JP3351326B2 - Power management system - Google Patents
Power management systemInfo
- Publication number
- JP3351326B2 JP3351326B2 JP34112097A JP34112097A JP3351326B2 JP 3351326 B2 JP3351326 B2 JP 3351326B2 JP 34112097 A JP34112097 A JP 34112097A JP 34112097 A JP34112097 A JP 34112097A JP 3351326 B2 JP3351326 B2 JP 3351326B2
- Authority
- JP
- Japan
- Prior art keywords
- power consumption
- information
- value
- holding
- power
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B70/00—Technologies for an efficient end-user side electric power management and consumption
- Y02B70/30—Systems integrating technologies related to power network operation and communication or information technologies for improving the carbon footprint of the management of residential or tertiary loads, i.e. smart grids as climate change mitigation technology in the buildings sector, including also the last stages of power distribution and the control, monitoring or operating management systems at local level
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E40/00—Technologies for an efficient electrical power generation, transmission or distribution
- Y02E40/70—Smart grids as climate change mitigation technology in the energy generation sector
-
- Y—GENERAL 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
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS 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
- Y04S10/00—Systems supporting electrical power generation, transmission or distribution
- Y04S10/50—Systems or methods supporting the power network operation or management, involving a certain degree of interaction with the load-side end user applications
-
- Y—GENERAL 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
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS 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
- Y04S20/00—Management or operation of end-user stationary applications or the last stages of power distribution; Controlling, monitoring or operating thereof
- Y04S20/20—End-user application control systems
- Y04S20/221—General power management systems
Landscapes
- Power Sources (AREA)
- Remote Monitoring And Control Of Power-Distribution Networks (AREA)
- Supply And Distribution Of Alternating Current (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、電力を消費する機
器が一つ以上存在する環境において、機器の消費電力の
総和を管理する装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for managing the sum of power consumption of devices in an environment where one or more devices consuming power exist.
【0002】[0002]
【従来の技術】電力を消費する機器が一つ以上存在する
環境として例えば一般家庭を例にとると、エアコンや冷
蔵庫、テレビなどの機器が消費する電力の総和を各家庭
と電力会社との契約量を一定値以下に抑え、かつ地域全
体の消費電力が電力会社のもつ許容量以下に抑える必要
がある。このため、電力会社がとりつける契約電力に応
じた電流制限器を各家庭に設置し、家庭内の電灯線配線
毎に配線用遮断器を設置する方法がとられたり、DSM
(Demand Side Management)と呼ばれる電力会社側か
ら各家庭への電力供給を管理する方法が実験的に行われ
ている。これは各家庭と電力会社との契約に基づき、時
間あるいは季節毎に各家庭の最大契約値を変更するもの
である。すなわち、各家庭の遮断器によって、消費電力
総和を制限、管理し、電力総和が契約値を超えないよう
になっている。2. Description of the Related Art As an environment in which one or more devices consuming power exist, for example, in a general household, the total power consumed by devices such as an air conditioner, a refrigerator, and a television is calculated as a contract between each home and a power company. It is necessary to keep the power consumption below a certain value and the power consumption of the whole area below the allowable capacity of the power company. For this reason, a method of installing a current limiter in each home according to the contract power installed by the power company and installing a circuit breaker for each power line wiring in the home has been adopted.
A method called (Demand Side Management) for managing power supply from an electric power company to each home has been experimentally performed. This is to change the maximum contract value of each home for each time or season based on a contract between each home and a power company. That is, the total power consumption is restricted and managed by the circuit breaker of each home, so that the total power does not exceed the contract value.
【0003】しかしながら、このような方法では、電灯
線上の機器の消費電力が遮断器の遮断条件を超えると、
電灯線への電力供給をすべて遮断してしまうために、電
灯線上の機器全ての電力供給が停止してしまい、機器が
突然停止する事態となっていた。However, in such a method, when the power consumption of the equipment on the power line exceeds the breaking condition of the circuit breaker,
Since all the power supply to the power line is cut off, the power supply to all the devices on the power line is stopped, and the device is suddenly stopped.
【0004】以下に従来例の消費電力管理システムにつ
いて述べる。図12は従来の消費電力管理システムを示
したブロック図である。機器300、400と、これを
管理する集中管理装置100で構成され、集中管理装置
100は、電力会社との契約電力値に基づく許容最大消
費電力値を保持する最大消費電力値保持手段110と、
各機器毎の消費電力を合計してその合計値を保持する消
費電力保持手段111と、前記合計値および前記許容最
大消費電力値を比較する消費電力値比較手段112と、
消費電力値比較手段112の比較結果を表示する表示手
段120を備え、機器300、400は自己の電力消費
に関連する情報を保持する電力消費情報保持手段301
と、電力供給の必要度を前記通信手段101を介して前
記集中管理装置100に通知する電力要求通知手段30
2を備える。また、各機器300、400と集中管理装
置100との間の通信を行う通信手段101が、各機器
300、400および集中管理装置100に備えられて
いる。さらに前記各機器300、400は前記集中管理
装置100の停止指示により前記各機器の電源供給を停
止する電源供給停止手段350と集中管理装置100か
らの指示で消費電力を調整する電力消費調整手段と各機
器の一般的な情報である自己情報を保持し、それを集中
管理装置100に通知する自己情報通知手段360を有
し、その情報は集中管理装置100の管理対象情報保持
手段160で管理するものである。A conventional power consumption management system will be described below. FIG. 12 is a block diagram showing a conventional power consumption management system. The apparatus 300 includes devices 300 and 400 and a centralized management device 100 that manages the devices. The centralized management device 100 includes a maximum power consumption value holding unit 110 that holds an allowable maximum power consumption value based on a contract power value with a power company.
A power consumption holding unit 111 that totals the power consumption of each device and holds the total value, a power consumption value comparison unit 112 that compares the total value and the allowable maximum power consumption value,
The device 300 or 400 includes a display unit 120 that displays a comparison result of the power consumption value comparison unit 112, and the devices 300 and 400 store information related to their own power consumption.
Power request notification means 30 for notifying the central management device 100 of the necessity of power supply via the communication means 101
2 is provided. Further, a communication unit 101 for performing communication between each of the devices 300 and 400 and the centralized management device 100 is provided in each of the devices 300 and 400 and the centralized management device 100. Further, each of the devices 300 and 400 includes a power supply stop unit 350 that stops power supply to each device in response to a stop instruction of the central management device 100, and a power consumption adjustment unit that adjusts power consumption in accordance with an instruction from the central management device 100. It has self-information notifying means 360 for holding self-information, which is general information of each device, and for notifying the self-information to the central management apparatus 100, and the information is managed by the management target information holding means 160 of the central management apparatus 100. Things.
