WO2012160635A1 - Illumination device - Google Patents

Abstract

The present invention addresses the problem of providing an illumination device which comprises a plurality of light-emitting diodes towards a base comprising a socket, and which can brightly illuminate a broader area. The present invention is an illumination device which comprises a plurality of light-emitting diodes 11 towards a base 2 comprising a socket 6, and which illuminates the surrounding area by means of light from the light-emitting diodes 11, wherein a light-transmitting cylindrical part 12 for light distribution is provided towards the base 2, the light-emitting diodes 11 are provided so as to approach or come into contact with the cylindrical part 12 for light distribution and irradiate light towards the cylindrical part 12 for light distribution, the light-emitting diodes 11 are arranged in a line along the peripheral direction of the cylindrical part 12 for light distribution, and the light from the light-emitting diodes 11 is distributed within the cross section of the cylindrical part 12 for light distribution.

Description

Lighting equipment

The present invention relates to a lighting device using a light emitting diode.

Lighting devices using light-emitting diodes (LEDs) are advantageous in that they have a longer service life and lower power consumption than conventional lighting devices using incandescent bulbs and fluorescent lamps. Since light has high directivity, there is a drawback that the amount of light may be insufficient when it is necessary to brightly illuminate the entire object such as a room.

On the other hand, a plurality of light emitting diodes are provided on the base side provided with a base, and light distribution means for distributing light from the light emitting diodes so that light is irradiated over a wide range is provided, and light from the light emitting diodes is widened. An illumination device shown in Patent Document 1 that irradiates with light distributed over a range has been developed and is publicly known.

JP 2011-44356 A

In the illuminating device of the above-mentioned document, the light distribution means is configured by a tapered reflecting surface, a light emitting diode is arranged on the tapered reflecting surface side, and light emitted from the light emitting diode is reflected by the tapered reflecting surface. Therefore, there is a problem that the irradiation range cannot be expanded beyond the inclination angle of the tapered reflecting surface.

An object of the present invention is to provide an illuminating device in which a plurality of light emitting diodes are provided on a base side provided with a base, and can illuminate a wider range brightly.

In order to solve the above-mentioned problem, first, a lighting device is provided that has a plurality of light emitting diodes 11 on the base 2 side provided with a base 6 and illuminates the surroundings with light from the light emitting diodes 11 and has light transparency. The light distribution tubular portion 12 is provided on the base 2 side, the light emitting diode 11 is provided close to or in contact with the light distribution tubular portion 12, and light is emitted toward the light distribution tubular portion 12, A plurality of light emitting diodes 11 are arranged side by side along the circumferential direction of the light distribution cylindrical portion 12, and light from the light emitting diodes 11 is distributed in the cross section of the light distribution cylindrical portion 12.

Second, the light distribution tubular portion 12 is formed into a cylindrical shape.

Third, a cover body 3 that is formed in a dome shape or a convex shape and has optical transparency is provided, and the light distribution tubular portion 12 is integrally formed around the periphery of the cover body 3 forming an annular shape in cross section. The light from the light emitting diode 11 is distributed from the cross section of the light distribution tubular portion 12 into the cross section of the cover body 3.

Fourth, the light distribution tubular portion 12 is formed on the open end portion of the cover body 3.

Fifth, the light distribution cylindrical portion 12 of the cover body 3 is inserted and fixed to the insertion portion 8 formed in the base 2.

Sixth, the sheet-like reflecting material 13 is interposed between the inner peripheral surface of the insertion portion 8 and the outer peripheral surface of the light distribution tubular portion 12.

Seventh, a power supply circuit for supplying the power supplied from the base 6 to the light emitting diode 11 is provided inside the base 2, and the power supply circuit is configured so that the current value flowing through the light emitting diode 11 is lower than the rated current value. It is characterized by that.

Eighth, a mounting substrate 9 on which the light emitting diodes 11 are mounted is provided on the base 2, and the plurality of light emitting diodes 11 are arranged on the mounting substrate 9 in a ring shape along the end surface of the light distribution cylindrical portion 12. 11 is brought into contact with or close to the annular end surface of the light distribution cylindrical portion 12, and the posture of each light emitting diode 11 is set so that the light irradiation direction of the light emitting diode 11 is along the axial direction of the light distribution cylindrical portion 12. It is characterized by that.

Ninth, a plurality of light emitting diodes 11 whose light irradiation directions are directed radially inward of the light distribution tubular portion 12 are arranged in a ring shape along the outer peripheral surface of the light distribution tubular portion 12. .

Tenth, the present invention is characterized in that a reflecting surface 14a is formed on the base 2 side, and the end surface of the light distribution tubular portion 12 is brought into contact with or close to the reflecting surface 14a.

