JPH11332099A - System and method for controlling service power and computer-readable recording medium with service power recorded therein - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce maximum service power, while giving as small a change to the working environment as possible by minutely controlling the load from the start of operation in addition to the conventional demand control. SOLUTION: An operation control section 7 starts an on/off control over a plurality of loads for a specified period of time in accordance with an operation control pattern corresponding to one cutback rate. During the control operation, a present service power calculating section 4 finds the service power from the start of operation to the present. A cutback rate determining section 5 finds the estimated service power, after a specified period of time by calculation from the present service power and then compares the estimated service power with the upper limit service power stored in an upper limit service power storing section 2, and when the estimated service power exceeds the upper limit service power, it outputs a signal for instructing increase in the cutback rate. The operation control section 7 switches the cutback rate, based on the instruction signal from the cutback rate determining section 5 and thereby performs an on/off control in accordance with the operation control pattern corresponding to the cutback rate.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power consumption control method and a computer readable recording medium for recording a power consumption control program in a power facility having a plurality of loads.

[0002]

2. Description of the Related Art At present, electricity rates in Japan are composed of two rate systems, a basic rate and a usage rate. The contracted power on which the basic rate is calculated is determined through consultation with a power company. Has been determined. In other words, the maximum usage contract power is concluded with the power company for each customer, and a basic fee determined according to the contract power and a usage fee according to the power consumption are paid. .

[0003] Of these, the basic fee is determined as follows. In other words, a monthly basic charge is set by multiplying the power consumption in the month with the largest power consumption among the power consumptions in the past year by a certain amount or the like. For example, if the power consumption in August is the maximum and this is 500 kWH, the basic charge is: basic charge = 500 kW × 1,780 yen (basic charge unit price)
X 0.85 (power factor discount) x 1.05 (consumption tax rate) = 79
It is 4,325 yen / month.

On the other hand, if it is assumed that the maximum power consumption can be reduced by 10%, 500 kWH becomes 450 kWH, and the basic charge at this time is: basic charge = 450 kW × 1,260 yen (basic unit price)
X 0.85 (power factor discount) x 1.05 (consumption tax rate) = 50
6,048 yen / month.

[0005] That is, by reducing the power consumption by 10%, in the above example, the basic monthly charge is 288,2.
77 yen (794, 325 yen-506,048 yen) can be saved. Further, by reducing the power consumption by 10%, it is possible to save the usage fee.

Therefore, a power consumption control method (demand control method) focusing on the effect of reducing the power consumption by reducing the power consumption has been conventionally proposed, and a demand control device realizing this method has been proposed. Is also provided.

A conventional demand control device measures the amount of power used, and when the measured value exceeds a preset power amount, stops a load (for example, an air conditioner) according to a preset program. ing. That is, the normal operation is performed until the used power amount reaches the set power amount, and the substantial demand control is executed after the set power amount is exceeded. In other words, since the conventional demand control device focuses on suppressing the power consumption to the demand value (the upper limit power consumption), the operation of the air conditioner is stopped after approaching the vicinity of the demand value. Control is performed.

[0008] Therefore, the power control waveforms of the conventional demand control device, as indicated by one-dot chain line in FIG. 8, first, close to the demand value W _H in normal operation, exceeds the set power amount W1, at which time For example, if the first air conditioner is stopped, and if the demand value _WH is still likely to be exceeded, then the second air conditioner is stopped, then the third air conditioner is stopped, and so on. stop the sequential air conditioner, which is ultimately consumed electric energy to limit the demand value W _H.

[0009]

Therefore, for example, the first
The first air conditioner normally operates for the first 15 minutes and stops for the next 15 minutes, the second air conditioner normally operates for the first 20 minutes and stops for the next 10 minutes, and the third air conditioner operates for the first 15 minutes. The operation control is such that the normal operation is performed for 25 minutes and the next 5 minutes are stopped. Therefore, for example, the first air conditioner has a problem that the indoor temperature (sensible temperature) changes greatly due to a particularly long stoppage time, resulting in a very bad workplace environment.

The present invention has been made to solve such a problem. The purpose of the present invention is to minimize the change in the work environment by controlling the load from the start of operation in addition to the conventional demand control. An object of the present invention is to provide a power consumption control system, a power consumption control method, and a computer-readable recording medium on which a power consumption control program is recorded in which the maximum power consumption is reduced by not giving it.

