JP2017208158A - Lighting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting device that has high-color rendering property at low cost, in a lighting device having LED as a light source.SOLUTION: The lighting device includes a light source substrate including: LED (1e) emitting red light; LED (1f) emitting blue light; LED (1c) emitting light bulb color light; and LED (1d) emitting daylight color light.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an illumination device using an LED (Light Emitting Diode) as a light source.

  Illumination devices (for example, ceiling lights and LED bulbs) using white LEDs as light sources to replace incandescent lamps and fluorescent lamps that are conventional light sources are becoming widespread. White LEDs have lower power consumption and longer life than conventional light sources. On the other hand, a general white LED has the characteristics of a light source that affects the appearance of the color of an object because of its insufficient radiant intensity at wavelengths of 470 nm to 500 nm and radiant intensity at wavelengths of 610 nm or more. Color rendering is poor.

  For this reason, in an illuminating device using an LED as a light source, the color reproducibility of an object is low, and a device for improving color rendering properties is required. As a conventional technique for that purpose, for example, a technique described in Patent Document 1 is known. Patent Document 1 discloses that three or more kinds of LEDs having different wavelengths in addition to the light bulb color and daylight color are mounted as LEDs having different wavelengths to enhance color rendering.

JP 2013-058394 JP

  In the technique described in Patent Document 1, three or more types of LEDs having different wavelengths in addition to the light bulb color and the daylight color are mounted in order to achieve high color rendering, which may cause an increase in cost. An object of this invention is to implement | achieve provision of the illuminating device with low cost and high color rendering properties.

  The present invention includes a light source substrate including a red LED that emits red light, a blue light LED that emits blue light, a light bulb color LED that emits light bulb color light, and a daylight color LED that emits daylight color light. It is characterized by.

  Further, the LEDs having different wavelengths include those that emit red light with a peak wavelength of 610 nm to 750 nm, those that emit blue light with a peak wavelength of 470 nm to 500 nm, and those that emit light bulb color light with a peak wavelength of 550 nm to 650 nm. And emitting daylight color light having a peak wavelength of 430 to 460 nm.

  Further, the number ratio of the LED emitting red light and the LED emitting blue light is 1: 1, and the LED emitting red light and the LED emitting blue light are alternately arranged. Is characterized by being annular.

  In the present invention, it is possible to provide a lighting device with low cost and high color rendering properties by including a plurality of LEDs having different wavelengths.

  In addition to LEDs that emit light bulb color light and LEDs that emit daylight color light, LEDs that emit red light with a peak wavelength of 610 nm to 750 nm and blue light with a peak wavelength of 470 nm to 500 nm By adding an LED that emits light, it is possible to complement the portion of the wavelength where the emission spectrum is weak and to improve color rendering.

  Furthermore, the number ratio of LEDs emitting red light and LEDs emitting blue light is 1: 1, and by arranging them alternately, the colors are mixed and the color of the light irradiated through the translucent cover is It becomes equivalent to the color of the irradiation light of the lighting device that emits only the light bulb color light and daylight color light, not red light or blue light.

Configuration development view of a lighting device according to an embodiment of the present invention Perspective view of light source board Perspective view of heat sink Emission spectrum diagram when only light bulb color LED and daylight color LED are irradiated

  The overall structure of the lighting device according to the present invention is shown in FIG. FIG. 1 is a configuration development view of a lighting device according to an embodiment of the present invention.

  As shown in FIG. 1, an illuminating device 100 according to an embodiment of the present invention includes a light source substrate 1 that is a light emitting unit having an LED, and a lens 2e for spreading light emitted from the LED in another direction. LED cover 2, translucent cover 3 for diffusing light, heat sink 4 for dissipating heat generated from light source board 1, power supply board 5 with control device, and power supply board 5 Insulating plate 6 and a backbone 7 for enclosing power supply substrate 5 and insulating plate 6.

(Arrangement)
The light source substrate 1 is screwed so that the bottom surface portion of the light source substrate 1 is in close contact with the front surface portion 4a of the heat radiating plate 4. The insulating plate 6 is attached to the backbone 7 so that the hole located at the center of the backbone 7 and the cylindrical portion located at the center of the insulating plate 6 coincide. The insulating plate 6 is insulated so that the front surface portion of the insulating plate 6 matches the substantially arc shape of the power supply substrate 5 and the substantially arc shape of the insulating plate 6, and the bottom surface portion side of the power supply substrate 5 faces the front surface portion 6a of the insulating plate 6. The power supply board 5 is screwed to the backbone 7 so as to sandwich the plate 6.

