JP2013240137A - Demand monitoring device and demand monitoring method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable an operator to grasp the estimation timing of an estimated value of an integrated value at a glance.SOLUTION: The demand monitoring device includes integrated value estimation means 3 that estimates an integrated value of use power amount after a predetermined time from a use power amount Wt read by use power amount reading means 1 and an integrated value ΣW calculated by integrated value calculation means 2. Estimated integrated value display means 5 displays an estimated value ΣWoutput from the integrated value estimation means 3 at the time that an integrated value is estimated by the integrated value estimation means 3.

Description

  The present invention relates to a demand monitoring apparatus and a demand monitoring method for displaying a demand curve indicating a transition of an integrated value of power consumption during a predetermined period.

In the demand monitoring device disclosed in the following Patent Document 1, the integrated value of the used electric energy measured at a predetermined cycle is calculated, and the used electric energy and the integrated value of the used electric energy measured at a predetermined cycle are calculated. Based on this, there is provided means for predicting an integrated value of the amount of power used after a predetermined time.
In addition, the demand monitoring device includes means for displaying a demand curve indicating a transition of the integrated value of the used electric energy for a predetermined period and displaying a predicted value of the integrated value of the used electric energy.

Here, FIG. 5 is an explanatory diagram showing an example of a demand curve.
In this demand monitoring apparatus, a demand curve as shown in FIG. 5 is displayed, and the position where the predicted value of the integrated value of the used electric energy is displayed is the current time (the estimated value of the used electric energy is predicted). It is not on the time) but on the time after the current time (the end time of the predetermined period).

JP-A-8-63132 (paragraph number [0006], FIGS. 1 and 2)

  Since the conventional demand monitoring apparatus is configured as described above, the predicted value of the integrated value of the used electric energy is displayed, but the position where the predicted value of the integrated value of the used electric energy is displayed is the current time ( It is not on the time at which the integrated value of power consumption is predicted) but on a time after a predetermined time from the current time. For this reason, even if the operator looks at the predicted value displayed, there is a problem that it is impossible to grasp at a glance at which point the predicted value is.

  The present invention has been made in order to solve the above-described problems, and a demand monitoring apparatus and a demand monitoring device that enable an operator to grasp at a glance which predicted value is an estimated value of an integrated value. The purpose is to obtain a method.

  The demand monitoring apparatus according to the present invention integrates the used power amount reading means for reading the used power amount measured at a predetermined cycle, the used power amount read by the used power amount reading means, and An integrated value calculating means for calculating the integrated value, an integrated value for predicting the integrated value of the used electric energy after a predetermined time from the used electric energy read by the used electric energy reading means and the integrated value calculated by the integrated value calculating means A value predicting means, and a demand curve displaying means for displaying a demand curve indicating a transition of the integrated value calculated by the integrated value calculating means while displaying the target power consumption for a predetermined period, and the predicted integrated value displaying means The integrated value of the used electric energy predicted by the integrated value predicting means is displayed on the time when the integrated value is predicted by the integrated value predicting means.

  The demand monitoring apparatus according to the present invention is provided with a prediction history line display means for displaying a prediction history line indicating a transition of the integrated value of the used electric energy predicted by the integrated value prediction means.

  The demand monitoring apparatus according to the present invention is such that the prediction history line display means displays a line indicating the offset range of the target power consumption together with the prediction history line.

  In the demand monitoring method according to the present invention, the used electric energy reading means reads the used electric energy, which is measured at a predetermined cycle, and the integrated value calculating means reads at the used electric energy reading process step. Integrated value calculation processing step for calculating the integrated value of the used electric energy, and the integrated value predicting means calculates the used electric energy and the integrated value read in the used electric energy reading processing step. The integrated value prediction processing step for predicting the integrated value of the used electric energy after a predetermined time from the integrated value calculated in the processing step, and the demand curve display means display the target used electric energy for the predetermined period, and the integrated value The demand curve display processing step for displaying a demand curve indicating the transition of the integrated value calculated in the calculation processing step, and the predicted integrated value display means are integrated value prediction processing step On the time when the predicted integrated value has been performed, it is obtained so as to comprise a prediction integrated value display processing step of displaying the integrated value of the predicted amount of electric power used in the integrated value prediction processing step.

