WO2011148420A1 - 照明装置 - Google Patents
照明装置 Download PDFInfo
- Publication number
- WO2011148420A1 WO2011148420A1 PCT/JP2010/003537 JP2010003537W WO2011148420A1 WO 2011148420 A1 WO2011148420 A1 WO 2011148420A1 JP 2010003537 W JP2010003537 W JP 2010003537W WO 2011148420 A1 WO2011148420 A1 WO 2011148420A1
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- WIPO (PCT)
- Prior art keywords
- light guide
- light
- guide plate
- unit
- shape
- Prior art date
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Images
Classifications
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0005—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being of the fibre type
- G02B6/0008—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being of the fibre type the light being emitted at the end of the fibre
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V17/00—Fastening of component parts of lighting devices, e.g. shades, globes, refractors, reflectors, filters, screens, grids or protective cages
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21K—NON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
- F21K9/00—Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
- F21K9/20—Light sources comprising attachment means
- F21K9/23—Retrofit light sources for lighting devices with a single fitting for each light source, e.g. for substitution of incandescent lamps with bayonet or threaded fittings
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21K—NON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
- F21K9/00—Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
- F21K9/60—Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction
- F21K9/61—Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction using light guides
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21S—NON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
- F21S8/00—Lighting devices intended for fixed installation
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0005—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being of the fibre type
- G02B6/001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being of the fibre type the light being emitted along at least a portion of the lateral surface of the fibre
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0011—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being planar or of plate-like form
- G02B6/0033—Means for improving the coupling-out of light from the light guide
- G02B6/0035—Means for improving the coupling-out of light from the light guide provided on the surface of the light guide or in the bulk of it
- G02B6/0036—2-D arrangement of prisms, protrusions, indentations or roughened surfaces
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0011—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being planar or of plate-like form
- G02B6/0033—Means for improving the coupling-out of light from the light guide
- G02B6/0035—Means for improving the coupling-out of light from the light guide provided on the surface of the light guide or in the bulk of it
- G02B6/0045—Means for improving the coupling-out of light from the light guide provided on the surface of the light guide or in the bulk of it by shaping at least a portion of the light guide
- G02B6/0046—Tapered light guide, e.g. wedge-shaped light guide
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0011—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being planar or of plate-like form
- G02B6/0033—Means for improving the coupling-out of light from the light guide
- G02B6/0058—Means for improving the coupling-out of light from the light guide varying in density, size, shape or depth along the light guide
- G02B6/006—Means for improving the coupling-out of light from the light guide varying in density, size, shape or depth along the light guide to produce indicia, symbols, texts or the like
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0011—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being planar or of plate-like form
- G02B6/0065—Manufacturing aspects; Material aspects
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09F—DISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
- G09F13/00—Illuminated signs; Luminous advertising
- G09F13/04—Signs, boards or panels, illuminated from behind the insignia
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21Y—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
- F21Y2105/00—Planar light sources
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21Y—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
- F21Y2115/00—Light-generating elements of semiconductor light sources
- F21Y2115/10—Light-emitting diodes [LED]
Definitions
- This invention relates to the illuminating device which has arrange
- the light guide is input-coupled to a light guide to which light from the light source is assigned at a predetermined angle with respect to the normal plane of the support, and the light guide is a reflective surface
- a lighting device that includes a light exit surface, and an envelope surface of the light exit surface forms a curved segment (see, for example, Patent Document 2).
- the wide-angle light distribution characteristic required for the spot type or the bulb type cannot be obtained, and diffused light before being sufficiently diffused is derived from the lighting device. Therefore, the directivity of light was too strong, and the design was not good.
- the present invention can obtain a wide-angle light distribution characteristic required for a spot type or a light bulb type according to the environment of a facility or a user's preference, and sufficiently.
- An object of the present invention is to provide an illuminating device in which diffused diffused light can be derived from the illuminating device, and further excellent in design.
- an illumination device includes a power receiving unit to which electric power is supplied from the outside, a power source unit connected to the power receiving unit and converting the power into predetermined driving power, and the power source.
- a light source unit that emits light by the driving power
- a housing unit that houses the light source unit, and a projection protruding from the housing unit, and the light of the light source unit that has entered from the incident surface is branched And a light guide portion led out from the emission surface.
- the lighting device According to the lighting device according to the present invention, it is possible to obtain a wide-angle light distribution characteristic required for a spot type or a light bulb type according to the environment of the facility or the user's preference, and a sufficiently diffused diffusion. Light can be derived from the lighting device, and the design is excellent.
- FIG. 1 It is a perspective view which shows the illuminating device which concerns on the 1st Embodiment of this invention. It is a perspective view which decomposes
- casing (b) is a perspective view which shows the housing
- a light guide plate that is disposed in a light guide portion of the lighting device according to the first embodiment of the present invention and is branched so that a tip of an emission surface forms a plurality of light guide pieces, and provided adjacent to the light guide plate.
- FIG. 1 It is a schematic diagram which shows a light source
- (a) is a schematic diagram which shows a light guide plate and a light source from the main surface of a light guide plate
- (b) is a schematic diagram which shows the center light guide piece and light source of a light guide plate with sectional drawing.
- the light guide plate by which the curved surface is formed toward the outer side with respect to the light guide piece branched into plurality in the light guide plate provided in the light guide part of the illuminating device which concerns on the 1st Embodiment of this invention is shown.
- (a) is a schematic diagram which shows the main surface of a light-guide plate
- (b) is a schematic diagram which shows the front-end
- FIG. 2A is a schematic diagram showing a main surface of a light guide plate
- FIG. 2A is a schematic diagram showing a main surface of a light guide plate
- 2B is a schematic diagram showing a tip of the light guide plate. It is a schematic diagram which shows the light guide plate by which the front-end
- A) is a schematic diagram which shows the main surface of a light-guide plate
- (b) is a schematic diagram which shows the front-end
- a concave portion having a columnar shape with a predetermined depth is formed at the tip of the light guide piece branched into a plurality of portions.
- a conical recess having a predetermined depth is formed at the tip of the light guide piece branched into a plurality of portions.
- FIG. 1 It is a schematic diagram which shows the light guide plate which is, (a) is a schematic diagram which shows the main surface of a light guide plate, (b) is a schematic diagram which shows the front-end
- tip of the light guide piece branched into plurality in the light guide plate provided in the light guide part of the illuminating device which concerns on the 1st Embodiment of this invention is each formed in the trapezoid trapezoid shape.
- (a) is a schematic diagram which shows the main surface of a light-guide plate
- (b) is a schematic diagram which shows the front-end
- tip of the light guide piece branched into plurality in the light guide plate provided in the light guide part of the illuminating device which concerns on the 1st Embodiment of this invention is each formed in the truncated cone shape. It is a figure, (a) is a schematic diagram which shows the main surface of a light-guide plate, (b) is a schematic diagram which shows the front-end
- FIG. 1 It is a schematic diagram which shows the cross section of the light-guide plate provided in the light guide part of the illuminating device which concerns on the 1st Embodiment of this invention, and is corresponded to an application example, (a) of the light-guide plate which adjoins the edge part of a light-guide plate.
- the schematic diagram which shows the cross section of the several light-guide plate combined with the triangular prism shape which provided the space inside by connecting to an edge part (b) is the cross section of the light-guide plate integrally molded by the triangular prism shape which provided the space inside
- C is a schematic diagram showing a cross section of a plurality of curved light guide plates combined in a cylindrical shape by connecting the end portion of the curved light guide plate to the end portion of the adjacent curved light guide plate
- d) is a schematic diagram showing a cross section of a light guide plate integrally formed in a cylindrical shape
- (e) is a schematic diagram showing a cross section of a plurality of light guide plates in which light guide plates are combined in a cross shape
- (f) is integrated in a cross shape.
- a light guide plate disposed in a light guide portion of a lighting device according to a second embodiment of the present invention and having a light emitting plate branched so as to form a plurality of light guide pieces, and provided adjacent to the light guide plate.
- FIG. 1 It is a schematic diagram which shows a light source
- (a) is a schematic diagram which shows a light guide plate and a light source from the main surface of a light guide plate
- (b) is the light guide plate formed in the same surface facing the main surface which a concave pattern opposes.
- a light guide plate disposed in a light guide portion of a lighting device according to a second embodiment of the present invention and having a light emitting plate branched so as to form a plurality of light guide pieces, and provided adjacent to the light guide plate.
- FIG. 1 It is a schematic diagram which shows a light source
- (a) is a schematic diagram which shows a light-guide plate and a light source from the main surface of a light-guide plate
- (b) is a light-guide plate formed in the non-face-to-face in the main surface which a concave pattern opposes.
- a light guide plate that is disposed in a light guide portion of a lighting device according to a second embodiment of the present invention and is branched so that a tip of an emission surface forms a plurality of light guide pieces, and provided adjacent to the light guide plate.
- FIG. 1 It is a schematic diagram which shows a light source
- (a) is a schematic diagram which shows a light guide plate and a light source from the main surface of a light guide plate
- (b) is formed so that a concave pattern may become deep gradually from an incident surface toward a front-end
- (C) is a schematic diagram showing a state in which a pattern on the other main surface is formed with a half-pitch eccentricity in the Y direction with respect to a pattern on one main surface
- d) is a schematic diagram showing a state in which the pattern of the other main surface is formed with a half pitch eccentricity in both the X direction and the Y direction with respect to the pattern of one main surface.
- It is a schematic diagram which shows the concave pattern which consists of a quadrangular pyramid formed in the light-guide plate arrange
- (a) is a concave pattern from the main surface of a light-guide plate.
- the schematic diagram shown, (b) is a schematic diagram showing a concave pattern from the side of the light guide plate. It is a perspective view which shows the illuminating device which has arrange
- FIG. 1 It is a perspective view which shows the illuminating device which arrange
- Illumination provided with a light guide unit in which a concave pattern or a light guide plate in which a convex pattern is formed is also provided on the tip and side surfaces of a plurality of branched light guide pieces according to the second embodiment of the present invention
- FIG. 1 It is a schematic diagram showing a main part of an example of an ultrasonic processing horn provided in an ultrasonic processing device for processing a light guide plate disposed in each lighting device of the second to fourth embodiments of the present invention
- (A) is a schematic diagram showing a plurality of processed dots formed on the ultrasonic processing horn from the side
- (b) is a schematic diagram showing a plurality of processed dots formed on the ultrasonic processing horn from the front.
- the illuminating device of this invention is not limited to the following description, In the range which does not deviate from the summary of this invention, it can change suitably.
- the illumination device 1 according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 13.
- each illuminating device of the 2nd Embodiment of this invention is demonstrated, referring FIG. 14 thru
- the illuminating device 7 of the 3rd Embodiment of this invention is demonstrated, referring FIG.
- a lighting device according to a fourth embodiment of the present invention will be described with reference to FIGS.
- a method for manufacturing a light guide plate disposed in each of the illumination devices according to the first to fourth embodiments of the present invention will be described with reference to FIGS. 31 to 35 and the like.
- the configuration and main functions and effects of the above-described lighting device according to the present invention will be described for each claim.
- the illuminating device 1 of 1st Embodiment is comprised from the power receiving part 10, the power supply part 20, the light source part 30, the housing
- each structure of the illuminating device 1 is demonstrated in order.
- the power receiving unit 10 constituting the lighting device 1 of the first embodiment is supplied with electric power from the outside.
- a power receiving unit 10 includes a base 11, an insulating case 12, and an insulating case cover 13.
- the base 11 of the power receiving unit 10 is supplied with power by being screwed into, for example, a socket constructed in an indoor facility.
- the diameter of the base 11 is, for example, 26 mm, which is a general size.
- a plug that is inserted into an outlet and receives power supply, or a terminal that receives power supply by connecting a generator or a storage battery may be used.
- the insulating case 12 of the power receiving unit 10 is made of, for example, plastic having insulation properties, and is formed in a cylindrical shape. A power supply unit 21 to be described later is accommodated in the internal space 12D provided inside the insulating case 12 as described above.
- the insulating case cover 13 of the power receiving unit 10 is made of, for example, plastic having insulation properties, and is formed from a cylindrical piece. Such an insulating case cover 13 has a joint portion 13A of the insulating case cover 13 formed at the other end 12B of the insulating case 12 in a state where the power supply unit 21 is housed in the internal space 12D of the insulating case 12. It is joined to 12C.
- the insulating case 12 is connected by fitting the base 11 to one end 12A and fitting the case 41 of the case portion 40 described later in a state where the insulating case cover 13 is joined to the other end 12B. ing.
