JP2012022850A - Lighting system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting system with thinning realized while preventing infiltration of insects.SOLUTION: A mounting part 71 bent nearly in a U-shape is formed at an outer periphery edge of a translucent cover 7. With this, a space is formed provided with lighting components such as an LED module 2 and a circuit board 5. Further, an edge 14 with its cross-section shape bent in an S-shape is formed at an outer periphery edge of a chassis 1. A joint part 711 and a joint part 141 are formed inside the space above where the chassis 1 and the translucent cover 7 are jointed with each other with the edge 14 of the chassis 1 inserted into the mounting part 71. Further, a ring-shaped elastic material 10 as a sealing member for sealing between the joint part 711 and the joint part 141 is provided between the edge 14 and the mounting part 71.

Description

  The present invention relates to a lighting device, and more particularly to a thin lighting device.

  2. Description of the Related Art Conventionally, an illumination device for indoor use has a light source such as an incandescent bulb and a fluorescent lamp. On the other hand, in recent years, with the increase in the brightness of light emitting diodes (LEDs), instead of light sources such as incandescent bulbs and fluorescent lamps, LEDs having characteristics such as low power consumption and long life have been used as light sources for lighting devices. It is becoming.

  In particular, in residential lighting devices, insects that like light penetrate into the interior of the lighting fixture body and, for example, move around in the translucent cover or become dead bodies, which not only detracts from aesthetics but also cleans. There is a problem that it takes time and effort. Therefore, a folded surface that is folded downward is formed on the outer peripheral edge of the chassis, a standing surface that rises upward is formed on the opening circumferential edge of the cover, and the folded surface and elastic deformation are in contact with the opening circumferential edge and the standing surface. The lighting fixture which has the insect-proof structure which provided the intrusion prevention member which contacts in the state which carried out is disclosed (refer patent document 1).

JP 2007-109436 A

  However, in the illumination device of Patent Document 1, the peripheral edge of the cover is bent in a substantially U shape, and the opening peripheral edge on the end side of the bent peripheral edge is further bent twice at an angle of approximately 90 degrees to extend the standing surface. It has a structure that forms a mounting surface. That is, the cover folded in a substantially U shape is further folded to form a space for sealing the intrusion prevention member outside the peripheral portion bent in a substantially U shape. However, as long as the insect-proof structure is adopted, there is a problem that it cannot be thinned. On the other hand, it has become possible to realize a thin illuminating device by adopting an LED as a light source instead of a fluorescent lamp or an incandescent bulb, and a thin illuminating device that adopts an insect-proof structure. Was desired.

  This invention is made | formed in view of such a situation, and it aims at providing the illuminating device which can implement | achieve thinning, preventing an insect invasion.

  An illuminating device according to the present invention is an illuminating device which is formed by bending one of a chassis and a translucent cover, and an illumination component such as a light source is provided in a space formed by attaching the other to the one. A joining portion between the chassis and the translucent cover is formed in the space, and a sealing member for sealing between the joining portions is provided.

  In this invention, the junction part of a chassis and a translucent cover is formed in the said space, and the sealing member which seals between junction parts is provided. Thereby, the height dimension of the chassis or the translucent cover is not increased, and the thickness can be reduced. Moreover, since the clearance gap between a chassis and a translucent cover is sealed by providing the sealing member which seals between junction parts, it can prevent that an insect penetrate | invades.

  The illuminating device according to the present invention is characterized in that the joint is formed by interpolating the bent one of the other.

  In the present invention, since only one of the chassis or the light-transmitting cover is bent and formed, the height of the chassis or the light-transmitting cover is not increased, and a reduction in thickness can be realized.

  The illuminating device which concerns on this invention is equipped with the press member which presses any one junction part of the said chassis and the said translucent cover to the other side.

  In the present invention, a sealing member that securely attaches the chassis and the cover and seals between the joints by providing a pressing member that presses one of the joints of the chassis and the translucent cover to the other side. The degree of adhesion of the stop member can be improved.

  An illumination device according to the present invention is an illumination device including a chassis, a translucent cover attached to the chassis, and illumination components such as a light source housed in a space formed by the chassis and the translucent cover. The chassis and the translucent cover are joined at an edge, and a sealing member is provided to cover the joined edges and seal between the chassis and the translucent cover. Features.

  In the present invention, the chassis and the translucent cover are joined at the edges, and the sealing member is provided so as to cover the joined edges and seal between the chassis and the translucent cover. The chassis and the translucent cover are joined at the edges, and each joined edge is covered with a sealing member. Both the chassis and the translucent cover only have their edges joined, and do not have a bent structure, so that the thickness can be reduced. Further, since the sealing member is provided so as to cover the joined edges, insects can be prevented from entering.

  The illumination device according to the present invention is characterized in that the illumination component is an LED as a light source.

  In the present invention, the LED can be used as the light source, so that the thickness can be further reduced. Further, since the light source does not need to be replaced, the space between the chassis and the cover can be sealed.

  According to the present invention, it is possible to reduce the thickness of the lighting device while adopting the insect-proof structure.

