JP2014186962A - Illumination system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting control system capable of facilitating determination of outdoor brightness.SOLUTION: The illumination system 1 includes: a photovoltaic power generation system 2 that generates electric power using sunshine, and a control section 3 that determines corresponding outdoor brightness from information about power generation amount generated by the photovoltaic power generation system 2.

Description

  Embodiments described herein relate generally to a lighting system.

  In recent years, a system that collectively manages the energy of electrical equipment in a house has been used in conjunction with a photovoltaic power generation system. This solar power generation system generates power using sunlight in a solar module formed by a plurality of solar battery panels. The electric power generated by the solar module is supplied to electric devices such as a television device, an air conditioner, and a lighting fixture. Moreover, the electric power generated by the solar module is temporarily stored in a household storage battery and used at night or the like.

  Thus, conventionally, the photovoltaic power generation system is only used for power generation and power management. In addition, lighting fixtures to which power generated by the solar power generation system is supplied are only turned on / off and a simple dimming operation, and control according to the amount of power generated by the solar power generation system is not possible. It was not done.

  By the way, the light environment is different between outdoors and indoors, that is, the indoor brightness and the outdoor brightness are different. In order to check the appearance of the color outdoors, it is necessary to detect the outdoor brightness when lighting an indoor lighting fixture with the same brightness as the outdoor environment. Then, the indoor lighting fixture must be controlled so as to reproduce the detected outdoor brightness.

  However, conventionally, in order to detect outdoor brightness, for example, an illuminance sensor or the like must be installed near the window of a house to determine the outdoor brightness, and the outdoor brightness can be easily determined. I could not.

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  Accordingly, an object of the present embodiment is to provide an illumination system that can easily determine outdoor brightness.

  An illumination system according to an embodiment includes: a solar power generation system that generates power using sunlight; and a control unit that determines outdoor brightness corresponding to information on the amount of power generated by the solar power generation system. .

  According to this embodiment, the outdoor brightness can be easily determined.

It is a figure which shows the structure of the illumination system which concerns on this Embodiment. It is a figure for demonstrating the example of the table. It is a figure for demonstrating the relationship between electric power generation amount and outdoor brightness.

  An illumination system according to an embodiment includes: a solar power generation system that generates power using sunlight; and a control unit that determines outdoor brightness corresponding to information on the amount of power generated by the solar power generation system. .

  According to such a configuration, the information on the amount of power generated by the photovoltaic power generation system can be used for outdoor brightness determination, and it is not necessary to provide an illuminance sensor or the like for detecting outdoor brightness at the window. .

  The lighting system according to the embodiment further includes a dimmable lighting fixture; and the control unit controls dimming of the lighting fixture based on the determined outdoor brightness.

  Moreover, the said control part controls the light control of the said lighting fixture so that it may become equivalent to the said outdoor brightness based on the determined said outdoor brightness.

  According to such a configuration, it is possible to experience an outdoor light environment close to real time indoors. Thereby, the user can select clothes, make up, and the like while confirming how the colors appear in the outdoor environment when going out.

  The lighting system according to the embodiment further includes a table in which information on the amount of power generated by the solar power generation system is associated with the corresponding outdoor brightness.

  Moreover, the said control part determines the said outdoor brightness corresponding from the information of the said electric power generation amount with reference to the said table.

  In the embodiment, the table in which the power generation amount information and the corresponding outdoor brightness are associated with each other is not limited to one, and may have a plurality of tables that are changed for each season. When the control unit selects an optimum table for each season from a plurality of tables, the outdoor brightness can be more accurately determined.

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

  First, based on FIG. 1, the structure of the illumination system which concerns on embodiment of this invention is demonstrated.

  FIG. 1 is a diagram showing a configuration of an illumination system according to the present embodiment.

  As shown in FIG. 1, the lighting system 1 includes a photovoltaic power generation system 2, a control unit 3, a table 4, and a lighting fixture 5. In addition, a television device 6, an air conditioner 7, and a figure 8 are installed in the house 9.