[0011]

According to a first aspect of the present invention, there is provided a power consumption control system for controlling the power consumption of a power facility having a plurality of loads. Operation control pattern storage means for storing a plurality of types of operation control patterns of each load corresponding to the reduction rate of the electric energy, use upper limit electric energy storage means for storing data of the upper limit electric energy for a certain period of time, and the plurality of loads Current power consumption calculation processing means for starting on / off operation control for a fixed time in accordance with an operation control pattern corresponding to one reduction rate, and calculating the power consumption from the start of operation to the current time during the control. Calculating the expected power consumption after a certain period of time from the power consumption calculated by the current power consumption calculation processing means; Comparing the use upper limit power amount stored in the amount storage means with the reduction rate determination processing means for outputting a signal instructing an increase in the reduction rate when the predicted use power amount exceeds the use upper limit power amount. An operation control means for performing on / off operation control in accordance with an operation control pattern corresponding to the reduction rate by switching the reduction rate based on an instruction signal from the reduction rate determination processing means.

According to a second aspect of the present invention, there is provided a power consumption control method for controlling the power consumption of a power facility having a plurality of loads, wherein each load corresponding to the power consumption reduction rate is controlled. A plurality of types of operation control patterns are prepared, and the on / off operation control for a certain period of time is started for the plurality of loads according to the operation control pattern corresponding to one reduction rate. The amount of power is calculated by calculation, and the estimated amount of power to be used after a certain period of time is calculated from the obtained amount of power to be used, and the reduction is performed so that the obtained estimated amount of used power does not exceed a preset upper limit of amount of power to be used. By switching the rate, on / off operation control is performed according to an operation control pattern corresponding to the reduction rate.

According to a third aspect of the present invention, there is provided a power consumption control system and a power consumption control method, wherein a plurality of loads are turned on / off for a predetermined period of time from the beginning of operation according to an operation control pattern corresponding to one reduction rate. Start off operation control,
During this control, the amount of power used from the start of operation to the current time is obtained by calculation.

Further, in the power consumption control system and the power consumption control method according to a fourth aspect of the present invention, the operation control pattern shifts the timing of turning off each load by a predetermined time. The reduction rate is increased by reducing the shift in the timing of turning off each load.

According to a fifth aspect of the present invention, there is provided a computer readable recording medium having a power consumption control program recorded thereon, wherein a plurality of loads provided in a power facility are reduced by a plurality of types of power consumption reduction rates. A procedure for starting on / off operation control for a certain period of time in accordance with an operation control pattern corresponding to one of the reduction rates, and calculating the amount of electric power used from the start of operation to the current time during the on / off operation control. A step of calculating, and a step of calculating a predicted use power amount after a predetermined time from the obtained use power amount, and a step of calculating the reduction rate so that the obtained predicted use power amount does not exceed a preset use upper limit power amount. By switching
ON / OFF according to the operation control pattern corresponding to the reduction rate
The procedure for performing off-operation control and the on / off
A program for causing a computer to execute a procedure for starting the off-operation control with an operation control pattern according to the on / off operation control for a predetermined period immediately before the off-operation control is recorded.

In the power consumption control system and power consumption control method of the present invention, the reduction rate is 10%, 20
%, 30%, etc., and when 3 minutes is set as the off time of each load in the operation control pattern, the load is finely controlled from the start of operation so that the working environment is not changed as much as possible. Thus, the maximum power consumption can be reduced.

In the power consumption control system and power consumption control method according to the present invention, the reduction rate is 40% or 50%.
If the on / off operation control is set to 15 minutes as one cycle and the on / off time is set according to the reduction rate, the load may be frequently turned on / off even if the reduction rate is high. Therefore, it is excellent in durability.

In the power consumption control system and the power consumption control method according to the present invention, the on / off operation control for the next predetermined time is started with an operation control pattern according to the on / off operation control for the immediately preceding predetermined time. In that case, the subsequent control becomes stable.

In the power consumption control system and power consumption control method of the present invention, the load is an air conditioner having an outdoor unit and an indoor unit, and only the outdoor unit is controlled to be turned on / off. In this case, the maximum power consumption can be reduced without changing the work environment much.
In addition, even if the outdoor unit is turned off, the indoor unit can maintain the air blowing state, so that a person in the room can perform work without much concern that the air conditioner is stopped. .

