JP6901700B2 - lighting equipment - Google Patents

Description

An embodiment of the present invention relates to a lighting fixture in which a light source substrate and a power supply substrate are arranged in the fixture body.

Conventionally, there is a lighting fixture in which a light source board on which a light emitting element is mounted and a power supply board that converts an external power source input from the outside into a lighting power source and supplies the light source board to the light source board are arranged in the fixture body.

When such a lighting fixture is used as a floodlight for illuminating an outdoor signboard, for example, if the fixture body is large, the wind pressure receiving area on the fixture body becomes large, so that the fixture is easily affected by the wind. The strength of the body and the arm that supports the body of this device must be increased.

Further, in order to adjust the direction of light irradiation from the instrument body, the instrument body is rotatable with respect to the arm, but if the instrument body is large, the length of the arm is such that the instrument body can rotate. Must be lengthened and the strength of the arm must be increased.

Japanese Unexamined Patent Publication No. 2014-26945

An object to be solved by the present invention is to provide a lighting fixture capable of reducing the size of the fixture body and shortening the length of the arm.

The luminaire of the embodiment includes a fixture body, an arm, a light source substrate, and a power supply substrate. Instrument body includes an upper housing part, the lower housing portion, provided lower accommodating portion is protruded portion provided to the depth of rearward is greater than the upper housing portion, and a lower surface side of the projecting portion It has an external wiring insertion part . The arm has a mounting portion and a pair of arm portions bent from both ends of the mounting portion, and rotatably supports both side portions of the instrument body. The light source substrate is arranged perpendicular to the light irradiation direction in the upper accommodating portion of the instrument body, and the light emitting element is mounted. The power supply board is arranged in the lower accommodating portion of the instrument body in parallel with the light irradiation direction, and a power supply circuit for supplying lighting power to the light emitting element is provided. The distance from the rotation center of the instrument body that can be rotated by the arm to the rear surface of the protrusion is smaller than the distance from the rotation center of the instrument body to the mounting portion of the arm. The lower surface of the protrusion is located above the lower end of the instrument body, and the distance from the rotation center of the instrument body to the lower surface of the protrusion is the distance from the rotation center of the instrument body to the rear surface of the protrusion and the instrument. It is smaller than the distance from the center of rotation of the main body to the mounting part of the arm.

According to the present invention, it can be expected that the instrument body is miniaturized and the length of the arm is shortened.

It is sectional drawing of the luminaire which shows one Embodiment. It is a perspective view of the disassembled state of the lighting fixture as above. It is a perspective view of the assembly process of the lighting fixture as above. It is a perspective view of the assembled state of the lighting fixture as above.

Hereinafter, one embodiment will be described with reference to the drawings.

The lighting fixture 10 includes a fixture main body 11, a light source unit 12 and a power supply unit 13 arranged in the fixture main body 11, a front cover 14 arranged on the front side of the fixture main body 11, and an arm 15 for supporting the fixture main body 11. Etc. are provided. The fixture body 11 and the front cover 14 constitute a housing 16 of the lighting fixture 10. Hereinafter, in FIG. 2, when viewed from the front side of the lighting fixture 10, the vertical direction of the lighting fixture 10 is the first direction a, and the width direction (or the width direction) of the lighting fixture 10 orthogonal to the first direction a. The left-right direction) is the second direction b.

The instrument body 11 is integrally molded of, for example, a metal such as aluminum. The instrument body 11 has a horizontally long quadrangular shape when viewed from the front side, the front side periphery and the rear side are closed, and only the front side is open. An opening 18 is formed on the front side of the instrument main body 11, and an internal space 19 communicating with the front opening 18 is formed inside.

In the internal space 19 of the instrument main body 11, a light source accommodating portion 20 accommodating the light source unit 12 is formed on the upper side, and a power accommodating portion 21 accommodating the power supply unit 13 is formed on the lower side. The accommodating portion 21 and the accommodating portion 21 are arranged side by side in the vertical direction.

A mounting surface portion 22 for mounting the light source unit 12 is formed on the rear surface side of the light source accommodating portion 20. Further, on the rear side of the mounting surface portion 22, a plurality of heat radiating fins 23 projecting to the rear of the instrument main body 11 are provided.

