JP2014056253A - Display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve visibility of power information or the like.SOLUTION: A display device 100 connected to power conditioners supplying power generated by solar cells 1 to a system power source 4 and configured to display a state of the generated power, includes: an image/data storage unit 12 for storing therein a predetermined image including plural visualized graphics corresponding to values of the generated power; a display image generation unit 20 for generating image data to be displayed on a general-purpose display 17 installed outside the display device 100; an image data conversion unit 14 having a terminal for connection with the general-purpose display 17, for converting a signal form of the image data output from the display image generation unit 20 into a signal compliant with standards of the general-purpose display 17; and an internal display data processing unit 9 for converting power information from the display image generation unit 20 into numerical information and displaying it on an internal display 10 of the display device 100.

Description

  The present invention relates to a display device that is connected to a power conditioner (PCS) that converts DC power generated by a solar cell into AC power and displays a power generation state.

  A solar power generation system converts DC power generated by a solar cell into AC power, and supplies the generated power to a load in a house by grid connection with a commercial power source or sells power to the commercial power source side It is. Many of these photovoltaic power generation systems have a display device that can easily communicate to the user the PCS status, generated power, power consumption in a house (hereinafter referred to as “power information etc.”). Absent.

  2. Description of the Related Art Conventionally, for example, a display device disclosed in Patent Document 1 below includes a dot matrix display unit, and by converting generated power and power consumption into a bar-shaped matrix display, a user can intuitively grasp power information and the like. It is configured.

JP 2004-012376 A

  However, since the display device disclosed in Patent Document 1 has a small display unit, there is a problem that the user cannot grasp power information or the like unless the user approaches the PCS. In addition, when displaying power information or the like, for example, in a graph or table format showing changes in the amount of power generation at each time, there is a problem that the amount of information must be reduced or the display information must be reduced because the display unit is small. there were.

  This invention is made | formed in view of the above, Comprising: It aims at obtaining the display apparatus which can improve visibility, such as electric power information.

  In order to solve the above-described problems and achieve the object, a display device according to the present invention is a display device that is connected to a power conditioner that supplies generated power of a solar cell to a system power supply and displays the state of the generated power. An image storage unit that stores a predetermined image including a plurality of visualized figures corresponding to the value of the generated power, and the predetermined image is selected from the image storage unit based on the generated power A display image generating unit that synthesizes the predetermined image and power information including the generated power and generates image data to be displayed on a general-purpose external display installed outside the display device; and the display image generating unit An image data converter having a terminal for converting the signal format of the image data output from the signal to a signal conforming to the standard of the general-purpose external display and connecting the general-purpose external display; and the display An internal display data processing unit that converts the power information from the image generation unit into numeric information and displays the information on an internal display in the display device, and the image data conversion unit is connected to the terminal. An image obtained by combining the predetermined image and the power information by outputting a signal conforming to the standard to the general-purpose external display and having a higher visibility than the image displayed on the internal display And the internal display displays the numerical information converted by the internal display data processing unit.

  According to the display device of the present invention, a display that can display power information or the like is connected to the outside, and the display is combined with the visualized image selected by the image switching unit and the power information or the like. Since the information is displayed on the device, the visibility of the power information and the like can be improved.

FIG. 1 is a diagram illustrating a configuration of a display device and a photovoltaic power generation system according to the first embodiment. FIG. 2 is a diagram illustrating an example of a state in which power information and the like are displayed. FIG. 3 is a diagram illustrating an example of a visualized image. FIG. 4 is a diagram illustrating an example of an image that changes according to power information and the like. FIG. 5 is a diagram illustrating an example of power information and the like displayed in a table format. FIG. 6 is a diagram illustrating an example of power information displayed in a graph format. FIG. 7 is a diagram showing a configuration in the case of taking in current sensors installed in other company's PCS and system power supply and in-house PCS without using an adapter. FIG. 8 is a diagram showing a configuration in the case of taking in directly from the current sensor installed in the system power supply and the company PCS. FIG. 9 is a diagram showing a configuration in the case of taking in from a current sensor installed in the system power supply and an in-house PCS via an adapter. FIG. 10 is a diagram showing a configuration in the case of taking in from a PCS of another company and a current sensor installed in a system power supply and an in-house PCS through an adapter.