- the power supply unit 20 constituting the lighting device 1 of the first embodiment is connected to the power receiving unit 10 and converts the power supplied from the outside via the power receiving unit 10 into predetermined driving power.
- a power supply unit 20 includes a power supply unit 21 as shown in FIG.
- the power supply unit 21 of the power supply unit 20 steps down the power input from the outside through the base 11 of the power receiving unit 10 from 100 V to, for example, 24 V, to a constant DC current according to the rating of the light source 31 of the light source unit 30. Rectification, pulse modulation after rectification, noise removal, and the like, and driving power is supplied to the light source 31 of the light source unit 30 described later.
- Such a power supply unit 21 includes, for example, a transformer, a rectifier, and a capacitor. Regarding the configuration of the power supply unit 21, when a fluorescent tube, a cold cathode tube, or a neon tube is used as the light source of the light source unit, for example, AC power supplied from the outside is used without being converted to DC.
- the power supply unit 21 is housed in the internal space 12D of the insulating case 12 of the power receiving unit 10.
- the light source unit 30 constituting the lighting device 1 of the first embodiment is connected to the power supply unit 20 and emits light by the driving power supplied from the power supply unit 20.
- a light source unit 30 includes a light source 31 and a substrate 32 as shown in FIG.
- the configuration of the light source unit 30 will be described.
- the light source 31 of the light source unit 30 for example, a light emitting diode (LED: Light : Emitting Diode) that emits white light is used. More specifically, the LED has a daylight color of about 3000 Kelvin or a cold white color of about 5500 Kelvin.
- LED Light emitting diode
- 10 surface-mounted LEDs are arranged in a cross shape along the incident surface 101F and the incident surface 102F of the light guide plate 101 and the light guide plate 102 combined in a cross shape. ing.
- a light source 31 makes light incident on the inside of the light guide plate 101 and the light guide plate 102 from the light incident surface 101F and the light incident surface 102F of the light guide plate 101 and the light guide plate 102 toward the front end 101G and the front end 102G facing each other.
- the light source 31 is not limited to a white LED, and for example, any one of white, red, orange, yellow, green, blue, indigo, or purple or a color of these colors You may comprise by LED which consists of a combination.
- the light source 31 may be configured by an LED that emits ultraviolet light.
- the light source 31 is not limited to an LED, and may be composed of, for example, an organic light emitting diode, a fluorescent tube, a cold cathode tube, or a neon tube.
- the substrate 32 of the light source unit 30 is a member for mounting the light source 31.
- Such a substrate 32 is made of, for example, aluminum that is light and has a certain strength, and is formed in a disk shape. Note that the material of the substrate 32 may be copper having excellent heat dissipation or a glass epoxy substrate having excellent workability.
- the housing unit 40 constituting the lighting device 1 of the first embodiment houses the light source unit 30.
- casing part 40 is comprised from the housing
- casing 41 consists of aluminum, for example, and is formed in hemispherical shape.
- the fixing member 44 made of, for example, a flat head screw is passed through the hole 41B provided in the one surface 41A of the housing 41, and the screw hole 12E provided in the insulating case 12 and the screw hole 13B provided in the insulating case cover 13 are respectively passed. Screw in each.
- the substrate 32 is engaged with the one surface 41 ⁇ / b> A of the housing 41. Further, the driving power of the power supply unit 21 is supplied to the light source 31 by a wire (not shown) through the wiring hole 13C of the insulating case cover 13, the wiring hole 41C of the housing 41, and the wiring hole 32B of the substrate 32. .
- the outer peripheral surface A plurality of heat radiation fins having a concave and convex shape curved to 41E may be formed, or as shown in FIG. 3B, a plurality of heat radiation fins having a straight concave and convex shape may be formed on the outer peripheral surface 41E ′. May be.
- the drive current value of the light source 31 is sufficiently low, or when the power loss in the power supply unit 21 is small, as shown in FIG. May be.
- the outer periphery cover 42 consists of aluminum, for example, and is formed in the cylindrical shape. Such an outer peripheral cover 42 is passed through the casing 41 from the base 11 side, and a joint portion 42A of the outer peripheral cover 42 is joined to an end portion of a side wall 43C of a holding member 43 described later.
- the holding member 43 engages with the light guide plate 101 and the light guide plate 102 and is detachably held on the housing 41 as shown in FIG.
- a holding member 43 is made of aluminum, for example, and is formed in a semi-disc shape.
- each of the pair of holding members 43 is engaged by inserting a groove 43A opened in the center of the holding member 43 into an engaging portion 102H provided in a light guide piece 102A of the light guide plate 102 described later.
- each of the pair of holding members 43 includes protrusions 43B formed at both ends of the holding member 43, and concave engagement portions provided respectively below the light guide piece 101A and the light guide piece 101D of the light guide plate 101 described later.
- the fixing member 45 made of, for example, a pan screw is used as the hole 43D of the pair of holding members 43 and the substrate 32.
- the screw holes 32A are opened in this order.
- the light guide plate 101, the light guide plate 102, and the substrate 22 can be attached to and detached from the housing 41 by screwing the fixing member 45 into the screw holes 41 ⁇ / b> D provided on the one surface 41 ⁇ / b> A of the housing 41. Hold.
- the fixing member 45 may be sealed with an adhesive containing a reflective agent.
- the side walls 43 ⁇ / b> C of the pair of holding members 43 cover the engaging grooves 41 ⁇ / b> F provided on the outer peripheral surface 41 ⁇ / b> E of the housing 41.
- the light guide part 100 which comprises the illuminating device 1 of 1st Embodiment is protruded and provided from the housing
- a light guide unit 100 first, the basic specifications of the light guide plate provided in the light guide unit 100 will be described with reference to FIG. Next, basic optical characteristics of the light guide plate provided in the light guide unit 100 will be described with reference to FIG. Furthermore, the shape of the light guide piece branched into a plurality of light guide plates provided in the light guide unit 100 will be described with reference to FIGS. Finally, an application example of the light guide plate provided in the light guide unit 100 will be described with reference to FIG.
- the shape of the light guide part which comprises the illuminating device 1 of 1st Embodiment is not limited to the shape of the light guide part 100,
- or 4th embodiment mentioned later is mentioned. It is good also as the shape of the light guide part 110 thru
- the light guide unit 100 is configured by combining, for example, a light guide plate 101 and a light guide plate 102 in a cross shape.
- the light guide plate 101 and the light guide plate 102 are each made of, for example, a transparent acrylic resin plate.
- the light guide plate 101 and the light guide plate 102 are not limited to transparent resin plates, and colored resin plates may be used.
- the light guide plate 101 and the light guide plate 102 may be, for example, a resin plate to which a fine particle diffusion member that emits diffused light when irradiated with visible light.
- a resin plate to which a fluorescent agent that emits fluorescence when irradiated with light in an ultraviolet region or a visible region is applied or added may be used.
- the light guide plate 101 and the light guide plate 102 are formed in a predetermined shape.
- the front end of the light guide plate 101 is branched into four parts: a light guide piece 101A, a light guide piece 101B, a light guide piece 101C, and a light guide piece 101D.
- the light guide plate 101 is formed such that the lengths of the tips 101G of the light guide piece 101B and the light guide piece 101C are longer than the lengths of the tips 101G ′ of the light guide piece 101A and the light guide piece 101D. .
- the light guide plate 101 has a depth between a notch 101L formed between the light guide piece 101A and the light guide piece 101B and a notch 101N formed between the light guide piece 101C and the light guide piece 101D. Are formed to be substantially equal.
- the light guide plate 101 is formed so that the depth of the notch 101M is deeper than the depth of the notch 101L and the notch 101N formed adjacent to the left and right.
- the light guide plate 102 inserted and combined in the light guide plate 101 is similar to the light guide plate 101 in that the tip of the light guide plate 102 is guided by the light guide. It is branched into four pieces: a piece 102A, a light guide piece 102B, a light guide piece 102C, and a light guide piece 102D.
- the light guide plate 102 is such that the lengths of the light guide pieces 102B and the tips 102G of the light guide pieces 102C are longer than the lengths of the light guide pieces 102A and the tips 102G ′ of the light guide pieces 102D. It is formed to become.
- the light guide plate 102 is formed between the notch 102L formed between the light guide piece 102A and the light guide piece 102B, and the light guide piece 102C and the light guide piece 102D.
- the depth with the notch 102N is formed to be substantially equal.
- the light guide plate 102 is formed such that the depth of the notch 102M is shallower than the depth of the notch 102L and the notch 102N formed adjacent to the left and right. .
- the notch 101M of the light guide plate 101 and the joint 102J provided in the center of the incident surface 102F of the light guide plate 102 are joined.
- a light guide plate 102 is inserted into the light guide plate 101.
- the light guide plate 101 and the light guide plate 102 are formed such that when the notch 101M and the joint 102J are joined, the incident surface 101F of the light guide plate 101 and the incident surface 102F of the light guide plate 102 are located on the same plane. ing.
- the light guide plate 101 and the light guide plate 102 are coated with a silicone coating agent or a glass coating agent (not shown) having functions such as waterproof, antifouling, and dustproof, respectively, or functions such as waterproof, antifouling, and dustproof. You may coat
- FIG. 4 the light guide plate 103 in which the configurations of the light guide plate 101 and the light guide plate 102 are simplified, and the light source 31 adjacent to the light guide plate 103 are schematically illustrated.
- a part of the light of the light source 31 incident from the incident surface 103F of the light guide plate 103 is, for example, three notches 103L to notches formed between the light guide pieces 103A to 103D branched into four parts. With 103N, each can be reflected at a wide angle.
- a part of the light reflected at the wide angle by the notch 103L to the notch 103N is subjected to multiple reflection between the one main surface 103V and the other main surface 103Q provided in the light guide piece 103A to the light guide piece 103D, respectively.
- the depth of the notch 103M of the light guide plate 103 is formed so as to be deeper than the depth of the notch 103L and the notch 103N formed adjacent to the left and right, the light reflected at a wide angle by the notch 103M is reflected. It is easy to reach the light guide piece 103A and the light guide piece 103D.
- the light guide plate 103 in the case of a light guide plate formed in a simple rectangular shape like a conventional light guide plate, the light enters from the incident surface of the light guide plate and goes straight. Most of the emitted light goes straight ahead and is emitted from the tip.
- the light guide plate 103 according to the present invention has a shape branched into four, for example, the light incident from the incident surface 103F of the light guide plate 103 passes through the notch 103L to the notch 103N. Multiple reflection is performed between one main surface 103V and the other main surface 103Q provided in the light guide pieces 103A to 103D, respectively.
- the light incident on the light guide plate 103 is reflected in all directions between the surfaces of the light guide plate 103 so that, for example, the tip 103G or the tip 103G ′ is irradiated obliquely and then the tip 103G or the tip 103G ′. Without being emitted from the light, it is reflected to the incident surface 103F side. Therefore, in the light guide plate 103 according to the present invention, the rate at which the light incident from the incident surface 103F of the light guide plate 103 goes straight and is emitted from the tip 103G or the tip 103G ′ can be greatly reduced.
- the light guide plate 104A shown in FIG. 5 has a curved surface formed toward the outside of the tip of the light guide piece 104A ′ branched into a plurality, and the light guide plate 104B shown in FIG. A curved surface is formed toward the inside.
- the light guide plate 104C shown in FIG. 7 is formed with an inclined surface toward the inside of the front end of the light guide piece 104C ′ branched into a plurality.
- the tip of the light guide piece 104D ′ branched into a plurality is formed in a concave shape.
- the tip of the light guide piece 104D ′ of the light guide plate 104D is provided with an inclined surface, for example, so as to be concave from both sides toward the center.
- Each of the light guide pieces of the light guide plate 104A to the light guide plate 104D is processed into a special shape at the tip portion, so that it is excellent in design and suppresses a difference in light intensity distribution depending on a viewing angle. be able to.
- each light guide piece of the light guide plates 104A to 104D is subjected to diffuse reflection at the tip portion, so that the light is likely to be multiple-reflected on each main surface. Therefore, the ratio of the light emitted to the outside from the front end portion of each light guide piece of the light guide plate 104A to the light guide plate 104D is reduced, and the light extraction efficiency from each main surface can be improved. In addition, the light emitted to the outside from the distal end portion of each light guide piece of the light guide plate 104A to the light guide plate 104D is led out obliquely outward, inward, and inward to the illumination device 1, respectively.
- the light guide plate 104E shown in FIG. 10 has a conical recess having a predetermined depth at the tip of the light guide piece 104F ′.
