KR20070081215A - A illumination unitn - Google Patents

Abstract

An illumination unit is provided to increase color rendering by adjusting the intensity of two output beams which are outputted from first and second light sources, respectively. An illumination unit includes a power supply device(1), a first light source(2), and a second light source(4). The power supply device supplies a predetermined voltage and turns on/off the illumination unit. The first light source emits a predetermined color beam by using the voltage from the power supply device. The second light source emits another color beam which is different from the beam from the first light source, by using the voltage from the power supply device. The illumination unit includes a dimming controller(5), a microcontroller(7), and a status detector(9). The dimming controller adjusts the intensity and color coordinates of the beams from the first and second light sources within a predetermined range. The microcontroller controls the inner components according to a predetermined signal. The status detector detects a peripheral brightness or a peripheral temperature.

Description

Lighting unit {A ILLUMINATION UNITN}

1 is a block diagram schematically showing the overall configuration of the present invention;

2A and 2B are front and plan views of an embodiment of the present invention in which a bulb-type fluorescent lamp is employed as the first light source and an LED module is employed as the second light source.

3A and 3B are bottom and side views of another embodiment of the present invention in which a straight fluorescent lamp is used as a first light source and an LED module is used as a second light source.

[Explanation of simple symbols for the main parts of the drawings]

1 power supply, 2 first light source,

4 second light source, 5 dimming controller,

7 microcontrollers, 9 status detectors,

11 Remote control, 13 displays.

The present invention relates to a lighting unit, and more particularly, by the user's arbitrarily set or by controlling the brightness (illuminance) of the first and second light sources that emit light of different colors according to the ambient temperature or illuminance, This relates to a high, light unit that outputs a color temperature close to the light emitted from the sun.

Usually, color rendering is the performance of the light source which shows how the color of the object looks when it illuminates an object by various artificial light sources. Humans feel the most natural, most accurately recognizing the color of objects under the light of the sun.

However, since sunlight is not available indoors or at night, various types of artificial light sources are used to illuminate the object. In the case of employing an artificial light source in this way, it is important to accurately recognize the color of an object under these artificial light sources.

When an incandescent light bulb is used as an artificial light source, the color of the object appears to be red or yellow highlighted, and when a fluorescent lamp is used, blue is emphasized. In other words, when the light source is an incandescent light bulb or a fluorescent lamp, color rendering is poorer than that of the sun, and the color of the object is not recognized correctly, resulting in an unpleasant feeling.

On the other hand, the light has a color, and the color temperature of the light is displayed according to the temperature, and the unit is expressed as K as the absolute temperature (Kelvin temperature). In the case of sunlight, the color temperature is represented as 6500K, and the color temperature varies from red to yellow to white to yellow to red between a predetermined range, that is, sunrise and sunset.

When the light source color temperature is changed in this way, in order to recognize the color of the object accurately and naturally, it is preferable to use a light source of low color temperature at low illumination and to use a light source of high color temperature at high illumination.

However, when an artificial light source such as an incandescent bulb or a fluorescent lamp is used alone, there is a problem that it is difficult to realize a color temperature close to sunlight.

Accordingly, it is an object of the present invention to provide a lighting unit that has high color rendering and outputs a color temperature close to sunlight by using a plurality of light sources emitting light of different colors.

In addition, another object of the present invention is to detect the state of the surroundings when the lamp is turned on, that is, after detecting the ambient temperature or illuminance, the first and second light sources that emit light of different colors in accordance with the detected illuminance It is to provide a lighting unit that outputs a color temperature close to.

The above and other objects, features, aspects, and advantages of the present invention will become apparent from the following detailed description in conjunction with the accompanying drawings.

Among the inventions disclosed in the present application, an outline of typical ones will be briefly described as follows.

According to another aspect of the present invention, there is provided a lighting unit, comprising: a power supply device configured to perform on / off control while supplying predetermined power; A first light source that emits light of a predetermined color by power supplied from the power supply device, and a second light source that emits light of a color different from the first light source by power supplied from the power supply device; It is characterized by including.

On the other hand, the first light source of the present invention is a fluorescent lamp of any one of the bulb type, straight tube and annular, the second light source is characterized in that the incandescent bulb.

On the other hand, the first light source of the present invention is any one of a light bulb type, a straight tube and an annular shape as a fluorescent lamp, the second light source is characterized in that it is composed of one or three LEDs as a light emitting diode (LED) module .

In addition, the dimming control device for adjusting the brightness (illuminance) and the color temperature of the light emitted from the first light source and the second light source within a predetermined range; It is characterized in that it further comprises a microcontroller for mounting various data and operation programs, controlling these devices according to a predetermined signal, and a state detection device for detecting a state such as ambient temperature or illuminance.

In addition, the microcontroller 7 is connected by wire or wirelessly, and includes a remote control device including a keypad, an on / off switch and a display, and a display such as an LCD or an OLED to display various data such as ambient temperature or illuminance. It is characterized by further comprising.