[0020]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an electrical configuration of a system that executes the power consumption control method of the present invention. The system includes a display input unit 1 having a CRT, a touch panel, a keyboard, and the like for setting and inputting a target use upper limit electric energy (demand value) _WH and a reduction rate at the start of operation, and a set use upper limit electric power. and the upper limit electric energy storage section 2 for storing a quantity W _H, the load (air-conditioner having an outdoor unit and an indoor unit in the present embodiment) A1, A2 ·
..Electric energy measuring units 3, 3,.
And the current power consumption W of the air conditioners A1, A2...
_n , an upper limit power amount W _H stored in the upper limit power amount storage unit 2 and a current power amount W calculated by the current power amount calculator 4. _n , a reduction rate determination processing unit 5 that determines a reduction rate, an operation control pattern storage unit 6 that stores operation control patterns of all the air conditioners A1, A2,..., a display input unit 1, and a reduction rate determination. Processing unit 5, operation control pattern storage unit 6
ON / OFF of each air conditioner A1, A2.
And an operation control unit 7 for performing off-operation control.

However, in the present embodiment, the operation control unit 7 controls ON / OFF of only the outdoor units of the air conditioners A1, A2,..., And blows air to the indoor units even when the outdoor units are turned off. Assumed to be performed.

The use upper limit electric energy storage unit 2 includes a display input unit.
Use upper limit electric energy W input from 1 _HIs stored. An example
For example, in the case of the prior art,
If the amount is 500 kW and you want to reduce it by 10%
Converts 450 kWH (ie, 225 kW in 30 minutes)
Use upper limit electric energy W_HAs the upper limit electric energy storage unit 2
To pay.

The current power consumption calculation processing unit 4 calculates the total amount of the air conditioners A1, A2,... Based on the measured values of the power consumption measurement units 3, 3,. It calculates the current power usage W _n, and gives the calculation results to the reduction ratio determining section 5. The current power consumption calculation processing unit 4 specifically converts the measured power amount into a pulse and outputs the pulse. For example, it outputs one pulse at 1 kW.

The reduction rate determination processing unit 5 performs the current power consumption
The current power consumption (pulse) calculated by the arithmetic processing unit 4
The amount of power converted from the number) W_n30 minutes later, based on
Predicted electric energy W_NIs calculated, and the calculation result and the upper limit
Upper limit electric power W stored in power storage unit 2_HAnd
Then, the reduction rate is determined. That is, it is shown by a solid line in FIG.
Thus, the total current power consumption W_nAct
To calculate the gradients θ1, θ2,.
And calculate the power consumption 30 minutes later from the calculation result.
And the predicted value (predicted power consumption) W_NUse set by
Upper limit electric energy (W _n= 225 kW)
An instruction to increase the deceleration is given to the operation control unit 7.

The operation control pattern storage 6 stores ON / OFF operation control patterns of air conditioners (specifically, compressors as outdoor units) A1, A2,... Corresponding to the reduction rate. . The on / off operation control pattern will be described later in detail.

The operation control section 7 reads an operation control pattern with a reduction rate of 10% from the operation control pattern storage section 6 based on the reduction rate (for example, 10%) input from the display input section 1, and reads the read operation. The on / off operation of each of the air conditioners A1, A2,... Is controlled according to the control pattern.

2 to 6 show an example of an ON / OFF operation control pattern of each of the air conditioners A1, A2,... At each reduction rate. FIG. 2 shows a case where the reduction rate is 10%.
4 shows a case where the reduction rate is 20%, FIG. 4 shows a case where the reduction rate is 30%, FIG. 5 shows a case where the reduction rate is 40%, and FIG. 6 shows a case where the reduction rate is 50%. However, each figure shows 30 minutes as one cycle time. Air conditioners A1, A2,
.. Indicate the case of 10 units and the case of 20 units in each figure. Hereinafter, each case will be described separately.

(1) When the air conditioners A1, A2... Are 10 minutes and the elimination rate is 10% [FIG. 2 (a)] The first air conditioner A1 is turned off for the first 3 minutes, and then turned on for 27 minutes. Then, the next air conditioner A2 is turned on for the first 3 minutes, turned off for the next 3 minutes, and turned on for the next 24 minutes. The next air conditioner A3 is turned on for the first 6 minutes, turned off for the next 3 minutes, and turned on for the next 21 minutes. I do. Thus, the timing of turning off each of the air conditioners A1 to A10 is shifted by three minutes, and the last air conditioner A10 is turned on for the first 27 minutes and turned off for the last three minutes. Thereby, 10% of the power consumption when the air conditioners A1 to A10 are kept on for 30 minutes can be reduced.