According to the above configuration, light from the plurality of light emitting diodes arranged along the circumferential direction of the light distribution tubular portion is distributed within the cross section of the light distribution tubular portion. Thus, the light distribution tubular portion itself emits light, and light is reflected from the inner peripheral surface and the outer peripheral surface of the light distribution tubular portion, so that it is possible to illuminate a wider area around the lighter.

In addition, a cover body formed in a dome shape or a convex surface shape and having light transparency is provided, and the light distribution cylindrical portion is integrally formed around the periphery of the cover body forming an annular shape in cross section. If light is distributed from the cross-section of the light-distribution cylindrical section to the cross-section of the cover body, the cover body itself emits light in addition to the cylindrical section itself. Is possible.

Further, the light distribution cylindrical portion of the cover body is inserted and fixed to the insertion portion formed on the base, and a sheet-like reflecting material is provided between the inner peripheral surface of the insertion portion and the outer peripheral surface of the light distribution cylindrical portion. If it is inserted, the light from the emitting diode is reflected by the reflecting material, and it becomes possible to illuminate a wide range more efficiently.

Furthermore, if a power supply circuit that supplies power supplied from the base to the light emitting diode is provided inside the base, and the power supply circuit is configured so that the current value flowing through the light emitting diode is lower than the rated current value, power consumption and heat generation In addition to being able to keep the amount lower, it is possible to brightly illuminate a wide range with a lower current by the above-described light distribution means, so that it is possible to prevent the light amount from being insufficient.

It is a side view of the LED bulb which applied the illuminating device of this invention. It is a side view which cut | disconnects and shows a part of this LED bulb. FIG. 2 is a cross-sectional view taken along the line AA in FIG. It is a disassembled perspective view which cut | disconnects and shows the structure of the principal part of this LED bulb. (A) is the side view which cuts and shows the LED bulb which is another embodiment of this invention, (B) is principal part sectional drawing of this LED bulb.

FIG. 1 is a side view of an LED bulb to which the lighting device of the present invention is applied, FIG. 2 is a side view showing a part of the LED bulb, and FIG. 3 is an AA view of FIG. It is sectional drawing. The LED bulb 1 shown in the figure includes a base body 2 on the base half side opposite to the light irradiation side, and has a convex or dome shape (in the example shown, a dome shape, Specifically, a cover body 3 formed in an elliptical shape is provided.

The base body 2 is provided with an aluminum radiator 4 formed in a funnel shape so that the end portion on the longer diameter side faces the distal end side, and the end portion (base end) on the shorter diameter side of the radiator body 4 is provided. In addition, a cylindrical base 6 having the same axis as that of the heat radiating body 4 is disposed at a position closer to the base end of the LED bulb 1 from the portion. The radiator 4 and the metal opening 6 are connected and fixed by an insulator 5 in an electrically insulated state. More specifically, the base end of the radiator 4 is inserted and fixed to the tip of the insulator 5, and the tip of the base 6 is inserted and fixed to the base of the insulator 5.

A cylindrical mounting portion 7 extending in the axial direction and having the same diameter as that of the long side is integrally formed at the distal end portion of the radiator 4. The distal end side of the cylindrical mounting portion 7 is opened, and an insertion hole 8 is formed on the inner peripheral surface side thereof. A circular plate-shaped mounting substrate 9 is fitted to the bottom side of the insertion hole 8 of the cylindrical mounting portion 7 (specifically, the boundary portion between the cylindrical mounting portion 7 and the other portion inside the radiator 4). A plurality of LEDs (light emitting diodes) 11 are mounted and fixed on the mounting substrate 9 by soldering or the like.

The cover body 3 is formed with an opening on the base end side, which is the side facing the base body 2, and the open end portion of the cover body 3 is a circular ring-shaped cylindrical section (light distribution) extending toward the base body side. (Cylindrical portion) 12. The entire cover body 3 including the cylindrical portion 12 is integrally formed with a light-transmitting member (more specifically, a member such as transparent glass or synthetic resin).

When the cylindrical portion 12 of the cover body 3 is inserted into the insertion hole 8 of the base body 2 in a fitted state, the cover body 12 is attached and fixed to the base body 2. At this time, the axial center of the cylindrical portion 12 and the center of the spherical cover body 3 are located on the axial center of the base 2, and the space inside the cover body 3 and the space inside the insertion hole 8 are separated. Articulated. That is, the optical axis S that is the reference axis in the radiation direction of the LED bulb 1 is the same axis as the axis of the base 2 and the cover body 3. Incidentally, the orientation of the mounting substrate 9 is set so as to be perpendicular or substantially perpendicular to the linear optical axis S.

This LED bulb 1 is screw-engaged with a socket (not shown) in which a spiral screw 6a is formed on the outer peripheral surface and a cap 6 is installed in a house or the like and a spiral screw is formed on the inner peripheral surface. Are inserted and fixed, whereby a commercial 100V AC voltage generally used at home or the like can be applied to the LED bulb 1.

