JP2014018004A - Power controller, power management system, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently reduce a power use amount in response to reception of a power reduction request while reducing a ratio of discomfort of a user of an apparatus.SOLUTION: A power management system comprises a power management server 1 and a plurality of power controllers 2. Each power controller 2 comprises: a storage unit 24 for storing correspondence between a content of energy saving control in an apparatus 3 and priority; and a calculation unit 232 for calculating, for each priority for an apparatus 3 having been switched on before start of power reduction, a power reducible amount in the case of performing energy saving control being equal to or lower than the priority by using the correspondence in the storage unit 24, when an external communication unit 21 receives a power reduction request. The power management server 1 comprises: a server side communication unit 12 for receiving a power reducible amount for each priority from each power controller 2; and a determination unit 112 for determining priority for implementing a power reducible amount required for the power reduction request. The power controller 2 further comprises a control unit 233 for performing energy saving control corresponding to priority which is equal to or less than the priority determined by the power management server 1, when power reduction start time has come.

Description

  The present invention relates to a power control apparatus, a power management system, and a program for controlling power usage of equipment.

  2. Description of the Related Art Conventionally, a system is known that reduces the amount of power used by a device in response to a power reduction request for requesting a reduction in power consumption (power consumption) (see, for example, Patent Document 1).

  The system described in Patent Literature 1 includes a client device and a server. When the server receives a power control command for requesting reduction of the power amount from the electric utility, the server transmits a power control message including the power amount to be reduced to the selected client device. The client device controls the controllable device to enable or disable the power supply to the power consuming device according to the power control message from the server.

  Thereby, in the system described in patent document 1, the electric power consumption of an apparatus can be reduced with respect to the electric power reduction request | requirement from an electric utility.

Special table 2010-537622 gazette

  However, in the conventional system described in Patent Document 1, when a power reduction request is made, each customer performs power reduction individually. Had the problem of becoming uncomfortable. That is, even if there is a margin for power reduction in some consumers, this is not reflected in other consumers, and the total power consumption cannot be efficiently reduced.

  The present invention has been made in view of the above points, and an object of the present invention is to efficiently reduce the amount of power used while reducing the proportion of equipment users who feel uncomfortable in response to a power reduction request. An object of the present invention is to provide a power control apparatus, a power management system, and a program that can be used.

  The power control apparatus of the present invention is a power control apparatus that is used together with a power management server that performs a power reduction request, and that has a function of exchanging information with the power management server and a function of controlling power usage of equipment, An accepting unit that accepts a power reduction request, a storage unit that stores a correspondence relationship between the content and priority of energy saving control of the device, and the power reduction start when the accepting unit accepts the power reduction request For the acquisition unit that acquires the operation state of the device and the device that is turned on before the start of the power reduction, the energy saving below the priority for each priority using the correspondence relationship stored in the storage unit A calculation unit that calculates a possible power reduction amount when control is performed; and a transmission unit that transmits the possible power reduction amount for each priority calculated by the calculation unit to the power management server; A control unit that performs energy-saving control corresponding to a priority equal to or lower than the priority determined by the power management server in the correspondence relationship stored in the storage unit when the power start time is reached. Features.

  In this power control apparatus, the priority is preferably different for each time zone.

  In this power control apparatus, the priority is preferably different for each outside air temperature.

  The power management system of the present invention includes a power management server that makes a power reduction request, and a plurality of power control devices each having a function of exchanging information with the power management server and a function of controlling power usage of devices. In the power management system, each of the plurality of power control devices includes a control unit that controls the device, a reception unit that receives the power reduction request, and a correspondence relationship between the content and priority of the energy saving control of the device. A storage unit that stores information, an acquisition unit that acquires an operation state of the device before the start of power reduction when the power reduction request is received by the reception unit, and the device that is turned on before the start of power reduction For each of the priorities using the correspondence relationship stored in the storage unit, a calculation unit that calculates a possible power reduction amount when performing energy-saving control below the priority, and the performance A transmission unit that transmits the power possible reduction amount for each priority calculated by a unit to the power management server, and the power management server receives the priority for each priority from each of the plurality of power control devices. A server-side receiving unit that receives the possible power reduction amount and a priority that satisfies the power reduction amount necessary for the power reduction request is determined from the possible power reduction amount for each priority in each of the plurality of power control devices. And a server-side transmission unit that transmits the priority determined by the determination unit to the control device. In each of the plurality of power control devices, the control unit has a power reduction start time. In the correspondence relationship stored in the storage unit, energy saving control corresponding to a priority level equal to or lower than the priority level determined by the determination unit of the power management server is performed. That.

