JP2022118304A - Lighting fixture - Google Patents

Abstract

To provide a lighting fixture that is not heavy even when a heat sink is used to obtain the heat dissipation property.SOLUTION: A lighting device 1 of the present disclosure includes a light emitting section 210, a base 230, a column section 240, a top plate section 250, and a power source device 260. The light emitting section 210 has a substrate 212 having a light emitting element 211 mounted thereon. The base 230 has a plate shape and includes a second surface 234 being a surface oriented toward an upper direction Z1. The top plate section 250 is formed to have a power source attachment surface 253 that faces the second surface 234. The power source device 260 is attached to the power source attachment surface 253 at a distance from the base 230. The column section 240 is provided in a pair facing one another, with an end portion attached to the base 230 and the other end portion attached to the top plate part 250, whereby it is possible to suppress weight increase.SELECTED DRAWING: Figure 4

Description

TECHNICAL FIELD The present invention relates to lighting fixtures using light-emitting elements.

Conventionally, a light source module is attached to one side of a base, and heat dissipation fins are projected from the other side of the base. A power supply unit is arranged above the heat dissipation fins. Luminaires with curved arms are known. (For example, see Patent Document 1)

JP 2019-091726 A

The lighting fixture disclosed in Patent Literature 1 is provided with a base having a light source module attached to one side surface and a radiation fin provided to the other side surface. The power supply device is arranged on the heat dissipation fins. An arm is attached to the base to cover the power supply. The lighting fixture disclosed in Patent Literature 1 has a heat dissipation fin attached to the base, which may increase the weight of the lighting fixture.

The present disclosure has been made to solve the above problems, and an object thereof is to obtain a lighting fixture with reduced weight.

A lighting fixture of the present invention comprises a substrate on which a light emitting element is mounted, a plate-shaped base having a first surface on which the substrate is attached and a second surface opposite to the first surface, a plate-shaped base, A top plate portion having a mounting surface facing the second surface, and a power supply device mounted on the mounting surface of the top plate portion with a gap from the base, are provided in a pair so as to face each other, and one end of the a pillar attached to the base and having the other end attached to the top plate, wherein the air between the base and the power supply unit is parallel to the second surface and intersects the direction in which the pillars face each other It is possible to flow along the second surface in at least two directions.

The lighting fixture of the present disclosure can suppress weight increase.

Perspective view of lighting fixture 1 according to Embodiment 1 Perspective view of lighting fixture 1 according to Embodiment 1 1 is an exploded perspective view of lighting fixture 1 according to Embodiment 1. 1 is an exploded perspective view of lighting fixture 1 according to Embodiment 1. Perspective view of column 240 according to Embodiment 1 A perspective view of the top plate portion 250 according to the first embodiment Front view of lighting fixture 1 with column portion 240b removed according to Embodiment 1 Top view of light source unit 200 according to Embodiment 1 A perspective view of a lighting fixture 1 according to Modification 1

Embodiment 1.
The lighting fixture 1 of the present embodiment relates to a lighting fixture with reduced weight.
Hereinafter, as an embodiment according to the present disclosure, a lighting fixture 1 attached to a ceiling, a wall, or the like via hanging bolts will be described.
In the following description, terms indicating directions are used as appropriate, but these terms are for the purpose of explanation and do not limit lighting fixtures. Terms for directions include, for example, the X direction, the Y direction, and the Z direction. The X direction, Y direction, and Z direction are orthogonal to each other.
The X direction is the direction of the X axis shown in FIG. 1 and indicates the width direction. will be described as the left direction X2.
The Y direction is the direction of the Y axis shown in FIG. 1 and indicates the depth direction. The direction will be described as the forward direction Y2.
The Z direction is the direction of the Z axis shown in FIG. 1 and indicates the vertical direction, and the vertical direction will be described as the vertical direction Z, the upward direction as the upward direction Z1, and the downward direction as the downward direction Z2.

A lighting fixture 1 will be described with reference to FIGS. 1 to 6. FIG.
FIG. 1 is a perspective view of the lighting fixture 1 as viewed from above Z1. FIG. 2 is a perspective view of the lighting fixture 1 shown in FIG. 1 as viewed from the downward direction Z2 side. FIG. 3 is an exploded perspective view of the lighting fixture 1 shown in FIG. 1 as viewed from the upward direction Z1 side. FIG. 4 is an exploded perspective view of the lighting fixture 1 shown in FIG. 1 as viewed from the downward direction Z2 side. 5A and 5B are perspective views illustrating the column portion 240 shown in FIG. 1. FIG. 5A is a perspective view of the column portion 240 viewed from one side, and FIG. 5B is a perspective view of the other side. FIG. 11 is a perspective view of the column portion 240 viewed from the top. FIG. 6 is a perspective view of the top plate portion 250 shown in FIG.

