JP2008289276A - Apparatus controller, apparatus control system and apparatus control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus controller, an apparatus control system and an apparatus control method excellent in user-friendliness and efficiency of power saving. <P>SOLUTION: An optimum scheduler 201 receives object information, creates operation schedules of a power generator 30, a power storage device 40 and apparatuses 10-1 to 10-n in accordance with the object information, and controls the power generator 30 and the power storage device 40 in accordance with the operation schedules of the power generator 30 and the power storage device 40. A control controller 203 controls the apparatuses 10-1 to 10-n on the basis of the operation schedules of the apparatuses 10-1 to 10-n which have been created by the optimum scheduler 201 and the control conditions of the apparatuses 10-1 to 10-n which have been received by a control condition selecting device 202. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  In the present invention, the control device automatically controls or restricts the operation and operating conditions of a plurality of devices in a power consumer such as a home or business office, thereby reducing energy consumption (energy saving), power saving in the consumer, The present invention relates to a demand side management (DSM) system for reducing energy costs.

  There is known a DSM system that controls a plurality of devices in a power consumer such as a home or a business to save energy, save power, reduce energy costs, and the like (see Non-Patent Document 1).

  The configuration of a conventional DSM system is shown in FIG. The conventional DSM system is composed of a device 100 in a consumer and a control device 200, and the device 100 is composed of a plurality of devices 100-1 to 100-n. The operation of the conventional DSM system is shown below.

The devices 100-1 to 100-n are connected to a power source 300 such as a commercial power source and operate. The control device 200 operates and operates the devices 100-1 to 100-n so as to comply with preset conditions based on various information such as environmental information such as temperature, brightness, and humidity, time information, and the presence or absence of people. Control or limit conditions automatically. Thereby, the power consumption of the devices 100-1 to 100-n is reduced.
Musashi Institute of Technology, Faculty of Environment and Information Sciences, Journal of Information Media Center, 2005.4, No.6 “Ishikawa / Suwa: Research on Power Saving Technology in Home Housing Systems” [Search May 15, 2007] Internet < URL: http://www.yc.musashi-tech.ac.jp/~cisj/06/06_09.pdf

  With the conventional DSM system, it is possible to automatically reduce the power consumed by the equipment, which enables energy costs, energy savings, and the like.

  However, the conventional DSM system has the following problems.

  In recent customers, in addition to power consuming devices, power supply such as fuel cells, solar power generation devices, and power storage devices that temporarily store and effectively use the power Equipment is often installed.

  Although it is assumed that the time zone in which the device should operate and the operating state change depending on the state of these power supply devices, the conventional DSM system cannot take into account the operation of the power supply device. For this reason, the conventional DSM system cannot efficiently reduce energy costs and save energy.

  As the most remarkable example, there is a case where the conventional DSM system performs control so as to uniformly reduce the power consumption of the device even under the condition that the generated power of the solar power generation device is surplus in fine weather. In this case, operation | movement of an apparatus is restrict | limited more than needed and an energy cost reduction and energy saving cannot be performed efficiently.

  In addition, since the conventional DSM system forcibly controls the operation of the device to be controlled, there is a problem that the convenience of the user is impaired, for example, the use of the device is restricted depending on the user. .

  There is a problem that the DSM system itself does not spread widely because convenience is lost, and as a result, the energy cost and energy saving effect of society as a whole are reduced and the environment is adversely affected.

  An object of the present invention is to provide a device control device, a device control system, and a device control method that are excellent in user convenience and energy-saving efficiency.

  In order to achieve the above object, the device control apparatus according to the present invention can be driven by either a power supply apparatus under the control of a user, power from the power supply apparatus, or power from a commercial power source. A device control device connected to an electrical device under management, which receives purpose information indicating a control purpose of the electrical device, and determines each operation plan of the power supply device and the electrical device according to the purpose information. Based on the schedule creation means for creating and controlling the power supply device according to the operation plan of the power supply device, the receiving means for receiving the control condition of the electric device, the operation plan of the electric device and the control condition of the electric device And a control means for controlling the electric device.