(2) When the air conditioners A1, A2... Are 20 minutes and the reduction rate is 10% [FIG. 2 (b)] The first air conditioner A1 is turned off for the first 3 minutes, and then turned on for the next 27 minutes. The next air conditioner A2 is turned on for the first 1.5 minutes, turned off for the next 3 minutes, and then turned on for 25.5 minutes. The next air conditioner A3 is turned on for the first 3 minutes, turned off for the next 3 minutes, and then turned off for 24 minutes. Turn on for a minute. In this way, the timing of turning off each of the air conditioners A1 to A20 is shifted by 1.5 minutes, and the last air conditioner A20 is turned off for the first 1.5 minutes, turned on for the next 27 minutes, and turned on for the last 1.5 minutes. Turn off for a minute.

(3) When the number of air conditioners A1, A2,... Is 10 and the reduction rate is 20% [FIG. 3 (a)] The first air conditioner A1 is off for the first 3 minutes, then on for 12 minutes, and then Off for 3 minutes, then turn on for 12 minutes, then turn on the next air conditioner A2 for the first 1.5 minutes, turn off for the next 3 minutes, turn on for 12 minutes, turn off for the next 3 minutes, turn on for 12 minutes ,
The next air conditioner A3 is on for the first 3 minutes, off for the next 3 minutes,
Turn on for the next 12 minutes, turn off for the next 3 minutes, and turn on for the next 9 minutes. In this manner, the timing of turning off each of the air conditioners A1 to A10 is shifted by 1.5 minutes, and the last air conditioner A10 is turned off for the first 15 minutes, turned on for the next 12 minutes, turned off for the next 3 minutes, and thereafter For 12 minutes and off for the last 1.5 minutes.

(4) When the air conditioners A1, A2... Are 20 minutes and the reduction rate is 20% (FIG. 3 (b)) The first air conditioner A1 is off for the first 3 minutes, then on for 12 minutes, and then The air conditioner A2 is turned on for the first 0.75 minutes, turned off for the next 3 minutes, and turned off for the next 12 minutes.
Minutes on, off for the next 3 minutes, then on for 11.25 minutes, the next air conditioner A3 is on for the first 1.5 minutes, off for the next 3 minutes, then on for 12 minutes, off for the next 3 minutes,
Then, it is turned on for 10.5 minutes. In this way, the timing of turning off each of the air conditioners A1 to A20 is shifted by 0.75 minutes, and the last air conditioner A20 is set to the first 2.25 minutes.
Off for the next 12 minutes, off for the next 3 minutes, turn on for the next 12 minutes, and turn off for the last 0.75 minutes.

(5) When the air conditioners A1, A2... Are 10 minutes and the reduction rate is 30% [FIG. 4 (a)] The first air conditioner A1 is off for the first 3 minutes, then on for 7 minutes, and then Off for 3 minutes, then on for 7 minutes, off for the next 3 minutes, then 7
For one minute, the next air conditioner A2 is on for the first minute, off for the next three minutes, then on for seven minutes, off for the next three minutes,
The air conditioner A3 is turned on for the first two minutes, turned on for the next three minutes, turned off for the next three minutes, turned on for the next six minutes, and turned on for the next three minutes.
Turn off for a minute, then turn on for 7 minutes, turn off for the next 3 minutes, turn on for the next 7 minutes, turn off for the next 3 minutes, turn on for the next 5 minutes. In this way, the timing of turning off each of the air conditioners A1 to A10 is shifted by one minute, and the last air conditioner A
10 is off for the first 2 minutes, on for the next 7 minutes, off for the next 3 minutes, on for the next 7 minutes, off for the next 3 minutes, on for the next 7 minutes, and off for the last minute.

(6) When the air conditioners A1, A2,... Are 20 minutes and the elimination rate is 30% [FIG. 4 (b)] The first air conditioner A1 is off for the first 3 minutes, then on for 7 minutes, Off for the next 3 minutes, then on for 7 minutes, off for the next 3 minutes, then 7
Minute, the next air conditioner A2 is turned on for the first 0.5 minutes, turned off for the next 3 minutes, turned on for the next 7 minutes, turned off for the next 3 minutes, turned on for the next 7 minutes, turned off for the next 3 minutes, and thereafter The air conditioner A3 is turned on for 6.5 minutes, the next air conditioner A3 is turned on for the first minute, turned off for the next 3 minutes, turned on for the next 7 minutes, turned off for the next 3 minutes, turned on for the next 7 minutes, turned off for the next 3 minutes, and then For 6 minutes. Thus, each of the air conditioners A1 to A20
The timing to turn off is shifted by 0.5 minutes,
The last air conditioner A20 is off for the first 2.5 minutes, then on for 7 minutes, off for the next 3 minutes, then on for 7 minutes, off for the next 3 minutes, then on for 7 minutes, then for 0.5 minutes Turn off.