The power supply accommodating portion 21 is formed to have a larger depth dimension rearward than the light source accommodating portion 20. A protruding portion 24 is projected on the rear surface side of the instrument main body 11 so as to form the power accommodating portion 21. When viewed from the front side (or rear side) of the luminaire 10, the lower surface of the protrusion 24 is located above the lower end of the luminaire body 11.

For inserting the external wiring 25 from the direction perpendicular to the light irradiation direction A on one end side (left side in FIGS. 2 and 3) in the width direction on the lower surface side (lower surface side of the protrusion 24) of the instrument main body 11. An external wiring insertion portion 26 is provided. The external wiring insertion portion 26 is composed of an insertion hole that communicates the inside and the outside of the instrument main body 11. The external wiring 25 includes a pair of power supply lines 27 and a ground wire 28, and is inserted into the external wiring insertion portion 26 in a sealed state via a packing (not shown).

A plurality of power supply mounting bosses 29 as power supply mounting portions and a ground wire mounting boss 30 as a ground wire mounting portion are provided on the lower side of the mounting surface portion 22 so as to face each other forward. The ground wire mounting boss 30 is arranged on one end side in the width direction of the instrument main body 11 near the external wiring insertion portion 26.

Further, the light source unit 12 includes a light source module 34 and a lens module 35.

The light source module 34 includes a light source substrate 36 and a plurality of light emitting elements 37 mounted on the surface of the light source substrate 36. The light source substrate 36 is formed in a horizontally long rectangular shape in the width direction, and a wiring pattern for electrically connecting a plurality of light emitting elements 37 is formed on the surface thereof. The light emitting elements 37 are, for example, LEDs, and a plurality of light emitting elements 37 are mounted at predetermined intervals in the vertical and horizontal directions on the surface of the light source substrate 36. A lighting power input unit 38 for inputting lighting power from the power supply unit 13 is provided on the other end side (right side of FIGS. 2 and 3) of the light source substrate 36 in the width direction. Further, the lighting power input unit 38 is located near the power supply unit 13 of the light source board 36 and is provided below the light source board 36. The lighting power input unit 38 is composed of, for example, a connector.

The lens module 35 has a plurality of lenses 39 that control the light of each light emitting element 37 to a predetermined light distribution, and the plurality of lenses 39 are integrally formed.

The light source unit 12 is arranged on the mounting surface portion 22 of the instrument main body 11 and fixed by a plurality of screws 40 in a state where the light emitting module 34 and the lens module 35 are combined. The light source unit 12 irradiates light in the light irradiation direction A, which is the front side perpendicular to the front surface of the fixture main body 11 (housing 16). The light source substrate 36 is arranged in the fixture main body 11 (housing 16) so as to be perpendicular to the light irradiation direction A.

Further, the power supply unit 13 has a power supply unit 44 and a mounting plate 45 to which the power supply unit 44 is attached. The power supply unit 44 is provided with an external power supply input unit 47 to which the power supply line 27 is connected on one end side in the width direction (left side in FIG. 1), and is lit on the other end side in the width direction (right side in FIG. 1). A unit 48 is provided, and an external power source (for example, an AC power source) input to the external power source input unit 47 is converted into a predetermined lighting power source (for example, a DC power source) to be supplied to the light source module 34 of the light source unit 12, and the converted lighting power source is converted. Is configured to output from the power output unit 48.

The power supply unit 44 includes a surge absorber board 49 that absorbs a surge and a power supply board 50 that converts an external power source into a lighting power source that supplies the light source module 34 of the light source unit 12, and these surge absorber board 49 and the power supply board 50. Is integrally attached to the mounting plate 45.