It is an external view which shows an example of a structure of the illuminating device of this Embodiment. It is a disassembled perspective view which shows an example of a structure of the illuminating device of this Embodiment. It is sectional drawing which shows an example of the principal part of a structure of the illuminating device of this Embodiment. It is a top view which shows the example of arrangement | positioning of the principal part near the circuit board of the illuminating device of this Embodiment. It is a top view which shows an example of a structure of the LED module of this Embodiment. It is a side view which shows the example of arrangement | positioning of the principal part of the lens vicinity of the illuminating device of this Embodiment. It is an external view of the lens of this Embodiment. It is a side view which shows the example of arrangement | positioning of the principal part of the illuminance sensor vicinity of the illuminating device of this Embodiment. It is a schematic diagram which shows the example of installation of the illuminating device of this Embodiment. It is sectional drawing which shows an example of the principal part of the peripheral part vicinity of the illuminating device of this Embodiment. It is sectional drawing which shows the modification of the principal part of the peripheral part vicinity of the illuminating device of this Embodiment. It is sectional drawing which shows another modification of the principal part of the peripheral part vicinity of the illuminating device of this Embodiment. It is a side view which shows an example of a structure of a 1st ring material. It is a front view which shows an example of a structure of a 2nd ring material. It is a schematic diagram which shows an example of the attachment state to the attachment surface of the illuminating device of this Embodiment. It is a schematic diagram which shows the other example of the attachment state to the attachment surface of the illuminating device of this Embodiment. It is a top view which shows the surface side of a center cover. It is a top view which shows the back surface side of a center cover. It is an external appearance perspective view of a center board. It is a schematic diagram which shows an example of the positioning method of a center cover.

  Hereinafter, the present invention will be described with reference to the drawings illustrating embodiments thereof. FIG. 1 is an external view showing an example of the configuration of the illumination device 100 according to the present embodiment, and FIG. 2 is an exploded perspective view showing an example of the configuration of the illumination device 100 according to the present embodiment. In the following description, a ceiling light that can be detachably attached to an attachment surface such as a ceiling (a surface parallel to the cross section of the illumination device 100) is given as an example of the illumination device 100. However, the illumination device of the present embodiment 100 is not limited to a ceiling light.

  As shown in FIG. 1, the lighting device 100 is made of metal (for example, aluminum) and a chassis 1 as a lighting device body of the disk-shaped lighting device 100 is attached to a ceiling or the like. A translucent cover 7 having a plate shape and light diffusibility is attached. A disc-shaped center cover 9 is detachably attached to the central portion of the translucent cover 7.

  As shown in FIG. 2, the lighting device 100 includes, in addition to the chassis 1, the translucent cover 7, and the center cover 9, eight LED modules 2 as light sources, and a cross-sectional shape that is substantially U-shaped. Eight heat-radiating fins 3 made of metal having excellent thermal conductivity such as aluminum, eight lenses 4 for advancing light emitted from the LED module 2 in a required direction, and supplying a required current to the LED module 2 A power supply unit (power supply circuit), a control unit (control circuit) for controlling the brightness of the LED module 2 and the like are mounted, and an outer peripheral octagonal circuit board 5, a chassis 1 and a circuit board 5 are formed. An insulating sheet 51 for electrical insulation, a first ring material 6 and a second ring material 60 as fitting portions to be fitted to a mounting adapter 63 described later, and an annular elastic material 10 for preventing insects from entering. , The first Has a connector fixed to the ingredients 6, comprising a harness and the like 61 and the center plate 8, for supplying commercial power to the circuit board 5.

  The first ring member 6 and the second ring member 60 are fitted with the circuit board 5 sandwiched therebetween. On each side of the octagonal outer periphery of the circuit board 5, the heat radiation fin 3, the LED module 2, and the lens 4 are attached with screws or the like. The heat radiation fin 3 is fixed to the center plate 8 with screws or the like, and is also fixed to the chassis 1 with screws or the like.

  FIG. 3 is a cross-sectional view illustrating an example of a main part of the configuration of the illumination device 100 according to the present embodiment. As shown in FIG. 3, the flat, substantially cylindrical mounting adapter 63 has a connector (not shown) to which a power line from a commercial power source is connected, and a hook ceiling (hook portion) 62 provided on the ceiling. Be hooked (engaged). Thereby, the mounting adapter 63 is electrically and mechanically connected to the hooking ceiling 62. By connecting the connector (not shown) of the mounting adapter 63 to the connector of the harness 61, the AC voltage of the commercial power supply is supplied to the circuit board 5. Further, the lighting device 100 can be installed on the ceiling by fitting either the first ring member 6 or the second ring member 60 fixed to the chassis 1 and the mounting adapter 63.

  A sensor substrate 53 on which an illuminance sensor 52 is mounted is connected to the circuit board 5. The illuminance sensor 52 includes, for example, a phototransistor or a photodiode, and outputs an electrical signal corresponding to the detected illuminance. In accordance with the illuminance detected by the illuminance sensor 52, a control unit (not shown) adjusts the brightness of light from the LED module 2. For example, the control unit controls the current flowing through the LED module 2 so that the illuminance detected by the illuminance sensor 52 becomes the required illuminance.

