JP2017010771A - Lighting device - Google Patents

Abstract

An illumination device that can reduce unevenness in illuminance on an installation surface is provided. The lighting device includes an instrument body, a front side light source, a protrusion, and a back side light source. The front-side light source is provided on the front side of the instrument body 14. The protruding portion 53 protrudes from the back side of the instrument body 14. The back side light source 22 includes a substrate 93 and a plurality of light emitting elements 94 mounted on the substrate 93. A substrate 93 is provided on the outer surface of the protruding portion 53 with the light emitting element 94 facing the side of the instrument body 14. The number of light emitting elements 94 mounted on the side of the substrate 93 away from the instrument body 14 is larger than the number of light emitting elements 94 mounted on the side of the substrate 93 close to the instrument body 14. [Selection] Figure 6

Description

  Embodiments of the present invention relate to an illuminating device in which light sources are provided on the front side and the back side of an instrument body.

  Conventionally, as a lighting device, for example, there is a ceiling light installed on a ceiling surface which is an installation surface. In such an illuminating device, since the light source is provided on the front surface side (lower surface side) of the fixture main body, the floor surface side becomes bright, but the ceiling surface side may become dark.

  There is also an illuminating device in which a back side light source is disposed on the back side of the instrument body so as to illuminate the ceiling surface. A plurality of light emitting elements are used for the back side light source, and the plurality of light emitting elements are provided at predetermined intervals along a direction parallel to the back side of the instrument body.

  However, the light source on the back side is close to the ceiling surface, and the light emitting element irradiates the ceiling surface with highly directional light. Therefore, the location of the ceiling surface facing the position of each light emitting element becomes bright, but the light emitting element and the light source emit light. The portion of the ceiling surface facing the position between the elements becomes dark, and uneven brightness tends to occur on the ceiling surface.

Japanese Patent Laying-Open No. 2015-28951

  The problem to be solved by the present invention is to provide an illuminating device that can reduce illuminance unevenness of an installation surface.

  The illuminating device of embodiment is provided with an instrument main body, a front side light source, a protrusion part, and a back side light source. The front side light source is provided on the front side of the instrument body. The protruding portion protrudes from the back side of the instrument body. The back side light source includes a substrate and a plurality of light emitting elements mounted on the substrate. A board | substrate is provided in the outer surface of a protrusion part with a light emitting element facing the instrument body side. The number of light emitting elements mounted on the side of the substrate away from the instrument body is larger than the number of light emitting elements mounted on the side of the substrate close to the instrument body.

  According to the present invention, it can be expected to reduce unevenness in illuminance on the installation surface.

It is sectional drawing of the illuminating device which shows one Embodiment. It is a perspective view of an illuminating device same as the above. It is the perspective view seen from the back side of the decomposition | disassembly state of an illuminating device same as the above. It is the perspective view seen from the front side of the decomposition | disassembly state of an illuminating device same as the above. It is sectional drawing of the adapter guide vicinity of an illuminating device same as the above. It is a front view of the back side light source of an illuminating device same as the above.

  Hereinafter, an embodiment will be described with reference to FIGS. 1 to 6.

  As shown in FIGS. 1 to 4, the lighting device 10 is a circular ceiling light that is attached via an adapter 12 to a hooking ceiling body 11 (see FIG. 1) installed on a ceiling surface as an installation surface.

  The adapter 12 is formed in a cylindrical shape, and a pair of claw portions 12a protrude from the peripheral surface. The claw portion 12a is biased in the protruding direction from the adapter 12, and is configured to be retracted into the adapter 12 by pressing a release button 12b protruding from the lower surface of the adapter 12. On the upper surface of the adapter 12, a pair of terminals that are mechanically fixed to the hooking sealing body 11 and electrically connected are projected. From the adapter 12, a cord with a connector for feeding that is electrically connected to a pair of terminals is derived.

