JP5544315B2 - Power consumption reduction support device and method, energy saving operation control system - Google Patents

Description

  The present invention relates to a power consumption reduction support device and method, and an energy saving operation control system, and in particular, a power consumption reduction support device that realizes reduction of power consumption of a load facility so as not to exceed an upper limit value of power consumption. The present invention relates to a method and an energy saving operation control system.

In recent years, efforts to reduce the amount of carbon dioxide (CO ₂ ), a kind of greenhouse gas, have been developed to give consideration to the global environment, especially in facilities such as office buildings, commercial buildings and factories. Measures to reduce CO ₂ emissions by implementing energy-saving operation for the load equipment of the facility and suppressing the amount of power consumed by the load equipment for a certain period (hereinafter referred to as “power consumption”) ing.
Conventionally, power demand control has been performed in order to realize energy saving operation of a load facility. Electric power demand control is a system that monitors the amount of power consumed by a power consumer, and the power demand of the consumer (hereinafter referred to as “demand”), that is, the power consumption of a load facility, By changing the setting value (target value) of the parameter that controls the operating state of the load equipment (hereinafter referred to as “operating parameter”) so that the contracted power value contracted between the two is not exceeded, the operating state of the load equipment is changed. It means to control.

  For example, a technique is known in which the demand amount is monitored and the operation state of the load facility is controlled using a demand monitoring device so as not to exceed a predetermined upper limit value of power consumption (Patent Document 2). Such power demand control is generally performed by changing the set values of room temperature and illuminance (operating parameters) that control the operating state of air-conditioning equipment and lighting equipment with relatively large power consumption among load equipment, To be implemented.

However, since the power demand control as described above is uniformly executed by a facility manager in a facility including various spaces, it is comfortable for residents (hereinafter referred to as “users”) of the space. In some cases, the user may be dissatisfied (hereinafter referred to as “alienation”) that the user cannot be involved in the environmental control of the living space.
For this reason, with the technology disclosed in the cited document 2, it is difficult to eliminate the feeling of alienation of the user whose comfort is impaired when performing power demand control so as not to exceed the upper limit value of power consumption. It was.

For such a problem, a technique for executing power demand control that reflects a user's intention even if the comfort of the space is not completely maintained is known (Patent Document 1).
The technology disclosed in Patent Document 1 is based on the total power allowed for the load facility in accordance with the degree of request from the user regarding the change in the environmental state of each space (hereinafter referred to as “request rate”). Apportion.
For example, in the technology disclosed in Patent Document 1, a request regarding a change in environmental state from a user such as “I want you to raise (lower) the temperature” or “I want you to make it brighter (darker)” is accepted and decided. Among the total power amounts, a relatively large amount of power is apportioned for the target space with a high request rate, and a relatively small amount of electric power is apportioned for the target space with a low request rate.

JP 2009-204188 A JP 2009-19853 A

URL: http://www.eccj.or.jp/office_bldg/04.html New Energy and Industrial Technology Development Organization Strategic Development of Energy Use (FS Business), “Preliminary Survey of Emerging Office System Development” 2008 Report, “5.1 Experiment on Relationship between Illuminance and Electricity result".

However, the technique disclosed in Patent Document 1 uses a predetermined total power to load equipment to be subject to demand control according to the degree of demand (request rate) related to the change of the environmental state acquired from each space. Since it is a technology that apportions and controls the environmental state of each space, the environment that the user wants to maintain may be changed.
For example, when executing demand control for air conditioning equipment that controls the room temperature of a space and lighting equipment that controls illuminance, the technology disclosed in Patent Document 1 is a request rate for changes in the environmental state of each space. Depending on the space, it was necessary to change the temperature until the brightness was changed as desired, or "the temperature was changed until the brightness was changed. There was a discrepancy between the environmental condition of the space after executing power demand control according to the request rate and the environmental condition of the space actually requested by the user. There is a fear.

As a result, an environment that fulfills the user's request in a certain space may be obtained, and an environment that is different from the user's request may be obtained in another space. On the other hand, there was a problem of inducing alienation.
Therefore, in order to solve the above-mentioned problem, the present invention aims to alleviate the feeling of alienation that the user of the target space has when executing power demand control so as not to exceed the upper limit value of power consumption. And

  In order to achieve the above-described object, the present invention provides a power consumption reduction support device that sets a power consumption amount of a load facility that controls an environment in an arbitrary space and a plurality of parameters that control an operation state of the load facility. A storage unit that stores relationship information that represents a relationship with a value, and a calculation unit that calculates a set of the set values that does not exceed a predetermined upper limit value based on the relationship information. An extraction unit for extracting the set of set values according to the state of the environment of the space from the set of set values calculated by the calculation unit; and a plurality of the set values extracted by the extractor When one of the set values displayed by the display unit and the set value displayed by the display unit is selected, the set value of the parameter corresponding to the selected set value set is displayed. Reflect to the load equipment Characterized in that it comprises a setting value reflection unit.

Further, the relation information in the present invention may be derived based on a set value of the parameter and actual data of power consumption of the load facility.
Further, the extraction unit according to the present invention is based on an execution time for controlling the operation state of the load facility based on the set value reflected by the set value reflecting unit, and a relationship between the passage of time and the use state of the space. Based on the calculation result of the set value set by the calculation unit, a plurality of set value sets may be extracted.

