JP6713135B1 - Lighting equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an illuminating device capable of widening the light in only a desired direction. In a lighting device (1), a first-type light source (21), a first shade section (31) that determines an irradiation range of light emitted from the first-type light source (21), and a first-direction light source that emits light in the same direction as the first-type light source (21). The second kind light source 22 and the second shade part 32 which determines the irradiation range of the light irradiated from the second kind light source 22 are provided. The first shade portion 31 has a cutout portion 311. The cutout portion 311 is formed such that the directivity angle of the light from the first-type light source 21 is wider than the directivity angle of the portion of the first shade portion 31 where the cutout portion 311 is not formed. [Selection diagram] Figure 2

Description

The present invention relates to a lighting device.

Conventionally, an incandescent lamp or a halogen lamp has been used as an illuminating device used for a truck bed or the like.

By the way, in order to obtain light in a desired irradiation range, a lighting device is known in which a light irradiation range is determined by using a shielding member such as shade (Patent Documents 1 to 3).

Specifically, for example, Patent Documents 2 and 3 describe an illumination device including a reflection plate.

JP, 2006-269398, A JP, 2010-228928, A JP2012-28124A

Where there is the above-mentioned prior art, there is a demand for an illuminating device capable of widening the light in only a desired direction in order to be preferably used in a box-shaped space such as a truck bed.
That is, an object of the present invention is to provide an illuminating device capable of widening the light in only a desired direction.

The present invention made in view of the above circumstances, a first type light source,
A first shade portion that defines an irradiation range of light emitted from the first type light source,
A second type light source that emits light in the same direction as the first type light source,
A second shade portion that defines an irradiation range of light emitted from the second type light source,
Equipped with
The first shade portion has a cutout portion,
The cutout portion is formed such that the directivity angle of the light from the first-type light source is wider than the directivity angle of a portion of the first shade portion where the cutout portion is not formed. It is a characteristic lighting device.

According to the lighting device of the present invention, since the first shade portion is provided with the cutout portion, it is possible to widen the light in only a desired direction.
Therefore, by using the lighting device of the present invention, it is possible to efficiently lighten the inside of the box-shaped space (such as the inside of the truck bed).

Further, in a preferred embodiment of the present invention, the cutout portion is provided on a surface facing the second shade portion side.
Since the cutout portion is provided on the surface facing the second shade portion side, the light from the first type light source and the light from the second type light source do not interfere excessively.
Therefore, by using the lighting device of the present invention, the box-shaped space can be efficiently illuminated.

Further, in a preferred embodiment of the present invention, the lighting device further includes a translucent cover portion having a curved surface, and the curved surface is formed on the cutout portion side.
By providing the translucent cover portion having a curved surface on the cutout side, it is possible to design the entire lighting device smaller without blocking the light emitted from the first-type light source and the second-type light source. Yes (see Figures 1-5).

Further, in a preferred aspect of the present invention, the cutout portion is formed so that a directivity angle of light from the first-type light source is 90° or more.
Here, the directivity angle is a value obtained by doubling the angle at which the brightness is half the brightness of the center part (center axis) that shines most strongly from the center part (center axis) that shines most strongly.
By using the lighting device having the above-described configuration, it is possible to efficiently lighten the box-shaped space.

Further, in a preferred aspect of the present invention, the lighting device includes two or more first type light sources and two or more second type light sources, and the first type light source row and the second type light source. It is characterized in that the rows of are substantially parallel.
By using the illumination device having such a form, the box-shaped space can be efficiently illuminated.

In a preferred aspect of the present invention, the lighting device includes a mounting member having a hole.
By providing the mounting member having the hole portion, the lighting device can be more easily arranged on the upper side portion of the box-shaped space such as the truck bed.

The present invention also includes a first shade unit,
The second sade section,
Equipped with
The first shade portion has a cutout portion,
The illumination device plate is also characterized in that the cutout portion widens the directivity angle of the light from the light source as compared with the directivity angle of a portion where the cutout portion is not formed in the first shade portion. is there.

According to the plate for a lighting device of the present invention, since the notch is provided in the first shade portion, it is possible to provide a plate for a lighting device capable of widening the light in only a desired direction.

According to the lighting device of the present invention, since the first shade portion is provided with the cutout portion, it is possible to widen the light in only a desired direction.

