JP2004028924A - Electric power related display device and private power generation system using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electric power related display device and a private power generation system using the same wherein a user can grasp the situation of the element about electric power such as generated output, power consumption, selling electric power and purchasing electric power at a glance. <P>SOLUTION: This electric power related display device 5a is used for a private power generation system which supplies electric power to a load 3 by linking a commercial AC power system 2 to a private power generation equipment 1. The electric power related display device 5a is provided with a graph display part 12a which has a first shaft displaying the generated output due to the private power generation and the power consumption due to the load, and a second shaft which is approximately orthogonal to the first shaft and displays the selling electric power and the purchasing electric power increasing or decreasing according to variation of the generated output or the power consumption. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a private power generation system that connects a commercial AC power system and a private power generation facility to supply power to a load, and a power-related display device used in the private power generation system.
[0002]
[Prior art]
2. Description of the Related Art In recent years, a private power generation system in which a commercial AC power system and private power generation equipment such as solar power generation are interconnected to supply power to a load in parallel has become widespread. In such an in-house power generation system, a display device that numerically displays the generated power of the in-house power generation equipment, the sold power, the purchased power, the power consumption of the load, and the like, and displays a graph with the horizontal axis representing time and the vertical axis representing power. Has been put to practical use.
[0003]
Also, Japanese Patent Application Laid-Open No. 10-201106 discloses a display device for digitally displaying or generating a bar graph of generated power, sold power, and purchased power of photovoltaic power generation. FIG. 4 is a configuration diagram of a solar power generation system using the display device. In the figure, 51 is a solar panel, 52 is an inverter for converting a DC voltage generated by the solar panel 51 into an AC voltage, 53 is a load, 54 is a power converter section, and 55 is a display device. The power converter unit 54 has a function of detecting the photovoltaic power output, the power purchase, and the power sale output from the inverter 52, respectively, and converting them into digital values. The display device 55 has a bar display 56 and digital displays 57a, 57b, 57c. The left side and the right side of the bar display 56 are displayed as bar graphs. Also, 57a indicates the generated power, 57b indicates the generated power, and 57c indicates the purchased power, respectively. Further, an instantaneous power display, an integrated power display, and a power rate for a predetermined period are displayed on the digital displays 57a, 57b, and 57c by a changeover switch.
[0004]
In addition, Japanese Patent Application Laid-Open No. 2000-266789 discloses a display device that displays the ratio of the power generated by solar power to the power consumption. FIG. 5 shows a configuration diagram of the display device. In the figure, reference numeral 61 denotes a ratio display section for graphically displaying the ratio of the photovoltaic power to power consumption, 62 a digital display section for digitally displaying power, and 63 and 64 a display sections for displaying the contents of the digital display section. .
[0005]
Further, a display device that calculates an amount of reduced carbon dioxide, an amount of reduced oil use, and the like from the photovoltaic power, and displays the calculated amount as an environmental contribution has been put to practical use.
[0006]
[Problems to be solved by the invention]
Conventional power-related display devices display numerical values and graphs of each type of power, such as generated power, consumed power, sold power, and purchased power, and the degree of environmental contribution obtained by converting the generated power. It was not possible to easily grasp at a glance the relationship and status of three or more elements of power consumption and the like.
[0007]
The present invention has been made in order to solve the above-described problems, a power-related display device that allows a user to grasp at a glance the state of elements related to power, such as generated power, consumed power, sold power, and purchased power, And an in-house power generation system using the same.
[0008]
[Means for Solving the Problems]
The power-related display device according to the present invention is a power-related display device used in a private power generation system that supplies power to a load by interconnecting a commercial AC power system and a private power generation facility, and includes power generated by private power generation. A graph having a first axis for displaying power consumption by a load and a second axis substantially orthogonal to the first axis for displaying an element that increases or decreases in accordance with an increase or decrease in the generated power or the power consumption. It has a display unit. In the following embodiments, the power-related display devices are the display devices 5a, 5b, and 5c, and the first axis of the graph display unit is the horizontal axis, and the second axis is the vertical axis.
