JP2022135450A - Luminaire - Google Patents

Abstract

To provide a luminaire that restrains the influence of packing on light distribution control.SOLUTION: A luminaire 1 comprises: a light source part 110; a base part 141 fitted with the light source part 110; a cover part 120 comprising a cover main part 121 opposed to the light source part 110, a cover flange part 122 fitted to the base part 141, and a concave cover groove part 1222 provided in the cover flange part 122 on the side opposed to the base part 141; and packing 130 arranged in the cover groove part 1222, and pressed and housed in a space surrounded by the cover groove part 1222 and the base part 141 while the cover part 120 is fitted to the base part 141.SELECTED DRAWING: Figure 3

Description

The present disclosure relates to lighting fixtures having light source units.

BACKGROUND Conventionally, there is known a lighting fixture including a substrate on which a light emitting element is mounted, a base to which the substrate is attached, and a cover attached to the base so as to cover the substrate (see, for example, Patent Document 1).

In the lighting fixture disclosed in Patent Document 1, a groove in which a sealing member for stopping water is arranged is provided in a frame that is arranged so as to face a cover member. In this lighting fixture, the cover member is attached to the frame so as to press the seal member, with the seal member arranged in the groove of the cover member so that a gap is not formed between the cover member and the frame. In the lighting fixture disclosed in Patent Document 1, a part of the sealing member protrudes from the groove of the frame when the cover member is attached to the frame.

JP 2018-190505 A

However, in the lighting fixture disclosed in Patent Document 1, part of the sealing member protrudes from the groove of the frame when assembled, so the cover member and the substrate protrude from between the frame and the cover member. Only the portion of the sealing member is separated. Since the light distribution changes depending on the tightening force and the amount of the seal member sandwiched, the light distribution control of the light from the light source of the substrate is affected. As a result, light distribution control will not be as designed.

The present disclosure has been made to solve the problems described above, and provides a lighting fixture that suppresses the influence of packing on light distribution control.

A lighting fixture according to the present disclosure includes a light source portion, a base portion to which the light source portion is attached, a cover main portion facing the light source portion, a cover collar portion attached to the base portion, and the cover collar portion. a cover portion having a concave cover groove provided on the side facing the base portion; and a cover groove portion and the base portion arranged in the cover groove portion in a state in which the cover portion is attached to the base portion. and a packing that is housed in a pressed state in a space surrounded by.

According to the present disclosure, the packing is accommodated in the space surrounded by the cover groove and the base while being pressed. Therefore, it is possible to prevent the packing from being sandwiched between the cover portion and the base portion in a state in which a portion of the packing protrudes from the cover groove portion. As a result, the deviation of the distance between the light source and the lens provided on the cover can be suppressed, and the influence on the light distribution control can be suppressed.

1 is an external perspective view showing a configuration example of a lighting fixture according to Embodiment 1. FIG. 2 is an external perspective view of the lighting fixture shown in FIG. 1 when viewed from another direction; FIG. 2 is an exploded perspective view of the lighting fixture shown in FIG. 1; FIG. FIG. 3 is an exploded perspective view of the lighting fixture shown in FIG. 2; FIG. 4 is a schematic cross-sectional view enlarging the vicinity of the end portion of the cover flange portion shown in FIG. 3 ; FIG. 5 is a plan view of the packing shown in FIG. 4; FIG. 5 is a cross-sectional view of the AA portion of the packing shown in FIG. 4; FIG. 4 is a schematic side view showing a state before the cover portion is attached to the base portion in the lighting fixture according to Embodiment 1; 4 is a schematic side view showing a state after the cover portion is attached to the base portion in the lighting fixture according to Embodiment 1. FIG. 9 is an enlarged view of the FR portion shown in FIG. 8; FIG. FIG. 10 is an enlarged view of the FR portion shown in FIG. 9;

Embodiment 1.
The present disclosure is a lighting fixture that is waterproofed by a packing that functions as a sealing member, and suppresses the influence of the packing on the light distribution control of the cover. In Embodiment 1, a description will be given of a lighting fixture that is attached to a mounting portion such as a ceiling.

In the following description of the embodiments, terms representing directions are used as appropriate, but these terms are for the purpose of explanation and do not limit the lighting device. Directional terms include, for example, "up", "down", "right", "left", "front" or "back". In each figure described below, the Z-axis indicates the up-down direction, the X-axis indicates the left-right direction, that is, the horizontal direction, and the Y-axis indicates the front-rear direction, that is, the depth direction. The X-axis, Y-axis, and Z-axis are orthogonal, the X-axis and Y-axis are horizontal, and the Z-axis is vertical. It should be noted that these names are defined for the convenience of explanation, and do not limit the arrangement, orientation, etc. of the devices and parts.

