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JP5568660B1 - Power saving support system, power saving support method, and power saving support program - Google Patents

Power saving support system, power saving support method, and power saving support program Download PDF

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JP5568660B1
JP5568660B1 JP2013083088A JP2013083088A JP5568660B1 JP 5568660 B1 JP5568660 B1 JP 5568660B1 JP 2013083088 A JP2013083088 A JP 2013083088A JP 2013083088 A JP2013083088 A JP 2013083088A JP 5568660 B1 JP5568660 B1 JP 5568660B1
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JP2014207751A (en
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辰之 岩崎
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EPCO Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E40/00Technologies for an efficient electrical power generation, transmission or distribution
    • Y02E40/70Smart grids as climate change mitigation technology in the energy generation sector
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S10/00Systems supporting electrical power generation, transmission or distribution
    • Y04S10/12Monitoring or controlling equipment for energy generation units, e.g. distributed energy generation [DER] or load-side generation
    • Y04S10/123Monitoring or controlling equipment for energy generation units, e.g. distributed energy generation [DER] or load-side generation the energy generation units being or involving renewable energy sources

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  • Supply And Distribution Of Alternating Current (AREA)
  • Management, Administration, Business Operations System, And Electronic Commerce (AREA)

Abstract

【課題】需要家家庭における具体的な個別環境を即時性の観点も踏まえて考慮した、効率的な節電行動を促進可能とする。
【解決手段】節電支援システム100を、所定の需要家施設に関し推定した所定時間以内での予測消費電力量及び発電装置の予測発電量と、記憶部101で保持する蓄電池の情報とに基づいて、該当需要家施設での予測消費電力量を予測発電量と併せて満たす、系統電源1からの買電内容と、蓄電池から需要家施設への給電内容を推定し、電力需給予定を特定する第1処理部110と、節電対象の電気設備の選択を入力部105で受ける第2処理部111と、電力需給予定の条件下で推定した予測節電量による節電目標の達成度に応じた所定のアドバイスを出力部106に表示する第3処理部112とから構成する。
【選択図】図2
[PROBLEMS] To promote efficient power-saving behavior in consideration of a specific individual environment in a customer's home from the viewpoint of immediacy.
A power saving support system is configured based on a predicted power consumption and a predicted power generation amount of a power generator within a predetermined time estimated for a predetermined customer facility, and information on a storage battery held in a storage unit. Estimating the power purchase content from the grid power source 1 and the power supply content from the storage battery to the customer facility, which satisfies the predicted power consumption at the corresponding customer facility together with the predicted power generation amount, and specifying the power supply and demand schedule The processing unit 110, the second processing unit 111 that receives the selection of the power saving target electrical equipment at the input unit 105, and predetermined advice according to the degree of achievement of the power saving target based on the predicted power saving amount estimated under the conditions of power supply and demand schedule The third processing unit 112 is displayed on the output unit 106.
[Selection] Figure 2

Description

本発明は、節電支援システム、節電支援方法、および節電支援プログラムに関するものであり、具体的には、需要家家庭における具体的な個別環境を即時性の観点も踏まえて考慮した、効率的な節電行動を促進可能とする技術に関する。   The present invention relates to a power saving support system, a power saving support method, and a power saving support program. Specifically, the present invention relates to an efficient power saving considering a specific individual environment in a consumer home from the viewpoint of immediacy. It relates to technology that can promote action.

環境意識の世界的な高まりや、再生可能エネルギーの固定価格買取制度の施行など、エネルギーの利活用を取り巻く状況は大きく変化し始めている。特に、温室効果ガスの低減や災害時停電等に備える意味でも、各家庭や事業者における節電対策技術への注目は高まっている。このような節電に関連する技術としては、以下のような従来技術が提案されている。   The situation surrounding the utilization of energy is beginning to change significantly, such as the global increase in environmental awareness and the implementation of a feed-in tariff system for renewable energy. In particular, attention is being paid to power saving countermeasure technologies in each home and business in the sense of reducing greenhouse gas emissions and blackouts during disasters. The following conventional techniques have been proposed as techniques related to such power saving.

すなわち、コストが低く、安全に使用できる蓄電装置を提供し、蓄電装置使用して家庭等における電力を制御するとの目的の下、IDを有したエネルギーデバイスと、このエネルギーデバイスとの間でIDを用いた相互認証を行うストレージシステムマネージャと、デバイスマネージャとからなる電力装置において、家庭電力を制御するホームコントローラや電力調節装置との間で情報の送受信を行い、エネルギーデバイスを制御する技術(特許文献1参照)などが提案されている。   That is, a power storage device that is low in cost and can be used safely is provided, and an ID is assigned between the energy device having the ID and the energy device for the purpose of controlling power in the home using the power storage device. Technology for controlling energy devices by transmitting / receiving information to / from a home controller or power conditioner that controls household power in a power system comprising a storage system manager that performs mutual authentication and a device manager (Patent Literature) 1) is proposed.

また、消費電力の異なる複数の動作モードを有する電気機器の消費電力を管理する消費電力システムにおいて、電気機器の現在の動作モードに対応する現消費電力と、所定の比較消費電力とに基づいて、両者の差分を省エネ効果として算定し、電気機器の使用者へ通知する技術(特許文献2参照)なども提案されている。   Further, in the power consumption system for managing the power consumption of the electric device having a plurality of operation modes with different power consumption, based on the current power consumption corresponding to the current operation mode of the electric device and a predetermined comparison power consumption, A technique of calculating the difference between the two as an energy saving effect and notifying the user of the electrical device (see Patent Document 2) has also been proposed.

WO2010/117082号公報WO2010 / 117082 publication 特開2007−48219号公報JP 2007-48219 A

ところが従来技術においては、ユーザ別に節電に関する情報提供や機器制御を行うとしていても、提供される情報や制御の内容自体ないしそれらの起源となる情報等が一般的かつ固定的な内容となりがちであり、真にユーザ別の実際環境や即時性を十分に踏まえたものとはなっていなかった。例えば、電力需要家たる各家庭での構成員の日々の変動や行動予定、具体的な家電機器の仕様や設置箇所、製品情報、24時間以内の気象条件といった、十分に個別具体的かつ即時性を有する情報を併せて踏まえた節電支援は実現されていない。こうした従来技術において節電支援を行う場合、支援内容が実際状況とマッチしないものとなり、ユーザとして節電行動を実行しにくいことにもなりやすく、結局は適切な節電効果が得られない事態を招来する。   However, in the prior art, even if information provision and device control related to power saving are performed for each user, the information provided, the content of the control itself, or the information that originates the information tends to be general and fixed content. , It was not really based on the actual environment and immediacy of each user. For example, the individual fluctuations and behavior schedules of members in each household that is a power consumer, specific home appliance specifications and installation locations, product information, weather conditions within 24 hours, etc. Power saving support based on the information that has the same has not been realized. When power saving support is performed in such a conventional technique, the content of the support does not match the actual situation, and it is likely that it is difficult for the user to execute the power saving action, and eventually an appropriate power saving effect cannot be obtained.

そこで本発明の目的は、需要家家庭における具体的な個別環境を即時性の観点も踏まえて考慮した、効率的な節電行動を促進可能とする技術を提供することにある。   Therefore, an object of the present invention is to provide a technology that can promote efficient power saving behavior in consideration of a specific individual environment in a consumer home from the viewpoint of immediacy.

上記課題を解決する本発明の節電支援システムは、電力の需要家施設に備わる各電気設備個別の識別情報および仕様情報を格納した電気設備データベースと、各需要家の構成員の情報を格納した構成員データベースと、需要家施設の所在地域に関する少なくとも所定時間以内の気候予測データを格納した気候予測データベースと、各需要家施設に備わる蓄電池および再生可能エネルギー利用の発電装置の各情報を格納した装置データベースと、を保持する記憶部と、所定の需要家施設に関し、前記記憶部で保持する情報に基づいて所定アルゴリズムで推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する第1処理部と、入力部での節電目標の受け付けに応じ、前記記憶部で情報を保持する該当需要家の需要家施設に備わる電気設備中からの、節電対象の電気設備の選択を入力部で受ける第2処理部と、前記選択を受けた該当電気設備の情報と、所定期間中の気候予測データと、該当需要家の構成員の情報とを記憶部より読み出し、当該読み出した各情報に基づいて、前記所定期間中の前記電力需給予定の条件下における予測節電量を所定アルゴリズムで推定し、当該予測節電量による前記節電目標の達成度に応じた所定のアドバイスを出力部に表示する第3処理部とを備えることを特徴とする。   The power-saving support system of the present invention that solves the above-described problem is a configuration in which electric equipment database storing identification information and specification information of each electric equipment provided in a power consumer facility and information of members of each consumer are stored Employee database, climate prediction database storing climate prediction data within at least a predetermined time concerning the location of customer facilities, and device database storing information on storage batteries and power generation devices using renewable energy provided in each customer facility And a storage unit that holds, and a predetermined customer facility, a predicted power consumption amount within a predetermined time estimated by a predetermined algorithm based on information held in the storage unit and a predicted power generation amount of the power generation device, Based on the storage battery information held in the storage unit, the predicted power consumption at the customer facility within the predetermined time The first processing unit for estimating the power supply and demand schedule by using a predetermined algorithm to estimate the power purchase content from the grid power source and the power supply content from the storage battery to the customer facility, A second processing unit that receives the selection of the electrical equipment to be saved from the electrical equipment provided in the customer facility of the corresponding consumer holding the information in the storage unit in response to the reception of the power saving target; The information on the selected electrical equipment, the climate prediction data during a predetermined period, and the information on the members of the corresponding consumer are read from the storage unit, and the information during the predetermined period is read based on the read information. A third processing unit that estimates a predicted power saving amount under a predetermined power supply / demand condition using a predetermined algorithm and displays predetermined advice on the output unit according to the degree of achievement of the power saving target based on the predicted power saving amount. To.

なお、上述の節電支援システムにおいて、前記第1処理部及び前記第3処理部が記憶部より読み出して利用する気候予測データは現時点から24時間以内の気候に関する予測データであるとすれば好適である。   In the power saving support system described above, it is preferable that the climate prediction data read and used by the first processing unit and the third processing unit from the storage unit is prediction data related to the climate within 24 hours from the present time. .

また、上述の節電支援システムにおいて、前記第3処理部は、前記予測節電量が前記節電目標を満たすまで、前記第2処理部における前記節電対象の電気設備の選択受付を繰り返し行うものであるとしてもよい。   Further, in the power saving support system described above, the third processing unit repeatedly receives and accepts selection of the electrical equipment to be saved in the second processing unit until the predicted power saving amount satisfies the power saving target. Also good.

また、上述の節電支援システムにおいて、前記第1処理部は、前記所定の需要家施設における、少なくとも所定時間以内の構成員の人数変動の情報を該当需要家の構成員の情報として入力部で受け付け、当該受け付けた人数変動の情報と、該当需要家施設に関して前記記憶部で保持する所定時間以内の気候予測データと、該当需要家施設に備わる電気設備の情報とに基づいて、前記所定時間以内の気候予測データが示す条件下で、該当需要家施設に所在して人数変動する構成員が前記電気設備を利用した場合の予測消費電力量を所定アルゴリズムで推定し、当該推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定するものである、としてもよい。   Further, in the power saving support system described above, the first processing unit accepts information on a change in the number of members within at least a predetermined time in the predetermined customer facility at the input unit as information on the member of the corresponding customer. , Based on the information on the received change in the number of people, the climate prediction data within a predetermined time held in the storage unit with respect to the corresponding customer facility, and the information on the electrical equipment provided in the corresponding customer facility, Under the conditions indicated by the climate forecast data, the estimated power consumption when a member who is located in the relevant customer facility and the number of people changes uses the electrical equipment is estimated using a predetermined algorithm, and within the estimated predetermined time Based on the predicted power consumption, the predicted power generation amount of the power generation device, and the information on the storage battery held in the storage unit, the prediction at the corresponding customer facility within the predetermined time is performed. Assuming that the amount of power purchased from the grid power supply and the power supply content from the storage battery to the customer facility are estimated with a predetermined algorithm to satisfy the power consumption amount together with the predicted power generation amount, and the power supply and demand schedule is specified. Good.

また、上述の節電支援システムにおいて、前記第1処理部は、前記給電内容として、蓄電池から需要家施設への給電開始の契機となる、該当需要家施設での消費電力量に関する閾値を、前記所定時間以内の気候予測データと、該当需要家施設での構成員数の多少とに応じて基準値より所定量増減させて特定し、前記予測消費電力量が前記閾値となる時間帯に給電を開始し、前記予測発電量および系統電源からの買電量と併せることで、前記予測消費電力量を満たすことのできる、蓄電池から需要家施設への給電量を算定し、前記閾値と前記各時間帯における給電量とを蓄電池からの給電内容として推定するものである、としてもよい。   Further, in the power saving support system described above, the first processing unit sets, as the power supply content, a threshold value related to power consumption at a corresponding customer facility that triggers power supply from the storage battery to the customer facility. Depending on the climate forecast data within the time and the number of members at the relevant customer facility, it is specified by increasing / decreasing by a predetermined amount from the reference value, and power supply is started at the time when the predicted power consumption is the threshold value. The amount of power supplied from the storage battery to the customer facility that can satisfy the predicted power consumption can be calculated by combining the predicted power generation amount and the amount of power purchased from the system power supply. The amount may be estimated as the power supply content from the storage battery.

また、上述の節電支援システムにおいて、ネットワークを介して需要家端末と通信する通信部を備え、前記第1〜第3の少なくともいずれかの処理部は、前記入力部において受け付ける情報を、前記通信部を介して需要家端末から受け付け、該当前記出力部で表示する情報を、該当需要家施設を利用する需要家の需要家端末に前記通信部を介して送信するものである、としてもよい。   The power saving support system includes a communication unit that communicates with a customer terminal via a network, and the at least one of the first to third processing units receives information received by the input unit as the communication unit. It is good also as what transmits from the consumer terminal via the said information, and displays the information displayed on the said output part to the consumer terminal of the consumer who uses an applicable consumer facility via the said communication part.

また、上述の節電支援システムにおいて、前記所定期間中の所定時点間における、系統電源からの実際の買電量と前記電力需給予定が示す買電量との間の差分値を算定し、当該差分値と前記節電目標の値とを比較し、前記差分値による前記節電目標値の達成度に応じた所定メッセージを出力部に表示する第4処理部を更に備えるとしてもよい。   Further, in the power saving support system described above, a difference value between an actual power purchase amount from a grid power source and a power purchase amount indicated by the power supply and demand schedule between predetermined points in the predetermined period is calculated, and the difference value A fourth processing unit that compares the power saving target value and displays a predetermined message on the output unit according to the achievement level of the power saving target value based on the difference value may be further provided.

また、上述の節電支援システムにおいて、前記記憶部は、各需要家施設が系統電源を利用できる消費電力量の限度値を示す、利用契約値を更に保持しており、前記第4処理部は、更に、前記需要家施設における所定計測装置より得た実消費電力量の値を、該当需要家施設に関する前記利用契約値と比較し、実消費電力量が前記利用契約値の所定割合となった場合に、該当需要家施設の各電気設備のリストを前記電気設備データベースから読み出し、当該リスト中の各電気設備を選択可能に出力部に表示し、前記リストに含まれる電気設備のうち、前記需要家施設において利用予定である電気設備の指定を入力部で受け付けた場合、該当電気設備の仕様情報を前記電気設備データベースから読み出し、当該仕様情報が示す仕様消費電力量と前記実消費電力量との合計値が、前記利用契約値以内の所定値以下であるか判定し、前記合計値が前記所定値以下となった場合に前記利用予定の電気設備は使用可能である旨の通知を出力部で表示し、前記合計値が前記所定値を上回った場合に前記利用予定の電気設備は使用不可である旨の通知を出力部で表示するものである、としてもよい。   Further, in the power saving support system described above, the storage unit further holds a usage contract value indicating a limit value of power consumption at which each customer facility can use the system power supply, and the fourth processing unit includes: Furthermore, when the value of the actual power consumption obtained from the predetermined measuring device in the consumer facility is compared with the use contract value related to the consumer facility, and the actual power consumption becomes a predetermined ratio of the use contract value In addition, a list of each electrical equipment of the corresponding customer facility is read from the electrical equipment database, each electrical equipment in the list is displayed on the output unit so as to be selectable, and among the electrical equipment included in the list, the consumer When the input unit accepts the designation of the electrical equipment that is scheduled to be used in the facility, the specification information of the electrical equipment is read from the electrical equipment database, the specification power consumption indicated by the specification information, and the It is determined whether the total value with the power consumption is equal to or less than a predetermined value within the usage contract value, and when the total value is equal to or less than the predetermined value, the electrical equipment scheduled to be used is usable. The notification may be displayed on the output unit, and when the total value exceeds the predetermined value, the output unit may display a notification that the electrical equipment scheduled to be used is unusable.