【0005】[0005]
【発明が解決しようとする課題】以上のように、従来の
消費電力管理システムでは各機器の情報を管理して個別
電力制御を行い、管理対象となる機器を明確化すること
で、消費電力の管理を行っていた。しかしながら、従来
の消費電力管理システムは生活者の使い方による差を考
慮した管理を行うことができなかった。そこで、以下に
述べる三つの問題点を生じることになる。As described above, in the conventional power consumption management system, the information of each device is managed, individual power control is performed, and the device to be managed is clarified to thereby reduce the power consumption. Had been managing. However, the conventional power consumption management system cannot perform the management in consideration of the difference due to the usage of consumers. Therefore, the following three problems arise.
【0006】まず、第一の問題点は、各機器の使い方に
も家庭による差があり、これを考慮することができない
という点である。たとえば、照明に関しては日の出日没
とともに暮らしている日当たりのよい家に住む家庭と日
当たりの悪い家庭では照明の使用形態に大きな差があ
る。空調に関しても高齢者や温度に弱い生活者が居住し
ている場合と健康な生活者が居住している場合ではまっ
たく使用状態が異なっている。First, the first problem is that there is a difference in usage of each device among households, and this cannot be considered. For example, regarding lighting, there is a great difference in the usage of lighting between a home living in a sunny house living with sunrise and sunset and a home living in a sunny place. Regarding air conditioning, the use state is completely different between the case where the elderly and the people who are vulnerable to temperature live and the case where the healthy people live.
【0007】第2の問題点は、生活者の家族構成や生活
スタイル等の情報を取り込むことができないため、その
生活者に最もあった適切かつ効果的な機器の消費電力の
制御ができないという点である。どの機器の消費電力を
どの程度抑えることができるかということは生活者の情
報を入力することが不可欠であり、例えば温熱的弱者の
居住する部屋における空調は最大限尊重する必要がある
が、シェイプアップを心がけているような健康な生活者
の居住する部屋の空調に関しては大きな影響は出ないこ
とが予想される。A second problem is that it is not possible to take in information such as a family structure and a lifestyle of a resident, and thus it is not possible to control the power consumption of the device most appropriately and effectively for the resident. It is. It is indispensable to input the information of the resident about how much power consumption of which equipment can be reduced.For example, air conditioning in the room where the vulnerable person lives needs to be respected as much as possible. It is anticipated that there will be no significant effect on air conditioning in rooms where healthy people who are trying to improve their lives.
【0008】第3の問題は生活者がDSM制御を選択す
る際にそれによってもたらされる利便性および/または
快適性の劣化度合いを環境貢献や電気代の節約などのメ
リットとともに表示してやる手段がないことで、かえっ
てDSM制御の選択に消極的になってしまったり、DS
M制御したためにもたらされる不便さに過剰に反応して
しまうことがあるという点である。[0008] A third problem is that there is no means for displaying the degree of deterioration of convenience and / or comfort brought about by the consumer when selecting DSM control, along with advantages such as environmental contribution and saving on electricity bills. So, instead of being reluctant to select DSM control,
The point is that the M control may excessively react to the inconvenience caused by the M control.
【0009】本発明は、従来の消費電力管理システムの
この様な課題を考慮し、第1の課題に対して諸機器の使
用状況を学習し段階付けできるシステムを提供し、第2
の課題に対して生活者の情報を学習し、パターン化する
ことで最適な消費電力の制御を行うことができるシステ
ムを提供し、第3の課題に対して消費電力の制御によっ
て生活者にもたらされることが予想されるメリットとデ
メリットを同時に表示することができるシステムを提供
することを目的とするものである。The present invention has been made in consideration of such problems of the conventional power consumption management system, and has provided a system capable of learning and staging the use status of various devices with respect to the first problem.
It provides a system that can control the optimal power consumption by learning and patterning the information of consumers for the third problem, and provides the consumer with the control of power consumption for the third problem. It is an object of the present invention to provide a system that can simultaneously display advantages and disadvantages that are expected to occur.
【0010】[0010]
【0011】[0011]
【0012】[0012]
【0013】[0013]
【0014】[0014]
【課題を解決するための手段】 本発明は 、各機器の消費
電力を集中して管理する集中管理装置と、前記各機器毎
に設置され、前記各機器毎の少なくとも消費電力を計測
して保持する電力消費情報保持手段と、前記集中管理装
置の停止指示により前記各機器の電源供給を停止する電
源供給停止手段と、各機器の一般的な情報である自己情
報を保持しそれを前記集中管理装置へ通知する自己情報
通知手段と、前記集中管理装置と前記各機器との通信を
行う通信手段とを備え、前記集中管理装置は、各機器の
消費電力の合計値を保持する消費電力保持手段と、許容
最大消費電力値を保持する最大消費電力値保持手段と、
前記合計値および前記許容最大消費電力値を比較する消
費電力値比較手段と各機器毎の消費電力の合計値に応じ
て前記各機器毎の消費電力を制御する制御手段とを備
え、前記最大消費電力値保持手段に情報が入力される際
にユーザーにその段階に応じて、生じることが予想され
る快適性および/または利便性の低下を提示するための
不快予測手段と、同様に予想される消費電力の削減及び
報償金などによる電気代金の節約を提示するための節約
予測手段とを有することを特徴とする消費電力管理シス
テムである。 SUMMARY OF THE INVENTION The present invention provides a centralized management device for centrally managing the power consumption of each device, and a device installed at each device for measuring and holding at least the power consumption of each device. Power consumption information holding means, power supply stopping means for stopping power supply to each device according to a stop instruction of the centralized management device, and self-information, which is general information of each device, and stores it in the centralized management. A self-information notifying unit for notifying the device, and a communication unit for communicating between the centralized management device and each device, wherein the centralized management device holds a total value of power consumption of each device. And maximum power consumption value holding means for holding an allowable maximum power consumption value;
A power consumption value comparing unit that compares the total value and the allowable maximum power consumption value; and a control unit that controls power consumption of each device in accordance with a total value of power consumption of each device. Discomfort prediction means for presenting to the user, depending on the stage, when information is input to the power value holding means, of a decrease in comfort and / or convenience, which is also expected A power consumption management system comprising: a power saving prediction means for presenting power savings by reducing power consumption and a reward.
【0015】すなわち、本発明の作用は以下のとおりで
ある。最大消費電力値保持手段は電力会社との契約によ
って決定するが、どの段階に設定するかは生活者の判断
に任せられる。そこで、設定の際にユーザーにその段階
に応じて、不快予測手段にて生じることが予想される快
適性および/または利便性の低下と、節約予測手段にて
同様に予想される消費電力の削減及び報償金などによる
電気代金の節約を提示するものである。That is, the operation of the present invention is as follows. The maximum power consumption value holding means is determined by a contract with a power company, but the stage to be set is left to the judgment of the consumer. Therefore, when setting, depending on the user's stage, a decrease in comfort and / or convenience expected to occur in the discomfort prediction means and a reduction in power consumption also expected in the saving prediction means And the savings on electricity bills such as rewards.
