JP2021015694A - Lighting device - Google Patents

Abstract

To provide a lighting device which achieves improvement of waterproofness and airtightness achieved by a packing.SOLUTION: A lighting device of the present invention includes: a light source part having a light source and an optical control member covering the light source; a cover part to which the light source part is fixed and which is formed with an emission port for exposing the optical control member; and a packing which is sandwiched between the light source part and the cover part and disposed around the emission port. The packing is formed into an annular shape and a thickness of at least an inner periphery part of the packing is formed so as to be reduced from the outer periphery side to the inner periphery side.SELECTED DRAWING: Figure 5

Description

The present invention relates to a luminaire, particularly to a structure around an outlet.

Conventionally, there has been known a luminaire in which an optical control member such as a lens protrudes from an outlet formed in a cover portion that covers a built-in component of the luminaire (see, for example, Patent Document 1). The luminaire described in Patent Document 1 includes a packing that covers the collar of the lens. The packing is arranged between the cover portion and the light source mounting portion, and closes the gap between the exit port and the lens formed in the cover portion.

Japanese Patent No. 6489869

The packing of the lighting equipment described in Patent Document 1 is attached so as to cover the collar portion of the lens. Therefore, it is difficult to attach the packing to the collar of the lens. Further, in order to improve the assembling property, when the packing is placed between the lens and the cover part and sandwiched between the lens and the cover part to ensure waterproofness, a gap between the lens and the cover part is provided. It is necessary to increase the thickness of the packing in order to close it. At this time, the packing may protrude from the outlet and the convex outer peripheral surface of the lens. If the packing protrudes from the outlet and the lens, a gap may be generated due to the deformation of the packing, and the luminaire has a problem that waterproofness and airtightness are impaired.

The present invention is for solving the above-mentioned problems, and an object of the present invention is to provide a lighting fixture having improved waterproofness and airtightness due to packing while improving packing assembleability. ..

The luminaire according to the present invention includes a light source unit having a light source and an optical control member covering the light source, a cover unit to which the light source unit is fixed and an outlet for exposing the optical control member is formed, and the light source unit. A packing sandwiched between the cover portion and the cover portion and arranged around the exit port, the packing is formed in an annular shape, and the thickness of at least the inner peripheral portion of the packing is from the outer peripheral side. It is formed so as to become thinner toward the inner peripheral side.

According to the present invention, according to the above configuration, the packing is pressed between the lens and the cover portion, and the protrusion from the outlet of the cover portion and the optical control member is suppressed. As a result, the luminaire is improved in assembling property, waterproofness, and airtightness.

It is a perspective view which shows the luminaire 1a which concerns on Embodiment 1. FIG. It is an exploded perspective view which shows the luminaire 1a which concerns on Embodiment 1. FIG. It is an exploded perspective view of the cover assembly 10 of FIG. It is sectional drawing of the luminaire 1a which concerns on Embodiment 1. FIG. It is an enlarged view around the light source part 20 of FIG. It is explanatory drawing of the cross-sectional structure of the comparative example around the light source part 20 of the luminaire 1a which concerns on Embodiment 1. FIG. It is explanatory drawing of an example of the cross-sectional structure around the light source part 20 of the luminaire 1a which concerns on Embodiment 1. FIG. It is explanatory drawing of the cross-sectional structure perpendicular to the optical axis L of the luminaire 1a which concerns on Embodiment 1. FIG. This is a modified example of the guide metal fitting 12 of the lighting fixture 1a according to the first embodiment. It is a perspective view of the luminaire 101a which is a modification of the luminaire 1a which concerns on Embodiment 1. FIG. It is an exploded perspective view of the main body unit 160 constituting the luminaire 101a of FIG. It is an exploded perspective view of the cover assembly 110 which constitutes the luminaire 101a of FIG.

Hereinafter, the lighting device according to the embodiment of the present invention will be described in detail with reference to the drawings. In the drawings below, the size relationship of each component may differ from the actual one. Further, in the following drawings, those having the same reference numerals are the same or equivalent thereof, and this shall be common to the entire text of the specification. Furthermore, the forms of the components represented in the full text of the specification are merely examples, and are not limited to these descriptions.

