1). The load device 16 is determined as the load device 16 that can be used.
(Cumulative power consumption within the demand period) + (Current value of power consumption) x (Remaining time) + (Scheduled power consumption of the load device) x (Remaining time) <(Available power consumption within the demand period) ... (1)
In this example, the load device B is determined to be usable because it satisfies Equation (1), and the load device A is determined not to be usable because it does not satisfy Equation (1).

On the other hand, when the remaining time of the demand time limit is equal to or longer than the scheduled usage time of the load device 16, that is, as shown by the broken line D in FIG. 2, the load device 16 satisfying the following formula (2) can be used. The load device 16 is determined.
(Cumulative power consumption within the demand period) + (current value of power consumption) x (remaining time) + (scheduled power consumption of the load device) x (scheduled usage time) <(usable power consumption within the demand period) ) ... (2)
In this example, the load device D satisfies Equation (2) and is determined to be usable.

  Next, regarding the energy management system according to the embodiment of the present invention, the operation when it is determined whether or not various load devices 16 that are not currently used can be used and displayed on the communication terminal 11 is shown in FIGS. The flowchart shown in FIG.

  As described above, the acquisition unit 201 of the EMS server 20 acquires the current value of the start, end, remaining time, usable power, demand power, power consumption, and the demand time period from the memory 203 of the energy management apparatus 10 or the EMS server 20. Various types of information including the planned power consumption and planned usage time of each load device 16 that is not currently used are acquired (step S1), and the acquired information is passed to the control unit 202. Subsequently, the control unit 202 determines whether or not the load device 16 can be used based on the acquired various information (step S2). The determination of whether or not each load device 16 can be used in step S2 will be described with reference to the flowchart of FIG.

  First, the control unit 202 of the EMS server 20 determines whether or not the remaining time of the current demand time limit is shorter than the scheduled usage time of the load device 16 (step S21). Depending on the result of step S21, the process proceeds to step S22 or step S23, respectively.

  When the remaining time of the demand time limit is shorter than the scheduled usage time of the load device 16, the control unit 202 determines whether or not the load device 16 satisfies the above-described equation (1) (step S22). If Expression (1) is satisfied, the control unit 202 determines that the load device 16 can be used (Step S24). If Expression (1) is not satisfied, the control unit 202 determines that the load device 16 cannot be used (Step S24). S25). Then, the process ends.

  On the other hand, when the remaining time of the demand time limit is equal to or longer than the scheduled usage time of the load device 16, the control unit 202 determines whether or not the load device 16 satisfies the above formula (2) (step S23). If Expression (2) is satisfied, it is determined that the load device 16 can be used (Step S26). If Expression (2) is not satisfied, it is determined that the load device 16 cannot be used (Step S27). Then, the process ends. After any one of steps S24 to S27 is completed, the process proceeds to step S3 in FIG.

  Subsequently, the EMS server 20 transmits information on the load device 16 determined to be usable to the communication terminal 11, and the communication terminal 11 displays the information on the load device 16 determined to be usable on the display (step). S3). Then, the process ends.

  The timing for determining whether or not each load device 16 can be used can be arbitrarily determined as necessary, and may be regular or irregular.

  As described above, according to the present embodiment, it is possible to provide an energy management system capable of displaying the available load devices 16 and more easily manage power consumption in consideration of the demand time limit. it can. For example, by checking the usable load device 16 displayed on the communication terminal 11, it is possible to immediately know whether or not the load device 16 that is desired to be used can be used. Is possible. Further, when the load device 16 that is desired to be used is not displayed as the usable load device 16, any load device 16 that is currently in use is stopped to reduce power consumption. The operation of using the load device 16 after confirming the display becomes possible.

  Here, in the above embodiment, in step S1, the acquisition unit 201 of the EMS server 20 stores the remaining time of the demand time period, the usable power amount in the demand time period, and the accumulated power consumption consumed from the start of the demand time period to the present time. Although an example is shown in which information including the current value of power consumption, the planned power consumption of the load device 16 that is not currently used, and the planned usage time is acquired, the present invention is not limited thereto. Of these, the acquisition unit 201 may not acquire the current value of power consumption. In this case, the control unit 202 calculates the current value of power consumption by dividing the accumulated power consumption consumed from the start of the demand time period to the present by the time from the start of the demand time period to the present time. And the control part 202 determines the load apparatus 16 which can be used by said Numerical formula (1) or (2).