【0016】[0016]
【発明の実施の形態】以下に本発明の実施の形態を図面
を参照して説明する。Embodiments of the present invention will be described below with reference to the drawings.
【0017】(第1の実施の形態)図1は本発明の第1
の実施の形態における消費電力管理システムを示すブロ
ック図である。図1に示すように、本実施の形態におけ
る消費電力管理システムは、消費電力を管理される第1
の機器300と第2の機器400、第3の機器500…
…とこれを管理する集中管理装置100で構成され、集
中管理装置100は電力会社との契約電力値に基づく許
容最大消費電力値を保持する最大消費電力値保持手段1
10と管理されるすべての機器の消費電力の合計値を保
持する消費電力保持手段111と、消費電力保持手段1
11で保持されている合計値および前述の許容最大消費
電力値を比較する消費電力値比較手段112と消費電力
比較手段112の比較結果を表示する表示手段120と
最大消費電力保持手段110に保持されている情報を更
新する手段として、公衆回線などを通じて更新情報を外
部から転送する外部通信手段130と日時などの時節情
報をカウントしたり外気温などの情報をセンシングして
集中管理装置に通知する時節情報保持手段131と集中
管理装置に直接入力する入力手段121と前記第1の機
器300と第2の機器400、第3の機器500……の
消費電力を制御する制御手段150と各機器の一般的情
報を集めて保持する管理対象情報保持手段160と、各
機器毎の消費電力値を系統別に分け学習することで諸機
器の段階分けを行う系統ランク分け手段161と各機器
の系統ランク毎に消費電力を合計してその合計値を保持
する系統別消費電力保持手段162を備え、管理対象で
ある機器300、400、500……は自己の電力消費
に関連する情報を保持する電力消費情報保持手段301
と電力供給の必要度を前記通信手段101を介して前記
集中管理装置100に通知する電力要求通知手段302
と通信手段101を介して前記集中管理装置100制御
される電源供給手段350及び電力調整手段351と、
各機器の一般的な情報である自己情報を保持し、通信手
段101を介して集中管理装置100に通知する自己情
報通知手段360を備える。また、各機器300、40
0、500……と集中管理装置100との間の通信を行
う通信手段101が各機器300、400、500……
及び集中管理装置100に備えられている。(First Embodiment) FIG. 1 shows a first embodiment of the present invention.
It is a block diagram which shows the power consumption management system in embodiment. As shown in FIG. 1, the power consumption management system according to the present embodiment has a first power consumption
Device 300, second device 400, third device 500 ...
.. And a centralized management device 100 that manages this. The centralized management device 100 holds a maximum power consumption value holding unit 1 that holds an allowable maximum power consumption value based on a contract power value with a power company.
A power consumption holding unit 111 for holding a total value of power consumption of all devices managed as 10 and a power consumption holding unit 1
11 and the display means 120 for displaying the comparison result of the power consumption comparing means 112 and the maximum power consumption holding means 110 for comparing the total value held at 11 and the aforementioned allowable maximum power consumption value. As means for updating the information, the external communication means 130 for transferring update information from the outside through a public line or the like, and time information such as counting time information such as date and time and sensing information such as outside temperature to notify the central management device. The information holding means 131, the input means 121 for directly inputting to the centralized management device, the control means 150 for controlling the power consumption of the first device 300, the second device 400, the third device 500,... Management information storing means 160 for collecting and storing target information, and learning the power consumption value of each device by classifying the power consumption value by system and classifying various devices. , And a system-specific power consumption holding unit 162 that totals the power consumption for each system rank of each device and holds the total value. The devices 300, 400, 500,... Power consumption information holding means 301 for holding information related to power consumption
Power request notifying means 302 for notifying the central management device 100 of the necessity of power supply and the necessity of power supply via the communication means 101
A power supply unit 350 and a power adjustment unit 351 controlled by the central management device 100 via the communication unit 101 and
A self-information notifying unit 360 that holds self-information, which is general information of each device, and notifies the central management device 100 via the communication unit 101 is provided. In addition, each device 300, 40
The communication means 101 for performing communication between the central control device 100 and the devices 300, 400, 500,.
And the central management device 100.
【0018】次に、このような本実施の形態の動作を説
明する。前記集中管理装置100の前記最大消費電力保
持手段110には電力会社との契約電力値に基づく許容
最大消費電力値が設定されている。この許容最大消費電
力値は契約電力値よりも小さい値に設定されている。第
1の機器300および第2の機器400の電力消費情報
保持手段301には各々の機器が消費している電力が保
持されている。この情報は、前記通信手段101を介し
て前記集中管理装置100の消費電力保持手段に集めら
れる。Next, the operation of the embodiment will be described. In the maximum power consumption holding means 110 of the centralized management device 100, an allowable maximum power consumption value based on a contract power value with a power company is set. This allowable maximum power consumption value is set to a value smaller than the contract power value. The power consumption information holding means 301 of the first device 300 and the second device 400 holds the power consumed by each device. This information is collected in the power consumption holding unit of the centralized management device 100 via the communication unit 101.
【0019】また、前記通信手段101を介して各機器
の自己情報通知手段360が通知する自己情報を管理対
象情報保持手段160に保持していく。ここでいう自己
情報とは自分の機器アドレス、機器区分(名称)、メーカ
ー名、機能、最大消費電力などといった情報である。さ
らに、集中管理装置100には各機器の電力要求通知手
段302から電力供給必要度が通信手段101を介して
通知される。電力供給必要度とは冷蔵庫のように電源を
OFFされると冷蔵されているものが腐る可能性がある
ような機器に対する電力供給の優先度を表すものであ
る。これらの情報は制御対象情報保持手段に通知され、
系統ランク分け手段に読み込まれる。Further, the self information notified by the self information notifying means 360 of each device via the communication means 101 is stored in the managed information storing means 160. The self information referred to here is information such as own device address, device classification (name), manufacturer name, function, maximum power consumption, and the like. Further, the power management unit 100 is notified of the power supply necessity from the power request notification unit 302 of each device via the communication unit 101. The power supply necessity indicates the priority of power supply to a device such as a refrigerator that may be refrigerated when the power is turned off and that may be rotten. Such information is notified to the control target information holding means,
It is read by the system ranking means.
