JP2015050002A - Lighting fixture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting fixture which can light-distribute light emitted from a light source to a direct illumination light and an indirect illumination light, and can diffuse the indirect illumination light not only immediately above a light emission face but also up to its surroundings.SOLUTION: A lighting fixture 11 having a planar light emission face comprises: a light source part 51; a light guide part 60 which has the planar light emission face, guides light from the light guide source 51, and emits the light toward a first face side 61 and a second face side 62 at the light emission face; an implement main body 21 having the light source part 51 and the light guide part 60; and an attachment part 71 which is arranged at one face in the light emission face of the light guide part 60 while opposing the one face, and attaches the implement main body 21 to an attachment face. The attachment part 71 is concave and convex in its surface shape, and has a light reflection part 72 which reflects at least a part of light which is emitted from the other face side in the light emission face of the light guide part 60.

Description

  The present invention relates to a lighting fixture having a planar light exit surface.

  In recent years, for example, lighting fixtures have been developed in which light from an LED (Light Emitting Diode) is introduced into a light guide unit and the light guide unit emits light in a planar shape.

  For example, Patent Document 1 discloses a lighting fixture (base light) including a light source unit having an LED and a light guide plate optically coupled to the light source unit as a light guide unit. FIG. 10 of Patent Document 1 discloses a state in which the lighting apparatus is installed on the ceiling in a pendant shape.

  Patent Document 2 discloses a lighting fixture including a plurality of LEDs and a light distribution adjusting member that adjusts the light distribution of light emitted from the LEDs.

JP 2011-222516 A JP 2012-234906 A

  The lighting fixtures disclosed in Patent Documents 1 and 2 are configured to directly illuminate a space or a surface on the light irradiation side. In other words, the lighting fixtures disclosed in Patent Documents 1 and 2 are intended to perform indirect illumination by irradiating light on a space or surface (for example, a ceiling surface or a wall surface) opposite to the light irradiating side. It was n’t. That is, the lighting fixtures disclosed in Patent Documents 1 and 2 do not have a function of improving the atmosphere of the space by indirect lighting.

  When direct illumination and indirect illumination are performed by a lighting fixture having a planar light-emitting surface, light emitted from the light source is distributed into direct illumination light and indirect illumination light (for example, downward and upward relative to the illumination fixture). And the light distribution is controlled so that the light distributed as the indirect illumination light is diffused not only directly above the light-emitting surface but also to the periphery thereof.

  Then, this invention is made | formed in view of the said subject, In the lighting fixture which has a planar light emission surface, while distributing the light radiate | emitted from the light source to direct illumination light and indirect illumination light, it is indirectly It is an object of the present invention to provide a lighting apparatus capable of diffusing illumination light not only directly above the light exit surface but also to the periphery thereof.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, the lighting fixture disclosed in the present application is a lighting fixture having a planar light-emitting surface,
A light source unit;
A light guide unit that has the planar light exit surface, guides light from the light source unit, and emits light toward the first surface side and the second surface side of the light exit surface;
An instrument body having the light source unit and the light guide unit;
A mounting portion that is disposed opposite to the second surface side of the light exit surface of the light guide portion, and that attaches the instrument body to a mounting surface.
The mounting portion is
A light reflecting portion that has an uneven shape on the surface and reflects at least a part of the light emitted from the second surface side of the light emitting surface of the light guide portion is provided.

  The lighting fixture disclosed in the present application can take the following aspects based on the above configuration.

In the lighting fixture disclosed in the present application,
The light reflecting portion is
It is preferable that the light reflecting portion is formed in a mountain shape in which the cross-sectional shape becomes wider as the distance from the light exit surface increases.

In the lighting fixture disclosed in the present application,
The light source unit preferably includes a semiconductor light emitting element.

  According to the present invention, in a lighting fixture having a planar light exit surface, the light emitted from the light source is distributed to the direct illumination light and the indirect illumination light, and the indirect illumination light is not only directly above the light exit surface. , It can diffuse up to its periphery.

The perspective view of the lighting fixture 11 which concerns on embodiment of this invention. The perspective view which expanded a part of lighting fixture 11. FIG. FIG. 3 is a half sectional view taken along line AA shown in FIG. 2. The elements on larger scale in the CC line shown in FIG. The perspective view which shows the modification of an attaching part (light reflection part).

