KR20120013006A - Lighting system and control method thereof - Google Patents

Abstract

PURPOSE: A lighting system and a controlling method thereof are provided to prevent light dazzle due to high sunlight illumination by automatically controlling sunlight illumination and artificial illumination. CONSTITUTION: A sunlight controlling unit(12) controls the quantity of sunlight irradiated to a corresponding space through a sunlight lighting apparatus. An artificial lighting apparatus(10) irradiates the corresponding space with the light . An indoor illumination sensor(16) senses illumination in the corresponding space. A sunlight illumination sensor(14) senses the illumination of sunlight flowed in through the sunlight lighting apparatus. An illumination control switch(20) sets illumination by selecting a lighting mode in the corresponding space. A central control unit(28) controls the artificial lighting apparatus and the sunlight controlling unit.

Description

Lighting system and its control method {LIGHTING SYSTEM AND CONTROL METHOD THEREOF}

The present invention relates to a lighting system and a method of controlling the same, and more particularly, to a lighting system and a method for controlling the same automatically by using power line communication so as to constantly adjust the illuminance of an indoor space through solar lighting and artificial lighting. It is about.

Fossil fuels such as coal and petroleum are causing many problems such as environmental pollution due to finite resources and harmful gases generated in the fuel combustion process.

Currently, solar energy, wind energy, hydrogen energy, etc. are being developed as energy sources to replace fossil energy. Among them, research is being actively conducted to use enormous heat and light energy contained in sunlight emitted from the sun. Solar energy is a pollution-free, clean energy that can be obtained almost free of charge until the sun is extinguished.

Accordingly, by applying infinite and clean solar energy to indoor lighting, lighting devices that can dramatically save electric energy have been developed.

On the other hand, modern buildings are building the central control system to control the lighting of the inside and outside of the building at the center to adjust the power usage to the optimal state.

The technology described above refers to the background of the technical field to which the present invention belongs, and does not mean the prior art.

When indoor lighting is made through solar light as above, there is a problem that glare may occur because the sunlight is too high than the set illuminance, and the illuminance may be changed when it is affected by cloudy or cloudy weather. For this reason, when artificial lighting is arbitrarily operated, there is a problem in that energy saving effect does not occur because solar light and artificial lighting are overlapped.

Meanwhile, in order to centrally control such lights, it is difficult to construct a central control system because connection of control wires for controlling a plurality of lights is required.

The present invention has been created to improve the above problems, the lighting system to automatically control the solar lighting and artificial lighting to maintain the set illuminance by receiving the indoor illuminance, solar illuminance using power line communication and Its purpose is to provide a control method.

Lighting system according to an aspect of the present invention includes a solar light adjusting unit for adjusting the amount of light irradiated in the space through the solar lighting device; Artificial lighting device for irradiating light to the space; An indoor illuminance sensor for detecting illuminance in the space; Solar illuminance sensor for sensing the illuminance of the incoming sunlight through the solar lighting device; An illumination control switch for selecting an illumination mode in the corresponding space and setting illumination, as well as independently turning on an artificial lighting device; And a central control unit which receives the values of the indoor illumination sensor and the solar illumination sensor and controls the artificial lighting device and the solar control unit installed in each space according to the illumination mode selected by the illumination control switch, and turns on the artificial illumination device. Characterized in that.

The present invention transmits the detection value of the indoor illuminance sensor and the solar illuminance sensor and the input state of the light control switch through the central control unit and the power line communication module and adjusts the sunlight according to the control signal output from the central control unit. And a room control unit for controlling the unit and the artificial lighting device.

The present invention is characterized in that it further comprises an entrance detection sensor for detecting the access state of the space.

Artificial lighting device in the present invention is characterized in that the dimming controlled LED lighting.

Illumination mode in the present invention is characterized in that it comprises a solar lighting mode, artificial lighting mode, entrance detection mode, constant illumination mode.