The luminaire 1 is provided on a mounting portion such as a ceiling, and includes an arm 100 mounted on a hanging bolt (not shown) and a light source unit 200 rotatably held by the arm 100 . Although the attached portion is described assuming the ceiling, it is not limited to the ceiling and may be a beam or a wall.

The arm 100 is U-shaped and holds the light source unit 200 in a sandwiched manner. The arm 100 includes an arm body 110 that is attached to the attached portion, and a connection member 120 that attaches the light source unit 200 to the arm 110 .

The arm main body 110 includes an arm horizontal portion 111 attached to the attached portion, and an arm vertical portion 113 to which the light source unit 200 is attached.
Although the arm body 110 is integrally formed by bending a sheet metal, it may be integrally formed by a molding method such as extrusion molding. Also, it may be formed by combining a plurality of members.

The arm horizontal portion 111 is a long rectangular flat plate. The arm horizontal portion 111 is provided with a pair of hanging bolt mounting holes 112 through which hanging bolts (not shown) provided on the mounting portion are inserted. A hole on one side of the hanging bolt mounting hole 112 has an elongated hole shape along the width direction X of the arm horizontal portion 111 . Therefore, even when the positions of the horizontal arm portion 111 and the hanging bolt provided on the attached portion are shifted in the width direction X, the hanging bolt can be inserted through the hanging bolt mounting hole 112 .

The arm vertical portions 113 are plate-shaped, and are provided so as to protrude in pairs from the end portion side of the arm horizontal portion 111 in the width direction X toward the downward Z2 side. Arm vertical portion 113 is provided with arm connection portion 114 on the side of the end opposite to arm horizontal portion 111 in arm vertical portion 113 .

The arm connection portion 114 is formed with an arm insertion hole 115 which is a circular hole through which a bolt-shaped connection member 120 for attaching the arm 100 to the light source unit 200 is inserted. Further, the arm connecting portion 114 has a scale 116 engraved on its outer edge on the downward Z2 side to indicate the angle difference between the arm vertical portion 113 and the direction of light emitted from the light source unit 200 . The direction of this light is a direction perpendicular to the substrate 211, which will be described later.
The connecting member 120 of the arm 110 is inserted into the arm insertion hole 115 so that the light source unit 200 is connected to the light source unit 200 .
, the light source unit 200 is rotatably held.

The light source unit 200 includes a light emitting portion 210 , a cover 220 , a base 230 , a column portion 240 , a top plate portion 250 and a power supply device 260 , and is held by the arm 100 .

The light emitting section 210 includes a substrate 211 attached to the base 230 and a light emitting element 212 mounted on the substrate 211 . The light emitting unit 210 is supplied with power from the power supply device 260 and emits light.

The substrate 211 is plate-shaped and has a light-emitting surface 213 on which the plurality of light-emitting elements 212 are mounted, which is the surface on the downward Z2 side, and a substrate attachment surface on the upward Z1 side, which is attached to the base 230 . 214.

The light emitting elements 212 are LED elements, and a plurality of the light emitting elements 212 are mounted on the light emitting surface 213 of the substrate 211 . Note that the light-emitting element 212 is not limited to an LED element, and may be a light-emitting element such as an organic EL element or a laser.

The cover 220 is attached to the base 230 so as to cover the light emitting section 210 , and includes a cover main section 221 and a cover collar section 222 . The cover 220 diffuses and transmits the light emitted by the light emitting element 212, and is made of a resin such as polycarbonate or acrylic.

The cover main portion 221 has a cover main surface portion 2211 facing the substrate 211, and a cover side surface portion 2212 provided so as to protrude from the outer periphery of the cover main surface portion 2211 in the upward direction Z1. The cover main portion 221 covers and protects the light emitting portion 210 and diffuses and transmits the light emitted by the light emitting element 212 .

