JP2005191578A - Solar power generation system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To overcome disadvantages in embodiment methods of a conventional solar power generation system such as a disadvantage in an embodiment example in which the system is provided on a building roof that the area of a building roof is limited, a fine sight is spoiled, etc., a disadvantage in an embodiment example in which the system is provided in a glass that cannot be opened that there is almost no advantage compared to a case where a solar cell module is provided in a wall, a disadvantage in an embodiment example in which a light emitting diode in a glass is made to emit light that the effect of power generation is limited, etc. <P>SOLUTION: These advantages are overcome by arranging solar cells in a door or a glass that can be opened and closed to provide a solar cell module and sending a current generated in the solar cell module to a battery, an inverter, etc., via a reverse-current preventing diode or a solar cell charge/discharge controller using a non-contact scheme such as a scheme utilizing electromagnetic induction. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a photovoltaic power generation system, in which solar cells are arranged in a door or window that can be opened and closed, installed as a solar cell module, and a current generated in the solar cell module is contactless by electromagnetic induction or By using the lead wire, power is transmitted to the battery and the inverter through the backflow prevention diode or the solar cell charge / discharge controller, thereby creating a new example of solar power generation and reducing the power generation amount of the entire solar power generation system. It is to increase.

  Conventionally, as a photovoltaic power generation system, an example in which a solar cell module is installed on the roof of a building, an example in which a solar cell is encapsulated in a glass for slaughter, and light emission with the solar cell in the glass There is an embodiment in which a diode is lighted by electricity generated by enclosing the diode.

  However, in the conventional implementation method, for the example on the building roof, the area on the building roof is limited, the inconvenience such as the appearance of the building is impaired, the solar cell module is installed on the wall for the example in the glass that is slammed. Inconvenient that it is not much different from the provision of the light emitting diode, light emitting diodes in the glass are inconvenient and the effect of power generation is limited.

  This invention makes it a subject to arrange | position a photovoltaic cell in the door or window which can be opened and closed, and to install and utilize as a photovoltaic module, and to solve these disadvantages.

  In order to solve this problem, the present invention arranges solar cells in a door or window that can be opened and closed, installs them as a solar cell module, and uses a non-contact system or a lead wire by electromagnetic induction for the current generated in the solar cell module. Thus, the photovoltaic power generation system is characterized in that power is transmitted to a battery, an inverter, and the like via a backflow prevention diode or a solar cell charge / discharge controller.

  According to the present invention, the solar cell module can expand the area of a place where it can be implemented, such as a door or a window, without impairing the appearance of the building, and the electric power generated by the solar cell can be used as a general electric appliance. It becomes possible to use it.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 shows a first embodiment of the present invention, that is, solar cells are arranged in a door or window that can be opened and closed, installed as a solar cell module, and the current generated in the solar cell module is contactless by electromagnetic induction. 1 is an embodiment of a photovoltaic power generation system characterized in that power is transmitted to a battery, an inverter, and the like via a backflow prevention diode or a solar cell charge / discharge controller.

  As shown in FIG. 1, this solar power generation system arrange | positions a photovoltaic cell (2) in a door or a window (1), and installs it as a solar cell module (3).

  The current generated in the solar cell module (3) is transmitted to the battery (5), the inverter (6) and the like via a backflow prevention diode or the solar cell charge / discharge controller (4) in a non-contact manner by electromagnetic induction.

  That is, an excitation coil (7) is provided on the side of a door or window that can be opened and closed, a magnetic field is generated by passing an electric current generated in the solar cell module (3), and a detection coil (8) provided on the building or sash side. By detecting an electric current and generating an induced current, power is transmitted to the battery (5), the inverter (6), etc. via the backflow prevention diode or the solar cell charge / discharge controller (4).

  Such a contactless power transmission method using electromagnetic induction is excellent in waterproofness and dustproofness, and is suitable for use in a door or window that can open and close the solar cell module.

  FIG. 2 shows a second embodiment of the present invention, that is, solar cells are arranged in a door or window that can be opened and closed, installed as a solar cell module, and a current generated in the solar cell module is used as a conductor. The embodiment of the photovoltaic power generation system is characterized in that power is transmitted to the battery and the inverter through the backflow prevention diode or the solar cell charge / discharge controller.

  As shown in FIG. 2, this solar power generation system arrange | positions a photovoltaic cell (10) in a door or a window (9), and installs it as a solar cell module (11).

  The current generated in the solar cell module (11) is transmitted to the battery (14), the inverter (15), etc. via the backflow prevention diode or the solar cell charge / discharge controller (13) by using the lead (12). To do.

  That is, the battery (14) and the inverter are connected via the backflow prevention diode or the solar cell charge / discharge controller (13) by connecting the openable door or window side and the building or sash side with the conductive wire (12). (15).

  In addition, when connecting between the door or window side that can be opened and closed and the building or sash side with a conductor (12), the conductor can be stored on the window side or the building or sash side when the door or window is opened and closed. A structure that maintains a state of being always connected by a structure is not limited to a structure that maintains a state of being connected only by cutting or a certain opening / closing state with the opening / closing of a door or a window.

  Moreover, the objective of this invention is to arrange | position a photovoltaic cell in the door or window which can be opened and closed, and to enable it to install as a photovoltaic module, and the practitioner of this invention is needed for a general photovoltaic power generation system. Similarly to the present invention, the backflow prevention diode, the solar battery charge / discharge controller, the battery and the inverter, etc. can be omitted as appropriate. All or part of the battery charge / discharge controller, battery, inverter, etc. may be omitted as appropriate.

  INDUSTRIAL APPLICABILITY The present invention makes it possible to provide a solar power generation system not only for ordinary houses and condominiums but also for all buildings such as office buildings, factories, and public buildings, and can be widely used industrially.

  1 is a schematic diagram of a photovoltaic power generation system according to a first embodiment of the present invention.   It is a schematic diagram of the solar energy power generation system which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 9 House or window 2, 10 Solar cell 3, 11 Solar cell module 4, 13 Backflow prevention diode or solar cell charge / discharge controller 5, 14 Battery 6, 15 Inverter 7 Excitation coil 8 Detection coil 12 Conductor

Claims (1)

  A solar cell is arranged in a door or window that can be opened and closed, installed as a solar cell module, and the current generated in the solar cell module is utilized by a non-contact method or a lead wire by electromagnetic induction, thereby preventing a backflow prevention diode or solar cell. A photovoltaic power generation system characterized in that power is transmitted to a battery and an inverter through a charge / discharge controller.

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