[0009]
In addition, power sale and power purchase are displayed as display elements displayed on the second axis.
[0010]
Also, an average power consumption calculating unit that calculates an average value of power consumption in a past predetermined period, and a difference between the average calculated by the average power consumption calculating unit and the current power consumption by the load is calculated. A power-saving power calculation unit that outputs power as power, and displays the power-saving power as a display element of the second axis.
[0011]
An energy-saving degree calculating unit that divides the power-saving power calculated by the power-saving power calculating unit by an average value of the power consumption calculated by the power-saving average value calculating unit and outputs the result as an energy saving degree; The above-mentioned energy saving degree is displayed as a display element.
[0012]
Further, an environment-contributing power calculation unit that calculates the sum of the power generated by the private power generation and the power-saving power calculated by the power-saving power calculation unit and outputs the calculated power as environment-contributing power is provided. This is to display the contribution power.
[0013]
An environmental contribution calculator configured to integrate the environmental contribution power calculated by the environmental contribution power calculator for a predetermined period, multiply the integrated power amount by a predetermined coefficient, and output as an environmental contribution; The environmental contribution is displayed as an axis display element.
[0014]
Further, the respective electric powers are integrated for a predetermined period, and the integrated electric energy is displayed.
[0015]
Also, a target value of each display element is displayed.
[0016]
Further, the display element displayed on the second axis can be switched to a different display element.
[0017]
In addition, the private power generation system according to the present invention is a private power generation system that supplies power to a load by linking a commercial AC power system and a private power generation facility, wherein the generated power detects power generated by the private power generation facility. A detecting unit, a trading power detecting unit provided between the commercial AC power system and the load, for detecting a power selling and a buying power, and obtaining a power consumption of the load based on the generated power, the selling power or the buying power. It comprises a power consumption calculation unit and any one of the power-related display devices.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a private power generation system according to this embodiment. As shown in the figure, the private power generation system is a system in which a private power generation facility 1 and a commercial AC power system 2 are interconnected to supply power to a load 3 in parallel. Here, the private power generation equipment includes, for example, equipment such as solar power generation.
[0019]
The generated power detection unit 1a provided in the private power generation facility 1 detects the generated power of the private power generation facility 1. Further, the trading power detector 4 is provided between the commercial AC power system 2 and the load 3 and measures the power selling and the power buying. The power sale and the power purchase increase and decrease in accordance with the increase and decrease of the power generated by the private power generation facility 1 and the power consumption of the load 3 described later. That is, if the generated power is larger than the power consumption and the value increases, the power sale increases, and conversely, if the power consumption increases and the value increases, the power purchase increases.
[0020]
5a is a display device for displaying the generated power and the like. The data of the generated power detected by the generated power detector 1a and the data of the sold power and the purchased power detected by the trading power detector 4 are transmitted to the power consumption calculator 6 and the display panel 11a. The power consumption calculation unit 6 calculates the difference between the generated power, the sold power, and the purchased power, obtains the power consumption of the load 3, and transmits it to the display panel 11a. The data of the generated power, the sold power, the purchased power, and the consumed power transmitted to the display panel 11a are displayed as graphs or digitally as display elements.
[0021]
Further, each data of the generated power, the sold power, the purchased power, and the consumed power is input to the integrated power calculating unit 7, the respective powers are integrated for a predetermined period, and the obtained data of each integrated power amount is transmitted to the display panel 11 a. You. The measurement of the predetermined period for integration is performed by the time measurement unit 8.
[0022]
Next, the display panel 11a will be described. The display panel 11a includes a graph display section 12a and a digital display section 13a. The graph display unit 12a includes a liquid crystal display, an LED, and the like, and has two axes that are substantially orthogonal to each other, that is, a horizontal axis that is a first axis and a vertical axis that is a second axis. I do. In this embodiment, the generated power is displayed in the plus direction on the horizontal axis, the power consumption is displayed in the minus direction, and the power sales and the purchased power are displayed in the plus direction on the vertical axis. The axis scale is power or energy. On the other hand, the digital display unit 13 displays the generated power, the consumed power, the sold power, or the purchased power. These digital displays may be displayed in all four types simultaneously, or may be switched and displayed by the operation unit 15.