  The load facility according to the present invention includes at least an air conditioning facility that controls a temperature environment of the space and a lighting facility that controls a lighting environment of the space, and the parameter is at least a temperature environment of the space by the air conditioning facility. It may include a set temperature of the space reflected in the air conditioning equipment when controlling the lighting and a set illuminance of the space reflected in the lighting equipment when controlling the lighting environment of the space by the lighting equipment.

  Furthermore, the present invention provides, as a power consumption reduction support method, a relationship representing the relationship between the power consumption of a load facility that controls the environment of an arbitrary space and the set values of a plurality of parameters that control the operating state of the load facility A step of storing information; a step of calculating a set of set values that does not exceed a predetermined upper limit value based on the relationship information; and a set of set values The step of extracting the set of set values according to the state of the environment of the space and the step of extracting the set of set values from the plurality of sets of set values calculated by the step When one of the set value sets displayed by the step of displaying the set value set in a selectable manner and the step of displaying the set value set in a selectable manner is selected, the selected set value is selected. Characterized in that it comprises a step of reflecting the set values of the parameters corresponding to a set of value to the load equipment.

In addition, the step of storing the relationship information in the present invention may be performed by a step of deriving based on the set value of the parameter and the actual data of the power consumption of the load facility.
Further, the step of extracting the set of set values in the present invention includes an execution time for controlling the operating state of the load facility by the set value reflected by the step of reflecting the selected set value to the load facility. Extracting a plurality of sets of set values from the plurality of sets of set values calculated by the step of calculating the set of set values based on the relationship between the passage of time and the usage state of the space. Also good.

  Furthermore, the present invention provides a set value of a parameter related to an operating state of a load facility for controlling an environment of a space in which a server device and a plurality of terminal devices are connected via a network and at least one of the terminal devices is installed. As the energy-saving operation control system for selecting at least one of the terminal devices, determining the parameter setting value that the server device reflects in the load facility, and reflecting the parameter setting value in the load facility, the server 4. The power consumption reduction support apparatus according to claim 1, further comprising a transmission / reception unit that receives data from the outside and transmits data to the outside. 5. The display unit generates screen information of an energy saving option screen that displays the set value set extracted by the extraction unit in a selectable state. The setting value reflecting unit of the server device is based on selection result information representing the selection result of the energy saving option screen transmitted from the outside and received via the transmission / reception unit. The parameter setting value to be reflected to the load facility is determined, and the terminal device displays the energy saving option screen based on the screen information transmitted from the server device, and the displayed energy saving option When one of the set of setting values is selected from the screen, the selection result information indicating the selection result of the set of parameter setting values is generated and transmitted to the server device.

  According to the present invention, the relationship information representing the relationship between the power consumption of the load facility and the set value of the operation parameter is derived from the actual data representing the power consumption of the load facility and the set values of the plurality of operation parameters. A set of operation parameter set values that does not exceed the upper limit value of the power consumption of the load facility is calculated, and a set of operation parameter set values according to the environmental state of the target space is displayed in a selectable state.

As a result, a set of operation parameter setting values that do not exceed the upper limit value of the power consumption of the load facility in the corresponding space can be presented to the residents of the space (hereinafter referred to as “users”) as options. The user can select a set of set values of desired operation parameters to be reflected in the load facility from the presented options.
Therefore, when executing the power demand control so as not to exceed the upper limit value of the power consumption, it is possible to relieve the sense of alienation that the user of the target space has.

It is a functional block diagram which shows the function structure of the power consumption amount reduction assistance apparatus concerning the 1st Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the power consumption reduction support apparatus and terminal device of this invention. It is a figure which shows an example of the energy saving operation choice screen in 1st Embodiment. It is a flowchart which shows operation | movement of the power consumption amount reduction assistance apparatus concerning 1st Embodiment. It is a figure which shows the structure of the energy-saving operation control system containing the power consumption amount reduction assistance apparatus concerning the 2nd Embodiment of this invention. It is a figure which shows an example of the energy saving operation choice screen displayed on each terminal device in 2nd Embodiment. It is a figure which shows an example of the score table which totaled the vote result from each terminal device in 2nd Embodiment. It is a sequence diagram which shows operation | movement of the energy-saving operation control system containing the power consumption amount reduction assistance apparatus concerning 2nd Embodiment.

[Principle of the Invention]
The feature of the present invention is that a plurality of adjustment factors (for example, temperature and illuminance) are taken into consideration in order to satisfy the power constraint, and a range of “option” that is not top-down and unique can be introduced. And presenting this to the resident rather than the manager, and is achieving both the relaxation of alienation and the satisfaction of power constraints.
That is, the present invention derives “options” that can select which adjustment factor is to be adjusted to what extent among a plurality of adjustment factors such as temperature and illuminance within the constraints of power demand. ”Is presented to the resident, so that the alienation can be reduced.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
The power consumption reduction support device according to the first embodiment of the present invention is intended to suppress the power consumption of the load facility by executing operation control on the load facility that controls the environment of the living space. It is.

FIG. 1 is a functional block diagram showing a functional configuration of the power consumption reduction support apparatus 100 according to the present embodiment, and FIG. 2 shows a hardware configuration of the power consumption reduction support apparatus 100 according to the present embodiment. It is a figure which shows a block diagram.
As illustrated in FIG. 1, the power consumption reduction support apparatus 100 includes a storage unit 110, a derivation unit 120, a calculation unit 130, an extraction unit 140, a display unit 150, and a setting value reflection unit 160. The setting values of the operation parameters are reflected on the 10-1 and the lighting equipment 10-2 via the interface unit 3 shown in FIG. The air conditioning equipment 10-1 and the lighting equipment 10-2 will be collectively described as “load equipment 10” below.

