JP2015210985A - Light source for lighting and lighting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a light source for lighting in which members are fixed by a simple structure.SOLUTION: A light source 10 for lighting includes: a light emitting module 17 which emits light; a translucent panel 11 which transmits the light emitted by the light emitting module 17; a housing 12 which stores the light emitting module 17; a support member 13 supporting the light emitting module 17; and a fixing member 21 which collectively fixes the translucent panel 11, the housing 12, and the support member 13.

Description

  The present invention relates to an illumination light source and an illumination device using the same, and more particularly to an illumination light source used in an illumination device such as a downlight or a spotlight.

  Solid-state light-emitting elements such as LEDs are expected as light sources for various products because of their small size, high efficiency, and long life. Among them, in recent years, research and development of illumination light sources using LEDs have been promoted.

  For example, a flat thin LED unit (LED lamp) has been proposed as an illumination light source used in an illumination device such as a downlight or a spotlight (see, for example, Patent Document 1).

JP 2013-229261 A

  There is room for examination about the fixing method of the member which comprises the above light sources for illumination.

  The present invention provides an illumination light source in which members are fixed with a simple configuration.

  An illumination light source according to one embodiment of the present invention supports a light emitting device that emits light, a translucent panel that transmits light emitted from the light emitting device, a housing that houses the light emitting device, and the light emitting device. A support member, the translucent panel, the housing, and a fixing member that fixes the support member collectively are provided.

  The fixing member may be configured to fix the translucent panel, the housing, and the support member together in an overlapping portion where the translucent panel, the housing, and the support member overlap. Good.

  In addition, a through hole that penetrates the translucent panel, the casing, and the support member may be provided in the overlapping portion, and the fixing member may be inserted through the through hole.

  Moreover, in the said overlap part, the said translucent panel, the said housing | casing, and the said support member may overlap in this order.

  The fixing member may be exposed to the outside of the illumination light source from at least one of the translucent panel and the support member.

  The housing may be provided with at least one of a positioning structure for the translucent panel and a positioning structure for the support member.

  Furthermore, you may provide the sealing member pinched | interposed into at least one between the said translucent panel and the said housing | casing and between the said supporting member and the said housing | casing.

  An illumination device according to an aspect of the present invention includes the illumination light source according to any one of the above aspects.

  According to one embodiment of the present invention, an illumination light source in which members are fixed with a simple configuration is realized.

1 is an external perspective view of the illumination light source according to Embodiment 1. FIG. FIG. 2 is a partially exploded perspective view of the illumination light source according to the first embodiment. FIG. 3 is a cross-sectional view of the illumination light source shown in FIG. 1 cut along a YZ plane. 4 is a cross-sectional view of the illumination light source shown in FIG. 1 cut along the Z-X plane. FIG. 5 is an external perspective view of an illumination light source according to the first modification. FIG. 6 is an external perspective view of an illumination light source according to the second modification. FIG. 7 is a partially exploded perspective view of the illumination light source according to the second modification. FIG. 8 is a perspective view of the illumination device according to Embodiment 2. FIG. FIG. 9 is a perspective view of another illumination device according to Embodiment 2. FIG.

  Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that each of the embodiments described below shows a comprehensive or specific example. The numerical values, shapes, materials, constituent elements, arrangement positions and connection forms of the constituent elements, steps, order of steps, and the like shown in the following embodiments are merely examples, and are not intended to limit the present invention. In addition, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims indicating the highest concept are described as optional constituent elements.

  Each figure is a schematic diagram and is not necessarily illustrated strictly. Moreover, in each figure, the same code | symbol is attached | subjected to the substantially same structure, and the overlapping description may be abbreviate | omitted or simplified.

