JP2011258474A - Lighting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting device which can simplify assembling operation and surely supporting a light source unit on a cover member and ensuring its waterproofness.SOLUTION: The lighting device 10 includes: the light source unit 11 having a light-emitting section 11c wherein a solid light-emitting element 11b is arranged along a longitudinal direction of a rectangular base plate 11a and a lighting-up device 11d for lighting up the solid light-emitting element; a cover member 12 having an approximately straight tube-shaped cylindrical shape in which its cross section is non-circular and both ends have openings 12a, 12a wherein the light source unit 11 is inserted along the longitudinal direction; and end plate members 13 sealing up both ends of the cover member and supporting both end sections of the light source unit.

Description

  Embodiments described herein relate generally to a lighting device that uses a solid light emitting element such as a light emitting diode as a light source.

  In recent years, instead of filament lamps and fluorescent lamps, lighting devices such as lighting fixtures and LED lamps that employ light-emitting diodes, which are solid-state light-emitting elements that have a long lifetime and low power consumption, have been commercialized. In these lighting devices, we propose lamps and LED lamps that are long and thin straight tubes that can be used in place of straight fluorescent lamps that are widely used in storage such as showcases and indoor and outdoor lighting fixtures. Has been.

No. 7-2317 JP 2010-123359 A

  However, this kind of thin and long straight tube lighting device involves a difficult work of inserting and assembling a thin and long light source unit into a light-transmitting straight tubular cover member. And how to reliably support the light source unit on the cover member is a problem. In addition, since this type of lighting device is used outdoors and the like, how to maintain waterproofness for protecting the light source from rainwater, moisture and the like is also a problem.

  The present invention has been made in view of the above problems, and aims to provide an illuminating device that simplifies assembly work, reliably supports the light source unit on the cover member, and can ensure waterproofness. It is.

  A lighting device according to an embodiment of the present invention includes a light source unit including a light emitting unit in which a solid light emitting element is disposed along a longitudinal direction of a rectangular substrate and a lighting device that lights the solid light emitting element; A light-transmitting cover member into which the light source unit is inserted along the longitudinal direction, and the openings at both ends of the cover member are sealed, and the light source unit And an end plate member that is supported at both ends thereof.

  According to the present embodiment, it is possible to provide an illuminating device that can simplify assembly work, reliably support the light source unit on the cover member, and further ensure waterproofness.

The lighting fixture which concerns on 1st Embodiment is shown, (a) Perspective view, (b) is sectional drawing which follows the bb line of this (a) figure. The perspective view which decomposes | disassembles and similarly shows the light source unit of a lighting fixture. The perspective view which decomposes | disassembles and shows the edge part of a lighting fixture similarly. The perspective view which similarly shows the back surface of the end plate member of a lighting fixture, a packing, and a mounting bracket. Similarly, it shows the packing part of the lighting fixture, (a) is a cross-sectional view showing an enlarged packing part provided between the end plate member and the cover member, (b) is a cross-sectional view showing the packing part of the electric wire insertion part enlarged Figure. Similarly, it shows the state where the lighting fixture is installed in the showcase, (a) is a longitudinal sectional view of the showcase, (b) is a sectional view showing a portion where the lighting fixture is installed on the pillar, and a part cut away, (C) is a perspective view which shows the state which attached the lighting fixture to the attachment bracket. The 1st modification is similarly shown, (a) is a perspective view which shows a lamp | ramp with a nozzle | cap | die, (b) is sectional drawing which follows the bb line of this (a) figure. The perspective view which similarly shows the 2nd modification. The 3rd modification is similarly shown, (a) is a perspective view which shows a connection part, (b) is the perspective view which expanded the A section of this (a) figure.

  Hereinafter, an embodiment of a lighting device will be described with reference to the drawings.

First embodiment

  The illuminating device of the present embodiment constitutes a lighting fixture 10 having a waterproof function that forms a straight tube for a showcase. As shown in FIG. 1, the illuminating device is solid along the longitudinal direction of a rectangular substrate 11a. A light source unit 11 having a light emitting part 11c in which a light emitting element 11b is arranged and a lighting device 11d for lighting a solid light emitting element, a cylindrical shape having a substantially straight tube shape with a non-circular cross section and openings 12a, 12a at both ends, The light source unit 11 is configured by a translucent cover member 12 into which the light source unit 11 is inserted along the longitudinal direction, an end plate member 13 that seals the openings at both ends of the cover member, and supports both ends of the light source unit.