  The storage unit 110 is an interface shown in FIG. 2 that shows the setting values of the operating parameters related to the operating state of the load facility 10 that is operating to control the state of the environment in the living space and the power consumption of the load facility 10. It acquires from the load installation 10 via the part 3, and memorize | stores the set value of these acquired operation parameters and the power consumption of the load installation 10 as performance data in the memory | storage device 2 shown in FIG.

In the present embodiment, for example, the storage unit 110, when the set value of the set room temperature of the space controlled by the air conditioning equipment 10-1 is set at 24 ° C., that is, with the operation parameters of the air conditioning equipment 10-1. When the set value of a certain set room temperature is 24 ° C., the actual value of the power consumption of the air conditioner 10-1 is periodically acquired, and the set value of the set room temperature is 28 ° C. Regularly obtain the actual value of power consumption. As described above, the storage unit 110 periodically acquires the actual value of the power consumption of the air conditioning equipment 10-1 for each set value of the set room temperature, and obtains the set value of the set room temperature and the actual value of the power consumption. The associated performance data is stored. Similarly, the memory | storage part 110 memorize | stores also about the performance data which linked | related the setting value of setting illumination intensity, and the power consumption of the lighting installation 10-2.
In addition, when the storage unit 110 acquires the set value of the operation parameter of the load facility 10 and the actual value of the power consumption, the storage unit 110 stores the room temperature, the humidity, and the current value of the illuminance of the living space held by the load facility 10. Information representing the environmental state of the space (hereinafter referred to as “environment information”) can also be acquired simultaneously.

  The deriving unit 120 derives relationship information representing the relationship between the power consumption amount of the load facility 10 and the operation parameters based on the performance data stored by the storage unit 110. Further, the deriving unit 120 sets the operating condition of the load facility 10 so as not to exceed the upper limit value of the power consumption amount of the load facility 10 from the upper limit value and the actual data of the power consumption amount of the load facility 10 stored in advance. The operating condition information to be expressed is also derived.

Here, “related information” and “operating condition information” derived by the deriving unit 120 will be specifically described.
In addition, various calculation methods used when deriving “relation information” and “operating condition information” described later collect necessary data and derive “relation information” and “driving condition information” based on the data. The method of deriving “relation information” and “operating condition information” is not an essential matter of the present invention.

<About related information>
The relationship information is information representing the relationship between the set value of the operation parameter of the load facility 10 and the power consumption amount of the load facility 10 when operating with this set value. In the present embodiment, the operating parameter setting value constructed based on the accumulated performance data of the operating parameter setting value of the load facility 10 and the power consumption amount of the load facility 10 acquired by the storage unit 110; The deriving unit 120 derives information representing the relationship with the power consumption as the relationship information.
Such relationship information can represent the relationship between the set value of the operation parameter and the power consumption by an arithmetic expression or a correspondence table.

Below, the relationship information showing the relationship between the setting value of the operating parameter with respect to the air conditioning equipment 10-1 and power consumption is demonstrated as a specific example.
When the set temperature of the living space is relaxed by 1 ° C., the power consumption of the air conditioning equipment can obtain a power reduction effect corresponding to the load reduction due to the relaxation of the set temperature. It is known that this power reduction effect, that is, the relationship between the set value (set temperature) of the operating parameter of the air conditioning equipment 10-1 and the amount of power consumption varies depending on the outside air enthalpy. The outside air enthalpy is determined by temperature and humidity, and is generally a value predicted from weather forecast data or actually measured physical quantities (Non-Patent Document 1).

  Here, in this Embodiment, the relationship information of the air conditioning equipment 10-1 based on the accumulate | stored performance data shall be represented by the following (Formula 1).

T (p) = a × p + b (Formula 1)
However, T is set temperature, p is electric energy, and a and b are coefficients (natural numbers).

The coefficients a and b in (Equation 1) vary according to the outside air enthalpy. In the present embodiment, a correspondence table between the outside air enthalpy and the coefficients a and b of (Equation 1) is stored in advance in the storage device 2 shown in FIG.
The deriving unit 120 obtains the coefficients a and b corresponding to the predicted outside air enthalpy from the above correspondence table stored in advance, and derives (Equation 1), which is the relationship information of the air conditioning equipment 10-1 based on the actual data. To do.

Next, the relationship information showing the relationship between the set value of the operation parameter for the lighting equipment 10-2 and the electric energy will be described.
It is widely known that the relationship between the illuminance in the living space and the power consumption of the lighting equipment is generally linear (Non-Patent Document 2). In addition, the amount of change in the power consumption of the lighting equipment with respect to the change in the illuminance setting, that is, the relationship between the setting value (set illuminance) of the operating parameter of the lighting equipment 10-2 and the power consumption is the lighting equipment installed in the living space It fluctuates according to the arrangement state and the type of lighting equipment.
Here, in this Embodiment, the relationship information of the lighting installation 10-2 based on the accumulated performance data shall be represented by the following (Formula 2).

L (p) = s × p + t (Formula 2)
However, L is set illumination intensity, p is electric energy, and s and t are coefficients (natural numbers).