The surge absorber board 49 includes an external power supply input unit 47 to which the power supply line 27 is connected, and also includes a surge absorber circuit 51 connected to the external power supply input to the external power supply input unit 47 to absorb the surge. ing. The external power input unit 47 is composed of an electric wire connector or the like for inserting and connecting the power line 27. Further, the surge absorber circuit 51 includes an electric wire connector for connecting a feed wiring for sending an external power source to the power supply board 50. The external power input unit 47 and the surge absorber circuit 51 are shown by a two-dot chain line in the drawings, and details are omitted. Further, a plurality of mounting holes 52 are provided in the peripheral portion of the surge absorber substrate 49.

The power supply board 50 includes a power supply circuit 53 that converts an external power supply input from the surge absorber board 49 into a lighting power supply supplied to the light source module 34 of the light source unit 12. On one end side (left side in FIG. 2) of the power supply board 50 in the width direction, a power supply connection portion 54 that is electrically connected to the surge absorber board 49 is provided. For the power supply connection portion 54, an electric wire connector or the like into which an electric wire for feed wiring from the surge absorber board 49 is inserted and connected is used. A lighting power output unit 48 is provided on the other end side (right side in FIG. 2) of the power supply board 50 in the width direction. The lighting power output unit 48 is composed of, for example, a connector. The power supply connection unit 54, the power supply circuit 53, and the lighting power supply output unit 48 are shown by a two-dot chain line in the drawings, and details are omitted. Further, a plurality of mounting holes 55 are provided in the peripheral portion of the power supply board 50.

The mounting plate 45 is composed of a metal plate, and includes a mounting plate portion 56 for mounting the surge absorber board 49 and the power supply board 50, and a fixing plate portion 57 bent upward from the front end side of the mounting plate portion 56. ing. A plurality of mounting holes 58 are formed in the mounting plate portion 56 corresponding to the positions of the mounting holes 52 of the surge absorber board 49 and the positions of the mounting holes 55 of the power supply board 50. A plurality of fixing holes 59 are formed in the fixing plate portion 57 corresponding to the positions of the power supply mounting bosses 29 of the instrument main body 11. The mounting plate 45 is fixed to the instrument main body 11 and electrically connected by a screw 60 that is screwed into each power supply mounting boss 29 through each of the fixing holes 59. Then, the mounting plate 45 is provided with a surge by a plurality of mounting tools (not shown) inserted into the mounting holes 52 of the surge absorber board 49, the mounting holes 55 of the power supply board 50, and the mounting holes 58 of the mounting plate 45, respectively. The absorber board 49 and the power supply board 50 are integrally mounted in an insulated state. At least some of the fittings are, for example, metal screws, which are electrically connected to the ground pattern of the surge absorber board 49 and the power supply board 50 and electrically connected to the mounting plate 45, and these surge absorber boards 49. And the power supply board 50 is configured to be grounded to the mounting plate 45.

The surge absorber substrate 49 and the power supply substrate 50 are arranged in the instrument main body 11 (housing 16) in parallel with the light irradiation direction A, that is, perpendicular to the light source substrate 36 (perpendicular). It is arranged.

Since the angle between the mounting plate portion 56 and the fixing plate portion 57 of the mounting plate 45 may vary, the surge absorber board 49 and the power supply board 50 arranged on the instrument main body 11 by the mounting plate 45 are used. The inside of the fixture body 11 (housing 16) is not always parallel to the light irradiation direction A, and may be slightly inclined. Therefore, the parallelism with respect to the light irradiation direction A includes not only the case of being parallel to the light irradiation direction A but also the case of being slightly inclined with respect to the light irradiation direction A.

Further, the front cover 14 has a front frame 63 and a translucent portion 64. The front frame 63 is attached to the front side of the instrument main body 11 and closes the front side of the instrument main body 11. The front frame 63 is formed with an opening of a window portion 65 on the upper side facing the light source unit 12. The translucent portion 64 is composed of, for example, a transparent glass plate, is attached to the rear surface side of the front frame 63 via a packing 66, and closes the window portion 65.

Further, the arm 15 is formed in a substantially U-shaped cross section having a mounting portion 70 and a pair of arm portions 71 bent from both ends of the mounting portion 70. The tip ends of the arm portions 71 on both sides are attached to both sides of the instrument body 11 in the width direction by adjusting screws 72. The arm 15 is installed at a predetermined installation location, and the angle of the instrument main body 11, that is, the light irradiation direction A is adjusted with the adjusting screw 72 loosened.