  The light source unit 11 includes a rectangular substrate 11a, a light emitting unit 11c including a solid light emitting element 11b disposed along the longitudinal direction of the substrate, and a lighting device 11d for lighting the solid light emitting element. The substrate 11a is composed of a member having good electrical insulation, which is a circuit board made of a glass epoxy resin having a flat and thin rectangular shape in the present embodiment, and on its surface (upper surface in FIG. 1B). A wiring pattern made of copper foil is formed, and a plurality of solid state light emitting elements 11b are arranged on the wiring pattern in a substantially straight line at substantially equal intervals.

  The solid-state light emitting element 11b is constituted by a light emitting diode (hereinafter referred to as “LED”) in the present embodiment, and is composed of a plurality of, four SMD type LEDs in the present embodiment, and is formed into a flat plate shape by the LEDs 11b and the substrate 11a. A thin and long rectangular light emitting portion 11c is formed (FIG. 2). The four LEDs 11b are connected in series. The LED may be a COB type that emits white light (including daylight white, daylight color, and light bulb color) by a plurality of LED chips and a phosphor excited by the LED chips.

  The light emitting portion 11c is supported by the substrate mounting plate 11a1. The board mounting plate is made of a metal having thermal conductivity, in this embodiment, a flat and thin rectangular steel plate, and on its surface, a plurality of light emitting portions, in this embodiment, four light emitting elements. The portions 11c are arranged in a line along the longitudinal direction of the substrate mounting plate 11a1 so that the axes of the light emitting portion and the substrate mounting plate coincide with each other. Each light emitting portion 11c is fixed to the board mounting plate 11a1 by a screw S1 (FIG. 1B). The four light emitting units 11c are electrically connected by a connector 11c1, and in the present embodiment, the light emitting units 11c are connected in parallel.

  The lighting device 11d includes a lighting circuit that converts an alternating voltage of 100V to a direct current voltage of 24V and supplies a constant direct current to the LED 11b. The electronic component 11d1 that constitutes the lighting circuit, and an electronic component for mounting the electronic component It consists of a circuit board 11d2. This circuit board 11d2 is made of glass epoxy resin having a flat and thin rectangular shape, like the board 11a of the light emitting portion 11c, and a circuit pattern is formed on one or both sides, and a plurality of small-sized circuit boards are mounted on the mounting surface. An electronic component 11d1 is mounted.

  The circuit board 11d2 of the lighting device 11d configured as described above is electrically insulated from a portion different from the light emitting surface of the substrate 11a of the light emitting unit 11c, in this embodiment, the back surface of the substrate 11a, that is, the back surface of the substrate mounting plate 11a1. In this embodiment, a synthetic resin having a property is supported by a screw S1 with a predetermined interval on the back surface of the substrate mounting plate 11a1 by a spacer 11d3 made of PBT (polybutylene terephthalate) (FIG. 1B). . With this screw S1, the substrate 11a and the substrate mounting plate 11a1 of the light emitting part 11c are fixed simultaneously. In the light source unit 11, the output terminal of the circuit board 11d2 constituting the lighting device 11d and the input terminal of the substrate 11a of the light emitting unit 11c are connected by a lead wire (not shown), and the light emitting unit 11c and the LED 11b are turned on. And a lighting device 11d. In this embodiment, since the lighting device drives two light emitting units 11c by one unit, the lighting device is configured by two units for four light emitting units.

  In the light source unit 11 configured as described above, the light emitting unit 11c faces outward, and the lighting device 11d is housed in the support case 11e. As shown in FIG. 2, the support case is made of a metal having thermal conductivity similar to the substrate mounting plate 11a1, in this embodiment, by pressing the steel plate to form an open portion 11e1 on the upper surface, It is configured so as to form a thin and long long box body in which the flange portions 11e2 are integrally formed on both sides and the support end plates 11e3 are integrally formed on both ends. Further, two screw holes 11e4 for fixing an end plate member 13 described later are formed in the support end plates 11e3 at both ends.

  Inside the box of the support case 11e configured as described above, the above-described light source unit 11 is disposed such that the longitudinal direction thereof is along the longitudinal direction of the box. At this time, the light emitting unit 11c, that is, each LED 11b faces outward, and the circuit board 11d2 constituting the lighting device 11d is disposed in the support case 11e. The circuit board 11d2 constituting the lighting device 11d is covered with an insulating cover 11d4 made of an electrically insulating member, in the present embodiment, made of silicone resin, and is stored for electric insulation with the support case 11e made of metal. The

  The width dimension of the board mounting plate 11a1 of the light source unit 11 is formed to be approximately the same as the width dimension of the flanges 11e2 on both sides of the support case 11e, and the length dimension of the board mounting plate 11a1 is the length of the support case 11e. The opening portion 11e1 on the upper surface of the support case 11e is closed by the board mounting plate 11a1. The substrate mounting plate 11a1 may be fixed to the upper surfaces of the flanges 11e2 on both sides of the support case 11e by means such as screws and adhesives.