  The solar power generation system 2 includes a solar power module 11, a power conversion unit 12, a distributor 13, a power generation amount calculation unit 14, and a power generation amount transmission unit 15.

  The solar module 11 is formed by a plurality of solar battery panels, and is installed on the roof of the house 9, for example. The solar module 11 generates direct-current power using sunlight, which is natural energy, and outputs it to the power conversion unit 12 and the power generation amount calculation unit 14.

  The power conversion unit 12 converts the DC power generated by the solar module 11 into AC power and outputs the AC power to the distributor 13. The distributor 13 distributes the alternating current power from the power conversion unit 12 to electric devices such as the lighting fixture 5, the television device 6, and the air conditioner 7, and supplies power.

  The power generation amount calculation unit 14 calculates the power generation amount per unit time from the DC power generated by the solar module 11 and outputs the calculated power generation amount information (hereinafter referred to as power generation amount information) to the power generation amount transmission unit 15. To do. The power generation amount transmission unit 15 transmits the power generation amount information input from the power generation amount calculation unit 14 to the control unit 3.

  Based on the power generation amount information transmitted from the power generation amount transmission unit 15, the control unit 3 refers to the table 4 and determines outdoor brightness.

  Here, the table 4 referred to by the control unit 3 will be described with reference to FIGS. 2 and 3. FIG. 2 is a diagram for explaining an example of the table 4, and FIG. 3 is a diagram for explaining the relationship between the power generation amount and the outdoor brightness.

  As shown in FIG. 3, generally, the power generation amount and the outdoor brightness are in a proportional relationship, and the outdoor brightness becomes brighter as the power generation amount increases. The characteristic indicating the relationship between the power generation amount and the outdoor brightness is obtained by detecting the power generation amount at a certain point in time when power is generated by the solar power generation system 2 and the outdoor brightness at that time using, for example, an illuminance sensor. It is done. By performing such detection at a plurality of points with different power generation amounts, the characteristics shown in FIG. 3 can be obtained.

  In the table 4, the power generation amount information obtained from the characteristics shown in FIG. 3 and outdoor brightness are associated with each other. As shown in FIG. 2, when the power generation amount information is “XXW (Watt)”, “△ Δ Lux” is associated with the corresponding outdoor brightness, and the power generation amount information is “XXW”. “□ Lux” is associated with the corresponding outdoor brightness.

  Note that the number of the tables 4 is not limited to one, and a plurality of tables 4 may be provided. Even when the amount of power generated by the solar power generation system 2 is the same, the outdoor brightness may change depending on the season. Therefore, the lighting system 1 may include a plurality of tables that are changed according to the season and the like, and the control unit 3 may select an optimum table from the plurality of tables that are changed according to the season and the like.

  The controller 3 determines outdoor brightness from the power generation amount information from the solar power generation system 2 by referring to such a table 4. That is, when the power generation amount information is input from the power generation amount transmission unit 15, the control unit 3 reads the outdoor brightness corresponding to the input power generation amount information from the table 4, and determines the outdoor brightness. And the control part 3 outputs a control signal to the lighting fixture 5 so that the brightness of the indoor lighting fixture 5 becomes equivalent to the outdoor brightness.

  The luminaire 5 is a luminaire constituted by, for example, LEDs of three colors of red, green, and blue. The lighting fixture 5 adjusts the brightness and color temperature by changing the dimming rate of the three-color LEDs based on the control signal output from the control unit 3, and lights up with the same brightness as outdoors. The lighting fixture 5 is not limited to three-color LEDs, and may be any lighting fixture that can adjust the brightness and color temperature in accordance with a control signal from the control unit 3.

  As described above, in the solar power generation system 2, the solar power module 11 generates power using sunlight, and the power generation amount calculation unit 14 calculates the power generation amount per unit time generated by the solar power module 11. In the solar power generation system 2, the power generation amount information calculated by the power generation amount calculation unit 14 is transmitted from the power generation amount transmission unit 15 to the control unit 3.