(A) It is a perspective view of the illuminating device of a present Example. (B) It is the figure which represented the illuminating device of a present Example from another angle. (A) It is a reference sectional view of the lighting device of the present embodiment. (B) It is a perspective view of the illuminating device of a present Example. It is an exploded view of the illuminating device of a present Example. (A) It is a perspective view of the plate for lighting devices of a present Example. (B) It is the figure which represented the plate for lighting devices of a present Example from another angle. It is a reference schematic diagram which shows the light irradiated from the illuminating device of a present Example. It is a figure which shows the usage example of the illuminating device of a present Example. It is a figure which shows the other usage example of the illuminating device of a present Example.

Hereinafter, the lighting device 1 of the present embodiment will be described, but it goes without saying that the technical scope of the present invention is not limited to the embodiments.

The illumination device 1 according to the present embodiment includes a first-type light source 21, a first shade unit 31 that defines an irradiation range of light emitted from the first-type light source 21, and light (first light source) in the same direction as the first-type light source 21. A second-type light source 22 that emits a first-type light beam A) and a second shade unit 32 that determines an irradiation range of light (second-type light beam B) emitted from the second-type light source 22 (FIGS. 1 to 1). (See Figure 5).
Here, the first shade portion 31 has a notch portion 311, and the notch portion 311 has a directivity angle (an angle of β in FIG. 5×2) of a portion of the first shade portion 31 where the notch portion 311 is not formed. On the other hand, the directivity angle (angle α of α in FIG. 5×2) of the light from the first-type light source 21 (first-type light ray A) is formed to be a wide angle (see FIGS. 1 to 5 ).
According to the lighting device 1 having such a configuration, since the first shade portion 31 is provided with the cutout portion, the light in only a desired direction can have a wide angle.

Hereinafter, the first type light source 21 of the illumination device 1 of the present embodiment and the first shade unit 31 that determines the irradiation range of the light (first type light ray A) emitted from the first type light source 21 will be described with reference to FIGS. Will be described in more detail.

In this embodiment, the first light source 21 is a light emitting diode (LED) (see FIGS. 1 to 5).
Since the first type light source 21 is a light emitting diode (LED), it is possible to further suppress heat generation of the lighting device 1. However, the type of the first-type light source 21 is not particularly limited, and may be, for example, a halogen lamp, a HID lamp, an incandescent lamp, a silica lamp, or a mini krypton lamp.

The light emitted from the first type light source 21 (first type light ray A) may be either flood type light or spot type light.

Regarding the first-class light source 21, the size and shape of the first-class light source 21 are not particularly limited. The hue and color temperature of the light emitted from the first-type light source 21 are not particularly limited.

The first-type light source 21 does not necessarily have to be a single light source, and may be a light source that is an assembly of two or more light sources. Examples of the light source composed of an assembly of two or more light sources include a light source composed of an assembly of R (red) G (green) B (blue) light emitting diodes.

Further, the lighting device 1 of the present embodiment includes three first type light sources 21 (FIGS. 1 to 5). However, the number of the first-type light sources 21 is not limited, and for example, the first-type light sources 21 may preferably be provided in the number of 2 or more, and more preferably in the form of 3 or more.
By providing the first-type light source 21 at the lower limit or more, the box-shaped space can be efficiently illuminated.

Next, the first shade unit 31 will be described with reference to FIGS.

As shown in FIGS. 1 to 5, the first shade unit 31 defines an irradiation range of light emitted from the first-type light source 21.

In addition, the first shade portion 31 has a cutout portion 311 on the surface facing the second shade portion 32 side.
Since the cutout 311 is provided on the surface facing the second shade portion 32 side, the light irradiation range can be more accurately determined.

In this embodiment, the first shade portion 31 has a taper shape in which the diameter gradually decreases toward the light source side (see FIGS. 1 to 5 ). Since the first shade portion 31 has the tapered shape, the irradiation range of the light emitted from the first-type light source 21 can be more accurately determined.

In addition, in the present embodiment, the slope of the first shade portion 31 is gentler in the portion where the cutout portion 311 is provided than in the portion where the cutout portion 311 is not formed. With such a configuration, the directivity angle of the light from the first-type light source 21 can be made wider than the portion in which the cutout portion 311 is not formed in the first shade portion 31 more easily. (See Figures 1-5).