(7) In the case of 10 air conditioners A1, A2... And a reduction rate of 40% [FIG. 5 (a)] In this case, if the off time of each of the air conditioners A1 to A10 is set to 3 minutes, The number of times of ON / OFF switching increases, which is not preferable in terms of mechanical durability. Therefore, when the reduction rate is 40% or more, 1
The on / off time is determined with 5 minutes as one unit. That is, when the reduction rate is 40%, the off time is 6 minutes (15 × 0.4), and the on time is 9 minutes (15 × 0.6).

Accordingly, the first air conditioner A1 is turned off for the first 6 minutes, turned on for the next 9 minutes, turned off for the next 6 minutes, turned on for the next 9 minutes, and the next air conditioner A2 is turned on for the first 1.5 minutes. Turn off for the next 6 minutes, turn on for the next 9 minutes, turn off for the next 6 minutes, turn on for the next 7.5 minutes, turn on the next air conditioner A3 for the first 3 minutes, turn off for the next 6 minutes, then turn on for 9 minutes Off for the next 6 minutes, then turn on for the next 6 minutes. In this way, the timing of turning off each of the air conditioners A1 to A10 is shifted by 1.5 minutes, and the last air conditioner A10 is turned off for the first 4.5 minutes, turned on for the next 9 minutes, and turned off for the next 6 minutes. , Then on for 9 minutes and off for the last 15 minutes.

(8) When the air conditioners A1, A2... Are 20 minutes and the reduction rate is 40% [FIG. 5 (b)] The first air conditioner A1 is off for the first 6 minutes, then on for 9 minutes, then For 6 minutes and then for 9 minutes, the next air conditioner A2 is on for the first 0.75 minutes, off for the next 6 minutes, then on for 9 minutes, off for the next 6 minutes, and then for 8.25 minutes Turn on,
The next air conditioner A3 is turned on for the first 1.5 minutes, turned off for the next 6 minutes, turned on for the next 9 minutes, turned off for the next 6 minutes, and turned on for the next 7.5 minutes. Thus, each of the air conditioners A1 to A
20 is turned off by 0.75 minutes, and the last air conditioner A20 is turned off for the first 5.25 minutes,
Turn on for the next 9 minutes, turn off for the next 6 minutes, turn on for the next 9 minutes, and turn off for the last 0.75 minutes.

(9) When the number of air conditioners A1, A2,... Is 10 and the reduction rate is 50% (FIG. 6 (a)). The on / off time is determined as follows. In other words, the extinction rate 50%
In this case, the off time is 7.5 minutes (15 × 0.5), and the on time is 7.5 minutes (15 × 0.5).

Therefore, the first air conditioner A1 is the first 7.5
Minute, then on for 7.5 minutes, off for the next 7.5 minutes, then on for 7.5 minutes, the next air conditioner A2 is on for the first 1.5 minutes, off for the next 7.5 minutes, The air conditioner A3 is turned on for the next 7.5 minutes, turned off for the next 7.5 minutes, turned on for the next 6 minutes, turned on for the first 3 minutes, turned off for the next 7.5 minutes, and turned on for the next 7.5 minutes. And the next 7.5
Off for 4.5 minutes and then on for 4.5 minutes. In this way, the timing of turning off each of the air conditioners A1 to A10 is shifted by 1.5 minutes, and the last air conditioner A10 is turned off for the first 6 minutes, turned on for the next 7.5 minutes, and turned on for the next 7.5. Off for 7.5 minutes, then on for 7.5 minutes, then off for the last 15 minutes.

(10) When the number of air conditioners A1, A2... Is 20 and the reduction rate is 50% [FIG. 6 (b)] The first air conditioner A1 is off for the first 7.5 minutes, and then 7.5 Minutes on, then off for the next 7.5 minutes, then on for 7.5 minutes, the next air conditioner A2 is on for the first 0.75 minutes, off for the next 7.5 minutes, then on for 7.5 minutes, Turn off for the next 7.5 minutes, turn on for the next 6.75 minutes, then turn on air conditioner A3 for the first 15 minutes, turn off for the next 7.5 minutes, turn on for the next 7.5 minutes, turn on the next 7.5 Off for 6 minutes and then on for 6 minutes. Thus, the timing of turning off each of the air conditioners A1 to A20 is shifted by 0.75 minutes, and the last air conditioner A20 is turned off for the first 6.75 minutes, turned on for the next 7.5 minutes, and turned on for the next 7 minutes. Off for 5 minutes, then on for 7.5 minutes, off for last 0.75 minutes.