  The lighting fixture 11 which concerns on embodiment of this invention is demonstrated using FIGS. 1-5. The luminaire 11 according to the present embodiment is a luminaire that introduces light of the LED 53 as a semiconductor light emitting element into the light guide portion 60 and emits light with the first surface 61 and the second surface 62 of the light guide portion 60 as light exit surfaces. is there. The luminaire 11 is used as a ceiling light installed on a mounting surface such as a ceiling. Hereinafter, as shown in FIG. 3, the vertical direction when the lighting fixture 11 is attached to the ceiling C is described as the top and bottom of the lighting fixture 11.

  As shown in FIGS. 1 and 2, the lighting fixture 11 mainly has a fixture body 21 and a mounting portion 71. The fixture body 21 is a main part of the lighting fixture 11. The attachment part 71 is a part for attaching the lighting fixture 11 to the ceiling C or the like.

  The instrument main body 21 includes a cover part 31, a light source part 51, and a light guide part 60.

  The cover part 31 of this embodiment is a frame, and a planar shape is a rectangle. In the following description, the center side of the rectangle in the planar direction of the cover part 31 is the inside of the cover part 31, and the outside of the rectangle when viewed from the center side is the outside of the cover part 31. The cover part 31 has a pair of long sides and a pair of short sides. The pair of long sides of the cover portion 31 is composed of a first long side portion 321 and a second long side portion 322 that are arranged at opposing positions. The pair of short sides of the cover portion 31 is configured by a first short side portion 331 and a second short side portion 332 that are disposed at opposing positions. The light source unit 51 is provided in the first long side part 321 and the second long side part 322, and the light source part 51 is not provided in the first short side part 331 and the second short side part 332, but the cover part 31 The cross-sectional shape is a similar structure. For this reason, the structure of the cover part 31 is demonstrated using FIG. 3, FIG.

  The cover part 31 includes a cover main body 34, a sandwiching part 35, and an upper cover 36. The cover main body 34 is a portion that becomes a base of the cover portion 31. The cover main body 34 is provided along the longitudinal direction of each of the first long side 321, the second long side 322, the first short side 331, and the second short side 332. The cover main body 34 includes a standing wall portion 37, an upper wall portion 38, a lower wall portion 39, and a light shielding portion 41.

  The standing wall portion 37 is a plate-like portion that is erected along the vertical direction. The upper wall portion 38 is a plate-like portion extending from the upper portion of the standing wall portion 37 toward the inside of the cover portion 31. The lower wall portion 39 is a plate-like portion extending from the lower portion of the standing wall portion 37 toward the outside of the cover portion 31. A side wall 40 is erected upward at an outer end of the lower wall 39. The light shielding portion 41 is a plate-like portion that extends from the lower portion of the standing wall portion 37 toward the inside of the cover portion 31.

  The light source 51 is attached to the inner surface of the cover main body 34 that forms the first long side 321 and the second long side 322. The surface to which the light source unit 51 is attached is the inner side surface of the standing wall unit 37. A portion of the standing wall portion 37 to which the light source unit 51 is attached becomes a light source attachment portion 43. The light source mounting portion 43 is also a heat radiating portion that transfers heat generated in the light source portion 51 and releases it to the outside. For this reason, the inner surface of the standing wall portion 37 to which the light source unit 51 is attached is formed flat so that the contact area with the light source unit 51 is widened.

  The clamping unit 35 is a member that fixes the light guide unit 60 to the cover unit 31. The sandwiching unit 35 sandwiches the light guide unit 60 between the light shielding unit 41 of the cover main body 34.

  The upper cover 36 is a member that covers the upper surface side of the cover main body 34, in other words, the upper side of the instrument main body 21. The upper cover 36 is disposed between the upper portion of the standing wall portion 37 of the cover main body 34 and the side wall portion 40 of the lower wall portion 39.

  The main parts of the cover main body 34, the sandwiching part 35, and the upper cover 36 constituting the cover part 31 are made of metal such as aluminum in consideration of durability and thermal conductivity for radiating heat generated by the light source part 51. It is formed using a material. In addition, the cover part 31 can also be formed with other materials, such as resin, or the combination of those materials, if it can ensure durability and heat dissipation.