  The program of the present invention is used together with a power management server that performs a power reduction request, and receives a power reduction request from a computer that has a function of exchanging information with the power management server and a function of controlling power usage of equipment. A storage unit that stores a correspondence relationship between the content and priority of energy-saving control of the device, and acquisition of acquiring an operation state of the device before the start of power reduction when the power reduction request is received by the reception unit Reduction of power when energy-saving control below the priority is performed for each priority using the correspondence stored in the storage unit for the device turned on before the power reduction starts A calculation unit that calculates an amount, a transmission unit that transmits the possible power reduction amount for each priority calculated by the calculation unit to the power management server, and power start A program for functioning as a control unit that performs energy-saving control corresponding to a priority level equal to or lower than the priority level determined by the power management server in the correspondence relationship stored in the storage unit. is there.

  With the power control device, power management system, and program of the present invention, it is possible to efficiently reduce the amount of power used while reducing the rate at which the device user feels uncomfortable with respect to the power reduction request.

1 is a block diagram illustrating a configuration of a power management system according to a first embodiment. 1 is a schematic diagram of a power management system according to a first embodiment. It is a figure which shows the priority table used in Embodiment 1. FIG. FIG. 3 is a sequence diagram illustrating an operation of the power management system according to the first embodiment. 4 is a flowchart illustrating calculation of a possible power reduction amount of the power control apparatus according to the first embodiment. It is a figure which shows the priority table used in Embodiment 2. It is a figure which shows the priority table used in Embodiment 3.

  When the power control device 2 according to the following first to third embodiments receives a power reduction request for requesting a reduction in power consumption (power consumption), the device 3 The device 3 is controlled so as to efficiently reduce the power consumption. Specifically, when receiving the power reduction request, the power control apparatus 2 calculates a possible power reduction amount for each priority, and transmits the calculation result to the power management server 1. The power management server 1 is communicable with a plurality of power control devices 2, aggregates the possible power reduction amount for each priority from each power control device 2, and determines the priority requested to each power control device 2. To do. Each power control device 2 actually performs energy saving control based on the priority determined by the power management server 1 to efficiently reduce the power consumption of the device 3. Each embodiment will be described below.

(Embodiment 1)
As shown in FIG. 1, the power management system according to the first embodiment includes a power management server 1 and a plurality of power control devices 2 that each exchange information with the power management server 1. As shown in FIG. 2, the power control device 2 is installed in each customer 8. The consumer 8 in which the power control apparatus 2 is installed is, for example, a detached house, an office, a factory, or a dwelling unit of an apartment house. The power management server 1 is a device installed in, for example, an electric power company or a service provider that performs services on behalf of the electric power company. Each power management server 1 sends an electric power reduction request to the customer 8 when requesting electric power reduction (power saving). It transmits to the power control apparatus 2.

  The power control device 2, the plurality of devices 3, and the control panel 4 constitute an internal network 7 on the customer 8 side. The internal network 7 is a network called HEMS (Home Energy Management System).

  The device 3 is a facility device such as an air conditioner or a lighting device, and is a device that is used relatively continuously, and is installed in the customer 8. The device 3 is not limited to the above-described device, and may be another power load device.

  The control panel 4 includes an operation unit such as a plurality of operation buttons or a touch panel, for example, and accepts input of various instructions by an input operation of a user of the device 3. Specifically, the control panel 4 has a function of setting a correspondence relationship between the content of energy saving control of the device 3 and the priority. Thereby, the user of the device 3 can set the priority in advance before the power reduction request. The correspondence set in the control panel 4 is stored in the storage unit 24 of the power control apparatus 2 as the priority table 5 (see FIG. 3).