In this embodiment, the above (2),
Each air conditioner A in the case of (4), (6), (8), and (10)
The time intervals for turning off 1 to A20 are (1), (3),
Although described as half of the cases of (5), (7) and (9), a group of the air conditioners A1 to A10 and the air conditioners A11 and A2
A group of zeros may have exactly the same on / off operation control pattern. That is, the air conditioners A1 and A11, A2 and A1
2,..., A10 and A20 may have exactly the same operation control pattern. In addition, off time is 3 minutes, 6
The minutes are not limited to 7.5 minutes, and may be set arbitrarily.

The operation control patterns stored in the operation control pattern storage section 6 can be arbitrarily set and changed by an operation from the display input section 1.

Next, a method of controlling the amount of power used in the system having the above configuration will be described with reference to the flowchart shown in FIG.

The user operates the keyboard or the touch panel of the display / input unit 1 to use the upper limit electric energy W _H (for example, 4 _H ).
50 kWH, ie 225 kW in 30 minutes). The upper limit power usage W _H (= 225 kW) is stored in the upper limit power storage unit 2 (step S1). Further, the user operates the keyboard and touch panel of the display input unit 1 to set the reduction rate at the time of starting the operation of each of the air conditioners A1, A2,... (Step S2). In this case, the reduction rate can be set to 0% (that is, it can be started in a normal operation state), but in this embodiment, it is set to 10%. The input use upper limit electric energy W _H is stored in the use upper limit electric energy storage unit 2. The input reduction rate (10%) is given to the operation control unit 7.

As a result, when the system is operated, the operation control unit 7 reads out the operation control pattern corresponding to the input reduction rate of 10% from the operation control pattern storage unit 6 and reads each air conditioner (specifically, The operation of the outdoor units (compressors) A1, A2,... Is started according to the operation control pattern shown in FIG. 2A (step S3).

At this time, the current power consumption calculation processing unit 4
Adds the electric power consumption measured by the power measurement unit 3, 3 ··· and calculates the current power usage W _n (step S5), and gives a reduction ratio determination processing unit 5 the computation result .

The reduction ratio determination processing unit 5, based on the current power usage W _n calculated by the currently used power amount calculation processing unit 4 calculates the predicted use power amount W _N after the start of operation 30 minutes (step S6). That is, as shown by the solid line in FIG. 8, the amount of power consumption is calculated immediately after the start of operation, the gradient θ1 of the power usage curve t is calculated, and the calculation result (gradient θ
The power consumption 30 minutes after 1) is predicted.

Then, the result of the calculation (the estimated power consumption W)
_N ) and the upper limit power usage _WH stored in the upper limit power storage unit 2 (step S7), and the subsequent reduction rate is determined.

[0048] That is, when using predicted power amount W _N does not exceed the upper limit use electric energy W _H is the operation proceeds to step S8, continues the reduction rate of 10% operation control pattern. If the predicted use power amount W _N exceeds the use upper limit power amount W _H , the operation proceeds to step S9, and an instruction to increase the reduction rate from 10% to 20% is given to the operation control unit 7.

The operation control unit 7 advances the operation from step S10 to step S3 according to the instruction from the reduction rate determination processing unit 5, and stores the 20% reduction rate from the operation control pattern storage unit 6.
Of the air conditioners A1, A2,... According to the read operation control pattern.
・ Perform on / off operation control.

Thereafter, the current power consumption calculation processing unit 4
Current power consumption W at 20% reduction rate _nIs calculated (step
Step S5), and gives the calculation result to the reduction rate determination processing unit 5.
You. The reduction rate determination processing unit 5 receives the given current power consumption.
W_nBased on the estimated power consumption 30 minutes after the start of operation
W_NIs calculated again (step S6), and the calculation result and
Use upper limit electric energy stored in the use upper limit electric energy storage unit 2
W_H(Step S7), and the subsequent reduction rate
decide. That is, based on the gradient θ2 of the power consumption curve t,
Estimated power consumption W after 30 minutes calculated_NBut on use
Limited power W_HIf not exceed 20% reduction rate
The operation control pattern is continued (step S8), and
Power measurement W_NIs the upper limit of electric power usage W_HIf
Driving instructions to increase the reduction rate from 20% to 30%
This is given to the control unit 7 (step S9).