The cover flange portion 222 is provided so as to protrude outward from the end portion side of the cover side portion 2212 in the upward direction Z1. The cover collar portion 222 is attached to the base 230 by attaching means such as a screw (not shown) in a state where the column portion 240 is attached to the light source unit 200 .

The base 230 includes a rectangular plate-like base main portion 231 and a base collar portion 232 protruding from the outer periphery of the base main portion 231 . The base 230 is formed using an aluminum alloy that is excellent in versatility, but is not limited to the aluminum alloy, as long as it is a metal material with high thermal conductivity. The base 230 may be formed by bending a single sheet metal, or may be integrally formed by a molding method such as extrusion molding.

The base main portion 231 has a first surface 233 on which the light-emitting portion 210 is attached on the downward Z2 side, and a second surface 234 on which the column portion 240 is attached on the upward Z1 side. have. The base main portion 231 receives heat generated by the light emitting portion 210 and dissipates the heat.

The base collar portion 232 is provided so as to protrude from the outer periphery of the base main portion 231 downward in the Z2 direction. Since the base collar portion 232 protrudes downward from the base main portion 231 toward the Z2 side, it is possible to prevent water and dust from accumulating on the second surface 234 of the base main portion 231 .
Also, the base collar portion 232 can improve the rigidity of the base 230 . Therefore, even if the base 230 is formed of a thin plate, the base collar portion 232 can maintain its rigidity and can be lightened.

The column portion 240 is plate-shaped and includes a column main portion 241 , a top plate side mounting portion 243 , a column side portion 244 , a base side projecting portion 245 and a cover holding portion 246 . The column portion 240 is molded using a metal material such as steel or stainless steel. The column portion 240 is installed between the base 230 and the top plate portion 250 , the base side projecting portion 245 is attached to the base 230 , and the top plate side attachment portion 243 is attached to the top plate portion 250 . .
Four pillars 240 are arranged between the base 230 and the top plate 250 so as to face each other in the width direction X and the depth direction Y. As shown in FIG.
In addition, although the column portion 240 is formed by bending a sheet metal, it may be integrally formed by a molding method such as extrusion molding.

A pair of pillars 240 that face each other in the width direction X are pillars 240a.
When the light source unit 200 is held by the arm 100 , the pillar 240 a faces the arm connection section 114 and is held by the arm 100 so as to be sandwiched therebetween.

A pair of the pillars 240 facing each other in the depth direction Y is called a pillar 240b.
When the power supply device 260 is attached to the light source unit 200 , the pillar part 240 b faces the end surface of the power supply device 260 in the depth direction Y of the pillar part 240 .

The column main portion 241 has a rectangular flat plate shape, and has a column inner surface portion 2411 facing the power supply device 260 and a column outer surface portion 2412 opposite to the column inner surface portion 2411 . The column main portion 241 is formed with a connection hole 242 passing through the column inner surface portion 2411 and the column outer surface portion 2412 and having a female screw. The connection member 120 is inserted through the arm insertion hole 115 to press the arm body 110 in the direction from the arm connection portion 114 side toward the column main portion 241 side, and is attached to the connection hole 242 .

The top plate side mounting portion 243 is plate-shaped, and is provided so as to protrude in the direction from the column outer surface portion 2412 side toward the column inner surface portion 2411 side on the end portion side of the column main portion 241 in the upward direction Z1. be. The top plate side attachment portion 243 is attached to the top plate portion 250 .

The column side portions 244 are plate-shaped, and are provided so as to protrude from the column outer surface portion 2412 side toward the column inner surface portion 2411 side on both side portions of the column main portion 241 in the vertical direction Z. The column side portion 244 can improve the rigidity of the column portion 240 and reduce the weight of the column portion 240 . The pillar side portion 244 has a first pillar side portion 2441 to which a fall prevention wire (not shown) is attached on one side, and a second pillar side portion 2441 on the other side where the end on the downward Z2 side is close to the base 230. and
The second column side portion 2442 can suppress vibration of the column portion 240 by coming into contact with the base 230 when the column main portion 241 moves due to vibration or the like.

The base-side projecting portion 245 is plate-shaped, and is provided so as to project from the column outer surface portion 2412 side toward the column inner surface portion 2411 side at the end portion side of the column main portion 241 in the downward direction Z2. be. The base-side projecting portion 245 is attached to the second surface 234 of the base main portion 231 by attaching means such as a screw (not shown).