- the light guide plate 104E and the light guide plate 104F are excellent in design and visually recognized because the tip portion of each light guide piece is processed into a special shape, like the light guide plates 104A to 104D. The difference in the light intensity distribution due to the angle can be suppressed.
- the light guide plate 104E and the light guide plate 104F are formed with a cylindrical or conical recess at the tip of a light guide piece branched into a plurality of light guide plates using, for example, a drilling machine, the surface accuracy of the recesses is determined. By roughening, it is possible to diffusely reflect light on the inner peripheral surface of the recess. Therefore, the light extraction efficiency in the light guide plate 104E and the light guide plate 104F can be improved.
- the light guide plate 104G shown in FIG. 12 the tip of the light guide piece 104H ′ is formed in a truncated cone shape.
- the light guide plate 104G and the light guide plate 104H are excellent in design and visually recognized because the leading end portion of each light guide piece is processed into a special shape, like the light guide plates 104A to 104F. The difference in the light intensity distribution due to the angle can be suppressed.
- the light guide plate 104G and the light guide plate 104H are subjected to end milling using, for example, a milling machine, so that a convex portion having a trapezoidal trapezoidal shape or a truncated cone shape is formed at the tip of a light guide piece branched into a plurality of lightguide plates. Is formed. In this manner, by forming a convex portion having a trapezoidal trapezoidal shape or a truncated cone shape at the tip portion of each light guide piece of the light guide plate 104G and the light guide plate 104H, the orthogonal corner portions are removed, and the light guide plate Light is likely to be multiple-reflected inside.
- the light extraction efficiency in the light guide plate 104G and the light guide plate 104H can be improved.
- the tip portions of the light guide pieces of the light guide plate 104G and the light guide plate 104H are formed in a substantially lens shape having a trapezoidal trapezoidal shape or a truncated cone shape, the light emitted to the outside from the tip portion is substantially the same. It becomes parallel light.
- the light guide pieces branched into a plurality of light guide plates provided in the light guide unit 100 may form so that it may twist from a surface to a front-end
- the light guide piece branched into a plurality of light guide plates is not limited to a rectangular cross section.
- the light guide piece may be formed to have a circular, elliptical or polygonal cross section. good.
- the light guide pieces branched into a plurality of light guide plates may be formed in, for example, a conical shape whose cross-sectional area decreases from the incident surface of the light guide plate toward the tip.
- the light irradiated to the side surface and the tip from the inside of the light guide plate may be diffusely reflected at the side surface and the tip.
- each illumination device of the second to fourth embodiments to be described later It can also be applied to.
- FIG. 13A shows three light guide plates 105 combined in a triangular prism shape having a space inside by connecting the end portions of the light guide plate 105 to the end portions of the adjacent light guide plate 105.
- FIG. 13B shows a light guide plate 105 ′ integrally formed by, for example, molding so as to have a triangular prism shape with a space inside.
- the light guide plate is not limited to a triangular prism shape having a space inside as shown in FIGS. 13A and 13B. It is good also as a polygonal column consisting of etc.
- FIG. 13A shows three light guide plates 105 combined in a triangular prism shape having a space inside by connecting the end portions of the light guide plate 105 to the end portions of the adjacent light guide plate 105.
- FIG. 13B shows a light guide plate 105 ′ integrally formed by, for example, molding so as to have a triangular prism shape with a space inside.
- the light guide plate is not limited to a tri
- FIG. 13C shows three curved light guide plates 106 combined in a cylindrical shape by connecting the end portions of the curved light guide plates 106 to the end portions of the adjacent curved light guide plates 106.
- FIG. 13D shows a light guide plate 106 ′ integrally formed by, for example, molding so as to have a cylindrical shape.
- the light guide plate is not limited to a cylindrical shape having a circular cross section, and may be, for example, a cylindrical shape having an elliptical cross section. .
- FIG. 13E shows four light guide plates 107 provided in a cross shape by combining the light guide plates 107.
- FIG. 13 (f) shows a light guide plate 107 ′ integrally formed by, for example, molding so as to have a cross shape.
- the light guide plate is not limited to a cross shape in which four light guide pieces protrude from the center, for example, three from the center. A plurality of light guide pieces such as one or five may be projected.
- the light guide plate is integrally formed by molding so that, for example, a space is not provided therein, and the cross section becomes a polygonal shape, a circular shape, an elliptical shape, or the like. Also good.
- the application example of the light guide plate provided in the light guide unit 100 described above with reference to FIG. 13 can also be applied to each lighting device of the second to fourth embodiments described later.
- the external shape of the light-guide plate provided in a light guide part can be determined according to the environment of a facility, or a user preference. That is, in the illuminating device 1 according to the first embodiment, a light guide unit such as a spot type or a light bulb type having different light distribution characteristics and design properties can be provided. Specifically, in the illuminating device 1 according to the first embodiment, the surface area of the side surface that multi-reflects the light inside the light guide plate by branching the exit surface at the tip of the light guide plate provided in the light guide portion into a plurality of branches. Is increasing.
- the illumination device 1 if the illumination device 1 according to the first embodiment is used, the ratio of light that is directly derived from the emission surface at the tip of the light guide plate is reduced, and light that is derived from the side surface of the light guide plate is reduced. Since the ratio of increases, the surroundings can be illuminated brightly. That is, the directivity of light derived from the lighting device 1 can be expanded. Furthermore, the light derived from the light guide plate can suppress the viewer from feeling dazzling when entering the eyes of the viewer.
- tip part of the light-guide plate provided in a light guide part is made into the curved surface curved toward the outer side or the inner side, for example, a trapezoid trapezoid shape, or a truncated cone shape Or, it is a shape provided with a concave portion formed of a columnar shape or a conical shape with a predetermined depth. Therefore, if the illumination device 1 according to the first embodiment is used, the emission direction of light derived from the tip of the light guide plate can be controlled to a predetermined angle, and the light is irregularly reflected at the tip of the light guide plate.
- the light can be easily multi-reflected inside the light guide plate, and the light derived from the tip of the light guide plate can be substantially condensed light or substantially divergent.
- the illumination device 1 is orthogonal to the illumination device 1. It is possible to derive light having a substantially uniform light intensity distribution from the direction to the horizontal direction. If the light guide plate is provided so as to extend in the horizontal direction whenever it is separated from the housing, for example, light can be led out in addition to the front of the lighting device 1.
- the outer shape of the light guide plate provided in the light guide unit is formed into a cross shape by combining two light guide plates in a three-dimensional manner, for example. Therefore, if the lighting device 1 according to the first embodiment is used, the light derived from the main surface of the light guide plate can be emitted without being shielded by another light guide plate adjacent to the light guide plate. Can do.
- the light guide plate provided in the light guide section is transparent, for example, the other main surface opposed to one main surface of the light guide plate can be visually recognized, and for example, other adjacent to one main surface of the light guide plate One main surface of the light guide plate can be visually recognized.
- the light guide unit is viewed from any direction in the circumferential direction of the lighting device 1, it is possible to suppress a difference in brightness of light derived from the light guide plate. Furthermore, since two light guide plates provided in a cross shape, for example, are overlapped with the light guide portion, for example, a part of the light that is multiply reflected within one light guide plate is adjacent to the one light guide plate. Then, the light is incident on another light guide plate that is overlapped and then further reflected multiple times inside the other light guide plate. That is, the light from the light source incident from the incident surface of the light guide plate is dispersed as diffused light. Therefore, when the viewer visually recognizes the light derived from the light guide plate, the viewer does not feel dazzling and can be recognized as a good surface light source with little difference in brightness.
- the light guide plate provided in the light guide unit is formed in various shapes, thereby providing excellent design. Therefore, if the lighting device 1 according to the first embodiment is used, the lighting device 1 is not limited to a conventional lighting device that obtains a certain illuminance by simply illuminating a room or the like. A predetermined effect can be obtained for the viewer.
- each illuminating device of the 2nd Embodiment of this invention has a concave or convex pattern on the light guide plate 101 and the light guide plate 102 of the light guide unit 100 constituting the illuminating device 1 of the first embodiment, respectively. It is characterized by being formed.
- the configuration according to the second embodiment is the same as the configuration described in the first embodiment.
- the lighting device 2 of the second embodiment for example, as shown in FIGS. 14 and 15, includes a power receiving unit 10, a power supply unit 20 having the same specifications as the lighting device 1 of the first embodiment, The light source unit 30, the housing unit 40, and the light guide unit 110 unique to the illumination device 2 of the second embodiment are configured. Therefore, in the second embodiment, the light guide unit having a configuration different from that of the first embodiment will be mainly described.
- the light guide plate of the light guide unit 110 constituting the illumination device 2 of the second embodiment is formed with a concave or convex pattern that derives the light of the light source unit 30 incident from the incident surface as diffused light.
- the concave or convex pattern is formed on at least one of a plurality of emission surfaces related to the light guide plate of the light guide unit 110.
- a concave pattern for deriving diffused light, a convex pattern, or a pattern 111P composed of concave and convex patterns is formed in a matrix.
- a concave pattern for deriving diffused light, a convex pattern, or a pattern 112P composed of concave and convex patterns is also formed in a matrix on the light guide plate 112 of the light guide unit 110.
- the interval between the pattern 111P and the pattern 112P is, for example, 1 mm to 6 mm.
- FIGS. 16 to 18 the pattern is not shown on the main surface of the light guide plate.
- the light guide plate 113 in which the configurations of the light guide plate 111 and the light guide plate 112 are simplified, and the light source 31 adjacent to the light guide plate 113 are schematically shown in a sectional view.
- a part of the light of the light source 31 incident from the incident surface 113F of the light guide plate 113 is, for example, three notches 113L to notches formed between the light guide pieces 113A to 113D branched into four parts.
- Each of 113N can be reflected at a wide angle.
- a part of the light reflected at the wide angle by the notch 113L to the notch 113N is multiple-reflected between the one main surface 113V and the other main surface 113Q provided in the light guide piece 113A to the light guide piece 113D, respectively. Therefore, the diffused light can be efficiently generated by the patterns 113W formed on the main surface 113V and the patterns 113R formed on the other main surface 113Q. Furthermore, if the depth of the notch 113M of the light guide plate 113 is formed so as to be deeper than the depth of the notch 113L and the notch 113N formed adjacent to the left and right, the light reflected at a wide angle by the notch 113M is reflected. It is easy to reach the light guide piece 113A and the light guide piece 113D.
- the basic optical characteristics of the light guide plate provided in the light guide unit 100 a part of the light of the light source 31 incident from the incident surface 113F of the light guide plate 113 does not pass through the notch 113L to the notch 113N.
- the diffused light is generated by the pattern 113W and the pattern 113R respectively provided on the light guide pieces 113A to 113D.
- most of the light that goes straight from the incident surface of the light guide plate goes straight without being converted into diffused light. Released from the tip.
- the light guide plate 113 according to the present invention has a shape branched into four, for example, the light incident from the incident surface 113F of the light guide plate 113 passes through the notch 113L to the notch 113N. Multiple reflection is performed between the one main surface 113V and the other main surface 113Q provided in the light guide pieces 113A to 113D, respectively. Further, the light incident on the light guide plate 113 is reflected in all directions between the surfaces of the light guide plate 113 so that, for example, the light is incident on the front end 113G at an oblique incidence, and then is not emitted from the front end 113G. Reflected on the 113F side. Therefore, in the light guide plate 113 according to the present invention, the ratio of the light incident from the incident surface 113F of the light guide plate 113 going straight without being converted into diffused light and emitted from the tip 113G can be greatly reduced. it can.
- the density of the pattern 113W and the pattern 113R formed on the light guide plate 113 is sufficiently high, a plurality of patterns generated in the pattern 113W and the pattern 113R are generated.
- the diffused light is derived from one main surface 113V and the other main surface 113Q of the light guide plate 113 as a substantially uniform surface light source. Further, a part of the diffused light generated in the pattern 113W on the one main surface 113V and a large part of the diffused light generated on the pattern 113R on the other main surface 113Q are visually recognized by the viewer's eyes E. Therefore, the light guide plate 113 shown in FIG.
- 17B is formed more than the light guide plate 113 in which a plurality of patterns 113W formed on one main surface 113V and a plurality of patterns 113R formed on the other main surface 113Q shown in FIG.
- the light guide plate 114 in which a plurality of patterns 114W formed on one main surface 114V and a plurality of patterns 114R formed on the other main surface 114Q shown in FIG. Since the number of patterns in which the diffused light is generated is increased, the difference in brightness of light in the light guide plate 114 is reduced. Further, since the light intensity of the light source 31 is relatively lowered with respect to the tip from the incident surface of the light guide plate, the pattern depth is changed from the incident surface 115F of the light guide plate 115 to the tip as shown in FIG.