  The backbone 7 is screwed to the heat radiating plate 4 so that the bottom surface around the heat radiating plate 4 and the front side of the edge 7c of the backbone 7 are aligned. The LED cover 2 covers the light source substrate 1 and is screwed to the front side of the heat sink 4. Further, a translucent cover 3 is attached to the receiver 4e so as to cover the light source substrate 1 and the LED cover 2.

(Light source board)
FIG. 2 is a perspective view of the light source substrate 1. The light source substrate 1 has a substantially ring shape as shown in FIG. The outer periphery of the light source substrate 1 has a protrusion 1a of the connector connecting portion toward the outer periphery. The light source substrate 1 has a circular hole at the center. LEDs are arranged on the front surface portion 1b of the light source substrate 1 with a predetermined interval in a ring shape. On the outer peripheral portion of the circular hole at the center of the light source substrate 1, there are two semi-circular cutout portions 1c for avoiding screw holes at point-symmetrical positions. However, the number and position of the cutout portions 1c are not limited to this.

  The LEDs arranged on the light source substrate are a light bulb color LED 1d, a daylight color LED 1e, a red LED 1f, and a blue LED 1g. The number of bulb-colored LEDs 1d and daylight-colored LEDs 1e is arranged on the light source substrate 1 in a ratio of 1: 2, and is arranged in a plurality of rows in a ring shape. In the light bulb color LED 1d and the daylight color LED 1e, the daylight color LED has higher luminous efficiency due to the difference in the conversion efficiency of the phosphors and the effect of the relative visual sensitivity of the human eye. The light emitting color LED 1d and the daylight color LED 1e are arranged in a ratio of 1: 2, so that the luminous efficiency of the lighting device 100 can be improved. Furthermore, by arranging a plurality of rows of LEDs in a ring shape, the light to be irradiated can be efficiently spread over a wide range. Further, the red LED 1f and the blue LED 1g are alternately arranged on the same ring, and the number ratio thereof is 1: 1. By setting the number ratio of the red LED 1f and the blue LED 1g to 1: 1, it is possible to easily mix red light and blue light having significantly different emission wavelengths, and to reduce color unevenness irradiated to the translucent cover 3. Can do.

  FIG. 4 shows an emission spectrum. A dotted line indicates a case where only the bulb color LED 1d and the daylight white LED 1e are lit, and a solid line indicates a case where the red LED 1f and the blue LED 1g are additionally lit. As shown in FIG. 4, in the emission spectrum when only the light bulb color LED 1d and the daylight white color 1e are emitted, the light intensity in the valley portion 9a and the inclined portion 9b is low, but by mounting the red LED 1f and the blue LED 1g, The portion 9a and the inclined portion 9b can be complemented to achieve high color rendering.

(LED cover)
The LED cover 2 is made of a transparent resin, has a substantially ring shape, and has a side surface portion 2a having a height that does not interfere when screwed to the heat sink 4, and a front surface portion 2b at one end of the side surface portion 2a. And has a structure having a space V surrounded by the side surface portion 2a and the front surface portion 2b. A circular hole is formed at the center of the front surface portion 2b. A plurality of screw holes (not shown) for fixing the LED cover 2 are provided outside the outer periphery of the hole. The side surface portion 2a has a projection shape 2c having a shape along the shape of the projection 1a of the connector connecting portion of the light source substrate 1. The wing-shaped protrusion 2d having a plurality of screw holes (not shown) for screwing the heat sink 4 and the LED cover 2 is different from the end of the side face 2a where the front face 2b is located. A plurality of them are arranged at equal intervals. Further, the front surface portion 2b has a plurality of lenses 2e for spreading light from the light source in multiple directions. The lens 2e is a convex lens having a lens function with respect to the LED light source, and can spread light emitted from the LED, which is a light source with high directivity, in multiple directions. The lenses 2e are arranged at regular intervals in the same manner as in the LED arrangement of the light source substrate 1. However, the distance between the lenses 2e is not limited to this, and may be the same as the LED arrangement.

(Translucent cover)
The translucent cover 3 is made of a material mixed with a diffusing material, has an milky white appearance, and has a balloon shape. There is a space inside, and there is a substantially circular hole at the end opposite to the front surface portion 3a, and the end is joined to the receiver 4e toward the inside of the hole. A plurality of protrusions (not shown) for performing the above. The translucent cover 3 is irradiated from an LED, diffuses light passing through the LED cover 2, and can irradiate a wide area.