The cover holding portion 246 is plate-shaped and has a holding portion vertical portion 2461 and a holding portion horizontal portion 2462 .
The holding portion vertical portion 2461 is plate-shaped, and is provided so as to protrude in the Z2 direction from the end portion adjacent to the base-side projecting portion 245 at the end portion side of the column main portion 241 in the downward direction Z2. It is.
The holding portion horizontal portion 2462 is plate-shaped, and is provided so as to protrude in the direction from the column outer surface portion 2412 side toward the column inner surface portion 2411 side at the end portion side of the holding portion vertical portion 2461 in the downward direction Z2. be. The holding portion horizontal portion 2462 faces the surface of the cover collar portion 222 on the downward Z2 side in the vertical direction Z when the cover 220, the base 230, and the column portion 240 are assembled. Therefore, when the cover 220 comes off the base 230 and falls, the holding part 246 can hold the cover 220 and suppress the fall.

The top plate portion 250 is plate-shaped and has a circular top plate main portion 251 to which the power supply device 260 is attached, and a top plate projecting portion 252 to which the top plate side attachment portion 243 of the column portion 240 is attached. be.

The top plate main portion 251 has a circular plate shape. The top plate main portion 251 has a power supply mounting surface 253 which faces the base main portion 231 when the base 230 is mounted on the light source unit 200 and which is a surface on the downward Z2 side. A power supply device 260 is attached to the power supply mounting surface 253 with a screw or the like (not shown). The power supply mounting surface 253 is formed to have a smaller area than the second surface 234 of the base main portion 231 .

The top plate projecting portion 252 has a plate shape and is provided so as to protrude outward from the outer periphery of the top plate main portion 251 . The top plate projecting portions 252 are provided in pairs in the width direction X and the depth direction Y on the outer circumference of the top plate main portion 251 . The top plate projecting portion 252 is attached to the top plate side attachment portion 243 of the column portion 240 by an attachment means such as a screw.

The power supply device 260 has a box shape and includes a power supply case 261 , a lighting control circuit section 262 , a terminal section 263 , and a power supply insertion port 264 . The power supply device 260 receives power supply from an external power supply (not shown) to light the light emitting element 212 .

The power supply case 261 has a box shape elongated in the depth direction Y and is attached to the power supply attachment surface 253 of the top plate main portion 251 . The power supply case 261 has a case bottom portion 2611 attached to the power supply mounting surface 253 of the top plate main portion 251 and a case lid portion 2612 attached to the case bottom portion 2611 with screws or the like. The power supply case 261 has an end surface in the depth direction Y facing the column portion 240b and a side surface in the depth direction Y facing the column portion 240a in a state where the power supply device 260 is attached to the power supply mounting surface 253 of the top plate portion 250. ing.
The power supply case 261 is disposed so as to be spaced apart from the second surface 234 of the base main portion 231 in the vertical direction Z. As shown in FIG.
Although the power supply case 261 is formed by bending a single sheet metal, it may be integrally formed by a forming method such as extrusion molding.
In addition, although the case lid portion 2612 is attached to the case bottom portion 2611 by screws or the like, the power supply case 261 may be attached by means such as fitting.

The lighting control circuit unit 262 is housed in the power supply case 261 , converts power supplied from the outside, and supplies the converted power to the light emitting unit 210 . Note that the lighting circuit control section 262 may receive a control signal from the outside (not shown) to control the lighting state of the light emitting element 212 .

The terminal portion 263 is provided at one end portion of the power supply case 261 in the depth direction Y, and is connected to an external electric wire (not shown). The terminal portion 263 is connected to the lighting control circuit portion 262 by an internal wire (not shown).

The power supply insertion port 264 is formed by forming an opening in the terminal portion 263, through which a power supply line (not shown) is inserted.

The above is the overall configuration of the lighting fixture 1 of the first embodiment. Next, a method for attaching the lighting fixture 1 of this embodiment will be described with reference to FIG. FIG. 7 is a front view of the lighting fixture 1 in a state where the pillars 240b facing each other in the depth direction Y are not shown among the pillars 240. FIG.