  Embodiments of a display device according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram illustrating a configuration of a display device and a photovoltaic power generation system according to the first embodiment. A solar power generation system 200 shown in FIG. 1 includes a solar battery 1, a company PCS2, a competitor PCS3, a system power supply 4, a load 5, an adapter 6, and a current sensor 7 as main components.

  A display device 100 shown in FIG. 1 includes a display image generation unit 20, a reception unit 8, an internal display data processing unit 9, an internal display 10, an image / data storage unit (image storage unit) 12, an image as main components. A data conversion unit 14 and a remote control reception unit (switching signal reception unit) 15 are included. The display image generation unit 20 includes an image switching unit 11, a general-purpose display data processing unit (display data processing unit) 13, and a control unit 16.

  In the photovoltaic power generation system 200, the in-house PCS2 and the other company's PCS3 convert the direct current of the solar cell 1 generated according to the amount of solar radiation into alternating current by a grid-connected inverter (not shown), and the converted alternating current It is possible to supply the current to a system power supply 4 (power supplied from a commercial distribution network owned by an electric power company) or a load 5 such as a home appliance used at home.

  Since the photovoltaic power generation system 200 cannot supply power with only the photovoltaic power generation system 200 when the amount of power generation is low at night or in the rainy weather or when the power consumption of the load 5 is large, the photovoltaic power generation system 200 cannot supply power. Is supplied to the load 5. On the other hand, when the amount of power generation is large in fine weather or when the power consumption of the load 5 is small, the power generated by the solar power generation system 200 is surplus, so surplus power flows backward to the commercial power source.

  The current sensor 7 is connected to the output wires of the other company's PCS 3 or the system power supply 4, detects the magnetic field generated by the current of the solar cell 1 supplied from the other company's PCS 3 or the current supplied from the system power supply 4, and generates these currents. Convert to proportional voltage. Note that the direction of current is also taken into consideration when converting to voltage. The adapter 6 takes in the power of the other company's PCS 3 and the system power supply 4 output via the current sensor 7 and outputs the power information and the like to the receiving unit 8 in a wired or wireless manner.

  In the display device 100, the receiving unit 8 acquires power information and the like from the company PCS 2 and the other company's PCS 3 and the current sensor 7. The control unit 16 outputs an instruction signal for instructing a display format of a predetermined image to the image / data storage unit 12. In addition, the control unit 16 calculates the integrated power generation amount based on the power information output from the reception unit 8 and outputs the calculated integrated power generation amount to the image / data storage unit 12. Further, the control unit 16 outputs the calculated integrated power generation amount, power information, and the like to the internal display data processing unit 9, the image switching unit 11, and the general-purpose display data processing unit 13.

  The image / data storage unit 12 stores the integrated power generation amount output from the control unit 16 together with time data. The image / data storage unit 12 stores a plurality of predetermined images displayed on the general-purpose display 17 connected to the outside. The predetermined image includes a plurality of visualized figures, graphs, tables, and the like corresponding to the value of the generated power.

  The image switching unit 11 selects an image stored in the image / data storage unit 12 based on the instruction signal output from the control unit 16, and outputs the selected image to the general-purpose display data processing unit 13.

  The general-purpose display data processing unit 13 synthesizes the image output from the image switching unit 11 and the power information output from the control unit 16 to generate data to be displayed on the general-purpose display 17. The generated data is output to the image data converter 14. Note that the information combined by the general-purpose display data processing unit 13 is not limited to power information and an image, and may be an arbitrary combination of power information and the integrated power generation amount and an image.