また、上述の節電支援システムにおいて、ネットワークを介して需要家端末と通信する通信部を備え、前記第4処理部は、前記入力部において受け付ける情報を、前記通信部を介して需要家端末から受け付け、該当前記出力部で表示する情報を、該当需要家施設を利用する需要家の需要家端末に前記通信部を介して送信するものである、としてもよい。   The power saving support system includes a communication unit that communicates with a customer terminal via a network, and the fourth processing unit receives information received at the input unit from the customer terminal via the communication unit. The information displayed on the corresponding output unit may be transmitted to the customer terminal of the customer who uses the customer facility via the communication unit.

また、上述の節電支援システムにおいて、前記記憶部は、前記電気設備データベースにおいて、需要家施設の各箇所に備わる電気設備個別の識別情報および仕様情報を格納しており、更に、需要家施設の各箇所に備わる電気設備以外の他電気設備に関する、識別情報及び仕様情報を格納した代替製品データベースを更に保持しており、所定需要家施設の各電気設備の仕様情報を前記電気設備データベースから読み出し、当該読み出した各電気設備の仕様情報を、前記代替製品データベースにおける他電気設備の仕様情報と照合し、該当需要家施設の所定箇所に備わる電気設備と同機能を有するが仕様消費電力量が少ない他電気設備を特定し、該当他電気設備による前記所定箇所の電気設備の更新促進の通知を出力部で表示する第5処理部を更に備えるとしてもよい。   Further, in the power saving support system described above, the storage unit stores identification information and specification information for each electrical facility provided in each location of the customer facility in the electrical facility database. An alternative product database that stores identification information and specification information related to electrical equipment other than the electrical equipment provided at the location is further held, and the specification information of each electrical equipment of a predetermined consumer facility is read from the electrical equipment database, The read specification information of each electrical facility is collated with the specification information of the other electrical facility in the alternative product database, and the other electrical device has the same function as the electrical facility provided at a predetermined location of the corresponding customer facility but has a small amount of power consumption. The fifth processing unit for specifying the facility and displaying the notification of promoting the update of the electrical facility at the predetermined location by the corresponding other electrical facility on the output unit is updated. It may be provided.

また、本発明の節電支援方法は、電力の需要家施設に備わる各電気設備個別の識別情報および仕様情報を格納した電気設備データベースと、各需要家の構成員の情報を格納した構成員データベースと、需要家施設の所在地域に関する少なくとも所定時間以内の気候予測データを格納した気候予測データベースと、各需要家施設に備わる蓄電池および再生可能エネルギー利用の発電装置の各情報を格納した装置データベースと、を保持する記憶部を備える情報処理装置が、所定の需要家施設に関し、前記記憶部で保持する情報に基づいて所定アルゴリズムで推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する第1処理と、入力部での節電目標の受け付けに応じ、前記記憶部で情報を保持する該当需要家の需要家施設に備わる電気設備中からの、節電対象の電気設備の選択を入力部で受ける第2処理と、前記選択を受けた該当電気設備の情報と、所定期間中の気候予測データと、該当需要家の構成員の情報とを記憶部より読み出し、当該読み出した各情報に基づいて、前記所定期間中の前記電力需給予定の条件下における予測節電量を所定アルゴリズムで推定し、当該予測節電量による前記節電目標の達成度に応じた所定のアドバイスを出力部に表示する第3処理を実行することを特徴とする。   Further, the power saving support method of the present invention includes an electrical equipment database storing identification information and specification information for each electrical equipment provided in a power customer facility, a member database storing information of members of each consumer, A climate prediction database that stores climate prediction data within at least a predetermined time concerning the location of the customer facility, and a device database that stores information on storage batteries and power generation devices that use renewable energy in each customer facility. An information processing apparatus having a storage unit that holds the predicted power consumption within a predetermined time estimated by a predetermined algorithm based on information held in the storage unit with respect to a predetermined customer facility and the predicted power generation amount of the power generation device And the predicted consumption at the corresponding customer facility within the predetermined time based on the storage battery information held in the storage unit A first process for estimating the power supply and demand schedule by estimating the power supply content from the grid power supply and the power supply content from the storage battery to the customer facility with a predetermined algorithm that satisfies the predicted power generation amount in combination with the input power unit A second process for receiving, at the input unit, a selection of electrical equipment to be saved from the electrical equipment provided in the customer facility of the corresponding consumer whose information is stored in the storage unit in response to reception of the power saving target; The information on the received electrical equipment, the climate prediction data during the predetermined period, and the information on the members of the corresponding consumer are read from the storage unit, and the electric power during the predetermined period is read based on the read information. A third process of estimating a predicted power saving amount under a condition of scheduled supply and demand using a predetermined algorithm, and displaying a predetermined advice according to the degree of achievement of the power saving target based on the predicted power saving amount is performed. That.

また、本発明の節電支援プログラムは、電力の需要家施設に備わる各電気設備個別の識別情報および仕様情報を格納した電気設備データベースと、各需要家の構成員の情報を格納した構成員データベースと、需要家施設の所在地域に関する少なくとも所定時間以内の気候予測データを格納した気候予測データベースと、各需要家施設に備わる蓄電池および再生可能エネルギー利用の発電装置の各情報を格納した装置データベースと、を保持する記憶部を備える情報処理装置に、所定の需要家施設に関し、前記記憶部で保持する情報に基づいて所定アルゴリズムで推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する第1処理と、入力部での節電目標の受け付けに応じ、前記記憶部で情報を保持する該当需要家の需要家施設に備わる電気設備中からの、節電対象の電気設備の選択を入力部で受ける第2処理と、前記選択を受けた該当電気設備の情報と、所定期間中の気候予測データと、該当需要家の構成員の情報とを記憶部より読み出し、当該読み出した各情報に基づいて、前記所定期間中の前記電力需給予定の条件下における予測節電量を所定アルゴリズムで推定し、当該予測節電量による前記節電目標の達成度に応じた所定のアドバイスを出力部に表示する第3処理を実行させることを特徴とする。   Further, the power saving support program of the present invention includes an electrical equipment database storing identification information and specification information for each electrical equipment provided in a power customer facility, and a member database storing information of members of each consumer. A climate prediction database that stores climate prediction data within at least a predetermined time concerning the location of the customer facility, and a device database that stores information on storage batteries and power generation devices that use renewable energy in each customer facility. An information processing apparatus including a storage unit that holds, with respect to a predetermined customer facility, a predicted power consumption amount within a predetermined time estimated by a predetermined algorithm based on information stored in the storage unit and a predicted power generation amount of the power generation device Based on the storage battery information stored in the storage unit and within the predetermined time, A first process for estimating the power supply and demand schedule by estimating the power supply content from the grid power supply and the power supply content from the storage battery to the customer facility, and satisfying the predicted power generation amount together with the predicted power generation amount, and an input A second process of receiving, in the input unit, the selection of the electric equipment to be saved from the electric equipment provided in the customer facility of the corresponding consumer holding the information in the storage unit in response to the reception of the power saving target in the unit; Read the information on the selected electrical equipment, the climate prediction data during a predetermined period, and the information on the members of the corresponding consumer from the storage unit, and based on each of the read information, Estimating a predicted power saving amount under a condition of the power supply and demand schedule using a predetermined algorithm, and executing a third process for displaying predetermined advice on the output unit according to the degree of achievement of the power saving target based on the predicted power saving amount And features.

本発明によれば、需要家家庭における具体的な個別環境を即時性の観点も踏まえて考慮した、効率的な節電行動を促進可能となる。   ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to accelerate | stimulate the efficient power saving action which considered the specific individual environment in a consumer home also from the viewpoint of immediacy.

本実施形態の節電支援システムを含むネットワーク構成図である。It is a network block diagram containing the power-saving assistance system of this embodiment. 本実施形態の節電支援システムのハードウェア構成例を示す図である。It is a figure which shows the hardware structural example of the power saving assistance system of this embodiment. 本実施形態における需要家端末のハードウェア構成例を示す図である。It is a figure which shows the hardware structural example of the customer terminal in this embodiment. 本実施形態における電気設備データベースのデータ構成例を示す図である。It is a figure which shows the data structural example of the electrical equipment database in this embodiment. 本実施形態における構成員データベースのデータ構成例を示す図である。It is a figure which shows the data structural example of the member database in this embodiment. 本実施形態における気候予測データベースのデータ構成例を示す図である。It is a figure which shows the data structural example of the climate prediction database in this embodiment. 本実施形態における装置データベースのデータ構成例を示す図である。It is a figure which shows the data structural example of the apparatus database in this embodiment. 本実施形態における代替製品データベースのデータ構成例を示す図である。It is a figure which shows the example of a data structure of the alternative product database in this embodiment. 本実施形態における節電支援方法の処理手順例1を示すフロー図である。It is a flowchart which shows process sequence example 1 of the power saving assistance method in this embodiment. 本実施形態における節電支援方法の処理手順例2を示すフロー図である。It is a flowchart which shows process sequence example 2 of the power saving assistance method in this embodiment. 本実施形態における節電支援方法の処理手順例3を示すフロー図である。It is a flowchart which shows the process sequence example 3 of the power saving assistance method in this embodiment. 本実施形態における画面例1(節電目標受付画面)を示す図である。It is a figure which shows the example 1 (power saving target reception screen) in this embodiment. 本実施形態における画面例2(節電対象選択画面)を示す図である。It is a figure which shows the example 2 (power saving object selection screen) in this embodiment. 本実施形態における画面例3(節電目標達成度に応じたアドバイス表示画面)を示す図である。It is a figure which shows the example 3 (advice display screen according to a power-saving target achievement level) in this embodiment. 本実施形態における画面例4(実際の節電目標達成度に応じたアドバイス表示画面)を示す図である。It is a figure which shows the example 4 (advice display screen according to an actual power-saving target achievement level) in this embodiment. 本実施形態における画面例5(需要家施設の電気設備の選択画面)を示す図である。It is a figure which shows the example 5 of a screen in this embodiment (selection screen of the electrical equipment of a consumer facility). 本実施形態における画面例6(電気設備使用可を通知する画面)を示す図である。It is a figure which shows the example 6 of a screen in this embodiment (a screen which notifies that electric equipment use is possible). 本実施形態における画面例7(電気設備使用不可を通知する画面)を示す図である。It is a figure which shows the example 7 of a screen in this embodiment (screen which notifies that electrical equipment use is impossible). 本実施形態における画面例8(電気設備の更新促進を通知する画面)を示す図である。It is a figure which shows the example 8 of a screen in this embodiment (screen which notifies the update promotion of an electrical installation).

−−−システム構成−−−
以下に本発明の実施形態について図面を用いて詳細に説明する。図1は、本実施形態の節電支援システム100を含むネットワーク構成図である。図1に示す節電支援システム100は、需要家家庭における具体的な個別環境を即時性の観点も踏まえて考慮した、効率的な節電行動を促進可能とするコンピュータシステムである。本実施形態では、節電支援対象の電力需要家として一般家庭の各世帯を想定する。
--- System configuration ---
Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a network configuration diagram including a power saving support system 100 of the present embodiment. A power saving support system 100 shown in FIG. 1 is a computer system that can promote efficient power saving behavior in consideration of a specific individual environment in a customer's home in consideration of immediacy. In this embodiment, each household of a general household is assumed as an electric power consumer of power saving support object.

この場合の各世帯の需要家施設10すなわち住居は、電力事業者が提供する系統電源1から分電盤11にて給電を受け、この分電盤11から配電する電力で各箇所の電気設備15を稼動させる一般的な受電及び配電の構成を備えている。需要家施設10内の電気設備15で消費された電力の量すなわち消費電力量は、分電盤11に備わる電力量計12により計測されている。また、本実施形態における分電盤11は通信機能を具備し、ネットワーク50を介して本実施形態の節電支援システム100を実現するサーバ装置と通信可能に結ばれており、電力量計12により計測された消費電力量のデータを所定時間毎に節電支援システム100に送信している。   In this case, the consumer facility 10 of each household, that is, the residence, is fed by the distribution board 11 from the system power supply 1 provided by the electric power company, and the electrical equipment 15 at each location is supplied with power distributed from the distribution board 11. The system has a general power receiving and power distribution configuration. The amount of power consumed by the electrical equipment 15 in the customer facility 10, that is, the power consumption, is measured by a watt hour meter 12 provided in the distribution board 11. In addition, the distribution board 11 in the present embodiment has a communication function, and is connected to a server device that implements the power saving support system 100 of the present embodiment via the network 50, and is measured by the watt-hour meter 12. The data of the consumed power amount is transmitted to the power saving support system 100 every predetermined time.

また、こうした需要家施設10には、それぞれ分電盤11に給電を行う太陽光発電装置13(再生可能エネルギーを利用した発電装置の一例)と蓄電池14が備わっている。この場合の分電盤11は、太陽光発電装置13での発電量(分電盤11に給電される)と蓄電池14からの給電量を計測しており、当該各計測データを所定時間毎に節電支援システム100に送信している。一方、節電支援システム100は、いわゆるHEMS(家庭向けエネルギー管理システム)の機能を備えており、太陽光発電装置13での発電量を踏まえて、分電盤11に対する蓄電池14からの給電内容(時期と量)をコントロールし、系統電源1からの買電量を最小限に抑えることができる。   In addition, such a customer facility 10 includes a solar power generation device 13 (an example of a power generation device using renewable energy) and a storage battery 14 that supply power to the distribution board 11. In this case, the distribution board 11 measures the amount of power generated by the solar power generation device 13 (power is supplied to the distribution board 11) and the amount of power supplied from the storage battery 14, and the measurement data is measured at predetermined time intervals. It is transmitted to the power saving support system 100. On the other hand, the power saving support system 100 has a function of a so-called HEMS (household energy management system), and the power supply content (time) from the storage battery 14 to the distribution board 11 based on the amount of power generated by the solar power generation device 13. The amount of power purchased from the system power supply 1 can be minimized.

なお、本実施形態の節電支援システム100は、ネットワーク50を介して、上述の分電盤11の他、需要家端末200、および気象データ提供サーバ300と通信可能に結ばれている。このうち、需要家端末200は、上述の需要家施設10に所在する需要家、すなわち一般家庭の構成員が所持する情報端末であり、具体的には携帯電話機やタブレット端末、或いはノートPC等を想定できる。この需要家端末200は、節電支援システム100と協働するアプリケーションとして節電アプリ210を保持しており、この節電アプリ210を実行して必要な機能を実装することとなる。   Note that the power saving support system 100 of the present embodiment is connected to the customer terminal 200 and the weather data providing server 300 via the network 50 in addition to the distribution board 11 described above. Among these, the consumer terminal 200 is an information terminal possessed by a consumer located in the above-described consumer facility 10, that is, a member of a general household, and specifically, a mobile phone, a tablet terminal, a notebook PC, or the like. Can be assumed. The customer terminal 200 holds a power saving application 210 as an application that cooperates with the power saving support system 100, and implements necessary functions by executing the power saving application 210.

また、気象データ提供サーバ300は、少なくとも現時点から24時間以内の1時間毎ないし3時間毎の天気、気温、湿度、風向といった天候に関する予測データを節電支援システム100に提供するサーバ装置である。   The weather data providing server 300 is a server device that provides the power saving support system 100 with forecast data related to weather such as weather, temperature, humidity, and wind direction at least every 1 to 3 hours within 24 hours from the present time.

なお、本実施形態の節電支援システム100は、上述の分電盤11、需要家端末200、および気象データ提供サーバ300を含んでいるとしてもよい。   The power saving support system 100 according to the present embodiment may include the distribution board 11, the customer terminal 200, and the weather data providing server 300 described above.