- the intensity of the diffused light may be averaged by forming the pattern pitch so as to be denser in steps from the incident surface 115F of the light guide plate 115 toward the tip 115G.
- the optical characteristics of the light guide plate when light is incident on the light guide plate provided in the light guide unit 110 from a plurality of incident surfaces will be described with reference to FIG.
- the light guide plate 116 shown in FIG. 19 is provided between the light guide piece 112B and the light guide piece 112C of the light guide plate 112 after the light source 31 is provided on the incident surface 111F of the light guide plate 112 shown in FIG. This also corresponds to the state where the light source 31 is provided.
- the pattern 116A provided on one main surface of the light guide plate 116C to the light guide plate 116F and the pattern 116B provided on the other main surface are each formed in a matrix at a pitch P1.
- the incident light L1 is irradiated from the horizontal direction X of FIG. Yes.
- the incident light L2 is irradiated from the vertical direction Y of FIG. 19 to each pattern of the light guide plate 116C to the light guide plate 116F.
- the light guide plate 116D to the light guide plate shown in FIGS. 19B to 19D with reference to the state in which the pattern 116A and the pattern 116B are formed so as to face each other like the light guide plate 116C shown in FIG.
- Optical characteristics under three conditions in which the pattern 116B is decentered in a predetermined direction with respect to the pattern 116A as in 116F will be described.
- the pattern 116B is formed by decentering the pattern 116A by a half pitch P2 in the X direction as in the light guide plate 116D shown in FIG. 19B.
- the pattern formed in the X direction of the light guide plate 116 visible from the one main surface side of the light guide plate 116D is twice that of the pattern of the light guide plate 116C shown in FIG.
- the light guide plate 116D shown in FIG. 19B has a bright spot with a pattern visible from one main surface side of the light guide plate 116D as compared with the light guide plate 116C shown in FIG. 19A.
- the light guide plate 116E shown in FIG. 19C when the pattern 116B is formed with a half pitch P2 eccentricity in the Y direction with respect to the pattern 116A, the light guide plate 116E can be viewed from one main surface side.
- the pattern formed in the Y direction of the light plate 116E is twice as large as the pattern of the light guide plate 116C shown in FIG. For this reason, the light guide plate 116E shown in FIG.
- 19C has a bright spot with a pattern visible from one main surface side of the light guide plate 116E as compared with the light guide plate 116C shown in FIG. 19A. Since the light intensity is doubled in the Y direction of 116E, the difference in brightness of the light in the Y direction of the light guide plate 116E is reduced.
- the pattern 116B is respectively in the X direction and the Y direction with respect to the pattern 116A like the light guide plate 116F shown in FIG.
- the patterns formed respectively in the X direction and the Y direction of the light guide plate 116F visible from one main surface side of the light guide plate 116F are those of the light guide plate 116C shown in FIG.
- Each is twice the pattern.
- the light guide plate 116F shown in FIG. 19D has a bright spot with a pattern visible from one main surface side of the light guide plate 116F as compared with the light guide plate 116C shown in FIG. 19A.
- the difference between light and darkness of the light guide plate 116F in the X direction and the Y direction is considerably reduced.
- the position of the pattern 116B with respect to the pattern 116A of the light guide plate 116 is decentered in the X and Y directions.
- the optical characteristics of the light guide plate 116 can be arbitrarily selected.
- the difference in brightness of light in the X and Y directions is smaller than in the light guide plate 116C shown in FIG. Optical properties are obtained.
- FIG. 20 shows a concave pattern 117 ⁇ / b> A made of a quadrangular pyramid formed on the light guide plate 117.
- the concave pattern 117A made of a quadrangular pyramid has a rectangular surface at the lowermost part 117A ′, so that diffused light can be efficiently derived from the one main surface 117C and the other main surface 117D. Can do.
- a part of the light incident from the incident surface 117F is irradiated, for example, on the lowermost portion 117A ′ of the pattern 117A formed on the one main surface 117C side, away from the incident surface 117F, and the other main Reflected to the surface 117D side.
- a part of the light incident from the incident surface 117F is irradiated, for example, on the lowermost portion 117A ′ of the pattern 117A formed on the other main surface 117D side, and is in a direction away from the incident surface 117F and the one main surface 117C. Reflected to the side. Therefore, the light incident from the incident surface 117F can be converted into diffused light more efficiently and derived from the one main surface 117C and the other main surface 117D.
- the concave pattern 117A made of a quadrangular pyramid has a rectangular surface at the lowermost part 117A ′, so that it diffuses from the one main surface 117C and the other main surface 117D. Light can be directly derived efficiently. Specifically, if the concave pattern 117A has a pure quadrangular pyramid shape, the diffused light generated in the vicinity of the lowermost portion 117A ′ of the quadrangular pyramid extends from one surface 117M to the other surface 117N at the tip.
- the diffused light is greatly attenuated by the multiple reflection in the vicinity of the lowermost portion 117A ′, and is difficult to be derived from the one main surface 117C or the other main surface 117D.
- the concave pattern 117A has a rectangular surface at the lowermost part 117A ′ of the quadrangular pyramid
- the diffused light generated in the vicinity of the lowermost part 117A ′ of the quadrangular pyramid has a surface 117M in the vicinity of the lowermost part 117A ′. Since there is a certain distance between the other surface 117N facing each other, it is directly derived from the one main surface 117C or the other main surface 117D before multiple reflection. Therefore, the light incident from the incident surface 117F can be derived from the main surface more efficiently.
- FIGS. 21 includes a combination of a light guide plate 121 and a light guide plate 122 formed so that the lengths of the light guide pieces branched into a plurality are the same.
- the branched light guide pieces are formed to have the same length.
- the specification concerning the light guide part 120 of the other illuminating device 3 is the same as the specification of the light guide part 110 mentioned above.
- 22 is provided with a combination of a light guide plate 131 and a light guide plate 132 formed so that the light guide pieces branched into four in a cross shape have a trapezoidal shape. ing.
- the tip 131G of the light guide plate 131 is branched into two, a light guide piece 131A and a light guide piece 131B. Further, the light guide plate 131 is formed in a trapezoidal shape by the tip 131G of the light guide piece 131A and the light guide piece 131B being inclined so as to become lower from the periphery of the lighting device 4 toward the center. Further, the light guide plate 132 inserted and combined in the light guide plate 131 has the same shape as the light guide plate 131.
- the light guide unit 140 of the illumination device 5 illustrated in FIG. 23 has a light guide plate formed so that four tips provided in a cross shape are arc-shaped respectively. 141 and the light guide plate 142 are provided in combination.
- the tip 141G of the light guide plate 141 is branched into two: a light guide piece 141A and a light guide piece 141B.
- the light guide plate 141 is formed in an arc shape by the tips 141G of the light guide piece 141A and the light guide piece 141B being curved so as to increase from the periphery of the illumination device 5 toward the center. Yes.
- the light guide plate 142 inserted and combined in the light guide plate 141 is formed in a semicircular shape by the tip 142G being curved from the periphery of the illumination device 5 toward the center. 24 has the same outer shape as the light guide unit 120 of the illumination device 3 shown in FIG. 21 described above.
- the light guide plate 151 and the light guide plate 152 of the light guide unit 150 are formed with a concave pattern, a convex pattern, or a concave and convex pattern on the front end 151G and the front end 152G, and the side surface 151U and the side surface 152U.
- the outer shapes of the light guides 120 to 140 described with reference to FIGS. 21 to 23 can also be applied to the lighting device 1 of the first embodiment described above.
- the light guide unit 110 to the light guide unit 140 are positioned 1 m apart from the tip of each light guide unit in the vertical direction and horizontally from the 1 m apart position.
- Table 1 shows an example of the measurement result of the illuminance [lx] at a total of four positions 30 cm, 50 cm, and 100 cm apart. The light source conditions are the same in each light guide.
- the outer shape of the light guide plate is determined in accordance with the environment of the facility and the preference of the user, similarly to the lighting device 1 according to the first embodiment. Can do. That is, in each illuminating device according to the second embodiment, a light guide unit such as a spot type or a light bulb type having different light distribution characteristics and design properties can be provided. Specifically, in each illuminating device according to the second embodiment, similarly to the illuminating device 1 according to the first embodiment, the emission surface at the tip of the light guide plate provided in the light guide unit is branched into a plurality of portions. The surface area of the side surface that multi-reflects light inside the light guide plate is increased.
- each illumination device according to the second embodiment is used, the ratio of light that is directly derived from the emission surface at the front end of the light guide plate is reduced, and light that is derived from the side surface of the light guide plate is reduced. Since the ratio of increases, the surroundings can be illuminated brightly. That is, the directivity of light derived from each lighting device can be expanded. Furthermore, the light derived from the light guide plate can suppress the viewer from feeling dazzling when entering the eyes of the viewer.
- tip part of the light-guide plate provided in a light guide part curves, for example toward an outer side or an inner side. It has a curved surface, a trapezoidal trapezoidal shape, a truncated cone shape, or a shape having a concave portion formed of a columnar shape or a conical shape with a predetermined depth.
- the emission direction of light derived from the tip of the light guide plate can be controlled to a predetermined angle, and the light is diffusely reflected at the tip of the light guide plate. Since a part of the light is reflected toward the incident surface, the light can be easily multi-reflected inside the light guide plate, and the light derived from the tip of the light guide plate can be substantially condensed light or substantially divergent. Can be light. That is, if each illumination device according to the second embodiment is used, the light intensity distribution of the light derived from the light guide unit of each illumination device can be arbitrarily set. For example, the illumination device is orthogonal to each illumination device.
- the light guide plate is provided so as to extend in the horizontal direction every time it is separated from the housing, for example, light can be led out to the rear in addition to the front of each lighting device.
- each illuminating device as in the illuminating device 1 according to the first embodiment, the outer shape of the light guide plate provided in the light guide unit, for example, two light guide plates in a three-dimensional manner. By crossing and combining, it has a cross shape. Therefore, if each illumination device according to the second embodiment is used, the light derived from the main surface of the light guide plate is emitted without being shielded by another light guide plate adjacent to the light guide plate. Can do.
- the light guide plate provided in the light guide section is transparent, for example, the other main surface opposed to one main surface of the light guide plate can be visually recognized, and for example, other adjacent to one main surface of the light guide plate One main surface of the light guide plate can be visually recognized.
- the difference in brightness of light derived from the light guide plate can be suppressed. Furthermore, since two light guide plates provided in a cross shape, for example, are overlapped with the light guide portion, for example, a part of the light that is multiply reflected within one light guide plate is adjacent to the one light guide plate. Then, the light is incident on another light guide plate that is overlapped and then further reflected multiple times inside the other light guide plate. That is, the light from the light source incident from the incident surface of the light guide plate is dispersed as diffused light. Therefore, when the viewer visually recognizes the light derived from the light guide plate, the viewer does not feel dazzling and can be recognized as a good surface light source with little difference in brightness.
- each illuminating device according to the second embodiment as in the illuminating device 1 according to the first embodiment, the light guide plate provided in the light guide unit is formed in various shapes, thereby providing an excellent design. It has sex. Therefore, if each lighting device according to the second embodiment is used, the lighting device is not limited to a conventional lighting device that obtains a constant illuminance by simply illuminating a room or the like. A predetermined effect can be obtained for the viewer.
- each illuminating device unlike the illuminating device 1 according to the first embodiment, the light of the light source unit 30 incident from the incident surface is diffused on the light guide plate provided in the light guide unit.
- a concave or convex pattern derived as follows is formed.
- each lighting device is generated by a concave or convex pattern formed on the light guide plate in addition to the light that is transmitted through the light guide plate from the outside to the outside. Diffuse light can be derived.
- each illuminating device provides a plurality of diffused light generated in each pattern of the light guide plate by providing concave or convex patterns arranged in a matrix on the main surface of the light guide plate.
- the main surface of the light guide plate can act as a substantially uniform surface light source.
- the diffused light generated by the concave or convex pattern formed on the main surface of the light guide plate does not feel dazzling to the viewer and is visually recognized as gentle light that is closer to nature by the viewer.
- the lighting device 7 includes a power receiving unit to which power is supplied from the outside, a power source unit that is connected to the power receiving unit and converts the power into predetermined driving power, and A light source unit that is connected to a power source unit and emits light by the driving power; a housing unit that houses the light source unit; and a projection projecting from the housing unit to split light from the light source unit that is incident from an incident surface.