[0023]
The graph display unit 12a also displays target values 14a of generated power, consumed power, sold power, and purchased power. This target value is a value that differs for each season or time zone, for example, and is input by the user from the operation unit 15 or stored in advance. The input target values are stored in the storage unit 16, and among the stored target values, target values suitable for the season and time zone are displayed on the graph display unit 12a. The target value 14a is displayed in a different color from the graph display of each power, for example. By displaying the target value in this manner, the current power status with respect to the target value can be grasped at a glance, and measures such as power saving can be taken immediately to achieve the target.
[0024]
In addition, data of each integrated power amount integrated for a predetermined period by the integrated power calculation unit 7 is also displayed on the graph display unit 12a or the digital display unit 13a by switching from the operation unit 15. Here, the predetermined period to be integrated is, for example, a predetermined time of one minute, one hour, one day, one week, one month, one year, or one day set based on the time measuring unit 8. The band may be set in advance or may be set by a user.
[0025]
The switching by the operation unit 15 is performed, for example, by setting the main screen of the graph display unit 12a to the generated power, the power consumption, the power sale, and the power purchase, and pressing the display switching button of the operation unit 15 to display the sales on the vertical axis. The display of the electric power and the purchase of electric power are switched to the display of the electric energy for each predetermined period. Further, the main screen of the digital display unit 13a is set to the generated power, the display content is switched according to the number of times the display switching button is pressed, and the display returns to the main screen after a predetermined time has elapsed. Alternatively, the display may be switched by pressing a touch panel on which “power generation”, “consumption”, or the like is described, or switched by voice with a built-in voice recognition device in the display device 5a, or switched by operating an attached remote controller or mobile phone. Good. Further, the display may be automatically switched, for example, the display may be switched at predetermined time intervals, or may be switched according to a time zone. Alternatively, the display may be started when a person approaches, or a display with a large change, a display that reaches a target value, or a display that does not reach a target value may be preferentially displayed.
[0026]
In the above description, the generated power, the consumed power, the sold power, and the purchased power are simultaneously displayed on the graph display unit 12a, but any one or a plurality of them may be selected and displayed. For example, the selection may be made by the operation unit 15, or the graph of only the power generation is displayed by pressing the display of "power generation" on the graph display unit 12a, and the generated power is displayed by pressing the display of "consumption". The generated power, the consumed power, the sold power, and the purchased power may be displayed by displaying the graph of the power consumption and further pressing the display of “power sale” or “power purchase”. By enabling the display contents to be switched in this manner, a necessary display can be displayed to a minimum, and a power-related display device in which the status of each power can be easily grasped can be obtained.
[0027]
In the above embodiment, the generated power and the consumed power are displayed with the first axis as the horizontal axis, and the power sales and the purchased power are displayed with the second axis as the vertical axis. The generated power and the consumed power may be displayed on the axis, and the sold and purchased power may be displayed on the second axis.
[0028]
As described above, according to this embodiment, the status of generated power, consumed power, sold power, and purchased power can be grasped at a glance.
[0029]
Embodiment 2 FIG.
Hereinafter, a second embodiment of the present invention will be described with reference to the drawings. 2 differs from the first embodiment in that an average power consumption calculating unit 21, a power saving power calculating unit 22, and an energy saving degree calculating unit 23 are provided. The same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0030]
The power consumption of the load 3 calculated by the power consumption calculation unit 6 is transmitted to the storage unit 16 and the power saving power calculation unit 22. The storage unit 16 stores the power consumption data of the load 3 and outputs the power consumption data of the same period in the past for a predetermined period to the power consumption average value calculation unit 21. The average power consumption calculating unit 21 calculates an average value of power consumption in a past predetermined period and outputs the average value to the power saving power calculating unit 22.