  The lens 4 collects the light emitted from the LED module 2 and radiates the collected light in a direction (ceiling direction) inclined upward by about 5 to 10 degrees from the horizontal direction. A reflective surface 11 is formed inside the chassis 1. In order to form the reflective surface 11, for example, a reflective sheet may be attached, or a reflective film may be applied. The light emitted from the lens 4 travels downward by being reflected by the reflecting surface 11, is transmitted and diffused by the light-transmitting cover 7, and is emitted downward from the lighting device 100.

  The circuit board 5 has heat radiation fins 3 fixed with screws or the like. The radiating fin 3 has a substantially U shape, and one side surface is fixed to the chassis 1 with a screw or the like, and the other side surface is fixed to the center plate 8 with a screw or the like. As a result, the circuit board 5 is fixedly attached to the chassis 1 as the lighting device body.

  Between the outer edge part of the chassis 1 and the outer edge part of the translucent cover 7, an annular elastic member 10 for preventing insects from entering is provided. Details of the elastic member 10 will be described later.

  FIG. 4 is a plan view showing an arrangement example of the main part in the vicinity of the circuit board 5 of the lighting apparatus 100 of the present embodiment. As shown in FIG. 4, eight radiating fins 3 are fixed along the regular octagonal outer periphery of the circuit board 5 having the opening 63 at the center. The LED module 2 is attached to each radiation fin 3. Moreover, the lens 4 which condenses the light emitted from the LED module 2 is provided in a regular octagonal shape. The lens 4 may be fixed to the radiation fin 3 or may be fixed to the circuit board 5. When the LED module 2 is turned on, the light from the LED module 2 is emitted radially from the center of the chassis 1 toward the outer edge.

  Part of the light emitted from the LED module 2 is specularly reflected at the reflecting surface 11. The light reflected by the reflecting surface 11 enters the inner surface of the light-transmitting cover 7 and is emitted from the outer surface of the light-transmitting cover 7 to the outside of the lighting device 100 while diffusing inside the light-transmitting cover 7.

  As described above, since the light emission direction of each LED module 2 is the direction from the center portion of the chassis 1 to the outer edge portion, and the irradiation direction of the lighting device 100 is a direction intersecting with the light emission direction of the LED module 2, Of the light emitted from the LED module 2, the light that directly enters the light-transmitting cover 7 and exits the illumination device 100 can be reduced, and the direct light from the LED module 2 enters the eyes of the user. Can be reduced, and glare can be reduced.

  FIG. 5 is a plan view showing an example of the configuration of the LED module 2 of the present embodiment. As shown in FIG. 5, the LED module 2 includes a rectangular plate-shaped LED substrate 21 and nine LEDs 22 arranged in a line along the longitudinal direction of the LED substrate 21. The LED 22 is, for example, a daylight color LED, but may be another emission color. Nine LEDs 22 are connected in series, and the LED module 2 forms one series light source group. The LED substrate 21 is made of a metal such as iron or aluminum, and also serves as a heat conductor that conducts heat from the LED 22 to the radiation fins 3. The number of LEDs 22 is not limited to nine.

  FIG. 6 is a side view showing an example of the arrangement of main parts in the vicinity of the lens 4 of the illumination device 100 of the present embodiment, and FIG. 7 is an external view of the lens 4 of the present embodiment. The lens 4 is a rod having a substantially rectangular cross section, and a groove 41 for accommodating the LED 22 is formed in the light incident surface 43 along the longitudinal direction. The exit surface 45 of the lens 4 has a gentle concave shape, and a convex surface 46 is formed in the center along the longitudinal direction. The side surface 44 along the longitudinal direction of the lens 4 has a curved surface that gradually increases in thickness (height) from the incident surface 43 side toward the exit surface 45 side. At both end portions of one side surface 44 of the exit surface 45 of the lens 4, a curved portion 42 having a desired diameter and having a corner portion formed into a curved surface is provided.

  As shown in FIG. 6, the light emitted from the LEDs 22 on the LED substrate 21 fixed in close contact with the heat radiating fins 3 enters the incident surface 43 of the lens 4. The incident light is reflected by the side surface 44 of the lens 4 and is emitted from the emission surface 45 as substantially parallel light.

  As shown in FIG. 4, a part of the end portion of the lens 4 protrudes from both end portions of the radiating fin 3 in plan view. For this reason, if the curved portion 42 as shown in FIG. 7 is not provided, the light reflected by the exit surface 45 without passing through the exit surface 45 of the lens 4 is transmitted through both end portions of the side surface 44 and transmitted through the transmission cover 7. Will be incident directly. For this reason, bright and dark stripes or spots are generated on the translucent cover 7, which is not preferable in appearance.

  As shown in FIG. 7, by providing the curved portion 42, light reflected by the emission surface 45 and directed toward the side surface 44 is further reflected by the curved portion 42 and returned to the emission surface 45 side. Can be reduced, light directly incident on the transmission cover 7 can be reduced, and bright and dark stripes or spots on the light transmission cover 7 can be prevented. Although it may be considered that the shape of the radiating fin 3 is changed so as to cover the lens 4 in accordance with the shape of the protruding portion of the lens 4 illustrated in FIG. 4, the shape of the radiating fin 3 becomes complicated. It becomes a factor of cost increase.