Control method of a lighting system according to another aspect of the present invention comprises the steps of setting the room illumination; Measuring the solar illuminance introduced through the solar lighting apparatus and the indoor illuminance in the space; Comparing the set illuminance with the room illuminance; Comparing artificial illuminance and setting illuminance to lower the artificial illumination and solar illumination so that indoor illuminance reaches the set illuminance when the indoor illuminance is high by comparing the set illuminance with the indoor illuminance; And increasing artificial lighting and solar lighting so that the indoor illuminance reaches the set illuminance by comparing the solar illuminance and the set illuminance when the indoor illuminance is low by comparing the set illuminance with the indoor illuminance.

In the present invention, the step of lowering the artificial light and the solar light is to turn off the artificial light when the solar illuminance is higher than the set illuminance by comparing the solar illuminance and the set illuminance; And

After turning off the artificial light, it characterized in that it comprises the step of sequentially lowering the solar light so that the room illumination reaches the set illumination.

Comparing the solar illuminance and the set illuminance in the present invention to maximize the solar illumination when the solar illuminance is lower than the set illuminance; And

It is characterized in that it comprises the step of sequentially turning off the artificial light so that the indoor illumination reaches the set illumination after maximizing the solar light.

In the present invention, the step of raising the artificial light and the solar lighting step is to turn off the artificial lighting when the solar illuminance is higher than the set illuminance by comparing the solar illuminance and the set illuminance; And

It is characterized in that it comprises the step of sequentially raising the solar light so that the room illumination reaches the set illuminance after the artificial light is turned off.

Comparing the solar illuminance and the set illuminance in the present invention to maximize the solar illumination when the solar illuminance is lower than the set illuminance; And

It is characterized in that it comprises a step of sequentially lighting the artificial light so that the indoor illumination reaches the set illumination after maximizing the solar light.

As described above, the present invention can prevent glare due to high illumination of sunlight by automatically controlling solar lighting and artificial lighting so that the setting illumination is kept constant by receiving indoor illumination and solar illumination using power line communication. In addition, even if the solar light intensity changes depending on the weather, by compensating with artificial lighting, the energy saving effect of the use of the solar light can be obtained as well as maintaining a constant illuminance.

In addition, by centrally controlling the lights using power line communication, a central control system can be constructed without additional infrastructure.

1 is a block diagram showing a lighting system according to an embodiment of the present invention.
2 is a view showing an application example of a lighting system according to an embodiment of the present invention.
3 is a flowchart illustrating a control method of a lighting system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a lighting system and a control method according to the present invention. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a block diagram showing a lighting system according to an embodiment of the present invention, Figure 2 is a view showing an application example of a lighting system according to an embodiment of the present invention.

As shown in FIG. 1, a lighting system according to an exemplary embodiment of the present invention includes a solar light control unit 12, an LED light 10, an indoor light sensor 16, a solar light sensor 14, a light control switch. 20, a central control unit 28, power line communication modules 24, 26 and a room control unit 22.

The solar controller 12 adjusts the amount of sunlight irradiated in the space through the solar lighting device 40.

The solar lighting apparatus 40 is installed on the roof of a building 50 or the like, and is provided with a light receiver 42 for collecting light emitted from the sun and a light transmitter 44 for transmitting light incident from the light receiver 42. And an irradiator 46 for irradiating light transmitted through the optical transmitter 44 into the space.

At this time, the solar light control unit 12 is installed at the front or rear end of the irradiation unit 46 to adjust the amount of sunlight irradiated through the aperture and the like.

The LED light 10 is an artificial lighting device that irradiates light into a corresponding space and performs dimming control by adjusting a current amount supplied by a pulse width modulation (PWM) method or selecting a plurality of LED elements constituting the LED light 10. Dimming control can be performed by turning on and off.

The indoor illuminance sensor 16 detects illuminance in the space.

The solar illuminance sensor 14 detects the illuminance of the sunlight introduced through the solar illuminator 40.

The light control switch 20 not only selects an illumination mode in the corresponding space and sets illuminance, but also turns on the LED light 10.