Further, in this embodiment, the directivity angle (angle α of α in FIG. 5×2) of the light from the first-type light source 21 defined by the cutout portion 311 is 120°.
Here, the directivity angle is twice the angle (the angle α or β in FIG. 5) at which the brightness is half the brightness of the central axis (first type optical axis A′ in FIG. 5) that shines most strongly. It refers to the value.

However, the directivity angle (angle α of α in FIG. 5×2) of the light from the first-type light source 21 defined by the cutout portion 311 is preferably 90° or more, more preferably 100° or more, still more preferably 110° or more, Particularly preferably, it may be 115° or more.
When the directivity angle (angle α of α in FIG. 5×2 in FIG. 5) of the light from the first-type light source 21 defined by the cutout portion 311 is not less than the lower limit, the box-shaped space can be efficiently illuminated.

Further, the directivity angle (angle α of α in FIG. 5×2) of the light from the first-type light source 21 defined by the cutout portion 311 is preferably 150° or less, more preferably 140° or less, and further preferably 130° or less, Particularly preferably, it may be 125° or less.
Since the directivity angle (angle α of α in FIG. 5×2 in FIG. 5) of the light from the first-type light source 21 defined by the cutout portion 311 is equal to or less than the upper limit, the lighting device 1 is installed in a box-shaped space such as a truck bed. At times, the box-shaped space can be efficiently illuminated.

Further, in the present embodiment, the directivity angle (angle β of FIG. 5×2) of the light from the first-type light source 21 defined by the first shade portion 31 in the portion where the cutout 311 is not formed is 45°. Is.
Here, the directivity angle (angle β of FIG. 5×2 in FIG. 5) of the light from the first-type light source 21 defined by the first shade portion 31 in the portion where the cutout portion 311 is not formed is preferably 30° or more, It may be more preferably 35° or more, and further preferably 40° or more.
In the area where the cutout 311 is not formed, the directivity angle (angle β of FIG. 5×2 in FIG. 5) of the light from the first-type light source 21 defined by the first shade portion 31 is equal to or larger than the lower limit, and thus the box-shaped space Can be efficiently brightened.

Furthermore, the directivity angle (angle β of FIG. 5×2 in FIG. 5) of the light from the first-type light source 21 defined by the first shade portion 31 in the portion where the cutout portion 311 is not formed is preferably 75° or less, It is preferably 60° or less, more preferably 50° or less.
Since the directivity angle of the light from the first-type light source 21 defined by the first shade portion 31 is not more than the upper limit in the portion where the cutout portion 311 is not formed, the lighting device 1 is provided in a box-shaped space such as a truck bed. Since the light from the first-type light source 21 does not illuminate the wall surface of the box-shaped space more than necessary when installed, the reflected light on the wall surface can be reduced.

The cutout portion 311 has a directivity angle of light from the first-type light source 21 (see FIG. 5) as compared with a portion of the first shade portion 31 where the cutout portion 311 is not formed (β angle in FIG. 5×2). There is no limitation on the shape, size, etc. as long as it is formed so that the angle α of 2 in 5×2) is wide.

The shape, material, size, etc. of the first shade portion 31 are not particularly limited.

Hereinafter, the second type light source 22 of the illumination device 1 of the present embodiment and the second shade part 32 that determines the irradiation range of the light emitted from the second type light source 22 will be described in more detail with reference to FIGS. 1 to 5. To do.

In this embodiment, the second type light source 22 is a light emitting diode (LED) (see FIGS. 1 to 5). Since the second type light source 22 is a light emitting diode (LED), heat generation of the entire lighting device 1 can be further suppressed.

However, the type of the second type light source 22 is not particularly limited, and may be, for example, a halogen lamp, an HID lamp, an incandescent lamp, a silica lamp, or a mini krypton lamp.

The light (second-type light beam B) emitted from the second-type light source 22 may be either flood-type light or spot-type light.

Regarding the second type light source 22, the size and shape of the second type light source 22 are not particularly limited. The hue and color temperature of the light emitted from the second type light source 22 are not particularly limited.

The second-type light source 22 does not necessarily have to be a single light source, and may be a light source that is an assembly of two or more light sources. Examples of the light source including a group of two or more light sources include a light source including a group of light emitting diodes of three colors of R (red) G (green) B (blue).

Further, the lighting device 1 of the present embodiment includes three second type light sources 22. However, the number of the second type light sources 22 is not limited, and for example, a configuration including two or more second type light sources 22 may be used. By providing two or more second type light sources 22, it is possible to efficiently lighten the box-shaped space.

