JP2010135206A - Lighting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lighting system having a solar battery, and effectively using the light emitted by an electric lamp. <P>SOLUTION: This lighting system 10 has a fluorescent lamp 11, the solar battery 12 arranged in the back face vicinity of the fluorescent lamp 11, a secondary battery 13 for storing electric power generated by the solar battery 12, a light emitting diode 14 electrically connected to the secondary battery 13 via second wiring 19 and a cable 20, and a control device 15 for performing control for supplying the electric power generated by the solar battery 12 and stored in the solar battery 12, to the light emitting diode 14 when cutting off supply of the electric power to the fluorescent lamp 11, and is characterized in that the light emitting diode 14 forms a switch of the fluorescent lamp 11. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an illumination device including a solar cell.

Conventionally, as a lighting device equipped with a solar cell, a device that charges a storage battery with electric power generated by the solar cell and converts the electricity charged in the storage battery into an alternating current by an inverter at night is disclosed. (For example, refer to Patent Document 1).
JP 10-189262 A

  The illuminating device disclosed in Patent Document 1 only lights a fluorescent lamp using electric power generated by a solar cell installed outdoors, and does not effectively use light emitted from the fluorescent lamp. .

  This invention is made | formed in view of the said situation, Comprising: It aims at providing the illuminating device provided with a solar cell and using effectively the light which an electric lamp emits.

  An illuminating device of the present invention includes an electric lamp, a solar battery disposed in the vicinity of the back of the electric lamp, a secondary battery that accumulates electric power generated by the solar battery, and an electrical connection to the secondary battery via a conductor. A light-emitting diode connected to the light-emitting diode, and a control means for controlling supply of the power generated by the solar cell and stored in the secondary battery to the light-emitting diode when power supply to the lamp is cut off. The light-emitting diode is configured to switch the lamp.

  An illuminating device of the present invention includes an electric lamp, a solar battery disposed in the vicinity of the back of the electric lamp, a secondary battery that accumulates electric power generated by the solar battery, and an electrical connection to the secondary battery via a conductor. A light-emitting diode connected to the light-emitting diode, and a control means for controlling supply of the power generated by the solar cell and stored in the secondary battery to the light-emitting diode when the supply of power to the lamp is cut off. , And the light emitting diode serves as a switch for the electric light. Therefore, the light emitted from the electric light can be received by the solar cell without reducing the illumination efficiency of the light emitted from the electric light. And the electric power which the solar cell generate | occur | produced with the received light is once accumulate | stored in a secondary battery, The electric power can be supplied to a light emitting diode simultaneously with light extinction, and a light emitting diode can be light-emitted. Therefore, the light emitting diode can emit light by effectively using the light emitted from the lamp. In addition, it is possible to easily find a light emitting diode that serves as a light switch even in darkness such as in a dark room.

The best mode of the lighting device of the present invention will be described.
This embodiment is specifically described for better understanding of the gist of the invention, and does not limit the present invention unless otherwise specified.

FIG. 1: is a schematic block diagram which shows one Embodiment of the illuminating device of this invention, (a) is a top view, (b) is sectional drawing which follows the AA line of (a).
The illuminating device 10 of this embodiment is schematically configured from a fluorescent lamp 11, a solar cell 12, a secondary battery 13, a light emitting diode (hereinafter referred to as “LED”) 14, and a control device 15. Has been.

The solar cell 12 is disposed on the back side of the fluorescent lamp 11 in the vicinity of the fluorescent lamp 11. In other words, in this embodiment, the solar cell is directed toward one surface (surface facing the fluorescent lamp 11) 16 a of the back plate (reflecting plate) 16 of the fluorescent lamp 11 and the window electrode side (light receiving surface side) faces the fluorescent lamp 11. A battery 12 is provided.
The back plate 16 is supported by a base 17.

  Moreover, it is preferable that the space | interval of the fluorescent lamp 11 and the backplate 16 is 1.5 cm or less. The amount (light quantity) of light emitted from a general 20 W fluorescent lamp 11 is about 15,000 lux to 20,000 lux within a range of 1.5 cm from the surface of the fluorescent lamp 11, and is a solar cell. 12, in order to efficiently receive this light, the distance between the fluorescent lamp 11 and the back plate 16 is preferably 1.5 cm or less.

  Further, the area of the light receiving surface of the solar cell 12 is appropriately adjusted according to the outer diameter and number of the fluorescent lamps 11 and the light quantity of the fluorescent lamps 11.

The secondary battery 13 is electrically connected to the solar battery 12 via the first wiring 18 and accumulates the electric power generated by the solar battery 12.
Further, the secondary battery 13 is electrically connected to the LED 14 via the second wiring 19 and a cable 20 connected to the second wiring 19 and hanging from the surface 17 a facing the back plate of the base 17. That is, the LED 14 is provided at the tip of the cable 20.
Further, the cable 20 is joined to a switch of the fluorescent lamp 11, and by pulling the cable 20, the fluorescent lamp 11 can be turned on or off.