  As described above, the light source unit 11 in which the light emitting unit 11c faces outward and the lighting device 11d is accommodated in the support case 11e is inserted into the translucent cover member 12 and supported and accommodated. As shown in FIG. 3, the cover member is formed of a translucent member, in this embodiment, a transparent acrylic resin that is formed into a cylindrical shape that is a long, substantially straight tube having both ends 12 a and 12 a opened. The cover member 12 has a cross-section formed on the upper surface thereof with a light transmitting portion 12b formed so as to have a substantially semicircular cross section facing the light emitting portion 11c, and steps 12c and 12c on both sides of the light transmitting portion. Both side portions 12d, 12d formed on the bottom surface, and support portions 12f, 12f formed so as to have a substantially flat shape on both sides of the support ridge 12e. It is integrally formed by resin molding so as to form a circle. The step portions 12c on both sides position the light source unit 11 on the inner surface side of the step portion, and support a mounting bracket 16 described later on the outer surface side of the step portion.

  The long light source unit 11 is inserted into the cover member 12 configured as described above from one opening 12a. That is, the upper surface of the protruding piece 11f configured to protrude on both sides by overlapping the substrate mounting plate 11a1 of the light source unit and the flange portion 11e2 of the support case 11e is the lower surface of the step portions 12c on both sides of the cover member 12 and the inner surface side of the step 12c. Further, the lower surface of the support case 11e is brought into contact with the support ridges 12e, and the light source unit 11 is positioned using the stepped portions 12c and 12c on both sides and the upper surfaces of the support ridges 12e as guides. One end of the long light source unit is inserted from one opening 12 a of the cover member 12. As a result, the assembling work can be simplified, and the light source unit 11 can be reliably supported and accommodated in the cover member 12.

  As described above, both ends of the light source unit 11 inserted and supported in the cover member 12 are supported by the end plate members 13 that seal the openings 12a and 12a at both ends of the cover member. As shown in FIGS. 3 and 4, the end plate member has a cap-like shape having an opening portion 13a on one side surface made of a synthetic resin having electrical insulation, which is made of PBT (polybutylene terephthalate) in this embodiment. Configured. The cross-sectional shape is an outer surface shape that is substantially the same as the cross-sectional shape of the cover member so that the cross-sectional shape can be fitted into the opening 12a of the cover member 12, and is formed to have a slightly smaller external dimension. That is, both sides 13d and 13d formed with a semicircular portion 13b on the top surface, step portions 13c and 13c on both sides of the semicircular portion, and support ridges 13e on the bottom surface are formed flat on one side of the support ridges. The portions 13f are integrally formed by resin molding (FIG. 4). And the flange part 13g is integrally formed in the outer peripheral part of the opening part 13a, and the packing support part 13h which makes an elliptical shape is formed in the substantially central part of the inner bottom face of the cap so as to protrude integrally. Two insertion holes 13h1 and 13h1 for screw insertion that communicate with the two screw holes 11e4 formed in the support end plate 11e3 of the support case 11e are formed. The packing support portion 13h is formed so as to protrude also on the outer surface side (FIG. 4). In the figure, 13j is an electric wire insertion hole for inserting a power supply line formed at a corner below the opening 13a.

  The end plate member 13 configured as described above is fitted through the opening 12a at one end of the cover member 12, but the packing 14 is interposed between the end plate member and the opening of the cover member. The packing is made of a flexible member, in the present embodiment, made of silicone rubber, and has a cap shape having an opening 14a on one side surface. The inner surface shape is formed substantially the same as the outer surface shape of the end plate member 13, the outer surface shape is formed approximately the same as the cross-sectional shape of the cover member 12, and is formed to have a slightly larger outer dimension. That is, both sides 14d and 14d formed with a semicircular portion 14b on the upper surface, step portions 14c and 14c on both sides of the semicircular portion, and support ridges 14e on the bottom surface are formed flat on one side of the support ridges. The portions 14f are integrally formed by molding. And the flange part 14g is integrally formed in the outer peripheral part of the opening part 14a, and the packing support part 14h which makes an elliptical shape is formed in the substantially central part of the inner bottom surface of the cap, and is formed on the bottom surface. Two insertion holes 14h1, 14h1 for screw insertion that communicate with the two insertion holes 13h1, 13h1 formed in the packing support portion 13h of the end plate member 13 are formed. The packing support portion 14h is formed so as to protrude also on the outer surface side (FIG. 4).