- a light guide portion led out from the light exit surface, and the light guide portion has a display surface representing predetermined information in a concave or convex pattern on a part or the whole surface of the light exit surface.
- the configuration of the lighting device 7 according to the third embodiment of the present invention includes a power receiving unit to which power is supplied from the outside, a power source unit that is connected to the power receiving unit and converts the power to predetermined driving power, A light source unit that is connected to the power source unit and emits light by the driving power, a housing unit that houses the light source unit, and a projection that protrudes from the housing unit and branches light from the light source unit that is incident from an incident surface
- a light guide part that is led out from the emitted light surface, and the light guide part has a concave or convex pattern that leads light from the light source part as diffused light on the light emission surface, and the light emission surface
- a display surface representing predetermined information in a concave or convex pattern may be provided on a part or the whole of the display.
- the illuminating device 7 of the 3rd Embodiment of this invention has the characteristics in the light guide part 160 which provided the display surface which represents predetermined information with a concave or convex pattern.
- Other configurations according to the third embodiment are the same as the configurations described in the first or second embodiment.
- the illuminating device 7 of the third embodiment includes a power receiving unit 10, a power source unit 20, a light source unit 30, and a housing unit 40 having the same specifications as the illuminating device 1 of the first embodiment,
- the light guide 160 is unique to the illumination device 7 of the third embodiment. Therefore, in the third embodiment, the light guide unit 160 having a configuration different from those of the first and second embodiments will be mainly described.
- the illuminating device 7 of the 3rd Embodiment of this invention is the structure which replaces the light guide part 100 of the illuminating device 1 of 1st Embodiment with the light guide part 160, or each illuminating device of 2nd Embodiment. Any configuration in which each light guide unit is replaced with the light guide unit 160 may be used.
- the illumination device 7 according to the third embodiment of the present invention will be described as a configuration in which each light guide portion of each illumination device according to the second embodiment is replaced with a light guide portion 160.
- a display surface 162S is provided on a portion of the light guide plate 162 protruding from the tip 161G of the light guide plate 161, and a concave or convex pattern is formed on the display surface 162S. Predetermined information is expressed by concentrating.
- a light guide unit 160 includes a light guide plate 161 and a light guide plate 162.
- the light guide plate 161 has the same specifications as those of the light guide plate 111 of the light guide unit 110 constituting the illumination device 2 of the second embodiment, except for the specifications of the tip 161G and the tip 161G ′.
- the front end 161G and the front end 161G ′ of the light guide plate 161 are recessed at the center due to two opposed inclined surfaces.
- the light guide plate 162 includes specifications of the tip 162G and the tip 162G ′, and a light guide piece 162E in which a display unit 162S is provided between the light guide piece 162A and the light guide piece 162D. Except this, it consists of the same specification as the light guide plate 112 of the light guide part 110 which comprises the illuminating device 2 of 2nd Embodiment.
- the tip 162G of the light guide plate 162 has a plurality of recessed shapes due to a plurality of inclined surfaces that are alternately inclined.
- the front end 162G ′ of the light guide plate 162 is recessed at the center by two opposed inclined surfaces.
- the light guide piece 162E corresponds to a light guide piece 112B that is not branched between the light guide piece 112B and the light guide piece 112C of the light guide plate 112 and is integrally formed.
- a light guide piece 162E is provided with a display surface 162S at a portion protruding from the tip 161G of the light guide plate 161 combined with the light guide plate 162, and the display portion 162S has a predetermined pattern in a concave or convex shape.
- Information is represented.
- the predetermined information includes, for example, a character, a figure, a trade name, a character, or a symbol, and may be a combination thereof.
- “A” is displayed in uppercase letters of the alphabet by concentrating concave or convex patterns.
- the display portion 162S is not provided with a concave or convex pattern formed in a matrix.
- the external shape of a light-guide plate is match
- a light guide unit such as a spot type or a light bulb type having different light distribution characteristics and design properties can be provided.
- the emission surface at the tip of the light guide plate provided in the light guide unit is branched into a plurality of parts.
- the surface area of the side surface that multi-reflects the light inside the light guide plate is increased. Therefore, if the illumination device 7 according to the third embodiment is used, the ratio of the light that is directly derived from the emission surface at the tip of the light guide plate is reduced, and the light that is derived from the side surface of the light guide plate is reduced. Since the ratio of increases, the surroundings can be illuminated brightly. That is, the directivity of light derived from the illumination device 7 can be expanded. Furthermore, the light derived from the light guide plate can suppress the viewer from feeling dazzling when entering the eyes of the viewer.
- tip part of the light-guide plate provided in a light guide part is made into an outer side or an inner side, for example
- the curved surface is curved toward the surface, the shape is a trapezoidal trapezoidal shape or a truncated cone shape, or the shape is provided with a concave portion formed of a columnar shape or a cone shape having a predetermined depth.
- the illumination device 7 according to the third embodiment the light emission direction derived from the front end of the light guide plate can be controlled to a predetermined angle, and the light is irregularly reflected at the front end of the light guide plate. Since a part of the light is reflected toward the incident surface, the light can be easily multi-reflected inside the light guide plate, and the light derived from the tip of the light guide plate can be substantially condensed light or substantially divergent. Can be light. That is, if the illumination device 7 according to the third embodiment is used, the light intensity distribution of light derived from the light guide unit of the illumination device 7 can be arbitrarily set. For example, the illumination device 7 is orthogonal to the illumination device 7.
- the outer shape of the light guide plate provided in the light guide unit is, for example, two light guide plates.
- the cross shape is obtained by crossing them in three dimensions. Therefore, by using the illumination device 7 according to the third embodiment, light derived from the main surface of the light guide plate can be emitted without being shielded by another light guide plate adjacent to the light guide plate. Can do.
- the light guide plate provided in the light guide section is transparent, for example, the other main surface opposed to one main surface of the light guide plate can be visually recognized, and for example, other adjacent to one main surface of the light guide plate One main surface of the light guide plate can be visually recognized.
- the difference in brightness of light derived from the light guide plate can be suppressed. Furthermore, since two light guide plates provided in a cross shape, for example, are overlapped with the light guide portion, for example, a part of the light that is multiply reflected within one light guide plate is adjacent to the one light guide plate. Then, the light is incident on another light guide plate that is overlapped and then further reflected multiple times inside the other light guide plate. That is, the light from the light source incident from the incident surface of the light guide plate is dispersed as diffused light. Therefore, when the viewer visually recognizes the light derived from the light guide plate, the viewer does not feel dazzling and can be recognized as a good surface light source with little difference in brightness.
- the lighting device 7 similarly to each illuminating device according to the first and second embodiments, by forming the light guide plate provided in the light guide unit in various shapes, Has excellent design. Therefore, if the lighting device 7 according to the third embodiment is used, the lighting device 7 is not limited to a conventional lighting device that obtains a constant illuminance by simply illuminating a room or the like. A predetermined effect can be obtained for the viewer.
- the illumination device 7 according to the third embodiment unlike the illumination device 1 according to the first embodiment, the light of the light source unit 30 incident from the incident surface is diffused on the light guide plate provided in the light guide unit.
- a concave or convex pattern derived as follows is formed. Accordingly, the lighting device 7 according to the third embodiment is generated in a concave or convex pattern formed on the light guide plate in addition to the light transmitted through the light guide plate from the outside to the outside. Diffuse light can be derived.
- the illuminating device 7 according to the third embodiment provides a plurality of diffused light generated in each pattern of the light guide plate by providing concave or convex patterns arranged in a matrix on the main surface of the light guide plate.
- the main surface of the light guide plate can act as a substantially uniform surface light source.
- the diffused light generated in the concave or convex pattern formed on the main surface of the light guide plate is dispersed in the light, so that it does not feel dazzling to the viewer, and is more natural for the viewer. Visible as near gentle light.
- the display surface 162S is provided on the portion of the other light guide plate protruding from the tip of the light guide plate, Predetermined information is represented by a concave or convex pattern on the display surface 162S. Therefore, the lighting device 7 according to the third embodiment as described above improves the design by providing, for example, the name of the facility that uses the lighting device 7 on the display surface 162S. The name and the like can be easily retained in the user's memory.
- the lighting device includes a power receiving unit to which electric power is supplied from the outside, a power source unit that is connected to the power receiving unit and converts the power into predetermined driving power, and the power source.
- a light source unit that emits light by the driving power
- a housing unit that houses the light source unit, and a projection protruding from the housing unit, and the light of the light source unit that has entered from the incident surface is branched
- a light guide unit that is led out from the emission surface
- the housing unit includes an angle adjustment unit that adjusts an angle at which the light guide unit is disposed.
- the configuration of the lighting device includes a power receiving unit to which power is supplied from the outside, a power source unit connected to the power receiving unit and converting the power into predetermined driving power, and A light source unit that is connected to a power source unit and emits light by the driving power; a housing unit that houses the light source unit; and a projection that protrudes from the housing unit and splits light from the light source unit that is incident from an incident surface.
- the configuration of the illumination device includes a power receiving unit to which power is supplied from the outside, a power source unit that is connected to the power receiving unit and converts the power to predetermined driving power, A light source unit that is connected to the power supply unit and emits light by the driving power, a housing unit that houses the light source unit, and a projection projecting from the housing unit that branches light from the light source unit that is incident from an incident surface.
- a light guide portion that is led out from the exit surface, wherein the light guide portion is formed with a concave or convex pattern on the exit surface that guides the light from the light source portion as diffused light.
- a display surface that represents predetermined information in a concave or convex pattern may be provided on a part or the entire surface, and the casing may be provided with an angle adjustment unit that adjusts an angle at which the light guide unit is disposed. .
- the illuminating device of the 4th Embodiment of this invention has the characteristics in the housing
- FIG. in addition, the configuration according to the fourth embodiment is the same as the configuration described in the first or second embodiment.
- the illumination device of the fourth embodiment includes a power reception unit 10, a power source unit 20, and a light source unit 30 having the same specifications as those of the illumination device 1 of the first embodiment, and the illumination device of the fourth embodiment.
- the light guide unit 170 is unique to the lighting device, and the housing unit 50 can adjust the angle of the light guide plate provided in the light guide unit 170.
- the light guide unit 170 and the housing unit 50 having different configurations from the first and second embodiments will be mainly described.
- the illuminating device of the 4th Embodiment of this invention is each light guide which concerns on the illuminating device 1 of 1st Embodiment, each illuminating device of 2nd Embodiment, or the illuminating device 7 of 3rd Embodiment.
- the light guide unit 170 and the housing unit 50 are used to replace either the unit or each housing unit.
- the light guide part 170 which comprises the illuminating device of 4th Embodiment is comprised from the light guide plate 171 as shown in FIG.
- a light guide plate 171 includes a base portion 171A and eight light guide pieces 171B to 171I.
- the light guide plate 171 is integrally formed so that, for example, the light guide pieces 171B to 171I each having a prismatic shape are provided in a cross shape on one surface of the base portion 171A having a disk shape, for example. Molded or joined.
- a concave or convex pattern is formed on one or more surfaces of the light guide pieces 171B to 171I of the light guide plate 171.
- concave or convex patterns for the light guide pieces 171B to 171I of the light guide plate 171 is omitted. Further, as shown in FIG. 30, a concave or convex pattern is not formed in a matrix on a part of one main surface 171V of the light guide piece 171E of the light guide plate 171 or the tip 171S of the light guide piece 171D. For example, concave or convex patterns are densely formed so as to represent a star-shaped figure.
- a semicircular resin (not shown) as a lens on a star-shaped figure expressed by concentrating concave or convex patterns on the tip 171S of the light guide piece 171D,
- the figure may be enlarged or reduced and projected onto a wall surface or the like.
- the casing unit 50 constituting the lighting device of the fourth embodiment includes an angle adjustment unit 51, a support unit 52, a connection unit 53, a protection unit 54, and a fixing member 55.
- casing part 50 is demonstrated.
- a substrate 32 provided with a light source 31 is mounted on a mounting member 51B formed in a disk shape.
- the upper fixing member 51D is formed in a disk shape, for example, and is provided with a cross-shaped opening through which the light guide pieces 171B to 171I of the light guide plate 171 pass.
- the base portion 171A of the light guide plate 171 and the substrate 32 are accommodated between the upper fixing member 51D and the mounting member 51B, they are integrally fixed by, for example, a fixing member made of screws or the like (not shown). Yes.
- one end of the inner peripheral surface of the cylindrical protective member 51A is joined to the outer peripheral surface of the upper fixing member 51D by, for example, an adhesive.