【0020】系統ランク分け手段における手順を図2の
フローチャートを用いて説明する。図2のステップ70
1で冷蔵庫などの電力供給を遮断できない機器を優先度
0として供給を遮断しないよう終了する。次にそれ以外
の各機器について系統別にわけるため、ステップ702
から705で例えば空調用機器、AV用機器、給湯用機
器、照明用機器などの種類別に分類する。各々につい
て、ステップ706からステップ709で一日の消費電
力を学習し、その時間に応じて消費状態をランキング
し、ステップ710からステップ713で各々の系統毎
に優先度1から3に分類する。例えば空調の場合に関す
る消費電力の学習について図3のフローチャートを用い
て説明する。図3のステップ751で、一日単位の情報
に選択し、ステップ752で空調機器個別に一日の消費
電力の合計値を算出する。ステップ753で外部通信手
段130を介してとりこんだ外気温度の情報を、時節情
報保持手段から読み込み、平均値などの代表値を算出
し、ステップ754で外気温の関数として消費電力を算
出し、図2のステップ710でその値を読み出すことで
各空調機の外気温に対する電力消費状況からランキング
を行う。その他の系統であるAV機器や給湯、照明に関
しても同様に大きく影響している要素があればその関数
をとることでランキングを行う。The procedure in the system ranking means will be described with reference to the flowchart of FIG. Step 70 in FIG.
The device which cannot shut off the power supply such as the refrigerator in 1 is set to the priority 0, and the process is ended so as not to cut off the supply. Next, step 702 is performed to separate the other devices by system.
From 705, the air conditioner, AV equipment, hot water supply equipment, lighting equipment and the like are classified by type. For each of them, the daily power consumption is learned in steps 706 to 709, and the power consumption state is ranked according to the time. In steps 710 to 713, each system is classified into priority 1 to 3. For example, learning of power consumption in the case of air conditioning will be described with reference to the flowchart of FIG. In step 751 of FIG. 3, information is selected for each day, and in step 752, the total value of power consumption per day is calculated for each air conditioner. At step 753, information on the outside air temperature taken in through the external communication means 130 is read from the time information storage means, and a representative value such as an average value is calculated. At step 754, power consumption is calculated as a function of the outside air temperature. By reading the value in step 710 of step 2, ranking is performed from the power consumption status of each air conditioner with respect to the outside air temperature. Similarly, if there is an element that greatly influences other systems such as AV equipment, hot water supply, and lighting, ranking is performed by taking the function of the element.
【0021】図2のステップ710ではその消費状況が
大きい順に優先度AIR1、AIR2、AIR3と分類
し、ステップ711では同様にAV1、AV2、AV
3、ステップ712ではBOI1、BOI2、BOI
3、ステップ713ではLIG1、LIG2、LIG3
と分類し、各々のランクにおける合計の消費電力の平均
値、または各々のランクにおける各重要要素に対する平
均的関数の情報を系統別消費電力保持手段162におい
て保持する。系統別消費電力保持手段162には以上の
ような各系統各ランクの平均的情報のほかに現在の消費
電力の情報も保持している。At step 710 in FIG. 2, the priority is classified into AIR1, AIR2, and AIR3 in descending order of consumption status, and at step 711, AV1, AV2, and AV3 are similarly determined.
3. In step 712, BOI1, BOI2, BOI
3. In step 713, LIG1, LIG2, LIG3
And the average power consumption of each rank or the information of the average function for each important element in each rank is stored in the system-specific power consumption holding unit 162. The system-specific power consumption holding means 162 holds current power consumption information in addition to the above-described average information of each system and each rank.
【0022】集中管理装置100の消費電力値比較手段
112は、最大消費電力値保持手段110が保持する許
容最大消費電力値と消費電力保持手段111が保持する
各機器の消費電力の合計値とを比較して、その合計値が
許容最大消費電力値を超えるならば、その旨を表示手段
120に表示し、系統別消費電力保持手段162に保持
している各系統各ランクの合計の平均的情報と現在の消
費電力の合計値を各々の系統、ランクにおいて優先度の
低い(数字の大きい)ものから比較し、平均的情報に対し
て現状の消費電力が上回っている場合には順次電源供給
をその度合いに応じて減じるように、制御手段150に
おいて通信手段101を介して電力消費調整手段によっ
て電力を制御する。優先度の低いものから高いものまで
機器を一巡しても消費電力の合計値が許容最大消費電力
値を超える場合、順に電源供給停止手段によって消費電
力を制御することも考えられる。The power consumption value comparing means 112 of the centralized management device 100 compares the allowable maximum power consumption value held by the maximum power consumption value holding means 110 with the total value of the power consumption of each device held by the power consumption holding means 111. If the total value exceeds the allowable maximum power consumption value, the fact is displayed on the display means 120, and the average information of the total of each rank of each system held in the system-specific power consumption holding means 162 is displayed. And the total value of the current power consumption in each system and rank from the one with the lowest priority (large number) .If the current power consumption exceeds the average information, the power supply is sequentially turned on. In the control unit 150, the power is controlled by the power consumption adjusting unit via the communication unit 101 so as to decrease according to the degree. If the total value of the power consumption exceeds the allowable maximum power consumption value even after making a round of the devices from low priority to high priority, the power consumption may be controlled by the power supply stop means in order.
【0023】(第2の実施の形態)次に、本発明の第2
の実施の形態を図面を参照して説明する。図4は本発明
の第2の実施の形態における消費電力管理システムを示
すブロック図である。本実施の形態は、上述した第1の
実施の形態に加え、本発明の生活者情報保持手段170
と、各機器の操作状況を保持する操作状況保持手段17
1と生活者情報入力手段122を備えたものである。し
たがって、本実施の形態において、第1の実施の形態と
同様のものについては、同一符号を付与し、説明を省略
する。また、特に説明のないものについては、第1の実
施の形態と同じとする。(Second Embodiment) Next, a second embodiment of the present invention will be described.
An embodiment will be described with reference to the drawings. FIG. 4 is a block diagram showing a power consumption management system according to the second embodiment of the present invention. This embodiment is different from the first embodiment described above in that the consumer information holding means 170 of the present invention is provided.
And operation status holding means 17 for holding the operation status of each device
1 and consumer information input means 122. Therefore, in the present embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and the description is omitted. Unless otherwise described, it is the same as the first embodiment.
【0024】図4の構成は、図1の構成に、第1の機器
300および第2の機器400の運転モードなど生活者
が操作・設定した使用状況を保持する操作状況保持手段
171と、例えば第1の実施例でランク付けされた優先
度を突然の花粉症の発症やその他の理由により、変更し
たり、初期に家族の構成や部屋の使用形態などを予め入
力する生活者情報入力手段122と、時節情報保持手段
131や操作状況保持手段171、生活者情報入力手段
122から入力された情報から生活パターンを学習し、
保持する生活者情報保持手段170とを付け加えたもの
である。The configuration shown in FIG. 4 is different from the configuration shown in FIG. 1 in that an operation status holding means 171 for holding the usage status operated and set by the consumer such as the operation mode of the first device 300 and the second device 400 is provided. The priorities ranked in the first embodiment are changed due to sudden onset of hay fever or other reasons, or the consumer information input means 122 for initially inputting the composition of a family or the use of a room in advance. And a life pattern is learned from information input from the time information storage unit 131, the operation status storage unit 171, and the consumer information input unit 122,
In this case, a consumer information holding means 170 to be held is added.