  The device control system according to the present invention can be driven by any of the device control device, a power supply device under the control of a user, power from the power supply device, and power from a commercial power source. And an electric device controlled by the apparatus and under the control of the user.

  In addition, the device control method according to the present invention includes a power supply device under the control of a user, and an electric device that can be driven by any of the power from the power supply device and the power from a commercial power source and is under the control of the user. And a device control method performed by a device control device connected to the device, which accepts purpose information indicating a control purpose of the electrical device and creates each operation plan of the power supply device and the electrical device according to the purpose information. And a schedule creation step for controlling the power supply device in accordance with an operation plan for the power supply device, a reception step for receiving a control condition for the electric device, an operation plan for the electric device, and a control condition for the electric device. And a control step for controlling the electric device.

  According to each of the above inventions, since the electric device is controlled based on the operation plan of the electric device and the control condition of the electric device, if the user inputs the control condition of the electric device desired by the user to the receiving means, The user's desire is reflected in the control of the electric device, and the convenience for the user is improved. In addition, since the operation plan for the power supply device and the electric device is created according to the purpose information, the electric device can be controlled according to the state of the power supply device, and efficient energy saving can be realized.

  The electric device can be driven by electric power from a solar power generation device under the management of the user, and the schedule creation unit receives environmental information indicating an operating environment of the solar power generation device, and It is desirable to predict the power generation amount of the photovoltaic power generation device based on the information, and to create an operation plan for the power supply device and the electric device based on the power generation amount and the purpose information.

  According to the said invention, it becomes possible to create the operation plan of an electric power supply apparatus and an electric equipment in consideration of the electric power generation amount of a solar power generation device.

  In addition, it is preferable that the schedule creation unit accepts a constraint condition relating to driving of the electrical device and creates an operation plan for the power supply apparatus and the electrical device that satisfies the constraint condition based on the purpose information. .

  According to the said invention, it becomes possible to create appropriately the operation plan of an electric power supply apparatus and an electric equipment.

  In addition, there are a plurality of the electric devices, and the reception unit causes the user to select an electric device to be controlled based on an operation plan of the electric device among the plurality of electric devices, and the selection result is determined based on the control condition. It is preferable that the control means controls only the selected electric device among the plurality of electric devices based on an operation plan of the electric device.

  According to the said invention, it becomes possible to select arbitrarily the electric equipment controlled based on the operation plan of an electric equipment, and a user's convenience improves further.

  Moreover, it is desirable that the device control apparatus further includes display means for displaying the operation plan.

  According to the said invention, a user can select the electric equipment controlled based on the operation plan of an electric equipment with reference to an operation plan, and a user's convenience improves further.

  In addition, it is preferable that the control unit allows a user to perform a control operation on the unselected electrical devices.

  According to the said invention, the user can set the electric equipment which can be freely operated and a user's convenience improves further.

  In addition, the reception unit causes the user to select a control period for the selected electrical device, further receives the selection result as the control condition, and the control unit is selected from the plurality of electrical devices. It is desirable to control only the electric device based on the operation plan of the electric device only during the selected period.

  According to the said invention, the user can set the period controlled based on the driving | running plan of an electric equipment, and a user's convenience improves further.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to improve a user's convenience and the efficiency of energy saving.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a block diagram illustrating a DSM system according to an embodiment of the present invention.

  The DSM system is an example of a device control system, and includes a plurality of devices (electric devices) 10-1 to 10-n, a control device 200, a power generation device 30, a power storage device 40, and a solar power generation device 50. The power generation device 30 and the power storage device 40 are included in the power supply device 70. In addition, the apparatus 10, the electric power generating apparatus 30, the electrical storage apparatus 40, and the solar power generation device 50 are under the management (for example, the situation which a user owns) of the user who is an electric power consumer. Further, the number of devices 10 may be one or more.

  The control device 200 is an example of a device control device, and includes an optimal scheduler 201, a control condition selection device 202, a control controller 203, and indicators 204-1 to 204-n.