(Embodiment 1)
[Constitution]
Hereinafter, the configuration of the illumination light source according to Embodiment 1 will be described with reference to FIGS. 1 is an external perspective view of the illumination light source according to Embodiment 1. FIG. FIG. 2 is a partially exploded perspective view of the illumination light source according to the first embodiment. FIG. 3 is a cross-sectional view of the illumination light source shown in FIG. 1 cut along a YZ plane. 4 is a cross-sectional view of the illumination light source shown in FIG. 1 cut along the Z-X plane. Note that the Z-axis direction is, in other words, the optical axis direction, and in the following first embodiment, the Z-axis + side may be described as the light emission side.

  The illumination light source 10 shown in FIGS. 1 to 4 is an illumination light source used in an illumination device such as a downlight or a spotlight. The illumination light source 10 includes a translucent panel 11, a housing 12, a support member 13, a reflection member 14, a seal member 15, a substrate 16, a light emitting module 17 (light emitting device), and a cable seal member 18. A sealing member 19, a heat conductive sheet 20, and a screw 21.

  The translucent panel 11 is an optical member made of a translucent material to extract light emitted from the light emitting module 17 to the outside. Specifically, the translucent panel 11 is a cap-shaped (lid-shaped) optical member, and a planar view shape (a shape viewed from the Z axis + side) is a circle partially cut away from the outer peripheral side. Shape (substantially circular shape).

  The translucent panel 11 may have specific optical characteristics such as functioning as a Fresnel lens. Further, the translucent panel 11 may be provided with dimples for suppressing unevenness of light emitted from the translucent panel 11. In this case, the dimples are provided, for example, on the light emission side surface (light emission surface) of the translucent panel 11.

  Three fixing portions 11 a having screw holes 11 b are provided on the peripheral portion of the light emitting surface of the translucent panel 11. A screw 21 is inserted into the screw hole 11b. Further, three groove portions 11 d are provided on the side surface (side portion) of the translucent panel 11. The groove part 11d forms a groove extending in the Z-axis direction together with a groove part 12f described later. The formed groove is a groove for connecting the illumination light source 10 to the illumination device by a connection screw (not shown). Further, on the side surface of the translucent panel 11, a positioning projection 11 c that protrudes in the Z-axis direction along the groove 11 d is provided.

  The translucent panel 11 is arrange | positioned at the light-projection side of the housing | casing 12 so that the output port of the reflection member 14 may be block | closed. Moreover, the translucent panel 11 is arrange | positioned in the direction in which the light emitting module 17 emits light, and the translucent panel 11 and the light emission part 17b oppose. The translucent panel 11 is formed of a resin material such as acrylic (PMMA) or polycarbonate (PC).

  The translucent panel 11 may have a transparent structure without light diffusibility or a diffusion structure with light diffusibility. For example, a translucent panel having a light diffusing function by forming a milky white light diffusing film by applying a resin or white pigment containing a light diffusing material such as silica or calcium carbonate to the inner surface of the translucent panel 11 11 can be configured. Further, by forming minute irregularities on the translucent panel 11, the translucent panel 11 having a light diffusion function can be configured.

  The housing 12 is a substantially cylindrical member that houses the light emitting module 17 and the substrate 16. The housing 12 has a first opening formed on the light emitting side and a second opening formed on the side opposite to the light emitting side. The exit portion of the reflecting member 14 is disposed in the first opening, and the entrance portion of the reflecting member 14 is disposed in the second opening.

  Three fixing portions 12 a (bosses) having screw holes 12 b are provided on the inner surface of the housing 12. A screw 21 is inserted into the screw hole 12b.

  The outer surface of the housing 12 is provided with three groove portions 12f that form grooves together with the above-described groove portion 11d. A positioning portion 12g is provided at the end of the groove portion 12f on the Z axis + side, and the projection 11c is disposed on the positioning portion 12g, whereby the translucent panel 11 and the housing 12 are positioned. That is, the positioning part 12g is a positioning structure of the translucent panel 11 with respect to the housing 12 provided in the housing 12. On the other hand, a connection hole 12d is provided at the end on the Z-axis side of the groove 12f. A connection screw for connecting the illumination light source 10 to the illumination device is inserted into the connection hole 12d.