The control device 15 is electrically connected to the secondary battery 13 via the third wiring 21 and further electrically connected to the second wiring 19 via the fourth wiring 22.
Further, when the supply of power to the fluorescent lamp 11 is cut off (when the switch is turned off), the control device 15 supplies the power generated by the solar cell 12 and accumulated in the secondary battery 13 to the LED 14. Control is performed.

A general lamp is used as the fluorescent lamp 11.
The solar cell 12 includes a window electrode and a counter electrode supported by a base material, and a polymer power generation layer provided between these electrodes.
As a material forming the polymer power generation layer, a material for forming a functional film disclosed in JP-T-2005-530351 or JP-A-2006-12802 is used.

The secondary battery 13 is not particularly limited, and a general secondary battery is used.
The LED 14 is not particularly limited, and a general light emitting diode is used.

  As the control device 15, one provided with a circuit that prevents backflow from the secondary battery 13 to the solar battery 12 or one provided with a circuit that prevents overcharge from the solar battery 12 to the secondary battery 13 is used. .

As the first wiring 18, the second wiring 19, the third wiring 21, and the fourth wiring 22, general conductive wires are used.
As the cable 20, a wire cable in which a general conductive wire is covered with an insulator is used.

Next, operation | movement of the illuminating device 10 is demonstrated.
In this lighting device 10, when the fluorescent lamp 11 is turned off, when the cable 20 is pulled, the fluorescent lamp 11 is turned on, and the light emitted from the fluorescent lamp 11 is received by the solar cell 12 disposed on the back side thereof. As a result, electric power is generated in the solar cell 12. The generated power is automatically stored in the secondary battery 13.

On the other hand, when the fluorescent lamp 11 is lit, when the cable 20 is pulled, the power supply from the power source to the fluorescent lamp 11 is cut off, and the fluorescent lamp 11 is turned off. At the same time, supply of power from the secondary battery 13 to the LED 14 is started under the control of the control device 15.
Then, the LED 14 is turned on, and the LED 14 that functions as a switch of the fluorescent lamp 11 can be easily found even in the dark such as a dark room.

  Further, when the cable 20 is pulled again in this state, the fluorescent lamp 11 is turned on, and electric power is generated in the solar cell 12. The generated power is automatically stored in the secondary battery 13.

  According to this illuminating device 10, a fluorescent lamp 11, a solar battery 12 disposed in the vicinity of the fluorescent lamp 11 on the back side of the fluorescent lamp 11, and a secondary battery that accumulates electric power generated by the solar battery 12. 13, the LED 14 electrically connected to the secondary battery 13, and the power supplied to the fluorescent lamp 11, the power generated by the solar battery 12 and accumulated in the secondary battery 13 is transferred to the LED 14. And the control device 15 that performs the supply control, so that the light emitted from the fluorescent lamp 11 can be received by the solar cell 12 without lowering the illumination efficiency by the light emitted from the fluorescent lamp 11. And the electric power which the solar cell 12 generate | occur | produced with the received light is once accumulate | stored in the secondary battery 13, The electric power can be supplied to LED14 simultaneously with the extinction of the fluorescent lamp 11, and LED14 can be light-emitted. Therefore, the LED 14 can emit light by effectively using the light emitted from the fluorescent lamp 11.

In addition, in this embodiment, although the illuminating device 10 provided with the fluorescent lamp 11 was illustrated as an electric lamp, the illuminating device of this invention is not limited to this. In the lighting device of the present invention, an incandescent bulb, an arc discharge lamp, or a light emitting diode may be used as the electric lamp.
Further, the number of electric lamps is not particularly limited, and two or more electric lamps may be provided.

  Further, in this embodiment, the lighting device 10 is illustrated in which the LED 14 is provided at the tip of the cable 20 that is joined to the switch of the fluorescent lamp 11 and electrically connected to the secondary battery 13. The lighting device is not limited to this. In the illuminating device of the present invention, the LED electrically connected to the secondary battery via the lead wire is disposed on the wall or the like so as to be separated from the lamp, and the LED serves as a switch of the lamp. Good.

It is a schematic block diagram which shows one Embodiment of the illuminating device of this invention, (a) is a top view, (b) is sectional drawing which follows the AA line of (a).

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Illuminating device, 11 ... Fluorescent lamp, 12 ... Solar cell, 13 ... Secondary battery, 14 ... Light emitting diode (LED), 15 ... Control device, 16 ... Back plate, 17 ... base, 18 ... first wiring, 19 ... second wiring, 20 ... cable, 21 ... third wiring, 22 ... fourth wiring.

Claims (1)

An electric lamp, a solar cell disposed in the vicinity of the back surface of the electric lamp, a secondary battery for accumulating electric power generated by the solar cell, and a light-emitting diode electrically connected to the secondary battery via a conductor. Control means for controlling the supply of the electric power generated by the solar cell and stored in the secondary battery to the light emitting diode when the supply of electric power to the lamp is cut off, and the light emitting diode Is a switch for the electric light.

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