Embodiment 1.
<Lighting fixture 1a>
FIG. 1 is a perspective view showing a lighting fixture 1a according to the first embodiment. FIG. 2 is an exploded perspective view showing the luminaire 1a according to the first embodiment. FIG. 3 is an exploded perspective view of the cover assembly 10 of FIG. The luminaire 1a includes a housing 50 formed in a substantially cylindrical shape. The portion of the housing 50 on the top surface 80 side is attached to the attached portion such as the ceiling via the waterproof packing 90. The bottom surface of the housing 50 is the front surface portion 11 of the cover, which is a portion where light rays from the light source 5 (see FIG. 5) are emitted.

As shown in FIG. 2, the luminaire 1a is fixed to a mounted portion such as a ceiling. The luminaire 1a includes a cover assembly 10, a lighting device 30, and a main body unit 60. The cover assembly 10 is formed by fixing the light source portion 20 to the cover portion 10a. In the main body unit 60, the power terminal block 40 is fixed to the main body structure 60a, and the lighting device 30 is further attached. The main body structure portion 60a has a top surface 80 and is a portion fixed to the attached portion. Further, the cover portion 10a of the lighting fixture 1a is formed with a plurality of display openings 15. The display port 15 is a portion that receives an external signal.

<Cover assembly 10>
As shown in FIG. 3, the cover assembly 10 includes a cover portion 10a, a light source portion 20, and a heat radiating plate 27. The cover portion 10a has a bottomed tubular shape, and houses the power terminal block 40 and the lighting device 30 fixed to the main body unit 60, and the light source portion 20 fixed to the cover portion 10a inside the tubular portion. The cover portion 10a and the main body structure portion 60a form a part of the housing 50 of the luminaire 1a. The cover portion 10a has a cover front surface portion 11 corresponding to the bottom portion of the bottomed tubular shape, and a cover side surface portion 13 corresponding to the tubular portion. In the cover portion 10a, the guide metal fitting 12 is fixed to the inner surface of the cover side surface portion 13. In the cover portion 10a, an outlet 14 for exposing the optical control member 21 is formed on the cover front surface portion 11 forming the bottom surface 10e (see FIG. 5) having a bottomed tubular shape. The light source portion 20 and the packing 22 are fixed to the bottom surface 10e, which is the inner surface of the cover front portion 11 of the cover portion 10a. Further, a signal receiving unit (not shown) and a monitor packing 23 are fixed to the bottom surface 10e of the cover unit 10a. The light source unit 20, the packing 22, the signal receiving unit, and the monitor packing 23 are sandwiched between the cover front surface portion 11 and the heat radiating plate 27, and are pressed and fixed. The packing 22 is also referred to as a lens packing.

<Light source unit 20>
FIG. 4 is a cross-sectional view of the lighting fixture 1a according to the first embodiment. FIG. 4 shows a cross-sectional structure of the luminaire 1a along the optical axis L of the light beam emitted from the light source 5. FIG. 5 is an enlarged view of the periphery of the light source unit 20 of FIG. The light source unit 20 includes a holder 9 to which the light source 5 and the optical control member 21 are attached. A heat radiating plate 27 is attached to the light source portion 20, and the light source portion 20 is fixed to the bottom surface of the cover portion 10a via the heat radiating plate 27 by screws 10-3. The optical control member 21 is, for example, a lens, and is a member that controls the traveling direction and range of light rays emitted from the light source 5. The optical control member 21 has an optical control unit 21a projecting in the direction in which light rays are emitted from the light source 5 at the center, that is, in the optical axis L direction, and a flange portion 21b formed so as to project outward from the optical control unit 21a. And. The collar portion 21b is fixed to the holder 9 by the L-shaped rib 9b. The optical axis L is the central axis of the light beam emitted by the light source 5, and in the first embodiment, it coincides with the central axis of the luminaire 1a. That is, the optical axis L coincides with the central axis of the cylinder formed by the cover side surface portion 13 of the cover portion 10a. In the following description, the structure may be described by using the optical axis L instead of the central axis of the cylinder formed by the central axis of the luminaire 1a and the cover side surface portion 13.