Then, in FIG. 1, the dimensional relationship of the lighting fixture 10 will be described. The distance L1 from the rotation center O of the fixture body 11 to the rear surface of the protruding portion 24 of the fixture body 11 with respect to the arm 15 is the distance L1 from the rotation center O to the arm 15. The distance to the mounting portion 70 is smaller than L2, and when the instrument body 11 is rotated, the protruding portion 24 can rotate in a wide range without contacting the arm 15. Further, the distance L3 from the rotation center O to the lower surface of the instrument body 11 (protruding portion 24) from which the external wiring 25 is pulled out is smaller than the distance L1 and the distance L2, and is external when the instrument body 11 is rotated. The wiring 25 can rotate in a wide range without contacting the arm 15.

Next, the assembly of the lighting fixture 10 will be described.

The light source unit 12 in which the light source module 34 and the lens module 35 are combined is inserted into the light source accommodating portion 20 from the front side of the instrument main body 11 and arranged on the mounting surface portion 22, and the light source unit 12 is fixed to the mounting surface portion 22 with a plurality of screws 40. To do.

Regarding the power supply unit 13, the surge absorber board 49 and the power supply board 50 are fixed to the mounting plate 45 and connected to the ground, and the surge absorber board 49 and the power supply board 50 are electrically connected by feed wiring. Assemble in.

This power supply unit 13 is inserted into the power supply accommodating portion 21 from the front side of the instrument main body 11, the fixing plate portion 57 of the mounting plate 45 is arranged on the front side of the power supply mounting boss 29, and a plurality of screws 60 are inserted into the fixing plate portion 57. It is screwed to each power supply mounting boss 29 through each fixing hole 59 of. As a result, the mounting plate 45 is fixed to the instrument body 11, the power supply unit 13 is accommodated in the power accommodating portion 21 of the instrument body 11, and the mounting plate 45 is electrically connected to the instrument body 11 to be grounded. .. Therefore, the surge absorber board 49 and the power supply board 50 are grounded to the instrument main body 11 via the mounting plate 45.

The lighting power input unit 38 of the light source module 34 and the lighting power output unit 48 of the power supply board 50 are connected by wiring with a connector or the like.

Finally, the front cover 14 is attached to the front side of the instrument body 11.

Then, when the lighting fixture 10 is installed, the external wiring 25 is pulled into the fixture main body 11 from the external wiring insertion portion 26 of the fixture main body 11 with the front cover 14 removed from the fixture main body 11.

Connect the power supply line 27 of the drawn external wiring 25 to the external power supply input unit 47 (electric wire connector, etc.) of the surge absorber board 49.

A crimp terminal is attached to the ground wire 28 of the external wiring 25 that is pulled in, and the crimp terminal is screwed from the crimp terminal to the ground wire mounting boss 30 (see FIG. 3) to attach the crimp terminal to the ground wire mounting boss 30. And electrically connect the ground wire 28 to the instrument body 11. As a result, the surge absorber board 49 and the power supply board 50 are grounded to the ground wire 28 via the mounting plate 45 and the instrument main body 11.

Attach the front cover 14 to the front side of the instrument body 11.

The arm 15 is installed at the installation location at any time during installation.

The lighting fixture 10 configured in this way is used outdoors, for example, for lighting a signboard or the like.

Then, when the external power supply is supplied to the luminaire 10, the external power supply is input to the surge absorber board 49 and sent from the surge absorber board 49 to the power supply board 50, and the power supply board 50 sends the external power supply to the light source module 34. It is converted into a predetermined lighting power supply to be supplied, and the lighting power supply is supplied from the power supply board 50 to the light emitting element 37 of the light source module 34. As a result, each light emitting element 37 of the light source module 34 is turned on, and the light from each light emitting element 37 is emitted to the outside through the lens module 35 and the translucent unit 64.