  When the power generation amount information is transmitted from the power generation amount transmission unit 15, the control unit 3 refers to the table 4 in which the power generation amount information and the outdoor brightness are associated with each other, and the outdoor corresponding to the transmitted power generation amount information Is determined. And in the control part 3, a control signal is transmitted to the lighting fixture 5 so that it may become equivalent to the determined outdoor brightness.

  The user installs the appearance 8 near the lighting fixture 5, for example, at a predetermined position below the lighting fixture 5. Based on the control signal transmitted from the control unit 3, the luminaire 5 is lit with brightness and color temperature equivalent to the outdoor brightness. Therefore, the user can select clothes under the lighting fixture 5 while confirming the color appearance in the outdoor environment when going out by the appearance 8.

  The lighting fixture 5 whose brightness is controlled by the control unit 3 is not limited to one. The control unit 3 may control all of the lighting fixtures installed indoors, or may control a part of the lighting fixtures installed indoors (lighting fixtures installed in a specific location). It may be.

  For example, the control unit 3 performs the above-described control on the luminaire installed on the washstand, that is, the brightness of the luminaire is controlled so that the brightness is equal to the outdoor brightness based on the power generation amount information. For example, the user can put on makeup while confirming the color appearance in the outdoor environment when going out.

  As described above, in the lighting system 1, the control unit 3 refers to the table 4 based on the power generation amount information from the solar power generation system 2 and determines outdoor brightness. Conventionally, in order to determine the outdoor brightness, it is necessary to provide an illuminance sensor or the like at the window. On the other hand, the illumination system 1 according to the present embodiment uses the power generation amount information from the solar power generation system 2 to determine outdoor brightness, and thus an illuminance sensor or the like for determining outdoor brightness. Need not be provided.

  Therefore, according to the illumination system of the present embodiment, the outdoor brightness can be easily determined.

  Further, the lighting system 1 controls the brightness of the lighting fixture 5 so as to be equal to the outdoor brightness determined by the control unit 3. Therefore, the user can experience the outdoor light environment near real time in the room, and can select clothes or make up while confirming the color appearance in the outdoor environment.

  In the present embodiment, the control unit 3 controls the brightness of the lighting fixture 5 based on the power generation amount information from the solar power generation system 2 so as to be equivalent to the outdoor brightness. It is not limited to such control. For example, when the outdoor brightness is determined to be equal to or higher than a predetermined brightness from the power generation amount information, the control unit 3 may perform control so as to lower the brightness of the lighting fixture 5 (darken the room). Moreover, when it determines with the outdoor brightness being lower than predetermined | prescribed brightness from the electric power generation amount information, the control part 3 may control to raise the brightness of the lighting fixture 5 (lighten the room).

  Although several embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 ... Lighting system, 2 ... Solar power generation system, 3 ... Control part, 4 ... Table, 5 ... Lighting fixture, 6 ... Television apparatus, 7 ... Air-conditioner, 8 ... Look, 9 ... Housing, 11 ... Solar module, DESCRIPTION OF SYMBOLS 12 ... Electric power conversion part, 13 ... Distributor, 14 ... Electric power generation amount calculation part, 15 ... Electric power generation amount transmission part.

Claims (5)

A solar power generation system that generates power using sunlight;
A control unit that determines the corresponding outdoor brightness from information on the amount of power generated by the solar power generation system;
A lighting system comprising: Further comprising a dimmable lighting fixture;
The lighting system according to claim 1, wherein the control unit controls dimming of the lighting fixture based on the determined outdoor brightness.   The lighting system according to claim 2, wherein the control unit controls dimming of the lighting fixture to be equal to the outdoor brightness based on the determined outdoor brightness.   The illumination system according to any one of claims 1 to 3, further comprising a table in which information on the amount of power generated by the solar power generation system is associated with the corresponding outdoor brightness. .   The lighting system according to claim 4, wherein the control unit determines the corresponding outdoor brightness from the information on the power generation amount by referring to the table.

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