  In the figure, 14j corresponds to the wire insertion hole 13j of the end plate member 13, and is an electric wire packing formed integrally with the packing 14 so as to be in close contact with the electric wire insertion hole, and two power wires and one ground wire are connected. Three wire sealing holes 14j1 to be inserted are formed. Then, a plurality of ridges 14k are integrally formed on the inner and outer surfaces of the packing 14 in the outer circumferential direction (longitudinal direction). Also, a plurality of convex strips 14k are integrally formed in the outer circumferential direction (vertical direction) on the inner surface of the three wire sealing holes 14j1 of the wire packing 14j (FIG. 5). Reference numeral 15 in the figure denotes an oval thin plate packing made of silicone rubber, which is in close contact with the oval packing support 13h of the end plate member 13 described above. In the screw packing 15, two insertion holes 15 h 1 communicating with the two insertion holes 13 h 1 of the end plate member 13 are formed.

  The end plate member 13, the packing 14, and the screw packing 15 configured as described above are provided in pairs corresponding to the openings 12 a at the left and right ends of the cover member 12, and are inserted into and supported by the cover member 12. 11 are supported so that the openings 12a and 12a at both ends of the cover member 12 are sealed. The support structure is the same for both left and right ends, and will be described with the left structure shown in FIG.

  First, the inner peripheral portion of the packing 14 is fitted to the outer peripheral portion of the end plate member 13 and fitted. At this time, as shown in FIG. 5A, a plurality of ridges 14k are formed in the longitudinal direction on the surface of the inner peripheral surface of the packing 14, and the ridges are bent by elasticity due to the flexibility of the packing. As a result, the outer peripheral portion of the end plate member 13 and the inner peripheral portion of the packing 14 are fitted in an airtight manner. At the same time, the surface of the electric wire packing 14j of the packing 14 is brought into tight contact with the back surface side of the electric wire insertion portion 13j of the end plate member 13 due to the elasticity of the packing. Further, the two electric wire insertion holes 13h1 of the end plate member 13 and the two electric wire insertion holes 14h1 of the packing 14 are matched to communicate with each other. Furthermore, in a state where the packing 14 is fitted to the end plate member 13, the apexes (outer peripheral portions) of the flange portions 13g and 14g are flush with each other and protrude.

  As described above, the packing 14 is fitted to the end plate member 13, and the integrated member is fitted into the openings 12a at both ends of the cover member 12 in which the light source unit 11 is inserted and supported in advance. In this fitting, the outer peripheral portion of the packing 14 fitted to the outer peripheral portion of the end plate member 13 is fitted to the opening 12 a of the cover member 12. At this time, as shown in FIG. 5A, a plurality of ridges 14k are formed in the longitudinal direction on the outer peripheral surface of the packing 14, and the ridges are bent by elasticity due to the flexibility of the packing. Thus, the outer peripheral portion of the packing 14 and the inner peripheral portion of the cover member 12 are fitted in an airtight manner. At the same time, the wire insertion hole 13j of the end plate member 13 and the wire sealing hole 14j1 of the packing 14 are matched and communicated. Further, the outer peripheral portions of the flange portions 13g and 14g of the end plate member 13 and the packing 14 protrude in a flush manner, and come into close contact with the end surface of the opening 12a of the cover member 12. Further, the outer peripheral portions of the flange portions 13g and 14g of the end plate member 13 and the packing 14 are flush with the outer surface of the cover member 12 to improve the external appearance.

  Next, the screw packing 15 is fitted into the packing support portion 13 h of the end plate member 13. In this state, in the state where the two insertion holes 15h1 of the screw packing, the two insertion holes 13h1 of the end plate member 13, and the two insertion holes 14h1 of the packing 14 are in communication with each other, the support end plate 11e3 of the light source unit 11 is provided. The two screw holes 11e4 are formed in communication with each other. At this time, since the light source unit 11 is positioned with the inner surface sides of the step portions 12c and 12c on both sides as guides, the large number of insertion holes and the two screw holes 11e4 automatically and reliably match. .

  In this state, two screws, in this embodiment, tapping screws S2 are inserted from the opening 13a of the end plate member 13 into the two insertion holes 15h1 of the screw packing 15, and the end plate member 13 and the packing are inserted. 14 is screwed into the screw hole 11e4 of the support end plate 11e3 of the light source unit 11 through the respective insertion holes 13h1 and 14h1. The same screwing is performed on the end plate member 13 fitted to the openings 12a at both the left and right ends. By this screwing, the left and right end plate members 13 and the packing 14 are pressed toward the respective support end plates 11e3 (in the direction of the arrow in FIG. 1B). By this pressing, the flange portion 14g of the packing 14 is sandwiched between the flange portion 13g of the end plate member 13 and the end surface of the opening 12a of the cover member 12, and the packing 14 is compressed against its elasticity and tightly sealed. Is done.