【0025】次に、このような本実施の形態の動作を説
明する。前記集中管理装置100は上述した第1の実施
の形態における集中管理装置の機能を有しているので、
消費電力の合計値が許容最大消費電力値をこえるかどう
かを判断でき、さらに各機器の消費電力および電力供給
必要度および自己情報もわかっている。生活者が入力可
能な生活パターンにはたとえば日時に沿った必要使用状
況と家族構成と各自の部屋割り、健康状態などであり、
必要使用状況を入力することで要求する最低限の快適性
もしくは利便性が優先されることになる。たとえば日中
家庭内で事務作業をしている場合にはその時間の点灯
(照明)は必須であり、一般的な日中の照明の優先度合い
よりも高くなるため、これを学習させる必要がある。こ
れには日々の操作履歴を保持することでその生活パター
ンを学習し、時刻に応じたランキングがなされることに
なる。また、すぐにこれを学習させたい場合には直接そ
のような優先度に情報を保持している部分を書き換える
ことになる。Next, the operation of the embodiment will be described. Since the centralized management device 100 has the function of the centralized management device in the first embodiment described above,
It can be determined whether or not the total value of the power consumption exceeds the allowable maximum power consumption value, and the power consumption, the power supply necessity, and the self information of each device are known. Life patterns that can be input by consumers include, for example, necessary usage conditions and family structure along with the date and time, their own room allocation, health status, etc.
By inputting the necessary use situation, the minimum required comfort or convenience is prioritized. For example, if you are doing office work at home during the day, turn on that time
(Lighting) is mandatory and higher than the priority of general daytime lighting, so it is necessary to learn this. For this purpose, the daily operation history is held, the life pattern is learned, and ranking according to time is performed. If the user wants to learn this immediately, he or she must directly rewrite the part holding the information with such priority.
【0026】この方法における手順を図5のフローチャ
ートを用いて説明する。図5の手順は消費電力管理シス
テムが稼働している間は絶えず流れるものとする。図5
のステップ801で生活者情報入力手段122からの情
報が入力されていないかの確認を行う。情報が入力され
ていないことを確認し、ステップ802で機器の運転等
に変更がないかを確認する。ない場合はステップ801
に戻り、ある場合には時節情報保持手段131より情報
を読み込み、ステップ803で変更のあった運転情報と
ともに保存する。例えば、主たる使用者がAであるアド
レス27の空調機の設定温度が27℃から25℃に変更
された場合の記憶形式を図6に、該当の家に居住する全
員の生活者が主たる使用者であるアドレス03の全体換
気の設定がCO2センサーによる適量換気モードからフ
ルパワーモードに変更された場合の記憶形式を図7に示
す。The procedure in this method will be described with reference to the flowchart of FIG. It is assumed that the procedure of FIG. 5 flows continuously while the power consumption management system is operating. FIG.
In step 801, it is confirmed whether information from the consumer information input means 122 has been input. It is confirmed that no information has been input, and it is confirmed in step 802 whether there is any change in the operation of the device or the like. If not, step 801
In some cases, the information is read from the time information storage unit 131 and stored in step 803 together with the changed operation information. For example, FIG. 6 shows a storage format in a case where the set temperature of the air conditioner at address 27 whose main user is A is changed from 27 ° C. to 25 ° C. FIG. 7 shows the storage format when the setting of the general ventilation at address 03 is changed from the appropriate amount ventilation mode using the CO 2 sensor to the full power mode.
【0027】ステップ803で各機器に影響することが
予想される外部条件と各設定の運転時間を学習し、各機
器毎の運転パターンを算出し、ステップ804で生活者
の在・不在、あるいは行動状況など数種類の生活パター
ンに応じた運転パターンを関連して学習させる。ステッ
プ800で消費電力の合計値が許容最大消費電力値をこ
えるかどうかの判断情報を得て、超えた場合には、ステ
ップ805にて生活パターンに応じた運転パターンとそ
の時の運転パターンを比較し、ステップ806にて生活
パターンに応じた運転パターンに対して現状の運転が消
費電力を過剰に消費していると判断できる機器から運転
パターンの変更による消費電力の制御を行う。但し、過
剰に電力消費している機器を制御しても許容量を下回ら
ない場合には、生活パターンに応じた運転パターンから
第2の実施の形態で説明した優先度合を考慮して、さら
に制御または電力供給を停止させることが可能である。
いずれの場合も表示手段120において生活者に警告お
よび/または表示を行うものとする。ステップ801で
生活者情報入力手段122から日時に沿った必要使用状
況が入力されていた場合には、ステップ807にて優先
度の情報を書き換えることで、その情報の優先度合いを
最も大きく変更する。但し、生活パターンの学習がなさ
れていない場合は家族構成などの情報からデフォルトの
値を居住者に応じてあらかじめ設定することが可能であ
る。In step 803, the external conditions expected to affect each device and the operation time of each setting are learned, and the operation pattern of each device is calculated. In step 804, the presence / absence or behavior of the consumer is determined. The user learns driving patterns corresponding to several types of life patterns such as situations. At step 800, information is obtained on whether or not the total value of the power consumption exceeds the allowable maximum power consumption value. When the information exceeds the allowable maximum power consumption value, at step 805, the driving pattern corresponding to the life pattern and the driving pattern at that time are compared. In step 806, power consumption is controlled by changing the operation pattern from a device that can determine that the current operation consumes excessive power consumption with respect to the operation pattern corresponding to the life pattern. However, if the amount of power consumed does not fall below the permissible amount even after controlling the device that consumes excessive power, further control is performed in consideration of the priority described in the second embodiment from the driving pattern according to the life pattern. Alternatively, power supply can be stopped.
In any case, a warning and / or display is given to the consumer on the display means 120. If the necessary usage status along the date and time has been input from the consumer information input unit 122 in step 801, the priority information is rewritten in step 807 to change the priority of the information to the maximum. However, when the life pattern is not learned, a default value can be set in advance according to the resident from information such as the family structure.
【0028】(第3の実施の形態)次に、本発明の第3
の実施の形態を図面を参照して説明する。図8は本発明
の第3の実施の形態における消費電力管理システムを示
すブロック図である。本実施の形態は、上述した第1の
実施の形態および第2の実施の形態に加え、本発明の不
快予測手段180と、節約予測手段181を備えたもの
である。したがって、本実施の形態において、第1の実
施の形態および第2の実施の形態と同様のものについて
は、同一符号を付与し、説明を省略する。また、特に説
明のないものについては、第1の実施の形態および第2
の実施の形態と同じとする。(Third Embodiment) Next, a third embodiment of the present invention will be described.