本実施形態における節電支援システム100のハードウェア構成は以下の如くとなる。図2は本実施形態における節電支援システム100のハードウェア構成例を示す図である。節電支援システム100は、ハードディスクドライブなど適宜な不揮発性記憶装置で構成される記憶部101、RAMなど揮発性記憶装置で構成されるメモリ103、記憶部101に保持されるプログラム102をメモリ103に読み出すなどして実行し装置自体の統括制御を行なうとともに各種判定、演算及び制御処理を行なうCPU104、ユーザたる需要家からのキー入力や音声入力を受け付ける入力部105、処理データの表示を行うディスプレイ等の出力部106、ネットワークと接続し需要家端末200や気象データ提供サーバ300等の他装置との通信処理を担う通信部107、を備える。上述の他装置との間でのみデータ授受を行う場合、節電支援システム100は入力部105および出力部106を備えないとしてもよい。なお、記憶部101内には、本実施形態の節電支援システム100として必要な機能を実装する為のプログラム102と、後述するデータベース125〜129が少なくとも記憶されている。   The hardware configuration of the power saving support system 100 in the present embodiment is as follows. FIG. 2 is a diagram illustrating a hardware configuration example of the power saving support system 100 according to the present embodiment. The power saving support system 100 reads into the memory 103 a storage unit 101 composed of a suitable non-volatile storage device such as a hard disk drive, a memory 103 composed of a volatile storage device such as a RAM, and a program 102 held in the storage unit 101. The CPU 104 that performs overall control of the apparatus itself and performs various determinations, computations, and control processes, the input unit 105 that receives key input and voice input from a user as a user, a display that displays processing data, and the like The output unit 106 includes a communication unit 107 that is connected to a network and performs communication processing with other devices such as the customer terminal 200 and the weather data providing server 300. When exchanging data only with the above-described other devices, the power saving support system 100 may not include the input unit 105 and the output unit 106. The storage unit 101 stores at least a program 102 for implementing functions necessary for the power saving support system 100 of the present embodiment and databases 125 to 129 described later.

また、図3に示すように、本実施形態における需要家端末200のハードウェア構成は、一般的な情報処理端末と同様であり、ハードディスクドライブなど適宜な不揮発性記憶装置で構成される記憶部201、RAMなど揮発性記憶装置で構成されるメモリ203、記憶部201に保持される節電アプリ210をメモリ203に読み出すなどして実行し装置自体の統括制御を行なうとともに各種演算処理を行なうCPU204、需要家からのキー入力や音声入力を受け付ける入力部205、処理データの表示を行うディスプレイ等の出力部206、ネットワークと接続し節電支援システム100との通信処理を担う通信部207、を備える。なお、記憶部201内には、本実施形態の需要家端末200として必要な機能を実装する為の節電アプリ210が少なくとも記憶されている。   As shown in FIG. 3, the hardware configuration of the customer terminal 200 in the present embodiment is the same as that of a general information processing terminal, and a storage unit 201 configured by an appropriate nonvolatile storage device such as a hard disk drive. , A memory 203 composed of a volatile storage device such as a RAM, a CPU 204 for performing overall control of the device itself by executing, for example, reading out the power saving application 210 held in the storage unit 201 to the memory 203, and performing various arithmetic processes, An input unit 205 that receives key input and voice input from the house, an output unit 206 such as a display that displays processing data, and a communication unit 207 that is connected to a network and performs communication processing with the power saving support system 100 are provided. The storage unit 201 stores at least a power saving application 210 for implementing functions necessary for the customer terminal 200 of the present embodiment.

続いて、本実施形態の節電支援システム100が備える第1〜第5の各処理部110〜114について説明する。上述したように、以下に説明する処理部110〜114は、例えば節電支援システム100が備えるプログラム102を実行することで実装される機能部と言える。   Next, the first to fifth processing units 110 to 114 included in the power saving support system 100 of this embodiment will be described. As described above, the processing units 110 to 114 described below can be said to be functional units implemented by executing the program 102 included in the power saving support system 100, for example.

本実施形態の節電支援システム100は、所定の需要家施設10に関し、該当需要家施設10の所在地域に関する24時間以内の気候予測データ(気候予測データベース127で保持している)と、該当需要家施設10の各箇所に備わる電気設備15の識別情報および仕様情報(電気設備データベース125で保持している)と、該当需要家の構成員の人数、年齢、性別、外出予定、電気設備15の使用傾向等の情報(構成員データベース126で保持している)、の各情報を記憶部101から読み出し、当該読み出した各情報に基づいて、該当気候予測データが示す条件下(天気、気温、湿度、風向、日照時間、太陽高度等)で、該当需要家施設10に現時点から24時間以内に所在する所定属性の構成員が、所定の使用傾向で電気設備15を利用した場合の、現時点から24時間以内の予測消費電力量を所定アルゴリズムで推定する第1処理部110を備えている。予定消費電力量を推定するアルゴリズムは、例えば、上述の各情報を入力として予定消費電力量を出力する算定式を想定できる。この算定式は、上述の各情報の実際値と、過去に実際に特定された消費電力量との間の相関解析を行って得られている数式である。なお、上述のアルゴリズムは、第1処理部110が予め備えているものとする。この点は、以降の第1処理部およびその他の各処理部に関する説明においても同様である。   The power saving support system 100 according to the present embodiment relates to a predetermined customer facility 10, climate prediction data (stored in the climate prediction database 127) within 24 hours related to the location of the customer facility 10, and a corresponding customer. Identification information and specification information of the electrical equipment 15 provided in each part of the facility 10 (stored in the electrical equipment database 125), the number of members of the corresponding customer, age, gender, going out, use of the electrical equipment 15 Information such as trends (stored in the member database 126) is read from the storage unit 101, and based on each of the read information, conditions (weather, temperature, humidity, Members of a predetermined attribute located within the corresponding customer facility 10 within 24 hours from the current time in the direction of wind, sunshine duration, solar altitude, etc.) The case of using, and a first processing unit 110 for estimating the predicted consumed electric power amount within 24 hours from the current time by a predetermined algorithm. As an algorithm for estimating the planned power consumption, for example, it is possible to assume a calculation formula that outputs the planned power consumption with the above-described information as inputs. This calculation formula is a formula obtained by performing a correlation analysis between the actual value of each piece of information described above and the power consumption actually specified in the past. Note that the above-described algorithm is assumed to be included in the first processing unit 110 in advance. This is the same in the following description of the first processing unit and other processing units.

なお、第1処理部110は、上述の需要家施設10に関し、既に得ている24時間以内の気候予測データ(天気、気温、湿度、風向、日照時間、太陽高度等)と、該当需要家施設10に備わる太陽光発電装置13における発電能力の仕様情報(記憶部101の装置データベース128にて格納されている)とに基づいて、該当気候予測データが示す条件下での太陽光発電装置13の予測発電量を所定アルゴリズムで推定する機能を備えている。予測発電量を推定するアルゴリズムは、例えば、上述の気候予測データおよび太陽光発電装置13の仕様情報を入力として予測発電量を出力する算定式を想定できる。この算定式は、上述の気候予測データおよび仕様情報の実際値と、過去に実際に特定された発電量との間の相関解析を行って得られている数式である。   In addition, the 1st process part 110 is related to the above-mentioned consumer facility 10, and already obtained climate prediction data within 24 hours (weather, temperature, humidity, wind direction, sunshine time, solar altitude, etc.) and the corresponding customer facility 10 is stored in the device database 128 of the storage unit 101 based on the specification information of the power generation capacity of the solar power generation device 13 included in the solar power generation device 13 of the solar power generation device 13 in the condition indicated by the corresponding climate prediction data. It has a function to estimate the predicted power generation amount with a predetermined algorithm. The algorithm for estimating the predicted power generation amount can assume, for example, a calculation formula that outputs the predicted power generation amount with the above-described climate prediction data and the specification information of the solar power generation device 13 as inputs. This calculation formula is a mathematical formula obtained by performing a correlation analysis between the actual values of the above-described climate prediction data and specification information and the power generation amount actually specified in the past.

また、第1処理部110は、需要家施設10に関して推定した、上述の予測消費電力量および太陽光発電装置13の予測発電量と、記憶部101の装置データベース128で保持する蓄電池14の仕様情報(蓄電容量や放電能力等の情報)とに基づいて、現時点から24時間以内において該当需要家施設10での予測消費電力量を、予測発電量と併せることで満たす、系統電源1からの買電内容と、蓄電池14から需要家施設10の分電盤11への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する。蓄電池14からの給電内容を推定するアルゴリズムは、例えば、上述の予測消費電力量および太陽光発電装置13の予測発電量と、蓄電池14の仕様情報(蓄電容量や放電能力等の情報)を入力として、ある期間(例:現時点から24時間以内)中の消費電力量を太陽光発電装置13での発電量及び系統電源1からの買電量と併せることで満たし、なおかつ系統電源1からの買電量最小との制約条件下で、蓄電池14から分電盤11への給電を行う給電開始時刻と給電量を出力する最適解の数理計画プログラムを想定できる。   Moreover, the 1st process part 110 is the specification information of the storage battery 14 hold | maintained with the apparatus database 128 of the above-mentioned estimated electric power consumption and the solar power generation device 13 estimated about the consumer facility 10, and the storage part 101 mentioned above. Based on (information such as storage capacity and discharge capacity), power purchase from the system power supply 1 that satisfies the predicted power consumption at the corresponding customer facility 10 in combination with the predicted power generation within 24 hours from the present time The power supply content from the storage battery 14 to the distribution board 11 of the customer facility 10 is estimated by a predetermined algorithm, and the power supply / demand schedule is specified. The algorithm for estimating the power supply content from the storage battery 14 receives, for example, the above-mentioned predicted power consumption and the predicted power generation amount of the solar power generation device 13 and the specification information (information such as storage capacity and discharge capacity) of the storage battery 14 as input. The power consumption amount during a certain period (eg, within 24 hours from the present time) is satisfied by combining the power generation amount by the solar power generation device 13 and the power purchase amount from the system power source 1 and the minimum power purchase amount from the system power source 1 Thus, it is possible to assume an optimal solution mathematical program that outputs the power supply start time and the amount of power supplied from the storage battery 14 to the distribution board 11.

なお、この場合の第1処理部110は、上述の蓄電池14からの給電内容として、蓄電池14から需要家施設10の分電盤11への給電開始の契機となる、該当需要家施設10での消費電力量に関する閾値を、上述の制約条件(ある期間中の消費電力量を満たし、なおかつ系統電源1からの買電量最小)を踏まえつつ、24時間以内の気候予測データと、該当需要家施設10での構成員数の多少とに応じて基準値より所定量増減させて特定する。また、第1処理部110は、予測消費電力量が上述の閾値となる時間帯に蓄電池14からの給電を開始し、上述の予測発電量及び系統電源1からの買電量と併せることで、予測消費電力量を満たすことのできる、蓄電池14から需要家施設10の分電盤11への給電量を算定する(すなわち、時間帯毎に、予測消費電力量<太陽光発電装置13での発電量+系統電源1からの買電量+蓄電池14からの給電量、となるよう算定する)。こうして第1処理部110は、上述の閾値と各時間帯における給電量とを給電内容として推定することとなる。   In addition, the 1st process part 110 in this case is an opportunity of the start of the electric power feeding from the storage battery 14 to the distribution board 11 of the customer facility 10 as the electric power feeding content from the above-mentioned storage battery 14 in the applicable customer facility 10. The threshold value regarding the power consumption is based on the above-mentioned constraint condition (satisfying the power consumption during a certain period and the minimum amount of power purchased from the system power supply 1), and climate prediction data within 24 hours and the corresponding customer facility 10 In accordance with the number of members in the table, it is specified by increasing or decreasing a predetermined amount from the reference value. Moreover, the 1st process part 110 starts the electric power feeding from the storage battery 14 in the time slot | zone when prediction electric power consumption becomes the above-mentioned threshold value, and combines with the above-mentioned prediction electric power generation amount and the electric power purchase amount from the system power supply 1, and is predicted. The amount of power supplied from the storage battery 14 to the distribution board 11 of the customer facility 10 that can satisfy the power consumption is calculated (that is, the predicted power consumption <the amount of power generated by the solar power generation device 13 for each time zone). (Calculated so that + the amount of power purchased from the system power supply 1 + the amount of power supplied from the storage battery 14). Thus, the first processing unit 110 estimates the above-described threshold value and the power supply amount in each time zone as the power supply content.

例えば、24時間以内の気候予測データが「曇天」、「所定基準以下の日照時間」を示すものであり、該当需要家施設10での構成員数が、所定基準ないし該当需要家施設10での通常状態より多い「10名」である場合、太陽光発電装置13で十分な発電量が期待できない一方、需要家施設10での予測消費電力量は通常より多い状況となる。この場合、消費電力量のピークは所定基準より高くなる一方、太陽光発電装置13からの給電にあまり期待できないため、蓄電池14が放電を開始すべき即ち給電を開始すべき消費電力量の閾値は、閾値のデフォルト値(基準値)より一定量だけ低くし、蓄電池14からの給電をデフォルトより早めに開始する設定とする。勿論この場合も、上述の制約条件(ある期間中の消費電力量を満たし、なおかつ系統電源1からの買電量最小)を満たす中で閾値の範囲は決まる(以下同様)。   For example, the climate forecast data within 24 hours indicates “cloudy weather” and “sunshine hours below a predetermined standard”, and the number of members in the corresponding customer facility 10 is normal in the predetermined standard or the corresponding customer facility 10. When there are more “10 people” than the state, the solar power generation device 13 cannot expect a sufficient power generation amount, but the predicted power consumption at the customer facility 10 is larger than usual. In this case, while the peak of power consumption is higher than the predetermined reference, since the power supply from the solar power generation device 13 cannot be expected so much, the threshold value of power consumption at which the storage battery 14 should start discharging, that is, power supply should be started. The threshold value is set lower than the default value (reference value) by a certain amount, and the power supply from the storage battery 14 is set to start earlier than the default value. Of course, in this case as well, the range of the threshold is determined while satisfying the above-described constraint (the amount of power consumed during a certain period and the minimum amount of power purchased from the system power supply 1).

他方、24時間以内の気候予測データが「晴天」、「所定基準以上の日照時間」を示すものであり、該当需要家施設10での構成員数が、所定基準ないし該当需要家施設10での通常状態より少ない「1名」である場合、太陽光発電装置13で十分な発電量が見込まれる一方、需要家施設10での予測消費電力量は通常より少ない状況となり、いわゆる消費電力量のピークは所定基準より低くなるため、蓄電池14が放電を開始すべき即ち給電を開始すべき消費電力量の閾値は、閾値のデフォルト値(基準値)より一定量だけ高くし、蓄電池14からの給電をデフォルトより遅めに開始する設定とする。   On the other hand, the climate forecast data within 24 hours indicates “sunny weather” and “sunshine hours above a predetermined standard”, and the number of members in the corresponding customer facility 10 is normal in the predetermined standard or the corresponding customer facility 10. When “one person” is smaller than the state, the solar power generation device 13 is expected to generate a sufficient amount of power, while the predicted power consumption at the customer facility 10 is less than normal. Since the storage battery 14 should start discharging, that is, the power consumption threshold value at which power supply should be started is set higher by a certain amount than the default value (reference value) of the threshold value, and power supply from the storage battery 14 is defaulted. Set to start later.

なお、上述の第1処理部110は、需要家施設10での構成員の数に変動が生じる状況にも対応することが可能である。こうした状況の例としては、該当世帯を構成する家族の一部が旅行により一定期間不在となる場合や、親類や知人等が一定期間滞在する場合などが想定できる。こうした場合の第1処理部110は、需要家端末200ないし入力部105を介して、該当需要家施設10における、例えば24時間以内の構成員の人数変動の情報を該当需要家の構成員の情報として受け付ける。   In addition, the above-mentioned 1st process part 110 can respond also to the condition where a fluctuation | variation arises in the number of members in the consumer facility 10. FIG. As an example of such a situation, it can be assumed that a part of a family constituting the household is absent for a certain period due to travel, or a relative or an acquaintance stays for a certain period. In such a case, the first processing unit 110 uses the customer terminal 200 or the input unit 105 to obtain information on the change in the number of members in the corresponding customer facility 10 within, for example, 24 hours. Accept as.