- the support portion 52 of the housing unit 50 is provided with a hole (not shown) that rotatably accommodates the rotation member 51C of the angle adjustment unit 51 in an upper portion of a support member 52A formed in a conical shape, for example.
- a member 52B is provided.
- channel provided in the outer periphery of the storage member 52B is connected. When such an adjustment member 52C is rotated in a predetermined direction, the groove provided on the outer periphery of the storage member 52B is engaged and fixed in a state where the groove provided on the inner periphery of the adjustment member 52C is biased.
- the connecting part 53 is fixed in a state where one end of the connecting part 53 is inserted into the lower end of the support member 52A of the support part 52.
- a connecting portion 53 is formed in a cylindrical shape having a screw groove formed on the outer periphery.
- the connecting portion 53 is connected to, for example, a screw hole (not shown) provided in the power receiving unit 10.
- casing part 50 is for accommodating and protecting the angle adjustment part 51 and the support part 52 inside, and is formed in the cylindrical shape.
- the protective member 54 passes a plurality of fixing members 55 made of, for example, pan-head screws through screw holes 54B provided at regular intervals on the outer peripheral surface 54A of the protective member 54, and the tips of the fixing members 55 are connected to the angle adjusting portion 51.
- the angle adjusting unit 51 is fixed at a predetermined angle.
- the external shape of a light-guide plate is determined according to the environment of a facility, or a user preference similarly to each illuminating device which concerns on the 1st thru
- the surface area of the side surface that multi-reflects the light inside the light guide plate is increased. Therefore, when the illumination device according to the fourth embodiment is used, the ratio of light that is directly derived from the light exit surface at the tip of the light guide plate is reduced, and the light derived from the side surface of the light guide plate is reduced. Since the ratio increases, the surroundings can be illuminated. That is, the directivity of light derived from the lighting device can be expanded. Furthermore, the light derived from the light guide plate can suppress the viewer from feeling dazzling when entering the eyes of the viewer.
- the shape of the tip portion of the light guide plate provided in the light guide unit is directed to, for example, the outside or the inside, as in the illumination devices according to the first to third embodiments.
- the illumination device can be controlled to a predetermined angle, and the light irregularly reflected at the tip of the light guide plate Since a part of the light is reflected toward the incident surface, the light can be easily multi-reflected inside the light guide plate, and the light derived from the tip of the light guide plate can be substantially condensed light or substantially divergent light. Can be. That is, if the illumination device according to the fourth embodiment is used, the light intensity distribution of light derived from the light guide unit of the illumination device can be arbitrarily set, for example, from a direction orthogonal to the illumination device. Light having a substantially uniform light intensity distribution can be derived in the horizontal direction. In addition, if the light guide plate is provided so as to extend in the horizontal direction whenever it is separated from the casing, for example, light can be led out to the rear in addition to the front of the lighting device.
- the outer shape of the light guide plate provided in the light guide unit for example, two light guide plates are three-dimensional. By crossing them together, a cross shape can be obtained. Therefore, by using the illumination device according to the fourth embodiment, light derived from the main surface of the light guide plate can be emitted without being shielded by another light guide plate adjacent to the light guide plate. it can. Further, the light guide plate provided in the light guide section is transparent, for example, the other main surface opposed to one main surface of the light guide plate can be visually recognized, and for example, other adjacent to one main surface of the light guide plate One main surface of the light guide plate can be visually recognized.
- the difference in brightness of light derived from the light guide plate can be suppressed. Furthermore, since two light guide plates provided in a cross shape, for example, are overlapped with the light guide portion, for example, a part of the light that is multiply reflected within one light guide plate is adjacent to the one light guide plate. Then, the light is incident on another light guide plate that is overlapped and then further reflected multiple times inside the other light guide plate. That is, the light from the light source incident from the incident surface of the light guide plate is dispersed as diffused light. Therefore, when the viewer visually recognizes the light derived from the light guide plate, the viewer does not feel dazzling and can be recognized as a good surface light source with little difference in brightness.
- the illuminating device according to the fourth embodiment similarly to each of the illuminating devices according to the first to third embodiments, by forming the light guide plate provided in the light guide unit in various shapes, it is excellent. Design can be provided. Therefore, if the lighting device according to the fourth embodiment is used, it is not limited to a conventional lighting device that obtains a certain illuminance by simply illuminating a room or the like. A predetermined effect can be obtained for a person.
- the illumination device according to the fourth embodiment similarly to each of the illuminating devices according to the second and third embodiments, the light of the light source unit 30 incident on the light guide plate provided in the light guide unit from the incident surface. Is formed as a concave or convex pattern. Therefore, the illumination device according to the fourth embodiment has a diffusion generated in a concave or convex pattern formed on the light guide plate in addition to the light that is transmitted through the light guide plate from the outside to the outside. Light can be derived.
- the illumination device according to the fourth embodiment is provided with a plurality of diffused lights generated in each pattern of the light guide plate by providing concave or convex patterns arranged in a matrix on the main surface of the light guide plate.
- the main surface of the light guide plate can act as a substantially uniform surface light source. Moreover, the diffused light generated by the concave or convex pattern formed on the main surface of the light guide plate does not feel dazzling to the viewer and is visually recognized as gentle light that is closer to nature by the viewer.
- a concave or convex pattern is formed on the main surface or a part of the tip of the light guide plate provided in the light guide unit, similarly to the illuminating device 7 according to the third embodiment.
- Predetermined information is expressed by being crowded. Therefore, such a lighting device according to the fourth embodiment can improve the design and make it easy to leave predetermined information to be notified in the user's memory.
- the light guide plate of the light guide unit disposed in the illuminating device can be changed to an arbitrary angle. Can be adjusted. Therefore, the lighting apparatus according to the fourth embodiment arbitrarily adjusts the angle of the light guide plate regardless of the angle of the socket provided in the indoor facility into which the base 11 of the power receiving unit 10 of the lighting apparatus is screwed. be able to. Specifically, the lighting device according to the fourth embodiment tilts the light guide plate disposed in the lighting device downward, for example, even when the socket is horizontally provided on the upper side wall of the indoor facility. Thus, the room can be illuminated more effectively.
- a molding process and a cutting process can be used in the method of manufacturing the light guide plate disposed in the lighting device 1 of the first embodiment.
- each manufacturing method will be described.
- a shape reflecting the outer shape of the light guide plate to be molded is formed inside the mold, for example, after injecting a softened resin heated to the mold mounted on the injection molding machine, The outer shape of the light guide plate is formed by cooling the resin.
- the base material for the light guide plate is cut by, for example, end milling using a milling machine to form the outer shape of the light guide plate.
- ultrasonic processing heating processing, cutting processing, laser processing, molding processing, and silk printing processing are used for the manufacturing method of the light guide plate disposed in each lighting device of the second to fourth embodiments. be able to.
- ultrasonic processing a concave pattern is formed on the surface of the light guide plate by partially melting the surface of the light guide plate using ultrasonic vibrations of an ultrasonic processing horn in contact with the surface of the light guide plate.
- the heating process the surface of the light guide plate is partially melted using the heat of the processing tool brought into contact with the surface of the light guide plate, thereby forming a concave pattern on the surface.
- a concave pattern is formed on the surface of the light guide plate by partially scraping off the surface of the light guide plate using a cutting tool that is rotated or biased while being in contact with the surface of the light guide plate.
- the surface of the light guide plate is partially melted using the heat of the laser light condensed on the surface of the light guide plate, thereby forming a concave pattern on the surface.
- a shape reflecting the outer shape of the light guide plate to be molded is formed inside the mold. For example, by injecting a resin softened by heating with respect to a mold attached to an injection molding machine, the resin is cooled, thereby forming a concave pattern, a convex pattern on the surface of the light guide plate, or Concave and convex patterns are formed.
- a plate having predetermined holes is brought into contact with the surface of the light guide plate, and a curable resin is attached to the surface through the holes, and the surface is partially made of resin. By coating, a convex pattern is formed on the surface.
- a particulate diffusion member that emits diffused light may be added to a resin used for molding or silk printing.
- a resin obtained by adding a particulate diffusion member that emits diffused light to a resin that is a base material of a light guide plate that performs the ultrasonic processing, heating processing, cutting processing, or laser processing described above may be used.
- or 4th embodiment it combines the ultrasonic processing mentioned above, a heating process, a cutting process, a laser process, a shaping
- a light guide plate may be formed.
- a concave pattern may be formed on the surface of the light guide plate by, for example, ultrasonic processing.
- a convex pattern may be formed on the surface of the light guide plate by silk printing, for example.
- the ultrasonic processing apparatus 1000 includes a housing portion 1010 that houses and accommodates the components constituting the ultrasonic processing apparatus 1000, and a light guide plate base that is a base material before being formed on the light guide plate.
- a processing base portion 1020 for vacuuming and fixing the material D On the main surface of the light guide plate base material D, a processing base portion 1020 for vacuuming and fixing the material D, a moving mechanism portion 1030 for moving an ultrasonic processing portion 1040 described later relative to the light guide plate base material D, and the like.
- the control part 1050 which controls the ultrasonic processing by the ultrasonic processing part 1040 based on conditions.
- each component device of the casing unit 1010, the processing table unit 1020, the moving mechanism unit 1030, the ultrasonic processing unit 1040, and the control unit 1050 constituting the ultrasonic processing apparatus 1000 will be described.
- three-dimensional orthogonal coordinates or two-dimensional orthogonal coordinates shown in each drawing are used as needed.
- the casing unit 1010 constituting the ultrasonic processing apparatus 1000 is mounted with and accommodates each component device constituting the ultrasonic processing apparatus 1000.
- a housing 1010 includes an upper plate 1011, a column 1012, a lower plate 1013, and legs 1014.
- the upper plate 1011 and the lower plate 1013 of the housing unit 1010 are made of, for example, stainless steel and are formed in a plate shape.
- a controller 1034 of the moving mechanism unit 1030, an ultrasonic oscillator 1043 of the ultrasonic processing unit 1040, a control device 1054 of the control unit 1050, and the like are mounted on the lower plate 1013.
- casing part 1010 consists of stainless steel, for example, and is formed from the rod-shaped and hollow square material.
- a support member 1051 of the control unit 1050 is attached to the support column 1012 of the casing unit 1010.
- casing part 1010 consists of reinforced plastics, for example, and is formed in the cylindrical shape.
- the processing base unit 1020 constituting the ultrasonic processing apparatus 1000 fixes the light guide plate base D, which is a base before being formed on the light guide plate, by vacuum suction, for example.
- a processing table unit 1020 includes a processing table 1021, a vacuum pump 1022, a suction pipe 1023, a distributor 1024, and a connector 1025.
- the processing table 1021 of the processing table unit 1020 is made of, for example, aluminum and is formed of a plate-like member having a plurality of suction holes 1021A.
- Such a processing table 1021 is disposed on the upper plate 1011 of the housing portion 1010. Further, for example, as shown in FIG.
- one end of the suction pipe 1023 is connected to the vacuum pump 1022, and the other end of the suction pipe 1023 is provided on the work table 1021 via the distributor 1024, for example, as shown in FIG.
- the suction hole 1021A is connected using a connector 1025.
- the light guide plate base material D is vacuum-adsorbed to the suction hole 1021A of the processing table 1021 to prevent the light guide plate base material D from being displaced during processing, and the light guide plate base material D is warped or bent. Etc. are corrected.
- the moving mechanism unit 1030 constituting the ultrasonic processing apparatus 1000 moves the ultrasonic processing unit 1040 relative to the light guide plate substrate D fixed to the processing table unit 1020, for example, as shown in FIG. Specifically, the moving mechanism unit 1030 moves the ultrasonic processing unit 1040 to the X axis shown in FIG. 31 based on the ultrasonic processing information related to the light guide plate substrate D input from the operation panel 1052 of the control unit 1050, for example. , And move to predetermined positions in the Y-axis and Z-axis directions.
- Such a moving mechanism unit 1030 includes an X-axis rail member 1031, an auxiliary X-axis rail member 1031 ′, a Y-axis rail member 1032, a Z-axis rail member 1033, and a controller 1034.
- the controller 1034 is for moving the ultrasonic processing unit 1040 to a predetermined position using each rail member based on processing information of the light guide plate base material D input from an operation panel 1052 of the control unit 1050 described later. It is a control device.
- the ultrasonic processing unit 1040 constituting the ultrasonic processing apparatus 1000 causes the projection of the ultrasonic processing horn 1042 to abut the main surface of the light guide plate base material D to generate ultrasonic vibration.