At this time, as the lighting mode, the solar lighting mode using only the sunlight as an illumination, the artificial lighting mode using only the LED light 10, and the entrance detection mode and illuminance which play the role of a sensor which is turned on when a person is detected are set. If the case includes a constant illuminance mode to maintain a constant set illuminance.

The central control unit 28 receives the values of the indoor illumination sensor 16 and the solar illumination sensor 14 and the LED light 10 and the solar light installed in each space according to the illumination mode selected by the illumination control switch 20. The control unit 12 controls the LED light 10 is turned on.

The central controller 28 may further include a storage unit 30 that stores the lighting mode and the set state set in each corresponding space.

In addition, the room controller 22 adjusts the detection value and the illumination of the indoor illuminance sensor 16 and the solar illuminance sensor 14 which are input in the corresponding space through the central controller 28 and the power line communication modules 24 and 26. Transmitting the input state of the switch 20 and controls the solar control unit 12 and the LED light 10 in accordance with the control signal output from the central control unit 28.

At this time, the power line communication module 24 in each of the LED light 10, the solar light control unit 12, the solar light sensor 14, the indoor light sensor 16, the entrance sensor 18, and the light control switch 20. ) May be provided to transmit and receive data through the central control unit 28 and the power line (25).

In addition, the entrance detection mode is provided with an entrance detection sensor 18 for detecting the entrance and exit state of the space.

In addition, the power supply units 32 and 34 receive power from the power line 25 to supply operating power.

Therefore, in the case of setting the solar lighting mode according to the selection of the light control switch 20, by opening the solar control unit 12 to the maximum to be irradiated with the sunlight to the maximum effect on the weather and the external environment Receive.

In addition, when the artificial lighting mode is set, the LED light 10 is turned on to illuminate the corresponding space. At this time, if the room illumination is set to dimming the LED light (10).

In addition, when the entrance detection mode is set to detect the person entering the space, the LED light 10 is turned on to operate as a sensor.

And, in the case of setting the constant illuminance mode by adjusting the opening degree of the solar light adjusting unit 12 and the dimming value of the LED light 10 to maintain the set illuminance. At this time, after adjusting first through the solar control unit 12 to compensate additionally through the LED light 10 to maintain the set illuminance.

Meanwhile, the central controller 28 may arbitrarily control the lighting of the space in consideration of power consumption.

3 is a flowchart illustrating a control method of a lighting system according to an embodiment of the present invention.

As shown in FIG. 3, the control method of the lighting system according to the exemplary embodiment of the present invention is a method for maintaining a constant illuminance when the illumination control switch 20 is set to a constant illuminance mode.

Therefore, first, the indoor illuminance for maintaining the brightness of the space is set (S10).

Thereafter, the solar illuminance introduced through the solar lighting apparatus 40 and the indoor illuminance in the corresponding space are measured (S12).

The measured indoor illuminance and the set illuminance are compared with each other (S14).

As such, when the indoor illuminance and the set illuminance are compared with each other, when the room illuminance is higher than the set illuminance, that is, when the room is brighter than the set brightness, the solar illuminance and the set illuminance are first compared (S16).

At this time, when the solar illuminance is higher than the set illuminance, that is, the LED light 10 is first turned off in a state where the sunlight is too bright (S18).

Subsequently, the solar lighting is sequentially lowered through the solar control unit 12 so that the indoor illuminance reaches the set illuminance (S20) (S22).

However, when the room is brighter than the set brightness or the solar illuminance is lower than the set illuminance, the solar light is first irradiated to the maximum through the solar control unit 12 (S24).

Then, the LED lighting 10 is sequentially turned off to perform dimming control so that the indoor illuminance reaches the set illuminance (S26) (S28).

On the other hand, when the indoor illuminance and the set illuminance are compared with each other and the room illuminance is lower than the set illuminance, that is, when the room is darker than the set brightness, the solar illuminance and the set illuminance are first compared (S30).

At this time, when the solar illuminance is higher than the set illuminance, the LED light 10 that is turned on first is turned off in order to reduce the consumption of electric energy as the room is dark even though the sunlight is in a bright state (S32).