The holder 9 of the light source unit 20 is fixed by engaging the engaging portion 9a with the heat radiating plate 27. The heat radiating plate 27 is fixed to the inside of the cover portion 10a so as to be attracted to the cover front surface portion 11 side by screws 10-3. The light source portion 20 and the packing 22 are sandwiched between the heat radiating plate 27 and the cover front surface portion 11 of the cover portion 10a, and are pressed and fixed. The screws 10-3 penetrate the screw packing 10-4 arranged between the front surface portion 11 of the cover and the heat radiating plate 27, and are screwed into the heat radiating plate 27. Since the screw packing 10-4 is compressed between the cover front surface portion 11 and the heat radiating plate 27, the airtightness and waterproofness inside the housing 50 are improved.

<Structure of the peripheral part of the light source part 20>
As shown in FIGS. 3 and 5, a packing 22 is arranged between the light source portion 20 and the cover front surface portion 11, and the packing 22 closes the gap formed between the optical control member 21 and the exit port 14. , It is intended to improve the waterproofness and airtightness inside the housing 50. Further, the packing 22 is formed in an annular shape, and is arranged so as to surround the periphery of the optical control unit 21a, which is a protruding portion of the optical control member 21. In other words, the annular packing 22 surrounds the outside of the optical control unit 21a of the optical control member 21 around the optical axis L.

<Structure of the peripheral part of the light source part 20>
As shown in FIG. 5, the periphery of the outlet 14 of the cover portion 10a is formed so as to project toward the outside of the cover portion 10a. That is, when viewed from the inside of the cover portion 10a, the bottom surface 10e of the bottomed tubular cover portion 10a includes a packing arrangement surface 10c that is recessed in the direction in which light is emitted from the surrounding surface 10b. The packing arrangement surface 10c is formed in an annular shape around the exit port 14. Further, a connecting surface 10d extending in the direction along the optical axis L is formed between the packing arrangement surface 10c and the surrounding surface 10b. In the cross-sectional shape shown in FIG. 5, the packing 22 is formed in an L shape around the outlet 14. The packing 22 is arranged along the packing arrangement surface 10c and the connection surface 10d.

<Packing 22>
The packing 22 is formed so that at least the inner peripheral portion is thick. The inner peripheral portion 22a of the packing 22 has a thickness capable of closing the gap formed between the packing arrangement surface 10c and the optical control member 21. That is, the thickness dimension of the inner peripheral portion 22a of the packing 22 is larger than the distance from the packing arrangement surface 10c to the optical control member 21. In FIG. 5, the inner peripheral portion 22a of the packing 22 is shown in an uncompressed natural state, but in reality, at least the portion overlapping with the optical control member 21 in FIG. 5 is compressed or deformed.

In the direction along the optical axis L, the thick portion 22b of the inner peripheral portion 22a of the packing 22 sandwiched between the optical control member 21 and the packing arrangement surface 10c is compressed. Further, the inner peripheral side tip portion 22c of the inner peripheral portion 22a of the packing 22 is deformed along the shape of the optical control member 21. The inner peripheral portion 22a of the packing 22 is formed so that the thickness dimension in the direction along the optical axis L becomes smaller toward the inner peripheral side. The surface of the packing 22 on the packing arrangement surface 10c side shown in FIG. 5 is formed flat until it reaches the tip on the inner peripheral side. The surface of the packing 22 facing the optical control member 21 side has an inclined surface 22f that inclines toward the packing arrangement surface 10c side toward the inner peripheral side.