- the main surface is partially heated and melted to form a concave pattern.
- Such an ultrasonic processing unit 1040 includes a support member 1041, an ultrasonic processing horn 1042, and an ultrasonic oscillator 1043.
- the ultrasonic processing horn 1042 of the ultrasonic processing unit 1040 is connected to the support member 1041 disposed on the plate 1033B connected to the movable table 1033A of the Z-axis rail member 1033, and the ultrasonic oscillator 1043.
- a vibrator 42A provided with a piezoelectric element and a cone member (not shown), which are in contact with the surface of the light guide plate base material D and are subjected to ultrasonic processing.
- the plate 1033B of the Z-axis rail member 1033 is provided with a stopper member 1033D via a support block 1033C, and supports the ultrasonic processing unit 1040.
- the ultrasonic processing unit 1040 starts to move downward in the drawing and the tip 1042B of the ultrasonic processing horn 1042 comes into contact with the surface of the light guide plate substrate D, as shown in FIG.
- the ultrasonic processing horn 1044 shown in FIG. 34 and FIG. 35 is compared with the ultrasonic processing horn 1042 shown in FIG. More processed dots 1045, which are protrusions for partially heating and melting the main surface of the substrate D to form a concave pattern, are formed.
- the processing dots 1045 are formed in a 54 ⁇ 29 matrix at a pitch of 2 mm in the range of 110 mm ⁇ 60 mm at the tip of the ultrasonic processing horn 1044.
- the shape of the processing dot 1045 is a quadrangular pyramid having an inclined surface of 45 degrees.
- the processing dots 1045 to which ultrasonic waves are applied are brought into contact with the surface of the light guide plate base material D, the light guide plate base material D is partially heated and melted by the vibration of the ultrasonic waves, and the light guide plate base material is melted.
- a concave pattern composed of a quadrangular pyramid reflecting the shape of the processing dot 1045 is formed on the surface of D.
- the size of the tip of the ultrasonic processing horn 1044 and the pitch and shape of the processing dots 1045 are not limited to the above specifications.
- the size of the main surface of the light guide plate provided in the light guide unit is, for example, 110 mm ⁇ 60 mm, and such a region of 110 mm ⁇ 60 mm.
- the concave pattern is formed in a matrix with a pitch of 2 mm to 2.5 mm, each diffused light generated by the plurality of concave patterns is visually recognized by the viewer as a predetermined pattern. The design of each lighting device is improved.
- the control unit 1050 constituting the ultrasonic processing apparatus 1000 controls the ultrasonic processing performed by the ultrasonic processing unit 1040 based on the processing conditions of the light guide plate base material D, for example, as shown in FIG.
- a control unit 1050 includes a support member 1051, an operation panel 1052, a display panel 1053, and a control device 1054.
- the support member 1051 of the control unit 1050 is provided in any of a plurality of support columns 1012 provided in the housing unit 1010, and an operation panel 1052 and a display panel 1053 are provided.
- the operation panel 1052 of the control unit 1050 is used by the user to input processing conditions and the like of the light guide plate base material D to the control device 1054.
- the display panel 1053 of the control unit 1050 displays processing conditions and the like of the light guide plate base material D input from the operation panel 1052.
- the control device 1054 of the control unit 1050 includes a control board for driving the entire ultrasonic processing apparatus 1000 based on predetermined control, a memory for recording control conditions, and the like.
- the lighting device 1 is connected to the power receiving unit 10 to which electric power is supplied from the outside, the power receiving unit 10 connected to the power receiving unit 10, and the power unit 20 to convert the electric power into predetermined driving power.
- the light source unit 30 that emits light by driving power
- the housing unit 40 that houses the light source unit 30, and the light source unit 30 that protrudes from the housing unit 40 and is incident on the incident surface, is branched from the emission surface.
- the light guide unit 100 to the light guide unit 170 are led out.
- the proportion of light that is directly led out from the light exit surface at the tip of the light guide plate provided in the light guide unit 100 to the light guide unit 170 is reduced.
- the ratio of the light derived from the side surface of the light guide plate increases, the surroundings can be illuminated brightly. That is, the directivity of light derived from the lighting device 1 can be expanded. Furthermore, the light derived from the light guide plate can suppress the viewer from feeling dazzling when entering the eyes of the viewer. Furthermore, in the light guide unit 100 to the light guide unit 170, for example, two light guide plates provided in a cross shape overlap each other, so that, for example, a part of the light that is multiply reflected within one light guide plate is After being incident on another light guide plate stacked adjacent to one light guide plate, the light is further reflected multiple times inside the other light guide plate and then led out.
- the light from the light source incident from the incident surface of the light guide plate is dispersed as diffused light. Therefore, when the viewer visually recognizes the light derived from the light guide plate, the viewer does not feel dazzling and can be recognized as a good surface light source with little difference in brightness.
- a concave or convex pattern that guides the light of the light source unit 30 as diffused light is formed on the emission surfaces of the light guide unit 110 to the light guide unit 150. It is characterized by being. Further, the illumination device 2 to the illumination device 6 according to claim 3 are characterized in that at least one light exit surface is provided on the light guide unit 110 to the light guide unit 150 according to claim 2.
- a concave or convex pattern is formed on the main surface of the light guide plate provided in the light guide unit 110 to the light guide unit 150.
- the main surface of the light guide plate can act as a substantially uniform surface light source by a plurality of diffused light generated in each pattern of the light guide plate. Moreover, the diffused light generated by the concave or convex pattern formed on the main surface of the light guide plate does not feel dazzling to the viewer and is visually recognized as gentle light that is closer to nature by the viewer.
- the cross-sectional shape of the light guide unit in the horizontal direction is formed by radiating in a cross shape from the center of the housing 40, for example, a cross-section of the light guide plate 107 illustrated in FIG.
- a cross-sectional shape of a light guide plate (not shown) formed by radiating in the shape of a trident from the center of the housing 40, there are provided exit surfaces that extend in directions away from the entrance surface and face each other. It is characterized by having.
- the lighting device 1 according to claim 5 is characterized in that the light guide unit 100 to the light guide unit 170 are provided with eight or more exit surfaces formed in a cross shape when viewed from the vertical direction. Yes.
- induced from the main surface of the light-guide plate provided in the light guide part is made to the other light-guide plate adjacent to this light-guide plate. It can be released without being shaded.
- the light guide plate provided in the light guide section is transparent, for example, the other main surface opposed to one main surface of the light guide plate can be visually recognized, and for example, other adjacent to one main surface of the light guide plate One main surface of the light guide plate can be visually recognized. That is, even when the light guide unit is viewed from any direction in the circumferential direction of the lighting device 1, it is possible to suppress a difference in brightness of light derived from the light guide plate.
- the horizontal cross-sectional shape of the light guide section is a polygon corresponding to, for example, the light guide plate 105 and the light guide plate 105 ′ illustrated in FIG.
- the light guide plate 106 and the light guide plate 106 ′ illustrated in FIG. 13 are formed in a circular shape, an elliptical shape, or a conical shape whose cross-sectional area decreases as the distance from the incident surface increases. Yes.
- the lighting device 1 according to claim 7 is formed such that the horizontal cross-sectional shape of the light guide unit is a polygonal shape, a circular shape, an elliptical shape, or a conical shape in which the cross-sectional area decreases as the distance from the incident surface increases. It is characterized by having. Further, the lighting device 1 according to claim 8 is characterized in that the horizontal cross-sectional shape of the light guide portion is formed so as to increase or decrease as the distance from the incident surface increases. Therefore, according to the illuminating device 1 of Claim 6 thru
- the lighting device 1 according to claim 9 is characterized in that the light guide section 100 to the light guide section 170 are provided with a plurality of light guide pieces whose output surfaces are branched. Further, the lighting device 1 according to claim 10 is characterized in that a plurality of light guide pieces according to claim 9 are formed so that the lengths from the incident surface are equal or different. Moreover, the illuminating device 1 of Claim 11 is characterized by the light guide piece of Claim 9 being formed in the curved surface or the inclined surface. Moreover, the illuminating device 1 of Claim 12 has the light guide piece of Claim 9 in which the recessed part which consists of a columnar shape or conical shape of predetermined depth is formed.
- the illuminating device 1 of Claim 13 is characterized by the light guide piece of Claim 9 being formed in trapezoid trapezoid shape or truncated cone shape. Further, in the lighting device 1 according to claim 14, the cross-sectional area becomes smaller each time the light guide piece extended from the incident surface according to claim 9 moves away from the polygonal shape, the circular shape, the elliptical shape, or the incident surface. It is characterized by being formed into a cone shape.
- or the light guide part 170 is made into the predetermined angle.
- the light derived from the tip can be substantially condensed light or substantially divergent light. That is, if the illumination device 1 according to the first embodiment is used, the light intensity distribution of light derived from the light guide unit of the illumination device 1 can be arbitrarily set.
- the illumination device 1 is orthogonal to the illumination device 1. It is possible to derive light having a substantially uniform light intensity distribution from the direction to the horizontal direction.
- the light guide plate is provided so as to extend in the horizontal direction every time the light guide plate is separated from the housing portion, for example, light can be led to the rear in addition to the front of the lighting device 1.
- the light guide piece according to claim 9 is provided with another light guide in a notch portion or a protruding portion where the tips of the light guide portions 100 to 170 are branched.
- the incident surfaces of the part 100 to the light guide part 170 are inserted and combined. Therefore, according to the illuminating device 1 of Claim 15, the required three-dimensional shape can be easily obtained by arbitrarily combining the plurality of light guides 100 to 170.
- the light derived from the main surface of the light guide plate is The light can be emitted without being shielded by another light guide plate adjacent to the light guide plate.
- the light guide plate provided in the light guide section is transparent, for example, the other main surface opposed to one main surface of the light guide plate can be visually recognized, and for example, other adjacent to one main surface of the light guide plate One main surface of the light guide plate can be visually recognized. That is, even when the light guide unit is viewed from any direction in the circumferential direction of the lighting device 1, it is possible to suppress a difference in brightness of light derived from the light guide plate.
- the concave pattern or the convex pattern according to claim 2 is formed so as not to face each other or to be the same as the facing emission surface. It is characterized by having.
- the concave pattern or the convex pattern according to claim 2 by forming the concave pattern or the convex pattern according to claim 2 so as not to face each other with respect to the opposite exit surface. Since the number of patterns in which the diffused light that is visually recognized by the viewer's eyes is increased, the difference in brightness of light in the light guide plate can be reduced.
- the concave pattern or the convex pattern according to claim 2 is deepened each time the opposite emission surface is moved away from the incident surface. It is characterized by being formed.
- the concave pattern or the convex since the light intensity of the light source 31 is relatively lowered from the incident surface of the light guide plate to the tip, the concave pattern or the convex The intensity of diffused light generated by forming the depth of the pattern in steps from the entrance surface of the light guide plate to the tip gradually increases the intensity of the diffused light generated by multiple patterns Can do.
- the concave pattern according to claim 2 is any one or more of ultrasonic processing, heating processing, cutting processing, laser processing, and molding processing. It is characterized by being formed by the following process. Further, in the lighting device 2 to the lighting device 6 according to claim 19, the convex pattern according to claim 2 is formed by any one or more of molding processing and silk printing processing. It is a feature.
- the concave pattern and the convex pattern can be stably and accurately formed on the light guide plate.
- the lighting device 1 according to claim 20 is characterized in that the light guide unit 100 to the light guide unit 170 are coated with a silicone coating agent, a glass coating agent, or a transparent resin.
- or the light guide part 170 can be waterproofed, stain-proofed, and dust-proof.
- the lighting device 1 according to claim 21 is characterized in that the light source units 30 are arranged radially from the center of the housing 40. Further, the lighting device 1 according to claim 22 is characterized in that the light source portions 30 according to claim 21 are radially arranged so as to be in a trident or cross shape. Therefore, according to the illuminating device 1 of Claim 21 and Claim 22, optimal optical arrangement
- the lighting device 1 according to claim 23 is characterized in that the housing part 40 is provided with a heat radiating part for radiating heat generated in the light source part 30. Therefore, according to the lighting device 1 of the twenty-third aspect, the heat generated in the light source unit 30 can be efficiently radiated to prevent the light source unit 30 from being reduced in light quantity due to thermal saturation. .
- the lighting device 1 according to claim 24 is provided with a holding unit that the housing unit 40 is fitted and fixed to the light guide unit, the holding unit covers the light source unit 30, and the light guide unit 100 to the light guide unit 170.
- An opaque reflecting layer for reflecting light is provided on the side.
