JP2009054494A - Luminaire - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a luminaire suitable for lighting near the ceiling surface at the corner of a room. <P>SOLUTION: The luminaire comprises two light-emitting modules 1 shaped slender and connected to each other with their longitudinal directions perpendicular to each other in such a manner that each light-emitting module 1 is arranged at the corner of the room with its longitudinal direction along the upper end (near the ceiling surface CE) of one wall face WA. Thus, the luminaire is suitable for lighting near the ceiling surface CE at the corner of the room. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an indoor lighting fixture.

  Conventionally, various types of indoor lighting fixtures have been provided.

Conventional indoor lighting fixtures are generally arranged on a ceiling surface (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 2001-6404

  However, when the luminaire is arranged on the ceiling surface, the vicinity of the ceiling surface where the three surfaces of the two wall surfaces and the ceiling surface are close to each other at the corner of the room tends to be dark.

  This invention is made | formed in view of the said reason, The objective is to provide the lighting fixture suitable for the illumination of the ceiling surface vicinity of the corner of a room.

  The invention of claim 1 is characterized in that two or three long and thin unit light emitting portions have light emitting portions in a shape in which one end portion in the longitudinal direction is connected to each other in a direction in which the longitudinal directions are orthogonal to each other.

  According to this invention, since each unit light emission part can be arrange | positioned along the boundary of a wall surface and a ceiling surface, respectively, and the boundary of wall surfaces, it is suitable for the illumination of the ceiling surface vicinity of the corner of a room.

  The invention of claim 2 is characterized in that, in the invention of claim 1, each unit light emitting section has a brightness gradient such that the brightness is higher as the position is closer to the connecting section with another unit light emitting section.

  According to the present invention, a curved impression can be given.

  According to a third aspect of the present invention, in each of the first and second aspects of the present invention, each unit light-emitting portion is disposed from the central portion to the both end portions in the short direction perpendicular to the longitudinal direction and the thickness direction. It consists of a planar light-emitting body which has a brightness | luminance gradient which makes a brightness | luminance high toward it.

  According to the present invention, if each unit light emitting unit is arranged so that both ends in the short direction face different surfaces (wall surface or ceiling surface) in the room, the reflected light on the wall surface or ceiling surface is reflected by the luminance gradient. Since the luminance peak at the center in the short direction of the planar light emitter is lowered while strengthening, the connecting part between the wall surfaces and the connecting part between the wall surface and the ceiling surface are more curved near the unit light emitting part. Can show.

  Since the invention according to claim 1 has two or three long and thin unit light emitting portions in a shape in which the longitudinal directions are orthogonal to each other and one end portion in the longitudinal direction is connected to each other, each unit light emitting portion Can be arranged along the boundary between the wall surface and the ceiling surface or along the boundary between the wall surfaces, and is suitable for lighting near the ceiling surface at the corner of the room.

According to the invention of claim 2, since each unit light emitting section has a luminance gradient such that the luminance is higher as the position is closer to the connecting portion with the other unit light emitting sections, a curved impression can be given.
Each unit light-emitting portion is composed of a planar light-emitting body having a luminance gradient that increases the luminance from the central portion to the both end portions in the short direction perpendicular to the longitudinal direction and the thickness direction. And

  In the invention of claim 3, each unit light emitting portion has a luminance gradient that increases the luminance from the central portion to the both ends in the short direction perpendicular to the longitudinal direction and the thickness direction. If each unit light emitting unit is arranged so that both ends in the short direction are directed to different surfaces (wall surface or ceiling surface) in the room, the light emission is planar while enhancing the reflected light on the wall surface and ceiling surface due to the brightness gradient. Since the luminance peak at the center in the short direction of the body is lowered, the connecting portion between the wall surfaces and the connecting portion between the wall surface and the ceiling surface can be made to appear more curved in the vicinity of the unit light emitting portion.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  As shown in FIG. 1, this embodiment includes two light emitting modules 1 and a lighting device 2 that is embedded in, for example, a ceiling surface CE and supplies lighting power to each light emitting module 1. .

  As shown in FIGS. 2A to 2C, each light emitting module 1 includes a base 3 fixed to at least one of the ceiling surface CE and the wall surface WA, and is held by the base 3 via the base 3. And a planar light emitter 4 as a unit light emitting unit that emits light when supplied with power from the lighting device 2.

  For example, as shown in FIG. 3, the planar light emitter 4 includes a flat substrate 41 made of a flexible material having translucency, and a thickness direction of the substrate 41 made of a material having translucency and conductivity. A first electrode layer 42 formed on one surface of the first electrode layer 42; a light-emitting layer 43 made of an organic compound that emits light when energized by being provided on the first electrode layer 42; and a conductive material. It consists of a well-known organic EL element which has the 2nd electrode layer 44 provided on the light emitting layer 43, and the sealing layer 45 which each seals the light emitting layer 43 and each electrode layer 42,44. That is, when a voltage is applied between the electrode layers 42 and 44, the light emitting layer 43 is energized to emit light, and this light is emitted downward in FIG. 3 through the first electrode layer 42 and the substrate 41. For example, polyethylene terephthalate (PET) can be used as the material of the substrate 41, and indium tin oxide (ITO) can be used as the material of the first electrode layer 42. As the material, for example, aluminum can be used, and as the material of the sealing layer 45, for example, a silicone resin can be used. Further, the planar light-emitting body 4 has a rectangular shape when viewed from the thickness direction so that the lower side in FIG. 3 faces outward, the upper side in FIG. 3 faces inward, and both ends in the lateral direction face each other in the same direction. By being bent into a U-shape, the overall shape is long and thin, and is electrically connected to one electrode layer 42 and 44 respectively at both ends in the short direction which are both ends held by the base 3. A terminal (not shown) is provided and emits light when a voltage is applied between the terminals.