  The power generation device 30 is connected to the commercial power source 60, and the power generated by the power generation device 30 is supplied to the devices 10-1 to 10-n, stored in the power storage device 40, or reversely supplied to the commercial power source 60. It is tided. The power generation device 30 is controlled by a control signal from the outside (specifically, a control signal from the control device 200) such as starting, stopping, and adjusting the amount of generated power.

  The solar power generation device 50 is connected to a commercial power source 60 and has a function of converting sunlight into electric power. The generated electric power is supplied to the devices 10-1 to 10-n or the power storage device 40, or commercial power is supplied. The power supply 60 has a function of flowing backward.

  The power storage device 40 is connected to the commercial power source 60, discharges the power stored in the power storage device 40, and the function of charging power supplied from the commercial power source 60, the power generation device 30 or the solar power generation device 50. -1 to 10-n. The power storage device 40 is controlled for desired operations such as charging, discharging, and stopping by an external control signal (specifically, a control signal from the control device 200).

  The devices 10-1 to 10-n can use any of the power supplied from the power generation device 30, the power storage device 40, the solar power generation device 50, and the commercial power source 60 as a power source, and can be driven using the power source. is there. The devices 10-1 to 10-n can perform a desired operation such as activation, stop, limitation of an operation time zone, and change of an operation state by an external control signal (specifically, a control signal from the control device 200). Be controlled.

  The control device 200 receives, for example, purpose information indicating the purpose of control such as reduction of energy consumption, reduction of power consumption, reduction of energy cost, minimization of carbon dioxide emission, and the like according to the purpose information. The power storage device 40 and the devices 10-1 to 10-n are controlled.

  Optimal scheduler 201 is an example of schedule creation means, accepts purpose information, and creates operation plans for power generation device 30, power storage device 40, and devices 10-1 to 10-n in association with each other according to the purpose information. Then, according to the operation plan of the power generation device 30 and the power storage device 40, the power generation device 30 and the power storage device 40 are controlled.

  The control condition selection device 202 is an example of an accepting unit, and accepts control conditions for the devices 10-1 to 10-n from the user.

  The control controller 203 is an example of a control unit, and controls the devices 10-1 to 10-n based on the operation plan of the devices 10-1 to 10-n and the control conditions of the devices 10-1 to 10-n. .

  The indicators 204-1 to 204-n are an example of display means, and display the operation plan created by the optimum scheduler 201.

  Next, the operation of the DSM system will be described.

  The optimum scheduler 201 is a function for predicting the future power generation of the photovoltaic power generation apparatus 50 and the demands required for each of the devices 10-1 to 10-n, such as several minutes, several hours later, the next day, the next week, and the next month. Have

  Furthermore, the optimal scheduler 201 has a function of scheduling an operation plan of the power generation device 30, the power storage device 40 and the devices 10-1 to 10-n based on the purpose information, and the power generation device 30, the power storage based on the scheduling result. It has a function of outputting a control signal for operating the device 40 and the devices 10-1 to 10-n.

  Specifically, the optimum scheduler 201 firstly includes time information, various pieces of necessary information such as temperature information, weather information, power purchase price, power sale price, CO2 basic unit, and the like at the time, and the devices 10-1 to 10-. It accepts constraint conditions for each n and objective functions such as reduction of energy consumption, reduction of power consumption, reduction of energy cost, and minimization of carbon dioxide emission, which is the purpose of control.

  The constraint conditions for each of the devices 10-1 to 10-n are, for example, the power consumption of each device 10-1 to 10-n, the estimated daily usage time of each device 10-1 to 10-n, The priority order regarding the use of 10-1 to 10-n is included. The constraint conditions for each of the devices 10-1 to 10-n are not limited to the above and can be changed as appropriate.