First, the luminaire 1 is in a state separate from the hanging bolts of the mounting portion (not shown). The power supply device 260 is arranged on the power supply mounting surface 253 of the top plate portion 250 , and the working space 11 is formed between the arm 100 and the top plate portion 250 .
Next, the operator inserts the hanging bolt through the bolt hole 112 of the arm horizontal portion 111 and protrudes into the working space 11 . Then, the operator attaches the arm 100 to the hanging bolt with a fastener such as a nut.
At this time, the worker attaches the arm 100 to the hanging bolt using a tool such as a spanner or an impact wrench in the working space 11 . The work space 11 secures the work space 11 for fixing the arm 100 to the suspension bolt by arranging the power supply device 260 on the power supply mounting surface 253 of the top plate portion 250 . Therefore, the luminaire 1 of Embodiment 1 can improve the workability of attaching it to the attached portion.

The above is the method for attaching the lighting fixture 1 according to the first embodiment. Next, air flow between base 230 and power supply device 260 will be described with reference to FIG. FIG. 8 is a top view of the light source unit 200 with the top plate portion 250 not shown.

The pillars 240 are provided to face each other on the width direction X side and the depth direction Y side between the second surfaces 234 of the base main portion 231 . The power supply device 260 is disposed on the power supply attachment surface 253 of the top plate main portion 251 so as to provide a space from the base main portion 231 in the vertical direction Z. As shown in FIG.
Column facing lines 12a indicated by dotted lines in FIG. 8 connect the positions of both ends in the depth direction Y of the columns 240a provided in pairs in the width direction X with a dotted line parallel to the width direction X. It is an imaginary line.
Column facing lines 12b shown by dotted lines in FIG. It is an imaginary line.

Airflow between the base 230 and the power supply device 260 in the above configuration will be described with reference to FIG.
The air flow path 13 indicated by arrows in FIG. 8 is an example of air flow that flows along the second surface 234 of the base main portion 231 between the base 230 and the power supply device 260 .
In the base 230, the air flow path 13a extends from the end on the left direction X2 side in the width direction X on the front direction Y2 side of the column portion 240a in the depth direction Y to the left direction X2 side of the column portion 240b in the width direction X. 2 shows the flow of air flowing to the end portion on the forward direction Y2 side in the depth direction Y. FIG.
The air flow path 13b extends from the end of the base 230 on the front Y1 side of the column 240a in the depth direction Y and on the right side X1 in the width direction X to the front Y1 side of the column 240a in the depth direction Y. 1 shows the flow of air that flows to the end on the left direction X2 side in the width direction X and crosses the column facing line 12a in the width direction X from the right direction X1 side to the left direction X2 side.
In the base 230, the air flow path 13c is located on the right direction X1 side of the column portion 240b in the width direction X and extends from the end on the front direction Y2 side in the depth direction Y to the right direction X1 side of the column portion 240b in the width direction X. 1 shows an air flow that flows to the end on the front Y1 side in the depth direction Y and crosses the column facing line 12b in the depth direction Y from the front Y2 side to the front Y1 side.
The air flow path 13d extends from the end of the base 230 on the front Y2 side of the column 240a in the depth direction Y and on the left side X2 in the width direction X to the front Y1 side of the column 240a in the depth direction Y. 1 shows a flow of air that flows to the end on the right direction X1 side in the width direction X and crosses the column facing line 12a in the depth direction Y from the front direction Y2 side to the front direction Y1 side.
The air flow path 13e extends from the end of the base 230 on the left direction X2 side of the column portion 240b in the width direction X and on the front direction Y2 side in the depth direction Y to the right direction X1 side of the column portion 240b in the width direction X. It flows to the end of the front direction Y1 side in the depth width direction Y, crosses the column facing line 12b in the width direction X from the left direction X2 side to the right direction X1 side, and crosses the column facing line 12a in the depth direction Y. The flow of air crossing from the forward direction Y2 side to the forward direction Y1 side is shown.
The air flow path 13f extends from the end of the base 230 on the left direction X2 side of the column portion 240b in the width direction X and on the front direction Y1 side in the depth direction Y to the front direction Y2 side of the column portion 240a in the depth direction Y. It flows to the end on the right direction X1 side in the width direction X, crosses the column facing line 12b from the left direction X2 side to the right direction X1 side in the width direction X, and crosses the column facing line 12a in the depth direction Y. The crossing air flow from the direction Y1 side to the forward direction Y2 side is shown.
Although the air flow paths 13a to 13f between the base 230 and the power supply device 260 are described as air flow paths along the second surface 234 of the base main portion 231, As long as it does not interfere with the column portion 240, it is not limited to the air flow paths 13a to 13e.