  The lighting device 10 includes an instrument body 14. The front side light source 15, the front side cover 16, and the shade 17 are attached to the front side (lower side) of the instrument body 14, and the power source cover 18, the second side cover 16 and the shade 17 are attached to the rear side (upper side) of the instrument body 14. A back side light source 19 as a back side light source 2 and a back side cover 20 as a second back side cover are attached. Further, an adapter guide 21, a rear light source 22, a rear cover 23, and a power supply device 24 are attached to the power cover 18.

  The instrument body 14 is made of metal and is formed in a disc shape. Bent portions 27, 28, 29 that are bent so as to protrude toward the back side of the instrument main body 14 are formed in the central area of the instrument main body 14, the peripheral area, and the intermediate area between the central area and the peripheral area, respectively. ing.

  The bent portion 27 in the central area is circular when viewed from the back side of the instrument body 14, and the protruding height from the back side of the instrument body 14 is higher than the other bent portions 28 and 29, It is protruding. On the back side of the bent portion 27, a planar protruding surface 30 is formed. An instrument opening 31 through which the adapter guide 21 communicates is formed on the projecting surface 30.

  The bent portion 28 in the peripheral area is formed in an annular shape when viewed from the back side of the instrument main body 14, and an edge portion 32 into which the shade 17 is fitted projects from the front side. A plurality of shade fittings (not shown) for detachably attaching the shade 17 are disposed in a hollow portion on the front side of the bent portion 28.

  The bent portion 29 in the intermediate area is formed in an annular shape when viewed from the back side of the instrument main body 14, and is also configured as a power supply cover attaching portion to which the power supply cover 18 is attached. In the present embodiment, the bent portion 29 is formed in a substantially quadrangular ring shape, but may be formed in an annular shape.

  A flat front light source mounting surface 33 for attaching the front light source 15 is formed on the front surface of the instrument main body 14 in a region between the bent portion 27 in the central region and the bent portion 28 in the peripheral region. On the back surface of the instrument body 14, a planar back side light source mounting surface 34 for mounting the back side light source 19 is formed in a region between the bent portion 28 in the peripheral region and the bent portion 29 in the intermediate region.

  The front light source 15 includes a light emitting module 37. The light emitting module 37 includes a substrate 38, a plurality of light emitting elements 39 mounted on the substrate 38, and a connector 40. In the present embodiment, the light emitting module 37 is divided into four in the circumferential direction, and the four light emitting modules 37 are arranged on the front light source mounting surface 33 of the instrument body 14 so that the four light emitting modules 37 are annularly combined. 37 is electrically connected via the connector 40.

  The light emitting element 39 emits illumination light such as white or light bulb color. As the light emitting element 39, for example, a surface mount type SMD package type LED is used. The light emitting elements 39 are arranged at equal intervals in a line along the circumferential direction on the front surface of the substrate 38. The light emitting elements 39 may be arranged in a plurality of rows on concentric circles. The light emitting element 39 is not limited to an LED, and may be an organic EL or the like.

  The front cover 16 is made of a transparent resin and is formed in an annular shape having an opening 43 at the center. The opening 43 is formed to have substantially the same diameter as the diameter of the bent portion 27 in the central region of the instrument body 14.

  The front side cover 16 sandwiches and holds the substrate 38 of the light emitting module 37 between the fixture body 14 and controls the light distribution from the cover part 44 that covers the entire substrate 38 and the front side light source 15. A lens unit 45 is provided.

  A plurality of claws 46 are provided on the outer peripheral portion of the cover portion 44 to be hooked and attached to the instrument main body 14, and a plurality of bosses 47 are provided on the inner peripheral portion of the cover portion 44 for screwing to the instrument main body 14. Yes.

  The lens part 45 protrudes from the front side of the cover part 44 and has a concave part 45a for accommodating the light emitting element 39. The lens part 45 is annularly formed along the plurality of light emitting elements 39. Then, the light distribution is controlled by the lens unit 45 so that the light from the light emitting element 39 is emitted toward the inner and outer diameter directions of the instrument main body 14.

