JP2006024636A - Solar power generation equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To downsize solar power generation equipment by displaying much information by a small number of light emitting elements. <P>SOLUTION: The solar power generation equipment includes a solar battery panel, a detection circuit for detecting a plurality of pieces of information regarding the functions of the panel, a display unit 16 for displaying the plurality of pieces of information detected by the detection circuit, and a display control circuit for controlling the display unit 16. The display unit 16 includes a plurality of light emitting elements (7, 8a, 8b, 11 and 12) each varying in format independently. The display control circuit can display one of the plurality of pieces of information on the display unit 16 by a combination of the formats of two or more light emitting elements among the plurality of elements. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a small-sized solar power generation device.

Conventionally, a residential solar power generation apparatus installed on a roof of a house has a solar cell panel, a detection circuit that detects a charge amount of power charged in the solar cell panel and a remaining amount of power of the storage battery, and detection. And a display unit that displays the amount of charge and the remaining amount of power according to the type of signal output by the circuit. In a conventional residential solar power generation device, the amount of charge and the remaining amount of power are displayed numerically on the display unit.
Japanese Patent Laid-Open No. 11-330521

  However, in a small portable solar power generation device, it is necessary to reduce the size and simplify the internal circuit and the display unit. Therefore, a large display part and an internal circuit cannot be provided as in a conventional residential solar power generation device.

  As a result, the small portable solar power generation device cannot grasp the charged state of the solar cell panel. For this reason, the solar cell cannot be charged in the optimum direction. Therefore, it cannot be charged efficiently. Moreover, since the remaining amount of the storage battery is not known, the usable time cannot be grasped when the device is used. Furthermore, in a conventional residential solar power generation device, it is not possible to grasp an abnormality occurring in each part.

  On the other hand, if a large display unit and an internal circuit for displaying the amount of charge, the remaining amount of power, and abnormality information as described above are provided, the photovoltaic power generation device cannot be reduced in size.

  This invention is made | formed in view of the above-mentioned problem, The objective is to provide the small solar power generation device which can display many information.

  The solar power generation device of the present invention controls a solar cell panel, a detection circuit that detects a plurality of information related to the function of the solar cell panel, a display unit that displays a plurality of information detected by the detection circuit, and a display unit. A display drive circuit, and the display unit includes a plurality of light emitting elements whose modes can be independently changed, and the display drive circuit includes a combination of modes of two or more light emitting elements among the plurality of light emitting elements. At least one of the plurality of information can be displayed on the display unit.

  According to said structure, many information can be displayed with fewer light emitting elements. As a result, the photovoltaic power generator can be reduced in size.

  The information on the function of the solar cell panel includes information on the amount of power charged by the solar cell panel, information on the remaining amount of power generated by the solar cell panel and stored in the storage battery, and output from the storage battery. Information on the abnormality of the power to be generated.

  The above-described light-emitting element modes include a lighting mode, a flashing mode, and a light-off mode, and the flashing mode includes a plurality of types of flashing with different speeds, and depending on each speed of the plurality of types of flashing, It is desirable to display the stage of the state specified by the information. Also by this, a lot of information can be displayed with few light emitting elements.

  Hereinafter, the solar power generation device of embodiment of this invention is demonstrated using FIGS. 1-4.

  As shown in FIGS. 1 to 4, the solar power generation device 15 of the present embodiment includes a solar cell panel 1 that functions as a power generation unit that receives sunlight on the light receiving surface 1 a and generates power, and the solar cell panel 1 generates power. A storage battery 3 that is charged with the electric power to be charged, and a charge control unit 2 that controls the electric power to be efficiently sent from the solar cell panel 1 to the storage battery 3. Moreover, the solar power generation device 15 includes an inverter 10 that converts DC power output from the storage battery 3 into AC power, and a charge amount detection circuit 5 that detects a charge amount of power sent from the solar cell panel 1 to the storage battery 3. It has.

  Further, the solar power generation device 15 receives a remaining amount detection circuit 6 that detects the remaining amount of power remaining in the storage battery 3, and a detection signal transmitted from each of the charge amount detection circuit 5 and the remaining amount detection circuit 6. And a display drive circuit 9. Moreover, the solar power generation device 15 includes a load abnormality detection circuit 20 that detects an abnormality in the power output from the inverter 10 to the AC 100V load and detects an abnormality in the power output from the storage battery 3 to the DC load 12V. Yes.