[0031]
The power saving power calculation unit 22 transmits the difference between the average value of the power consumption calculated by the power consumption average value calculation unit 21 and the current power consumption to the display panel 11 b and the integrated power calculation unit 7 as power saving power data. Here, the power saving power calculated by the power saving power calculating unit 22 is not obtained by comparing the instantaneous power consumption at the same time in the past with the current power consumption, but is calculated based on the average power consumption at the same time in the past. Since it is obtained by comparing with the current power consumption, it is possible to accurately grasp the power saving situation at the same time in the past without being influenced by the transient power consumption situation in the past. That is, in the former case, for example, when the power consumption is lower than usual due to the same period in the past, the value may be such that the power is not saved despite the current power saving. There is no such problem. It is also conceivable to set a target power consumption and calculate the power saving power from the difference between the set value and the current power consumption. However, such a method requires time and effort to input the set value. On the other hand, if the power saving power is calculated as in this embodiment, the work of inputting the set value can be omitted.
[0032]
The integrated power calculation unit 7 integrates the power saving power for a predetermined period, and transmits the obtained integrated power amount to the display panel 11b as data of the power saving power amount. Here, the predetermined period to be integrated is, for example, a predetermined time of one minute, one hour, one day, one week, one month, one year, or one day set based on the time measuring unit 8. The band may be set in advance or may be set by a user.
[0033]
The average value of the power consumption of the load 3 calculated by the power consumption average value calculation unit 21 and the power saving power calculated by the power saving power calculation unit 22 are input to the energy saving degree calculation unit 23 which is the energy saving degree calculation unit. Is divided by the average value of the power consumption, and the result is transmitted to the display panel 11b as data on the degree of energy saving.
[0034]
The display panel 11b includes a graph display section 12b and a digital display section 13b, similarly to the display panel 11a in the first embodiment, and the graph display section 12b is substantially orthogonal to the horizontal axis as the first axis. It has a vertical axis which is a second axis and performs two-dimensional graph display. In this embodiment, the display panel 11b graphically displays the power saving power, the power saving amount, or the degree of energy saving on the graph display unit 12b as a display element and numerically displays the digital display unit 13b.
[0035]
In FIG. 2, the generated power is displayed in the positive direction on the horizontal axis, the power consumption is displayed in the negative direction, and the power saving power is displayed on the vertical axis. The power saving amount and the energy saving degree are displayed on the vertical axis by being switched by the operation unit 15. Here, the power saving power, the power saving power amount, and the energy saving degree are factors that increase or decrease according to the increase or decrease of the power consumption of the load.
[0036]
In addition, the graph display unit 12b displays each power of power generation, consumption, and power saving, each power amount, or a target value 14b of the energy saving degree. This target value is a value that differs for each season or time zone, for example, and is input by the user from the operation unit 15. The input target values are stored in the storage unit 16, and among the stored target values, target values suitable for the season and time zone are displayed on the graph display unit 12b. This target value is displayed in a different color from the graph display of each power, for example.
[0037]
In the above description, the average power consumption calculating unit 21 calculates the average value of the power consumption for a predetermined period at the same time in the past. You may ask for it. By doing so, it is possible to grasp the power saving state for the immediately preceding predetermined period. Alternatively, the first axis may be the vertical axis, the second axis may be the horizontal axis, and the generated power and the power consumption may be displayed on the vertical axis.
[0038]
As described above, according to this embodiment, it is possible to grasp at a glance the generated power, the power consumption, the power saving power, the amount of these powers, or the state of the degree of energy saving.
[0039]
Embodiment 3 FIG.
Hereinafter, a third embodiment of the present invention will be described with reference to the drawings. FIG. 3 differs from the first and second embodiments in that an environmental contribution power calculation unit 31 and an environmental contribution degree calculation unit 32 are provided. It is to be noted that the same components as those in the above embodiments are denoted by the same reference numerals, and description thereof is omitted.