  Next, the power control device 2 will be described. The power control apparatus 2 controls, for example, a plurality of devices 3 connected to the internal network 7 with a computer (including a microcomputer) on which a CPU (Central Processing Unit) and a memory are mounted as main components. . The power control device 2 is connected to the power management server 1 via an external network 6, and the power control device 2 includes an external communication unit (accepting unit, transmission unit) 21 and an internal unit as shown in FIG. A communication unit 22, a processing unit 23, and a storage unit 24 are provided. The processing unit 23 functions as an acquisition unit 231, a calculation unit 232, and a control unit 233 by using a CPU mounted on a computer as a main component and operating according to a program stored in the storage unit 24.

  The storage unit 24 is composed of various memories and stores various types of information. Specifically, the storage unit 24 stores a priority table 5 that represents the correspondence relationship between the content of energy saving control of the device 3 and the priority.

  As shown in FIG. 3, the priority table 5 includes a location item 51 representing a location, a device item 52 representing the type of the device 3, and a control content item representing the content of energy saving control when a power reduction request is made. 53 and a seasonal item 54 representing the season. Furthermore, the priority table 5 includes an operation state item 55 representing the operation state (operation state) of the device 3, a presence / absence item 56 representing the presence / absence of a person in the home, and a home illumination item 57 representing the home illumination. And a priority item 58 representing the priority. The energy saving control includes control for turning off the device 3 (OFF control), control for adjusting the temperature to a predetermined temperature, control for adjusting the illuminance to a predetermined illuminance, etc. Compared to the control, the power consumption can be reduced.

  The priority of the present embodiment increases as the number decreases, with priority 1 being the highest and priority 5 being the lowest. Note that the priority does not need to be five levels, and may be smaller than five levels or larger than five levels.

  For example, the first level in FIG. 3 shows that when the season is summer and there are people in the house, the priority 1 is set to turn off the air conditioner in the cooling operation. Indicates that it is set. Thereby, when the priority is determined to 1, the air conditioner is turned off. On the other hand, when the priority is determined to be any one of 2 to 5 lower than the set value, the air conditioner continues the cooling operation.

  Further, the 10th row in FIG. 3 shows that priority is given to turning off the lighting device that illuminates the living room when the illuminance in the house is 500 lux or more and there are people in the house. 4 is set. Thereby, when the priority is determined to be any one of the setting value 4 or 1 to 3 higher than the setting value, the lighting device is turned off. On the other hand, when the priority is determined to be 5 lower than the set value, the lighting device continues to be lit.

  The external communication unit 21 illustrated in FIG. 1 has a function of communicating with the power management server 1 and receives a power reduction request from the power management server 1. The power reduction request includes time information indicating a time when power reduction is started (hereinafter referred to as “power reduction start time”) and power information indicating a power reduction amount. The amount of power reduction in the power information may be a request for the whole or a request for each customer 8.

  When the external communication unit 21 receives the power reduction request, the acquisition unit 231 acquires the operation state of the device 3 before the power reduction start (hereinafter referred to as “device operation state”) at a predetermined timing before the power reduction start. .

  Here, “before power reduction start” refers to the time from when a power reduction request is received until the power reduction start time is reached. The power reduction start time is included in the power reduction request. The predetermined timing before the start of power reduction is preferably as close to the power reduction start time as possible from the time when the power reduction request is received until the power reduction start time, but a series of time until priority is determined It is necessary to determine the time required for processing. For example, 30 minutes before the power reduction start time, the external communication unit 21 receives a power reduction request from the power management server 1. The acquisition unit 231 acquires the device operation state immediately after the external communication unit 21 receives the power reduction request, for example.

  In addition, the device 3 that is the target of the device operation state acquired by the acquisition unit 231 is a device that is predicted not only to be turned on at the time of acquiring the device operation state but also to be turned on at the power reduction start time. is there.

  The internal communication unit 22 has a function of communicating with the device 3 and the control panel 4 and receives a device operation state from the device 3 and receives a priority correspondence from the control panel 4.