The coefficients s and t in the above (Expression 2) are determined by the arrangement state of the lighting equipment installed in the living space and the type of the lighting equipment. In the present embodiment, the coefficients s and t for each living space are stored in the storage device 2 shown in FIG. 2 as predetermined values.
The deriving unit 120 obtains the coefficients s and t corresponding to the corresponding living space from the coefficients s and t stored in the storage device 2 in advance, and is related information of the lighting equipment 10-2 based on the actual data (Formula 2). ) Is derived.
In this way, the deriving unit 120 in the present embodiment derives the relationship information about the air conditioning equipment 10-1 and the lighting equipment 10-2.

<About operating condition information>
The operating condition information is information representing the condition of the operating condition of the load equipment necessary for achieving the target value when performing power demand control for achieving the target power consumption amount for the load equipment. .
In the present embodiment, the operating condition information is obtained from the environmental information of the living space and the current power consumption of the load facility 10 included in the actual data when the power consumption of the load facility 10 may exceed the upper limit. The information includes a reduction amount of the power consumption necessary for preventing the upper limit value of the power consumption from being exceeded (hereinafter referred to as “reduction target value”). Furthermore, in addition to the reduction target value, the operation condition information includes information that distributes the amount of power consumed by each facility of the load facility 10 in order to achieve the reduction target value, and the operation that achieves the reduction target value. It may include time information indicating the time at which the load facility 10 is operated in a state where the parameter setting values are reflected.

  For example, in the present embodiment, it is assumed that the upper limit value of the power consumption amount of the load facility 10 installed in the corresponding space is set to 95 kWh. Moreover, from the performance data regarding the air conditioning equipment 10-1 and the lighting equipment 10-2 acquired by the storage unit 110, the power consumption of the air conditioning equipment 10-1 when the set temperature of the air conditioning equipment 10-1 is 20 ° C. Is 70 kWh, and when the set value of illuminance of the lighting equipment 10-2 is 500 lx, the power consumption of the lighting equipment 10-2 is 30 kWh.

Therefore, when the room temperature setting value of the air conditioning equipment 10-1 is 20 ° C. and the illuminance setting value of the lighting equipment 10-2 is 500 lx in the space, the derivation unit 120 determines the load equipment 10 in the space. The reduction target value is determined to be 5 kWh from 70 + 30−95 = 5. In addition, the deriving unit 120 distributes the power consumption to be reduced by each of the air conditioning equipment 10-1 and the lighting equipment 10-2 in order to achieve the calculated reduction target value. For example, among the calculated reduction target values, the reduction target values are sorted such that the air conditioning equipment 10-1 reduces 80% and the lighting equipment 10-2 reduces 20%.
The deriving unit 120 derives information representing the condition of the operation state of the load facility 10 such as the distribution of the calculated reduction target value and the reduction target value as the operation condition information.

The calculation unit 130 of the power consumption reduction support device 100 according to the present embodiment operates the load facility 10 that does not exceed the upper limit value of the power consumption of the load facility 10 based on the relationship information derived by the derivation unit 120. A set of parameter setting values is calculated.
In this Embodiment, the calculation part 130 is the illumination which does not exceed the operating parameter setting value of the air-conditioning equipment 10-1 which does not exceed the upper limit value of the power consumption of the load facility 10, and the upper limit value of the power consumption of the load facility 10. The operation parameter setting value of the facility 10-2 is calculated, and the operation parameter setting value of the air conditioning facility 10-1 and the operation parameter of the lighting facility 10-2 that do not exceed the upper limit value of the power consumption of the load facility 10 are set. A pair with a value is calculated.

Specifically, the calculation unit 130 performs lighting that does not exceed the set value of the set room temperature of the air conditioner 10-1 that does not exceed the upper limit of the power consumption of the load facility 10 and the upper limit of the power consumption of the load facility 10. The setting value of the set illuminance of the facility 10-2 is calculated based on the related information.
From this calculation result, a set of set values of the set room temperature of the air conditioning equipment 10-1 and the set illuminance of the lighting equipment 10-2 that does not exceed the upper limit value of the power consumption of the load equipment 10 is calculated.

  For example, when the reduction target value is achieved by changing the setting value of the operating parameter of the air conditioning equipment 10-1 without changing the setting value of the operating parameter of the lighting equipment 10-2, the air conditioning calculated by the calculating unit 130 A set of set values of the set room temperature of the facility 10-1 and the set illuminance of the lighting facility 10-2 is a calculation of the set value of the set room temperature of the air conditioner 10-1 that does not exceed the upper limit value of the power consumption of the load facility 10. It is calculated by the calculation unit 130 as a set of the result and the set value of the set illuminance of the current lighting equipment 10-1.

In addition, the set room temperature of the air conditioner 10-1 calculated by the calculation unit 130 when the reduction target value is achieved by changing the set values of the operation parameters of both the air conditioner 10-1 and the lighting facility 10-2. The set of the set value with the set illuminance of the lighting equipment 10-2 is the calculation result of the set value of the set room temperature of the air conditioning equipment 10-1 that does not exceed the upper limit value of the power consumption of the load equipment 10, and the lighting equipment 10 -2 of the setting value of the set illuminance of -2 between the set room temperature of the air conditioning equipment 10-1 and the set illuminance set value of the lighting equipment 10-2 that do not exceed the upper limit value of the power consumption of the load equipment 10 The combination is calculated by the calculation unit 130.
Here, the calculation unit 130 may calculate a set of operating parameter setting values of the load facility 10 that does not exceed the upper limit value of the power consumption of the load facility 10 in a discrete manner, and continuously consumes power of the load facility 10. You may calculate the set of the setting value of the operation parameter of the load installation 10 which does not exceed the upper limit of quantity.