The thick portion 22b of the inner peripheral portion 22a of the packing 22 is compressed, contracts in the vertical direction in FIG. 5, and expands in the horizontal direction. Then, the inner peripheral side tip portion 22c located on the inner peripheral side of the thick-walled portion 22b moves to the inner peripheral side under the influence of the deformation of the thick-walled portion 22b. At this time, the inner peripheral side tip portion 22c moves to the optical control unit 21a side and comes into contact with the optical control unit 21a to be deformed. The inner peripheral side tip portion 22c is provided with an inclined surface 22f on the surface on the optical control member 21 side, and is formed so that the wall thickness becomes thinner toward the inner peripheral side. Therefore, the inner peripheral side tip portion 22c is suppressed from protruding from the exit port 14. The inner peripheral side tip portion 22c is deformed along the shape of the optical control member 21. Therefore, it is possible to suppress the formation of a gap between the packing 22 and the optical control member 21. Further, the packing 22 does not deteriorate the optical characteristics of the light emitted from the optical control member 21 by suppressing the protrusion from the exit port 14, and does not deteriorate the aesthetic appearance of the luminaire 1a.

Further, the dimension of the outer peripheral portion 22d of the packing 22 in the direction along the optical axis L is larger than the distance from the packing arrangement surface 10c of the cover portion 10a to the peripheral surface 10b in the direction along the optical axis L. Is formed in. The outer peripheral portion 22d of the packing 22 is located between the holder 9 which is a part of the light source portion 20 and the packing arrangement surface 10c, and is compressed. As a result, the packing 22 can improve the airtightness and waterproofness inside the luminaire 1a.

Further, the inner peripheral portion 22a and the outer peripheral portion 22d of the packing 22 are connected by a connecting portion 22e. The connecting portion 22e of the packing 22 is formed so that the thickness dimension in the direction along the optical axis L is smaller than that of the inner peripheral portion 22a and the outer peripheral portion 22d. Therefore, each of the inner peripheral portion 22a and the outer peripheral portion 22d of the packing 22 is compressed, but has a structure in which the influence of the deformation is less likely to affect each other.

<Comparison example>
FIG. 6 is an explanatory view of a cross-sectional structure of a comparative example around the light source portion 20 of the lighting fixture 1a according to the first embodiment. FIG. 6A shows a state before the light source unit 20 is fixed to the cover front surface portion 11 of the cover portion 10a. FIG. 6B shows a state in which the light source unit 20 is fixed to the cover front surface portion 11 of the cover portion 10a. As shown in FIG. 6A, the packing 122 in the comparative example has an inner peripheral portion 122a formed with a uniform thickness. Then, as shown in FIG. 6B, when the packing 122 is compressed, the inner peripheral portion 122a is deformed toward the inner peripheral side, and a part of the packing 122 protrudes from the outlet 14. The packing 122 is deformed so that a part or all of the inner peripheral portion 122a protrudes from the outlet 14. Therefore, in the comparative example of the luminaire 1a, a gap may be partially formed between the packing 122 and the packing arrangement surface 10c, or between the packing 122 and the optical control member 21. As a result, in the comparative example of the lighting fixture 1a, the airtightness and the waterproofness may be lowered.

<Modification example of packing 22>
FIG. 7 is an explanatory view of an example of a cross-sectional structure around the light source portion 20 of the lighting fixture 1a according to the first embodiment. FIG. 7A shows a state before the light source unit 20 is fixed to the cover front surface portion 11 of the cover portion 10a. FIG. 7B shows a state in which the light source unit 20 is fixed to the cover front surface portion 11 of the cover portion 10a. As shown in FIG. 7A, the inner peripheral portion 22a of the packing 22 is formed so that the thickness dimension gradually decreases toward the inner peripheral side. That is, the inner peripheral portion 22a of the packing 22 has an inclined surface 22f. The inclined surface 22f of the packing 22 shown in FIG. 7A is an inclined surface facing the packing arrangement surface 10c side. Even with such a packing 22, the tip portion 22c on the inner peripheral side of the inner peripheral portion 22a is formed so as to become thinner toward the inner peripheral side. Therefore, as shown in FIG. 7B, the inner peripheral portion 22a of the packing 22 can prevent a part of the inner peripheral portion 22a from protruding from the outlet 14 when it is compressed and deformed.