  The image data conversion unit 14 converts the data output from the general-purpose display data processing unit 13 into an electrical signal conforming to the standard of the general-purpose display 17. By changing the standard of the image data conversion unit 14, for example, a personal computer display, projector, TV monitor, or the like can be used as the general-purpose display 17.

  The general-purpose display device 17 can be connected to the display device 100 via an S terminal or a composite terminal (Composite Connector) not shown. Note that the image data conversion unit 14 is intended to convert an electrical signal, and therefore does not affect the present invention even if it is not included in the display image generation unit 20.

  The remote control receiving unit 15 receives a switching signal for arbitrarily switching the image stored in the image / data storage unit 12 from the external remote controller 18. The control unit 16 transmits the instruction signal described above to the image switching unit 11 based on the switching signal. The image switching unit 11 that has received the instruction signal switches the contents of power information and the like displayed on the internal display 10 or the general-purpose display 17.

  The internal display data processing unit 9 converts the power information output from the control unit 16 into the standard of the internal display 10. Hereinafter, the contents displayed on the internal display 10 or the general-purpose display 17 will be described.

  FIG. 2 is a diagram illustrating an example of a state in which power information and the like are displayed. As an example, the generated power of the company's PCS2 or another company's PCS3, the power consumption of the load 5, etc., and the power being sold to the power company (the surplus power obtained by subtracting the power consumption from the generated power) are shown together with the current time. Note that the types of power to be displayed are not limited to three. Moreover, you may display the operation state of each PCS, for example, whether it is an abnormal state with these information.

  FIG. 3 is a diagram illustrating an example of a visualized image. The conventional display device displays power information or the like on a display unit configured with a dot matrix or the like. However, the display device 100 according to the present invention has a humanoid shape as shown in FIG. It is comprised so that a figure can be selected.

  For example, an image when power is sold to an electric power company because of a large amount of generated power and an image when electric power is purchased from an electric power company because of less generated power are stored in the image / data storage unit 12 in advance. In this case, the image switching unit 11 selects an image corresponding to the instruction signal. The general purpose display data processing unit 13 combines the power information output from the control unit 16 and the image output from the image switching unit 11 to generate data to be displayed on the general purpose display 17. The generated data is output to the general-purpose display 17 via the image data converter 14. Therefore, the user can intuitively grasp the state of power information and the like without calculating whether the photovoltaic power generation system 200 is selling or buying power.

  FIG. 4 is a diagram illustrating an example of an image that changes according to power information and the like. For example, when the power is being sold, the image switching unit 11 selects the image (graphic) shown on the left in FIG. When the generated power and the power consumption are substantially the same, the image shown in the middle of FIG. 4 is selected. When power is being purchased, the image shown on the right side of FIG. 4 is selected. That is, the image switching unit 11 selects a graphic saved in the image / data storage unit 12 so that the user can recognize changes in the power information and the like.

  The figure shown in FIG. 3 or FIG. 4 is not limited to a human figure. Further, the number of change patterns is not limited to three, and more patterns may be set and changed in detail. Further, as an index for changing these figures, for example, the power generation amount shown in FIG. 3 is used. However, the power generation amount shown in FIG. It may be configured.

  Also, a plurality of visualized images that can be used to judge whether the power information is good, for example, the screen background color of the general-purpose display 17 and the increase / decrease in the number of animals and plants are stored in the image / data storage unit 12 and displayed. It may be a configuration.

  3 and 4 display the power generation amount and the graphic at the same time. However, the present invention is not limited to this. For example, the graphic and the power generation amount are switched according to the switching signal of the remote controller 18. It may be displayed.

  Hereinafter, operations of the photovoltaic power generation system 200 and the display device 100 will be described. The in-house PCS 2 and the other company's PCS 3 convert the DC voltage output from the solar cell 1 into an AC voltage, and output the converted AC voltage to the system.