  At this time, the cover member 12 has a non-circular cross-sectional shape and a smoothly continuous inner peripheral surface shape, in other words, for example, a smooth surface on which the protruding piece 61 in Patent Document 2 does not protrude. Is formed. For this reason, the convex strip part 14k of the outer peripheral surface of the packing 14 deform | transforms following the shape of the inner peripheral surface of the cover member 12 with the softness | flexibility, and airtightness is hold | maintained more reliably.

  Further, even when the cover member 12 made of acrylic resin expands or contracts due to thermal expansion and the length of the cover member changes, the airtight state is maintained. That is, when expanded by heat, the cover member 12 is slightly longer, but is sufficiently absorbed within the compression allowance of the packing 14 and becomes more closely attached. For example, it is used for lighting such as a freezer at a temperature of about −25 ° C., and even when the cover member 12 contracts and becomes short, the packing collar 14g sufficiently follows within the return allowance due to the elasticity of the packing 14. Then, it returns elastically and maintains a tight contact state.

  Further, as described above, the light source unit 11 abuts the upper surface of the projecting piece 11f on the inner surface side of the step portions 12c and 12c of the cover member 12, and further abuts the lower surface of the support case 11e on the support protrusion 12e. These are used as guides for positioning and are supported and accommodated. That is, the light source unit 11 is fixed only to the end plate member 13 and is not fixed to the cylindrical portion cover member 12. In other words, the cover member 12 accommodates the light source unit 11 so as to be movable in the axial direction of the cover member 12, restricts the position in a direction orthogonal to the axis, and is supported by the end plate member 13.

  For this reason, even if the cover member 12 made of resin undergoes expansion / contraction due to heat, the light source unit 11 is not subjected to any expansion / contraction stress and does not affect the light source unit. At the same time, vibrations and shocks from the cover member 12 are absorbed by the packing 14, making it difficult to transmit to the light source unit 11, and a lighting fixture that is resistant to vibrations and shocks can be configured.

  Further, as described above, the flange portion 14g of the packing 14 and the flange portion 13g of the end plate member 13 are hermetically adhered by packing, and at the same time, the wire insertion portion 13j of the end plate member 13 is connected to the wire packing 14j of the packing 14. Pressed and tightly adhered. Further, the heads of the two tapping screws S2 are pressed against the surface of the screw packing 15 so that the screw insertion portions are tightly sealed.

  As a result, both ends of the light source unit 11 are supported by the end plate member 13 and the packing 14 in an airtight manner with respect to the openings 12a and 12a at both ends of the cover member 12, and are directly connected to a showcase having a waterproof function. A tubular lighting device 10 is configured. The overall length L of the lighting fixture in the present embodiment is configured as a thin and long lighting fixture with a width W of about 37 mm and a height H of about 39 mm. In the figure, reference numeral 16 denotes a mounting bracket for installing the lighting fixture 10 configured as described above in a portion to be installed, in the present embodiment, in a showcase cabinet, and has a certain rigidity and imparts springiness. A member that can be used, in this embodiment, stainless steel is pressed. The mounting bracket includes a flat base portion 16a, a pair of support pieces 16b and 16b that are formed by bending both end portions of the base portion in a substantially vertical direction, and sides perpendicular to both end portions of the base portion. The cover portion 16c is raised substantially vertically. The base portion 16a is formed with an insertion hole 16d which is a long hole for inserting a fixing screw, and the upper ends of the pair of support pieces 16b and 16b are bent inward to integrally fix the fixing pieces 16b1 and 16b1. Form. The distance dimension w1 between the pair of support pieces 16b, 16b is formed to be approximately equal to the width dimension W2 of the cover member 12 (W1≈W2), and the height dimension h1 of the pair of support pieces to the fixed pieces 16b1, 16b1 is The cover member 12 is formed to have a dimension (h1 <h2) slightly lower than the height dimension h2 to the step 12c (FIG. 3). Two mounting brackets 16 having the same configuration are prepared in order to fix the left and right ends of the cover member 12.

  The lighting fixture 10 comprised above is installed in a showcase as follows. As shown in FIG. 6, 30 is a showcase for refrigerated storage of a double-opening beverage or the like, and the lighting device 10 having the above-described configuration is installed on the back side of a column 32 located at the joint of the double-open door 31. The Two screw holes 32a for installation are formed on the back surface side of the column 32 in advance in the vertical direction along the longitudinal direction. In accordance with this screw hole, the insertion hole 16d formed in the base portion 16a of the mounting bracket 16 having the above configuration is matched, and the screw S3 is screwed and fixed. At this time, the installation position of the mounting bracket 16 is adjusted using the long hole dimension of the insertion hole 16 d, and the dimension between the upper and lower two mounting brackets is fixed according to the length dimension of the lighting fixture 10.