  FIG. 8 is a side view showing an arrangement example of a main part in the vicinity of the illuminance sensor 52 of the illumination device 100 of the present embodiment. As shown in FIG. 8, the illuminance sensor 52 is mounted on the sensor substrate 53. Between the bottom surface of the illuminance sensor 52 on the lead wire 521 side and the sensor substrate 53, a spacer is formed in a disk shape and is tapered so that the thickness decreases from one side surface to the other side surface. 54 is provided. The spacer 54 has an insertion hole through which the two lead wires 521 of the illuminance sensor 52 are inserted. The lead wire 521 is soldered to the wiring pattern on the back surface of the sensor substrate 53.

  As shown in FIG. 8, the illuminance sensor 52 has its center in the light receiving direction (the direction indicated by symbol S in FIG. 8) perpendicular to the cross section of the lighting device 100 (for example, a plane parallel to the mounting surface such as the ceiling). Inclined with respect to various directions. Thereby, the illuminance sensor 52 is fixed to the chassis 1 in a state where the illuminance sensor 52 is tilted with respect to a rotation shaft that rotates the chassis 1 described later. For example, when the lighting device 100 is mounted on the ceiling surface as the mounting surface, the light receiving direction center (direction S) of the illuminance sensor 52 is tilted with respect to the rotation axis for rotating the chassis 1, and the chassis 1 is further described later. To detect the illuminance of the floor on the far side of the room (there is no window etc.) away from the window, the door, and the opening with the outside by rotating it with the rotation mechanism as the variable illuminance detection range The direction of the light receiving direction of the illuminance sensor 52 is adjusted, and the illuminance detection range of the illuminance sensor 52 is varied so as not to detect the illuminance of the floor surface near the window or the like. Thereby, even when external light enters from a window or the like and a portion (floor surface or the like) near the window or the like of the room becomes bright, the illuminance sensor 52 is within the irradiated region on the irradiated surface irradiated with light by the LED 22. Adjusts the brightness of the light emitted from the light source by detecting the illuminance of the dark part of the room by changing the illuminance detection range, so that the brightness of the dark part of the room where external light is hard to hit does not decrease excessively. It is possible to prevent excessive adjustment. The illuminance sensor 52 may be fixed to the chassis 1 without being inclined with respect to the rotation axis, and the illuminance detection range may be varied by a rotation mechanism described later. However, since the illuminance sensor 52 is tilted with respect to the rotation axis, the illuminance of the irradiated surface away from directly below the illumination device 100 can be detected, so that the irradiated surface away from directly below the illumination device 100 is detected. In the case where the outside light is hard to hit, the illuminance of the portion where the outside light is hard to hit can be detected.

  Further, the sensor substrate 53 has an opening on one surface, a circular limiting hole 551 having a required diameter formed on the other surface, covers the illuminance sensor 52, and fixes the limiting member 55 that limits the light receiving angle of the illuminance sensor 52. It is. The detection range of the illuminance sensor 52 has a conical shape with the position of the illuminance sensor 52 as a vertex, and the light receiving angle can be represented by a half apex angle θ of the conical vertex. By limiting the light receiving angle θ, for example, it is possible to prevent the illuminance of a part that is exposed to external light and to detect the illuminance of a part that is difficult to be exposed to external light. Even when it becomes bright, it can be prevented from being affected by the bright part of the room, and the illuminance of the dark part of the room can be accurately detected. The limiting member 55 is not limited to the box as in the example of FIG. 8, and may be plate-shaped, or a seal member having a circular light transmission window is mounted on the light receiving portion of the illuminance sensor 52. Alternatively, a light receiving angle of the illuminance sensor may be limited by providing a cylindrical member on the front surface of the light receiving unit. In this embodiment, the box limiting member 55 is provided separately from the illuminance sensor 52, but may be formed integrally with the illuminance sensor 52. As a result, when the illuminance detection range variable section is configured to move the illuminance sensor 52 with respect to the chassis 1 as will be described later, it is possible to move the restriction member 55 along with the movement of the illuminance sensor 52.

  FIG. 9 is a schematic diagram illustrating an installation example of the lighting device 100 according to the present embodiment. The example of FIG. 9 shows the state of the illuminance detection range by the illuminance sensor 52 when the light receiving angle θ of the illuminance sensor 52 is limited by the limiting member 55. For example, when the lighting device 100 is mounted on a ceiling with a height H, the detection range of the illuminance sensor has a diameter (centered on a position A that is offset by a distance L1 in the light receiving direction with respect to a position immediately below the lighting device 100 ( The illuminance of the floor surface within the range of (L1 + L2) can be detected.