  The receiving unit 8 acquires power information and the like from the company PCS 2 and the adapter 6. The control unit 16 calculates the integrated power generation amount based on the power information output from the reception unit 8 and outputs the calculated integrated power generation amount to the image / data storage unit 12. Further, the control unit 16 outputs an instruction signal to the image switching unit 11 and outputs power information and the like to the internal display data processing unit 9 and the general-purpose display data processing unit 13.

  The image / data storage unit 12 stores the integrated power generation amount output from the control unit 16 together with time data. The internal display data processing unit 9 converts power information and the like output from the control unit 16 into numerical information displayed on the internal display 10.

  The image switching unit 11 selects an image stored in the image / data storage unit 12 based on the instruction signal output from the control unit 16, and outputs the selected image to the general-purpose display data processing unit 13. The image switching unit 11 selects an image stored in the image / data storage unit 12 based on the switching signal output from the remote control receiving unit 15, and sends the selected image to the general-purpose display data processing unit 13. Output. The general-purpose display data processing unit 13 synthesizes the image output from the image switching unit 11 and the power information output from the control unit 16 to generate data to be displayed on the general-purpose display 17.

  The image data conversion unit 14 converts the data generated by the general-purpose display data processing unit 13 into a signal conforming to the standard of the general-purpose display 17. Even when the general-purpose display 17 is turned off, power information and the like can be easily displayed on the internal display 10.

  In FIG. 1, the power information and the like of the photovoltaic power generation system 200 is imported into the display device 100 via the adapter 6 for the other company's PCS and system power supply, and directly imported to the display device 100 for the in-house PCS. However, the present invention is not limited to this, and the following configuration may be used.

  FIG. 7 is a diagram showing a configuration in the case of taking in current sensors installed in other company's PCS and system power supply and in-house PCS without using an adapter. FIG. 8 is a diagram showing a configuration in the case of taking in directly from the current sensor installed in the system power supply and the company PCS. FIG. 9 is a diagram showing a configuration in the case of taking in from a current sensor installed in the system power supply and an in-house PCS via an adapter. FIG. 10 is a diagram showing a configuration in the case of taking in from a PCS of another company and a current sensor installed in a system power supply and an in-house PCS through an adapter.

  As described above, according to the display device 100 of the first embodiment, the predetermined information including a plurality of visualized figures corresponding to the power information output from the photovoltaic power generation system 200 and the value of the generated power. Is displayed on the general-purpose display 17 connected externally in accordance with an instruction signal from the control unit 16, so that the user can easily obtain power information and the like without having to approach each PCS or the internal display 10. It is possible to confirm power information etc. intuitively. As a result, it is possible to further increase the user's awareness of energy saving as compared with conventional display devices. Further, the same effects can be obtained in connection forms with various photovoltaic power generation systems shown in FIGS.

Embodiment 2. FIG.
The display device 100 according to the second embodiment is configured to be able to display power information and the like on the general-purpose display 17 by a predetermined graph or table format stored in the image / data storage unit 12.

  FIG. 5 is a diagram illustrating an example of power information and the like displayed in a table format. The table in FIG. 5 shows, for example, the amount of power generated on August 8, 2008 for each hour. A plurality of such tables are stored in advance in the form of the template 1 or the like in the image / data storage unit 12.

  The operation of the display device 100 in this case is as follows. The image switching unit 11 selects a table stored in the image / data storage unit 12 in accordance with the instruction signal output from the control unit 16. The selected table is output to the general-purpose display data processing unit 13 and is combined with the data such as the power information output from the control unit 16, and the time and the amount of generated power are input as shown in FIG. In this state, it is transmitted to the image data converter 14 and displayed on the general-purpose display 17.

  In addition, although the table | surface shown in FIG. 5 shows the electric power generation amount for every time, it is not limited to this, For example, power consumption amount, electric power sale amount, electric power purchase amount etc. are displayed for every time. May be. The table in FIG. 5 shows the power generation amount for 12 hours, but is not limited to this. For example, the power generation amount may be set in units of one month or one year.