  The shade 17 is made of a milky white resin having translucency and is integrally formed. The front side of the shade 17 is bulged in a dome shape, and the back side is opened. An annular opening edge 50 that fits inside the edge 32 of the instrument main body 14 protrudes from the back side of the shade 17 and is detachably attached to the plurality of shade mounting brackets of the instrument main body 14 on the opening edge 50. A plurality of protrusions 51 are provided.

  The power supply cover 18 is provided in the central area on the back side of the instrument main body 14 and is configured as a protruding portion 53 that protrudes from the central area on the back side of the instrument main body 14. The power supply cover 18 is made of metal and is integrally formed. The power supply cover 18 includes a top plate portion 54, a side wall portion 55 provided around the top plate portion 54, and a fixing portion 56 projecting around the side wall portion 55. In the present embodiment, the power supply cover 18 is formed in a substantially rectangular shape when viewed from the back side, but may be formed in a substantially circular shape when viewed from the back side.

  A cover opening 57 through which the adapter guide 21 communicates is formed at the center of the top plate portion 54, and a plurality of locking holes 58 for attaching the adapter guide 21 around the cover opening 57 (see FIG. Reference) is formed. The locking hole 58 is long along the circumferential direction, a wide portion is formed at one end in the circumferential direction, and a narrow portion is formed at the other end. Further, a plurality of springs 59 that elastically abut against the ceiling surface and hold the lighting device 10 in the state where the lighting device 10 is installed on the ceiling ceiling body 11 on the periphery of the top plate portion 54. Is attached.

  On the side wall portion 55, corresponding to the four sides of the top plate portion 54, a planar back side light source mounting surface 60 for mounting the back side light source 22 is formed. The outer surface of the side wall portion 55, that is, the rear light source mounting surface 60 is inclined so as to face the opposite side with respect to the instrument body 14, that is, to face the ceiling surface.

  Then, the fixing portion 56 of the power supply cover 18 is screwed and fixed onto the bent portion 29 in the intermediate area of the instrument main body 14. A space for accommodating the adapter guide 21 and the power supply device 24 is formed between the power supply cover 18 and the instrument body 14 in the power supply cover 18. A bent portion 27 in the central area of the instrument body 14 protrudes from the central area in the power supply cover 18.

  Further, the back side light source 19 is disposed on the back side of the instrument body 14 around the power supply cover 18. The back side light source 19 includes a light emitting module 63. The light emitting module 63 includes a substrate 64, a plurality of light emitting elements 65 mounted on the substrate 64, and a connector 66. In the present embodiment, the light emitting module 63 is divided into four in the circumferential direction, and the four light emitting modules are arranged on the back side light source mounting surface 34 of the instrument body 14 so that the four light emitting modules 63 are annularly combined. 63 is electrically connected through a connector 66. Therefore, the rear-side light source 19 is disposed between the peripheral bent portion 28 and the intermediate bent portion 29 that protrude to the back side of the instrument body 14.

  The light emitting element 65 emits light for illumination, such as white or light bulb color, which has the same emission color (color temperature) as the front light source 15. As the light emitting element 65, a surface mount type SMD package type LED is used. The light emitting elements 65 are arranged at equal intervals in a line along the circumferential direction on the front surface of the substrate 64. The light emitting elements 65 may be arranged in a plurality of rows on concentric circles. The light emitting element 65 is not limited to an LED, and may be an organic EL or the like. In the present embodiment, the same light emitting element 65 as the light emitting element 39 of the front side light source 15 is used.

  The light output of the rear side light source 19, that is, the total luminous flux is equal to or greater than the light output of the front side light source 15, that is, the total luminous flux. When the same light emitting element 65 of the rear side light source 19 and the light emitting element 39 of the front side light source 15 are used, the number of the light emitting elements 65 of the rear side light source 19 and the number of the light emitting elements 39 of the front side light source 15 are The number is the same, or the number of light emitting elements 65 of the back side light source 19 is larger than the number of light emitting elements 39 of the front side light source 15.