The first light source and the second light source are automatically driven and controlled according to a value set by the microcontroller.

In addition, the state detection device is characterized by including a contact or non-contact temperature detection sensor and an illuminance detection sensor.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in all the drawings for demonstrating embodiment of this invention, the thing with the same function attaches | subjects the same code | symbol, and the repeated description is abbreviate | omitted.

1 is a block diagram schematically showing the overall configuration of the present invention.

As shown in Fig. 1, the present invention provides a power supply device 1; A first light source 2 emitting light of a predetermined color; A second light source 4 emitting light of a different color from the first light source 2; A dimming control device 5 for adjusting brightness (illuminance) and color temperature of light emitted from the first light source 2 and the second light source 4 within a range of 220K to 8000K; It includes a microcontroller 7 for mounting various data and operating programs and controlling these devices in accordance with a predetermined signal, and a state detection device 9 for detecting a state such as ambient temperature or illuminance.

First, the power supply device 1 should just be a device which supplies 110V or 220V which is a commercial AC power supply.

In addition, when the first light source 1 is configured to emit a light of a predetermined color, for example, a white color of a cold color, any one of a bulb-type fluorescent lamp, a straight fluorescent lamp, and an annular fluorescent lamp having a ballast is included. It is preferable to configure or a LED (Light Emitting Diode) module. Here, the LED module is preferably composed of one or three LEDs that output one color, such as yellow, white, or red.

In addition, when the first light source 1 is configured to emit light of a warm yellow color as opposed to the above, any one of a bulb-type fluorescent lamp, a straight fluorescent lamp, and an annular fluorescent lamp having a ballast, It is preferable to configure incandescent bulb, small bulb or LED module.

In addition, when the second light source 4 is configured to emit light of a different color from the first light source 2, for example, a light of yellow color, which is a warm color, a bulb type fluorescent lamp having a ballast and a straight fluorescent lamp Any one of the lamp and the annular fluorescent lamp is preferably composed of an incandescent bulb, a small bulb or an LED module.

In addition, when the first light source 4 is configured to emit light of a cold white color, as opposed to the above, the first light source 4 includes one of a bulb-type fluorescent lamp, a straight fluorescent lamp, and an annular fluorescent lamp having a ballast. Or an LED module is preferable.

In addition, the dimming controller 5 is the first light source 2 and the second light source 4 in accordance with the illuminance set by the microcontroller 7 within the range of light emitted from the sun from sunrise to sunset It is preferably composed of a dimmer to adjust the brightness of the light emitted from each.

In addition, the microcontroller 7 is a processor that performs various processing according to a predetermined signal or program, and a memory in which various data and operating programs are stored, and controls various peripheral devices while performing data communication by wire or wirelessly. And a wired or wireless communication module.

The state detection device 9 detects various states of the surroundings, for example, ambient temperature and illuminance, and detects a contact type or non-contact type temperature detecting sensor for detecting the ambient temperature and ambient illumination. It is preferable that it is composed of an illuminance detection sensor.

In addition, the present invention preferably further comprises a remote control device 11 for the user to wirelessly control the microcontroller 7 from a remote location. The microcontroller 7 is connected to the wired or wireless, preferably composed of a remote control including a keypad, an on / off switch, a display such as an LCD.

In addition, the present invention provides a display 13 such as an LCD or an OLED for displaying the temperature or illuminance detected by the state detection device 9 or various data or information detected by the microcontroller 7 so that a user can see it. It is preferable to further include. That is, the display 11 is connected to the microcontroller 7 in a wired or wireless manner, preferably composed of a flat panel display such as LCD, LED, OLED, FPD.

2A and 2B are front and plan views of an embodiment of the present invention in which a bulb-type fluorescent lamp is employed as the first light source and an LED module is employed as the second light source, and FIG. And (b) is a bottom view and a side view of another embodiment of the present invention in which a straight fluorescent lamp is employed as the first light source and an LED module is employed as the second light source.

As shown in Fig. 2 and 3, it is preferable to use any one of a bulb type fluorescent lamp, a straight fluorescent lamp and an annular fluorescent lamp as the first light source 2 of the present invention, and the second light source 4 ) Is preferably composed of a plurality of LEDs emitting orange light. In addition, the fluorescent lamp and the LED are driven and controlled independently or in conjunction with the illuminance set by the microcontroller.

The operation of the present invention configured as described above will be described in detail.

First, power is supplied from the power supply 1 to the fluorescent light, which is the first light source 2, and the LED, which is the second light source 4, through the dimming control device 5. At this time, the microcontroller 7 connected to the dimming control device 5 determines whether the first light source 2 and the second light source 4 are turned on or off, and when it is determined that the light source is turned on, the power supply device 1 ) Starts supplying power to the first light source 2 and the second light source 4, or otherwise cuts off the power supply.