  The calculation unit 232 uses the priority table 5 (see FIG. 3) for each priority for the device 3 that is turned on before the acquisition unit 231 acquires the device operating state, that is, before the power reduction start time. The possible power reduction amount is calculated when energy-saving control is performed on the devices 3 that are lower than the priority. That is, for all of the priorities 1 to 5, the calculation unit 232 calculates a possible power reduction amount.

  For example, when the priority is 3, the calculation unit 232 calculates a possible power reduction amount when the energy saving control corresponding to the priorities 3 to 5 is performed. When the priority is 1, the calculation unit 232 calculates a possible power reduction amount when the energy saving control corresponding to the priorities 1 to 5 is performed.

  The external communication unit 21 has a function of communicating with the power management server 1 and transmits the possible power reduction amount calculated for each priority by the calculation unit 232 to the power management server 1. That is, the external communication unit 21 transmits a possible power reduction amount corresponding to each priority to the power management server 1.

  Thereafter, the external communication unit 21 receives the priority determined by the power management server 1 from the power management server 1 as described later.

  When the power reduction start time comes, the control unit 233 uses the priority table 5 (see FIG. 3) to perform energy saving control corresponding to the priority received by the external communication unit 21 or lower. The control result of the control unit 233 is notified from the external communication unit 21 to the power management server 1.

  For example, if the season is summer, the illuminance in the house is 500 lux or more, and there are people in the house, and the priority received from the power management server 1 is 3, the control unit 233 sets the set temperature for the cooling operation. Adjust the temperature of the air conditioner to raise it, and turn off the lighting equipment.

  In addition, when the season is winter, the illuminance in the house is less than 500 lux, and there are people in the house, and the priority received from the power management server 1 is 1, the control unit 233 controls the air conditioner and the lighting device. Turn off.

  The storage unit 24 stores a program for the power control device 2 (computer) to execute various functions. That is, the storage unit 24 stores a program for causing the power control device 2 to function as the external communication unit 21, the internal communication unit 22, the processing unit 23, and the storage unit 24. The program is stored in advance in the storage unit 24 when the power control apparatus 2 is shipped. However, when the power control apparatus 2 acquires the program after shipment, an example of a technique for the power control apparatus 2 to acquire the program is a technique using a computer-readable recording medium on which the program is recorded. In the case of a method using a recording medium, the power control device 2 only needs to include a reading device (not shown) for reading data on the recording medium. Examples of the recording medium include an optical disk and a memory card. Examples of the reading device include a drive device that reads information on an optical disk, and a memory card reader that reads information on a memory card. Further, as another method for the power control device 2 to acquire the program, there is a method for downloading the program from another device (for example, a server). In the case of the method of downloading the program, the power control device 2 only needs to have a communication function (not shown) for communicating with other devices.

  Next, the power management server 1 will be described. The power management server 1 includes a server side processing unit 11 and a server side communication unit (server side receiving unit, server side transmitting unit) 12. The server side processing unit 11 includes a detection unit 111 and a determination unit 112.

  The detection unit 111 detects the peak occurrence of power demand. Since it is not in time to transmit the power reduction request after the power demand peak occurs, in the present embodiment, the detection unit 111 predicts the power demand peak in advance.

  The server side communication unit 12 transmits a power reduction request to each power control apparatus 2 when the detection unit 111 detects a peak occurrence. Since the transmission timing of the power reduction request is too late after the peak occurs, it is performed with some margin.

  After transmitting the power reduction request, the server-side communication unit 12 receives the possible power reduction amount for each priority from each of the plurality of power control devices 2.

  The determination unit 112 determines the priority that satisfies the power reduction amount required for the power reduction request, using the possible power reduction amount for each priority of each power control device 2. Note that the determination unit 112 may determine the same priority for the plurality of power control apparatuses 2 or may determine the priority individually. The server side communication unit 12 transmits the priority determined by the determination unit 112 to the power control apparatus 2.