  At the bottom of the housing 12 (a flat portion forming the second opening of the housing 12), an annular convex portion 12e protruding toward the Z-axis side is provided. The plan view shape of the annular convex portion 12e is an annular shape corresponding to the annular groove 13d, and presses the seal member 19 disposed in the annular groove 13d.

  Three positioning notches 12h into which the fixing portion 13a of the support member 13 is fitted are provided at the end of the side of the housing 12 on the Z-axis side. The notch 12 h is a positioning structure of the support member 13 with respect to the housing 12 provided in the housing 12. The end is also provided with a notch 12i for passing a power cable (not shown) that electrically connects the substrate 16 and the external power supply unit.

  The casing 12 is made of an insulating resin material such as PBT (polybutylene terephthalate). The housing 12 may be made of metal instead of resin.

  Note that the outer shape of each of the reflection member 14, the seal member 15, and the substrate 16 described below in plan view is a shape that is cut out according to the fixing portion 12a and the groove portion 12f.

  The support member 13 is a substantially circular plate-like member that supports the light emitting module 17 from the rear (light emitting portion 17b) when the light emitting module 17 emits light forward. More specifically, the support member 13 supports the light emitting module 17 via the heat conductive sheet 20. The support member 13 also functions as a heat sink that radiates heat generated by the light emitting module 17.

  Three fixing portions 13 a having screw holes 13 b are provided on the peripheral portion of the main surface on the Z axis + side of the support member 13. The screw hole 13 b is threaded on the inner peripheral surface corresponding to the screw 21. The fixed portion 13a is a convex portion that protrudes further to the Z axis + side than the main surface on the Z axis + side, and is fitted into the notch 12h. Further, an annular groove 13d in which the seal member 19 is disposed and a screw hole for fixing the light emitting module 17 to the support member 13 are provided on the main surface on the Z axis + side of the support member 13.

  Three connection holes 13 c are provided in the peripheral portion of the support member 13. The connection hole 13c forms a through hole through which a connection screw is inserted by communicating with the connection hole 12d. Further, a notch 13e for passing a power cable for electrically connecting the substrate 16 and an external power source is provided at the end of the support member 13.

  Specifically, the support member 13 is made of a metal material such as aluminum or a resin material having high thermal conductivity.

  The reflection member 14 is a member having a reflection function, and includes an incident port that is an opening through which light from the light emitting module 17 is incident and an output port that is an opening through which light incident from the incident port is emitted. The reflection member 14 has a truncated cone shape that is configured so that the inner diameter gradually increases from the incident port toward the output port. Specifically, the reflecting member 14 has a trumpet shape (funnel shape).

  The entrance portion of the reflecting member 14 is configured to surround the light emitting portion 17 b of the light emitting module 17. In addition, the opening area of the emission port is substantially the same as the area of the light emission surface (Z-axis + side surface) of the translucent panel 11.

  The inner surface of the reflecting member 14 is a reflecting surface that reflects light emitted from the light emitting module 17. The reflecting surface is configured to reflect light incident from the incident port and output from the output port. That is, the light emitted from the light emitting module 17 by the reflecting member 14 is guided to the translucent panel 11.

  The reflecting member 14 is attached to the housing 12 by a locking claw 14 a provided on the incident port side locking around the second opening in the bottom of the housing 12.

  The reflecting member 14 can be made of, for example, a hard white resin material having insulating properties. In order to improve the appearance of the reflecting surface or control the light distribution of the illumination light source 10, the inner surface of the resin-made reflecting plate 550 is a metal vapor deposition film (metal reflecting film) made of a metal material such as silver or aluminum. ). Moreover, the reflecting member 14 may be formed using a metal material having a higher reflectance than a resin material such as aluminum.