An embodiment will be described with reference to the drawings. FIG. 8 is a block diagram showing a power consumption management system according to the third embodiment of the present invention. This embodiment includes an uncomfortable estimating unit 180 and a saving estimating unit 181 of the present invention in addition to the above-described first and second embodiments. Therefore, in the present embodiment, the same components as those in the first embodiment and the second embodiment are denoted by the same reference numerals, and description thereof will be omitted. Also, those not particularly described are described in the first embodiment and the second embodiment.
It is assumed to be the same as the embodiment.
【0029】図8の構成は、図1および図4の構成に、
最大消費電力値保持手段に情報が入力される際にユーザ
ーにその段階に応じて、生じることが予想される快適性
および/または利便性の低下を提示するための不快予測
手段180と、同様に予想される消費電力の削減及び報
償金などによる電気代金の節約を提示するための節約予
測手段181とを付け加えたものである。The configuration of FIG. 8 is different from the configurations of FIGS.
Similarly to the discomfort prediction means 180 for presenting to the user a decrease in comfort and / or convenience expected to occur according to the stage when information is input to the maximum power consumption value holding means, It is provided with a savings prediction unit 181 for presenting expected savings in power consumption due to expected reductions in power consumption and rewards.
【0030】次に、このような本実施の形態の動作を説
明する。前記集中管理装置100は上述した第1の実施
の形態および第2の実施の形態における集中管理装置の
機能を有しているので、消費電力の合計値が許容最大消
費電力値をこえるかどうかを判断でき、さらに各機器の
消費電力および電力供給必要度および自己情報もわかっ
ているし、生活パターンによる運転パターンの学習も出
来ている。生活者が許容最大消費電力値を入力する際に
入力手段を立ち上げると、たとえば図9に示すような画
面が表示され、生活パターンまたは生活者情報入力手段
から入力された必要使用状況との兼ね合いから最も適切
な節約手段が選択され、その際に予想される現状の快適
度や利便性からの劣化と、電力会社との契約に基づく報
奨金や消費電力の削減から生じる節約出来る金額を予測
し、同時に生活者に提示する。不快予測手段180にお
けるこのときの手順を図10のフローチャートを用いて
説明する。ステップ901で生活者情報保持手段170
から現状の生活パターンの割り出しを行い、それに応じ
た運転パターンを読み出す。ステップ902で第1の実
施の形態で説明した各機器の優先度合いを読み込む。Next, the operation of the embodiment will be described. Since the centralized management device 100 has the function of the centralized management device in the above-described first and second embodiments, it is determined whether the total value of the power consumption exceeds the allowable maximum power consumption value. It is possible to judge, and also know the power consumption of each device, the necessity of power supply, and self-information, and learn the driving pattern based on the life pattern. When the consumer activates the input means when inputting the allowable maximum power consumption value, for example, a screen as shown in FIG. 9 is displayed, and a balance with the life pattern or the necessary use situation input from the consumer information input means is provided. The most appropriate savings are selected from the forecasts, and the expected savings from the current comfort and convenience and the savings resulting from the incentives and reductions in power consumption based on the contract with the power company are estimated. And present it to the consumer at the same time. The procedure at this time in the discomfort prediction means 180 will be described with reference to the flowchart of FIG. In step 901, the consumer information holding means 170
, The current life pattern is determined, and the operation pattern corresponding to the current life pattern is read. In step 902, the priority of each device described in the first embodiment is read.
【0031】ステップ903で消費電力保持手段111
で保持している現状の消費電力の合計値と電力会社との
契約で設定できる許容最大消費電力値各々を比較し、各
々について以下の手順を踏む。ステップ903で消費電
力の合計値が許容最大消費電力値を上回っていた場合、
ステップ901で読み込んだ運転パターンと現状の運転
状況の比較とステップ902でよみこんだ優先度合いか
ら各機器の制御値を算出し、例えばステップ905でそ
の機器が空調機であった場合ステップ904で算出され
た制御値における設定温度の変更または電力供給の停止
による室内予測温度を計算し、ステップ906で現状の
温度に対する不快の度合いを例えば「2℃室温が高くな
るので作業をするにはやや暑い温度になる」などの表示
手段を選択し、ステップ910にてわかりやすく表示す
る。またステップ905で空調機でなかった場合、たと
えばステップ907で照明機器であると確認された場合
にも同様にステップ908にて電力供給の削減または停
止による照度の劣化度合いを例えば、「照度が50lx
低下しますので、事務作業には不適切になりますが、識
別等にはまったく問題ございません。」などの表示手段
を選択し、ステップ910にてわかりやすく表示する。
同様に換気機器や給湯機器その他に関してもステップ
910で適切な快適性や利便性の劣化度合いの表示を行
う。ステップ903で消費電力の合計値が許容最大消費
電力値以下であった場合、ステップ909では現状の快
適性および利便性からの劣化がないと判断され、ステッ
プ910でその内容が表示される。In step 903, the power consumption holding means 111
The current total value of the power consumption held in the above is compared with each of the allowable maximum power consumption values that can be set in the contract with the power company, and the following procedure is performed for each of them. If the total value of the power consumption exceeds the allowable maximum power consumption value in step 903,
The control value of each device is calculated from the comparison between the operation pattern read in step 901 and the current operation status and the priority read in step 902. For example, if the device is an air conditioner in step 905, the control value is calculated in step 904. The predicted indoor temperature due to the change in the set temperature or the stop of the power supply at the set control value is calculated, and in step 906, the degree of discomfort with respect to the current temperature is set to, for example, "2 ° C. A display means such as "becomes" is selected and displayed in step 910 in an easy-to-understand manner. Also, if the air conditioner is not an air conditioner in step 905, for example, if it is confirmed in step 907 that it is a lighting device, similarly, in step 908, the degree of deterioration of the illuminance due to reduction or stop of the power supply is set to, for example, "illuminance is 50 lx
It will be inadequate for office work because it will be reduced, but there is no problem with identification etc. at all. "And the like, and the display is made easy to understand in step 910.
Similarly, for the ventilation equipment, the hot water supply equipment, and the like, an appropriate degree of comfort or convenience deterioration is displayed in step 910. If the total value of the power consumption is equal to or smaller than the allowable maximum power consumption value in step 903, it is determined in step 909 that there is no deterioration from the current comfort and convenience, and the content is displayed in step 910.