The extraction unit 140 extracts a set of driving parameter setting values according to the environmental state of the living space from the set of driving parameter setting values calculated by the calculation unit 130.
In the present embodiment, the extraction unit includes each piece of information representing the state of the environment of the living space included in the environmental information acquired by the storage unit 110 and the load facility 10 included in the driving condition information derived by the deriving unit 120. Based on the information representing the condition of the driving state, a set of driving parameter set values corresponding to the living space is extracted from the set of driving parameter setting values calculated by the calculation unit 130.

For example, information indicating the current room temperature and illuminance included in the environment information stored in the storage unit 110, a reduction target value included in the operating condition information derived by the deriving unit, and a reduction target value for each load facility The set of the setting values of the unsettled parameter calculated based on the information indicating the distribution conditions of the occupancy is extracted in accordance with the current environmental state of the living space.
In addition to environmental information and operating condition information, a set of operating parameter set values is extracted in consideration of information representing the relationship between the usage state of the living space that is the target of energy-saving operation of the load facility 10 and the time. Also good.

  Specifically, the scheduled execution time of the energy-saving operation is from 12:00 to 13:00, the current use state of the living space (for example, 11:00) is operating on the office floor (for example, any employee is working) .), When this living space is in an operation stop (for example, lunch break) from 11:45 to 13:15, the extraction unit 140 performs air conditioning between 12:00 and 13:00 according to the above information. Combinations of operation parameter setting values of the equipment 10-1 and the lighting equipment 10-2, for example, operation parameter setting values that do not exceed the upper limit value of the power consumption of the load equipment by maintaining the current temperature at room temperature and lowering the illuminance A plurality of combinations can be extracted from the calculation result of the calculation unit 130 and the operating condition information. Moreover, for example, the facility administrator may extract a plurality of combinations of operation parameter setting values of the load facility 10 based on the calculation result by the calculation unit 130.

The display unit 150 displays a set of operation parameter set values extracted by the extraction unit 140 so as not to exceed the upper limit value of the power consumption of the load facility 10 so as to be selectable.
In the present embodiment, the display unit 150 is a user of the corresponding living space (hereinafter, referred to as “combined”) among the combinations of the operating parameter setting values of the air conditioning equipment 10-1 and the lighting equipment 10-2 extracted by the extraction unit 140. It is simply referred to as “user”) so that a combination of set values of desired operation parameters can be selected.
Here, an example of a selection screen (hereinafter referred to as an “energy saving operation option screen”) of setting values of operation parameters of the air conditioning equipment 10-1 and the lighting equipment 10-2 displayed by the display unit 150 is shown in FIG. Shown in

  The display unit 150 displays an energy saving operation option screen A as shown in FIG. The energy saving operation option screen A is a screen that is displayed so that the user can select a combination of operation parameter setting values of the air conditioning equipment 10-1 and the lighting equipment 10-2 with a radio button. Therefore, the display unit 150 displays such an energy saving operation option screen A, thereby allowing the user to select an operation parameter at the time of energy saving operation of the load facility 10.

When one of a plurality of set values of operation parameters displayed by the display unit 150 is selected, the set value reflecting unit 160 reflects the selected set value set on the load facility 10.
For example, when the user selects “Set room temperature to 27.25 ° C. and Illuminance to 700 lx” from the energy saving operation option screen A shown in FIG. Then, the setting temperature of the room temperature that is the operation parameter is reflected to be 27.25 ° C., and the indoor illuminance setting that is the operation parameter is reflected to the lighting equipment 10-2 to be 700 lx.

As shown in FIG. 2, the power consumption reduction support apparatus 100 according to the present embodiment includes a computer (hardware) including a CPU (Central Processing Unit) 1, a storage device 2 such as a memory and a hard disk, and an interface unit 3. ) Is installed by installing a computer program (software), and each function of the power consumption reduction support apparatus 100 described above is realized by cooperation of various hardware resources of the computer and the computer program. .
Further, the computer program described above may be provided in a state stored in a computer-readable recording medium or storage device, or may be realized via an electric communication line.

Next, the operation of the power consumption reduction support apparatus 100 according to the present embodiment will be described with reference to the flowchart shown in FIG.
As shown in FIG. 4, the storage unit 110 of the power consumption reduction support device 100 periodically sets the operating parameter setting values related to the operating states of the air conditioning equipment 10-1 and the lighting equipment 10-2, and the respective values. The actual value of the power consumption of the facility is acquired, and the actual data that associates the set value of the operation parameter with the power consumption is stored. At this time, environmental information such as the room temperature, humidity, and illuminance of the living space acquired together with the set value of the operation parameter and the actual value of the power consumption is also stored (step S101).

When the performance data and the environment information are stored by the storage unit 110, the power consumption reduction support device 100 determines whether or not there is a power reduction request by power demand control (step S102).
Specifically, the power consumption reduction support device 100 obtains the predicted value of the future power consumption based on the actual value of the power consumption stored by the storage unit 110 and the upper limit value of the power consumption of the load facility 10. In comparison, it is determined whether or not there is a possibility that the actual value of the power consumption exceeds the upper limit value of the power consumption of the load facility 10.