More specifically, the alternating current supplied from the base 6 is supplied to a power circuit (not shown) provided inside the base 6. The power supply circuit is provided with a rectifier circuit that rectifies the supplied alternating current, a smoothing circuit that smoothes the rectified current, and the like. The LED 11 on the mounting substrate 9 is caused to emit light. At this time, heat from the LED 11 and the mounting substrate 9 is conducted to the heat radiating body 4 and radiated by an arbitrary conducting means. Incidentally, since the radiator 4 and the base 6 are connected in a state of being insulated by the insulator 5 as described above, the current supplied from the base 6 may unexpectedly flow to the side of the radiator 4. It is surely prevented.

Further, the light from the LED 11 is irradiated around the cover body 3 through the cover body 3, and at this time, a wider angle (wide range) with respect to the optical axis S can be brightly illuminated. As described above, the LED bulb 1 is provided with a light distribution means described later. For this reason, even when each LED 11 is caused to emit light with a current value considerably lower than the rated current, it becomes possible to ensure sufficient brightness, and the amount of heat generated by the mounting substrate 9 and the LED 11 itself can be kept low. .

By the way, as a result of the sharp study, the LED 11 rapidly increases in brightness when the supply current value is increased in the range of 26.6% or less of the rated current, while the rated current is reduced from 26.6% of the rated current. It has been found that even if the supply current value is increased in the range, the rate of increase in luminance becomes slower than in the above case. It was also found that when a plurality of LEDs of the same type were prepared, the color and brightness of the emitted light were less uneven when the supply current was 53.3% or less of the rated current. Further, when the supply current is 60% or less of the rated current, the LED's unique emission color is weak (good color rendering), while when the supply current is 63.3% or more of the rated current, It has also been found that the LED's unique emission color becomes stronger.

From the above examination results and the like, the supply current value to each LED is in the range of 26.6 to 60.0% of the rated current (more preferably in the range of 26.6 to 53.3%, still more preferably in the range of 26.6 to The power supply circuit is configured to fall within the range of 33.3%. Note that this power supply circuit may be formed on the mounting substrate 9.

Next, the structure of the light distribution means of the LED bulb 1 will be described with reference to FIGS.
FIG. 4 is an exploded perspective view showing a configuration of a main part of the present LED bulb with a part thereof cut. When the cylindrical portion 12 of the cover body 3 is inserted into the insertion hole 8 of the base body 2 and fixed, the plurality of LEDs 11 are arranged in the circumferential direction of the cylindrical portion 12 so as to be close to the cylindrical portion 12 or Each LED 11 is configured to emit light toward the tubular portion 12 in a state of contact (in the illustrated example, contact).

Specifically, a plurality of LEDs 11 are arranged on the mounting substrate 9 in an annular shape along the circular ring shape formed by the end face of the cylindrical portion 12, and the light irradiation direction of each LED 11 is set to the front end side in the optical axis S direction. (Set to the axial direction irradiation side of the cylindrical portion 12). In this state, the cylindrical portion 12 of the cover body 3 is inserted by being fitted into the insertion hole 8 of the base body 2. At this time, the reflection sheet (reflective material) 13 is interposed between the outer peripheral surface of the cylindrical portion 12 and the inner peripheral surface of the insertion hole 8. 13 is provided in an annular shape.

Further, the tubular portion 12 is inserted into the insertion hole 8 until the base end surface (end surface) of the tubular portion 12 contacts the plurality of LEDs 11 arranged in an annular shape, and each LED 11 faces the tubular portion 12. The thickness of the cylindrical portion 12 is set so that the base end surface is in contact with a surface in the range of 10% to 33.3% located outside the entire surface.

Note that the LEDs 11 are uniformly arranged in a ring shape at predetermined intervals (equal intervals in the illustrated example), and the number thereof is variously selected in the range of 5 to 30 depending on the required brightness.

According to the light distribution means, the light emitted from the plurality of LEDs 11 toward the end surface of the cylindrical portion 12 is irregularly reflected or refracted at the boundary between the end surface and the fine irregularities and grooves on the peripheral surface and the peripheral surface and end surface. In addition, light is distributed from the inside of the cross section of the cylindrical portion 12 and from the inner peripheral side of the cylindrical portion 12 to the inside and inside of the cross section of the cover body 3, and the light reflected from the reflective sheet 13 from the LED 11 is also on the cylindrical portion 12 side. The entire cover body 3 including the cylindrical portion 12 emits light, and a wide area around the cover body 3 (specifically, a portion other than the cover portion 3 hidden by the cylindrical portion 12) is evenly distributed. Illuminate brightly.