【0032】節約予測手段181における手順を図11
のフローチャートを用いて説明する。ステップ951で
生活者情報保持手段170から現状の生活パターンの割
り出しを行い、それに応じた運転パターンを読み出す。
ステップ952で第1の実施の形態で説明した各機器の
優先度合いを読み込む。ステップ953で消費電力保持
手段111で保持している現状の消費電力の合計値と電
力会社との契約で設定できる許容最大消費電力値各々を
比較し、各々について以下の手順を踏む。ステップ95
3で各許容最大消費電力に対する電力会社の提供する報
酬または割引単価などの情報を外部通信手段130から
引き出す。ステップ954で消費電力の合計値が許容最
大消費電力値を上回っていた場合、ステップ951で読
み込んだ運転パターンと現状の運転状況の比較とステッ
プ952でよみこんだ優先度合いから各機器の制御値を
算出し、各機器の消費電力を算出し、ステップ953の
情報に基づいて電気代を算出し、ステップ957で現状
の電気代と比較して節約できる電気代を表示する。ステ
ップ954で許容最大消費電力値以下であった場合、ス
テップ956で各機器の消費電力を算出し、ステップ9
53の情報に基づいて電気代を算出し、ステップ957
で現状の電気代と比較して節約できる電気代を表示す
る。FIG. 11 shows the procedure of the saving prediction means 181.
This will be described with reference to the flowchart of FIG. In step 951, the current life pattern is determined from the consumer information holding means 170, and the driving pattern corresponding to the current life pattern is read.
In step 952, the priority of each device described in the first embodiment is read. In step 953, the total value of the current power consumption held by the power consumption holding unit 111 is compared with each of the allowable maximum power consumption values that can be set in the contract with the power company, and the following procedure is performed for each of them. Step 95
In step 3, information such as a reward or a discount price provided by the power company for each allowable maximum power consumption is extracted from the external communication means 130. If the total value of the power consumption exceeds the allowable maximum power consumption value in step 954, the control value of each device is compared with the operation pattern read in step 951 and the current operation state, and based on the priority read in step 952. Then, the power consumption of each device is calculated, the electricity cost is calculated based on the information in step 953, and the electricity cost that can be saved in comparison with the current electricity cost is displayed in step 957. If it is not more than the allowable maximum power consumption value in step 954, the power consumption of each device is calculated in step 954, and
The electricity bill is calculated based on the information of 53, and step 957
Displays the electricity bill that can be saved compared to the current electricity bill.
【0033】なお、上述した第1から第3の実施の形態
の説明において、媒体は、上述した各手段の全部または
一部をコンピュータに実行させるプログラムを格納する
ものである。In the description of the first to third embodiments, the medium stores a program for causing a computer to execute all or a part of the above-described units.
【0034】[0034]
【発明の効果】以上説明したところから明らかなよう
に、各機器の使用パターンに応じて過剰に消費している
ことが予想される機器から電力供給を制限していくこと
で機器の使用状態の違いによる消費電力差を考慮した制
御が可能である。また、生活者の家族構成や生活スタイ
ル、その時々の特殊な状況に応じてそのときのその生活
者に最も適切な消費電力の削減が可能である。As apparent from the above description,
In addition, by limiting the power supply from devices that are expected to be excessively consumed according to the usage pattern of each device, it is possible to perform control in consideration of the difference in power consumption due to the difference in the use state of the device. . In addition, it is possible to reduce the power consumption most appropriate for the resident at that time according to the resident's family structure, lifestyle, and special circumstances at that time.
【0035】また、消費電力の制御によって生活者にも
たらせることが予想されるメリットとデメリットを同時
に表示することができる。すなわち、生活者が消費電力
を抑える制御を選択する場合に躊躇するであろう駆け引
きの内容を表示することで生活者の納得できる消費電力
の削減の契約が可能となる。Further , advantages and disadvantages that can be expected to be brought to consumers by controlling power consumption can be displayed simultaneously. In other words, by displaying the details of bargaining that would be hesitant when a consumer selects control to suppress power consumption, it is possible to contract for a reduction in power consumption that can be satisfied by the consumer.
【図1】本発明の第1の実施の形態における消費電力管
理システムを示すブロック図FIG. 1 is a block diagram showing a power consumption management system according to a first embodiment of the present invention.
【図2】本発明の第1の実施の形態における消費電力管
理システムの動作説明のフローチャートFIG. 2 is a flowchart illustrating an operation of the power consumption management system according to the first embodiment of the present invention.
【図3】本発明の第1の実施の形態における消費電力管
理システムの動作のフローチャートFIG. 3 is a flowchart of an operation of the power consumption management system according to the first embodiment of the present invention.
【図4】本発明の第2の実施の形態における消費電力管
理システムを示すブロック図FIG. 4 is a block diagram showing a power consumption management system according to a second embodiment of the present invention.
【図5】本発明の第2の実施の形態における消費電力管
理システムの動作説明のフローチャートFIG. 5 is a flowchart illustrating an operation of a power consumption management system according to a second embodiment of the present invention.
【図6】本発明の第2の実施の形態における消費電力管
理システムの一部のデータの内容を示す図FIG. 6 is a view showing contents of a part of data of the power consumption management system according to the second embodiment of the present invention;
【図7】本発明の第2の実施の形態における消費電力管
理システムの一部のデータの内容を示す図FIG. 7 is a diagram showing contents of a part of data of the power consumption management system according to the second embodiment of the present invention;
【図8】本発明の第3の実施の形態における消費電力管
理システムを示すブロック図FIG. 8 is a block diagram illustrating a power consumption management system according to a third embodiment of the present invention.
【図9】本発明の第3の実施の形態における消費電力管
理システムの表示画面の一例を示す図FIG. 9 is a diagram illustrating an example of a display screen of a power consumption management system according to a third embodiment of the present invention.
【図10】本発明の第3の実施の形態における消費電力
管理システムの動作説明のフローチャートFIG. 10 is a flowchart illustrating an operation of a power consumption management system according to a third embodiment of the present invention.
【図11】本発明の第3の実施の形態における消費電力
管理システムの動作説明のフローチャートFIG. 11 is a flowchart illustrating an operation of a power consumption management system according to a third embodiment of the present invention.
【図12】従来例における消費電力管理システムを示す
ブロック図FIG. 12 is a block diagram showing a power consumption management system in a conventional example.