  According to the present invention, since the integrated value of the predicted power consumption is displayed on the time when the integrated value is predicted, the integrated value predicted at which point the operator looks at There is an effect that it is possible to grasp whether the predicted value is.

  According to the present invention, since the prediction history line indicating the transition of the predicted integrated value of the used electric energy is displayed, it is possible to easily grasp the predicted state of the integrated value of the used electric energy. is there.

  According to the present invention, since the line indicating the offset range of the target power consumption is displayed together with the prediction history line, whether or not the integrated value of the power consumption may exceed the target power consumption. There is an effect that can be easily grasped.

It is a block diagram which shows the demand monitoring apparatus by Embodiment 1 of this invention. It is a flowchart which shows the processing content (demand monitoring method) of the demand monitoring apparatus by Embodiment 1 of this invention. It is explanatory drawing which shows the display content of the demand monitoring apparatus by Embodiment 1 of this invention. It is explanatory drawing which shows the upper limit line and lower limit line of the offset range which shows the offset range of the target electric energy used displayed with a prediction history line. It is explanatory drawing which shows an example of a demand curve.

Embodiment 1 FIG.
1 is a block diagram showing a demand monitoring apparatus according to Embodiment 1 of the present invention.
In FIG. 1, a power consumption reading means 1 is composed of, for example, an interface device (for example, a network I / F, a USB port, etc.) for a power meter and a recording medium such as a RAM. The power consumption Wt measured in a cycle is read, and a process for storing the power consumption Wt for a predetermined period (for example, 30 minutes) is performed.
The integrated value calculating means 2 is composed of, for example, an integrator, and performs a process of integrating the used electric energy Wt read by the used electric energy reading means 1 and calculating the integrated value ΣW of the used electric energy. .

The integrated value predicting means 3 is composed of, for example, a semiconductor integrated circuit on which a CPU is mounted, or a one-chip microcomputer. The integrated power calculating means 2 and the integrated power calculating means 2 read the used electric energy Wt read by the used electric energy reading means 1. from the calculated integrated value .SIGMA.W, predicting an integrated value .SIGMA.W power usage after a predetermined time (the end of the predetermined period), and carries out a process of outputting the prediction value .SIGMA.W _P.
The demand curve display means 4 is composed of, for example, a GPU (Graphics Processing Unit) and the like, displays the target power consumption for a predetermined period on a display (not shown), and displays the integrated value ΣW calculated by the integrated value calculating means 2. The process which displays the demand curve which shows a transition on a display is implemented.

The predicted integrated value display means 5 is composed of, for example, a GPU, and the predicted value ΣW output from the integrated value predicting means 3 on the time (current time) when the integrated value is predicted by the integrated value predicting means 3. A process of displaying _P is performed.
Prediction history line display unit 6 is constituted of, for example, GPU, and carries out a process of displaying a prediction history line indicating the transition of the predicted value .SIGMA.W _P output from the integrated value predicting means 3 to display.
The semiconductor integrated circuit alarm generating means 7 implements the CPU for example, or are composed of such one-chip microcomputer, the predicted value .SIGMA.W _P output from the integrated value predicting means 3 is higher than the target power usage, The alarm is displayed on the display, or the alarm is output from a speaker (not shown).

In the example of FIG. 1, the power consumption reading means 1, the integrated value calculation means 2, the integrated value prediction means 3, the demand curve display means 4, the predicted integrated value display means 5, and the prediction history line display, which are constituent elements of the demand monitoring device. Although it is assumed that each of the means 6 and the alarm generation means 7 is configured by dedicated hardware, all or part of the demand monitoring device may be configured by a computer.
For example, when the entire demand monitoring device is configured by a computer, the power consumption reading means 1, integrated value calculating means 2, integrated value predicting means 3, demand curve display means 4, predicted integrated value display means 5, prediction history A program describing the processing contents of the line display means 6 and the alarm generation means 7 may be stored in the memory of a computer, and the CPU of the computer may execute the program stored in the memory.
FIG. 2 is a flowchart showing the processing contents (demand monitoring method) of the demand monitoring apparatus according to Embodiment 1 of the present invention.