  The seal member 15 is a deformed ring-shaped resin member (rubber, elastomer, etc.) having elasticity. The seal member 15 is sandwiched between the translucent panel 11 and the housing 12. Specifically, the sealing member 15 is configured such that the screw 21 is tightened to fix the translucent panel 11 and the housing 12, thereby allowing the end surface of the translucent panel 11 and the first opening side of the housing 12 to be fixed. It is sandwiched between the end faces of That is, the sealing member 15 seals between the end surface of the translucent panel 11 and the end surface on the first opening side of the housing 12.

  Further, the seal member 15 surrounds the reflection member 14 from the outside, and the inner peripheral surface abuts on the outer surface of the reflection member 14. The reflection member 14 functions as a guide (positioning structure) for disposing the seal member 15 between the end surface of the translucent panel 11 and the end surface on the first opening side of the housing 12.

  The board | substrate 16 is an annular | circular shaped (donut shape) board | substrate with a part notched from the outer peripheral side. The substrate 16 is fixed inside the housing 12 by being sandwiched between the housing 12 and the reflecting member 14. The substrate 16 is disposed inside the housing 12 and outside the reflecting member 14.

  The substrate 16 is a so-called printed substrate on which metal wiring is patterned. As the substrate 16, a ceramic substrate, a resin substrate, a metal base substrate, or the like is used.

  The substrate 16 is provided with a drive circuit (not shown) for causing the light emitting module 17 (light emitting unit 17b) to emit light. Note that the power supplied to the drive circuit (substrate 16) may be DC power or AC power. When AC power is supplied to the drive circuit, the drive circuit includes a power supply circuit that converts AC power supplied from an external power source into DC power.

  Examples of circuit elements that constitute the drive circuit include capacitive elements such as electrolytic capacitors and ceramic capacitors, resistance elements, coil elements, choke coils (choke transformers), semiconductor elements such as noise filters, diodes, and integrated circuit elements. .

  The light emitting module 17 emits light of a predetermined color (wavelength) such as white. The light emitting module 17 is screwed to the support member 13 and emits light by electric power supplied from a drive circuit mounted on the substrate 16. The light emitted from the light emitting module 17 passes through the translucent panel 11 and is emitted to the outside of the illumination light source. The drive circuit (substrate 16) and the light emitting module 17 are electrically connected by a cable having a connector at the end.

  The light emitting module 17 includes a substrate 17a, a light emitting unit 17b, and an attachment member 17c. The light emitting module 17 has a COB (Chip On Board) structure in which LEDs (light emitting elements) are directly mounted on the substrate 17a. Although not shown, a predetermined shape of metal wiring for electrically connecting the LEDs and terminals for receiving power for causing the LEDs to emit light are provided on the substrate 17a.

  As the substrate 17a, a ceramic substrate, a resin substrate, or a metal base substrate can be used. Although the planar view of the board | substrate 17a is rectangular shape, polygonal shapes, such as a hexagon and an octagon, or circular shape may be sufficient. The main surface on the Z-axis side of the substrate 17 a is supported by the support member 13.

  The light emitting unit 17b is formed by sealing a plurality of LEDs with a sealing member. The light emitting unit 17b is provided on the main surface on the Z axis + side of the substrate 17a. The attachment member 17 c is a resin connection member for connecting the light-emitting module 17 and the end of the reflection member 14 on the incident port side.

  The cable seal member 18 is an elastic resin member (rubber, elastomer, etc.). The cable seal member 18 is inserted with a power cable for the substrate 16 (drive circuit) to receive power from an external power source, and seals the inside of the case. Specifically, the power cable is inserted into the cable seal member 18 through the gap formed by the notches 12 i and 13 e and connected to the substrate 16.

  The seal member 19 is an annular resin member (so-called O-ring) having elasticity. The seal member 19 is sandwiched between the support member 13 and the housing 12. Specifically, the seal member 19 is disposed in an annular groove 13d provided in the support member 13, and the housing 12 and the support member 13 are fixed, so that the annular protrusion 12e of the housing 12 and the ring The space between the grooves 13d is sealed.