100 集中管理装置 101 通信手段 111 最大消費電力保持手段 112 消費電力値比較手段 120 表示手段 121 入力手段 130 外部通信手段 131 時節情報保持手段 132 制御手段 161 系統ランク分け手段 162 系統別消費電力保持手段 170 生活者情報保持手段 171 操作状況保持手段 172 生活者情報入力手段 180 不快予測手段 181 節約予測手段 300 第1の機器 301 電力消費状況保持手段 302 電力要求通知手段 350 電源供給停止手段 351 電力消費調整手段 360 自己情報通知手段 400 第2の機器 500 第3の機器 REFERENCE SIGNS LIST 100 centralized management device 101 communication means 111 maximum power consumption holding means 112 power consumption value comparison means 120 display means 121 input means 130 external communication means 131 time information holding means 132 control means 161 system ranking means 162 system power consumption holding means 170 Consumer information holding unit 171 Operation status holding unit 172 Consumer information input unit 180 Discomfort prediction unit 181 Saving prediction unit 300 First device 301 Power consumption status holding unit 302 Power request notification unit 350 Power supply stop unit 351 Power consumption adjustment unit 360 self-information notifying means 400 second device 500 third device
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平5−49169(JP,A) 特開 平5−103425(JP,A) (58)調査した分野(Int.Cl.7,DB名) H02J 3/00 - 5/00 H02J 13/00 - 13/00 311 ────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-5-49169 (JP, A) JP-A-5-103425 (JP, A) (58) Fields investigated (Int. Cl. 7 , DB name) H02J 3/00-5/00 H02J 13/00-13/00 311
Claims (2)
管理装置と、前記各機器毎に設置され、前記各機器毎の
少なくとも消費電力を計測して保持する電力消費情報保
持手段と、前記集中管理装置の停止指示により前記各機
器の電源供給を停止する電源供給停止手段と、各機器の
一般的な情報である自己情報を保持しそれを前記集中管
理装置へ通知する自己情報通知手段と、前記集中管理装
置と前記各機器との通信を行う通信手段とを備え、前記
集中管理装置は、各機器の消費電力の合計値を保持する
消費電力保持手段と、許容最大消費電力値を保持する最
大消費電力値保持手段と、前記合計値および前記許容最
大消費電力値を比較する消費電力値比較手段と各機器毎
の消費電力の合計値に応じて前記各機器毎の消費電力を
制御する制御手段とを備え、前記最大消費電力値保持手
段に情報が入力される際にユーザーにその段階に応じ
て、生じることが予想される快適性および/または利便
性の低下を提示するための不快予測手段と、同様に予想
される消費電力の削減及び報償金などによる電気代金の
節約を提示するための節約予測手段とを有することを特
徴とする消費電力管理システム。A centralized management device for centrally managing power consumption of each device; a power consumption information holding unit installed for each device and measuring and holding at least power consumption of each device; Power supply stopping means for stopping power supply to each device in response to a stop instruction of the centralized management device, and self-information notifying means for holding self-information which is general information of each device and notifying the self-information to the centralized management device And a communication unit for performing communication between the centralized management device and each of the devices, wherein the centralized management device includes a power consumption holding unit that holds a total value of power consumption of each device, and a maximum allowable power consumption value. The maximum power consumption value holding means to be held, the power consumption value comparing means for comparing the total value and the allowable maximum power consumption value, and the power consumption of each device are controlled according to the total value of the power consumption of each device. Control means And discomfort prediction means for presenting to the user, when information is input to the maximum power consumption value holding means, a decrease in comfort and / or convenience expected to occur according to the stage. And a savings prediction unit for presenting the expected savings of electricity and savings of the electricity bill by reward money and the like.
る予測結果を表示する表示手段を有することを特徴とす
る請求項1記載の消費電力管理システム。2. A power management system according to claim 1, characterized in that it comprises a display means for displaying the predicted result by the unpleasant predicting means and said save predicting means.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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JP34112097A JP3351326B2 (en) | 1997-12-11 | 1997-12-11 | Power management system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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JP34112097A JP3351326B2 (en) | 1997-12-11 | 1997-12-11 | Power management system |
Publications (2)
Publication Number | Publication Date |
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JPH11178247A JPH11178247A (en) | 1999-07-02 |
JP3351326B2 true JP3351326B2 (en) | 2002-11-25 |
Family
ID=18343447
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JP34112097A Expired - Fee Related JP3351326B2 (en) | 1997-12-11 | 1997-12-11 | Power management system |
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DE102004021380A1 (en) | 2004-04-30 | 2005-12-01 | Siemens Ag | Device for power supply |
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JP5309815B2 (en) | 2008-09-09 | 2013-10-09 | 富士通株式会社 | Power supply management apparatus and power supply management method |
JP4982511B2 (en) * | 2009-01-23 | 2012-07-25 | 株式会社東芝 | Action time ratio calculation device and action time ratio calculation method |
JP5233863B2 (en) * | 2009-06-22 | 2013-07-10 | 富士通株式会社 | Power management system and power management method |
JP5367832B2 (en) * | 2009-09-24 | 2013-12-11 | 株式会社東芝 | Energy reduction equipment |
KR101123835B1 (en) | 2009-09-28 | 2012-03-16 | 버츄얼빌더스 주식회사 | System for adaptive power saving and method thereof |
US8478451B2 (en) * | 2009-12-14 | 2013-07-02 | Intel Corporation | Method and apparatus for dynamically allocating power in a data center |
JP5593325B2 (en) | 2010-03-01 | 2014-09-24 | パナソニック株式会社 | Energy management apparatus, method and system |
JP5436396B2 (en) * | 2010-11-01 | 2014-03-05 | 三菱電機株式会社 | Power control apparatus, power control system, power control program, and power control method |
WO2012137104A1 (en) * | 2011-04-04 | 2012-10-11 | Koninklijke Philips Electronics N.V. | Device and method for adjusting electricity consumption of a plurality of lighting devices of a lighting system |
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CN104126260B (en) * | 2012-02-15 | 2017-03-01 | 三菱电机株式会社 | Electric power distribution methods in electric power distribution system and source of demand in source of demand |
KR101925025B1 (en) * | 2012-04-18 | 2018-12-04 | 엘지전자 주식회사 | A method for controlling energy management device |
JP6225419B2 (en) * | 2012-12-18 | 2017-11-08 | ダイキン工業株式会社 | Air conditioner control device |
WO2014170999A1 (en) * | 2013-04-19 | 2014-10-23 | 日立アプライアンス株式会社 | Power management system, controlled device, and power management device |
JP6296251B2 (en) | 2013-06-24 | 2018-03-20 | 日本電気株式会社 | Power control apparatus, method, and program |
JP2016034191A (en) * | 2014-07-31 | 2016-03-10 | ダイキン工業株式会社 | Apparatus control device |
JP5967265B2 (en) * | 2014-07-31 | 2016-08-10 | ダイキン工業株式会社 | Equipment control device |
JP2016218681A (en) * | 2015-05-19 | 2016-12-22 | ダイキン工業株式会社 | Incentive prediction amount presentation device |
CN106597082B (en) | 2015-10-16 | 2020-11-10 | 得能创科有限公司 | Electrical appliance energy consumption identification method and identification system |
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- 1997-12-11 JP JP34112097A patent/JP3351326B2/en not_active Expired - Fee Related
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