Next, the operation will be described.
First, the power consumption reading means 1 reads, for example, a power consumption Wt measured at a predetermined cycle (for example, 1 minute) by a power meter, and the power consumption Wt for a predetermined period (for example, 30 minutes). Is stored (step ST1 in FIG. 2).
Here, t indicates the measurement time of power consumption, and Wt is the power consumption at time t.

Integrated value calculating means 2, every time power usage reading means 1 stores reads the amount of electric power used Wt, by integrating the electric power consumption Wt to the current time from the start t ₀ of a predetermined time period, the power consumption A quantity integrated value ΣW is calculated (step ST2).
For example, if the elapsed 18 minutes from the start t ₀ of a predetermined time period, accumulating the amount of electric power used Wt from the beginning t ₀ for a predetermined period 18 minutes.

When the integrated value calculating unit 2 calculates the integrated value ΣW of the used electric energy, the integrated value predicting unit 3 and the integrated value calculated by the integrated value calculating unit 2 and the integrated value calculated by the integrated value calculating unit 2 are used. from .SIGMA.W, it predicts the integrated value .SIGMA.W power usage after a predetermined time (the end of the predetermined period), and outputs the predicted value .SIGMA.W _P (step ST3).
The method for predicting the integrated value ΣW by the integrated value predicting means 3 is not particularly limited. For example, the integrated value ΣW of the used electric energy can be predicted by the following method.

First, the integrated value predicting unit 3 acquires the latest N used power amounts Wt (for example, N = 5) from the used power amount Wt stored in the power amount reading unit 1, and calculates the following formula: As shown in (1), the average value W _ave of the most recent N power consumptions Wt is calculated.
For example, have been measured using the power amount Wt is every 1 minute, if the elapsed 18 minutes from the start t ₀ of a predetermined time period, if the N = 5, the elapsed 18 minutes from the start t ₀ of the predetermined time period Used power amount Wt after 17 minutes, used power amount Wt after 16 minutes, used power amount Wt after 16 minutes, used power amount Wt after 15 minutes, average value W of used power amount Wt after 14 minutes _ave is calculated.
W _ave = the sum of N used electric energy Wt / N (1)

Next, the integrated value prediction means 3 measures the number of times of sampling M (for example, the amount of power used Wt every minute from the current time to the end of the predetermined period, and the remaining time Tr is 12 minutes). If M = 12, the predicted value ΣW _{P is} calculated from the sampling number M, the average value W _ave of the used electric energy Wt, and the integrated value ΣW, as shown in the following formula (2). Is calculated.
ΣW _P = (W _ave × M) + ΣW (2)

When the integrated value calculating unit 2 calculates the integrated value ΣW of the used electric energy, the demand curve display unit 4 displays the target used electric energy for a predetermined period on the display as shown in FIG. A demand curve indicating the transition is displayed on the display (step ST4).
The target power consumption is determined by, for example, a large power consumer and the power company. If the integrated value ΣW of the power consumption for a predetermined period exceeds the target power consumption, a violation is recognized. The

It predicted integration value display unit 5, when the integrated value predicting means 3 calculates a predicted value .SIGMA.W _P, as shown in FIG. 3, the time at which the prediction of the integrated value by the integrated value predicting means 3 has been performed on the (current time) and displays the predicted value .SIGMA.W _P (step ST5).
In the prior art, as described above, the predicted value .SIGMA.W _P on the end of the predetermined time period are displayed, even by the predicted value .SIGMA.W _P operator is displayed, which is predicted at any point value Although it is impossible to know which of either at a glance is, in the first embodiment, the time at which the prediction of the integrated values were made on the (current time), because the predicted value .SIGMA.W _P is displayed, the operator At a glance, it can be understood that the predicted value is predicted at the current time.

Prediction history line display unit 6, each time the integrated value predicting means 3 calculates a predicted value .SIGMA.W _P, and updates the prediction history line indicating the transition of the predicted value .SIGMA.W _P, as shown in FIG. 3, the prediction history The line is displayed on the display (step ST6).

Alarm generating means 7, when the integrated value predicting means 3 calculates a predicted value .SIGMA.W _P, and compares the predicted value .SIGMA.W _P and the target power usage (step ST7), the predicted value .SIGMA.W _P is higher than the target power usage Then, an alarm indicating that is displayed on the display (step ST8).
Alternatively, it outputs an alarm indicating that the predicted value .SIGMA.W _P is higher than the target power usage from the speaker.