The cover body 3 is not limited to an ellipsoidal shape, and may be a hemispherical shape, a spherical shape, or a prismatic shape as long as it is hollow. Further, the cylindrical portion 12 may be formed separately from the cover body 3 and the cylindrical portion 12 may be internally provided in the cover body 3.

Next, a different embodiment from the above example will be described with reference to FIG.
FIG. 5 (A) is a side view showing a partially cut LED bulb according to another embodiment of the present invention, and FIG. 5 (B) is a cross-sectional view of the main part of the LED bulb. The LED bulb 1 shown in the figure has an LED 11 whose light irradiation direction is directed inward in the radial direction of the cylindrical portion 12 along the outer peripheral surface of the base end portion of the cylindrical portion 12 evenly at predetermined intervals (illustrated). In the example, a plurality are arranged at equal intervals). At this time, the LED 11 and the cylindrical portion 12 are in proximity or contact (contact in the illustrated example).

2 and 3, the reflection surface 14 a is formed on the bottom surface of the insertion hole 8 by providing the reflection plate 14 having the same shape as the mounting substrate 9 at the place where the mounting substrate 9 was present. Incidentally, each LED 11 is disposed on the outer peripheral surface of the cylindrical portion 12 by a mounting board (not shown).

When the cylindrical portion 12 of the cover body 3 is inserted and fixed in the insertion hole 8, the end surface of the cylindrical portion 12 is in contact with or close to the reflecting surface 14a (in the illustrated example, contact).

Also with the above configuration, the entire cover body 3 emits light, and a wide area around the cover body 3 can be illuminated uniformly and brightly.

1 LED bulb (lighting device)
2 Base 3 Cover Body 4 Heat Dissipator 5 Insulator 6 Metal Port 6a Screw 7 Mounting Cylindrical Part 8 Insertion Hole (Insertion Part)
9 Mounting Board 11 LED (Light Emitting Diode)
12 cylindrical part (cylindrical part for light distribution)
13 Reflective sheet (reflective material)
14 Reflecting plate 14a Reflecting surface

Claims (10)

1. A lighting device provided with a plurality of light emitting diodes (11) on the base (2) side provided with a base (6) and illuminating the surroundings with light from the light emitting diodes (11), and having light transmissivity A cylindrical portion (12) is provided on the base (2) side, the light emitting diode (11) is brought close to or in contact with the light distribution cylindrical portion (12), and light is directed toward the light distribution cylindrical portion (12). A plurality of the light emitting diodes (11) are arranged side by side along the circumferential direction of the light distribution tubular portion (12), and light from the light emitting diode (11) is arranged in the light distribution tubular portion (12 ) Lighting device distributed in the cross section.
2. The lighting device according to claim 1, wherein the light distribution tubular portion (12) is formed in a cylindrical shape.
3. A cover body (3) formed into a dome shape or a convex surface and having light transparency is provided, and the cylindrical portion for light distribution (12) is integrally formed around a periphery of the cover body (3) forming an annular shape. The illumination device according to claim 1, wherein the light is emitted from the light emitting diode (11) and distributed from the cross section of the light distribution tubular portion (12) to the cross section of the cover body (3). .
4. The lighting device according to claim 3, wherein the light distribution tubular portion (12) is formed on an open end portion of the cover body (3).
5. The lighting device according to claim 4, wherein the light distribution tubular portion (12) of the cover body (3) is inserted into and fixed to the insertion portion (8) formed on the base body (2).
6. The lighting device according to claim 5, wherein a sheet-like reflecting material (13) is interposed between the inner peripheral surface of the insertion portion (8) and the outer peripheral surface of the light distribution cylindrical portion (12).
7. A power supply circuit for supplying the power supplied from the base (6) to the light emitting diode (11) is provided inside the base body (2), and the power source is set so that the current value flowing through the light emitting diode (11) is lower than the rated current value. The illumination device according to any one of claims 1 to 6, comprising a circuit.
8. A mounting substrate (9) for mounting the light emitting diode (11) is provided on the base body (2), and a plurality of light emitting diodes (11) are arranged in an annular shape along the end face of the light distribution tubular portion (12) on the mounting substrate (9). The plurality of light emitting diodes (11) are brought into contact with or close to the annular end surface of the light distribution cylindrical portion (12), and the light irradiation direction of the light emitting diode (11) is the light distribution cylindrical portion (12). The lighting device according to any one of claims 1 to 7, wherein the posture of each light emitting diode (11) is set along the axial direction.
9. The light emitting diode (11) in which the light irradiation direction is directed radially inward of the light distribution tubular portion (12) is arranged in a plurality of rings along the outer peripheral surface of the light distribution tubular portion (12). The lighting device according to any one of 7 to 7.
10. The lighting device according to claim 9, wherein a reflecting surface (14a) is formed on the base (2) side, and an end surface of the light distribution tubular portion (12) is brought into contact with or close to the reflecting surface (14a).

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