The overall configuration of the lighting fixture according to Embodiment 1 will be described. FIG. 1 is an external perspective view showing a configuration example of a lighting fixture according to Embodiment 1. FIG. FIG. 2 is an external perspective view of the lighting fixture shown in FIG. 1 when viewed from another direction. 3 is an exploded perspective view of the lighting fixture shown in FIG. 1. FIG. 4 is an exploded perspective view of the lighting fixture shown in FIG. 2. FIG.

The luminaire 1 has an arm 10 attached to a mounting portion (not shown) and a light source unit 100 held by the arm 10 .

The arm 10 is connected to the light source unit 100 and fixes the light source unit 100 to a mounting portion (not shown). The arms 10 are arranged so as to sandwich the light source unit 100 in the horizontal direction X. As shown in FIG. The arm 10 has an arm fixing portion 11 fixed to a mounting portion (not shown) and an arm main portion 12 connected to the light source unit. The arm 10 is made of a strong metal member such as iron or stainless steel.

The arm fixing portion 11 is formed with a mounting hole 13 for fixing to a mounting portion (not shown) with a fixture such as a hanging bolt. The arm main portion 12 is connected to the light source unit 100 by fixing means such as bolts or screws. The arm main portion 12 holds the light source unit 100 so as to be rotatable around the fixing means.

Light source unit 100 includes light source section 110 , cover section 120 , packing 130 , heat sink 140 , column section 150 , top plate section 160 , and power supply section 170 . The light source unit 110 has a plurality of light emitting elements 111 and a plate-like substrate 112 on which the plurality of light emitting elements 111 are mounted.

The cover part 120 controls the light distribution of the light emitted from the light source part 110 and is attached to the heat sink 140 so as to cover the light source part 110 . The cover portion 120 has a box-shaped cover main portion 121 with one side open, and a cover collar portion 122 provided so as to protrude in the horizontal direction XY from the edge of the opening of the cover main portion 121 .

The cover main portion 121 includes a cover front portion 1211 facing the light source portion 110 , a lens portion 1212 formed on the inner surface of the cover front portion 1211 , and a cover side portion 1213 projecting from the periphery of the cover front portion 1211 . have Further, the lens portion 1212 functions as a light distribution control portion that controls the light distribution of the light from the light emitting element 111 in a predetermined direction. The lens portion 1212 is formed so as to perform predetermined light distribution control according to the lighting arrangement of the plurality of light emitting elements 111 and the distance in the vertical direction Z between the light emitting elements 111 and the lens portion 1212 . The lens portion 1212 has a plurality of lenses, and the lenses are arranged in accordance with the positions of the light emitting elements 111 . In the configuration example shown in FIG. 3, the cover portion 120 and the lens portion 1212 are integrally molded.

The cover flange portion 122 is for attaching the cover portion 120 to the base portion 141 by the cover fixing means 1201, and is provided with a cover attachment hole 1221 and a cover groove portion 1222. As shown in FIG. The heat sink 140 is attached to the cover portion 120 by a cover fixing means 1201 in which the cover collar portion 122 has a screw shape. The cover attachment hole 1221 has a through-hole shape extending in the vertical direction Z, and the cover fixing means 1201 is inserted therethrough.

The cover groove portion 1222 is provided on the surface of the cover collar portion 122 on the heat sink 140 side (the surface on the upward Z1 side), and has a concave shape that is recessed from the upward Z1 side to the downward Z2 side. The cover groove portion 1222 is arranged around the cover main portion 121 so as to surround the opening of the cover main portion 121 . The cover groove portion 1222 has a groove side portion 1223 that protrudes from the surface of the cover collar portion 122 on the upward Z1 side. FIG. 5 is a schematic cross-sectional view enlarging the vicinity of the end portion of the cover flange portion shown in FIG. 3 . As shown in FIG. 5, in the vertical direction Z, the end 1221a of the cover flange 122 and the end 1222a of the cover groove 1222 are provided at the same height.

The packing 130 is accommodated in the cover groove portion 1222 and suppresses formation of a gap between the cover portion 120 and the heat sink 140 . The packing 130 has a ring shape and is accommodated in the cover groove portion 1222 . The packing 130 is made of an elastic material such as rubber. 6 is a plan view of the packing shown in FIG. 4. FIG. FIG. 7 is a cross-sectional view of the AA portion of the packing shown in FIG.

The cross section of the packing 130 is shaped as shown in FIG. As shown in FIG. 7, in the vertical direction Z, the packing 130 has a packing convex portion 131 formed on the upward Z1 side and a packing concave portion 132 formed on the downward Z2 side. The packing convex portion 131 has two inclined portions 1311 . Also, in FIG. 7, the inclined portion 1311 is shown linearly, but may be arcuate. Packing 130 is formed such that packing convex portion 131 protrudes from cover groove portion 1222 in a state accommodated in cover groove portion 1222 shown in FIG.