<Main unit 60>
As shown in FIG. 2, the main body unit 60 includes a main body structure portion 60a having a bottomed cylinder shape in a direction along the optical axis L. The main body structure portion 60a has a bottomed tubular opening facing the cover portion 10a side. One surface of the main body structure portion 60a is fixed to the attached portion, and the cover portion 10a is attached to the other surface. The cover portion 10a is attached to the main body structure portion 60a so as to cover the other surface side of the main body unit 60. The tubular portion 60b forming the side surface of the main body structure portion 60a is shorter than the cover portion 10a. Inside the tubular portion 60b of the main body structure portion 60a, a cover portion mounting member 61a projecting toward the cover portion 10a side is installed. The cover portion mounting members 61a are installed at two locations, and are arranged in pairs so as to sandwich the lighting device 30 fixed to the central portion of the main body structure portion 60a.

The cover portion mounting member 61a has a U-shape in cross section perpendicular to the optical axis L. Further, the tip of the cover portion mounting member 61a on the cover portion 10a side is formed with a mounting surface 61b provided parallel to the bottom surface 10e of the cover portion 10a. A screw hole 61c is formed on the mounting surface 61b.

The mounting surface 61b formed at the tip of the cover portion mounting member 61a and the bottom surface 10e of the cover portion 10a are fastened with screws 10-1. A screw packing is sandwiched between the mounting surface 61b and the bottom surface 10e of the cover portion 10a, and the screw 10-1 is screwed into the screw hole 61c formed in the mounting surface 61b through the screw packing. With this configuration, the cover portion 10a is attracted to and fixed to the main body unit 60 side.

<Guide metal fittings 12>
FIG. 8 is an explanatory view of a cross-sectional structure perpendicular to the optical axis L of the luminaire 1a according to the first embodiment. FIG. 8 shows a cross section of the BB portion of FIG. In the cross section of FIG. 8, the cover portion mounting member 61a is combined with the guide metal fitting 12. The cover portion mounting member 61a is formed in a substantially rectangular parallelepiped with one surface open, and has a U-shape whose cross-sectional shape is open toward the outside. Further, the guide metal fitting 12 includes two plate-shaped guide portions 12b extending from both ends of the plate-shaped joint portion 12a along the inner peripheral surface of the cover portion 10a toward the inside of the cover portion 10a. That is, the guide metal fitting 12 also has a U-shape that is open toward the inside of the cover portion 10a in the cross section shown in FIG. The guide portion 12b is positioned so as to sandwich the cover portion mounting member 61a from the outside from the side where the two side surface portions 61d are located.

The guide portion 12b of the guide metal fitting 12 and the two side surface portions 61d of the cover portion mounting member 61a are located with a slight gap in a state where the luminaire 1a is assembled. With this configuration, the position of the cover portion 10a in the rotation direction around the optical axis L of the main body unit 60 is determined. Further, the guide metal fitting 12 and the cover portion mounting member 61a are slidably fitted along the optical axis L direction, that is, the direction in which the cover portion 10a is mounted on the main body unit 60. Therefore, the cover portion 10a is easily guided to a position where it can be attached to the main body unit 60 in a state where the cover portion 10a is positioned in the rotational direction with respect to the main body unit 60.

As shown in FIG. 2, in the guide metal fitting 12, the distance between the two guide portions 12b is wide at the end on the main body unit 60 side, and the distance between the two guide portions 12b is narrow on the bottom surface 10e side of the cover portion 10a. It is formed to be. That is, the inner side surface 12c of the guide portion 12b is inclined with respect to the optical axis L. Further, the guide metal fitting 12 is arranged at a position close to the opening 16 of the cover portion 10a and not in contact with the main body unit 60. With this configuration, the guide metal fitting 12 is guided to the cover portion mounting member 61a when the cover portion 10a and the main body unit 60 are combined. Therefore, the alignment of the cover portion 10a and the main body unit 60 is easy, and the luminaire 1a is easy to assemble.

It is difficult to visually confirm the position of the guide metal fitting 12 from the outside of the cover portion 10a. In particular, when the cover portion 10a is lifted and attached to the main body unit 60 mounted on the ceiling, it becomes more difficult to confirm the position of the guide metal fitting 12. In order to solve this problem, a marking indicating the position of the guide metal fitting 12 may be displayed on the outer surface of the cover side surface portion 13 of the cover portion 10a. The marking may be stamped by, for example, a press or the like, or may be provided by sticking a sticker.