  The light source unit 51 includes, for example, a plurality of LEDs 53, and emits light to the incident unit 67 of the light guide unit 60. The light source unit 51 has, for example, a plurality of LED light source modules. In each LED light source module, for example, a plurality of LEDs 53 are mounted on a flat substrate 52 at equal intervals. In the present embodiment, the light source unit 51 is provided in the first long side part 321 and the second long side part 322. For this reason, the light source part 51 is arrange | positioned at the light source attachment part 43 of the 1st long side part 321 and the 2nd long side part 322. FIG.

  Since the light source unit 51 is fixed in contact with the light source attachment unit 43, the heat generated from the light source unit 51 is transmitted to the cover unit 31 constituting the first long side part 321 and the second long side part 322. The heat transmitted to the cover part 31 is radiated into the air around the cover part 31. In order to improve heat dissipation, a heat conductive sheet or heat radiation grease may be interposed between the light source 51 and the light source mounting portion 43. In the present embodiment, the LED 53 as the semiconductor light emitting element is used for the light source unit 51. However, the present invention is not limited to the LED 53, and for example, an organic EL element (OLED) may be used.

  The light source 51 is electrically connected to a power supply device 54 and a lighting device (not shown) for lighting the LED 53. The power supply device 54, the lighting device (not shown), and the like are accommodated in the mounting portion 71.

  The light guide unit 60 is a part that emits light introduced from the light source unit 51 in a planar shape. The light guide unit 60 of the present embodiment has a flat plate shape, and both the first surface 61 and the second surface 62 opposite to the first surface 61 are light exit surfaces. The first surface 61 is a surface directed toward the lower side of the instrument main body 21. The second surface 62 is a surface directed toward the upper side of the instrument main body 21.

  The light guide unit 60 mainly includes a light guide plate 63, a light adjustment unit 64, and a protection plate 66. The light guide unit 60 includes an incident unit 67, a light output unit 68 as a light output region, and a transparent unit 69 as a transparent region. The planar shape of the light guide 60 is a rectangle. The light guide unit 60 is placed on the light shielding unit 41 of the cover unit 31 so that the incident unit 67 faces the LED 53 of the light source unit 51, and is fixed by being sandwiched between the light shielding unit 41 and the clamping unit 35.

  The light guide plate 63 is a plate-like body formed using, for example, a transparent acrylic resin material. The light guide plate 63 has a pair of opposed long sides and a pair of opposed short sides. One long side of the pair of long sides is defined as an incident portion 67 for introducing light from the light source unit 51.

  A light adjusting unit 64 is formed on the surface of the light guide plate 63 on the second surface 62 side. In the present embodiment, as the light adjusting unit 64, a pattern printing layer that transmits a part of the light introduced from the incident unit 67 and reflects a part of the light is formed on the light guide plate 63. A region where the light adjustment unit 64 is formed is a light output unit 68 (shaded portion shown in FIG. 2). That is, when viewed from the first surface 61 side, the region where the light adjusting portion 64 is formed is the first light emitting portion 681 on the first surface 61 side. Further, when viewed from the second surface 62 side, the region where the light adjusting portion 64 is formed is the second light emitting portion 682 on the second surface 62 side.

  In the present embodiment, the outer edge of the region where the light adjusting unit 64 is formed is set to the inside by a predetermined distance from the end of each side of the light guide plate 63. That is, a transparent portion where the light adjusting portion 64 is not formed is secured at a certain width at the edge portion along each side of the light guide plate 63. A region where the light adjustment portion 64 is not formed becomes a transparent portion 69.

  That is, on the first surface 61, a frame-shaped transparent portion 69 is formed along each side of the light guide plate 63, and a rectangular first light output portion 681 surrounded by the transparent portion 69 is formed inside thereof. Further, on the second surface 62, a frame-shaped transparent portion 69 is formed along each side of the light guide plate 63, and a rectangular second light output portion 682 surrounded by the transparent portion 69 is formed inside thereof.

  In addition, since the light adjustment part 64 has a light transmittance, the 1st light emission part 681 and the 2nd light emission part 682 have a light transmittance. For this reason, in the light extinction state of the lighting fixture 11, what exists in the other side of the light guide part 60 can be seen through from any of the 1st surface 61 side and the 2nd surface 62 side. For example, when viewed from the lower first surface 61 side when the lighting fixture 11 is turned off, the upper mounting portion 71 can be viewed through the first light emitting portion 681, the second light emitting portion 682, and the transparent portion 69. it can. In the lighting state of the lighting fixture 11, since the 1st light emission part 681 and the 2nd light emission part 682 are light-emitted, it becomes difficult to look at the attachment part 71 visually.