The operation control unit 7 advances the operation from step S10 to step S3 according to the instruction from the reduction rate determination processing unit 5, and stores the 30% reduction rate from the operation control pattern storage unit 6.
Of the air conditioners A1, A2,... According to the read operation control pattern.
・ Perform on / off operation control.

Such processing is repeated, and step S7
It is intended to suppress the reduction rate if necessary 40%, continue to increase to 50% (step S9), and the electric power consumption W _n of 30 minutes after start of the operation using the upper limit power amount W in _H discretion in .

After a lapse of 30 minutes, the operation proceeds from step S4 to step S12. If an instruction to stop the operation of the entire system is not input, the operation proceeds to step S13 to reduce the amount of time before the lapse of 30 minutes. According to the rate operation control pattern, the operation control for the next 30 minutes is started. In addition,
If the predicted use power amount W _N of 30 minutes after the step S7 even if the reduction rate of 50 percent more than the upper limit electric energy W _H is the operation proceeds from step S10 to step S11, the air conditioner A1 , A2 ... are stopped.

As described above, according to the power consumption control system and the power consumption control method of the present invention, demand control is performed immediately after the start of operation, and
For 1, A2..., The off time is 3 minutes to 7.5.
Since the off-operation control is performed for a short time, such as minutes, the maximum power consumption can be reduced without changing the work environment (mainly, the indoor temperature) much. In this case, even if the outdoor units of the air conditioners A1, A2,... Are turned off, the indoor units can maintain the air blowing state, so that the air conditioners A1, A2,. You can do the job without worrying too much about what you are doing.

The sequence control of the air conditioners A1, A2,... Consisting of steps S1 to S13 is realized by a power consumption control program, and the program is provided by being recorded on a recording medium.

[0056]

According to the first aspect of the present invention, there is provided an electric power consumption control system, comprising: an operation control pattern storing means for storing a plurality of types of operation control patterns of respective loads corresponding to a reduction rate of electric power; Use upper limit electric energy storage means for storing data of the upper limit electric energy, current electric energy calculation processing means for calculating the electric energy used from the start of operation to the current time, and current electric energy calculation processing means The expected power consumption after a certain period of time is calculated from the power consumption, and the calculated predicted power consumption is compared with the upper-limit power stored in the upper-limit power storage unit. Rate reduction processing means for outputting a signal for instructing an increase in the reduction rate when the power consumption exceeds the upper limit power consumption, and cuts off the reduction rate based on the instruction signal from the reduction rate determination processing means. By changing, a configuration in which a driving control means for performing on / off operation control in accordance with operation control pattern corresponding to the reduction rate. In the power consumption control method according to the second aspect of the present invention, a plurality of types of operation control patterns of each load corresponding to the reduction rate of the power amount are prepared, and the operation of the plurality of loads corresponding to one reduction rate is performed. On / off operation control for a certain period of time is started according to the control pattern. During the control, the amount of power consumption from the start of operation to the current time is obtained by calculation, and the estimated amount of power to be used after a certain period of time from the obtained amount of power consumption Is calculated, and the reduction rate is switched so that the calculated predicted use power does not exceed a preset use upper limit power, so that the on / off operation control is performed according to the operation control pattern corresponding to the reduction rate. Is what you do. In other words, in addition to the conventional demand control, by controlling the load finely from the start of operation, it is possible to reduce the maximum power consumption while minimizing the change at the workplace boundary.

Further, on / off operation control of a plurality of loads according to the third aspect of the present invention is started for a certain period of time according to an operation control pattern corresponding to one reduction rate from the beginning of operation. Since the amount of power consumption from the start to the current time is calculated, the load is finely controlled from the start of operation to reduce the maximum power consumption by minimizing the change in the work environment. Can be planned.

In the power consumption control system and the power consumption control method according to a fourth aspect of the present invention, the operation control pattern shifts the timing of turning off each load by a predetermined time. The reduction rate is increased by reducing the shift in the timing at which each load is turned off. Therefore, even when the reduction rate is high, the load is not frequently turned on / off. It is excellent.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating an electrical configuration of a system that executes a power consumption control method according to the present invention.

FIG. 2A is a timing chart showing an example of an ON / OFF operation control pattern of each air conditioner at 10 air conditioners at a reduction rate of 10%, and FIG. 2B is a timing chart showing a reduction rate of 10 at 20 air conditioners; 6 is a timing chart showing an example of an on / off operation control pattern of each air conditioner in%.