When attaching the cover portion 10a, the cover portion 10a is pushed up toward the main body unit 60 while aligning the marking of the cover portion 10a with the tip of the cover portion attaching member 61a. As a result, the positions of the cover portion 10a and the main body unit 60 can be easily obtained without looking into the position of the guide fitting 12 from the opening 16 side of the cover portion 10a or touching the guide fitting 12 to confirm the position of the guide fitting 12. Matching is possible.

FIG. 9 is a modified example of the guide metal fitting 12 of the lighting fixture 1a according to the first embodiment. The guide metal fitting 12 may be configured to be guided along the inner side surface of the cover portion mounting member 61a formed in a U shape in the cross-sectional shape. That is, the cover portion mounting member 61a includes a groove portion 62 for guiding the guide metal fitting 12, and is fitted with the guide metal fitting 12 so that the guide portion 12d is located inside the groove portion 62. At this time, the mounting surface 61b provided at the tip of the cover portion mounting member 61a is formed so as to extend in the direction in which the optical axis L is located. That is, the mounting surface 61b is located on the optical axis L side of the groove 62, which is the viewpoint in the direction along the optical axis L. In the first embodiment, the viewpoint in the direction along the optical axis L is the same as the viewpoint in the central axis direction of the luminaire 1a or the cover portion 10a. As a result, the cover portion mounting member 61a is configured so that the guide metal fitting 12 can be introduced into the groove portion 62 from the tip end side. Further, the distance between the two guide portions 12b is preferably formed so that the opening 16 side of the cover portion 10a is narrow and the bottom surface 10e side of the cover portion 10a is wide.

<Effect of lighting equipment 1a>
As described above, in the luminaire 1a according to the first embodiment, the light source unit 20 having the light source 5 and the optical control member 21 covering the light source 5 and the light source unit 20 are fixed to expose the optical control member 21. A cover portion 10a on which the 14 is formed and a packing 22 sandwiched between the light source portion 20 and the cover portion 20b and arranged around the exit port 14 are provided. The packing 22 is formed in an annular shape, and the thickness of at least the inner peripheral portion 22a of the packing 22 is formed so as to become thinner from the outer peripheral side to the inner peripheral side.
With this configuration, the packing 22 of the luminaire 1a can suppress the protrusion from the outlet 14, and does not deteriorate the optical characteristics of the light emitted from the optical control member 21 and the aesthetic appearance of the luminaire 1a. Further, since the thickness of the inner peripheral portion 22a of the packing 22 is formed so as to become thinner from the outer peripheral side to the inner peripheral side, the stress concentration of the inner peripheral portion 22a due to being pressed is relaxed. Can be done. Further, since the local deformation of the packing 22 can be suppressed, a gap is unlikely to occur between the packing 22 and the optical control member 21 and the packing arrangement surface 10c, and the packing 22 is airtight inside the luminaire 1a. And waterproofness can be improved.

Further, according to the luminaire 1a according to the first embodiment, the optical control member 21 has an optical control unit 21a projecting in the optical axis L direction of the light emitted from the light source 5 and an optical control unit 21a outward with respect to the optical axis L. It is provided with a flange portion 21b formed by overhanging. The inner peripheral portion 22a of the packing 22 is sandwiched between the flange portion 21b and the cover portion 10a and compressed.
With this configuration, the inner peripheral portion 22a of the annular packing 22 is sandwiched and compressed between the optical control portion 21a and the cover portion 10a over the entire circumference. Therefore, the path from the outside of the luminaire 1a to the inside of the luminaire 1a via the outlet 14 is blocked by the inner peripheral portion 22a of the packing 22. Therefore, the airtightness and waterproofness inside the lighting fixture 1a are improved.

Further, the light source unit 20 includes a holder 9 to which the light source 5 and the optical control member 21 are fixed. The outer peripheral portion 22d of the packing 22 is sandwiched between the holder 9 and the cover portion 10a and compressed.
With this configuration, the outer peripheral side portion of the packing 22 further closes the gap between the holder 9 and the cover portion 10a, so that the airtightness and waterproofness inside the luminaire 1a are improved.