A plurality of lighting fixtures 1 can be provided so as to intersect the flow paths of air flowing along the second surface 234 of the base main portion 231 , thereby improving the heat dissipation capability of the base 230 .
In the lighting fixture 1, the pillars 240 are provided facing each other on the width direction X side and the depth direction Y side of the second surface 234 of the base main portion 231 which is the heat transfer surface, and the power supply device 260 is provided in the vertical direction Z It is arranged on the power supply mounting surface 253 of the top plate main portion 251 with a space from the base main portion 231 at . Therefore, in the lighting fixture 1 of Embodiment 1, air can flow through the air flow paths 13a to 13f.
If the base 230 is provided with plate-shaped heat radiation fins, the air can flow only in the direction along the heat radiation fins, and the air flowing from the direction intersecting the heat radiation fins is blocked by the heat radiation fins. It is conceivable that Also, when multiple heat radiating fins are provided, it is also possible that the heat radiated from the heat radiating fins will remain because the flow of air between the multiple heat radiating fins is blocked by the heat radiating fins on the outside. be done.
The base 230 can suppress the restriction of the flow path of the air flowing along the second surface 234 of the base main portion 231 as compared with the case where a heat dissipation mechanism such as a heat dissipation fin is provided. The air can flow without being blocked from any direction, and the heat dissipation capability can be improved. Therefore, the lighting fixture 1 of Embodiment 1 can suppress the temperature rise without providing the base 230 with a heat dissipation mechanism. Moreover, weight increase can be suppressed.

The above is the description of the air flow between the base 230 and the power supply device 260 . Next, effects of the first embodiment will be described.

The lighting fixture 1 of Embodiment 1 includes a base main portion 231 having a second surface 234 formed thereon, a top plate main portion 251 having a power mounting surface 253 facing the second surface, and a base main portion 231. A power supply unit 260 is attached to a power supply attachment surface 253 with a space therebetween, and a top plate side attachment portion 243 is attached to a top plate protrusion portion 252 and a base side protrusion portion 245 is provided so as to face each other in a pair. has a post 240 attached to the base main portion 231 . In the configuration of the lighting fixture 1 of Embodiment 1, the air between the base 230 and the power supply device 260 flows in the direction of the column facing lines 12a and 12b parallel to the second surface 234 and facing the column 240. It is possible to flow along the second surface 234 in at least two directions that intersect with each other. Therefore, the lighting fixture 1 of Embodiment 1 can improve the heat dissipation capability of the base 230 .

Further, in the lighting fixture 1 of Embodiment 1, the column portion 240 faces the end surface and the side surface of the power supply device 260 in the depth direction Y in the direction parallel to the second surface of the base 230, and the width of the column portion 240 is is smaller than the width of the end surface of the power supply device in the depth direction Y. The air flowing between the base 230 and the power supply device 260 tends to flow over a wider range as the width of the column portion 240 is smaller. Therefore, the lighting fixture 1 of Embodiment 1 can improve the heat dissipation capability of the base 230 .

Further, in the lighting fixture 1 of Embodiment 1, the base collar portion 232 is provided so as to protrude from the outer circumference of the base main portion 231 toward the downward direction Z2 side. It is possible to suppress the accumulation of water and dust on the second surface 234 of the . Therefore, the lighting fixture 1 of Embodiment 1 can suppress foreign matter from adhering to the second surface, which is a heat transfer surface, and thus can suppress a decrease in the heat dissipation capability of the base 230 .

Further, in the lighting device 1 of Embodiment 1, the second surface of the base main portion 231 is arranged to face the power supply mounting surface 253 of the top plate main portion 251 . Since the area of the power supply mounting surface 253 is smaller than the area of the second surface 234, the air heated by the base 231 tends to flow toward the top plate main portion 251 in the vertical direction Z. Therefore, the lighting fixture 1 of Embodiment 1 can improve the heat dissipation capability of the base 230 that facilitates air flow between the base main portion 231 and the top panel main portion 251 .

Further, in the lighting fixture 1 of Embodiment 1, the power source device 260 is arranged on the power source attachment surface 253 of the top plate main portion 251 , and the top plate protruding portion 252 is arranged such that the column portion 240 faces the power source device 260 . , and the arm body 110 is attached so as to sandwich the column portion 240a from the upward direction Z1 side. Therefore, the lighting fixture 1 of Embodiment 1 can secure a work space in which a tool can be used between the arm body 110 and the top plate main portion 251, like the work space 11 shown in FIG. It is possible to improve the workability of mounting.