3A is a timing chart showing an example of an ON / OFF operation control pattern of each air conditioner at 10 air conditioners and a reduction rate of 20%, and FIG. 6 is a timing chart showing an example of an on / off operation control pattern of each air conditioner in%.

4A is a timing chart showing an example of an ON / OFF operation control pattern of each air conditioner at 10 air conditioners and a reduction rate of 30%, and FIG. It is a timing chart which shows an example of ON / OFF operation control pattern of each air conditioner in 30%.

FIG. 5A is a timing chart showing an example of an ON / OFF operation control pattern of each air conditioner at 10 air conditioners and a reduction rate of 40%, and FIG. 5B is a timing chart showing a reduction rate of 40 with 20 air conditioners. 6 is a timing chart showing an example of an on / off operation control pattern of each air conditioner in%.

FIG. 6A is a timing chart showing an example of an ON / OFF operation control pattern of each air conditioner when the number of air conditioners is 10 and the reduction rate is 50%, and FIG. 6 is a timing chart showing an example of an on / off operation control pattern of each air conditioner in%.

FIG. 7 is a flowchart illustrating the operation of a system that executes the power consumption control method of the present invention.

FIG. 8 is a graph showing a power control waveform in the system of the present invention and a power control waveform in the conventional demand control device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Display input part 2 Use upper limit electric energy storage part 3 Electric power measurement part 4 Current electric energy consumption calculation processing part 5 Reduction rate determination processing part 6 Operation control pattern storage part 7 Operation control parts A1-A20 Air conditioner

Claims (5)

[Claims] 1. A system for controlling the amount of electric power used by an electric power facility having a plurality of loads, comprising: an operation control pattern storing means for storing a plurality of types of operation control patterns of each load corresponding to a reduction rate of the electric energy; A use upper limit electric energy storage unit for storing data of a use upper limit electric energy for a certain time; and starting on / off operation control of the plurality of loads for a certain time according to an operation control pattern corresponding to one reduction rate;
During the control, a current power consumption calculation means for calculating the power consumption from the start of operation to the current time, and a predicted power consumption after a predetermined time from the power consumption calculated by the current power consumption calculation means Calculate the quantity by calculation,
Comparing the obtained predicted usage power with the usage upper limit stored in the usage upper limit storage means, and when the predicted usage exceeds the usage upper limit, increases the reduction rate. Reduction rate determination processing means for outputting a command signal; and switching the reduction rate based on an instruction signal from the reduction rate determination processing means to perform on / off operation control in accordance with an operation control pattern corresponding to the reduction rate. An electric power consumption control system comprising an operation control unit. 2. A method for controlling the amount of power used by a power facility having a plurality of loads, comprising preparing a plurality of types of operation control patterns for each load corresponding to a reduction rate of the amount of power, and setting the plurality of loads to one. On / off operation control for a certain period of time is started according to the operation control pattern corresponding to the two reduction rates, and during that control, the amount of power consumption from the start of operation to the current time is calculated, and a constant value is obtained from the obtained power consumption. The operation control pattern corresponding to the reduction rate is obtained by calculating the predicted use power amount after time by calculation and switching the reduction rate so that the obtained predicted use power amount does not exceed the preset use upper limit power amount. Controlling the on / off operation according to the following. 3. An on / off operation control for a certain period of time is started from the beginning of operation of a plurality of loads according to an operation control pattern corresponding to one reduction rate, and during the control, the power consumption from the operation start to the current time. 3. The power consumption control system and power consumption control method according to claim 1, wherein the power consumption is calculated by calculation. 4. The operation control pattern shifts the timing of turning off each load by a fixed time,
4. The power consumption control system and power consumption control method according to claim 1, wherein the increase in the reduction rate is performed by reducing a difference in timing of turning off each load. 5. 5. A method according to claim 1, wherein a plurality of loads provided in the power equipment are turned on / off for a certain period of time in accordance with an operation control pattern corresponding to one of the plurality of types of reduction rates of the amount of power.
A procedure for starting off operation control, a procedure for calculating the amount of power consumption from the start of operation to the current time during the on / off operation control, and a predicted power consumption for a certain time after the obtained power consumption And calculating the on / off operation in accordance with the operation control pattern corresponding to the reduction rate by switching the reduction rate so that the calculated predicted power consumption does not exceed a preset upper limit power usage. A program for causing a computer to execute a control procedure, a procedure for starting the next on / off operation control for a certain period of time with an operation control pattern according to the on / off operation control for a certain period immediately before the control process, and Computer readable recording medium.