また、第1処理部110は、ここで受け付けた構成員の(変動予定の)人数情報と、該当需要家施設10の所在地域に関する上述の24時間以内の気候予測データと、該当需要家施設10に備わる電気設備15の情報(電気設備データベース125の格納情報)とに基づいて、上述同様に所定アルゴリズムで予測消費電力量を推定し、当該推定した24時間以内での予測消費電力量および太陽光発電装置13の予測発電量と、蓄電池14の仕様情報とに基づいて、やはり上述同様に蓄電池14から需要家施設10の分電盤11への給電内容、および系統電源1からの買電量を上述のアルゴリズムで推定する。   Further, the first processing unit 110 receives the information on the number of members (scheduled to change) received here, the above-described climate prediction data for the location of the customer facility 10 within the above 24 hours, and the customer facility 10. Based on the information on the electrical equipment 15 (stored information in the electrical equipment database 125) included in the power consumption, the predicted power consumption is estimated by a predetermined algorithm in the same manner as described above, and the estimated predicted power consumption and solar power within 24 hours are estimated. Based on the predicted power generation amount of the power generation device 13 and the specification information of the storage battery 14, the power supply contents from the storage battery 14 to the distribution board 11 of the customer facility 10 and the power purchase amount from the system power supply 1 are also described above. Estimate with the algorithm.

消費電力量を、系統電源1からの買電量と、太陽光発電装置13での発電量と、蓄電池14からの給電量とで満たす前提で説明を行っているが、太陽光発電装置13での発電量のみ、或いは太陽光発電装置13での発電量と蓄電池14からの給電量のみで消費電力量を満たせる場合、当然ながら系統電源1からの買電は行わず、その買電量は各処理に際して加味しない(他の説明に関しても同様である)。   Although the explanation is made on the assumption that the power consumption is satisfied by the amount of power purchased from the system power supply 1, the amount of power generated by the solar power generation device 13, and the amount of power supplied from the storage battery 14, When the power consumption can be satisfied only by the power generation amount or the power generation amount by the solar power generation device 13 and the power supply amount from the storage battery 14, the power purchase from the system power source 1 is naturally not performed. Not added (the same applies to other explanations).

なお、上述の第1処理部110は、蓄電池14から分電盤11への給電内容を推定するだけでなく、蓄電池14への充電内容を推定する処理を実行するとしてもよい。この場合、第1処理部110は、需要家端末200から受け付けた需要家の志向指示(太陽光発電装置13での発電電力を売電することによる利益追求の意識よりも、環境保護意識の方が高い)に応じて、太陽光発電装置13での発電電力を系統電源1に供給する売電動作を、所定の時間帯だけ停止し、その間の太陽光発電装置13での発電電力を蓄電池14に充電する、すなわち蓄電池14への充電時間帯を示す充電内容についても上述の電力需給予定に含める。こうした充電内容の推定を実行する第1処理部110は、既に推定した給電内容を実行可能であるとの制約下で、24時間以内の気候予測データ、この気候予測データに応じた太陽光発電装置13での発電量、および、予測消費電力量とを入力として、太陽光発電装置13から蓄電池14への充電時間帯の最適解を、所定の数理計画プログラムで算定する。   In addition, the above-mentioned 1st process part 110 may perform the process which estimates the charge content to the storage battery 14 as well as the power supply content from the storage battery 14 to the distribution board 11. In this case, the first processing unit 110 is more conscious of environmental protection than the consumer-oriented instruction received from the customer terminal 200 (consciousness of pursuing profits by selling power generated by the solar power generation device 13). The power selling operation for supplying the power generated by the solar power generator 13 to the system power source 1 is stopped only for a predetermined time period, and the power generated by the solar power generator 13 during that time is stored in the storage battery 14. The charging contents indicating the charging time zone for the storage battery 14 are also included in the above-described power supply and demand schedule. The first processing unit 110 that performs the estimation of the charging content is a climate prediction data within 24 hours and a photovoltaic power generation device corresponding to the climate prediction data under the restriction that the estimated power supply content can be executed. 13, the power generation amount at 13 and the predicted power consumption amount are input, and the optimal solution for the charging time zone from the solar power generation device 13 to the storage battery 14 is calculated by a predetermined mathematical programming program.

また、節電支援システム100は、需要家端末200ないし入力部105からの節電目標の受け付けに応じ、記憶部101で情報を保持する該当需要家の需要家施設に備わる電気設備中からの、節電対象の電気設備の選択を需要家端末200ないし入力部105で受ける第2処理部111を備える。節電目標とは、現時点から所定時期までの該当需要家施設10における消費電力量の低減目標、換言すれば、電気料金節約の目標額である。この場合、節電支援システム100の第2処理部111は、記憶部101に予め保持する画面データのうち、節電目標受付画面(後述)に対応するものを読み出し、通信部107を介して需要家端末200に送信して、この節電目標受付画面を介して該当需要家施設10における節電目標(例:今後一ヶ月間で400円分節電)を受け付ける。   In addition, the power saving support system 100 receives a power saving target from the customer terminal 200 or the input unit 105, and saves power from the electric equipment provided in the customer facility of the corresponding consumer that holds information in the storage unit 101. The second processing unit 111 that receives the selection of the electrical equipment by the customer terminal 200 or the input unit 105 is provided. The power saving target is a reduction target of power consumption in the corresponding customer facility 10 from the present time to a predetermined time, in other words, a target amount for saving electricity charges. In this case, the second processing unit 111 of the power saving support system 100 reads out data corresponding to a power saving target reception screen (described later) from the screen data stored in the storage unit 101 in advance, and the customer terminal via the communication unit 107 200, and receives a power saving target (for example, power saving of 400 yen in the next month) in the corresponding customer facility 10 via this power saving target reception screen.

また、第2処理部111は、記憶部101の電気設備データベース125から該当需要家施設10に備わる各電気設備の識別情報を読み出し、当該各識別情報を選択可能に設定した画面データを生成(所定の雛形画面データに識別情報を設定して生成)して、当該画面データを節電対象選択画面(後述)として需要家端末200に送信する。第2処理部111は、この節電対象選択画面を介して、該当需要家施設10における節電対象の電気設備15(例:2F子供部屋エアコン、1Fリビングのヒータ・・・)の選択を受けることとなる。   In addition, the second processing unit 111 reads out identification information of each electrical equipment provided in the corresponding customer facility 10 from the electrical equipment database 125 of the storage unit 101, and generates screen data in which each identification information is set to be selectable (predetermined) The identification screen is generated by setting identification information on the model screen data), and the screen data is transmitted to the customer terminal 200 as a power saving target selection screen (described later). The second processing unit 111 receives, via the power saving target selection screen, the selection of the power saving target electrical equipment 15 (for example, 2F child room air conditioner, 1F living room heater ...) in the corresponding customer facility 10; Become.

他方、需要家端末200は、上述の節電対象選択画面のデータを受信し、節電アプリ210における表示画面としてディスプレイ等に表示させる。需要家端末200は、キーボードやスタイラスペン、タッチスクリーン等の入力手段において、上述の節電アプリ210上での節電対象選択の動作を需要家から受け付けることとなる。また、選択動作を受け付けた節電アプリ210は、該当電気設備15の識別情報を、節電支援システム100の第2処理部111に対し返信する。   On the other hand, the customer terminal 200 receives the data on the power saving target selection screen described above and displays the data on a display or the like as a display screen in the power saving application 210. The consumer terminal 200 accepts an operation for selecting a power saving target on the power saving application 210 described above from a consumer using input means such as a keyboard, a stylus pen, and a touch screen. In addition, the power saving application 210 that has received the selection operation returns the identification information of the electric facility 15 to the second processing unit 111 of the power saving support system 100.

更に、節電支援システム100は、上述の第2処理部111が需要家端末200から選択を受け付けた該当電気設備15に関する情報(電気設備データベース125で保持)と、所定期間中(例:現時点から1ヶ月間)の気候予測データ(気候予測データベース127で保持)と、該当需要家施設10に上述の所定期間中に所在する需要家の構成員の情報(構成員データベース126で保持)とを記憶部101より読み出し、当該読み出した各情報に基づいて、上述の所定期間中の電力需給予定(第1処理部110が特定済み)の遂行時における、該当気候予測データが示す気候条件下で、該当需要家施設に所在する構成員が該当電気設備15を所定稼動条件(例:所定基準より1割パワーダウン、稼動時間2割低減等)で利用した場合の、所定期間中(節電目標の対象期間)の予測節電量を所定アルゴリズムで推定し、この予測節電量による節電目標の達成度に応じた所定のアドバイスを通信部107経由で需要家端末200に送信する第3処理部112を備える。   Furthermore, the power saving support system 100 includes information related to the electrical equipment 15 that the second processing unit 111 receives a selection from the customer terminal 200 (held in the electrical equipment database 125), and a predetermined period (eg, 1 from the current time). Monthly) climate forecast data (held in the climate forecast database 127) and information on members of the customers who are located in the corresponding customer facility 10 during the predetermined period (held in the member database 126) 101, and based on the read information, the demand is met under the climatic conditions indicated by the relevant climate prediction data when the power supply / demand schedule (specified by the first processing unit 110) during the predetermined period is performed. When a member located in a home facility uses the relevant electrical equipment 15 under predetermined operating conditions (eg, 10% power down, 20% reduction in operating time, etc. from the predetermined standard) A predicted power saving amount during a fixed period (a target period of the power saving target) is estimated by a predetermined algorithm, and predetermined advice corresponding to the achievement degree of the power saving target based on the predicted power saving amount is transmitted to the customer terminal 200 via the communication unit 107. A third processing unit 112 is provided.

他方、需要家端末200は上述のアドバイスを受信し、節電アプリ210における所定の表示画面において表示させる。節電支援システム100から送信され、需要家端末200で表示されるアドバイスの例としては、現在の電気設備15の選択内容(稼動条件の選択内容も含めてよい)では節電目標が未達成となる状態に対応した「目標達成に向けてもう少し電気設備を選択しましょう」、「目標達成に向けてもう少し稼動条件を低く設定しましょう」といったものや、現在の電気設備15の選択内容で節電目標が達成される状態に対応した「節電目標を達成できそうです」といったものなどが想定される。   On the other hand, the customer terminal 200 receives the above advice and displays it on a predetermined display screen in the power saving application 210. As an example of the advice transmitted from the power saving support system 100 and displayed on the customer terminal 200, a state where the power saving target is not achieved in the current selection contents of the electrical equipment 15 (which may include the selection contents of the operating conditions). "Let's select a little more electric equipment to achieve the target", "Let's set the operating conditions a little lower to achieve the target", etc. It is assumed that the power saving target is likely to be achieved, etc., corresponding to the state to be performed.

なお、電気設備15の稼動条件は、電気設備15の選択時に需要家端末200から指定を受け付けるか、或いは、該当気候予測データの内容(例:気温や不快指数など)に応じて予め記憶部101にて規定されている条件を第3処理部112が選択使用するとしてもよい。   Note that the operating condition of the electrical equipment 15 can be designated from the customer terminal 200 when the electrical equipment 15 is selected, or can be stored in advance in accordance with the contents of the relevant climate prediction data (eg, temperature, discomfort index, etc.). The third processing unit 112 may select and use the conditions defined in (1).

また、上述のアルゴリズムは、例えば、上述の各情報を入力として予測節電量を出力する算定式を想定できる。この算定式は、上述の各情報の実際値と、過去に実際に達成された節電量との間の相関解析を行って得られている数式である。或いは、所定の気候予測データが示す条件下で、需要家施設10に所在する構成員が各電気設備15を所定稼動条件で利用した場合の予測節電量を規定したテーブルが予め記憶部に保持されており、第3処理部112において予測節電量の推定を行うアルゴリズムは、上述のテーブルから対応する予測節電量の値を抽出する形態も採用しうる。   Moreover, the above-mentioned algorithm can assume the calculation formula which outputs the estimated power-saving amount, for example by inputting each above-mentioned information. This calculation formula is a mathematical formula obtained by performing a correlation analysis between the actual value of each piece of information described above and the power saving amount actually achieved in the past. Alternatively, a table that prescribes a predicted power saving amount when a member located in the customer facility 10 uses each electrical equipment 15 under a predetermined operating condition under the conditions indicated by the predetermined climate prediction data is stored in the storage unit in advance. In addition, the algorithm for estimating the predicted power saving amount in the third processing unit 112 may adopt a form in which the corresponding predicted power saving amount value is extracted from the above-described table.

なお、上述の第3処理部112は、需要家端末200にて選択された電気設備15に関し推定した予測節電量が、該当需要家施設10について設定された節電目標を満たすまで、上述の第2処理部111に対し、需要家端末200からの節電対象の電気設備15の選択受付の処理を繰り返し実行させる。   Note that the third processing unit 112 described above continues until the predicted power saving amount estimated for the electrical equipment 15 selected by the customer terminal 200 satisfies the power saving target set for the corresponding customer facility 10. The processing unit 111 is made to repeatedly execute the process of accepting selection of the electrical equipment 15 to be saved from the customer terminal 200.

こうして、節電目標達成に必要となる情報として、節電行為の内容(節電対象となる電気設備15やその稼動条件など)を、節電支援システム100が需要家端末200に送り、需要家端末200を利用する需要家に対する節電支援が実行される。そうした節電支援を受けた需要家は需要家施設10において、節電対象とした電気設備15を使用を停止或いは抑制するなどし、節電に努めることとなる。需要家施設10にて実際に節電行為が実行された後に関しては、節電支援システム100における第4処理部113が必要な処理を実行する。   Thus, as information necessary for achieving the power saving target, the power saving action contents (such as the electrical equipment 15 to be saved and its operating conditions) are sent to the customer terminal 200 by the power saving support system 100 and the customer terminal 200 is used. Power saving support is implemented for consumers. The customer who has received such power saving support will endeavor to save power by stopping or suppressing the use of the electric equipment 15 targeted for power saving in the customer facility 10. After the power saving action is actually executed at the customer facility 10, the fourth processing unit 113 in the power saving support system 100 executes necessary processing.

すなわち節電支援システム100の第4処理部113は、節電対象期間たる所定期間中における所定時点間(例:該当需要家施設10について節電目標を設定した○月○日○時○分から、現時点までの間)における系統電源1からの実際の買電量の値を、該当需要家施設10における電力量計12(計測装置)から取得する。また、第4処理部113は、該当時点間に関する電力需給予定(第1処理部110が特定済み)が示す系統電源1からの買電量(予定値である)と、上述の実際の買電量との間の差分値を算定し、更に、この差分値と節電目標の値とを比較して、差分値による節電目標値の達成度に応じた所定メッセージを需要家端末200に送信する。   That is, the fourth processing unit 113 of the power saving support system 100 performs a predetermined period of time during a predetermined period that is a power saving target period (for example, from the month, day, day, hour, and minute when the power saving target is set for the corresponding customer facility 10 to the present time. The actual power purchase value from the system power source 1 is acquired from the watt-hour meter 12 (measuring device) in the corresponding customer facility 10. In addition, the fourth processing unit 113 purchases the amount of power purchased from the system power source 1 (which is the planned value) indicated by the power supply / demand schedule (the first processing unit 110 has already been specified) between the corresponding time points, and the actual power purchase amount described above. The difference value is calculated, and the difference value is compared with the power saving target value, and a predetermined message corresponding to the achievement level of the power saving target value based on the difference value is transmitted to the customer terminal 200.

具体的には、第4処理部113は、例えば節電対象期間の1ヶ月中(2月1日開始)における、2月1日から2月17日までの間における系統電源1からの実際の買電量の値を、電力量計12から、例えば「11.5kwh」と取得する。また、第4処理部113は、上述の2月1日から2月17日までの間に関する電力需給予定(第1処理部110が特定済み)が示す系統電源1からの買電量「23.5kwh」と、上述の実際の買電量「11.5kwh」との間の差分値「12kwh」を算定する。また、第4処理部113は、この差分値「12kwh」に単位消費電力量当たりの電気料金額「¥20/kwh」を乗算して、節電額「¥240」を算定する。第4処理部113は、この節電額「¥240」と節電目標の値「¥400」とを比較して、差分値に対応した節電額「¥240」よる節電目標値「¥400」の達成度を「(240/400)×100=60%」と算定し、この達成度「60%」に応じた所定メッセージ「この調子でがんばりましょうね!」を需要家端末200に送信することとなる。こうしたメッセージを受け取った需要家端末200は、節電アプリ210における所定の表示画面において該当メッセージを表示させる。   Specifically, the fourth processing unit 113 performs actual purchase from the system power source 1 during the period from February 1 to February 17 during, for example, one month (starting on February 1) of the power saving target period. For example, “11.5 kwh” is acquired from the watt-hour meter 12. In addition, the fourth processing unit 113 receives the power purchase amount “23.5 kwh” from the system power source 1 indicated by the power supply / demand schedule related to the period from February 1 to February 17 (the first processing unit 110 has already been specified). And a difference value “12 kwh” between the actual power purchase amount “11.5 kwh” described above. Further, the fourth processing unit 113 calculates the power saving amount “¥ 240” by multiplying the difference value “12 kwh” by the electricity charge amount “¥ 20 / kwh” per unit power consumption. The fourth processing unit 113 compares the power saving amount “¥ 240” with the power saving target value “¥ 400” and achieves the power saving target value “¥ 400” based on the power saving amount “¥ 240” corresponding to the difference value. The degree is calculated as “(240/400) × 100 = 60%”, and a predetermined message corresponding to the achievement degree “60%” “Let's do our best in this condition!” Is transmitted to the customer terminal 200; Become. The customer terminal 200 that has received such a message displays the corresponding message on a predetermined display screen in the power saving application 210.