  The light emitting element 39 of the front side light source 15 and the light emitting element 65 of the back side light source 19 are arranged at positions shifted from each other on the front side and the back side of the instrument body 14. That is, the light emitting element 65 of the back side light source 19 is disposed at an outer position (outer diameter position) of the instrument body 14 than the light emitting element 39 of the front side light source 15.

  The back cover 20 is made of a transparent resin and is formed in an annular shape having an opening 69 at the center.

  The back side cover 20 holds the substrate 64 of the light emitting module 63 sandwiched between the fixture body 14 and controls the light distribution from the cover unit 70 covering the entire substrate 64 and the back side light source 19. A lens unit 71 is provided as a back side light control body.

  A plurality of claws 72 that are hooked and attached to the instrument body 14 are provided on the outer peripheral part of the cover part 70, and a plurality of bosses 73 for screwing to the instrument body 14 are provided on the inner peripheral part. The claw 72 and the boss 73 are provided in the central area of each light emitting module 63.

  The lens portion 71 is formed in a semispherical cross section so as to protrude from the back side of the cover portion 70, and a recess 71a for accommodating the light emitting element 65 is formed, and is formed in an annular shape along the plurality of light emitting elements 65. ing.

  The lens portion 71 protrudes from the back side of the instrument body 14 more than at least the bent portion 28 in the peripheral area. Further, the central axis of the lens portion 71 is located on the outer side position (outer diameter position) of the instrument body 14 than the central axis of the light emitting element 65. The lens unit 71 configured in this manner controls the light distribution so that a large amount of light from the light emitting element 65 is emitted toward the outside of the instrument body 14.

  As shown in FIGS. 1 to 5, the adapter guide 21 is made of an insulating resin and is integrally formed. The adapter guide 21 includes a cylindrical tube portion 76, a power supply cover mounting portion 77 provided at the upper end that is one end of the tube portion 76, and an instrument body mounting portion 78 provided at the lower end that is the other end of the tube portion 76. It has.

  The cylindrical portion 76 is opened up and down, the upper end opening communicates with the cover opening 57 of the power supply cover 18, the lower end opening communicates with the instrument opening 31 of the instrument body 14, and the hooking sealing body 11 and the adapter 12 can be inserted. ing. An annular locking portion 79 that hooks on the claw portion 12a of the adapter 12 protrudes into the cylindrical portion 76, and a plurality of guide portions 80 that incline toward the protruding tip of the locking portion 79 above the locking portion 79. Are provided radially. In addition, a wiring portion 81 for electrically connecting the cord with the connector of the adapter 12 and the power supply device 24 protrudes from a part of the outside of the cylindrical portion 76.

  The power supply cover attaching portion 77 is attached to the power supply cover 18. A plurality of upper flange portions 82 project from the periphery of the upper end of the cylindrical portion 76 in the power supply cover attaching portion 77, and the upper flange portions 82 are latched in an approximately L shape so that the tips are directed in the outer diameter direction. A claw 83 is projected. The locking claw 83 is inserted from the wide part of the locking hole 58 of the power supply cover 18 and is hooked and attached to the power supply cover 18 by rotating to the narrow part. Further, the power supply cover attaching portion 77 is provided with a boss 84 that is screwed to the power supply cover 18 at a position where the locking claw 83 is rotated to the narrow portion of the locking hole 58.

  The instrument body attachment portion 78 is attached to the instrument body 14. The instrument body mounting portion 78 includes a fitting portion 85 that fits into the instrument opening 31 of the instrument body 14 and a flange portion that protrudes from the periphery of the lower end of the cylindrical portion 76 and contacts the back side of the instrument body 14 (lower flange) Part) 86. The flange portion 86 protrudes to the side (outer diameter direction) from the upper flange portion 82 and protrudes to a region where the instrument body 14 and the power supply substrate (104) of the power supply device 24 face each other. The flange portion 86 is formed with a contact surface 87 that can be brought into surface contact with the back side of the instrument body 14.