  The lighting fixture 10 is fixed to the mounting bracket 16 fixed to the column 32 as described above. First, as shown in FIG. 6C, the mounting portion 12f of the cover member 12 is resisted against the spring property of the pair of support pieces 16b and 16b within the distance between the pair of support pieces 16b and 16b of the mounting bracket 16. Each support piece is inserted while being spread out, and the flat mounting portion 12 f of the cover member 12 is brought into contact with the flat base portion 16 a of the mounting bracket 16.

  By this insertion operation, the fixing pieces 16b1 and 16b1 of the support pieces 16b and 16b move while being bent along the both side portions 12d of the cover member 12, and the fixing pieces 16b1 and 16b1 are covered by the spring property of the support pieces 16b and 16b. Are dropped onto the upper surfaces of the step portions 12c and 12c. Accordingly, the fixing pieces 16b1 and 16b1 are locked to the outer surfaces of the step portions 12c and 12c of the cover member by the elastic force due to the spring property, and the lighting fixture 10 is fixed in the longitudinal direction along the longitudinal direction of the column 32. The When the lighting fixture 10 is removed, contrary to the above, the support pieces 16b and 16b are pushed open with a fingertip or the like, and the locking state between the fixing pieces 16b1 and 16b1 and the step portions 12c and 12c is released. May be pulled out from the support pieces 16b1, 16b1.

  In addition, the wiring of the power supply line with respect to the light source unit of the lighting fixture 10 connects the electric wire previously derived | led-out from the pillar 32, the cabtire cable C1 with a circular cross section in this embodiment, before installing a lighting fixture. Is done. The cabtyre cable C1 is composed of a total of three electric wires, two power supply lines and one ground wire, and these electric wires are inserted into an electric wire sealing hole 14j1 formed in the packing 14 of the lighting fixture 10, and a light source Connect to the input terminal of unit 11.

  At this time, as shown in FIG. 5 (b), a plurality of protrusions 14k are formed in the longitudinal direction on the inner surface of the wire sealing hole 14j1, and the protrusions are in close contact with the surface of the electric wire C1 due to its elasticity. Thus, airtightness at the wire insertion portion is maintained. When connecting the electric wires, the integrated end plate member 13 and packing 14 are removed from the light source unit 11, and after the electric wires are connected, they are fixed to the light source unit 11 again. The opening 12a of the cover member 12 is closed. In the figure, 33 is a shelf installed at the top and bottom of the cabinet of the showcase 30, and 34 is a beverage such as a plastic bottle placed and displayed on each shelf.

  When the lighting fixture 10 installed on the back side of the door 31 is turned on as described above, each LED 11b of the light emitting unit 11c in the light source unit 11 is turned on to emit light. The light emitted from the LED is emitted in a direction substantially along the light distribution of the LED through the semicircular light transmission portion 12b of the cover member 12. This spreads in the left-right direction from each LED 11b arranged in the up-down direction, and can irradiate beverages etc. displayed on the respective shelves installed in the up-down direction substantially evenly in the up-down direction. Further, when dew or spilled water or the like generated in the storage is applied to the lighting device 10, the lighting device 10 of the present embodiment includes a screw insertion portion and a wire insertion portion between the end plate member 13 and the cover member 12. However, since airtightness is maintained by the packings 14 and 15, water does not enter. Also, dust and dust do not enter.

  Further, the heat generated from each LED 11b is dissipated into the cover member 12 from the board mounting plate 11a1 made of a steel plate, and the temperature rise of the LED is prevented. Further, heat generated from the electronic component 11d1 of the lighting device 11d is radiated into the cover member 12 from the support case 11e made of a steel plate, thereby preventing the temperature of the electronic component from rising. In addition, in the above, it was configured as a lighting device for a newly configured showcase, but the lighting device of the present embodiment is replaced with a fluorescent lamp type lighting device in an existing installation of the showcase. It is possible to further save energy and extend the service life by installing lighting fixtures in the form.

  As mentioned above, in this embodiment, although the lighting fixture 10 was located vertically and installed in the double-opening type showcase 30, you may locate and install horizontally. Moreover, you may use not only for a showcase but for illuminations, such as a charge clearing machine etc. of the parking lot outdoors. In this case, even when exposed to wind and rain outdoors, intrusion of water such as rain water and intrusion of dust and dirt can be prevented in the same manner as described above. Moreover, you may comprise various lighting fixtures not only for the use illustrated above but for facilities and business use, such as other residences, stores, and offices.