- the holding portion according to claim 24 is provided with a fixing hole for fixing the housing with a fixing member, and the fixing hole is made of a reflective agent after fixing the holding portion with the fixing member. It is characterized by being sealed with the contained adhesive. Therefore, according to the lighting device 1 of claims 24 and 25, the reflection loss in the light guide 100 to the light guide 170 can be reduced, and the light guide 100 to the light guide 170 is installed in the housing. The body portion 40 can be firmly held.
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Abstract
Description
以下、本発明の第1の実施形態の照明装置1について、図1乃至図13を参照しながら、具体的に説明する。
以下、本発明の第2の実施形態の各照明装置について、図14乃至図24を参照しながら、具体的に説明する。
以下、本発明の第3の実施形態の照明装置7について、図25を参照しながら、具体的に説明する。
以下、本発明の第4の実施形態の照明装置について、図26乃至図30を参照しながら、具体的に説明する。
10 受電部
11 口金
12 絶縁ケース
12A 一端
12B 他端
12C 接合部
12D 内部空間
12E ネジ孔
13 絶縁ケースカバー
13A 接合部
13B ネジ孔
13C 配線孔
20 電源部
21 電源ユニット
30 光源部
31 光源
32 基板
32A ネジ孔
32B 配線孔
40 筐体部
41 筐体
41A 一面
41B 孔
41C 配線孔
41D ネジ孔
41E,41E',41E'' 外周面
41F 係合溝
42 外周カバー
42A 接合部
43 保持部材
43A 溝部
43B 突起部
43C 側壁
43D 孔
44 固定部材
45 固定部材
50 筐体部
51 角度調整部
51A 保護部材
51B 載置部材
51C 回動部材
51D 上部固定部材
52 支持部
52A 支持部材
52B 収納部材
52C 調整部材
53 連結部
54 保護部
54A 外周面
54B ネジ孔
55 固定部材
100,110,120,130,140,150,160,170 導光部
101,102,103,104A,104B,104C,104D,104E,104F,104G,104H,105,105',106,106',107,107',111,112,113,114,115,116C,116D,116E,116F,117,121,122,131,132,141,142,151,152,161,162,171 導光板
101A,101B,101C,101D,102A,102B,102C,102D,103A,103B,103C,103D,104A',104B',104C',104D',104E',104F',104G',104H',111A,111B,111C,111D,112A,112B,112C,112D,113A,113B,113C,113D,114A,114B,114C,114D,115A,115B,115C,115D,121A,121B,121C,121D,122A,122B,122C,122D,131A,131B,132A,132B,141A,141B,151A,151B,151C,151D,152A,152B,152C,152D,162A,162D,162E,171B,171C,171D,171E,171F,171G,171H,171I 導光片
101F,102F,103F,111F,112F,113F,114F,115F,117F 入射面
101G,101G',102G,102G',103G,103G',111G,111G',112G,112G',113G,113G',114G,114G',115G,115G',121G,122G,131G,132G,141G,142G,151G,152G,161G,161G',162G,162G',171S 先端
101H,102H,111H,112H 係合部
102J,112J 接合部
101L,101M,101N,102L,102M,102N,103L,103M,103N,111L,111M,111N,112L,112M,112N,113L,113M,113N ,114L,114M,114N ,115L,115M,115N 切欠部
103V,113V,114V,115V,117C,171V 一主面
103Q,113Q,114Q,115Q,117D 他主面
113W,113R,114W,114R,115W,115R,111P,112P,116A,116B,117A パターン
117A' 最下部
117M 一面
117N 他面
151U,152U 側面
162S 表示部
171A 基材部
1000 超音波加工装置
1010 筐体部
1011 上段板
1012 支柱
1013 下段板
1014 脚
1020 加工台部
1021 加工台
1021A 吸引孔
1022 真空ポンプ
1023 吸引配管
1024 分配器
1025 コネクタ
1030 移動機構部
1031 X軸レール部材
1031' 補助X軸レール部材
1032 Y軸レール部材
1033 Z軸レール部材
1033A 可動テーブル
1033B プレート
1033C 支持ブロック
1033D ストッパ部材
1034 コントローラ
1040 超音波加工部
1041 支持部材
1042,1044 超音波加工用ホーン
1042A 振動子
1042B 先端部
1043 超音波発振器
1045 加工ドット
1050 制御部
1051 支持部材
1052 操作盤
1053 表示パネル
1054 制御装置
E 目
P1 ピッチ
P2 半ピッチ
L1,L2 入射光
D 導光板基材
Claims (25)
- 外部から電力が供給される受電部と、
前記受電部と接続され、前記電力を所定の駆動電力に変換する電源部と、
前記電源部と接続され、前記駆動電力により発光する光源部と、
前記光源部を収納する筐体部と、
前記筐体部から突出して設けられ、入射面から入射した前記光源部の光を分岐された出射面から導出させる導光部とを有すること
を特徴とする照明装置。 - 前記導光部の前記出射面は、前記光源部の光を拡散光として導出させる凹状又は凸状のパターンが形成されていること
を特徴とする請求項1に記載の照明装置。 - 前記導光部は、前記出射面を1面以上設けてなること
を特徴とする請求項2に記載の照明装置。 - 前記導光部は、水平方向の断面形状が、前記筐体の中心から放射状に形成し、前記入射面から離間する方向にそれぞれ延長され、且つ互いに対向した前記出射面を設けてなること
を特徴とする請求項1に記載の照明装置。 - 前記導光部は、鉛直方向から見た形状を十字状に形成し、前記出射面を8面以上設けてなること
を特徴とする請求項1に記載の照明装置。 - 前記導光部の水平方向の断面形状は、それぞれ内部に空間を設けた、多角形状、円形状、楕円形状、又は前記入射面から遠ざかる毎に断面積が小さくなる錐形状から形成されていること
を特徴とする請求項1に記載の照明装置。 - 前記導光部の水平方向の断面形状は、多角形状、円形状、楕円形状、又は前記入射面から遠ざかる毎に断面積が小さくなる錐形状から形成されていること
を特徴とする請求項1に記載の照明装置。 - 前記導光部の水平方向の断面形状は、前記入射面から遠ざかる毎に大きく又は小さくなるように形成されていること
を特徴とする請求項1に記載の照明装置。 - 前記導光部は、前記出射面が分岐された導光片を複数設けていること
を特徴とする請求項1に記載の照明装置。 - 前記導光片は、前記入射面からの長さが等しく又は異なるように複数形成されていること
を特徴とする請求項9に記載の照明装置。 - 前記導光片は、曲面又は傾斜面で形成されていること
を特徴とする請求項9に記載の照明装置。 - 前記導光片は、所定の深さの円柱形状又は円錐形状から成る凹部が形成されていること
を特徴とする請求項9に記載の照明装置。 - 前記導光片は、台形台形状又は円錐台形状に形成されていること
を特徴とする請求項9に記載の照明装置。 - 前記入射面から延長した前記導光片は、多角形状、円形状、楕円形状、又は前記入射面から遠ざかる毎に断面積が小さくなる錐形状になるように形成されていること
を特徴とする請求項9に記載の照明装置。 - 前記導光片は、前記導光部の前記先端が分岐した切り欠き部分又は突出部分に、他の前記導光部の前記入射面を挿入され組み合わされて形成されていること
を特徴とする請求項9に記載の照明装置。 - 前記凹状のパターン又は前記凸状のパターンは、対向する前記出射面に対して対面非同一に又は対面同一に形成されていること
を特徴とする請求項2に記載の照明装置。 - 前記凹状のパターン又は前記凸状のパターンは、対向する前記出射面に対して前記入射面から遠ざかる毎に深くなるように形成されていること
を特徴とする請求項2に記載の照明装置。 - 前記凹状のパターンは、超音波加工、加熱加工、切削加工、レーザ加工、及び成型加工のいずれか1つ以上の加工により形成されていること
を特徴とする請求項2に記載の照明装置。 - 前記凸状のパターンは、成型加工及びシルク印刷加工のいずれか1つ以上の加工により形成されていること
を特徴とする請求項2に記載の照明装置。 - 前記導光部は、シリコーンコーティング剤が塗布、硝子コーティング剤が塗布、又は透明樹脂が被覆されていること
を特徴とする請求項1に記載の照明装置。 - 前記光源部は、前記筐体の中心から放射状に配置したこと
を特徴とする請求項1に記載の照明装置。 - 前記光源部は、三叉状又は十文字状となるように前記放射状に配置したこと
を特徴とする請求項21に記載の照明装置。 - 前記筐体部は、前記光源部で発生した熱を放熱させる放熱部を設けたこと
を特徴とする請求項1に記載の照明装置。 - 前記筐体部は、前記導光部と嵌合して固定する保持部を設け、
前記保持部は、前記光源部を覆い前記導光部側に光を反射する不透明な反射層を設けたこと
を特徴とする請求項1に記載の照明装置。 - 前記保持部は、前記筐体を固定部材で固定する固定孔を設け、
前記固定部材で前記保持部を固定した後に、前記固定孔が反射剤を含有した接着剤で密封されていること
を特徴とする請求項24に記載の照明装置。
Priority Applications (10)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
SG2012071510A SG184799A1 (en) | 2010-05-26 | 2010-05-26 | Illumination device |
US13/643,203 US20130044497A1 (en) | 2010-05-26 | 2010-05-26 | Illumination device |
CN201080004572.7A CN102405373B (zh) | 2010-05-26 | 2010-05-26 | 照明装置 |
MYPI2012004198A MY175576A (en) | 2010-05-26 | 2010-05-26 | Illumination device |
JP2010521645A JP5558354B2 (ja) | 2010-05-26 | 2010-05-26 | 照明装置 |
KR1020117009719A KR101367873B1 (ko) | 2010-05-26 | 2010-05-26 | 조명장치 |
PCT/JP2010/003537 WO2011148420A1 (ja) | 2010-05-26 | 2010-05-26 | 照明装置 |
EP10852093.3A EP2578920A4 (en) | 2010-05-26 | 2010-05-26 | LIGHTING DEVICE |
TW099120906A TWI418743B (zh) | 2010-05-26 | 2010-06-25 | 照明裝置 |
HK12106399.0A HK1165532A1 (en) | 2010-05-26 | 2012-06-29 | Lighting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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PCT/JP2010/003537 WO2011148420A1 (ja) | 2010-05-26 | 2010-05-26 | 照明装置 |
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WO2011148420A1 true WO2011148420A1 (ja) | 2011-12-01 |
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Application Number | Title | Priority Date | Filing Date |
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PCT/JP2010/003537 WO2011148420A1 (ja) | 2010-05-26 | 2010-05-26 | 照明装置 |
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US (1) | US20130044497A1 (ja) |
EP (1) | EP2578920A4 (ja) |
JP (1) | JP5558354B2 (ja) |
KR (1) | KR101367873B1 (ja) |
CN (1) | CN102405373B (ja) |
HK (1) | HK1165532A1 (ja) |
MY (1) | MY175576A (ja) |
SG (1) | SG184799A1 (ja) |
TW (1) | TWI418743B (ja) |
WO (1) | WO2011148420A1 (ja) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2012081504A1 (ja) * | 2010-12-15 | 2012-06-21 | シャープ株式会社 | 照明装置および表示装置 |
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WO2012081504A1 (ja) * | 2010-12-15 | 2012-06-21 | シャープ株式会社 | 照明装置および表示装置 |
JP2013084455A (ja) * | 2011-10-11 | 2013-05-09 | Skg:Kk | Led電球 |
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JP7439058B2 (ja) | 2018-09-20 | 2024-02-27 | ネーデルラントセ オルハニサティエ フォール トゥーヘパスト-ナトゥールヴェッテンシャッペリーク オンデルズック テーエヌオー | セグメント分割型ライトガイドおよびその製造方法 |
Also Published As
Publication number | Publication date |
---|---|
CN102405373A (zh) | 2012-04-04 |
EP2578920A4 (en) | 2014-10-29 |
KR101367873B1 (ko) | 2014-02-27 |
CN102405373B (zh) | 2014-06-18 |
JPWO2011148420A1 (ja) | 2013-07-22 |
TWI418743B (zh) | 2013-12-11 |
MY175576A (en) | 2020-07-01 |
JP5558354B2 (ja) | 2014-07-23 |
US20130044497A1 (en) | 2013-02-21 |
KR20120047840A (ko) | 2012-05-14 |
TW201142209A (en) | 2011-12-01 |
HK1165532A1 (en) | 2012-10-05 |
EP2578920A1 (en) | 2013-04-10 |
SG184799A1 (en) | 2012-11-29 |
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