  The flange portion 86 has a notch 88 formed in the region of the wiring portion 81 of the cylindrical portion 76 and protrudes to a region excluding the region of the wiring portion 81 of the cylindrical portion 76. You may protrude in the circumference. The flange portion 86 is formed with a hole 89 for die cutting for forming the upper flange portion 82 when the adapter guide 21 is integrally formed. A plurality of reinforcing ribs 90 are provided radially between the cylindrical portion 76 and the flange portion 86.

  Further, as shown in FIGS. 1, 3, and 6, the back side light source 22 is attached to each back side light source mounting surface 60 of the power supply cover 18. The back side light source 22 includes a substrate 93 and a plurality of light emitting elements 94 mounted on the substrate 93.

  The board 93 is formed horizontally in the width direction, and is fixed to the back side light source mounting surface 60 of the power supply cover 18 with screws using a mounting hole 95 provided in the center.

  The light color of the light emitting element 94 may be different from or the same as the light color of the light emitting element 39 of the front side light source 15 and the light emitting element 65 of the back side light source 19. In this embodiment, the light color of the light emitting element 94 is different from the light emitting element 39 of the front side light source 15 and the light emitting element 65 of the back side light source 19, and the light emitting element 94 includes a red light emitting element 94R, a green light emitting element 94G, and A blue light emitting element 94B is provided. A plurality of red light emitting elements 94R, a plurality of blue light emitting elements 94B, and a plurality of green light emitting elements from the side away from the instrument body 14 of the substrate 93 (the side closer to the ceiling surface) to the side closer to the instrument body 14 of the substrate 93 The elements 94G are arranged one by one in order.

  The number of light-emitting elements 94 (red light-emitting elements 94R) mounted on the side of the substrate 93 remote from the instrument body 14 (the side close to the ceiling surface) is equal to the number of the light-emitting elements 94 mounted on the side of the substrate 93 close to the instrument body 14. More than the number of (green light emitting element 94G). In this case, the width of the mounting region of the light-emitting element 94 on the substrate 93 is the same, and a plurality of light-emitting elements 94 (red light-emitting elements 94R) mounted on the side of the substrate 93 far from the instrument body 14 (the side close to the ceiling surface). ) Is narrower than the pitch of the plurality of light-emitting elements 94 (green light-emitting elements 94G) mounted on the side of the substrate 93 close to the instrument body 14. That is, the number of red light emitting elements 94R is the largest and the pitch is the narrowest, the number of green light emitting elements 94G is the smallest and the pitch is the widest.

  The back side light source 22 disposed on the back side light source mounting surface 60 of the power supply cover 18 is in a state in which the substrate 93 is raised with respect to the back side of the instrument body 14, and the light emitting element mounted on the substrate 93 94 faces diagonally to the opposite side of the instrument body 14 and faces the ceiling surface. Further, a back side light source 19 is disposed so as to surround the back side light source 22.

  As shown in FIGS. 1 to 4, the back cover 23 is made of, for example, a transparent resin, and is divided into four parts so as to cover each back light source mounting surface 60 and each back light source 22 of the power supply cover 18. ing. By attaching the four back side covers 23 to the power source cover 18, the four back side covers 23 are combined in an annular shape.

  The back side cover 23 is disposed on the top plate part 54 of the power supply cover 18 and is inclined so as to approach the side wall part 55 from the top end of the top surface part 98 and projecting to the side from the side wall part 55. And a mounting surface portion 100 projecting from the side surface portion 99 toward the side wall portion 55. The back side cover 23 is attached by hooking a claw 101 provided on the attachment surface portion 100 to the side wall portion 55 of the power supply cover 18 and the top surface portion 98 is screwed to the top plate portion 54 of the power supply cover 18. .

  As shown in FIGS. 1, 3, 4, and 5, the power supply device 24 is disposed around the adapter guide 21 in the power supply cover 18 and attached to the power supply cover 18.