  The base 3 includes a triangular prism base body 31 made of an insulating material. The cross-sectional shape in the cross section orthogonal to the longitudinal direction in the base body 31 is a right-angled isosceles triangle shape with the side facing the planar light-emitting body 4 (upper side in FIG. 3) as the base, as shown in FIG. . Further, in the base 3, two grooves 31 a into which one end portions of the planar light emitter 4 are fitted are provided on the surface directed to the planar light emitter 4.

  In the groove 31a, a terminal 32 made of a conductive material and in contact with the terminal of the planar light emitter 4 is disposed. Furthermore, a receptacle 33 into which a plug (not shown) provided at the other end of the cord whose one end is connected to the lighting device 2 is inserted and connected is held on the surface of the base body 31 facing the ceiling. In the receptacle 33, a plurality of contacts (not shown) that are electrically connected to the respective terminals 32 and are in contact with the inserted plug contacts are held. That is, each terminal 32 is electrically connected to the lighting device 2 via the receptacle 33 and the cord.

  Further, one end portion of the planar light emitter 4 in the longitudinal direction is inclined so that the projecting dimension from the base 3 is reduced toward the end, and the two light emitting modules 1 are planar as shown in FIG. For example, the two planar light emitters 4 are integrated into one L-shape by connecting the inclined surfaces of the light emitters together, for example, via a metal fitting (not shown). The light emitting part is configured. The other end of the planar light emitter 4 in the longitudinal direction is closed by, for example, an extended part of the planar light emitter 4.

  The lighting device 2 includes a known DC power supply circuit such as a buck converter, for example, and converts AC power supplied from a commercial power source into DC power having an appropriate voltage for causing the planar light emitter 4 to emit light.

  According to the above configuration, each light emitting module 1 is arranged in such a manner that the longitudinal direction of each light emitting module 1 is parallel to the boundary between each wall surface WA and the ceiling surface CE in the vicinity of the ceiling surface CE at the corner of the room. Therefore, it is suitable for lighting near the ceiling surface CE at the corner of the room.

  As shown in FIG. 6, the other light emitting module 1 may be coupled with the longitudinal direction thereof being orthogonal to the longitudinal directions of the two light emitting modules 1. In this case, the longitudinal direction of the added light emitting module 1 is directed in the vertical direction, which is the direction along the boundary between the two wall surfaces WA. In either of the case where two light emitting modules 1 are used as shown in FIG. 1 and the case where three light emitting modules 1 are used as shown in FIG. Of the side surfaces, two side surfaces to which the planar light-emitting body 4 is not attached (two side surfaces facing the lower side in FIG. 4) are in contact with one of the wall surface WA or the ceiling surface CE. In addition, it is possible to prevent a gap from being generated between the planar light emitters 4.

  Further, the planar light-emitting body 4 of each light-emitting module 1 has a luminance gradient that gradually decreases from one end on the side close to the other light-emitting modules 1 to the other end, that is, at the corner of the room. If a gradient of brightness is provided that increases the brightness as it gets closer, a curved impression can be given.

  Moreover, you may provide the brightness | luminance gradient which makes a brightness | luminance increase to the planar light-emitting body 4 of each light emitting module 1 toward a both ends from the center part in a transversal direction, respectively. If this configuration is adopted, the intensity of light reflected at the wall surface WA or the ceiling surface CE is strengthened, and the peak of luminance at the center in the short direction of the planar light emitter 4 is reduced. The connecting portion or the connecting portion between the wall surface WA and the ceiling surface CE can be made to appear more curved in the vicinity of the light emitting module 1.

  The luminance gradient as described above can be realized, for example, by gradually changing the thickness of the light emitting layer 43 or by using a voltage drop due to the electric resistance of the electrode layers 42 and 44 itself. Even when a light source other than the above-described planar light emitter 4 is used as the light source, for example, by providing a gradient in the light transmittance of the light source in the cover that covers the light source, the above-described luminance gradient is realized. Is possible.

It is explanatory drawing which shows the use condition of embodiment of this invention. (A)-(c) shows the light emitting module same as the above, respectively, (a) is a front view, (b) is a left side view, (c) is a right side view. It is explanatory drawing which shows the structure of the planar light-emitting body same as the above. It is sectional drawing which shows the base of a light emitting module same as the above. It is a front view which shows the state which integrated two light emitting modules in the same as the above. It is explanatory drawing which shows the use condition of another form same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Light emitting module 2 Lighting device 4 Planar light-emitting body CE Ceiling surface WA Wall surface

Claims (3)

  2. A lighting apparatus comprising two or three long and thin unit light-emitting portions each having a light-emitting portion having a shape in which end portions in the longitudinal direction are connected to each other in a direction in which the longitudinal directions are orthogonal to each other.   The lighting apparatus according to claim 1, wherein each unit light emitting unit has a luminance gradient such that the luminance is higher as the position is closer to a connection part with another unit light emitting unit.   Each unit light-emitting portion is composed of a planar light-emitting body having a luminance gradient that increases the luminance from the central portion to both end portions in the short direction perpendicular to the longitudinal direction and the thickness direction. The lighting apparatus according to claim 1 or 2.

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