  Next, the operation of the power management system according to the present embodiment will be described with reference to FIG. First, by the operation of the control panel 4 by the user of the device 3, in the power control device 2, the correspondence relationship between the content of the energy saving control of the device 3 and the priority is set in advance (S1). In the power management server 1, when the detection unit 111 detects the peak occurrence of power demand (S2), the server-side communication unit 12 transmits a power reduction request to each power control device 2 (S3). When receiving the power reduction request, the power control apparatus 2 acquires the device operation state from each device 3, and calculates the possible power reduction amount for each priority from the device operation state of the device 3 (S4). Thereafter, the power control apparatus 2 notifies the power management server 1 of the calculation result (S5).

  Here, the calculation of the possible power reduction amount in the power control apparatus 2 in step S4 will be described with reference to FIG. First, when the predetermined timing is reached in the time from the reception of the power reduction request to the power reduction start time (S11), the power control device 2 acquires the device operation state of each device 3 (S12). Thereafter, the power control apparatus 2 calculates the possible power reduction amount for each priority using the device operating state and the priority table 5 (see FIG. 3) (S13). Thereafter, the power control device 2 notifies the power management server 1 of the calculation result (S5 in FIG. 4).

  Thereafter, as illustrated in FIG. 4, the power management server 1 determines a priority that satisfies the power reduction amount with respect to the power reduction request (S6). Thereafter, the power management server 1 transmits the priority determined in step S6 to each power control device 2 (S7). The power control apparatus 2 receives the priority and controls the device 3 according to the received priority (S8). Thereafter, the power control apparatus 2 notifies the power management server 1 of the control result (S9).

  The setting of the correspondence in step S1 is not limited to the control panel 4, but may be performed from a personal computer (not shown) via the internal network 7, or a personal computer (not shown) via the external network 6. ) Etc. Step S1 may be immediately before the timing of step S2.

  In the power management system of the present embodiment described above, the power control apparatus 2 calculates the possible power reduction amount for each priority after receiving the power reduction request, and transmits the calculation result to the power management server 1. After that, the power management server 1 determines the priority satisfying the overall power reduction amount by aggregating the possible power reduction amount for each priority in each power control device 2, and each power control device 2 is determined by the power management server 1 The energy saving control of the device 3 is performed according to the priority. Thereby, it is possible to efficiently reduce the amount of power used while reducing the ratio that the user of the device 3 feels uncomfortable with respect to the power reduction request.

(Embodiment 2)
As shown in FIG. 6, the power management system according to the second embodiment is different from the power management system according to the first embodiment in that the priority used in the power control device 2 is different for each time zone. In addition, about the component similar to the power management system of Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The power control device 2 according to the present embodiment calculates the possible power reduction amount for each priority, and controls the device 3 according to the priority determined by the power management server 1, but this embodiment The power control apparatus 2 stores a priority table 5a shown in FIG. 6 in the storage unit 24 instead of the priority table 5 (see FIG. 3). In addition, the power control device 2 of the present embodiment can acquire information on the current time from a timer unit (not shown). The timekeeping unit may be provided outside the power control device 2 or may be built in the power control device 2.

  As shown in FIG. 6, the priority table 5a of this embodiment further has a time zone item 59a representing a time zone. Compared with the priority table 5 of the first embodiment, the priority table 5a of the present embodiment is set more finely for each time zone. That is, the power control apparatus 2 of the present embodiment performs device control using the priority for each time zone. Note that description of the same items as those in the priority table 5 of the first embodiment is omitted.

  For example, when the season is summer and there are people in the house, the priority level 1 is set in the time zone from 10:00 to 15:00 as opposed to turning off the air conditioner in the living room that is performing the cooling operation. In the time zone from 15:00 to 18:00, priority 2 is set. As a result, when the priority is determined to be 2, the air conditioner continues cooling operation in the time zone from 10:00 to 15:00, whereas the air conditioner is turned off in the time zone from 15:00 to 18:00. Become.

  In the power management system of the present embodiment described above, the power control device 2 can finely determine priorities by designating time zones, and energy saving control (power reduction) so as to increase the convenience for the user. It can be performed.

  Note that the operation of the power management system according to the present embodiment is the same as the operation of the power management system of the first embodiment, except that the time zone is taken into consideration.