  The heat conductive sheet 20 is a sheet having a rectangular shape in plan view, and is a sheet for releasing heat generated in the light emitting module 17 to the support member 13. Specifically, the heat conductive sheet 20 is a resin sheet having a high thermal conductivity, for example, a silicon sheet or an acrylic sheet.

[Feature structure]
A characteristic configuration of the illumination light source 10 will be described. The illumination light source 10 is characterized in that three members constituting the outer casing, that is, the translucent panel 11, the casing 12, and the support member 13 are collectively fixed by screws 21.

  More specifically, the translucent panel 11, the housing 12, and the support member 13 are formed in an overlapping portion 22 in which the fixing portion 11a, the fixing portion 12a, and the fixing portion 13a overlap in the Z-axis direction. The screws 21 are inserted into the through holes and fixed together.

  Thereby, the light source 10 for illumination with which members were fixed by simple structure is implement | achieved. Moreover, in such a structure, since there are few fixing structures and fixing members, there exists an advantage which is a structure with easy size reduction. For the same reason, the number of parts and assembly man-hours (manufacturing man-hours) can be reduced, and there is an advantage that cost reduction can be achieved.

  In the illumination light source 10, the screw head of the screw 21 (a part of the screw 21) is exposed to the outside from the translucent panel 11, but the screw head of the screw 21 is exposed to the outside from the support member 13. You may do it. That is, the screw 21 only needs to be exposed to the outside of the illumination light source 10 from at least one of the translucent panel 11 and the support member 13.

  By the way, the said through-hole is formed when the screw hole 11b, the screw hole 12b, and the screw hole 13b connect. Therefore, in the manufacture of the illumination light source 10, in order to increase productivity, in order to form a through hole, the alignment between the translucent panel 11 and the housing 12 and the housing 12 and the support member 13 are performed. Positioning is important.

  Therefore, as described above, the illumination light source 10 includes the positioning structure (projection 11c and positioning portion 12g) of the translucent panel 11, and the positioning structure (notch 12h and fixing portion 13a) of the support member 13.

  Thereby, in manufacture of the light source 10 for illumination, the position of members can be match | combined easily, without using a jig etc. Since the through hole can be easily formed, the illumination light source 10 with high productivity is realized. In addition, in the light source 10 for illumination, if at least one of the positioning structure of the translucent panel 11 and the positioning structure of the support member 13 is provided, the effect which improves productivity will be acquired.

  In addition, when the members constituting the outer casing of the illumination light source 10 are fixed together by a fixing member such as the screw 21, a waterproof mechanism (dust-proof mechanism) can be easily realized. is there.

  As described above, when the sealing member 15 is sandwiched between the translucent panel 11 and the housing 12, the waterproofness (dustproofness) between the translucent panel 11 and the housing 12 is enhanced. Similarly, when the seal member 19 is sandwiched between the support member 13 and the housing 12, the waterproof property between the support member 13 and the housing 12 is enhanced. Similarly, the waterproofness between the cable seal member 18 and the housing 12 is enhanced by providing the cable seal member 18.

  In addition, the sealing member does not need to be provided over the entire circumference between the members like the light source 10 for illumination, and may be provided only in a place where it is desired to improve waterproofness.

[Modification 1]
The screw 21 described in the first embodiment is an example of a fixing member, and other fixing members may be used for fixing the translucent panel 11, the housing 12, and the support member 13. FIG. 5 is an external perspective view of an illumination light source using a fixing member other than a screw.

  In the illumination light source 10 a shown in FIG. 5, the translucent panel 11, the housing 12, and the support member 13 are collectively fixed by a plate-shaped metal fitting 120. The plate-like metal fitting 120 is a long plate-like member extending in the Z-axis direction, and each of the end portion 120a and the end portion 120b is bent into a U-shape (bracket shape). Further, the plate-shaped metal fitting 120 has elasticity and is urged in a direction sandwiching the translucent panel 11, the housing 12, and the support member 13.