Here, in the case of a configuration including two or more first type light sources 21 and second type light sources 22, it is desirable that the row of the first type light sources 21 and the row of the second type light sources 22 are substantially parallel.
Since the row of the first type light sources 21 and the row of the second type light sources 22 are substantially parallel to each other, the box-shaped space can be efficiently illuminated.

Here, in the case of a configuration including two or more first type light sources 21 and second type light sources 22, the substrate 2 in which the rows of the first type light sources 21 and the rows of the second type light sources 22 are provided substantially parallel to each other is used. It can also be used. The substrate 2 is preferably a PCB substrate.

Next, the second shade unit 32 will be described with reference to FIGS. 1 to 5.
As shown in FIGS. 1 to 5, the second shade unit 32 determines the irradiation range of the light (second type light beam B) emitted from the second type light source 22.

In the present embodiment, the second shade portion 32 has a taper shape in which the diameter gradually decreases toward the light source side (see FIGS. 1 to 5). Since the second shade portion 32 has the tapered shape, the irradiation range of the light emitted from the second type light source 22 can be determined.

In the present embodiment, the second shade portion 32 is arranged so that the directivity angle (angle of γ in FIG. 5×2) of the light (second type light beam B) emitted from the second type light source 22 is 45°. Has been done.
Here, the directivity angle is a value obtained by doubling the angle (angle γ in FIG. 5) at which the brightness is half the brightness of the center axis (second type optical axis B′ in FIG. 5) that emits the strongest light. Say.

However, there is no particular limitation on the directivity angle of the light (second type light beam B) emitted from the two-type light source defined by the second shade part 32, and preferably 30° or more, more preferably 35° or more, and further preferably 40. It may be more than °.
By setting the directivity angle of the light (second-type light beam B) emitted from the two-type light source defined by the second shade unit 32 within the above range, the box-shaped space can be efficiently illuminated.

Further, the directivity angle of the light (second type light beam B) emitted from the two-type light source defined by the second shade part 32 is preferably 75° or less, more preferably 60° or less, and further preferably 50° or less. ..
By setting the directivity angle of the light (second type light beam B) emitted from the second type light source defined by the second shade part 32 within the above range, when the lighting device 1 is installed in the box-shaped space, the second type Since the light from the light source 22 does not illuminate the wall surface of the box-shaped space more than necessary, the reflected light can be reduced.

However, the shape, material, size, etc. of the second shade portion 32 are not particularly limited.

Here, the illumination device plate 3 including the first shade portion 31 and the second shade portion 32 can also be used in the illumination device 1 of the present invention.
The lighting device plate 3 has a first shade portion 31 and a second shade portion 32 formed so as to correspond to the arrangement of the first-type light sources 21 and the second-type light sources 22 included in the lighting device 1. Is preferable (see FIGS. 1 to 5).

Next, with reference to FIGS. 1 to 5, the range of light emitted by the illumination device 1 of the present invention will be described.

As shown in FIGS. 1 to 5, the first shade unit 31 is arranged so as to determine the irradiation range of the light (first type light ray A) emitted from the first type light source 21. Here, since the first shade portion 31 has the cutout portion 311, the light from the first type light source 21 (first type light ray A) is directed in the direction in which the cutout portion 311 in the first shade portion 31 is not formed. Has a limited directional angle of light (first type light ray A) that is shielded by the first shade portion 31, while the first shade portion 31 has less limited directional angle in the direction in which the cutout portion 311 is formed. ..
For this reason, the directivity angle of the light from the first-kind light source 21 (first-kind ray A) is wider at the portion where the notch 311 is formed than at the portion where the notch 311 is not formed.

Further, since the second seed light source 22 in which the irradiation range of the light (second seed light beam B) is determined by the second shade unit 32 is also provided, the light from the first kind light source 21 (first kind light ray A) is wider. The illumination device 1 has a unique irradiation range in which the light from the second-type light source 22 (second-type light beam B) illuminates a range in which the directivity angle is limited as compared with the first-type light source 21. ..

Hereinafter, a more preferable form of the illumination device 1 of the present embodiment will be described.

The lighting device 1 of the present embodiment includes the translucent cover portion 4 having the curved surface 41. The curved surface 41 of the translucent cover portion 4 is formed on the notch 311 side.
The illuminating device 1 having such a form does not block the light (first type light ray A, second type light beam B) emitted from the first type light source 21 and the second type light source 22, and therefore, the illuminating device 1 1 can be designed to be small (see FIGS. 1 to 5).