  Moreover, the solar power generation device 15 is a display unit controlled by the display drive circuit 9, and includes a single light emitting element (charging LED (Light Emit Diode)) 7 a, and the electric power charged in the storage battery 3. A charge amount display unit 7 for displaying a charge amount, and a remaining amount display unit 8 for displaying the remaining amount of electric power remaining in the storage battery 3, comprising two light emitting elements (full LED and empty LED) 8 a and 8 b. It has.

  The charge amount display unit 7 and the remaining amount display unit 8 are provided in the display unit 16. As shown in FIG. 2, the display unit 16 is a part that becomes a handle used when carrying the solar power generation device 15, and can change the direction in which the light receiving surface 1 a of the solar power generation device 15 faces. A possible angle variable stand 4 is provided. Further, the angle changing stand 4 is provided on the surface of the solar cell panel 1 opposite to the light receiving surface 1a.

  In addition, the display unit 16 includes a single light emitting element, and is turned on when DC power is supplied to a DC 100 V load, and blinks when an abnormality occurs in the DC power. Unit 12, which is composed of one light emitting element, lights up when AC power is supplied to an AC (Alternative Currency) 100V load, and blinks when an abnormality occurs in the AC power, AC100V display unit 11, AC power AC output switch 13 for determining whether or not to output DC power and DC switch 14 for determining whether or not to output DC power are provided.

  When the DC switch 14 is ON and the AC output switch 13 is OFF, DC power is supplied to the DC load. Further, when the AC output switch 13 is ON and the DC switch 14 is OFF, AC power is supplied to the AC load.

  The display drive circuit 9 controls the light emission mode of the remaining amount display unit 8, that is, the LED light emission mode such as lighting, blinking, and extinction, based on the detection signal transmitted from the remaining amount detection circuit 6. To do. Thereby, as shown in Table 1, the remaining amount of electric power stored in the storage battery 3 is displayed on the remaining amount display unit 8.

  When the DC switch 14 is ON and the AC output switch 13 is ON, DC power is supplied to the DC load and AC power is supplied to the AC load.

  As shown in Table 1, when the storage battery 3 is fully charged and the charging is stopped, the display drive circuit 9 turns on the full LED 8a and the empty LED 8b in the remaining amount display unit 8. Turn off the light. Further, when the storage battery 3 is in a dischargeable state and the voltage range of the storage battery 3 is 12.4 V or more, the display driving circuit 9 causes the full LED 8a to blink and the empty LED 8b in the remaining amount display portion 8. Turn off the light. Further, the display drive circuit 9 turns off the full LED 8a in the remaining amount display portion 8 when the storage battery 3 is in a dischargeable state and the voltage range of the storage battery 3 is 11.5 V or more and less than 12.4. At the same time, the empty LED 8b blinks. Further, the display drive circuit 9 is provided in the remaining amount display unit 8 when the storage battery 3 is in a chargeable state and the voltage range of the storage battery 3 is less than 11.5, or when the discharge cannot be performed in the overdischarge prevention state. The full LED 8a is turned off and the empty LED 8b is turned on.

  The display driving circuit 9 controls the mode of light emission of the charge amount display unit 7, that is, the mode of LEDs such as lighting, blinking, and extinguishing based on the detection signal transmitted from the charge amount detection circuit 5. . Thereby, as shown in Table 2, the charge amount of the electric power charged by the solar cell panel 1 is displayed on the charge amount display unit 7.

  As shown in Table 2, when the current range corresponding to the charge amount exceeds 2.4 A, the display drive circuit 9 has a large charge amount of power charged from the solar cell panel 1 to the storage battery 3. As a certain thing, charge LED7a of the charge amount display part 7 is made to light. Further, when the current range corresponding to the charge amount is 1.2 A or more and less than 2.4 A, the display drive circuit 9 has a “medium” charge amount of power charged from the solar cell panel 1 to the storage battery 3. As a certain thing, the charge LED 7a of the charge amount display unit 7 blinks at a high speed. Further, when the current range corresponding to the charge amount is 0.4 A or more and less than 1.2 A, the display drive circuit 9 has a small charge amount of power charged from the solar cell panel 1 to the storage battery 3. As a certain thing, the charge LED 7a of the charge amount display part 7 is blinked at a slow speed. Further, when the current range corresponding to the charge amount is less than 0.4 A, the display drive circuit 9 assumes that the charge amount of power charged from the solar cell panel 1 to the storage battery 3 is “None”. The charge LED 7a of the charge amount display unit 7 is turned off.