The light source unit 110 is attached to the heat sink 140 . The heat sink 140 receives heat generated when the light source unit 110 emits light, and dissipates the transferred heat. The heat sink 140 has a base portion 141 and heat radiation fins 142 . The heat sink 140 is formed by processing a plate-like metal member to form the base portion 141 and the radiation fins 142 . Metal members are, for example, iron, stainless steel, or aluminum. By using aluminum as the metal member, the weight can be reduced compared to iron and stainless steel, and heat dissipation can be enhanced.

The light source section 110 is attached to the base section 141 . The base portion 141 is formed by forming a plate-like metal member into a rectangular shape. The base portion 141 is provided in a plate shape, and is provided with a base through-hole 1413 through which the cover fixing means 1201 for fixing the cover portion 120 is inserted. One surface of the base portion 141 is a light source mounting portion 1411 that holds the light source portion 110 . The light source attachment portion 1411 is attached so that one surface of the substrate 112 on which the light emitting element 111 is not mounted is brought into contact with the light source attachment portion 1411 . The other surface of the base portion 141, which is the surface of the base portion 141 opposite to the light source mounting portion 1411, is a fin mounting portion 1412 to which the radiation fins 142 are mounted.

The heat radiation fins 142 receive the heat of the light source section 110 via the base section 141 and release the transmitted heat from the light source section 110 . A plurality of heat radiation fins 142 are arranged on the fin mounting portion 1412 of the base portion 141 and are provided so as to face the light source portion 110 via the base portion 141 . A plurality of radiation fins 142 are radially arranged on the base portion 141 at intervals.

The pillars 150 connect the heat sink 140 and each member, and a total of four pillars 150 are provided so as to face each other in the horizontal direction X and the depth direction Y. As shown in FIG. The column portion 150 has a column main portion 151 , a heat sink connection portion 152 and a top plate fixing portion 153 . The heat sink connecting portion 152 is provided with a column fixing hole 1521 into which the cover fixing means 1201 inserted through the cover mounting hole 1221 and the base through hole 1413 is screwed. By screwing the cover fixing means 1201 to the heat sink connection part 152 , the cover part 120 and the heat sink 140 are connected so as to be sandwiched between the column part 150 and the cover fixing means 1201 .

The top plate portion 160 is attached to the heat sink 140 so as to cover the radiation fins 142 from the upward direction Z1 side. The top plate portion 160 protects the plurality of heat radiating fins 142 and prevents dust from accumulating on the fin attachment portion 1412 between the heat radiating fins 142 .

The power supply unit 170 supplies power supplied from an external commercial power supply to the light source unit 110 and controls light emission of the light source unit 110 . The power source unit 170 includes a box-shaped power source main unit 171, a power source leg unit 172 for fixing the power source main unit 171 to the pillar 150, a power circuit unit (not shown) built in the power source main unit 171, and a light source unit. 110 and a power supply cover portion 173 that covers the electric wire connecting to the power source 110 .

So far, the overall configuration of the lighting fixture 1 has been described. Next, the effects of packing 130 will be described with reference to FIGS. 8 to 11. FIG. 8 is a schematic side view showing a state before the cover portion is attached to the base portion in the lighting fixture according to Embodiment 1. FIG. 9 is a schematic side view showing a state after the cover portion is attached to the base portion in the lighting fixture according to Embodiment 1. FIG. 10 is an enlarged view of the FR portion shown in FIG. 8. FIG. 11 is an enlarged view of the FR portion shown in FIG. 9. FIG. In FIGS. 8 to 11, packing 130 and cover fixing means 1201 are indicated by hatching.

FIG. 8 shows a state in which the packing 130 is attached to the cover groove portion 1222 but before the cover portion 120 is attached to the base portion 141 . 9 shows a state in which the cover portion 120 is attached to the base portion 141, and the packing 130 is elastically deformed and accommodated in the space formed by the cover groove portion 1222 and the base portion 141. FIG.

Before the cover portion 120 is attached to the base portion 141, the packing 130 is attached to the cover groove portion 1222 as shown in FIGS. there is Then, as shown in FIG. 10, a space SP is formed between the inclined portion 1311 and the groove side portion 1223 of the packing 130 .

Next, as shown in FIGS. 9 and 11 from the state shown in FIGS. 8 and 10, the cover portion 120 is moved upward Z1, and the cover fixing means 1201 attaches the cover portion 120 to the base portion 141. Next, as shown in FIGS. At this time, as shown in FIG. 11, the cover portion 120 is attached so that the end portion of the groove side portion 1223 on the upward direction Z1 side contacts the base portion 141 . Packing 130 is elastically deformed and accommodated in the space surrounded by cover groove 1222 and base portion 141 without protruding from cover groove 1222 .