[0040]
As in the second embodiment, the power-saving power calculation unit 22 calculates the power-saving power from the current power consumption calculated by the power consumption calculation unit 6 and the average value of the power consumption calculated by the power consumption average value calculation unit 21. Ask. The power saving power calculated by the power saving power calculation unit 22 is output to the environmental contribution power calculation unit 31. The environment-contributing power calculation unit 31 calculates the sum of the generated power data obtained by the generated power detection unit 1a and the power-saving power obtained by the power-saving power calculation unit 22, and uses this as the environmentally-contributed power data. 11c and output to the integrated power calculation unit 7.
[0041]
The integrated power calculation unit 7 integrates the data of the environmental contribution power for a predetermined period, sends the obtained integrated power amount to the display panel 11c as the data of the environmental contribution power amount, and outputs the data to the environmental contribution degree calculation unit 32. Here, the predetermined period to be integrated is, for example, a predetermined time of one minute, one hour, one day, one week, one month, one year, or one day set based on the time measuring unit 8. The band may be set in advance or may be set by a user.
[0042]
The environmental contribution calculation unit 32 performs a calculation of multiplying the data of the environmental contribution power saving amount by a predetermined coefficient, and outputs the result to the display panel 11c as the data of the environmental contribution. Here, the predetermined coefficient is a known coefficient for converting the amount of electric power into a carbon dioxide reduction amount, an oil consumption amount, and the like.
[0043]
The display panel 11c includes a graph display section 12c and a digital display section 13c, similarly to the display panel 11a in the first embodiment, and the graph display section 12c is substantially orthogonal to the horizontal axis as the first axis. It has a vertical axis which is a second axis and performs two-dimensional graph display. In this embodiment, the display panel 11c graphically displays the environmentally-contributed power, the amount of environmentally-contributed electric power, and the degree of environmental contribution on the graph display unit 12c as a display element, and numerically on the digital display unit 13c.
[0044]
In FIG. 3, the generated power is displayed in the positive direction on the horizontal axis, the power consumption is displayed in the negative direction, and the environmental contribution power is displayed on the vertical axis. The amount of environmental contribution power and the degree of environmental contribution are displayed on the vertical axis by being switched by the operation unit 15. Since the environmental contribution power, the amount of environmental contribution power, and the degree of environmental contribution are obtained from the power generated by private power generation and the power saving, as described above, these are the changes in the power generated by private power generation and the power consumption of the load. Is an element that increases or decreases in accordance with. In addition, if the environment-contributing power is obtained by converting only the generated power, the situation of the environmental contribution cannot be fully grasped. However, as in this embodiment, not only the generated power but also the power saving by the user can be saved. If the environmentally-contributing power is determined in consideration of this, the status of environmental contribution can be properly grasped.
[0045]
The graph display unit 12c displays power, power consumption, power consumption, and environmental contribution target values 14c. This target value is a value that differs for each season or time zone, for example, and is input by the user from the operation unit 15. The input target values are stored in the storage unit 16, and among the stored target values, target values suitable for the season and time zone are displayed on the graph display unit 12c. This target value is displayed in a different color from the graph display of each power, for example.
[0046]
In the above description, the first axis is the horizontal axis and the second axis is the vertical axis. However, the first axis is the vertical axis, the second axis is the horizontal axis, and the generated power and consumption are the vertical axes. The power and the power may be displayed.
[0047]
As described above, according to the present embodiment, it is possible to grasp at a glance the status of the generated power, the consumed power, the environment-contributing power, the amount of these power, or the degree of environmental contribution. In addition, by displaying the degree of environmental contribution, the user can recognize the amount of reduction of carbon dioxide emission due to in-house power generation and power saving, the use of petroleum, etc., which affect the environment, and can recognize the degree of environmental contribution.
[0048]
Embodiment 4 FIG.