  A protection plate 66 that protects the light guide plate 63 is provided on the first surface 61 side and the second surface 62 side of the light guide plate 63. As the protection plate 66, for example, an acrylic resin plate thinner than the light guide plate 63 can be used.

  Here, the light adjustment unit 64 of this embodiment will be described. The light adjustment unit 64 has a predetermined dot pattern printed directly on the light guide plate 63 with, for example, white ink. The light adjustment unit 64 arranges relatively small dots in the area near the light source unit 51 and increases the dot interval. The light adjustment unit 64 increases the dots as the distance from the light source unit 51 increases and decreases the dot interval. The amount of reflection and the amount of transmission can be controlled. As a result, it is possible to perform control of the light amounts of the first light output unit 681 and the second light output unit 682 and light distribution control so that the first light output unit 681 and the second light output unit 682 emit light as uniformly as possible.

The attachment portion 71 is a long member that is disposed to face the second surface 62 of the light guide portion 60 and attaches the instrument body 21 to the ceiling C that is the attachment surface of the instrument body 21. The attachment portion 71 includes a light reflection portion 72, an end wall portion 73, an opposing wall portion 74, and an attachment end portion 75. The attachment portion 71 is also a container-like accommodation portion that accommodates the power supply device 54, the lighting device (not shown), and the like. Therefore, a space having a predetermined volume is formed in the mounting portion 71 to accommodate the power supply device 54, the lighting device (not shown), and the like. The attachment portion 71 is formed using a metal material such as aluminum having thermal conductivity in consideration of durability that can hold the instrument body 21 for a long period of time and heat dissipation for dissipating heat generated by the power supply device 54. Has been. The attachment portion 71 is arranged at the center in the short direction on the upper side of the instrument body 21 so that the longitudinal direction of the attachment portion 71 and the longitudinal direction of the instrument body 21 are parallel to each other.
Note that the mounting portion 71 is not limited to a metal material such as aluminum, and can be formed of other materials such as a resin or a combination of these materials as long as durability and heat dissipation can be ensured.

The light reflecting portion 72 has a concavo-convex shape continuously formed on the side surface side of the mounting portion 71, and is a portion that reflects at least a part of the light emitted from the second surface 62 side of the light guide portion 60. The light reflecting portion 72 is a portion that irregularly reflects incident light. Specifically, the light reflecting portion 72 includes a plurality of trough portions that are arc-shaped depressions on the surface of the light reflecting portion 72 and convex crest portions formed between the plurality of trough portions. It is a part formed continuously by turns in the transversal direction. The light reflecting portion 72 has a symmetrical shape with respect to the center line D in the short direction of the mounting portion 71 shown in FIG. 3, and is disposed so as to face the center line D. The light reflecting portion 72 has a mountain shape (this embodiment) in which the cross-sectional shape of the light reflecting portion 72 becomes wider as the distance from the light exit surface of the light guide portion 60 of the lighting fixture 11 increases (in this embodiment, as it goes upward). Then, it is formed in a substantially trapezoidal shape. In other words, the light reflecting portion 72 is an inclined surface with an uneven surface that extends from the vicinity of the center of the instrument body 21 in the lateral direction toward the outer oblique direction of the instrument body 21.
In the present embodiment, the uneven surface is formed by periodically bending the plate-shaped member of the light reflecting portion 72, but it is not particularly limited. For example, the surface of the plate-like member having a predetermined thickness can be formed in an arc shape so as to form an uneven surface similar to this embodiment.

  The end wall portion 73 is a plate-like portion that is connected to both ends in the longitudinal direction of the light reflecting portion 72 and is erected along the vertical direction.

The facing wall portion 74 is a plate-like portion that is connected to the light reflecting portion 72 and the end wall portion 73 and is provided to face the instrument body 21.
In the present embodiment, the opposing wall portion 74 is configured as a flat plate-like portion. However, the present invention is not particularly limited, and the surface of the opposing wall portion 74 is formed in an uneven shape like the light reflecting portion 72. It doesn't matter.