If the actual value of the power consumption amount of the load facility 10 may exceed the upper limit value based on the comparison result between the predicted value of the power consumption amount and the upper limit value of the power consumption amount of the load facility 10, the power consumption reduction support The apparatus 100 determines that there is a power reduction request.
On the other hand, if there is no possibility that the actual value of the power consumption amount of the load facility 10 exceeds the upper limit value from the comparison result between the predicted value of the power consumption amount and the upper limit value of the power consumption amount of the load facility 10, the power consumption amount The reduction support apparatus 100 determines that there is no power reduction request. Further, it may be determined that there is a request for power reduction or not by an input operation by the facility manager.

When it is determined that there is no power reduction request (“NO” in step S102), the storage unit 110 again sets operation parameters for periodically controlling the operation state of the air conditioning equipment 10-1 and the lighting equipment 10-2. The value, the actual value of the power consumption of each facility, and the current values of the indoor temperature, humidity, and illuminance of the living space are acquired, and the actual data and the environmental information are stored (step S101).
On the other hand, when it is determined that there is a power reduction request (“YES” in step S102), the deriving unit 120 uses the power consumption of the load facility 10 based on the actual data and the environment information stored in the storage unit 110. The operation condition information representing the operation condition that does not exceed the upper limit value of the load and the relationship information representing the relationship between the power consumption of the load facility 10 and the operation parameter are derived (step S103).

When the derivation unit 120 derives the relationship information and the operation condition information, the calculation unit 130 calculates the operation parameter to be reflected in the load facility 10 that does not exceed the upper limit value of the power consumption amount of the load facility 10 based on the relationship information. A plurality of sets of set values are calculated (step S104).
When a plurality of sets of driving parameter set values are calculated, the extraction unit 140 extracts the environmental information acquired from the storage unit 110, the environmental state of the living space, and the driving from the calculated set of driving parameter set values. A set of operation parameter set values corresponding to the condition information is extracted (step S105).
When the extraction unit 140 cannot extract a set of operation parameter setting values, the user is requested to review various conditions that can be changed. For example, it may be requested to reset the operating condition information.

When a plurality of operation parameter set value sets are extracted by the extraction unit 140, the display unit 150 displays a plurality of extracted operation parameter set value sets in a selectable manner (step S106).
When one of the set of operation parameter set values displayed by the display unit 150 is selected, the set value reflecting unit 160 sends the set value of the operation parameter corresponding to the selected set value set to the load facility 10. This is reflected (step S107).

  Thus, when the power consumption reduction support apparatus 100 according to the present embodiment performs power demand control so as not to exceed the upper limit value of the power consumption, the set value of the operation parameter of the load facility 10 Are extracted in accordance with the state of the living space and displayed in a selectable state for the user, and the setting value of the operation parameter selected by the user is reflected on the load facility 10 to reflect the load facility 10 Control the operating state.

As described above, according to the present embodiment, the upper limit value of power consumption for at least two types of load equipment, that is, air conditioning equipment that controls the temperature environment of the living space and lighting equipment that controls the illuminance environment of the living space. When the power demand control is performed so as not to exceed the value, the operating condition information indicating the operating condition of the load facility and the relationship between the power consumption and the setting value of the operating parameter are expressed based on the stored actual data. Deriving the relationship information, calculate the operating condition information and the relationship information, or calculate the operating parameter setting conditions that achieve the target value for reducing the power consumption of the load facility, and extract multiple operating parameter setting values according to the living space By displaying the operation parameter set values as a plurality of options in a state that can be selected by the user, the user can select the desired operation parameter set values.
As a result, when executing power demand control so as not to exceed the upper limit value of power consumption, power demand control is performed by allowing the user to display and select operation parameter setting values as a plurality of options. Can relieve the sense of alienation that users of the space where is executed.

[Second Embodiment]
An energy-saving operation control system that performs power demand control for a load facility including a power consumption reduction support device according to a second embodiment of the present invention is selected by a plurality of terminal devices connected via a network. By controlling the operation of the load facility based on the set value of the operation parameter of the load facility, the power consumption of the load facility is suppressed.

FIG. 5 is a diagram illustrating the configuration of the energy saving operation control system 20 including the power consumption reduction support device 200 according to the present embodiment.
As shown in FIG. 5, the energy saving operation control system 20 in the present embodiment includes a power consumption reduction support device 200 having a server function, an air conditioner controller 10a-1 that controls the operation state of the air conditioner, and the operation of the illumination facility. The load facility 10a includes at least two lighting controllers 10a-2 that control the state, and a plurality of terminal devices 30-1 to 30-n having client functions. In addition, the same code | symbol is attached | subjected to what has the same structure and function as the component of the power consumption amount reduction assistance apparatus 100 demonstrated in 1st Embodiment, and the detailed description is abbreviate | omitted.

The power consumption reduction support device 200 has a server function and transmits / receives data to / from the terminal devices 30-1 to 30-n that are client terminals.
The terminal devices 30-1 to 30-n receive data transmitted from the power consumption reduction support device 200 and execute data processing according to the received data.
For example, when the screen information of the energy saving operation option screen transmitted from the power consumption reduction support device 200 is received, the terminal devices 30-1 to 30-n display the energy saving operation option screen according to the received screen information as the operation parameter. A plurality of set values are displayed in a selectable state. In addition, information indicating the set value of the operation parameter selected by the user (hereinafter referred to as “selection result information”) is transmitted to the power consumption reduction support device 200.