また、本実施形態における上述の第4処理部113は、更に以下のような機能を備えている。すなわち第4処理部113は、需要家施設10における電力量計12より得た実消費電力量の値を、該当需要家施設10に関する利用契約値130(需要家施設10が系統電源1を利用できる消費電力量の限度値を示す値であり、記憶部101に保持されているもの)と比較し、実消費電力量が利用契約値130の所定割合となった場合に、該当需要家施設10の各電気設備15のリストを電気設備データベース125から読み出し、当該リスト中の各電気設備15を選択可能に需要家端末200に送信して表示させる。   Moreover, the above-mentioned 4th process part 113 in this embodiment is further provided with the following functions. That is, the fourth processing unit 113 uses the value of the actual power consumption obtained from the watt hour meter 12 in the customer facility 10 as the use contract value 130 for the customer facility 10 (the customer facility 10 can use the system power supply 1. When the actual power consumption becomes a predetermined ratio of the usage contract value 130 as compared with the value indicating the limit value of the power consumption and held in the storage unit 101), A list of each electrical equipment 15 is read from the electrical equipment database 125, and each electrical equipment 15 in the list is transmitted to the customer terminal 200 so that it can be selected and displayed.

また、第4処理部113は、上述のリストに含まれる電気設備15のうち、該当需要家施設10において利用予定である電気設備15の指定を、需要家端末200から受け付けた場合、該当電気設備15の仕様情報を電気設備データベース125から読み出し、当該仕様情報が示す仕様消費電力量と実消費電力量との合計値が、利用契約値以内の所定値以下であるか判定する。ここで、上述の合計値が上述の所定値以下となった場合、第4処理部113は、利用予定の電気設備15が使用可能である旨の通知を需要家端末200に送信して表示させる。一方、上述の合計値が上述の所定値を上回った場合、第4処理部113は、利用予定の電気設備15が使用不可である旨の通知を需要家端末200に送信して表示させる。このような機能によれば、節電目標を達成しようとしている需要家において、その需要家施設10でのいわゆる契約アンペア以上の電力消費を抑制すると共に、契約内で利用可能な電気設備15について非常に簡便な操作で明確な提示を受けることが可能となる。   In addition, when the fourth processing unit 113 receives designation of the electrical equipment 15 that is scheduled to be used in the corresponding customer facility 10 among the electrical equipments 15 included in the above list, the fourth processing unit 113 receives the corresponding electrical equipment. Fifteen specification information is read from the electrical equipment database 125, and it is determined whether the total value of the specification power consumption and the actual power consumption indicated by the specification information is equal to or less than a predetermined value within the usage contract value. Here, when the above-mentioned total value becomes below the above-mentioned predetermined value, the 4th processing part 113 transmits the notice to the effect that the electric equipment 15 to be used is usable to the customer terminal 200, and displays it. . On the other hand, when the above-mentioned total value exceeds the above-mentioned predetermined value, the 4th processing part 113 transmits the notice to the effect that the electric equipment 15 to be used cannot be used to the customer terminal 200, and displays it. According to such a function, in the consumer who is going to achieve the power saving target, the power consumption exceeding the so-called contract ampere in the consumer facility 10 is suppressed, and the electrical equipment 15 usable in the contract is very much. It becomes possible to receive a clear presentation with a simple operation.

なお、節電支援システム100は、その記憶部101の電気設備データベース125において、電気設備15が需要家施設10のどの箇所に備わるか、位置情報についても格納している。また、記憶部101は、更に、需要家施設10の各箇所に備わる電気設備15以外の他電気設備に関する、識別情報及び仕様情報を格納した代替製品データベース129を保持している。   Note that the power saving support system 100 also stores location information regarding which part of the customer facility 10 the electrical facility 15 is provided in the electrical facility database 125 of the storage unit 101. Further, the storage unit 101 further holds an alternative product database 129 that stores identification information and specification information related to electrical equipment other than the electrical equipment 15 provided in each location of the customer facility 10.

この場合、節電支援システム100は、需要家施設10の各電気設備15の仕様情報を電気設備データベース125から読み出し、当該読み出した各電気設備15の仕様情報を、代替製品データベース129における他電気設備の仕様情報と照合し、該当需要家施設10の所定箇所に備わる電気設備15と同機能を有するが仕様消費電力量が少ない他電気設備を特定し、該当他電気設備(例:△○(株)製のLED電球型照明器□○型)による所定箇所(例:2F寝室の天井)の電気設備15(例:○○(株)製の白熱電球型照明器○○型)の更新促進の通知を需要家端末200に送信して表示させる第5処理部114を備えている。   In this case, the power saving support system 100 reads the specification information of each electric equipment 15 of the customer facility 10 from the electric equipment database 125, and uses the read specification information of each electric equipment 15 of the other electric equipment in the alternative product database 129. Collate with the specification information to identify other electrical equipment that has the same function as the electrical equipment 15 provided at a predetermined location of the relevant customer facility 10 but has a low specification power consumption, and the relevant other electrical equipment (eg, △ ○ Co., Ltd.) Notification of the promotion of renewal of electrical equipment 15 (eg XX Inc. Incandescent Bulb illuminator XX type) at a predetermined location (example: ceiling of 2F bedroom) by LED bulb type illuminator XX type Is transmitted to the customer terminal 200 for display.

−−−データ構造例−−−
次に、本実施形態の節電支援システム100が用いるテーブルにおけるデータ構造例について説明する。図4は本実施形態における電気設備データベース125のデータ構成例を示す図である。電気設備データベース125は、電力の需要家施設10の各箇所に備わる電気設備個別の識別情報および仕様情報を格納したデータベースであり、具体的には、需要家施設IDをキーとして、該当需要家施設10における電気設備設置箇所、該当設置箇所に設置されている電気設備15の識別情報(製品名、型番、メーカー等)、仕様情報(定格消費電力量、耐用年数等)が対応付けされたレコードの集合体となっている。
--- Data structure example ---
Next, an example of a data structure in a table used by the power saving support system 100 of the present embodiment will be described. FIG. 4 is a diagram showing a data configuration example of the electrical facility database 125 in the present embodiment. The electrical equipment database 125 is a database that stores identification information and specification information for each electrical equipment provided at each location of the power customer facility 10. Specifically, the customer equipment ID is used as a key for the relevant customer facility. 10 of the electrical equipment installation location in 10, identification information (product name, model number, manufacturer, etc.) of electrical equipment 15 installed in the relevant installation location, and specification information (rated power consumption, useful life, etc.) It is an aggregate.

図5は本実施形態における構成員データベース126のデータ構成例を示す図である。また、構成員データベース126は、各需要家の需要家施設10に所在する構成員の情報を格納したデータベースであり、具体的には、需要家施設IDをキーとして、該当需要家施設10に所在する構成員の人数、性別、年齢層、外出予定、電気設備15の使用傾向といった情報を対応付けされたレコードの集合体となっている。   FIG. 5 is a diagram showing a data configuration example of the member database 126 in the present embodiment. In addition, the member database 126 is a database that stores information on the members located in the customer facility 10 of each customer. Specifically, the member database 126 is located in the corresponding customer facility 10 using the customer facility ID as a key. It is a set of records associated with information such as the number of members, sex, age group, planned going out, and usage tendency of the electrical equipment 15.

図6は本実施形態における気候予測データベース127のデータ構成例を示す図である。また、気候予測データベース127は、需要家施設10の所在地域に関する少なくとも所定時間以内の気候予測データを格納したデータベースであり、節電支援システム100が、ネットワーク50経由で気象データ提供サーバ300から得ているデータの格納先となっている。この気候予測データベース127は、具体的には、予測範囲の期間情報をキーとして、天気、気温、湿度、風向、日照時間、太陽高度といった情報を対応付けたレコードの集合体となっている。   FIG. 6 is a diagram showing a data configuration example of the climate prediction database 127 in the present embodiment. The climate prediction database 127 is a database that stores climate prediction data within at least a predetermined time related to the location of the customer facility 10, and the power saving support system 100 is obtained from the weather data providing server 300 via the network 50. Data storage destination. Specifically, the climate prediction database 127 is a set of records in which information such as weather, temperature, humidity, wind direction, sunshine duration, and solar altitude is associated with the period information of the prediction range as a key.

図7は本実施形態における装置データベース128のデータ構成例を示す図である。また、装置データベース128は、各需要家施設10に備わる蓄電池14および太陽光発電装置13(再生可能エネルギー利用の発電装置)の各情報を格納したデータベースである。具体的には、装置データベース128は、需要家施設IDをキーとして、蓄電池ID、該当蓄電池14の仕様情報(蓄電容量や放電能力等)、太陽光発電装置ID、該当太陽光発電装置13の仕様情報(発電能力等)といった情報を対応付けたレコードの集合体となっている。   FIG. 7 is a diagram showing a data configuration example of the device database 128 in the present embodiment. The device database 128 is a database that stores information on the storage battery 14 and the solar power generation device 13 (power generation device using renewable energy) provided in each customer facility 10. Specifically, the device database 128 uses the customer facility ID as a key, the storage battery ID, the specification information of the corresponding storage battery 14 (storage capacity, discharge capacity, etc.), the solar power generation device ID, and the specification of the corresponding solar power generation device 13. It is an aggregate of records in which information such as information (such as power generation capacity) is associated.

図8は本実施形態における代替製品データベース129のデータ構成例を示す図である。また、代替製品データベース129は、需要家施設10の各箇所に備わる電気設備15以外の他電気設備に関する、識別情報及び仕様情報を格納したデータベースである。具体的には、この代替製品データベース129は、他電気設備の識別情報(製品名、型番、メーカー等)、仕様情報(定格消費電力量、耐用年数等)が対応付けされたレコードの集合体となっている。   FIG. 8 is a diagram showing a data configuration example of the alternative product database 129 in the present embodiment. The alternative product database 129 is a database that stores identification information and specification information regarding electrical equipment other than the electrical equipment 15 provided in each part of the customer facility 10. Specifically, the substitute product database 129 includes a collection of records in which identification information (product name, model number, manufacturer, etc.) of other electrical equipment and specification information (rated power consumption, useful life, etc.) are associated. It has become.

−−−処理手順例1−−−
以下、本実施形態における節電支援方法の実際手順について図に基づき説明する。以下で説明する節電支援方法を実行する第1〜第5の各処理部110〜114は、節電支援システム100がメモリ等に読み出して実行するプログラム102によって実現される。そして、このプログラム102は、以下に説明される各種の動作を行うためのコードから構成されている。
--- Example of processing procedure 1 ---
Hereinafter, the actual procedure of the power saving support method in the present embodiment will be described with reference to the drawings. The first to fifth processing units 110 to 114 that execute the power saving support method described below are realized by a program 102 that the power saving support system 100 reads out and executes in a memory or the like. And this program 102 is comprised from the code | cord | chord for performing the various operation | movement demonstrated below.

図9は、本実施形態における節電支援方法の処理手順例1を示すフロー図である。ここでまず、第1処理部110は、所定の需要家施設10に関し、該当需要家施設10の所在地域に関する24時間以内の気候予測データ(気候予測データベース127で保持)と、該当需要家施設10の各箇所に備わる電気設備15の識別情報および仕様情報(電気設備データベース125で保持)と、該当需要家の構成員の人数、年齢、性別、外出予定、電気設備15の使用傾向等の情報(構成員データベース126で保持)、の各情報を記憶部101から読み出す(s100)。   FIG. 9 is a flowchart showing a processing procedure example 1 of the power saving support method in the present embodiment. Here, first, the first processing unit 110 relates to a predetermined customer facility 10, climate prediction data within 24 hours regarding the location of the corresponding customer facility 10 (stored in the climate prediction database 127), and the corresponding customer facility 10. Identification information and specification information (stored in the electrical equipment database 125) of the electrical equipment 15 provided in each part of the information, and information such as the number of members of the corresponding customer, age, gender, going-out schedule, usage tendency of the electrical equipment 15 ( (Stored in the member database 126) is read from the storage unit 101 (s100).

第1処理部110は、上述のステップで読み出した各情報に基づいて、該当気候予測データが示す条件下(天気、気温、湿度、風向、日照時間、太陽高度等)で、該当需要家施設10に現時点から24時間以内に所在する所定属性の構成員が、所定の使用傾向で電気設備15を利用した場合の、現時点から24時間以内の予測消費電力量を所定アルゴリズムで推定する(s101)。   Based on the information read out in the above-described steps, the first processing unit 110 performs the corresponding customer facility 10 under the conditions indicated by the corresponding climate prediction data (such as weather, temperature, humidity, wind direction, sunshine duration, solar altitude). When a member with a predetermined attribute located within 24 hours from the current time uses the electrical equipment 15 with a predetermined usage tendency, the predicted power consumption within 24 hours from the current time is estimated using a predetermined algorithm (s101).

次に、第1処理部110は、上述の需要家施設10に関し、上述のステップs100で既に得ている24時間以内の気候予測データと、該当需要家施設10に備わる太陽光発電装置13における発電能力の仕様情報(装置データベース128で保持)とに基づいて、該当気候予測データが示す条件下での太陽光発電装置13の予測発電量を所定アルゴリズムで推定する(s102)。   Next, the first processing unit 110 relates to the above-described customer facility 10, the climate prediction data within 24 hours already obtained in the above-described step s 100, and power generation in the solar power generation device 13 provided in the corresponding customer facility 10. Based on the capability specification information (held in the device database 128), the predicted power generation amount of the solar power generation device 13 under the condition indicated by the relevant climate prediction data is estimated by a predetermined algorithm (s102).

また、第1処理部110は、該当需要家施設10に関して上述のステップs101、s102で推定した予測消費電力量および太陽光発電装置13の予測発電量と、記憶部101の装置データベース128で保持する蓄電池14の仕様情報(蓄電容量や放電能力等の情報)とに基づいて、現時点から24時間以内における該当需要家施設10での予測消費電力量を、予測発電量と併せることで満たす、系統電源1からの買電内容と、蓄電池14から需要家施設10の分電盤11への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する(s103)。   Moreover, the 1st process part 110 is hold | maintained by the apparatus database 128 of the memory | storage part 101 with the estimated electric power consumption estimated with the above-mentioned step s101, s102 regarding the said consumer facility 10, and the estimated electric power generation amount of the solar power generation device 13. FIG. Based on the specification information of the storage battery 14 (information such as storage capacity and discharge capacity), the system power supply that satisfies the predicted power consumption at the corresponding customer facility 10 within 24 hours from the current time together with the predicted power generation The power purchase contents from 1 and the power supply contents from the storage battery 14 to the distribution board 11 of the customer facility 10 are estimated by a predetermined algorithm, and the power supply / demand schedule is specified (s103).