(Embodiment 3)
As shown in FIG. 7, the power management system according to the third embodiment is different from the power management system according to the second embodiment in that the priority used in the power control device 2 is different for each outside air temperature. In addition, about the component similar to the power management system of Embodiment 2, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The power control device 2 according to the present embodiment calculates the possible power reduction amount for each priority, and controls the device 3 according to the priority determined by the power management server 1, but this embodiment The power control device 2 stores a priority table 5b shown in FIG. 7 in the storage unit 24 instead of the priority table 5a (see FIG. 6). Moreover, the power control apparatus 2 of this embodiment can acquire detected temperature from the temperature detection apparatus (not shown) which detects external temperature.

  As shown in FIG. 7, the priority table 5b of the present embodiment further has an outside air temperature item 59b representing the outside air temperature. Unlike the priority table 5a of the second embodiment, the priority table 5b of the present embodiment is set finely for each outside air temperature. That is, the power control apparatus 2 of the present embodiment performs device control using a priority that considers the outside air temperature. Note that description of the same items as those in the priority table 5a of the second embodiment is omitted.

  For example, when the season is summer and there are people in the house, the priority level 1 is set when the outside air temperature is 30 degrees or higher with respect to turning off the air conditioner in the living room that is performing the cooling operation. Priority 2 is set when the outside air temperature is 25 degrees or more and less than 30 degrees. As a result, when the priority is determined to be 2, the air conditioner continues cooling operation when the outside air temperature is 30 degrees or higher, whereas the air conditioner is turned off when the outside temperature is 25 degrees or more and less than 30 degrees. .

  In the power management system of the present embodiment described above, the power control device 2 can finely determine priorities by using information on the outside air temperature, and energy saving control (power reduction so as to increase user convenience). )It can be performed.

  The operation of the power management system according to the present embodiment is the same as the operation of the power management system of the second embodiment except that the outside air temperature is taken into consideration.

  In each embodiment, the power reduction start time included in the power reduction request is not a specifically designated time, and the power control device 2 reduces the power in order to immediately calculate the possible power reduction amount. It may be the time (timing) when the request is received.

  Moreover, in each embodiment, the other power management server which manages the several power control apparatus 2 receives the power reduction request | requirement from the power management server 1 (electric power company) collectively, and another power management server performs each power control. A system configuration for notifying the apparatus 2 may be used.

  Furthermore, a system configuration in which the calculation results in each power control device 2 are aggregated and transmitted to the power management server 1 by another power management server that manages the plurality of power control devices 2 may be employed.

  Here, another power management server that manages the plurality of power control apparatuses 2 is provided for each predetermined area. When the power management server 1 determines the overall priority at once, the processing load of the power management server 1 increases. Therefore, other power provided for each area so that the processing load is not concentrated on a specific power management server. The management server can determine the priority for its own area. Such another power management server is managed by, for example, a service provider acting on behalf of the power company, and can determine the priority of the area on behalf of the power management server 1. In such a case, the function of the power management server 1 of each embodiment can be distributed to a plurality of power management servers (power management server 1, other power management servers in each area) and executed.

  In each embodiment, the power management server 1 determines the priority by collecting the possible power reduction amount for each priority of each power control device 2. On the other hand, the power management server 1 determines the priority using the past learning status (for example, the power usage status of yesterday and the priority transmitted to the power control device 2), and the priority is determined by the power control device. 2 may be transmitted. In this case, if the power reduction amount is insufficient as a result, the power management server 1 may change the priority and transmit a new priority to the power control apparatus 2.

  Furthermore, not only the power management server 1 determines the priority, but also the power control device 2 uniquely determines the necessary priority locally from the power reduction start time and the power reduction amount included in the power reduction request. It may have the function to do. In this case, it is preferable that the amount of power reduction included in the power reduction request is the amount required for each customer 8.