By combining the above embodiments, the generated power and the consumed power are displayed on the first axis, and the trading power, the power saving power, the environmental contribution power, the integrated power amount of these predetermined periods, the energy saving degree, and the environmental contribution degree are displayed. Any one of them may be selected and displayed on the second axis.
[0049]
【The invention's effect】
According to the power-related display device according to the present invention, or the private power generation system using the same, the power generated by the private power generation, the power consumption of the load, and the element that increases or decreases according to the increase or decrease of the generated power or the power consumption, for example, The user can grasp at a glance the status of the power sale, the power purchase, the power saving, the environment-contributing power, the integrated power amount during these predetermined periods, the degree of energy saving and the degree of environmental contribution.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a private power generation system according to Embodiment 1 of the present invention.
FIG. 2 is a configuration diagram of a private power generation system according to Embodiment 2 of the present invention.
FIG. 3 is a configuration diagram of a private power generation system according to Embodiment 3 of the present invention.
FIG. 4 is a configuration diagram of a conventional solar power generation system.
FIG. 5 is a configuration diagram of a conventional power-related display device.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 private power generation equipment, 1 a generated power detection unit, 2 commercial AC power system, 3 load, 4 trading power detection unit, 5 a, 5 b, 5 c display device, 6 power consumption calculation unit, 7 integrated power calculation unit, 11 a, 11 b, 11c display panel, 12a, 12b, 12c graph display section, 13a, 13b, 13c digital display section, 14a, 14b, 14c target display, 21 power consumption average value calculation section, 22 power saving power calculation section, 23 energy saving degree calculation section, 31 Environmental contribution power calculation unit, 32 Environmental contribution degree calculation unit.

Claims (10)

A power-related display device used in a private power generation system that supplies electric power to a load by interconnecting a commercial AC power system and a private power generation facility, and displays first power generated by private power generation and power consumption by the load. And a second axis that is substantially orthogonal to the first axis and that displays an element that increases or decreases in accordance with an increase or decrease in the generated power or the power consumption. The power-related display device according to claim 1, wherein display elements displayed on the second axis are power sale and power purchase. A power consumption average value calculating unit that calculates an average value of power consumption in a past predetermined period, and a difference between the average value calculated by the power consumption average value calculating unit and the current power consumption by the load is calculated as power saving power. The power-related display device according to claim 1, further comprising: a power saving power calculating unit that outputs the power saving power, wherein the power saving power is displayed as a display element of the second axis. An energy-saving degree calculating section that divides the power-saving power calculated by the power-saving power calculating section by the average value of the power consumption calculated by the power-saving average value calculating section and outputs the result as an energy saving degree; The power-related display device according to claim 3, wherein the energy saving degree is displayed as an element. An environment-contributing power calculating unit that calculates a sum of the power generated by the private power generation and the power-saving power calculated by the power-saving power calculating unit, and outputs the calculated power as the environmental-contributing power; The power-related display device according to claim 1, wherein the power-related display device is displayed. An environmental contribution calculating unit that integrates the environmental contribution power calculated by the environmental contribution power calculation unit for a predetermined period, multiplies the integrated power amount by a predetermined coefficient, and outputs the result as an environmental contribution degree; The power-related display device according to claim 5, wherein the degree of environmental contribution is displayed as a display element. The power-related display device according to any one of claims 1, 2, 3, and 5, wherein the power is integrated for a predetermined period, and the integrated power amount is displayed. The power-related display device according to any one of claims 1 to 7, wherein a target value of each display element is displayed. The power-related display device according to any one of claims 1 to 8, wherein a display element displayed on the second axis can be switched to a different display element. A private power generation system that supplies electric power to a load by interconnecting a commercial AC power system and a private power generation facility,
A generated power detection unit that detects generated power by the private power generation facility,
A trading power detection unit that is provided between the commercial AC power system and the load and detects power selling and power buying;
A power consumption calculation unit that calculates the power consumption of the load based on the generated power, the sold power or the purchased power,
A private power generation system comprising the power-related display device according to any one of claims 1 to 9.

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