Further, in the lighting fixture 1 of Embodiment 1, the arm body 110 is attached while pressing the column portion 240a from the arm connection portion 114 side toward the column main portion 241 side in the width direction X. As shown in FIG. Therefore, the lighting fixture 1 of Embodiment 1 is limited in movement in the width direction X, and vibration can be suppressed.
Further, in the lighting fixture 1 of Embodiment 1, the arm connection portion 114 of the arm body 110 extends to the base collar portion 232 in the vertical direction Z, and the arm body 110 connects the column portion 240a and the base 230 to the arm connection portion 114 side. It may be attached to the column main portion 241 while being pressed in a direction from the side toward the column main portion 241 side. In this case, the arm body 110 can suppress vibration more than when only the column portion 240a is pressed.

The above is the description of the effects of the lighting fixture 1 of the first embodiment. Next, Modification 1 according to Lighting Fixture 1 of Embodiment 1 will be described with reference to FIG. FIG. 8 is a perspective view of the lighting fixture 1 showing Modification 1 as seen from the Z2 direction.

Although the cover main portion 221 of Embodiment 1 has been described as having a box shape, it may have a hemispherical shape like the cover main portion 221a of the cover 230a shown in FIG. The cover main portion 221 may have a shape that allows arbitrary light distribution control.
Further, although the main base portion 231 of the first embodiment has a rectangular shape, it may have a disc shape like the main base portion 231a of the base 230a shown in FIG. The base main portion 231 may be a flat plate facing the cover main portion 221 and having a size to which the cover flange portion 222 is attached.

Next, Modified Example 2 of lighting fixture 1 of Embodiment 1 will be described.
The top plate portion 250 of Embodiment 1 is formed separately from the case bottom portion 2611 of the power source case 261 and attached thereto, but may be integrally formed with the case bottom portion 2611 by extrusion molding. The top plate portion 250 may have a power source mounting surface 253 facing the base main portion 231 and may be mounted on the column portion 240 .

1 lighting equipment 100 arm 110 arm body 111 arm horizontal portion 112 suspension bolt hole 113 arm vertical portion 114 arm connection portion 115 arm insertion hole 116 scale 120 connection member 200 light source unit 210 light emission Part 211 Substrate 212 Light emitting element 213 Light emitting surface 214 Substrate mounting surface 220, 220a Cover 221, 221a Cover main portion 2211 Cover main surface portion 2212 Cover side surface portion 222, 222a Cover collar portion 230, 230a Base 231, 231a base main portion 232, 232a base collar portion 233 first surface 234 second surface 240, 240a, 240b column portion 241 column main portion 242 connection hole 243 top plate side mounting portion, 244 pillar side portion 2441 first pillar side portion 2442 second pillar side portion 245 base side projecting portion 246 cover holding portion 250 top plate portion 251 top plate main portion 252 top plate projecting portion 253 Power supply mounting surface 260 Power supply device 261 Power supply case 2611 Case bottom 2612 Case lid 262 Lighting control circuit 263 Terminal 264 Power supply insertion port 11 Work spaces 12a, 12b Opposite line to column 13a, 13b, 13c, 13d, 13e, 13f air channels.

Claims (5)

a substrate on which a light emitting element is mounted;
a plate-shaped base having a first surface to which the substrate is attached and a second surface opposite to the first surface;
a top plate portion having a plate shape and having a mounting surface facing the second surface;
a power supply device mounted on the mounting surface of the top plate with a space provided from the base;
a pair of columns facing each other, one end of which is attached to the base and the other end of which is attached to the top plate;
Air between the base and the power supply can flow along the second surface in at least two directions that are parallel to the second surface and cross the direction in which the pillars face each other. Lighting equipment that is. The lighting fixture according to claim 1, wherein the column faces the power supply device in a direction parallel to the second surface and has a width smaller than that of the power supply device in a direction parallel to the second surface. . 3. The lighting fixture according to claim 1, wherein the base has a base brim provided so as to protrude in a direction from the second surface side toward the first surface side on the outer circumference of the base. The lighting fixture according to any one of claims 1 to 3, wherein the mounting surface of the top plate portion has a smaller area than the second surface of the base. 5. The lighting fixture according to claim 4, wherein the top plate portion has a rectangular shape, a disk shape, or a cross shape.

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