  For example, the light receiving angle θ is ± 20 degrees, and the ceiling height H is 2.4 m. In this case, the detection range of the illuminance sensor 52 is the illuminance of the floor surface within a range of about 2 m in diameter with respect to a position A that is offset by a distance of about 1 m in the light receiving direction with respect to almost directly below the illumination device 100. Can be detected. By setting the light receiving angle θ to ± 20 degrees, for example, when the lighting device 100 is installed in the center of the room, the room having a size of about 6 tatami to 15 tatami is almost free from outside light. Illuminance can be detected near the edge. The light receiving angle θ can be within a range of 20 degrees depending on the size of the room or the position of a window or the like. However, in order to reliably detect the illuminance of the dark part of the room, it is set to about 20 degrees. It is preferable.

  The light receiving angle θ is not limited to within 20 degrees, and may be within 30 degrees as long as the light receiving sensitivity of the illuminance sensor 52 does not decrease. In order to set the light receiving angle θ, the diameter of the restriction hole 551 of the restriction member 55 can be changed, or the separation distance between the restriction hole 551 and the illuminance sensor 52 can be changed.

  In order to incline the center of the light receiving direction of the illuminance sensor 52, a spacer configured to lift only one bottom surface of the illuminance sensor 52 instead of providing the spacer 54 may be used. In this case, an insertion hole for inserting the lead wire into the spacer is not necessary.

  Next, the structure for preventing insect invasion will be described. FIG. 10 is a cross-sectional view showing an example of a main part in the vicinity of the peripheral edge of the illumination device 100 of the present embodiment. A mounting portion 71 bent in a substantially U shape is formed on the outer peripheral edge of the translucent cover 7. By attaching the chassis 1 to the light-transmitting cover 7 bent in this way, a space including illumination components such as the LED module 2 and the circuit board 5 is formed. Further, an edge 14 whose cross-sectional shape is bent into a substantially S shape is formed on the outer peripheral edge of the chassis 1. The edge 14 of the chassis 1 is inserted into the mounting portion 71 to form a joint portion 711 and a joint portion 141 where the chassis 1 and the translucent cover 7 are joined to each other inside the space. Further, an annular elastic material 10 as a sealing member for sealing between the joint portion 711 and the joint portion 141 is provided between the edge 14 and the attachment portion 71. As the elastic material 10, for example, ethylene propylene rubber (EPDM) that is not permanently deformed and excellent in weather resistance, ozone resistance, cold resistance, heat resistance, and the like can be used. In addition to EPDM, a member made elastic by foaming rubber or plastic can also be used. In addition, if it is a member which can seal between joint parts and can prevent insect penetration | invasion, materials other than an elastic material can also be used as a sealing member.

  Since only the mounting portion 71 bent in a substantially U shape is formed on the outer peripheral edge portion of the translucent cover 7, the height of the translucent cover 7 is not increased and a reduction in thickness can be realized. it can. Further, by providing the elastic member 10 between the joint portion 141 of the edge 14 of the chassis 1 and the joint portion 711 of the attachment portion 71 in a space for providing a lighting component formed by bending the attachment portion 71, Since the space can be used to seal with the elastic material 10, it is not necessary to form a space for providing the elastic material 10, and the thickness of the lighting device 100 can be reduced. Thereby, since the clearance gap between the chassis 1 and the translucent cover 7 is sealed with the elastic material 10, it can prevent that an insect invades.

  Moreover, the pressing member 12 which presses the junction part 711 of the attachment part 71 to the junction part 141 side of the edge 14 is provided. The pressing member 12 is plate-shaped, has a projection 121 on one end side, and has a hole for attaching the screw 13 near the center. The pressing member 12 can be fixed to the chassis 1 by fastening the screw 13 to the chassis 1. That is, by pressing the joint portion 711 of the mounting portion 71 with the pressing member 12 toward the joint portion 141 side of the chassis 1 inserted inside the mounting portion 71 of the translucent cover 7, and fixing the pressing member 12 to the chassis 1. The chassis 1 and the light-transmitting cover 7 can be securely attached while realizing a reduction in thickness, and the elastic material 10 can be closely adhered between the joint portion 141 and the joint portion 711 to reliably seal the gap. Note that a plurality of (for example, about eight) pressing members 12 can be provided at appropriate intervals along the peripheral edge of the chassis 1. Thereby, the chassis 1 and the translucent cover 7 can be reliably fixed. In particular, when the light source is an LED, the life of the light source is sufficiently longer than that of a fluorescent lamp or an incandescent bulb, so there is no need for frequent replacement as in the case of a fluorescent lamp or an incandescent bulb. There is no need to consider replacement. By adopting the structure illustrated in FIG. 10, the lighting device can be made as thin as possible.

  An attachment hole 72 for attaching the pressing member 12 to the outside of the attachment portion 71 is formed. By attaching the protrusion 121 of the pressing member 12 to the attachment hole 72 formed in the attachment portion 71 of the translucent cover 7, the chassis 1 and the translucent cover 7 can be reliably attached while realizing a reduction in thickness. It is also useful for positioning when attaching the chassis 1 and the translucent cover 7.

  Moreover, as shown in FIG. 10, since the peripheral part of the illuminating device 100 becomes the attachment part 71 which bent the translucent cover 7, the light emitted from the LED module 2 permeate | transmits without being shielded. . Thereby, since light is also radiated in the horizontal direction from the peripheral portion of the illuminating device 100, the illuminating device 100 of the present embodiment can widen the light distribution characteristics and radiate light over a wider range. Can do.