The display unit 250 of the power consumption reduction support device 200 generates screen information of an energy saving operation option screen that displays a plurality of sets of operation parameter setting values extracted by the extraction unit 240 in a selectable manner. 1 to 30-n is transmitted via a transmission / reception unit 270 described later.
Here, an example of the energy-saving operation option screen displayed on the terminal devices 30-1 to 30-n based on the screen information generated by the display unit 250 is shown in FIG. As shown in FIG. 6, the energy saving operation option screen B displayed on the terminal devices 30-1 to 30-n is displayed so that the user can select the environmental state of the living space desired by the user. A plurality of setting values of operation parameters extracted by the extraction unit 140 are associated with the patterns a to c).

The set value reflecting unit 260 aggregates the set values of the operation parameters for the load facility 10a selected by the plurality of terminal devices 30-1 to 30-n from the selection result information received via the transmitting / receiving unit 270 described later. The set value of the operating parameter to be reflected in the facility 10a is determined, and the determined set value of the operating parameter is transmitted to the load facility 10a via the transmission / reception unit 270.
For example, as illustrated in FIG. 6, when the user corresponding to the terminal device 30-n selects the pattern b among a plurality of options (pattern a to pattern c) displayed on the energy saving operation option screen B, the setting value is reflected. The unit 260 receives the selection result information transmitted from the terminal device 30-n via the transmission / reception unit 270, and identifies the setting value of the operation parameter corresponding to the selection result information. Similarly, the setting value reflecting unit 260 identifies the setting values of the operation parameters corresponding to the selection result information transmitted from the other terminal devices 30-1 to 30-m, and all the terminal devices 30-1 to 30-. The set values of the operation parameters corresponding to the selection result information transmitted from n are tabulated.

Here, FIG. 7 is a diagram conceptually illustrating the tabulation result of the setting values of the operation parameters corresponding to the selection result information transmitted from the terminal devices 30-1 to 30-n. As shown in FIG. 7, the setting value reflecting unit 260 totals the vote ratio of the number of selections for each option, and reflects the setting value of the operation parameter corresponding to the option with the largest selection number in the load facility 10a. It can be determined as a set value.
The set value reflection unit 260 also acquires floor information where the terminal devices 30-1 to 30-n are installed at the same time as the selection result information, and totals the vote ratio of the number of selections for each floor to the load facility 10a. The setting value of the operating parameter to be reflected may be determined for each floor.

The transmission / reception unit 270 transmits / receives data to / from the load facility 10a and the terminal device 30-n via the network 40.
Here, the power consumption reduction support device 200 and the terminal devices 30-1 to 30-n according to the present embodiment include a CPU (Central Processing Unit) 1, a storage device such as a memory and a hard disk, as shown in FIG. 2. Each function of the power consumption reduction support device 200 and the functions of the terminal devices 30-1 to 30-n, which are realized by installing a computer program (software) in a computer (hardware) including the interface unit 3. Is realized by the cooperation of various hardware resources of the computer and the computer program.
Further, the computer program described above may be provided in a state stored in a computer-readable recording medium or storage device, or may be realized via an electric communication line.

Next, the operation of the energy saving operation control system 20 in the present embodiment will be described with reference to the sequence diagram shown in FIG.
As shown in FIG. 8, the power consumption reduction support device 200 of the energy saving operation control system 20 is an operation for controlling the operation state of the air conditioning facility and the lighting facility that are operating to control the state of the environment of the living space. The parameter setting value, the actual value of the power consumption of each facility, and the current values of the indoor temperature, humidity, and illuminance of the living space are acquired, and the actual data and environmental information are stored (step S201).

  When the performance data and the environmental information are stored, the power consumption reduction support device 200 operates the air conditioner and the lighting equipment so as not to exceed the upper limit value of the power consumption based on the stored performance data and the environmental information. Operation parameter information that represents the relationship between the power consumption amount and the operation parameter setting value, and the operation parameter setting value that achieves the power consumption reduction target value included in the operation condition information Is calculated. The screen information of the energy saving operation option screen that extracts multiple set value sets according to the environmental information acquired from the calculation result of the set value set of operation parameters and displays the extracted multiple set value sets selectable Generate (step S202).

When the screen information of the energy saving operation option screen is generated, the power consumption reduction support device 200 transmits the generated screen information of the energy saving operation option screen to the terminal devices 30-1 to 30-n (step S203).
Upon receiving the screen information transmitted from the power consumption reduction support device 200, the terminal devices 30-1 to 30-n display an energy saving operation option screen based on the received screen information, and the operation selected by the user Selection result information representing a set of parameter setting values is generated (step S204).
When the selection result information is generated, the terminal devices 30-1 to 30-n transmit the generated selection result information to the power consumption reduction support device 200 (step S205).

When the power consumption reduction support device 200 receives the selection result information transmitted from the terminal devices 30-1 to 30-n, the power consumption reduction support device 200 aggregates the selection result information and determines the operation parameter setting value to be reflected in the load facility 10a. (Step S206).
When the operation parameter setting value to be reflected in the load facility 10a is determined, the power consumption reduction support device 200 transmits information indicating the determined operation parameter setting value to the load facility 10a (step S207).

When the load facility 10a receives the information indicating the set value of the operation parameter transmitted from the power consumption reduction support device 200, the load facility 10a reflects the received set value of the operation parameter in the corresponding facility and switches to the energy saving operation (step S208). ).
When each facility is switched to energy-saving operation by the load facility 10a, the load facility 10a transmits energy-saving operation start information indicating that energy-saving operation has started to the power consumption reduction support device 200, and this energy-saving operation start information is transmitted. The received power consumption reduction support device 200 transmits the energy saving operation start information to the server devices 30-1 to 30-n (step S209).