  The power supply device 24 includes a power supply board 104 and a power supply component 105 mounted on the power supply board 104. In the center of the power supply substrate 104, a substrate opening 106 through which the upper end side of the adapter guide 21 can be inserted is formed. The inner diameter of the substrate opening 106 is larger than the outer diameter of the upper flange portion 82 of the adapter guide 21 and smaller than the outer diameter of the flange portion 86.

  Then, the power supply device 24 inputs AC power through the hooking sealing body 11 and the adapter 12, converts the AC power into predetermined DC power, and converts the DC power to the front side light source 15, the back side light source 19, and the back side light source 22. Supply each. The power supply device 24 can individually control the dimming of each of the front side light source 15, the back side light source 19, and the back side light source 22, and the back side light source 22 further includes a red light emitting element 94R, a blue light emitting element 94B, and a green light emitting element. Each element 94G can be dimmed individually.

  Next, the operation of the illumination device 10 will be described.

  In order to install the lighting device 10, first, the adapter 12 is attached to the hanging ceiling body 11 installed on the ceiling surface.

  Subsequently, the upper end opening of the adapter guide 21 is aligned with the adapter 12, and the instrument body 14 is pushed up toward the ceiling surface. As a result, the adapter 12 is inserted through the adapter guide 21, the locking portion 79 of the adapter guide 21 gets over the claw portion 12a of the adapter 12 and is caught on the claw portion 12a, and the instrument main body 14 passes through the adapter guide 21. It is attached to the adapter 12. The cord with connector led out from the adapter 12 is electrically connected to the power supply 24.

  Subsequently, the shade 17 is attached to the instrument body 14.

  Then, when AC power is supplied to the power supply 24 through the hooking sealing body 11 and the adapter 12, the AC power is converted into DC power by the power supply 24, and the converted DC power is supplied to the front-side light source 15 and the rear-side light source 19. Supply each.

  When the DC power is supplied to the front light source 15, the plurality of light emitting elements 39 emit light. Light distribution of the light emitting element 39 is controlled by the lens unit 45 in the direction of the inner and outer diameters of the instrument main body 14, passes through the shade 17, and is irradiated to the lower space of the lighting device 10.

  When the direct-current power is supplied to the back side light source 19, the plurality of light emitting elements 65 emit light. Light distribution of the light emitting element 65 is controlled by the lens unit 45 toward the outer diameter direction of the fixture body 14, and is irradiated on the side space and the ceiling surface of the lighting device 10.

  Therefore, the entire space in which the illumination device 10 is installed is illuminated with light from the front light source 15 and the back light source 19 of the illumination device 10. In addition, since the back side light source 19 has a light output that is equal to or higher than the light output of the front side light source 15, the ceiling side becomes bright, and the brightness of the entire space can be improved.

  Further, the power supply device 24 supplies direct current power to the rear side light source 22. When the direct-current power is supplied to the rear light source 22, the plurality of light emitting elements 94 emit light. The light from the light emitting element 94 passes through the back side cover 23 and is irradiated on the ceiling surface around the lighting device 10. Then, by controlling the ratio of the light output of the red light emitting element 94R, blue light emitting element 94B, and green light emitting element 94G of the rear light source 22 by the power supply device 24, for example, the ceiling surface is irradiated with light having a color temperature according to the scene And a color rendering effect can be obtained.

  As described above, in the illumination device 10 of the present embodiment, the back side light source 19 has a light output equal to or higher than the light output of the front side light source 15, so that the brightness of the entire space can be improved.

  Further, since the light emitting element 39 of the front light source 15 and the light emitting element 65 of the rear light source 19 are disposed at positions shifted from each other on the front side and the back side of the instrument body 14, the light emitting elements 39, 65 are disposed. Can reduce the influence of the heat generated by each other.

  In addition, since the light emitting element 65 of the rear light source 19 is disposed outside the fixture body 14 relative to the light emitting element 39 of the front light source 15, the light of the light emitting element 65 is transmitted to the side space of the illumination device 10. Irradiation can be performed efficiently.