  FIG. 11 is a cross-sectional view showing a modified example of the main part in the vicinity of the peripheral edge part of lighting apparatus 100 of the present embodiment. As shown in FIG. 11, a mounting portion 15 bent in a substantially U shape is formed on the outer peripheral edge portion of the chassis 1. By attaching the translucent cover 7 to the chassis 1 bent in this way, a space including illumination components such as the LED module 2 and the circuit board 5 is formed. An edge 74 formed in a substantially S shape of the translucent cover 7 is inserted into the mounting portion 15, and a joining portion 741 and a joining portion 151 where the chassis 1 and the translucent cover 7 are joined to each other are formed inside the space. Further, an annular elastic material 10 as a sealing member for sealing between the joint portion 741 and the joint portion 151 is provided between the edge 14 and the attachment portion 71. Since only the mounting portion 15 bent in a substantially U shape is formed on the outer peripheral edge portion of the chassis 1, the height of the chassis 1 is not increased, and the thickness can be reduced. Further, by providing the elastic material 10 between the edge 74 of the translucent cover 7 and the mounting portion 15, the gap between the chassis 1 and the translucent cover 7 is sealed with the elastic material 10, so that insects enter. Can be prevented. In the example of FIG. 11, similarly to the example of FIG. 10, a member similar to the pressing member 12 can also be provided, so that the chassis 1 and the cover 7 can be securely attached and the joint portion can be sealed. The degree of adhesion of the elastic material 10 to be stopped can be improved.

  FIG. 12 is a cross-sectional view showing another modified example of the main part in the vicinity of the peripheral part of lighting apparatus 100 of the present embodiment. As shown in FIG. 12, the edges 16 and 73 of the chassis 1 and the translucent cover 7 are brought into contact with each other, and an elastic material 18 having a substantially U-shaped cross section is provided so as to cover the contacted edges 16 and 73. It is. The elastic material 18 can be manufactured by, for example, extrusion processing. Both the chassis 1 and the translucent cover 7 only abut the respective edges 16 and 73 and do not have a bent structure, so that a reduction in thickness can be realized. Further, since the elastic material 18 is provided around the bordered edges 16 and 73, insects can be prevented from entering. In addition, since the elastic member 18 is provided around the periphery of the lighting device 100, the elastic member 18 can also be used as a decorative member on the appearance.

  FIG. 13 is a side view showing an example of the configuration of the first ring material 6, and FIG. 14 is a front view showing an example of the configuration of the second ring material 60. The first ring material 6 has an annular shape and includes a support portion 64 that extends from a part of the side surface. The support part 64 can fix the connector of the harness 61. The first ring material 6 is provided with projections 611, 612, and 613 for fixing the first ring material 6 to the center plate 8 at appropriate locations on the side surfaces and at the end of the support portion 64.

  As shown in FIG. 14, the second ring member 60 has an annular shape having an opening 603 in the center, and is formed with insertion holes 601 and 602 through which the protrusions 611 and 612 are inserted. By inserting the projections 611 and 612 of the first ring material 6 into the insertion holes 601 and 602 of the second ring material 60, the circuit board 5 is sandwiched and fixed by the first ring material 6 and the second ring material 60. be able to. Further, the insertion holes 601 and 602 are substantially elliptical, and the dimension on one side is larger than the dimension on the other side. As a result, the protrusions 611 and 612 are inserted into the insertion holes 601 and 602 having the larger dimensions and rotated in the circumferential direction so that the protrusions 611 and 612 are securely fitted to the insertion holes 601 and 602 having the smaller dimensions. be able to.

  FIG. 15 is a schematic diagram illustrating an example of an attachment state of the illumination device 100 according to the present embodiment to the attachment surface. A hooking ceiling 62 to which a power line from a commercial power source is connected is previously installed on a mounting surface such as a ceiling. The hooking ceiling 62 is provided with an engagement hole (not shown) in which a connection terminal connected to the power supply line is built. The mounting adapter 63 is provided with a hooking blade (not shown) that engages with the engaging hole of the hooking ceiling 62. By engaging the hooking blade with the engaging hole, the mounting adapter 63 is mechanically and electrically connected. And can be connected to the ceiling ceiling 62.

  The mounting adapter 63 has a substantially disc shape and is provided with a fitted portion 631 that is urged in the radial direction from the center and is movable in the radial direction at a position facing the side surface. The fitted portion 631 has a substantially triangular cross-sectional shape, and can be moved in the central direction by pressing from the outside.

  That is, when the lighting device 100 is attached to the ceiling, the fitting unit 604 first presses the fitted portion 631 by lifting the lighting device 100 from below toward the ceiling. Thereby, the to-be-fitted part 631 moves to a center direction. Further, when the lighting device 100 is lifted upward, the fitted portion 631 is moved against the outside, and the fitting portion 604 is fitted to the fitted portion 631 to fix the lighting device 100.