As is apparent from the above, according to the first embodiment, the usage power after a predetermined time is calculated from the power consumption amount Wt read by the power consumption amount reading means 1 and the integrated value ΣW calculated by the integrated value calculation means 2. The integrated value predicting means 3 for predicting the integrated value of the electric energy is provided, and the estimated integrated value display means 5 is added to the integrated value predicting means on the time (current time) when the integrated value is predicted by the integrated value predicting means 3. 3 since it is configured to display the predicted value .SIGMA.W _P output from an effect that the operator can at a glance, to understand whether the predicted value .SIGMA.W _P of the predicted integration value at any time.

Further, according to the first embodiment, the prediction history beam display unit 6, since the prediction history line indicating the transition of the predicted value .SIGMA.W _P output from the integrated value predicting means 3 is configured to display on the display, There is an effect that the operator can easily grasp the predicted state of the integrated value of the power consumption.

Embodiment 2. FIG.
In the first embodiment, the prediction history beam display means 6, each time the integrated value predicting means 3 calculates a predicted value .SIGMA.W _P, and updates the prediction history line indicating the transition of the predicted value .SIGMA.W _P, the prediction Although the history line is displayed on the display, as shown in FIG. 4, the prediction history line display means 6 includes an offset range upper limit line indicating the offset range of the target power consumption together with the prediction history line. The lower limit line may be displayed on the display.

Thus, if the upper line and lower line of the offset range is displayed, it is possible to confirm whether or not the predicted value .SIGMA.W _P is within the offset range of the target power usage, predicted value .SIGMA.W _P and not only the level of the relationship between the target power usage, the difference between the predicted value .SIGMA.W _P and the target power usage is able to grasp at a glance whether a degree.
For this reason, it is possible to accurately grasp whether or not the integrated value ΣW of the power consumption exceeds the target power consumption, and to adjust the power consumption appropriately.

  Further, in the present invention, any constituent element of the embodiment can be modified or any constituent element of the embodiment can be omitted within the scope of the invention.

DESCRIPTION OF SYMBOLS 1 Power consumption reading means 2 Integrated value calculation means 3 Integrated value prediction means 4 Demand curve display means 5 Predicted integrated value display means 6 Prediction history line display means 7 Alarm generation means

Claims (4)

A power consumption reading means for reading a power consumption measured at a predetermined cycle;
An integrated value calculating means for integrating the used electric energy read by the used electric energy reading means and calculating an integrated value of the used electric energy;
An integrated value prediction means for predicting an integrated value of the used electric energy after a predetermined time from the used electric energy read by the used electric energy reading means and the integrated value calculated by the integrated value calculating means;
A demand curve display means for displaying a target power consumption for a predetermined period and displaying a demand curve indicating a transition of the integrated value calculated by the integrated value calculating means;
A demand monitoring apparatus comprising: a predicted integrated value display unit that displays an integrated value of the amount of electric power used predicted by the integrated value predicting unit at a time when the integrated value is predicted by the integrated value predicting unit.   2. The demand monitoring apparatus according to claim 1, further comprising a prediction history line display means for displaying a prediction history line indicating a transition of an integrated value of the used electric energy predicted by the integrated value prediction means.   The demand monitoring apparatus according to claim 2, wherein the prediction history line display means displays a line indicating an offset range of the target power consumption together with the prediction history line. A power consumption reading means for reading a power consumption read by the power consumption reading means;
An integrated value calculating means for integrating the used electric energy read in the used electric energy reading process step and calculating an integrated value of the used electric energy;
An integrated value for which the integrated value prediction means predicts an integrated value of the used electric energy after a predetermined time from the used electric energy read in the used electric energy reading process step and the integrated value calculated in the integrated value calculating process step. Prediction processing steps;
A demand curve display means for displaying a target power consumption for a predetermined period and displaying a demand curve indicating a transition of the integrated value calculated in the integrated value calculating process step;
Predicted integrated value display means for displaying the integrated value of the used electric energy predicted in the integrated value prediction processing step on the time when the integrated value was predicted in the integrated value prediction processing step. Demand monitoring method comprising steps and.

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