  Subsequently, the optimum scheduler 201 includes time information, various pieces of necessary information such as temperature information, weather information (environment information), power purchase price, power sale price, CO2 basic unit, etc. at the time, and devices 10-1 to 10-. Based on the constraints for each n, the amount of power generated by the future solar power generation device 50 and the demands required for each of the devices 10-1 to 10-n are predicted.

  Subsequently, the optimal scheduler 201 predicts the generated power of the solar power generation device 50, the demand prediction of each of the devices 10-1 to 10-n, various necessary information, the constraint conditions for each of the devices 10-1 to 10-n, and Based on the objective function, satisfy the constraint conditions for each of the devices 10-1 to 10-n. After several minutes, several hours, the next day, the next week, the next month, etc., the future power generation device 30, the power storage device 40, and the device 10- Scheduling each operation plan of 1-10-n.

  Subsequently, the optimal scheduler 201 generates a control signal for the power generation device 30 according to the operation plan of the power generation device 30, and outputs the control signal for the power generation device 30 to the power generation device 30 to control the power generation device 30.

  Optimal scheduler 201 also generates a control signal for power storage device 40 according to the operation plan of power storage device 40, and outputs a control signal for power storage device 40 to power storage device 40 to control power storage device 40.

  The optimum scheduler 201 generates control signals for the devices 10-1 to 10-n according to the operation plans of the devices 10-1 to 10-n, and controls the control signals for the devices 10-1 to 10-n. Output to the controller 203.

  In the control condition selection device 202, for example, as shown in FIG. 2, information indicating in advance as a plurality of plans what kind of control is performed on each device based on the scheduling result is stored, The control condition selection device 202 has a function of presenting such information to the user and allowing the user to select in which plan the devices 10-1 to 10-n are operated.

  For example, the plan 1 is a plan in which the control device 200 forcibly controls all the devices based on the operation plan regardless of the user's intention.

  In Plan 2, the control device 200 forcibly controls the device 10-1, but the control device 200 does not control the device 10-n, and the scheduling result is displayed to the user via the display 204. Is displayed, and the user is informed of the appropriate operation (operation plan) of the device 10-n.

  Further, like the device 10-2 of the plan 2, although the control device 200 does not forcibly control, the time zone (operation time) in which the device 10-2 can operate is limited and within the operation time range. For example, the user can use the device 10-2, but various plans such as a plan for performing control such that the device 10-2 cannot be used in other time zones are prepared in advance, and the user arbitrarily selects a desired plan from the plans. The operating time may be arbitrarily changed by the user.

  The control condition selection device 202 inputs a control condition according to the plan selected by the user to the control controller 203.

  The control controller 203 sends a control signal to a device to be controlled according to the control condition, and when displaying, displays a scheduling result or the like to the user through the display unit 204 to convey advice information.

  For example, when the control controller 203 receives the control condition according to the plan 2, the control signal for the device 10-1 is sent to the device 10-1, and the device 10-2 is within the operating time range. In some cases, the control signal is not sent, and when it is out of the operating time range, the control signal for stopping the operation is sent. The control signal is not sent to the device 10-n, and the scheduling result of the device 10-n is sent to the display 204-n. Etc. are displayed.

  Among the devices 10-1 to 10-n, those that receive the control signal operate according to the control signal, and those that do not receive the control signal operate according to the operation of the user. For this reason, the control controller 203 permits the control operation by the user to the device by stopping the provision of the control signal to the device.

  The control condition selection device 202 may cause the user to arbitrarily select a period (for example, every day, time period) for executing the plan selected by the user, and input the selection result to the control controller 203. . In this case, the controller 203 executes the plan selected by the user for the period indicated in the selection result. Therefore, the user can set a period to be controlled based on the operation plan of the device, and the convenience for the user is improved.

  According to the present embodiment, since the devices 10-1 to 10-n are controlled based on the operation plan of the devices and the control conditions of the electrical devices, the user selects the control conditions of the devices he / she desires. If input to the device 202, the user's desire is reflected in the control of the device, and the convenience of the user is improved. Moreover, since the operation plan of the power supply device 70 and the devices 10-1 to 10-n is created according to the purpose information, the devices 10-1 to 10-n are controlled according to the state of the power supply device 70. It becomes possible, and efficient energy saving can be realized.