  Therefore, if the end 120a is inserted into an opening (not shown) provided in the translucent panel 11 and the end 120b is inserted into an opening (not shown) provided in the support member 13, the light transmission The panel 11, the casing 12, and the support member 13 are fixed together by a plate-shaped metal fitting 120. Thereby, the light source 10 for illumination with which members were fixed by simple structure is implement | achieved.

  In addition, the translucent panel 11, the housing | casing 12, and the supporting member 13 may be fixed with the combination of the above-mentioned screw 21 and a nut, and may be fixed with a rivet.

[Modification 2]
The configuration of the illumination light source 10 described in the first embodiment is an example. As long as the translucent panel 11, the housing 12, and the support member 13 are fixed together by a fixing member, the arrangement of the other members and the fixing method of the members may be any form. Hereinafter, the illumination light source according to Modification 2 will be described. FIG. 6 is an external perspective view of an illumination light source according to the second modification. FIG. 7 is a partially exploded perspective view of the illumination light source according to the second modification.

  In the following description of the second modification, a description will be given mainly of a configuration that is significantly different from the illumination light source 10, and description of substantially the same configuration or detailed configuration as the illumination light source 10 will be omitted.

  The illumination light source 50 shown in FIGS. 6 and 7 is an illumination light source used in an illumination device such as a downlight or a spotlight, like the illumination light source 10. The illumination light source 50 includes a translucent panel 51, a casing 52, a support member 53, a reflection member 54, a seal member 55, a substrate 56, a light emitting module 57, a cable seal member 58, and a seal member. 59, a heat conductive sheet 60, and a screw 61.

  The illumination light source 50 is significantly different from the illumination light source 10 in that the light emitting module 57 is disposed on the light emitting side in the housing 52. Specifically, the light emitting module 57 is supported by the support 53 b of the support member 53 via the heat conductive sheet 60, whereby the light emitting module 57 is disposed on the light emitting side in the housing 52.

  Further, the translucent panel 51 has a side surface (side portion) longer than the translucent panel 11 in the Z-axis direction, and the reflecting member 54 is mainly accommodated in the translucent panel 51.

  The shape of the reflecting member 54 is a cylindrical shape, and the inner diameter (the diameter defined by the reflecting surface) of the reflecting member 54 becomes larger as it approaches the emission port.

  Also in the light source 50 for illumination, the translucent panel 51, the casing 52, and the support member 53 are provided in the overlapping portion 62 in which the fixing portion 51a, the fixing portion 52a, and the fixing portion 53a overlap in the Z-axis direction. The screws 61 are inserted through the formed through holes and fixed together. That is, the illumination light source 50 in which the members are simply fixed is realized.

(Embodiment 2)
The present invention may be realized as an illumination device including the illumination light source described in the first embodiment. Hereinafter, an illumination device including the illumination light source described in Embodiment 1 will be described. FIG. 8 is a perspective view of the illumination device according to Embodiment 2. FIG.

  As shown in FIG. 8, the illumination device 100 is a so-called downlight, and is an embedded illumination device that illuminates light downward (such as a hallway or a wall) by being embedded in a ceiling of a house, for example. is there. The illumination light source according to Embodiment 1 is accommodated in the fixture main body 110 of the illumination device 100. At this time, the Z axis + side in the first embodiment is the main light emitting direction of the illumination device 100. Note that the connection hole and the connection screw described in the first embodiment are used to attach the illumination light source to the fixture body 110.

  The instrument body 110 is a mounting base to which an illumination light source is attached and a heat sink that dissipates heat generated by the illumination light source. The instrument main body 110 is made of, for example, aluminum die casting. A plurality of heat radiating fins are provided on the upper portion (ceiling side portion) of the instrument main body 110.

  The terminal block 160 is attached to a mounting plate 170 provided separately from the instrument main body 110. The attachment plate 170 is a rectangular plate member made of a metal material, and the terminal block 160 is attached to the lower surface. The attachment plate 170 is connected to the top plate 180 attached to the upper part of the instrument main body 110.