(Heatsink)
FIG. 3 is a perspective view of the heat sink 4. The heat radiating plate 4 is a molded part of sheet metal, has a substantially ring shape, and has a circular hole in the center. Further, between the front surface portion 4a, the peripheral front surface portion 4b, the outer peripheral side end portion of the front surface portion 4a, and the inner peripheral side end portion of the peripheral front surface portion 4b, the slope portion 4c and the outer peripheral side of the peripheral front surface portion 4b. The end portion has a wall-shaped protrusion 4d on the front surface portion 4a side along the periphery thereof. A plurality of screw holes 4e for screwing the light source board 1 and the LED cover 2 are attached to the front surface portion 4a, a screw hole 4f for screwing the LED cover 2 and the backbone 7 to the surrounding front surface portion 4b, and a holder 4g. And has a hole 4h. The heat radiating plate 4 radiates heat generated from the LED and transmitted to the substrate (mainly the light source substrate 1), thereby cooling the substrate and increasing the luminous efficiency of the LED. Furthermore, it is painted in white and easily reflects light, so that the light extraction efficiency can be improved.

(Power supply board)
The power supply substrate 5 has a shape in which one side of the long side of the rectangle is substantially arc-shaped.

  The power supply board 5 is a main control device for driving the lighting device, and performs power supply for emitting light from the light source unit and control related to light emission, for example, turning on and off, and adjusting a current value.

(Insulating plate)
The insulating plate 6 has a substantially arc shape with both ends of the rectangle having different arc sizes, has a front surface portion 6a, and a front surface of the wall portion along the outer periphery of the front surface portion 6a. It is provided on the side of the part 6a, has a circular hole in the center, and has a cylindrical part 6b from one end of the hole to the front side 6a side. Furthermore, a slope portion 6c is provided between the front surface portion 6a and the cylindrical portion 6b.

  The insulating plate 6 is a component for housing the power supply board 5, prevents contact between the backbone 7 and the power supply board 5, and is a member for electrical insulation, and prevents electric shock due to leakage from the power supply board 1.

(backbone)
The backbone 7 is a molded part of sheet metal, has a substantially ring shape, and has a circular hole in the center. Further, it has a front surface portion 7a, has a wall-shaped protrusion 7b at the end of the front surface portion 7a in the direction of the front surface portion 7a, and has an edge 7c along the outer periphery of the wall-shaped protrusion 7b.

  The backbone 7 surrounds the power supply substrate 5 and the insulating plate 6. Furthermore, a circular hole for connection with the installation surface (mainly the ceiling) is provided in the central portion, and the adapter 8 can be attached to the hole portion so that it can be attached to the installation surface such as the ceiling.

1 ... Light source board
1a: Projection on the outer periphery of the light source board
1b… Light source board front
1c: Light source board cutout
1d… Light bulb color LED
1e ... Daylight LED
1f… Red LED
1g ... Blue LED
2 ... LED cover
2a… LED cover side
2b… LED cover front
2c ... Projection on the side of the LED cover
2d ... Feather-shaped protrusion
2e ... Lens
3 ... Translucent cover
3a… Transparent cover front
4… Heat sink
4a… Heat sink front
4b… The front part around the heat sink
4c… Heat sink slope
4d… The wall-shaped protrusion of the heat sink
4e… Heat hole on the front of the heat sink
4f… Screw hole on the front surface around the heat sink
4g ... Receiver
4h… Receiver mounting hole
5… Power supply board
6… Insulating plate
6a… Insulation plate front
6b… Insulating plate cylinder
6c… Insulating plate slope
7 ... Backbone
7a… Backbone front
7b ... Backbone wall projection
7c ...
8 ... Adapter
9a ... Valley of emission spectrum
9b: Emission spectrum slope

Claims (5)

  Illumination characterized by having a light source substrate comprising a red LED that emits red light, a blue LED that emits blue light, a light bulb color LED that emits light bulb color light, and a daylight color LED that emits daylight color light apparatus. In the lighting device according to claim 1,
The peak wavelength of the LED emitting red light is 610 nm to 750 nm,
The peak wavelength of the LED emitting blue light is 470 nm to 500 nm,
The peak wavelength of the LED that emits the light bulb color light is 550 nm to 650 nm,
The peak wavelength of LED which emits the said daylight color light shall be 430 nm-460 nm, The illuminating device characterized by the above-mentioned. In the lighting device according to claim 1,
On the light source substrate, red LED, blue LED, light bulb color LED and daylight color LED are annularly arranged,
The lighting device, wherein the red LEDs and the blue light LEDs are alternately arranged in the same ring shape. In the lighting device according to claim 2,
An illumination device characterized in that the color of light irradiated through the light-transmitting cover is not red light or blue light but white of 5,800K to 6,200K.   An illumination device characterized in that light toning and dimming can be performed by a combination of currents input to each LED.

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