なお、この場合の第1処理部110は、上述の蓄電池14からの給電内容として、蓄電池14から需要家施設10の分電盤11への給電開始の契機となる、該当需要家施設10での消費電力量に関する閾値を、上述の制約条件(ある期間中の消費電力量を満たし、なおかつ系統電源1からの買電量最小)を踏まえつつ、24時間以内の気候予測データと、該当需要家施設10での構成員数の多少とに応じて基準値より所定量増減させて特定する。また、第1処理部110は、予測消費電力量が上述の閾値となる時間帯に蓄電池14からの給電を開始し、上述の予測発電量及び系統電源1からの買電量と併せることで、予測消費電力量を満たすことのできる、蓄電池14から需要家施設10の分電盤11への給電量を算定する(すなわち、時間帯毎に、予測消費電力量<太陽光発電装置13での発電量+系統電源1からの買電量+蓄電池14からの給電量、となるよう算定する)。こうして第1処理部110は、上述の閾値と各時間帯における給電量とを給電内容として推定することとなる。   In addition, the 1st process part 110 in this case is an opportunity of the start of the electric power feeding from the storage battery 14 to the distribution board 11 of the customer facility 10 as the electric power feeding content from the above-mentioned storage battery 14 in the applicable customer facility 10. The threshold value regarding the power consumption is based on the above-mentioned constraint condition (satisfying the power consumption during a certain period and the minimum amount of power purchased from the system power supply 1), and climate prediction data within 24 hours and the corresponding customer facility 10 In accordance with the number of members in the table, it is specified by increasing or decreasing a predetermined amount from the reference value. Moreover, the 1st process part 110 starts the electric power feeding from the storage battery 14 in the time slot | zone when prediction electric power consumption becomes the above-mentioned threshold value, and combines with the above-mentioned prediction electric power generation amount and the electric power purchase amount from the system power supply 1, and is predicted. The amount of power supplied from the storage battery 14 to the distribution board 11 of the customer facility 10 that can satisfy the power consumption is calculated (that is, the predicted power consumption <the amount of power generated by the solar power generation device 13 for each time zone). (Calculated so that + the amount of power purchased from the system power supply 1 + the amount of power supplied from the storage battery 14). Thus, the first processing unit 110 estimates the above-described threshold value and the power supply amount in each time zone as the power supply content.

なお、上述の第1処理部110は、需要家施設10での構成員の数に変動が生じる状況にも対応することが可能である。こうした状況の例としては、該当世帯を構成する家族の一部が旅行により一定期間不在となる場合や、親類や知人等が一定期間滞在する場合などが想定できる。こうした場合の第1処理部110は、需要家端末200ないし入力部105を介して、該当需要家施設10における、例えば24時間以内の構成員の人数変動の情報を該当需要家の構成員の情報として受け付ける。   In addition, the above-mentioned 1st process part 110 can respond also to the condition where a fluctuation | variation arises in the number of members in the consumer facility 10. FIG. As an example of such a situation, it can be assumed that a part of a family constituting the household is absent for a certain period due to travel, or a relative or an acquaintance stays for a certain period. In such a case, the first processing unit 110 uses the customer terminal 200 or the input unit 105 to obtain information on the change in the number of members in the corresponding customer facility 10 within, for example, 24 hours. Accept as.

また、第1処理部110は、ここで受け付けた構成員の(変動予定の)人数情報と、該当需要家施設10の所在地域に関する上述の24時間以内の気候予測データと、該当需要家施設10に備わる電気設備15の情報(電気設備データベース125の格納情報)とに基づいて、上述同様に所定アルゴリズムで予測消費電力量を推定し、当該推定した24時間以内での予測消費電力量および太陽光発電装置13の予測発電量と、蓄電池14の仕様情報とに基づいて、やはり上述同様に蓄電池14から需要家施設10の分電盤11への給電内容、および系統電源1からの買電量を上述のアルゴリズムで推定する。   Further, the first processing unit 110 receives the information on the number of members (scheduled to change) received here, the above-described climate prediction data for the location of the customer facility 10 within the above 24 hours, and the customer facility 10. Based on the information on the electrical equipment 15 (stored information in the electrical equipment database 125) included in the power consumption, the predicted power consumption is estimated by a predetermined algorithm in the same manner as described above, and the estimated predicted power consumption and solar power within 24 hours are estimated. Based on the predicted power generation amount of the power generation device 13 and the specification information of the storage battery 14, the power supply contents from the storage battery 14 to the distribution board 11 of the customer facility 10 and the power purchase amount from the system power supply 1 are also described above. Estimate with the algorithm.

消費電力量を、系統電源1からの買電量と、太陽光発電装置13での発電量と、蓄電池14からの給電量とで満たす前提で説明を行っているが、太陽光発電装置13での発電量のみ、或いは太陽光発電装置13での発電量と蓄電池14からの給電量のみで消費電力量を満たせる場合、当然ながら系統電源1からの買電は行わず、その買電量は各処理に際して加味しない(他の説明に関しても同様である)。   Although the explanation is made on the assumption that the power consumption is satisfied by the amount of power purchased from the system power supply 1, the amount of power generated by the solar power generation device 13, and the amount of power supplied from the storage battery 14, When the power consumption can be satisfied only by the power generation amount or the power generation amount by the solar power generation device 13 and the power supply amount from the storage battery 14, the power purchase from the system power source 1 is naturally not performed. Not added (the same applies to other explanations).

続いて節電支援システム100の第2処理部111は、記憶部101に予め保持する画面データのうち、節電目標受付画面1200(図12)に対応するものを読み出し、通信部107を介して需要家端末200に送信して、この節電目標受付画面を介して該当需要家施設10における節電目標(例:今後一ヶ月間で400円分節電)を受け付ける(s104)。   Subsequently, the second processing unit 111 of the power saving support system 100 reads out data corresponding to the power saving target reception screen 1200 (FIG. 12) from the screen data held in advance in the storage unit 101, and uses the communication unit 107 for the customer. It transmits to the terminal 200 and receives the power saving target (for example, 400 yen power saving in the next one month) in the corresponding customer facility 10 through this power saving target reception screen (s104).

また、第2処理部111は、記憶部101の電気設備データベース125から該当需要家施設10に備わる各電気設備15の識別情報を読み出し、当該各識別情報を選択可能に設定した画面データを生成(所定の雛形画面データに識別情報を設定して生成)して、当該画面データを節電対象選択画面1300(図13)として需要家端末200に送信する(s105)。第2処理部111は、この節電対象選択画面を介して、該当需要家施設10における節電対象の電気設備15(例:2F子供部屋エアコン、1Fリビングのヒータ・・・)の選択を受ける(s106)。   In addition, the second processing unit 111 reads the identification information of each electrical equipment 15 provided in the corresponding customer facility 10 from the electrical equipment database 125 of the storage unit 101, and generates screen data in which each identification information is set to be selectable ( The identification information is set and generated in predetermined template screen data), and the screen data is transmitted to the customer terminal 200 as a power saving target selection screen 1300 (FIG. 13) (s105). The second processing unit 111 receives the selection of the electrical equipment 15 (for example, 2F children's room air conditioner, 1F living room heater ...) in the corresponding customer facility 10 via this power saving target selection screen (s106). ).

なお、需要家端末200では、上述の節電対象選択画面のデータを節電支援システム100から受信し、節電アプリ210における表示画面としてディスプレイ等に表示させている。需要家端末200は、キーボードやスタイラスペン、タッチスクリーン等の入力手段において、上述の節電アプリ210上での節電対象選択の動作を需要家から受け付けることとなる。また、選択動作を受け付けた節電アプリ210は、該当電気設備15の識別情報を、節電支援システム100の第2処理部111に対し返信する。   Note that the customer terminal 200 receives the data on the power saving target selection screen described above from the power saving support system 100 and displays it on a display or the like as a display screen in the power saving application 210. The consumer terminal 200 accepts an operation for selecting a power saving target on the power saving application 210 described above from a consumer using input means such as a keyboard, a stylus pen, and a touch screen. In addition, the power saving application 210 that has received the selection operation returns the identification information of the electric facility 15 to the second processing unit 111 of the power saving support system 100.

続いて、節電支援システム100の第3処理部112は、上述の第2処理部111が需要家端末200から選択を受け付けた該当電気設備15に関する情報を電気設備データベース125から読み出し、また、所定期間中(例:現時点から1ヶ月間)の気候予測データを気候予測データベース127から読み出し、また、該当需要家施設10に上述の所定期間中に所在する需要家の構成員の情報を構成員データベース126から読み出す(s107)。   Subsequently, the third processing unit 112 of the power saving support system 100 reads out information related to the corresponding electric facility 15 that the second processing unit 111 receives a selection from the customer terminal 200 from the electric facility database 125, and for a predetermined period of time. Medium (for example, one month from the present time) climate prediction data is read from the climate prediction database 127, and information on the members of the customers located in the corresponding customer facility 10 during the above-mentioned predetermined period is stored in the member database 126. (S107).

また、第3処理部112は、上述のステップs107で読み出した各情報に基づいて、上述の所定期間中の電力需給予定(第1処理部110が特定済み)の遂行時における、該当気候予測データが示す気候条件下で、該当需要家施設10に所在する構成員が該当電気設備15を所定稼動条件(例:所定基準より1割パワーダウン、稼動時間2割低減等)で利用した場合の、所定期間中(節電目標の対象期間)の予測節電量を所定アルゴリズムで推定する(s108)。また、第3処理部112は、この予測節電量による節電目標の達成度を判定し(s109)、この達成度に応じた所定のアドバイスを記憶部101から読み出して、通信部107経由で需要家端末200に送信する(s110)。従って節電支援システム100は、その記憶部101において、予測節電量による節電目標の達成度に応じたアドバイスのリストを予め保持しているものとする。他方、需要家端末200は上述のアドバイスを受信し、節電アプリ210における所定の表示画面1400(図14)において表示させることとなる。   Further, the third processing unit 112, based on each information read out in the above-described step s107, the corresponding climate prediction data at the time of executing the power supply and demand schedule (the first processing unit 110 has already been specified) during the predetermined period described above. When the member located in the customer facility 10 uses the electrical equipment 15 under the predetermined operating conditions (eg, 10% power down, 20% reduction in operating hours, etc.) A predicted power saving amount during a predetermined period (target period of the power saving target) is estimated by a predetermined algorithm (s108). In addition, the third processing unit 112 determines the achievement level of the power saving target based on the predicted power saving amount (s109), reads predetermined advice corresponding to the achievement level from the storage unit 101, and uses the communication unit 107 for the consumer. It transmits to the terminal 200 (s110). Accordingly, it is assumed that the power saving support system 100 holds in advance a list of advice corresponding to the degree of achievement of the power saving target based on the predicted power saving amount in the storage unit 101. On the other hand, the customer terminal 200 receives the above advice and displays it on the predetermined display screen 1400 (FIG. 14) in the power saving application 210.

なお、電気設備15の稼動条件は、電気設備15の選択時に需要家端末200から指定を受け付けるか、或いは、該当気候予測データの内容(例:気温や不快指数など)に応じて予め記憶部101にて規定されている条件を第3処理部112が選択使用するとしてもよい。   Note that the operating condition of the electrical equipment 15 can be designated from the customer terminal 200 when the electrical equipment 15 is selected, or can be stored in advance in accordance with the contents of the relevant climate prediction data (eg, temperature, discomfort index, etc.). The third processing unit 112 may select and use the conditions defined in (1).

なお、上述の第3処理部112は、需要家端末200にて選択された電気設備15に関し推定した予測節電量が、該当需要家施設10について設定された節電目標を満たすまで、上述の第2処理部111に対し、需要家端末200からの節電対象の電気設備15の選択受付の処理を繰り返し実行させる(s109:n〜s106)。   Note that the third processing unit 112 described above continues until the predicted power saving amount estimated for the electrical equipment 15 selected by the customer terminal 200 satisfies the power saving target set for the corresponding customer facility 10. The processing unit 111 is caused to repeatedly execute the process of accepting selection of the electrical equipment 15 to be saved from the customer terminal 200 (s109: n to s106).

こうして、節電目標達成に必要となる情報として、節電行為の内容(節電対象となる電気設備15やその稼動条件など)を、節電支援システム100が需要家端末200に送り、需要家端末200を利用する需要家に対する節電支援が実行される。そうした節電支援を受けた需要家は需要家施設10において、節電対象とした電気設備15を使用を停止或いは抑制するなどし、節電に努めることとなる。需要家施設10にて実際に節電行為が実行された後に関しては、節電支援システム100における第4処理部113が必要な処理を実行する。   Thus, as information necessary for achieving the power saving target, the power saving action contents (such as the electrical equipment 15 to be saved and its operating conditions) are sent to the customer terminal 200 by the power saving support system 100 and the customer terminal 200 is used. Power saving support is implemented for consumers. The customer who has received such power saving support will endeavor to save power by stopping or suppressing the use of the electric equipment 15 targeted for power saving in the customer facility 10. After the power saving action is actually executed at the customer facility 10, the fourth processing unit 113 in the power saving support system 100 executes necessary processing.

すなわち節電支援システム100の第4処理部113は、節電対象期間たる所定期間中における所定時点間(例:該当需要家施設10について節電目標を設定した○月○日○時○分から、現時点までの間)における系統電源1からの実際の買電量の値を、該当需要家施設10における電力量計12(計測装置)から取得する(s111)。   That is, the fourth processing unit 113 of the power saving support system 100 performs a predetermined period of time during a predetermined period that is a power saving target period (for example, from the month, day, day, hour, and minute when the power saving target is set for the corresponding customer facility 10 to the present time The actual power purchase value from the grid power source 1 is acquired from the watt-hour meter 12 (measuring device) in the corresponding customer facility 10 (s111).

また、第4処理部113は、該当時点間に関する電力需給予定(第1処理部110が特定済み)が示す系統電源1からの買電量(予定値である)と、上述の実際の買電量との間の差分値を算定し、更に、この差分値と節電目標の値とを比較する(s112)。第4処理部113は、この比較により上述の差分値による節電目標値の達成度を判定し、この達成度に応じた所定メッセージを記憶部101から読み出して、需要家端末200に送信する(s113)。従って節電支援システム100は、その記憶部101において、上述の節電目標の実際の達成度に応じたアドバイスのリストを予め保持しているものとする。他方、需要家端末200は上述のアドバイスを受信し、節電アプリ210における所定の表示画面1500(図15)において表示させることとなる。   In addition, the fourth processing unit 113 purchases the amount of power purchased from the system power source 1 (which is the planned value) indicated by the power supply / demand schedule (the first processing unit 110 has already been specified) between the corresponding time points, And the difference value is compared with the power saving target value (s112). The fourth processing unit 113 determines the achievement level of the power saving target value based on the above-described difference value based on the comparison, reads a predetermined message corresponding to the achievement level from the storage unit 101, and transmits the message to the customer terminal 200 (s113). ). Therefore, it is assumed that the power saving support system 100 holds in advance a list of advice corresponding to the actual achievement level of the power saving target in the storage unit 101. On the other hand, the customer terminal 200 receives the above advice and displays it on a predetermined display screen 1500 (FIG. 15) in the power saving application 210.

具体的には、第4処理部113は、例えば節電対象期間の1ヶ月中(2月1日開始)における、2月1日から2月17日までの間における系統電源1からの実際の買電量の値を、電力量計12から、例えば「11.5kwh」と取得する。また、第4処理部113は、上述の2月1日から2月17日までの間に関する電力需給予定(第1処理部110が特定済み)が示す系統電源1からの買電量「23.5kwh」と、上述の実際の買電量「11.5kwh」との間の差分値「12kwh」を算定する。また、第4処理部113は、この差分値「12kwh」に単位消費電力量当たりの電気料金額「¥20/kwh」を乗算して、節電額「¥240」を算定する。第4処理部113は、この節電額「¥240」と節電目標の値「¥400」とを比較して、差分値に対応した節電額「¥240」よる節電目標値「¥400」の達成度を「(240/400)×100=60%」と算定し、この達成度「60%」に応じた所定メッセージ「この調子でがんばりましょう!」を需要家端末200に送信することとなる。こうしたメッセージを受け取った需要家端末200は、節電アプリ210における所定の表示画面において該当メッセージを表示させる。   Specifically, the fourth processing unit 113 performs actual purchase from the system power source 1 during the period from February 1 to February 17 during, for example, one month (starting on February 1) of the power saving target period. For example, “11.5 kwh” is acquired from the watt-hour meter 12. In addition, the fourth processing unit 113 receives the power purchase amount “23.5 kwh” from the system power source 1 indicated by the power supply / demand schedule related to the period from February 1 to February 17 (the first processing unit 110 has already been specified). And a difference value “12 kwh” between the actual power purchase amount “11.5 kwh” described above. Further, the fourth processing unit 113 calculates the power saving amount “¥ 240” by multiplying the difference value “12 kwh” by the electricity charge amount “¥ 20 / kwh” per unit power consumption. The fourth processing unit 113 compares the power saving amount “¥ 240” with the power saving target value “¥ 400” and achieves the power saving target value “¥ 400” based on the power saving amount “¥ 240” corresponding to the difference value. The degree is calculated as “(240/400) × 100 = 60%”, and a predetermined message corresponding to the achievement level “60%” “Let's do our best!” Is transmitted to the customer terminal 200. . The customer terminal 200 that has received such a message displays the corresponding message on a predetermined display screen in the power saving application 210.