  As described above, the illumination light source according to Embodiment 1 can be applied to downlights, but may be applied to other illumination devices. FIG. 9 is a perspective view of another illumination device according to Embodiment 2. FIG.

  As illustrated in FIG. 9, the lighting device 200 is a so-called spotlight, and includes a cover 210, a lamp 220, and an arm 230.

  Inside the lamp 220, the illumination light source according to Embodiment 1 is housed, and light emitted from the illumination light source passes through the cover 210 and is emitted to the outside of the illumination device 200. The lamp 220 and the arm 230 are fixed by a fixing member such as a screw.

  Thus, the illumination light source according to Embodiment 1 can be applied to a spotlight. Note that the illumination light source according to Embodiment 1 can also be applied to illumination devices other than downlights and spotlights. When the illumination light source includes a seal member, the illumination light source is particularly useful as a light source for outdoor illumination such as illumination attached to a low pole and underground illumination.

(Other embodiments)
Although the illumination light source and the illumination device according to the embodiment have been described above, the present invention is not limited to such an embodiment.

  In the above embodiment, the light-transmitting panel, the housing, and the support member are fixed together by the fixing member at the overlapping portions in the optical axis direction (Z-axis direction). However, in the translucent panel, the housing, and the support member, overlapping portions in the direction intersecting the optical axis direction may be fixed together by the fixing member. For example, the three members overlap in the radial direction of the housing, and a portion where the three members overlap may be fixed by a fixing member.

  Moreover, in the said embodiment, although the translucent panel, the housing | casing, and the supporting member overlapped in this order in the overlap part, you may overlap in order other than this. Moreover, these three members do not necessarily have to overlap, and the three members may be fixed together by a fixing member.

  Moreover, in the said embodiment, although the light emitting module was a light emitting module of the COB structure, it may be a SMD (Surface Mount Device) type.

  In the above embodiment, the light emitting module uses an LED as a light emitting element. However, a semiconductor light emitting element such as a semiconductor laser, or a solid light emitting element such as an organic EL (Electro Luminescence) or an inorganic EL may be used. Good.

  As described above, the illumination light source and the illumination device according to one or more aspects have been described based on the embodiment. However, the present invention is not limited to this embodiment. Unless it deviates from the gist of the present invention, various modifications conceived by those skilled in the art have been made in this embodiment, and forms constructed by combining components in different embodiments are also within the scope of one or more aspects. May be included.

10, 10a, 50 Illumination light source 11, 51 Translucent panel 12, 52 Housing 12g Positioning part (positioning structure)
12h Notch (positioning structure)
13, 53 Support member 15, 19, 55, 59 Seal member 17, 57 Light emitting module (light emitting device)
21, 61 Screw (fixing member)
22, 62 Overlapping part 100, 200 Illumination device

Claims (8)

A light emitting device that emits light;
A translucent panel through which light emitted by the light emitting device is transmitted;
A housing for housing the light emitting device;
A support member for supporting the light emitting device;
An illumination light source comprising: the translucent panel, the housing, and a fixing member that fixes the support member together. The fixing member fixes the translucent panel, the casing, and the support member together in an overlapping portion where the translucent panel, the casing, and the support member overlap each other. The light source for illumination as described. The overlapping portion is provided with a through hole that penetrates the translucent panel, the housing, and the support member,
The illumination light source according to claim 2, wherein the fixing member is inserted into the through hole. The light source for illumination according to claim 2 or 3, wherein the translucent panel, the casing, and the support member overlap in this order in the overlapping portion. The illumination light source according to claim 1, wherein the fixing member is exposed to the outside of the illumination light source from at least one of the translucent panel and the support member. The illumination light source according to claim 1, wherein at least one of a positioning structure for the translucent panel and a positioning structure for the support member is provided in the housing. The seal member that is further sandwiched between at least one of the translucent panel and the casing and between the support member and the casing. Light source for illumination. An illumination device comprising the illumination light source according to any one of claims 1 to 7.

Images