  Furthermore, although the lighting fixture was comprised in the above, you may make it comprise a lamp | ramp with a nozzle | cap | die. As shown in FIG. 7, reference numeral 40 denotes a straight tube-equipped lamp having a cap member 41 provided at one end of the cover member. The cap member 41 is one end plate member 13 made of the above-described resin having electrical insulation. A pair of cap pins 42 are integrally implanted by resin molding. In addition, one end of the cap pin 42 and the input terminal of the light source unit 11 are electrically connected by a lead wire, and the other end is projected outward from one end plate member 13.

  Thereby, since the lighting fixture in this embodiment incorporates the lighting device 11d, it is the same as the socket in the existing fluorescent lamp, for example, and this is compared with the receiving side terminal of the socket connected to the power supply. It is possible to provide the lamp with cap 40 that can be turned on only by inserting the cap pin 42 in the modified example.

  In the present embodiment, the solid light emitting element is configured by an LED, but it is allowed to be configured by a solid light emitting element such as a semiconductor laser or an organic EL. The solid state light emitting devices are mounted on a thin and long rectangular substrate so as to form a straight line. However, the solid state light emitting devices are arranged in a regular order, such as a large number of solid state light emitting devices arranged in a matrix, a staggered shape, or a radial shape. The part or the whole may be arranged and mounted in a planar shape.

  In the present embodiment, the light source unit 11 is configured by using four light emitting units 11c. However, the light source unit 11c and the lighting device 11d are modularized to a length of, for example, about 600 mm to configure a light source unit. By appropriately selecting the number of modules, various types of lighting fixtures having lengths suited to the application may be configured.

  Further, the substrate mounting plate 11a1 provided with the light emitting portion 11c is formed of a flat plate, and the support case 11e for housing the lighting device 11d is formed as a box. However, as shown in FIG. The light emitting portion 11c is disposed on the outer surface of the bottom of the box, the lighting device 11d is accommodated inside the box, and the support case 11e is formed of a flat plate that closes the open portion 11e1 of the box. May be. In this case, a flat plate support case that closes the open portion 11e1 of the box may be omitted, and the cost may be reduced by reducing the number of parts.

  Further, the cover member 12 may be formed to be translucent such as milky white so as to diffuse light. Moreover, you may comprise with transparent or translucent glass. Further, these cover members may be colored blue or red.

  Although the circuit board 11d2 of the board | substrate 11a and the lighting device 11d was comprised with the glass epoxy resin, you may comprise with metals and ceramics, such as aluminum with favorable heat conductivity. Moreover, although the board | substrate attachment plate 11a1 and the support case 11e were comprised with the steel plate, you may comprise by the aluminum die-casting with favorable heat conductivity so that more effective heat dissipation can be performed.

  Further, the mounting bracket 16 may be configured to have a function for connecting a plurality of lighting fixtures. That is, as shown in FIG. 9, the size of the mounting bracket 16 in the longitudinal direction is increased, and the cover portion 16c is deleted to form a pair of base portions 16a and 16a that are open at both ends. A substantially wide support piece 16b is formed by integrally connecting approximately half of the base portions facing each other on the open surface side. Further, a pair of grooves 16e and 16e are formed at the boundary between the support piece 16b and the fixed piece 16b1 and at a substantially intermediate portion in the longitudinal direction. When the lighting fixture 10 is inserted into the groove, both lower corners of the flange portion 13g of the resin-made end plate member 13 are fitted to prevent the fixture from shifting in the horizontal direction and to be connected. Position the luminaire. For this purpose, the groove 16e corresponds to one of the lighting fixtures to be connected, one at the boundary between the opposing support piece 16b and the fixed piece 16b1, and one corresponding to the other lighting fixture. A total of four are formed, two by two.

  The mounting bracket 16 configured as described above can be installed by connecting a plurality of lighting fixtures as follows. First, the end of one of the connected lighting fixtures 10 </ b> A is supported by using one wide support piece 16 b of the mounting bracket 16. Then, the lower corner portions of the flange 13g of the end plate member 13 in the lighting apparatus 10A are fitted into the groove 16e to perform horizontal positioning, that is, longitudinal positioning. Next, the other lighting fixture 10 </ b> B is similarly supported using the other support piece 16 b of the mounting bracket 16. And the both corners of the lower side of the collar part 13g of the end plate member 13 in the lighting fixture 10B are fitted into the groove 16e to perform positioning in the longitudinal direction.