  In addition, each of the charge amount detection circuit 5 and the remaining amount detection circuit 6 receives an abnormality signal indicating an abnormality related to charging of the solar battery panel 1 and an abnormality related to power storage of the storage battery 3, and a plurality of LEDs according to the content of the abnormality Any one or more of the LEDs are blinked, and as shown in Table 3, what kind of abnormality is occurring is displayed on the entire display unit 16.

  The display drive circuit 9 blinks the DC 12 V display unit 12 and the empty LED 8 b when an abnormal voltage is generated in the solar cell panel 1. Moreover, the display drive circuit 9 blinks the DC12V display unit 12 and the full LED 8a when an abnormal voltage is generated in the storage battery 3. Moreover, the display drive circuit 9 blinks only the DC12V display part 12 when the abnormal voltage has generate | occur | produced in the direct-current power output to DC load. Further, when an abnormal voltage is generated in the AC power output to the AC load, the display driving circuit 9 blinks the AC 100V display unit 12. Moreover, the display drive circuit 9 blinks the charging LED 7a of the AC 100V display unit 12 and the charge amount display unit 7 when an abnormality has occurred in the detection of the AC load short circuit.

  In addition, each device other than the solar cell panel 1 of the solar power generation device 15 is provided on the side opposite to the light receiving surface 1 a of the solar cell panel 1. Therefore, even when the solar power generation device 15 is used, the temperature rise of each device is suppressed, and the charge amount display unit 7 and the remaining amount display unit 8 are easily visible.

  As described above, the solar power generation device 15 according to the embodiment can efficiently display the level display function of the power generation amount and the level display function of the remaining amount of the storage battery 3 using the display unit with a simple configuration. it can. Therefore, the charge amount by the solar cell panel 1 can be visually observed at a glance. As a result, the light receiving surface 1a of the solar cell panel 1 can be charged in the optimum direction. In addition, the remaining capacity of the storage battery 3 can be seen at a glance by the remaining amount display unit 8.

  In addition, when an abnormality occurs in the internal circuit, it is possible to display which of the plurality of circuits is abnormal by a combined display of a lighting mode, a lighting mode, and a flashing mode of the plurality of display units. it can.

  That is, according to the solar power generation device 15 of the present embodiment as described above, combinations of modes of two or more light emitting elements among a plurality of light emitting elements (7, 8a, 8b, 11, and 12) (Table 1). 1 to 3), any one piece of information (see Tables 1 to 3) is displayed on the display unit 16. Therefore, a large amount of information can be displayed by fewer light emitting elements (7, 8a, 8b, 11, and 12). As a result, the solar power generation device 15 can be reduced in size.

  Further, since different information (see Table 2) can be displayed on the display unit 16 in accordance with the speed of each of a plurality of types of blinking of the light emitting elements (7, 8a, 8b, 11, and 12), there are few light emitting elements. Numerous information can be displayed on the elements (7, 8a, 8b, 11, and 12).

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a perspective view at the time of use of the solar power generation device of an embodiment. It is a figure which shows the display part of the back surface of the solar power generation device of embodiment. It is a block diagram which shows the system configuration | structure of the solar power generation device of embodiment. It is a figure which shows the display part of the solar power generation device of embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Solar cell panel, 2 Charge control apparatus, 3 Storage battery, 4 Angle variable stand, 5 Charge amount detection circuit, 6 Remaining amount detection circuit, 7 Charge amount display part, 7a, 7b Light emitting element, 8 Remaining amount display part, 8a Light emitting element, 9 display drive circuit, 10 inverter, 11 AC100V display unit, 12 DC12V display unit, 13 AC output switch, 14 DC switch, 15 solar power supply device, 16 display unit.

Claims (3)

A solar panel,
A detection circuit for detecting a plurality of pieces of information regarding the function of the solar cell panel;
A display unit for displaying a plurality of pieces of information detected by the detection circuit;
A display driving circuit for controlling the display unit,
The display unit includes a plurality of light emitting elements each of which can be independently changed,
The display driving circuit can display at least one information of the plurality of information on the display unit by a combination of two or more light-emitting elements among the plurality of light-emitting elements. , Solar power generator.   The information on the function of the solar cell panel includes information on the amount of power charged by the solar cell panel, information on the remaining amount of power generated by the solar cell panel and stored in the storage battery, and the storage battery. The solar power generation device according to claim 1, comprising information on an abnormality in the power output from. The mode of the light emitting element includes a lighting mode, a flashing mode, and a lighting mode,
The flashing mode includes multiple types of flashing with different speeds,
The photovoltaic power generation apparatus of Claim 1 which displays the step of the state specified by the said information according to each speed of the said multiple types of blinking.

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