Here, the translucent cover portion 4 is not limited in material, size, and shape as long as it has translucency. Examples of the material of the translucent cover portion 4 include polycarbonate.
In addition, in this specification, “having a light-transmitting property” means a property capable of transmitting light. Further, in the present specification, the “translucent cover portion 4 ”includes both a wall body including a translucent material and a wall body including a transparent material.

Further, the lighting device 1 of the present embodiment includes the heat dissipation section 6. Since the second-type light source 22 includes the heat dissipation unit 6, it is possible to further suppress the heat generation of the lighting device 1.

Further, the present invention is more preferably in a form including a mounting member 5 having a hole.
Further, by providing the mounting member 5 having the hole portion, it is possible to easily attach the mounting member 5 to the upper side portion of the box-shaped space such as a truck bed.

In this embodiment, the lighting device 1 is formed by combining different parts. However, in the lighting device 1 of the present invention, a plurality of components may be integrally molded as necessary.

INDUSTRIAL APPLICABILITY The present invention can be applied to a lighting device which is preferably used in a box-shaped space.
Further, the present invention can be applied to a lighting device mounted on a vehicle and used outdoors.

DESCRIPTION OF SYMBOLS 1 Illumination device 2 Substrate 21 1st type light source A 1st type light ray A'1st type optical axis 22 2nd type light source B 2nd type light ray B'2nd type optical axis 3 Lighting device plate 31 1st shade part 311 Notch 32 Second shade 4 Translucent cover 41 Curved surface 5 Mounting member 6 Heat dissipation part X Vehicle

Claims (7)

Two or more primary light sources,
A first shade portion that has a taper shape that gradually reduces in diameter toward the first type light source side, and that defines an irradiation range of light emitted from each of the first type light sources,
Two or more second type light sources, which emit light in the same direction as the first type light source,
A second shade portion that has a taper shape that gradually decreases in diameter toward the second-type light source side, and that defines an irradiation range of light emitted from each of the second-type light sources,
Equipped with
The row of the first type light source and the row of the second type light source are substantially parallel,
The first shade portion has a cutout portion on a surface facing the second shade portion side ,
The cutout portion is formed so that the directivity angle of the light from the first-type light source becomes a wide angle as compared to the directivity angle of the portion where the cutout portion is not formed in the first shade portion .
The directivity angle of the light emitted from the second type light source defined by the second shade portion is 30° or more and 60° or less,
The illuminating device, wherein the directivity angle of the light from the first type light source defined by the first shade portion is 30° or more and 60° or less in a portion where the cutout portion is not formed . The lighting device plate integrally formed with the first shade part and the second shade part so as to correspond to the arrangement of the first-type light sources and the second-type light sources included in the lighting device , Illumination device described. The first type light source and the second type light source are light emitting diodes,
The illuminating device according to claim 2, wherein the illuminating device plate is arranged on a substrate on which the first type light source rows and the second type light source rows are provided substantially in parallel . Furthermore, a translucent cover portion having a curved surface is provided,
The said curved surface is formed in the said notch part side, The illuminating device as described in any one of Claims 1-3 characterized by the above-mentioned.
apparatus. The notch, the directivity angle of the light from the first kind light more than 90 °, characterized in that it is formed so as to 125 ° or less, according to any one of claims 1-4 Lighting equipment. The illumination device according to claim 1, further comprising a mounting member having a hole. 2 or more first sade parts,
2 or more second sade parts,
Equipped with
The row of the first shade portion and the row of the second shade portion are substantially parallel,
The first shade portion and the second shade portion have a tapered shape in which the diameter is gradually reduced toward the side where the light source is arranged, so as to determine the irradiation range of the light emitted from the light source,
The first shade portion has a cutout portion on a surface facing the second shade portion side ,
The cutout portion, as compared with a portion of the first shade portion where the cutout portion is not formed, widens the directivity angle of the light from the light source ,
The directivity angle of light defined by the second shade portion is 30° or more and 60° or less,
The directivity angle of the light defined by the first shade portion is 30° or more and 60° or less in a portion where the cutout portion is not formed,
The plate for a lighting device, wherein the cutout portion is formed so that a directivity angle of light from a light source is 90° or more and 125° or less .