As described above, according to the present embodiment, the operation parameter setting value when executing the energy saving operation of the load facility based on the operation parameter setting value selected by the plurality of terminal devices connected via the network. Therefore, it is possible to reflect the setting value of the operation parameter corresponding to the living space where the terminal device is installed to the load facility.
Therefore, since the driving | running state of load equipment can be controlled so that it may become a desired environmental state for every living space, the sense of alienation which the user for every living space has can be eased.

  It can be used for a power management system that manages power consumption in facilities such as office buildings, commercial buildings, and factories. In particular, the power management system can be used in an energy saving operation control system that executes power demand control for achieving a target value of power consumption.

  DESCRIPTION OF SYMBOLS 100,200 ... Power consumption reduction support apparatus, 110 ... Memory | storage part, 120 ... Derivation part, 130 ... Calculation part, 140 ... Extraction part, 150, 250 ... Display part, 160, 260 ... Setting value reflection part, 270 ... Transmission / reception 1, CPU (central processing unit), 2, storage device, 3, interface unit 10, 10 a, load equipment, 10-1, air conditioning equipment, 10-2, lighting equipment, 10 a -1, air conditioning controller, 10 a -2 ... Lighting controller, 20 ... Energy-saving operation control system, 30-1 to 30-n ... Terminal device, 40 ... Network, A, B ... Energy-saving operation option screen.

Claims (8)

A storage unit that stores relationship information representing a relationship between the power consumption of the load facility that controls the environment of an arbitrary space and the setting values of a plurality of parameters that control the operation state of the load facility;
Based on the relationship information, a calculation unit that calculates a set of the setting values that does not exceed a predetermined upper limit value of the power consumption of the load facility;
An extraction unit that extracts the set of setting values according to the state of the environment of the space from the set of setting values calculated by the calculation unit;
A display unit for selectively displaying a set of a plurality of set values extracted by the extraction unit;
When one of the set value sets displayed by the display unit is selected, a set value reflecting unit that reflects the set value of the parameter corresponding to the selected set value set to the load facility; A power consumption reduction support device comprising: In the power consumption reduction support device according to claim 1,
The relation information is derived based on a set value of the parameter and actual data of power consumption of the load facility. In the power consumption reduction support device according to claim 1 or 2,
The extraction unit is configured to perform the calculation based on an execution time for controlling the operation state of the load facility with the setting value reflected by the setting value reflecting unit, and a relationship between the passage of time and the usage state of the space. A plurality of setting value sets are extracted from the calculation result of the set value sets by a unit. In the power consumption reduction support device according to any one of claims 1 to 3,
The load facility includes at least an air conditioning facility that controls a temperature environment of the space and a lighting facility that controls a lighting environment of the space,
The parameter includes at least a temperature controlled by the air conditioning equipment and an illuminance controlled by the lighting equipment. Storing relationship information representing the relationship between the power consumption of the load facility that controls the environment of an arbitrary space and the setting values of a plurality of parameters that control the operating state of the load facility;
Based on the relationship information, calculating a set of set values that does not exceed a predetermined upper limit value of the power consumption of the load facility;
Extracting the set of set values according to the state of the environment of the space from a plurality of sets of the set values calculated by the step of calculating the set of set values;
Displaying the set of set values extracted by the step of extracting the set of set values in a selectable manner;
When one of the set value sets displayed by the step of displaying the set value set so as to be selectable is selected, the set value of the parameter corresponding to the selected set value set is selected as the load facility. And a step of reflecting on the power consumption reduction support method. In the power consumption reduction support method according to claim 5,
The step of storing the relationship information is performed by a step of deriving based on the setting value of the parameter and the actual data of the power consumption of the load facility. In the power consumption reduction support method according to claim 5 or 6,
The step of extracting the set of set values includes an execution time for controlling the operation state of the load facility with the set value reflected by the step of reflecting the selected set value to the load facility, time lapse, and Consumption based on extracting a plurality of sets of set values from a plurality of sets of set values calculated by the step of calculating the set of set values based on a relationship with a use state of a space Electricity reduction support method. A server device and a plurality of terminal devices are connected via a network, and at least one set value of a parameter related to an operating state of a load facility that controls an environment of a space in which at least one of the terminal devices is installed In the energy-saving operation control system that the terminal device selects, the server device determines the parameter setting value to be reflected in the load facility, and reflects the parameter setting value in the load facility,
The power consumption reduction support device according to any one of claims 1 to 4, wherein the server device further includes a transmission / reception unit that receives data from outside and transmits data to the outside.
The display unit of the server device generates screen information of an energy saving option screen displayed in a selectable state of the set of setting values extracted by the extraction unit, and transmits the screen information to the outside via the transmission / reception unit,
The set value reflecting unit of the server device reflects the load facility based on selection result information representing a selection result of the energy saving option screen transmitted from the outside that is received via the transmitting / receiving unit. Determine the setting value,
The terminal device displays the energy saving option screen based on the screen information transmitted from the server device, and when one of the set values is selected from the displayed energy saving option screen, the parameter An energy-saving operation control system, wherein the selection result information representing a selection result of a set value set is generated and transmitted to the server device.

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