  Similarly, the acquisition unit 201 may not acquire the scheduled usage time of the load device 16 that is not currently used. In this case, the control unit 202 estimates that the scheduled usage time of the load device 16 is the remaining time of the demand time limit. And the control part 202 determines the load apparatus 16 which can be used by said Numerical formula (1) or (2).

  Here, in the above-described embodiment, whether or not the load device 16 is usable is determined in the control unit 202 of the EMS server 20, but the energy management device 10 or the communication terminal 11 in the LAN 40 has the same function. In such a case, the determination can be performed by the energy management apparatus 10 or the communication terminal 11 or the like.

  Moreover, in the said embodiment, although the availability determination of each load apparatus 16 was performed based on the single demand time period, it is also possible to perform the availability determination based on several demand time periods. For example, it is determined whether or not it can be used in a demand period of 30 minutes, and whether or not it can be used in a demand period of one day, and only the load device 16 that can be used in both determinations can be used. The device 16 can be determined and displayed on the communication terminal 11.

  Although the present invention has been described based on the drawings and examples, it should be noted that those skilled in the art can easily make various variations and modifications based on the present disclosure. Therefore, it should be noted that these variations and modifications are included in the scope of the present invention. For example, the functions included in each means, each step, etc. can be rearranged so that there is no logical contradiction, and a plurality of means, steps, etc. can be combined into one or divided. .

DESCRIPTION OF SYMBOLS 10 Energy management apparatus 11 Communication terminal 12 1st sensor 13 Sensor management part 14 2nd sensor 15 3rd sensor 16 Load apparatus 20 EMS server (server apparatus)
30 Internet 40 LAN
201 Acquisition unit 202 Control unit 203 Memory

Claims (7)

The remaining time of the base time used for calculating the electricity charges of consumers and power companies,
Usable power amount that is power consumption amount usable at the reference time;
From the start of the reference time to the present, the cumulative power consumption consumed by the load equipment in the consumer,
Get information including the planned power consumption of load equipment that is not currently in use,
Based on the information, estimate the accumulated power consumption at the reference time, determine whether the load equipment that is not currently used can be used,
An energy management system characterized in that a load device that is determined to be usable and that is not currently used is displayed on a communication terminal.   The energy management system according to claim 1, wherein the information includes a current value of power consumption of the load device and a scheduled use time of the load device that is not currently used. In determining whether to use a load device that is not currently used,
The cumulative power consumption consumed by the load device at the consumer from the start of the reference time to the present time, the value obtained by multiplying the current value of the power consumption by the remaining time, and the planned power consumption of the load device. 3. The energy management according to claim 1, wherein the load device is determined to be usable when a value obtained by adding a value obtained by multiplying a time is smaller than the usable electric energy. system.   4. The energy management system according to claim 1, wherein when determining whether or not the load device is usable, the determination is performed based on a plurality of reference times. 5.   5. The energy management system according to claim 1, wherein the planned power consumption and the planned usage time of the load device that is not currently used are calculated based on past power information. The remaining time of the base time used for calculating the electricity charges of consumers and power companies,
Usable power amount that is power consumption amount usable at the reference time;
From the start of the reference time to the present, the cumulative power consumption consumed by the load equipment in the consumer,
Obtaining information including scheduled power consumption of a load device that is not currently in use;
Estimating a cumulative amount of power used in the reference time based on the information, and determining whether or not to use a load device that is not currently used;
And displaying the load device that is determined to be usable and that is not currently used on a communication terminal. The remaining time of the base time used for calculating the electricity charges of consumers and power companies,
Usable power amount that is power consumption amount usable at the reference time;
From the start of the reference time to the present, the cumulative power consumption consumed by the load equipment in the consumer,
An acquisition unit that acquires information including scheduled power consumption of a load device that is not currently used;
And a control unit that estimates the accumulated power consumption during the reference time based on the information and determines whether or not the load device that is not currently used can be used.

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