Further, the cover portion 10a has a step formed around the exit port 14, and the packing 22 is arranged inside the step.
With this configuration, the positioning of the packing 22 becomes easy, and the placement accuracy of the packing 22 with respect to the optical control member 21 is improved. Therefore, the packing 22 is arranged at a predetermined position between the light source portion 20 and the cover portion 10a, and the gap between the light source portion 20 and the cover portion 10a can be appropriately closed. The airtightness and waterproofness inside the luminaire 1a are improved.

Further, the cover portion 10a is formed in a bottomed tubular shape, an outlet 14 is provided on the bottom surface 10e, and the light source portion 20 is fixed to the bottom surface 10e inside the cover portion 10a.
With this configuration, the luminaire 1a can easily improve the airtightness and waterproofness inside the bottomed tubular cover portion 10a by closing the gap between the light source portion 20 and the cover portion 10a. Can be done.

The luminaire 1a according to the first embodiment includes a cover portion 10a provided with a light source, a main body unit 60 having one surface attached to the attached portion and the other surface open, and the other of the main body unit 60. A cover portion mounting member 61a is provided so as to project toward the surface side and the cover portion 10a is fixed to the tip end. The cover portion 10a includes a tubular cover side surface portion 13 and a bottom surface 10e including an exit port 14 from which light from the light source 5 is emitted. It is attached to the main body unit 60 so as to cover the other surface of the main body unit 60 along the central axis of the cover side surface portion 13. The cover side surface portion 13 includes a guide metal fitting 12 that projects inward of the cover portion 10a fixed to the inner peripheral surface. The guide metal fitting 12 is fitted to the cover portion mounting member 61a and is configured to be slidable in a direction along the central axis of the cover portion side surface portion 13.
With such a configuration, the cover portion 10a can easily position the main body unit 60 in the rotation direction about the optical axis L. Therefore, since it is possible to prevent the electric wire connecting between the cover assembly 10 and the main body unit 60 from being twisted, the luminaire 1a can suppress the disconnection of the electric wire and the poor connection.

Further, the guide metal fitting 12 includes two guide portions 12b extending from the inner side surface of the cover side surface portion 13 toward the inside of the cover portion 10a in a cross section perpendicular to the central axis of the cover side surface portion 13. The cover portion mounting member 61a is located between the two guide portions 12b.
Further, the distance between the two guide portions 12b is wide on the main body unit 60 side and narrow on the bottom surface 10e side.
Alternatively, the guide metal fitting 12 includes a guide portion 12b extending from the inner side surface of the cover side surface portion 13 toward the inside of the cover portion 10a in a cross section perpendicular to the central axis of the cover side surface portion 13. The cover portion mounting member 61a includes a groove portion 62 that is open toward the inner side surface of the cover side surface portion 13 in a cross section perpendicular to the central axis of the cover side surface portion 13. The guide portion 12b is located inside the groove portion 62. The cover portion mounting member 61a includes a mounting surface 61b to which the cover portion 10a is fixed at the tip end. The mounting surface 61b is located closer to the central axis than the groove 62 in the viewpoint of the cover side surface portion 13 in the central axis direction.
As described above, the guide using the guide metal fitting 12 and the cover portion mounting member 61a can take other forms as needed. That is, the lighting fixture 1a has the shape of the guide metal fitting 12 and the cover portion mounting member 61a according to the arrangement of the fixing portion between the cover portion 10a and the cover portion mounting member 61a, the internal lighting device 30, or the arrangement of the light source portion 20. You may change it.

Further, the cover portion 10a may be provided with a marking indicating the position of the guide metal fitting 12 on the outer surface. As a result, in the lighting fixture 1a, the alignment between the main body unit 60 and the cover portion 10a becomes easy, and the assembly workability is improved.

<Modification example of lighting equipment 1a>
FIG. 10 is a perspective view of the luminaire 101a, which is a modification of the luminaire 1a according to the first embodiment. FIG. 11 is an exploded perspective view of the main body unit 160 constituting the luminaire 101a of FIG. FIG. 12 is an exploded perspective view of the cover assembly 110 constituting the luminaire 101a of FIG. The lighting fixture 101a, which is a modification of the lighting fixture 1a, is a lighting fixture of a type to be embedded in, for example, a ceiling, and the structure of the cover portion 110a and the main body unit 160 is different from that of the lighting fixture 1a.