  Further, when the lighting device 100 is lifted upward, the fitting portion 614 presses the fitted portion 631. Thereby, the to-be-fitted part 631 moves to a center direction. Further, when the lighting device 100 is lifted upward, the fitted portion 631 is moved against the outside, and the fitting portion 614 is fitted into the fitted portion 631 to fix the lighting device 100.

  The first ring member 6 and the second ring member 60 fixed to each other are provided with a first fitting portion 614 and a second fitting portion 604 that are fitted to the fitted portion 631, respectively. Moreover, the illuminating device 100 makes the chassis 1 which is an illuminating device main body rotatable around the attachment adapter 63. That is, by fitting the lighting device 100 to the mounting adapter 63, the chassis 1 can be rotated about the line S passing through the center of the mounting adapter 63 shown in FIG. 15 and FIG. The illuminance detection range of the illuminance sensor fixedly attached to the chassis 1 can be varied by the rotation mechanism of the chassis 1 as the illuminance detection range variable section.

  As a result, when the lighting device 100 is mounted on a mounting surface such as a ceiling, the light receiving center of the illuminance sensor 52 is placed on the floor surface away from the opening from the outside to which external light such as windows and doors enters according to the layout of the room. The illuminance detection range can be varied and set so as to be suitable, and it is possible to prevent excessive brightness adjustment in any layout room. In this embodiment, the rotation mechanism as the illuminance detection range variable unit is configured to rotate by attaching the lighting device 100 to the mounting adapter 63. However, the chassis 1 is rotated before the lighting device 100 is attached. The illumination device 100 may be attached to the adapter 63 after adjusting the position of the illuminance detection range of the illuminance sensor 52.

  As the illuminance detection range variable unit, the case where the illuminance detection range of the illuminance sensor 52 fixed to the chassis 1 as the lighting device body is changed by rotating the chassis 1 has been described. The illuminance sensor 52 may be moved with respect to the chassis 1 to vary the illuminance detection range. For example, the illuminance sensor 52 in FIG. 8 may be a mechanism that moves relative to the sensor substrate 53 fixed to the chassis 1, or the illuminance sensor relative to the chassis 1 by moving the sensor substrate 53 that fixes the illuminance sensor 52. 52 may be a movable mechanism. As a result, the light receiving direction of the light receiving angle of the illuminance sensor 52 can be varied without rotating the chassis 1, so that the illuminance detection range can be varied.

  As illustrated in FIG. 15, when the dimension (thickness) d <b> 1 in the height direction of the hooking ceiling 62 is relatively large, the fitting portion 614 of the first ring material 6 and the fitted portion 631 of the mounting adapter 63 are provided. By fitting, the separation dimension y between the ceiling surface and the chassis 1 can be appropriately reduced.

  FIG. 16 is a schematic diagram illustrating another example of a state of attachment to the attachment surface of the illumination device 100 of the present embodiment. The example of FIG. 16 shows a case where the dimension (thickness) d2 in the height direction of the hooking ceiling 62 is relatively small compared to the case of FIG. In this case, the separation dimension y between the ceiling surface and the chassis 1 can be appropriately reduced by fitting the fitting portion 604 of the second ring member 60 and the fitted portion 631 of the mounting adapter 63. it can.

  FIG. 17 is a plan view showing the surface side of the center cover 9. The center cover 9 is provided with a plurality of circular transparent windows 91, 92, 93, 94 at appropriate positions. For example, the transparent window 91 transmits light received by the illuminance sensor 52. The transparent window 92 transmits a remote operation signal from a remote operation terminal (remote controller) or the like. Further, the transparent windows 93 and 94 transmit light from an indicator lamp that displays the operating state of the lighting device 100 and the like.

  In the present embodiment, the translucent cover 7 is annularly arranged along the outer periphery of the lighting device 100, and the illuminance sensor 52 is provided in the vicinity of the center of the lighting device 100. Since the illuminance sensor 52 is not provided in the vicinity of the translucent cover 7 or the translucent cover 7, it is possible to prevent the light from the light source from being blocked by the illuminance sensor 52. In addition, a dark portion such as a shadow by the illuminance sensor 52 does not occur in a part of the translucent cover 7, and an uncomfortable appearance can be prevented.

  FIG. 18 is a plan view showing the back side of the center cover 9, and FIG. 19 is an external perspective view of the center plate 8. As shown in FIG. 18, on the back surface of the center cover 9, a section 95 is erected at an appropriate distance along the circumferential direction. Further, as shown in FIG. 19, the center plate 8 is provided with a fixing piece 81 having a substantially L-shaped cross section provided with a gap having the same dimension as the thickness of the section 95 at a position corresponding to the section 95. It is. The center plate 8 has an opening 84 at a position corresponding to the transparent windows 91 to 94. Further, the center plate 8 has an attachment portion 82 for attaching the connector of the harness 61.

  When attaching the center cover 9 to the lighting device 100, the section 95 is aligned with the position of the fixed piece 81, and the section 95 is inserted into the gap between the fixed pieces 81 by turning the center cover 9 about the length of the fixed piece 81.