  The optimum scheduler 201 predicts the power generation amount of the solar power generation device 50 based on the weather information (environment information), and based on the power generation amount and the purpose information, the power supply device 70 and the devices 10-1 to 10-. Create an operation plan for n. In this case, it is possible to create an operation plan for the power supply device 70 and the devices 10-1 to 10-n in consideration of the power generation amount of the solar power generation device 50.

  Further, the optimum scheduler 201 creates an operation plan for the power supply device 70 and the devices 10-1 to 10-n that satisfies the constraint conditions of the devices based on the purpose information. In this case, it is possible to appropriately create an operation plan for the power supply device 70 and the devices 10-1 to 10-n.

  The control condition selection device 202 allows the user to select a device to be controlled based on the operation plan of the device among the plurality of devices 10-1 to 10-n, receives the selection result, and the control controller 203 Of the devices 10-1 to 10-n, only the selected device is controlled based on the operation plan of the device. In this case, the user can arbitrarily select a device to be controlled based on the operation plan of the device, and the convenience for the user is further improved.

  Further, since the display unit 204 displays the operation plan, the user can arbitrarily select a device to be controlled based on the operation plan of the device with reference to the operation plan. Further improve. For example, the user checks the display 204 to check a device for which an operation plan according to the user's request is not created, and the control condition is such that the checked device becomes a device that is not controlled based on the operation plan of the device. Can be input to the control condition selection device 202.

  In addition, the control controller 203 allows a user to perform a control operation for a device not selected by the user. In this case, the user can set a device that can be freely controlled, and the convenience for the user is further improved.

  Note that each of the devices 10-1 to 10-n may be any device placed in a home or business office, for example, lighting equipment, air conditioning equipment, information equipment, water heater, cooking equipment, refrigeration equipment, Either a laundry device or a bathroom device may be used. Each of the devices 10-1 to 10-n is driven using a power source, but city gas, kerosene, or the like may be used in combination.

  The power generator 30 includes various fuel cells such as phosphoric acid type, solid polymer type, molten carbonate type, and solid oxide type, internal combustion generators such as a gas engine generator, a gas turbine generator, and a diesel engine generator. Any device that generates electric power from fuel may be used.

  The power storage device 40 is any of all devices having a function of storing electric power, including all secondary batteries such as alkaline batteries such as lead storage batteries, nickel metal hydride batteries, and nickel cadmium batteries, lithium ion batteries, and fuller wheels. But you can.

  The solar power generation device 50 is a power generation device mainly composed of all solar cells such as crystalline silicon, non-crystalline silicon, and a compound system, and a solar thermal power generation device using a heat engine. Any of the devices may be used.

  Algorithms used to create an operation plan by the optimal scheduler 201 include all optimization algorithms such as an optimization method using linear programming, and a non-linear metaheuristic method such as a genetic algorithm or tabu search. Either may be used.

  Note that the optimum scheduler 201 does not have to create the operation plan of the power storage device 40 by creating the operation plans of the power generation device 30 and the devices 10-1 to 10-n in association with each other according to the purpose information. Moreover, it is not necessary to create the operation plan of the power generator 30 by creating the operation plans of the power storage device 40 and the devices 10-1 to 10-n in association with each other according to the purpose information. In this case, the load on the optimum scheduler 201 can be reduced.

  The control device 200 includes control software for realizing the functions of the control device 200 in a communication server, including a case where a dedicated control device is used and a general-purpose personal computer is used. Various control means correspond to the case where the power storage device 40 and the devices 10-1 to 10-n are controlled.

  The communication server is installed on the side of a DSM service provider, including the case where the communication server is installed in the user's house, and the power generation device 30, the power storage device 40, and the devices 10-1 to 10- are remotely connected by communication means. The installation location is not selected, for example, when controlling n. The communication means includes means for controlling via the Internet, the case where the Internet and the LAN in the customer are used together, and the case where the LAN is implemented using any communication means such as when using a wireless LAN or power line communication. .