  FIG. 6 is a diagram illustrating an example of power information displayed in a graph format. The graph of FIG. 6 shows, for example, the amount of power generated, the amount of power consumed, the amount of power sold, and the amount of power purchased on August 31, 2007 in units of time. A plurality of the graphs are stored in advance in the form of the template 1 or the like in the image / data storage unit 12. The graph is selected by the image switching unit 11, combined with power information and the like in the general-purpose display data processing unit 13, and displayed on the general-purpose display 17 via the image data conversion unit 14. The operation of the display device 100 in this case is the same as described above, and a description thereof is omitted below.

  The graph of FIG. 6 shows the power generation amount for 24 hours, but is not limited to this, and may be set in units of, for example, one month or one year. Moreover, although the graph of FIG. 6 is shown by the bar graph, a line graph etc. may be sufficient.

  Note that the table shown in FIG. 5 and the graph shown in FIG. 6 are selected by the image switching unit 11 in accordance with the switching signal output from the remote controller 18, and are alternately switched and displayed on the general-purpose display 17. It is possible.

  As described above, according to the display device 100 of the second embodiment, the power information output from the photovoltaic power generation system 200 and the table or graph stored in advance in the image / data storage unit 12 are controlled. Since it is displayed on the general-purpose display 17 connected externally in response to the instruction signal of the unit 16, the user can easily check the state of each PCS without having to approach each PCS or the internal display 10. It is possible to confirm. Further, since detailed data such as the amount of generated power is visualized using a table or graph stored in the image / data storage unit 12, the user must intuitively grasp changes in the power information and the like. Is possible. In addition, the user can check power information and the like from different viewpoints by operating the remote controller 18 while looking at the general-purpose display 17. Further, the same effects can be obtained in the connection forms of various photovoltaic power generation systems shown in FIGS.

  As described above, the display device according to the present invention is useful for a display device that displays the state of a power conditioner that converts DC power generated by a solar cell into AC power.

  1 solar cell, 2 in-house PCS, 3rd party PCS, 4 power supply, 5 load, 6 adapter, 7 current sensor, 8 receiving unit, 9 internal display data processing unit, 10 internal display, 11 image switching unit, 12 image Data storage unit, 13 general-purpose display data processing unit, 14 image data conversion unit, 15 remote control receiving unit, 16 control unit, 17 general-purpose display, 18 remote control, 20 display image generation unit, 100 display device, 200, 300, 400, 500, 600 Solar power generation system.

Claims (4)

In a display device that is connected to a power conditioner that supplies the generated power of the solar cell to the system power supply and displays the state of the generated power,
An image storage unit for storing a predetermined image including a plurality of visualized figures corresponding to the value of the generated power;
A general-purpose external device that selects the predetermined image from the image storage unit based on the generated power, synthesizes the selected predetermined image and power information including the generated power, and is installed outside the display device A display image generation unit for generating image data to be displayed on the display;
An image data converter having a terminal for converting the signal format of the image data output from the display image generator to a signal conforming to the standard of the general-purpose external display, and connecting the general-purpose external display;
An internal display data processing unit that converts the power information from the display image generation unit into numeric information and displays the information on an internal display in the display device;
With
The image data conversion unit outputs a signal conforming to the standard to the general-purpose external display connected to the terminal, and is an image obtained by combining the predetermined image and the power information, and the internal display Display an image with higher visibility than the image displayed on the
The display device characterized in that the internal display displays numerical information converted by the internal display data processing unit.   The display device according to claim 1, wherein the predetermined image includes a predetermined graph and a table indicating changes in the generated power.   The display device according to claim 1, wherein the power information includes an integrated power generation amount calculated based on the generated power.   The display device according to claim 1, wherein the general-purpose external display is a TV monitor.

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