  The attachment end portions 75 are provided so as to protrude downward at both ends in the longitudinal direction of the attachment portion 71 (opposing wall portion 74), and are connected to the upper ends of the first short side portion 331 and the second short side portion 332 of the instrument body 21. It is a part to be done.

  Here, the light reflection part 72 of this embodiment is demonstrated. The light reflecting portion 72 is formed on the inclined surface of the mounting portion 71 extending in the oblique direction outside the instrument body 21 from the vicinity of the center of the instrument body 21 in the short direction. The light reflecting portion 72 is a predetermined concavo-convex pattern in which a plurality of trough portions and convex crest portions formed between the plurality of trough portions are alternately and continuously formed as the above-described arc-shaped depressions. Have. Since the light reflecting portion 72 is formed with an inclined surface having such a concavo-convex pattern, it reflects at least a part of the light emitted from the second surface 62 side of the light guide portion 60 and is just above the light emitting surface. Instead, it can diffuse to the side of the instrument body 21. In other words, the light reflecting portion 72 can cause the ceiling C to emit light having a spread as indirect illumination light by irregularly reflecting at least part of the light emitted from the second surface 62 side of the light guide portion 60. . Indirect illumination by appropriately controlling the light reflection amount and irregular reflection state by appropriately setting the shape and number of valleys and peaks forming the uneven pattern, and the pitch (interval) between peaks and valleys. It is possible to adjust the spread of light as light.

Note that the surface of the light reflecting portion is not limited to the shape of the present embodiment as long as the effect of the present invention is obtained by having an uneven shape. For example, as illustrated in FIG. 5A, the light guide unit 60 may be configured by changing the inclination of the light reflection unit or the number of valleys (mountain portions) of the light reflection unit.
Further, as shown in FIG. 5 (b), the cross-sectional shape of the mounting portion is an arc shape, and is formed between a plurality of peak portions projecting outward in an arc shape on the surface of the mounting portion and the plurality of peak portions. It may be configured to have a predetermined concavo-convex pattern in which concave valleys are alternately formed.
Moreover, as shown in FIG.5 (c), you may form the surface of an attaching part in step shape.

  According to the luminaire 11 according to the present embodiment described above, by providing the mounting portion 71 disposed to face the second surface 62 of the light guide portion 60, the light emitted from the second surface 62 side can be obtained. At least a portion can be reflected. Further, the light emitted from the light source unit 51 by the instrument body 21 is emitted directly from the first surface 61 side of the light guide unit 60 and indirectly from the second surface 62 side of the light guide unit 60. In addition to distributing light to the illumination light, the indirect illumination light can be diffused not only directly above the light exit surface but also to the periphery thereof by the mounting portion 71. That is, according to the luminaire 11, the upward light emitted from the light guide portion 60 is controlled by the light reflecting portion 72, and the light is diffused not only on the upper side of the fixture body 21 but also on the side thereof. In this way, light can be distributed also around the instrument body 21. Thereby, the surface of the ceiling C becomes bright, and a feeling of brightness of the entire space is obtained.

  For example, as shown in FIG. 10 of Patent Document 1, a lighting fixture having a planar light-emitting surface has a ceiling surface in a state where a predetermined space is provided on the back side of the lighting fixture (the side opposite to the light-irradiating side). In the case where the appliance main body (lamp) is arranged in the above, a configuration in which the appliance main body (lamp) is attached to a ceiling surface or the like and an attachment portion for storing a power source or the like is conceivable.

  In the lighting fixture provided with such an attaching part, since not only a ceiling surface etc. but the attaching part which also serves as power storage becomes the object which receives indirect illumination light, it will prevent diffusion of indirect illumination light. For this reason, it is desired to make the mounting portion as compact as possible. However, the size of the mounting portion depends on the power supply size, and it is difficult to make the mounting portion compact. On the other hand, in the lighting fixture 11 according to the present embodiment, the attachment portion 71 is a target for receiving indirect illumination light emitted from the second surface 62 side of the light guide portion 60, but the indirect received by the attachment portion 71. Since the illumination light can be diffused to the periphery of the attachment portion 71, the attachment portion 71 does not hinder the diffusion of the indirect illumination light.