こうした本実施形態によれば、現時点から24時間以内といった毎日の気象条件に加え、各世帯(需要家)の個別事情(電気設備の設置状況、構成員の数等々)に対応した節電支援を提供可能となる。この場合、節電支援を実行するスパンを時間単位など短期間にすることが可能である為、消費電力量など処理に用いるデータ類が常に実際状況にマッチしたものとなりやすい。また、需要家側に提供される情報は、各世帯でのイベントや行動予定の変動等にも対応した世帯別にフィットするものであり、該当世帯に実際に備わる電気設備を個別に特定した具体的なアドバイスや情報提供が実行される。更に、いわゆるピークカット対応時の蓄電池からの放電(およびこれに備えるための充電も)のタイミングとその閾値を、世帯毎の状況や日々の気象条件に対応した適切な値に変動制御出来る。そのため、実際状況からのズレが生じにくく、適切な節電効果が得られやすい。   According to the present embodiment, in addition to daily weather conditions such as within 24 hours from the present time, power saving support corresponding to individual circumstances (installation status of electrical equipment, number of members, etc.) of each household (customer) is provided. It becomes possible. In this case, since the span for executing the power saving support can be set in a short time such as a time unit, the data used for processing such as the power consumption tends to always match the actual situation. In addition, the information provided to the consumer side fits each household corresponding to events and changes in the schedule of actions in each household, and the specific electrical equipment actually installed in the corresponding household is specified. Advice and information provision are executed. Furthermore, it is possible to control the fluctuation of the timing of discharge from the storage battery (and charging for preparing for this) at the time of so-called peak cut and the threshold value to an appropriate value corresponding to the situation of each household and daily weather conditions. For this reason, deviation from the actual situation is unlikely to occur, and an appropriate power saving effect is easily obtained.

従って、需要家家庭における具体的な個別環境を即時性の観点も踏まえて考慮した、効率的な節電行動を促進可能となる。   Therefore, it is possible to promote an efficient power saving action considering a specific individual environment in a consumer home from the viewpoint of immediacy.

−−−処理手順例2−−−
次に、需要家施設10において契約アンペアを越える電力消費がなされる恐れがある状況に対応し、節電支援システム100が実行する処理について図に基づき説明する。図10は、本実施形態における節電支援方法の処理手順例2を示すフロー図である。
--- Processing procedure example 2 ---
Next, processing executed by the power saving support system 100 will be described with reference to the drawing in response to a situation where there is a possibility that power consumption exceeding the contracted ampere may be performed in the customer facility 10. FIG. 10 is a flowchart showing a processing procedure example 2 of the power saving support method according to this embodiment.

この場合、上述の第4処理部113は、需要家施設10における電力量計12より得た実消費電力量の値を、該当需要家施設10に関する利用契約値130(需要家施設10が系統電源1を利用できる消費電力量の限度値を示す値であり、記憶部101に保持されているもの)と比較する(s200)。   In this case, the fourth processing unit 113 described above uses the actual power consumption value obtained from the wattmeter 12 in the customer facility 10 as the usage contract value 130 for the customer facility 10 (the customer facility 10 is connected to the system power supply). 1 is a value indicating the limit value of power consumption that can be used, and is stored in the storage unit 101) (s200).

この比較の結果、実消費電力量が利用契約値130の所定割合となった場合(s200:y)、第4処理部113は、該当需要家施設10の各電気設備15のリストを電気設備データベース125から読み出す(s201)。また、第4処理部113は、ここで読み出したリスト中の各電気設備15の情報を、記憶部101から読み出した所定の雛形画面データにおいて選択可能な形式で設定して画面データを生成し、これを需要家端末200に送信する(s202)。   As a result of the comparison, when the actual power consumption becomes a predetermined ratio of the usage contract value 130 (s200: y), the fourth processing unit 113 displays the list of each electrical equipment 15 of the corresponding customer facility 10 in the electrical equipment database. It reads from 125 (s201). Further, the fourth processing unit 113 sets the information of each electrical equipment 15 in the list read here in a format selectable in the predetermined template screen data read from the storage unit 101, and generates screen data. This is transmitted to the customer terminal 200 (s202).

一方、需要家端末200ではこの画面データを節電支援システム100から受信し、ディスプレイ装置等で表示することとなる(図16:画面1600)。また、需要家端末200では、上述の画面中のリストに含まれる電気設備15のうち、該当需要家施設10において利用予定である電気設備15の指定を入力装置にて受け付け、この指定内容を節電支援システム100に返信する。   On the other hand, the customer terminal 200 receives this screen data from the power saving support system 100 and displays it on a display device or the like (FIG. 16: screen 1600). In addition, the customer terminal 200 receives the designation of the electrical equipment 15 scheduled to be used in the customer facility 10 among the electrical equipments 15 included in the list in the above-described screen by the input device, and saves the designated content. It returns to the support system 100.

他方、第4処理部113は、上述のリストに含まれる電気設備15のうち需要家端末200で指定を受けた該当電気設備15について、その仕様情報を電気設備データベース125から読み出す(s203)。第4処理部113は、ここで読み出した仕様情報の示す仕様消費電力量と、実消費電力量(ステップs200で得ている)との合計値が、利用契約値以内の所定値以下であるか判定する(s204)。   On the other hand, the 4th process part 113 reads the specification information from the electric equipment database 125 about the electric equipment 15 which received designation | designated by the consumer terminal 200 among the electric equipment 15 contained in the above-mentioned list (s203). Whether the total value of the specification power consumption indicated by the specification information read here and the actual power consumption (obtained in step s200) is equal to or less than a predetermined value within the usage contract value. Determine (s204).

この判定の結果、上述の合計値が上述の所定値以下となった場合(s204:y)、第4処理部113は、利用予定の電気設備15が使用可能である旨の通知を需要家端末200に送信する(s205)。需要家端末200ではこの通知を節電支援システム100から受信し、ディスプレイ装置等で表示することとなる(図17:画面1700)。   As a result of this determination, when the total value is equal to or less than the predetermined value (s204: y), the fourth processing unit 113 notifies the customer terminal that the electrical equipment 15 scheduled to be used can be used. 200 (s205). The customer terminal 200 receives this notification from the power saving support system 100 and displays it on the display device or the like (FIG. 17: screen 1700).

一方、上述の合計値が上述の所定値を上回った場合(s204:n)、第4処理部113は、利用予定の電気設備15が使用不可である旨の通知を需要家端末200に送信する(s206)。需要家端末200ではこの通知を節電支援システム100から受信し、ディスプレイ装置等で表示することとなる(図18:画面1800)。   On the other hand, when the above-mentioned total value exceeds the above-mentioned predetermined value (s204: n), the 4th process part 113 transmits the notification to the effect that the electric equipment 15 to be utilized cannot be used to the consumer terminal 200. (S206). The customer terminal 200 receives this notification from the power saving support system 100 and displays it on the display device or the like (FIG. 18: screen 1800).

このような機能によれば、節電目標を達成しようとしている需要家において、その需要家施設10でのいわゆる契約アンペア以上の電力消費を抑制すると共に、契約内で利用可能な電気設備15について非常に簡便な操作で明確な提示を受けることが可能となる。   According to such a function, in the consumer who is going to achieve the power saving target, the power consumption exceeding the so-called contract ampere in the consumer facility 10 is suppressed, and the electrical equipment 15 usable in the contract is very much. It becomes possible to receive a clear presentation with a simple operation.

−−−処理手順例3−−−
次に、需要家施設10に設置されている電気設備15について、より節電効果が得られるものに更新することを需要家に促す処理について図に基づき説明する。図11は、本実施形態における節電支援方法の処理手順例3を示すフロー図である。なお、節電支援システム100は、その記憶部101の電気設備データベース125において、電気設備15が需要家施設10のどの箇所に備わるか、位置情報についても格納している。また、記憶部101は、更に、需要家施設10の各箇所に備わる電気設備15以外の他電気設備に関する、識別情報及び仕様情報を格納した代替製品データベース129を保持している。
--- Processing procedure example 3 ---
Next, the process of prompting the customer to update the electrical equipment 15 installed in the customer facility 10 to one that can further save power will be described with reference to the drawings. FIG. 11 is a flowchart showing a processing procedure example 3 of the power saving support method according to this embodiment. Note that the power saving support system 100 also stores location information regarding which part of the customer facility 10 the electrical facility 15 is provided in the electrical facility database 125 of the storage unit 101. Further, the storage unit 101 further holds an alternative product database 129 that stores identification information and specification information related to electrical equipment other than the electrical equipment 15 provided in each location of the customer facility 10.

この場合、節電支援システム100の第5処理部114は、需要家施設10の各電気設備15の仕様情報を電気設備データベース125から読み出す(s300)。また第5処理部114は、ここで読み出した各電気設備15の仕様情報を、代替製品データベース129における他電気設備の仕様情報と照合し、該当需要家施設10の所定箇所に備わる電気設備15と同機能を有するが仕様消費電力量が少ない他電気設備を特定する(s301)。   In this case, the fifth processing unit 114 of the power saving support system 100 reads the specification information of each electric equipment 15 of the customer facility 10 from the electric equipment database 125 (s300). Further, the fifth processing unit 114 collates the specification information of each electrical equipment 15 read out here with the specification information of other electrical equipment in the alternative product database 129, and the electrical equipment 15 provided at a predetermined location of the corresponding customer facility 10 Other electrical equipment that has the same function but has low power consumption is specified (s301).

続いて第5処理部114は、上述のステップs301で特定した該当他電気設備(例:△○(株)製のLED電球型照明器□○型)による所定箇所(例:2F寝室の天井)の電気設備15(例:○○(株)製の白熱電球型照明器○○型)の更新促進の通知を、需要家端末200に送信する(s302)。需要家端末200ではこの更新促進の通知を節電支援システム100から受信し、ディスプレイ装置等で表示することとなる(図19:画面1900)。   Subsequently, the fifth processing unit 114 determines a predetermined location (eg, ceiling of 2F bedroom) by the other electrical equipment specified in the above step s301 (eg, LED bulb type illuminator □ ○ type manufactured by △ ○ Co., Ltd.). Notification of renewal promotion of the electric equipment 15 (eg, incandescent light bulb type illuminator XX type manufactured by XX Co., Ltd.) is transmitted to the customer terminal 200 (s302). The customer terminal 200 receives the update promotion notification from the power saving support system 100 and displays it on the display device or the like (FIG. 19: screen 1900).

このような機能によれば、節電目標を達成しようとしている需要家において、その需要家施設10に備わっている電気設備15の電力消費を抑制するよう努める一方、仕様によっては電力消費を大きく低減出来る代替製品すなわち他電気設備へのリプレイスを促進し、節電目標をより効率的に達成することが可能となる。   According to such a function, while trying to reduce the power consumption of the electrical equipment 15 provided in the consumer facility 10 in the consumer who is trying to achieve the power saving target, the power consumption can be greatly reduced depending on the specifications. It is possible to promote replacement to an alternative product, that is, another electric facility, and to achieve the power saving target more efficiently.

以上、本発明を実施するための最良の形態などについて具体的に説明したが、本発明はこれに限定されるものではなく、その要旨を逸脱しない範囲で種々変更可能である。   Although the best mode for carrying out the present invention has been specifically described above, the present invention is not limited to this, and various modifications can be made without departing from the scope of the invention.

こうした本実施形態によれば、現時点から24時間以内といった毎日の気象条件に加え、各世帯(需要家)の個別事情(電気設備の設置状況、構成員の数等々)に対応した節電支援を提供可能となる。この場合、節電支援を実行するスパンを時間単位など短期間にすることが可能である為、消費電力量など処理に用いるデータ類が常に実際状況にマッチしたものとなりやすい。また、需要家側に提供される情報は、各世帯でのイベントや行動予定の変動等にも対応した世帯別にフィットするものであり、該当世帯に実際に備わる電気設備を個別に特定した具体的なアドバイスや情報提供が実行される。更に、いわゆるピークカット対応時の蓄電池からの放電(およびこれに備えるための充電も)のタイミングとその閾値を、世帯毎の状況や日々の気象条件に対応した適切な値に変動制御出来る。そのため、実際状況からのズレが生じにくく、適切な節電効果が得られやすい。   According to the present embodiment, in addition to daily weather conditions such as within 24 hours from the present time, power saving support corresponding to individual circumstances (installation status of electrical equipment, number of members, etc.) of each household (customer) is provided. It becomes possible. In this case, since the span for executing the power saving support can be set in a short time such as a time unit, the data used for processing such as the power consumption tends to always match the actual situation. In addition, the information provided to the consumer side fits each household corresponding to events and changes in the schedule of actions in each household, and the specific electrical equipment actually installed in the corresponding household is specified. Advice and information provision are executed. Furthermore, it is possible to control the fluctuation of the timing of discharge from the storage battery (and charging for preparing for this) at the time of so-called peak cut and the threshold value to an appropriate value corresponding to the situation of each household and daily weather conditions. For this reason, deviation from the actual situation is unlikely to occur, and an appropriate power saving effect is easily obtained.

従って、需要家家庭における具体的な個別環境を即時性の観点も踏まえて考慮した、効率的な節電行動を促進可能となる。   Therefore, it is possible to promote an efficient power saving action considering a specific individual environment in a consumer home from the viewpoint of immediacy.

1 系統電源
10 需要家施設
11 分電盤
12 電力量計(計測装置)
13 太陽光発電装置
14 蓄電池
15 電気設備
50 ネットワーク
100 節電支援システム
101 記憶部
102 プログラム
103 メモリ
104 CPU
105 入力部
106 出力部
107 通信部
110 第1処理部
111 第2処理部
112 第3処理部
113 第4処理部
114 第5処理部
125 電気設備データベース
126 構成員データベース
127 気候予測データベース
128 装置データベース
129 代替製品データベース
130 利用契約値
200 需要家端末
201 記憶部
202 プログラム
203 メモリ
204 CPU
205 入力部
206 出力部
207 通信部
210 節電アプリ
300 気象データ提供サーバ
1 system power supply 10 customer facility 11 distribution board 12 watt-hour meter (measuring device)
13 Photovoltaic generator 14 Storage battery 15 Electric facility 50 Network 100 Power saving support system 101 Storage unit 102 Program 103 Memory 104 CPU
105 input unit 106 output unit 107 communication unit 110 first processing unit 111 second processing unit 112 third processing unit 113 fourth processing unit 114 fifth processing unit 125 electrical facility database 126 member database 127 climate prediction database 128 device database 129 Substitute product database 130 Contract value 200 Customer terminal 201 Storage unit 202 Program 203 Memory 204 CPU
205 Input Unit 206 Output Unit 207 Communication Unit 210 Power Saving Application 300 Weather Data Providing Server

Claims (12)