According to the lighting fixture 10 of the present embodiment, the light source substrate 36 is arranged perpendicular to the light irradiation direction A in the fixture main body 11, and the power supply substrate 50 is arranged with respect to the light irradiation direction A. Since the light source substrate 36 and the power supply substrate 50 are arranged in parallel, that is, the light source substrate 36 and the power supply substrate 50 are arranged vertically, the instrument main body 11 can be miniaturized.

As a result, the area of the front surface of the instrument body 11 can be reduced, and the area of wind pressure received on the front surface of the instrument body 11 (housing 16) can be reduced, so that the influence of wind can be reduced, and the instrument body 11 and the arm 15 can be made smaller. It is also possible to change.

Further, regarding the external wiring 25, if it protrudes from the rear end surface of the protruding portion 24, it comes into contact with the arm 15 when the instrument main body 11 is rotated, and the rotation is restricted. Since the instrument body 11 projects from the direction perpendicular to the light irradiation direction A, the instrument body 11 can be rotated in a wide range without affecting the rotation of the instrument body 11.

Further, since the distance L1 from the rotation center O of the instrument body 11 to the rear surface of the protrusion 24 of the instrument body 11 with respect to the arm 15 is smaller than the distance L2 from the rotation center O to the mounting portion 70 of the arm 15, the instrument When the main body 11 is rotated, the protruding portion 24 does not come into contact with the arm 15, and the main body 11 can be rotated in a wide range.

Further, the distance L3 from the rotation center O to the lower surface of the instrument body 11 (protruding portion 24) from which the external wiring 25 is pulled out is smaller than the distance L1 and the distance L2, and when the instrument body 11 is rotated, the distance L3 is smaller. The instrument body 11 can be rotated over a wide range without the external wiring 25 coming into contact with the arm 15.

Further, even when the power supply unit 44 includes the surge absorber board 49, the surge absorber board 49 is arranged parallel to the light irradiation direction A, that is, is arranged parallel to the power supply board 50. The instrument body 11 can be miniaturized.

The surge absorber board 49 and the power supply board 50 of the power supply unit 44 may be integrally formed.

Further, in the case of an indoor lighting fixture used indoors, the power supply unit 44 does not need to include the surge absorber board 49, but only needs to include the power supply board 50.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

10 Lighting equipment
11 Instrument body
15 arm
20 Light source accommodating part, which is the upper accommodating part
21 Power supply housing, which is the lower housing
24 protrusions
25 External wiring
26 External wiring insertion part
27 power line
36 Light source board
37 Luminescent element
49 Surge absorber board
50 power supply board
53 Power circuit
70 Mounting part
71 Arm part A Light irradiation direction
O rotation center

Claims (3)

The upper housing part, the lower housing portion, the protruding portion which is provided so as depth increases the lower accommodating portion rearward than the upper housing portion, and the external wiring provided on the lower surface side of the projecting portion With the instrument body having an insertion part;
An arm having a mounting portion and a pair of arm portions bent from both ends of the mounting portion, and rotatably supporting both side portions of the instrument body;
With a light source substrate arranged perpendicular to the light irradiation direction in the upper accommodating portion of the instrument body and on which a light emitting element is mounted;
A power supply board provided with a power supply circuit that is arranged parallel to the light irradiation direction and supplies lighting power to the light emitting element in the lower accommodating portion of the instrument body;
With
The distance of the arm by the rotation center of the rotatable the instrument body to a rear surface of the protrusion, rather smaller than the distance from the center of rotation of the instrument body to the mounting portion of the arm,
The lower surface of the protrusion is located above the lower end of the instrument body, and the distance from the rotation center of the instrument body to the lower surface of the protrusion is the distance from the rotation center of the instrument body to the protrusion. A lighting fixture that is smaller than the distance to the rear surface and the distance from the center of rotation of the fixture body to the mounting portion of the arm. The external wire insertion unit, lighting instrument of claim 1 wherein the external wiring including power supply line for supplying external power to the power board is characterized in that that will be inserted in the direction perpendicular to the light irradiation direction. Claim 1 or 2 is provided with a surge absorber substrate which is arranged parallel to the light irradiation direction in the instrument main body and is connected to an external power input side of the power supply board to absorb a surge. The listed lighting fixtures.

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