  Moreover, in the lighting fixture provided with such an attachment part, the light distributed as indirect illumination light is diffused in a space or surface (for example, a ceiling surface or a wall surface) opposite to the light irradiation side. In order to control the light distribution, a configuration in which the light distribution is controlled on the instrument body (lamp) side as in Patent Document 2 is conceivable. That is, the structure which arrange | positions the member (For example, the light distribution adjustment member 4 in patent document 2) which diffuses light to the instrument main body (lamp) side like patent document 2 can be considered. However, with such a configuration, the size of the fixture body (lamp) is increased, which may impair the appearance of the lighting fixture, and is inferior in design. On the other hand, in the lighting fixture 11 according to this embodiment, it is not necessary to provide the fixture main body 21 like the light distribution adjusting member 4 in Patent Document 2.

  In the luminaire 11, the surface shape of the light reflecting portion 72 of the mounting portion 71 is a regular continuous uneven shape, and the cross-sectional shape of the light reflecting portion 72 increases as the light reflecting portion 72 moves away from the light exit surface. It is formed in a wide mountain shape. Therefore, a design effect can be obtained when the mounting portion 71 is viewed from below via the light guide 60 when the lighting fixture 11 is turned off or when the mounting portion 71 is viewed from the side of the lighting fixture 11. That is, the mounting portion 71 (light reflecting portion 72) that receives indirect illumination light from the instrument body 21 has a concavo-convex surface that functions as a detail that receives light, so that the mounting portion 71 is simply a support member of the instrument body 21. In addition to the role, it can play a role of improving the design.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to the said embodiment, A various change is possible. For example, although the luminaire 11 is rectangular, it may be round or other shapes. Moreover, you may apply to a pendant light etc. besides a ceiling light.

  Although the light source unit 51 is provided for a part of the end of the light guide unit 60, the present invention is not limited to this, and the light source unit 51 may be provided for the entire circumference of the light guide unit 60. Further, although the light source unit 51 is provided outside the light guide unit 60, it may be provided inside the light guide unit 60. For example, an opening may be formed inside the light guide 60 to form a donut shape, and the light source 51 may be provided from the inside to the outside along the end of the opening.

  Although the dot printing pattern using the ink jet means is used as the light adjusting unit 64, the present invention is not limited to this. For example, a sheet material that transmits part of light and reflects part of light is attached to the light guide plate 63. Thus, the light distribution may be controlled. Alternatively, a method of providing unevenness on the surface of the light guide plate 63 or a light guide plate containing a substance that reflects light may be used.

  In the present embodiment, a frame is used as the cover part 31, but the present invention is not limited to this. For example, a case for storing the light guide part or a means for attaching a reflection sheet may be used.

DESCRIPTION OF SYMBOLS 11 Lighting fixture 21 Appliance main body 31 Cover part 321 1st long side part 322 2nd long side part 331 1st short side part 332 2nd short side part 34 Cover main body 35 Clamping part 36 Upper cover 37 Standing wall part 38 Upper wall part 39 Lower wall portion 40 Side wall portion 41 Light shielding portion 43 Light source mounting portion 51 Light source portion 52 Substrate 53 LED
54 power supply device 60 light guide portion 61 first surface 62 second surface 63 light guide plate 64 light adjustment portion 66 protective plate 67 incident portion 68 light exit portion 681 first light exit portion 682 second light exit portion 69 transparent portion 71 attachment portion 72 light reflection Part 73 End wall part 74 Opposite wall part 75 Installation end part C Ceiling

Claims (3)

A lighting fixture having a planar light-emitting surface,
A light source unit;
A light guide unit that has the planar light exit surface, guides light from the light source unit, and emits light toward the first surface side and the second surface side of the light exit surface;
An instrument body having the light source unit and the light guide unit;
A mounting portion that is disposed opposite to the second surface side of the light exit surface of the light guide portion, and that attaches the instrument body to a mounting surface.
The mounting portion is
A light reflecting portion that has an uneven shape on the surface and reflects at least a part of light emitted from the second surface side of the light exit surface of the light guide portion is provided.
lighting equipment. The lighting fixture according to claim 1,
The light reflecting portion is
As the distance from the light exit surface increases, the light reflecting portion is formed in a mountain shape in which the cross-sectional shape becomes wider.
lighting equipment. The lighting apparatus according to claim 1 or 2,
The light source unit includes a semiconductor light emitting element.
lighting equipment.

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