  Furthermore, the instrument main body 14 has a plurality of bent portions 27, 28, and 29 bent so as to protrude from the instrument main body 14, and the instrument main body 14 can be reinforced. In addition, since all the bent portions 27, 28, and 29 protrude to the back side of the instrument body 14, the light from the front-side light source 15 is not blocked by the bent portions 27, 28, and 29, and the front-side light source The shade 17 is uniformly illuminated by the light from 15, and the occurrence of uneven brightness in the shade 17 can be reduced.

  In addition, the bent portion 27 in the central area of the instrument body 14 protrudes into the central area in the power supply cover 18. The area around the power cover 18 is provided with a rear-side light source 22, and the height of the internal space is required in consideration of its heat dissipation, but the central area of the power cover 18 can accommodate the power supply 24. Therefore, it is possible to improve the strength of the instrument body 14 by projecting the bent portion 27 in the center area of the instrument body 14 to the center area in the power source cover 18.

  Further, since the lens unit 71 that controls the light distribution of the light from the back side light source 19 protrudes from the back side of the instrument body 14 at least from the bent part 28 in the peripheral region, the bent part is formed on the back side of the instrument body 14. Even if 28 protrudes, the influence thereof is small, and the light from the back-side light source 19 can be applied to the side space of the lighting device 10.

  In addition, since the lens unit 71 controls the light distribution of the back-side light source 19 toward the outside of the instrument body 14, the lens unit 71 can efficiently irradiate the side space of the illumination device 10 with the light of the light-emitting element 65. .

  Further, the back side light source 22 has the number of light emitting elements 94 mounted on the side of the substrate 93 away from the instrument main body 14, that is, the side close to the ceiling surface, and the number of light emitting elements 94 mounted on the side of the substrate 93 close to the instrument main body 14. Therefore, the pitch of the light emitting elements 94 on the side close to the ceiling surface is small, and the occurrence of uneven illumination on the ceiling surface due to the light of the light emitting elements 94 on the side close to the ceiling surface can be reduced.

  Further, a back side light source 19 is provided so as to surround the back side light source 22, and the light colors of the back side light source 22 and the back side light source 19 are different, so that color rendering properties and brightness on the ceiling side can be ensured. .

  Further, in the case of the large lighting device 10, the diameter of the fixture body 14 is large, and the weight of the shade 17 etc. added to the fixture body 14 is also large, so that the fixture body 14 is likely to be distorted, and the power supply device 24 is accommodated. The distance between the inner surface of the power supply cover 18 and the upper surface of the instrument body 14 may change. The adapter guide 21 of the present embodiment has the power source cover attaching portion 77 attached to the power source cover 18 at one end of the cylindrical portion 76 and the flange portion 86 that supports the instrument main body 14 at the other end of the cylindrical portion 76. Distortion is suppressed in the main body 14, and the distance between the power supply cover 18 and the instrument main body 14 can be kept constant.

  Further, since the flange portion 86 of the adapter guide 21 protrudes to a region where the instrument main body 14 and the power supply substrate 104 face each other, distortion of the instrument main body 14 can be easily suppressed.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

10 Lighting equipment
14 Instrument body
15 Front light source
19 Back side light source as second back side light source
22 Rear light source
53 Protrusion
93 substrate
94 Light emitting element

Claims (2)

An instrument body;
A front-side light source provided on the front side of the instrument body;
A protrusion protruding from the back side of the instrument body;
A substrate, and a plurality of light emitting elements mounted on the substrate, the substrate being provided on an outer surface of the projecting portion with the light emitting element facing a side of the instrument body, A back side light source in which the number of the light emitting elements mounted on the far side is larger than the number of the light emitting elements mounted on the side of the substrate close to the instrument body;
An illumination device comprising: A second back side light source provided on the back side of the instrument body so as to surround the protrusion and the back side light source;
The lighting device according to claim 1, wherein the back-side light source and the second back-side light source have different light colors.

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