電力の需要家施設に備わる各電気設備個別の識別情報および仕様情報を格納した電気設備データベースと、各需要家の構成員の情報を格納した構成員データベースと、需要家施設の所在地域に関する少なくとも所定時間以内の気候予測データを格納した気候予測データベースと、各需要家施設に備わる蓄電池および再生可能エネルギー利用の発電装置の各情報を格納した装置データベースと、を保持する記憶部と、
所定の需要家施設に関し、前記記憶部で保持する情報に基づいて所定アルゴリズムで推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する第1処理部と、
入力部での節電目標の受け付けに応じ、前記記憶部で情報を保持する該当需要家の需要家施設に備わる電気設備中からの、節電対象の電気設備の選択を入力部で受ける第2処理部と、
前記選択を受けた該当電気設備の情報と、所定期間中の気候予測データと、該当需要家の構成員の情報とを記憶部より読み出し、当該読み出した各情報に基づいて、前記所定期間中の前記電力需給予定の条件下における予測節電量を所定アルゴリズムで推定し、当該予測節電量による前記節電目標の達成度に応じた所定のアドバイスを出力部に表示する第3処理部と、
を備えることを特徴とする節電支援システム。
Electric equipment database storing identification information and specification information of each electric equipment provided in electric power consumer facilities, member database storing information of members of each consumer, and at least predetermined regarding the location area of the customer facilities A storage unit that holds a climate prediction database storing climate prediction data within a period of time, and a device database storing information on storage batteries and power generation devices using renewable energy provided in each customer facility,
Regarding the predetermined customer facility, the predicted power consumption within the predetermined time estimated by the predetermined algorithm based on the information stored in the storage unit, the predicted power generation amount of the power generation device, and the storage battery information stored in the storage unit Based on the above, the power purchase content from the grid power supply and the power supply content from the storage battery to the customer facility satisfying the predicted power consumption at the corresponding customer facility together with the predicted power generation amount within the predetermined time are predetermined. A first processing unit that estimates by an algorithm and identifies a power supply and demand schedule;
A second processing unit that receives, in the input unit, the selection of the electrical equipment to be saved from the electrical equipment provided in the customer facility of the corresponding consumer that holds information in the storage unit in response to the reception of the power saving target in the input unit When,
Read the information on the selected electrical equipment, the climate prediction data during a predetermined period, and the information on the members of the corresponding consumer from the storage unit, and based on each of the read information, A third processing unit that estimates a predicted power saving amount under a condition of the power supply and demand schedule using a predetermined algorithm, and displays predetermined advice according to the degree of achievement of the power saving target based on the predicted power saving amount on an output unit;
A power saving support system comprising:
前記第1処理部及び前記第3処理部が記憶部より読み出して利用する気候予測データは現時点から24時間以内の気候に関する予測データであることを特徴とする請求項1に記載の節電支援システム。   The power saving support system according to claim 1, wherein the climate prediction data read out from the storage unit and used by the first processing unit and the third processing unit is prediction data related to a climate within 24 hours from the present time. 前記第3処理部は、
前記予測節電量が前記節電目標を満たすまで、前記第2処理部における前記節電対象の電気設備の選択受付を繰り返し行うものであることを特徴とする請求項1または2に記載の節電支援システム。
The third processing unit includes:
3. The power saving support system according to claim 1, wherein the second processing unit repeatedly receives and accepts the power saving target electrical equipment until the predicted power saving amount satisfies the power saving target.
前記第1処理部は、
前記所定の需要家施設における、少なくとも所定時間以内の構成員の人数変動の情報を該当需要家の構成員の情報として入力部で受け付け、当該受け付けた人数変動の情報と、該当需要家施設に関して前記記憶部で保持する所定時間以内の気候予測データと、該当需要家施設に備わる電気設備の情報とに基づいて、前記所定時間以内の気候予測データが示す条件下で、該当需要家施設に所在して人数変動する構成員が前記電気設備を利用した場合の予測消費電力量を所定アルゴリズムで推定し、当該推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定するものである、
ことを特徴とする請求項1〜3のいずれかに記載の節電支援システム。
The first processing unit includes:
In the predetermined customer facility, information on the change in the number of members within at least a predetermined time is received by the input unit as information on the member of the corresponding customer, and the received information on the change in the number of members and the customer facility Based on the climate forecast data within a predetermined time stored in the storage unit and the information on the electrical equipment provided in the customer facility, the location is located at the customer facility under the conditions indicated by the climate forecast data within the predetermined time. The estimated power consumption when a member whose number of people fluctuates uses the electrical equipment is estimated with a predetermined algorithm, the predicted power consumption within the estimated predetermined time, the predicted power generation amount of the power generator, and the storage From the system power supply that satisfies the predicted power generation amount in the corresponding customer facility within the predetermined time based on the information on the storage battery held in the And power purchase content, to estimate the feed content from the storage battery to the customer facility with a predetermined algorithm, is intended to identify the power supply and demand schedule,
The power saving support system according to any one of claims 1 to 3.
前記第1処理部は、前記蓄電池からの給電内容として、
蓄電池から需要家施設への給電開始の契機となる、該当需要家施設での消費電力量に関する閾値を、前記所定時間以内の気候予測データと、該当需要家施設での構成員数の多少とに応じて基準値より所定量増減させて特定し、前記予測消費電力量が前記閾値となる時間帯に給電を開始し、前記予測発電量および系統電源からの買電量と併せることで、前記予測消費電力量を満たすことのできる、蓄電池から需要家施設への給電量を算定し、前記閾値と前記各時間帯における給電量とを給電内容として推定するものである、
ことを特徴とする請求項4に記載の節電支援システム。
The first processing unit, as the power supply content from the storage battery,
The threshold for power consumption at the customer facility, which triggers the start of power supply from the storage battery to the customer facility, depends on the climate forecast data within the predetermined time and the number of members at the customer facility. The predicted power consumption is specified by increasing / decreasing a predetermined amount from a reference value, starting power supply in a time zone in which the predicted power consumption is the threshold, and combining the predicted power generation amount and the power purchase amount from the system power supply. The amount of power supplied from a storage battery to a customer facility that can satisfy the amount is calculated, and the amount of power supplied in the threshold and the time period is estimated as the content of power supply.
The power saving support system according to claim 4.
ネットワークを介して需要家端末と通信する通信部を備え、
前記第1〜第3の少なくともいずれかの処理部は、前記入力部において受け付ける情報を、前記通信部を介して需要家端末から受け付け、該当前記出力部で表示する情報を、該当需要家施設を利用する需要家の需要家端末に前記通信部を介して送信するものである、
ことを特徴とする請求項1〜5のいずれかに記載の節電支援システム。
A communication unit that communicates with customer terminals via a network is provided.
The at least one of the first to third processing units receives information received at the input unit from a customer terminal via the communication unit, and displays information displayed on the output unit at a corresponding customer facility. It is to be transmitted to the customer terminal of the customer to use via the communication unit.
The power saving support system according to any one of claims 1 to 5.
前記所定期間中の所定時点間における、系統電源からの実際の買電量と前記電力需給予定が示す買電量との間の差分値を算定し、当該差分値と前記節電目標の値とを比較し、前記差分値による前記節電目標値の達成度に応じた所定メッセージを出力部に表示する第4処理部を更に備えることを特徴とする請求項1〜6のいずれかに記載の節電支援システム。   Calculate the difference value between the actual power purchase amount from the grid power supply and the power purchase amount indicated by the power supply and demand schedule between the predetermined time points in the predetermined period, and compare the difference value with the power saving target value. The power saving support system according to claim 1, further comprising a fourth processing unit that displays a predetermined message on the output unit according to the achievement level of the power saving target value based on the difference value. 前記記憶部は、
各需要家施設が系統電源を利用できる消費電力量の限度値を示す、利用契約値を更に保持しており、
前記第4処理部は、更に、
前記需要家施設における所定計測装置より得た実消費電力量の値を、該当需要家施設に関する前記利用契約値と比較し、実消費電力量が前記利用契約値の所定割合となった場合に、該当需要家施設の各電気設備のリストを前記電気設備データベースから読み出し、当該リスト中の各電気設備を選択可能に出力部に表示し、
前記リストに含まれる電気設備のうち、前記需要家施設において利用予定である電気設備の指定を入力部で受け付けた場合、該当電気設備の仕様情報を前記電気設備データベースから読み出し、当該仕様情報が示す仕様消費電力量と前記実消費電力量との合計値が、前記利用契約値以内の所定値以下であるか判定し、前記合計値が前記所定値以下となった場合に前記利用予定の電気設備は使用可能である旨の通知を出力部で表示し、前記合計値が前記所定値を上回った場合に前記利用予定の電気設備は使用不可である旨の通知を出力部で表示するものである、
ことを特徴とする請求項7に記載の節電支援システム。
The storage unit
Each customer facility further holds a usage contract value that indicates the power consumption limit value that can use the grid power supply.
The fourth processing unit further includes:
When the value of the actual power consumption obtained from the predetermined measuring device in the consumer facility is compared with the use contract value related to the consumer facility, and when the actual power consumption becomes a predetermined ratio of the use contract value, A list of each electrical equipment of the corresponding customer facility is read from the electrical equipment database, and each electrical equipment in the list is selectably displayed on the output unit,
Of the electrical equipment included in the list, when specification of electrical equipment that is scheduled to be used at the customer facility is received by the input unit, the specification information of the electrical equipment is read from the electrical equipment database, and the specification information indicates It is determined whether a total value of the specification power consumption and the actual power consumption is equal to or less than a predetermined value within the use contract value, and the electric facility scheduled to be used when the total value is equal to or less than the predetermined value Displays a notification to the effect that it can be used on the output unit, and if the total value exceeds the predetermined value, the output unit displays a notification to the effect that the scheduled electrical equipment is not usable. ,
The power saving support system according to claim 7.
ネットワークを介して需要家端末と通信する通信部を備え、
前記第4処理部は、前記入力部において受け付ける情報を、前記通信部を介して需要家端末から受け付け、該当前記出力部で表示する情報を、該当需要家施設を利用する需要家の需要家端末に前記通信部を介して送信するものである、
ことを特徴とする請求項7または8に記載の節電支援システム。
A communication unit that communicates with customer terminals via a network is provided.
The fourth processing unit receives information received at the input unit from a customer terminal via the communication unit, and displays information displayed on the output unit at a customer terminal of a customer who uses the customer facility. To transmit via the communication unit,
The power saving support system according to claim 7 or 8.
前記記憶部は、
前記電気設備データベースにおいて、需要家施設の各箇所に備わる電気設備個別の識別情報および仕様情報を格納しており、
更に、需要家施設の各箇所に備わる電気設備以外の他電気設備に関する、識別情報及び仕様情報を格納した代替製品データベースを更に保持しており、
所定需要家施設の各電気設備の仕様情報を前記電気設備データベースから読み出し、当該読み出した各電気設備の仕様情報を、前記代替製品データベースにおける他電気設備の仕様情報と照合し、該当需要家施設の所定箇所に備わる電気設備と同機能を有するが仕様消費電力量が少ない他電気設備を特定し、該当他電気設備による前記所定箇所の電気設備の更新促進の通知を出力部で表示する第5処理部を更に備えることを特徴とする請求項1〜9のいずれかに記載の節電支援システム。
The storage unit
In the electrical equipment database, electrical equipment individual identification information and specification information provided in each part of the customer facility are stored,
Furthermore, it further holds an alternative product database that stores identification information and specification information related to electrical equipment other than electrical equipment provided at each location of the customer facility,
Read out the specification information of each electrical equipment of the predetermined customer facility from the electrical equipment database, match the readout specification information of each electrical equipment with the specification information of the other electrical equipment in the alternative product database, and 5th process which specifies the other electrical equipment which has the same function as the electrical equipment with which the predetermined place is provided, but has a small amount of specified power consumption, and displays the notification of promoting the update of the electrical equipment at the predetermined place by the corresponding other electric equipment on the output unit The power saving support system according to claim 1, further comprising a unit.
電力の需要家施設に備わる各電気設備個別の識別情報および仕様情報を格納した電気設備データベースと、各需要家の構成員の情報を格納した構成員データベースと、需要家施設の所在地域に関する少なくとも所定時間以内の気候予測データを格納した気候予測データベースと、各需要家施設に備わる蓄電池および再生可能エネルギー利用の発電装置の各情報を格納した装置データベースと、を保持する記憶部を備える情報処理装置が、
所定の需要家施設に関し、前記記憶部で保持する情報に基づいて所定アルゴリズムで推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する第1処理と、
入力部での節電目標の受け付けに応じ、前記記憶部で情報を保持する該当需要家の需要家施設に備わる電気設備中からの、節電対象の電気設備の選択を入力部で受ける第2処理と、
前記選択を受けた該当電気設備の情報と、所定期間中の気候予測データと、該当需要家の構成員の情報とを記憶部より読み出し、当該読み出した各情報に基づいて、前記所定期間中の前記電力需給予定の条件下における予測節電量を所定アルゴリズムで推定し、当該予測節電量による前記節電目標の達成度に応じた所定のアドバイスを出力部に表示する第3処理と、
を実行することを特徴とする節電支援方法。
Electric equipment database storing identification information and specification information of each electric equipment provided in electric power consumer facilities, member database storing information of members of each consumer, and at least predetermined regarding the location area of the customer facilities An information processing apparatus including a storage unit that holds a climate prediction database storing climate prediction data within an hour, and a device database storing information on storage batteries and power generation devices using renewable energy provided in each customer facility. ,
Regarding the predetermined customer facility, the predicted power consumption within the predetermined time estimated by the predetermined algorithm based on the information stored in the storage unit, the predicted power generation amount of the power generation device, and the storage battery information stored in the storage unit Based on the above, the power purchase content from the grid power supply and the power supply content from the storage battery to the customer facility satisfying the predicted power consumption at the corresponding customer facility together with the predicted power generation amount within the predetermined time are predetermined. A first process for estimating an electricity supply and demand schedule by estimating with an algorithm;
A second process for receiving, in the input unit, selection of a power saving target electrical facility from among the electrical facilities provided in the customer facility of the corresponding consumer holding information in the storage unit in response to reception of the power saving target in the input unit; ,
Read the information on the selected electrical equipment, the climate prediction data during a predetermined period, and the information on the members of the corresponding consumer from the storage unit, and based on each of the read information, A third process for estimating a predicted power saving amount under a condition of the power supply and demand schedule using a predetermined algorithm, and displaying predetermined advice on the output unit according to the degree of achievement of the power saving target based on the predicted power saving amount;
A power saving support method characterized by executing
電力の需要家施設に備わる各電気設備個別の識別情報および仕様情報を格納した電気設備データベースと、各需要家の構成員の情報を格納した構成員データベースと、需要家施設の所在地域に関する少なくとも所定時間以内の気候予測データを格納した気候予測データベースと、各需要家施設に備わる蓄電池および再生可能エネルギー利用の発電装置の各情報を格納した装置データベースと、を保持する記憶部を備える情報処理装置に、
所定の需要家施設に関し、前記記憶部で保持する情報に基づいて所定アルゴリズムで推定した所定時間以内での予測消費電力量および前記発電装置の予測発電量と、前記記憶部で保持する蓄電池の情報とに基づいて、前記所定時間以内において該当需要家施設での予測消費電力量を前記予測発電量と併せて満たす、系統電源からの買電内容と、蓄電池から需要家施設への給電内容を所定アルゴリズムで推定し、電力需給予定を特定する第1処理と、
入力部での節電目標の受け付けに応じ、前記記憶部で情報を保持する該当需要家の需要家施設に備わる電気設備中からの、節電対象の電気設備の選択を入力部で受ける第2処理と、
前記選択を受けた該当電気設備の情報と、所定期間中の気候予測データと、該当需要家の構成員の情報とを記憶部より読み出し、当該読み出した各情報に基づいて、前記所定期間中の前記電力需給予定の条件下における予測節電量を所定アルゴリズムで推定し、当該予測節電量による前記節電目標の達成度に応じた所定のアドバイスを出力部に表示する第3処理と、
を実行させることを特徴とする節電支援プログラム。
Electric equipment database storing identification information and specification information of each electric equipment provided in electric power consumer facilities, member database storing information of members of each consumer, and at least predetermined regarding the location area of the customer facilities An information processing apparatus including a storage unit that holds a climate prediction database storing climate prediction data within an hour, and a device database storing information on storage batteries and power generation devices using renewable energy provided in each customer facility ,
Regarding the predetermined customer facility, the predicted power consumption within the predetermined time estimated by the predetermined algorithm based on the information stored in the storage unit, the predicted power generation amount of the power generation device, and the storage battery information stored in the storage unit Based on the above, the power purchase content from the grid power supply and the power supply content from the storage battery to the customer facility satisfying the predicted power consumption at the corresponding customer facility together with the predicted power generation amount within the predetermined time are predetermined. A first process for estimating an electricity supply and demand schedule by estimating with an algorithm;
A second process for receiving, in the input unit, selection of a power saving target electrical facility from among the electrical facilities provided in the customer facility of the corresponding consumer holding information in the storage unit in response to reception of the power saving target in the input unit; ,
Read the information on the selected electrical equipment, the climate prediction data during a predetermined period, and the information on the members of the corresponding consumer from the storage unit, and based on each of the read information, A third process for estimating a predicted power saving amount under a condition of the power supply and demand schedule using a predetermined algorithm, and displaying predetermined advice on the output unit according to the degree of achievement of the power saving target based on the predicted power saving amount;
A power saving support program characterized by causing
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