Next, the microcontroller 7 determines whether a predetermined illuminance is stored in a built-in memory when power is supplied to the first light source 2 and the second light source 4. As a result, when there is a predetermined illuminance, the dimming control device 5 is controlled according to a predetermined illuminance, and when there is no preset illuminance, the ambient temperature or illuminance detected by the state detection device 9 is detected. Temporarily store it in memory.

At this time, when there is a predetermined illuminance, the microcontroller 7 controls the dimming control device 5, thereby from the power supply device 1 to the first light source 2 and the second light source (4) By controlling the voltage or phase to be supplied, the amount of light emitted from the first light source 2 and the second light source 4 is adjusted according to a predetermined illuminance.

In addition, when there is no predetermined illuminance, the microcontroller 7 sets the optimum illuminance according to the ambient temperature or illuminance temporarily stored in the memory through the state detection device 9 and then adjusts the illuminance according to the set illuminance. By controlling the voltage or the phase supplied from the power supply device 1 to the first light source 2 and the second light source 4, it is emitted from the first light source 2 and the second light source 4 Adjust the amount of light

On the other hand, the illuminance setting for setting the amount of light emitted from the first light source 2 and the second light source 4, through the display embedded in the microcontroller 7 or a display 13 separately installed. The user directly sets the data and stores it in the memory, or automatically sets according to the built-in program according to the ambient temperature or illuminance detected by the state detection device 9 to temporarily store the memory.

In addition, the first light source 2 and the second light source (2) while checking data displayed through the built-in display while transmitting and receiving data wirelessly with the microcontroller 7 by using a separate remote controller 11. It is also possible to set the amount of light emitted from 4) in the memory built in the microcontroller 7.

According to the illuminance set as described above, the dimming control device 5 controls the voltage or phase supplied from the power supply device 1 to the first light source 2 and the second light source 4, whereby light having color rendering property is obtained. The color according to the temperature of, that is, the color temperature in the range of 2200 ~ 8000K is output from the first light source 2 and the second light source (4).

As mentioned above, although the invention made by this inventor was demonstrated concretely based on embodiment, this invention is not limited to the said embodiment, Needless to say that various changes are possible within the range which does not deviate from the summary.

As described above, according to the present invention, the first and second light sources that emit light of different colors by using the dimming control device can output color temperature within the range of sun light from sunrise to sunset with high color rendering property. It works

In addition, according to the present invention, the range of the sun light to the first and second light sources that emit light of different colors according to the detected illuminance after detecting the ambient state, that is, the ambient temperature or illuminance when the lamp is turned on. There is also an effect that the color temperature inside can be automatically output.

Claims (9)

In the lighting unit, A power supply device 1 for performing on / off control while supplying predetermined power; A first light source (2) emitting light of a predetermined color by the power supplied from the power supply (1); And a second light source (4) for emitting light of a different color from the first light source by the power supplied from the power supply. The method of claim 1, The first light source (2) is a fluorescent lamp of any one of the bulb type, straight tube and annular, the lighting unit, characterized in that the second light source (4) is an incandescent bulb. The method according to claim 1 or 2, A dimming control device (5) for adjusting brightness (illuminance) and color temperature of light emitted from the first light source (2) and the second light source (4) within a predetermined range; A microcontroller (7) mounted with various data and operation programs and controlling these devices in accordance with a predetermined signal; And a state detection device (9) for detecting a state such as ambient temperature or illuminance. The method of claim 3, Connected to the microcontroller 7 by wire or wirelessly, a remote control device 11 including a keypad, an on / off switch, a display, and the like, and a display such as LCD, OLED, or the like to display various data such as ambient temperature or illuminance An illumination unit, further comprising (13). The method of claim 3, The first light source (2) and the second light source (4) are driven and controlled automatically according to a value set by the microcontroller (7). The method of claim 1, The first light source 2 is a fluorescent lamp, any one of a light bulb type, a straight tube and an annular shape, the second light source 4 is characterized in that it is composed of one or three LEDs as a light emitting diode (LED) module Lighting unit. The method according to claim 1 or 6, A dimming control device (5) for adjusting brightness (illuminance) and color temperature of light emitted from the first light source (2) and the second light source (4) within a predetermined range; A microcontroller (7) equipped with various data and operation programs and controlling these devices in accordance with a predetermined signal; And a state detection device (9) for detecting a state such as ambient temperature or illuminance. The method of claim 7, wherein Connected to the microcontroller 7 by wire or wirelessly, a remote control device 11 including a keypad, an on / off switch, a display, and the like, and a display such as LCD, OLED, or the like to display various data such as ambient temperature or illuminance An illumination unit, further comprising (13). The method of claim 7, wherein The first light source (2) and the second light source (4) are driven and controlled automatically according to a value set by the microcontroller (7).

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