  According to the present embodiment, the status of power supply devices such as fuel cells and solar power generation devices installed in consumers, and power storage devices such as power storage devices that temporarily store and effectively use the power associated therewith. In consideration of this, it is possible to optimally control the equipment in the customer, and there is an effect that the effect of energy cost and energy saving becomes very large.

  In addition, for each device to be controlled, a device that performs forced control and a device that performs only advice and the operation performed by the customer based on the judgment of the customer are selected by the customer and the customer is convinced. Control can be performed. For this reason, the disadvantage that the spread of the DSM system itself does not spread due to the loss of convenience for consumers is eliminated, and as a result, the energy cost and energy saving effect of society as a whole increases, and the environment is positively affected. There is an effect of giving.

  In the embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

It is the block diagram which showed the DSM system of one Example of this invention. It is explanatory drawing which showed an example of the plan which the control condition selection apparatus 202 has. It is the block diagram which showed the conventional DSM system.

Explanation of symbols

10-1 to 10-n equipment 200 control device 201 optimal scheduler 202 control condition selection device 203 control controller 204-1 to 204-n display 30 power generation device 40 power storage device 50 solar power generation device 60 commercial power supply 70 power supply device

Claims (9)

A device control device connected to a power supply device under the control of a user and an electric device that can be driven by any of the power from the power supply device and the power from a commercial power source and is under the control of the user. And
Receives purpose information indicating the control purpose of the electric device, creates each operation plan of the power supply device and the electric device according to the purpose information, and controls the power supply device according to the operation plan of the power supply device A schedule creation means;
Receiving means for receiving control conditions of the electrical equipment;
An apparatus control apparatus comprising: a control unit configured to control the electric apparatus based on an operation plan of the electric apparatus and a control condition of the electric apparatus. The device control apparatus according to claim 1,
The electrical equipment can be driven by power from a solar power generation device under the management of the user,
The schedule creation means receives environmental information indicating an operating environment of the solar power generation device, predicts the power generation amount of the solar power generation device based on the environmental information, and based on the power generation amount and the purpose information A device control device for creating an operation plan for the power supply device and the electrical device. The device control apparatus according to claim 1,
The schedule creation means receives a constraint condition relating to driving of the electrical device, and creates an operation plan for the power supply apparatus and the electrical device that satisfies the constraint condition based on the purpose information. Equipment control device. In the apparatus control apparatus of any one of Claims 1-3,
There are a plurality of the electrical devices,
The accepting unit causes a user to select an electrical device controlled based on an operation plan of the electrical device among the plurality of electrical devices, and accepts the selection result as the control condition,
The control means controls only the selected electrical device among the plurality of electrical devices based on an operation plan of the electrical device. In the equipment control device according to claims 1 to 4,
A device control apparatus further comprising display means for displaying the operation plan. In the apparatus control apparatus of Claims 1-5,
The control means allows a user to perform a control operation on the non-selected electric device. In the equipment control device according to any one of claims 4 to 6,
The accepting unit causes the user to select a control period for the selected electrical device, and further accepts the selection result as the control condition,
The control means controls only the selected electrical device among the plurality of electrical devices based on an operation plan of the electrical device only during the selected period.   The device control device according to any one of claims 1 to 7, a power supply device under the management of a user, and can be driven by any of power from the power supply device and power from a commercial power source. And an electric device controlled by the device control device and managed by the user. Performed by a device control device connected to a power supply device under the control of the user and an electric device that can be driven by either power from the power supply device or power from a commercial power source and under the control of the user A device control method,
Receives purpose information indicating the control purpose of the electric device, creates each operation plan of the power supply device and the electric device according to the purpose information, and controls the power supply device according to the operation plan of the power supply device A schedule creation step;
An accepting step for accepting control conditions for the electrical device;
A control method for controlling the electric device based on an operation plan of the electric device and a control condition of the electric device.

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