  In addition, a fixing jig such as a harness clip is attached to an appropriate position of the center plate 8, and a ring provided at one end of a wire (or string) 83 of an appropriate length is attached to the harness clip, and at the other end of the wire 83. The provided ring is attached to an appropriate portion of the center cover 9. Thereby, the fall prevention at the time of attaching the center cover 9 to the illuminating device 100 can be aimed at. Instead of providing a harness clip or the like, one end side of the wire 83 may be formed in an annular shape, and the wire 83 may be attached to the lighting device 100 side by passing a power line from the attachment adapter 62 through the ring. it can.

  FIG. 20 is a schematic diagram showing an example of a method for positioning the center cover 9. As shown in FIG. 20, a rib 96 is erected on the back surface of the center cover 9. The center plate 8 is provided with an elastic spring portion 86 that is inclined so as to gradually rise in the radial direction. When the center cover 9 is attached, when the center cover 9 is gradually rotated, the rib 9 gradually slides on the surface of the spring portion 86 in the direction of the arrow while pressing the spring portion 86. When the rib 96 passes the spring portion 86, the spring portion 86 returns to its original shape due to an inferior force, and the end portion of the spring portion 86 and the rib 96 are engaged to securely fix the position of the center cover 9. Can do. Thereby, it can suppress that the center cover 9 rotates easily.

  In the above-described embodiment, the number of LED modules and the number of LEDs constituting the LED module are examples, and are not limited to the examples shown in the drawings. Moreover, although it demonstrated using the light-bulb-colored LED light source and daylight color LED, you may further provide LED of color temperature different from those LED, and a daylight white LED may be sufficient instead of daylight color LED. .

  In the above-described embodiment, the lighting device as the ceiling light has been described. However, the lighting device is not limited to the ceiling light, and may be another lighting device. Moreover, although the illuminating device provided with the LED module as the light source has been described, the light source is not limited to the LED module, and may be another light source such as an organic EL.

1 Chassis 2 LED module (light source)
DESCRIPTION OF SYMBOLS 3 Radiation fin 4 Lens 5 Circuit board 6 1st ring material 614 Fitting part 60 2nd ring material 604 Fitting part 7 Translucent cover 15, 71 Attachment part 72 Fitting hole 8 Center plate 9 Center cover 10 Elastic material 12 Press Member 121 Fitting part 14, 16, 73, 74 Edge 18 Elastic material 52 Illuminance sensor 55 Restriction member 63 Mounting adapter

Lighting device according to the present invention, formed by bending one of the chassis and the translucent cover, the lighting device including a lighting component such as a light source in a space formed by attaching the other one said, bending by interpolating the other to the one obtained by, the chassis and the junction of the translucent cover is formed in the space, and a sealing member for sealing between the joint portion, the translucent cover and the chassis and a pressing member having an end for pressing the other side of either one of the joints of the said end portion of the pressing member, is positioned in the joint, characterized in Oh isosamples.

In this invention, the junction part of a chassis and a translucent cover is formed in the said space, and the sealing member which seals between junction parts is provided. Thereby, the height dimension of the chassis or the translucent cover is not increased, and the thickness can be reduced. Moreover, since the clearance gap between a chassis and a translucent cover is sealed by providing the sealing member which seals between junction parts, it can prevent that an insect penetrate | invades.
In addition, since only one of the chassis and the light-transmitting cover is bent and formed, the height of the chassis or the light-transmitting cover is not increased, and the thickness can be reduced .
In addition, by providing a pressing member that presses one of the joint portions of the chassis and the translucent cover to the other side, the degree of adhesion of the sealing member that securely attaches the chassis and the cover and seals between the joint portions. Can be improved .

Lighting device according to the present invention, the pressing member is characterized Rukoto includes a protrusion that determines the mounting position of the pressing member.

In the present invention, the pressing member is Ru includes a protrusion that determines the mounting position of the pressing member.

Lighting device according to the present invention, the one formed by bending, the a translucent cover, the other is characterized Oh Rukoto in the chassis.

In the present invention, one obtained by bending a translucent cover, and the other, Ru Oh chassis.

Lighting device according to the present invention is characterized Oh isosamples provided plurality along the pressing member to the peripheral edge of the chassis.

In the present invention, Oh Ru provided plurality along the pressing member to the peripheral edge of the chassis.

Claims (5)

In an illuminating device that is formed by bending one of a chassis and a translucent cover, and that includes an illumination component such as a light source in a space formed by attaching the other to the one,
An illuminating device comprising a sealing member that forms a joint between the chassis and the light-transmitting cover in the space and seals between the joints.   The lighting device according to claim 1, wherein the joining portion is formed by interpolating the one of the other bent.   The lighting device according to claim 1, further comprising a pressing member that presses one of the joint portions of the chassis and the translucent cover to the other side. The chassis,
A translucent cover attached to the chassis;
A lighting device comprising a lighting component such as a light source housed in a space formed by the chassis and the translucent cover,
The chassis and the translucent cover are joined at an edge,
An illuminating device comprising: a sealing member that covers each of the joined edges and seals between the chassis and the translucent cover.   The illumination device according to any one of claims 1 to 4, wherein the illumination component is an LED as a light source.

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