  Moreover, it is preferable not to permit the device 3 that is turned off at the time of acquiring the device operation state to be turned on until the power reduction period based on the power reduction request ends. That is, after the device operation state is acquired and the possible power reduction amount for each priority is transmitted to the power management server 1, the operation state of the device 3 cannot be changed in a direction in which the power usage amount of the device 3 increases. It is preferable. As a method for preventing the operation state of the device 3 from being changed, for example, an audio warning from the control panel 4 or a control for forcibly returning the device 3 whose operation state has been changed to the original operation state, etc. There is. Still, when the operation state of the device 3 is changed in the direction in which the power usage amount is increased, the power control device 2 provides information indicating that the operation state of the device 3 is changed in the direction in which the power usage amount is increased. Notify The power company side, for example, adds an electricity bill to the customer 8 that is the transmission source of the above information, or sets the priority level to be notified from the power management server 1 to the power control device 2 next time. Or a level lower than the priority notified to the power control device 2 of the customer 8.

  In each embodiment, communication between the power management server 1 and the power control device 2 may be performed via an electronic power meter so-called smart meter having a communication function.

DESCRIPTION OF SYMBOLS 1 Power management server 112 Determination part 12 Server side communication part (Server side receiving part, Server side transmission part)
2 Power control device 21 External communication unit (reception unit, transmission unit)
231 Acquisition unit 232 Calculation unit 233 Control unit 24 Storage unit 3 Device

Claims (5)

A power control device that is used together with a power management server that makes a power reduction request, and has a function of exchanging information with the power management server and a function of controlling power usage of equipment,
A reception unit for receiving the power reduction request;
A storage unit for storing a correspondence relationship between the content of energy-saving control of the device and priority;
An acquisition unit that acquires an operating state of the device before the start of power reduction when the power reduction request is received by the reception unit;
For the device that is turned on before the start of power reduction, the possible power reduction amount when energy saving control equal to or lower than the priority is performed for each priority using the correspondence relationship stored in the storage unit. A computing unit for computing,
A transmission unit that transmits the possible power reduction amount for each priority calculated by the calculation unit to the power management server;
A control unit that performs energy-saving control corresponding to a priority level equal to or lower than the priority level determined by the power management server in the correspondence relationship stored in the storage unit when the power start time comes. A power control device.   The power control apparatus according to claim 1, wherein the priority is different for each time zone.   The power control apparatus according to claim 1, wherein the priority is different for each outside air temperature. A power management system comprising: a power management server that performs a power reduction request; and a plurality of power control devices each having a function of exchanging information with the power management server and a function of controlling power usage of devices,
Each of the plurality of power control devices
A control unit for controlling the device;
A reception unit for receiving the power reduction request;
A storage unit for storing a correspondence relationship between the content of energy-saving control of the device and priority;
An acquisition unit that acquires an operating state of the device before the start of power reduction when the power reduction request is received by the reception unit;
For the device that is turned on before the start of power reduction, the possible power reduction amount when energy saving control equal to or lower than the priority is performed for each priority using the correspondence relationship stored in the storage unit. A computing unit for computing,
A transmission unit that transmits the possible power reduction amount for each priority calculated by the calculation unit to the power management server,
The power management server
A server-side receiving unit that receives the possible power reduction amount for each priority from each of the plurality of power control devices;
A determination unit that determines a priority that satisfies a power reduction amount required for the power reduction request from the possible power reduction amount for each priority in each of the plurality of power control devices;
A server-side transmission unit that transmits the priority determined by the determination unit to the control device,
In each of the plurality of power control devices, the control unit is determined by the determination unit of the power management server in the correspondence relationship stored in the storage unit when the power reduction start time comes. An electric power management system that performs energy-saving control corresponding to a priority equal to or lower than the priority. A computer used with a power management server that makes a power reduction request, and having a function of exchanging information with the power management server and a function of controlling power usage of equipment,
A reception unit for receiving the power reduction request;
A storage unit for storing a correspondence relationship between the content and priority of energy saving control of the device;
An acquisition unit that acquires an operation state of the device before the start of power reduction when the power reduction request is received by the reception unit;
For the device that is turned on before the start of power reduction, the possible power reduction amount when energy saving control equal to or lower than the priority is performed for each priority using the correspondence relationship stored in the storage unit. A computing unit for computing,
A transmission unit that transmits the possible power reduction amount for each priority calculated by the calculation unit to the power management server; and
When the power start time is reached, in the correspondence relationship stored in the storage unit, the power management server functions as a control unit that performs energy saving control corresponding to a priority level equal to or lower than the priority level determined by the power management server. program.

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