Before the cover portion 120 is attached to the base portion 141 , a space SP is formed between the inclined portion 1311 and the groove side portion 1223 of the packing 130 . Therefore, when the packing 130 is pressed against the base portion 141, the packing 130 is elastically deformed so as to swell in the lateral direction, and the inclined portion 1311 is accommodated in the space SP. Since the packing convex portion 131 deforms to fill the space SP, part of the packing 130 is prevented from protruding outside the cover groove portion 1222 . Therefore, it is possible to prevent a part of the packing 130 from being caught between the groove side portion 1223 and the base portion 141 . As a result, deviation of the distance between the light emitting element 111 and the lens portion 1212 can be suppressed.

The packing 130 has a packing recess 132 formed on the opposite side of the packing protrusion 131 . Therefore, when the packing 130 is pushed by the base portion 141 , the packing 130 is elastically deformed, and can be deformed so as to fill not only the space SP but also the space formed in the packing recess 132 . Therefore, it is possible to suppress protruding into the enclosed space.

In addition, the packing 130 and the cover groove 1222 are formed so that their horizontal lengths, which are parallel and perpendicular to their longitudinal directions, are equal. Explaining with the packing 130 shown in FIG. 7, the length in the depth direction Y is equivalent to the width of the cover groove portion 1222 . Therefore, even if the space SP and the packing recessed portion 132 are formed, the reaction force of the pressed packing 130 does not disperse, and the packing 130 presses the base portion 141 to suppress the formation of a gap. Therefore, it is possible to prevent water and dust from entering the inside of the cover portion 120 .

The lighting fixture 1 of Embodiment 1 has a light source section 110 , a base section 141 to which the light source section 110 is attached, a cover section 120 and a packing 130 . The cover portion 120 includes a cover main portion 121 facing the light source portion 110 , a cover flange portion 122 attached to the base portion 141 , and a concave cover groove portion 1222 provided on the side of the cover flange portion 122 facing the base portion 141 . have The packing 130 is arranged in the cover groove portion 1222 and accommodated in a pressed state in the space surrounded by the cover groove portion 1222 and the base portion 141 when the cover portion 120 is attached to the base portion 141 .

According to the first embodiment, packing 130 is accommodated in the space surrounded by cover groove portion 1222 and base portion 141 while being pressed. Therefore, it is possible to prevent the packing 130 from being sandwiched between the cover portion 120 and the base portion 141 in a state where a part of the packing 130 protrudes from the cover groove portion 1222, and the distance between the light emitting element 111 of the light source portion 110 and the lens portion 1212 of the cover portion 120 can be reduced. displacement can be suppressed. As a result, the distances between the plurality of light emitting elements 111 and the plurality of lens portions 1212 become constant, and the influence on light distribution control can be suppressed.

Reference Signs List 1 lighting fixture 10 arm 11 arm fixing portion 12 arm main portion 13 mounting hole 100 light source unit 110 light source portion 111 light emitting element 112 substrate 120 cover portion 121 cover main portion 122 cover collar portion, 130 packing, 131 packing protrusion, 132 packing recess, 140 heat sink, 141 base part, 142 radiation fin, 150 column part, 151 column main part, 152 heat sink connection part, 153 top plate fixing part, 160 top plate part, 170 power supply Part 171 Power supply body 172 Power supply leg 173 Power supply cover 1201 Cover fixing means 1211 Cover front part 1212 Lens 1213 Cover side 1221 Cover attachment hole 1221a End 1222 Cover groove 1222a End portion 1223 Groove side portion 1311 Inclined portion 1411 Light source mounting portion 1412 Fin mounting portion 1413 Base through hole 1521 Column fixing hole SP Space.

Claims (6)

a light source;
a base portion to which the light source portion is attached;
a cover main portion facing the light source portion, a cover brim portion attached to the base portion, and a cover portion having a recessed cover groove portion provided on a side of the cover brim portion facing the base portion;
a packing that is arranged in the cover groove and accommodated in a state of being pressed into a space surrounded by the cover groove and the base when the cover is attached to the base;
luminaire with The cover groove portion has a groove side portion that protrudes from the cover flange portion,
The packing has a packing protrusion that protrudes from the side of the groove in a state of being placed in the cover groove before being pressed,
A lighting fixture according to claim 1 . The packing protrusion has an inclined portion,
A gap is formed between the inclined portion and the side portion of the groove before the cover portion is attached to the base portion.
3. A luminaire according to claim 2. In a state in which the cover portion is attached to the base portion,
the groove sides are in contact with the base;
The packing protrusion deforms so as to fill the gap.
A lighting fixture according to claim 3 . The packing has a recess on the opposite side of the packing protrusion,
The luminaire according to any one of claims 2-4. The cover part is integrally formed with a light distribution control part,
The luminaire according to any one of claims 1-5.

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