The main body unit 160 of the lighting fixture 101a, which is a modification of the lighting fixture 1a, has a deep bottomed tubular shape unlike the main body structural portion 60a constituting the main body unit 60 of the lighting fixture 1a. Along with this, the cover portion mounting member 161a for fixing the cover portion 110a is composed of L-shaped metal fittings. The cover portion mounting member 161a is fixed to the inner surface of the tubular portion of the main body structure portion 160a, and the mounting surface 161b is projected from the opening of the main body structure portion 160a.

The cover portion 10a of the luminaire 1a has a deep bottomed cylinder shape so that the lighting device 30 can be covered by the cylinder, but the cover portion 110a of the luminaire 101a is formed into a shallow bottomed cylinder shape. However, the structure for fixing other parts such as the light source unit 20 to the cover unit 110a is the same as that of the cover assembly 10 according to the first embodiment. Even in the luminaire 101a of the modified example, the packing 22 arranged between the light source portion 20 and the cover portion 110a is prevented from protruding from the outlet 14, so that the inside of the luminaire 101a is airtight and waterproof. Can be improved.

The luminaire 101a has an advantage that it is easy to assemble because the internal structure of the cover assembly 110 is easier to see than the luminaire 1a. The luminaire 101a does not include the guide metal fitting 12 provided on the cover portion 10a of the luminaire 1a.

1a optics, 5 light sources, 9 holders, 9a engaging parts, 9b L-shaped ribs, 10 cover assemblies, 10-1 screws, 10-3 screws, 10a covers, 10b surfaces, 10c packing placement surfaces, 10d connection surfaces 10e bottom surface, 11 cover front part, 12 guide metal fittings, 12a joint part, 12b guide part, 12c inner side surface, 12d guide part, 13 cover side part, 14 outlet, 15 display port, 16 opening, 20 light source part, 20b cover part, 21 optical control member, 21a optical control part, 21b flange part, 22 packing, 22a inner peripheral part, 22b thick wall part, 22c inner peripheral side tip part, 22d outer peripheral part, 22e connection part, 22f inclined surface, 23 Monitor packing, 27 Heat dissipation plate, 30 Lighting device, 40 Power terminal block, 50 Housing, 60 Main unit, 60a Main structure, 60b Cylinder, 61a Cover mounting member, 61b Mounting surface, 61c Screw hole, 61d Side surface Part, 80 top surface, 90 waterproof packing, 101a optics, 110 cover assembly, 110a cover part, 122 packing, 122a inner peripheral part, 160 main body unit, 160a main body structure part, 161a cover part mounting member, 161b mounting surface, L optical axis.

Claims (5)

A light source and a light source unit having an optical control member covering the light source,
A cover portion to which the light source portion is fixed and an outlet for exposing the optical control member is formed, and a cover portion.
A packing sandwiched between the light source portion and the cover portion and arranged around the outlet is provided.
The packing is
Formed in a ring
The thickness of at least the inner peripheral portion of the packing is
A lighting fixture that is formed to become thinner from the outer peripheral side to the inner peripheral side. The optical control member is
An optical control unit that projects light emitted from the light source in the optical axis direction,
A collar portion formed by projecting outward with respect to the optical axis is provided.
The inner peripheral portion of the packing is
The luminaire according to claim 1, which is sandwiched between the collar portion and the cover portion and compressed. The light source unit
A holder to which the light source and the optical control member are fixed is provided.
The outer peripheral portion of the packing is
The luminaire according to claim 1 or 2, which is sandwiched and compressed between the holder and the cover portion. The cover part
A step is formed around the outlet.
The packing is
The lighting fixture according to any one of claims 1 to 3, which is arranged inside the step. The cover part
It is formed in a bottomed cylinder shape, and the outlet is provided on the bottom surface.
The light source unit
The lighting fixture according to any one of claims 1 to 4, which is fixed to the bottom surface inside the cover portion.

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