Thereafter, the solar lighting unit 12 sequentially raises the solar lighting to allow the indoor illumination to reach the set illumination (S34) (S36).

However, when the room is darker than the set brightness and lower than the solar illuminance setting illuminance, first, the solar light is irradiated to the maximum through the solar control unit 12 (S38).

Then, the LED light 10 is sequentially turned on to perform dimming control so that the indoor illuminance reaches the set illuminance (S40) (S42).

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. Will understand. Therefore, the technical protection scope of the present invention will be defined by the claims below.

10: LED light 12: solar control unit
14 solar illuminance sensor 16 indoor illuminance sensor
18: entrance detection sensor 20: light control switch
22: room control unit 24, 26: power line communication module
28: central control unit 30: storage unit
32, 34: power supply unit 40: solar lighting device
42: lighter 44: light transmitter
46: research unit

Claims (10)

A solar light adjusting unit that adjusts the amount of light irradiated in the space through the solar lighting device;
Artificial lighting device for irradiating light to the space;
An indoor illuminance sensor detecting an illuminance in the corresponding space;
Solar illuminance sensor for detecting the illuminance of the sunlight introduced through the solar lighting device;
An illumination control switch for selecting an illumination mode in the corresponding space and setting illuminance, as well as independently turning off the artificial illumination device; And
Receiving the values of the indoor light sensor and the solar light sensor to control the artificial lighting device and the solar control unit installed in each space according to the illumination mode selected by the light control switch to turn on and off the artificial lighting device Central control unit; lighting system comprising a.
According to claim 1, The central control unit and the power line through the communication module through the power sensor and the indoor illumination sensor and the solar light sensor sensed value and transmits the input state of the light control switch and transmits from the central controller Lighting system further comprises a room control unit for controlling the solar light control unit and the artificial lighting device in accordance with the output control signal.
The lighting system according to claim 1, further comprising an entrance sensor for sensing an entrance state of the corresponding space.
The lighting system as claimed in claim 1, wherein the artificial lighting device is dimming controlled LED lighting.
The illumination system of claim 1, wherein the illumination mode includes a solar illumination mode, an artificial illumination mode, an entrance detection mode, and a constant illumination mode.
Setting indoor illuminance;
Measuring the solar illuminance introduced through the solar lighting apparatus and the indoor illuminance in the space;
Comparing the set illuminance with the indoor illuminance;
Comparing the solar illuminance with the set illuminance to lower the artificial illumination and the solar illumination so that the indoor illuminance reaches the set illuminance when the indoor illuminance is high by comparing the set illuminance with the indoor illuminance; And
When the indoor illuminance is low by comparing the set illuminance with the indoor illuminance, comparing the solar illuminance with the set illuminance to increase the artificial illumination and the solar illumination to reach the set illuminance; Control method of a lighting system comprising a.
The method of claim 6, wherein the lowering of the artificial light and the solar light comprises: comparing the solar illuminance and the set illuminance to turn off the artificial light when the solar illuminance is higher than the set illuminance; And
And turning off the solar light sequentially so that the indoor illuminance reaches the set illuminance after turning off the artificial illumination.
The method of claim 7, further comprising: comparing the solar illuminance and the set illuminance to maximize the solar light when the solar illuminance is lower than the set illuminance; And
And sequentially turning off the artificial light such that the indoor illumination reaches the set illuminance after maximizing the solar illumination.
The method of claim 6, wherein the raising of the artificial light and the solar light comprises: comparing the solar illuminance with the set illuminance and turning off the artificial light when the solar illuminance is higher than the set illuminance; And
And sequentially increasing the solar lighting to turn off the artificial lighting so that the indoor illumination reaches the set illumination.
The method of claim 9, further comprising: comparing the solar illuminance with the set illuminance to maximize the solar illumination when the solar illuminance is lower than the set illuminance; And
And lighting the artificial light sequentially so that the indoor illumination reaches the set illumination after the maximum illumination of the solar lighting.

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