  Thus, the two lighting fixtures 10A and 10B are connected by the mounting bracket 16 so that a gap at the connecting portion is minimized and the appearance is one continuous long lighting fixture. In addition, when connecting three lighting fixtures, a mounting bracket having the above-described configuration may be prepared and connected in the same manner as described above. Thus, by preparing the required number of mounting brackets having the above-described configuration, it becomes possible to easily connect the required number of lighting fixtures. Note that the mounting bracket 16 performs the above-described connecting operation in a state in which the mounting bracket 16 is fixed to the installation portion in advance, as described above. In FIG. 9, S3 is a screw that is inserted into the insertion hole 16d formed in the base portion 16a and screwed into the installation portion.

  According to the above configuration, a plurality of lighting fixtures can be easily connected with the mounting bracket, and at the same time, a plurality of lighting fixtures can be easily installed on the installation portion. Further, since the lighting fixture can be positioned and connected by the groove 16e, the installation interval (pitch) a1 of the LED 11b in each adjacent lighting fixture in the connecting portion is the same as the pitch a2 in each fixture as shown in the figure. It is possible to configure (a1≈a2). As a result, the installation intervals of the light emitting units in the plurality of connected lighting fixtures are substantially equal, coupled with minimizing the gap in the connecting portion described above, and thus, one continuous lighting fixture, It is possible to perform uniform illumination along the direction.

  As mentioned above, according to this embodiment, the light source unit 11 provided with the light emission part 11c by which LED11b was arrange | positioned along the longitudinal direction of the board | substrate 11a which makes a rectangular shape, and the lighting device 11d which lights LED, and a cross section are non-circular. And a light-transmitting cover member 12 into which the light source unit is inserted along the longitudinal direction and the openings at both ends of the cover member are hermetically sealed. The end plate member 13 that supports both ends of the unit simplifies the assembly work, reliably supports the light source unit on the cover member, and further ensures waterproofness, such as a lighting fixture and a lamp with a cap, Various lighting devices can be provided.

  The cover member 12 has a light transmitting portion 12b formed on the upper surface so as to face the light emitting portion 11c so that the cross section is substantially semicircular, and step portions 12c and 12c on both sides of the light transmitting portion. The side portions 12d and 12d are formed so as to have a mounting portion 12f formed so as to be substantially flat on the bottom surface, and the step portions 12c and 12c position the light source unit 11 on the inner surface. At the same time, since the mounting bracket 16 is supported on the outer surface, one end portion of the long light source unit is positioned on the cover member 12 while positioning the light source unit 11 using the inner side of the stepped portions 12c and 12c on both sides as a guide. Thus, the assembly operation can be simplified, and the light source unit 11 can be reliably supported by the cover member 12. In particular, since the light source unit 11 is positioned with the stepped portions 12c and 12c on both sides of the cover member 12 as guides, a large number of insertion holes of the end plate member 13 and the packing 14 for passing the tapping screws, Since the two screw holes 11e4 automatically and reliably match with each other, the tapping screw can be easily screwed in without re-adjusting the position of the screw, and the assembly workability can be further facilitated.

  Further, since the cover member 12 has a non-circular cross section and is formed so that the shape of the inner peripheral surface is a smoothly continuous surface, the packing 14 is formed on the inner peripheral surface of the cover member by its flexibility. Since it deforms while following the shape and maintains airtightness, it is possible to ensure reliable waterproofness. Further, even when the cover member 12 made of acrylic resin expands or contracts due to thermal expansion and the length of the cover member changes, it is possible to maintain an airtight state and ensure reliable waterproofness. . Further, since the cover member 12 has a non-circular cross section, it is possible to form a mounting portion 12f having a flat bottom surface, and this flat mounting portion is in close contact with the flat base portion 16a of the mounting bracket 16. And can be installed reliably. At the same time, it becomes easier to determine the direction of the instrument.

  The preferred embodiment of the present invention has been described above, but the present invention is not limited to the above-described embodiment, and various design changes can be made without departing from the scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Illuminating device 11 Light source unit 11a Board | substrate 11b Solid light emitting element 11c Light emission part 11d Lighting device 12 Cover member 12a Opening 12b Light transmission part 12c Step part 12d Both sides 12f Attachment part 13 End plate member 14 Packing 16 Attachment metal fittings

Claims (2)

A light source unit including a light emitting unit in which a solid light emitting element is disposed along a longitudinal direction of a rectangular substrate and a lighting device for lighting the solid light emitting element;
A translucent cover member having a substantially straight tubular shape with a non-circular cross section and open at both ends, into which the light source unit is inserted along the longitudinal direction;
An end plate member that seals the openings at both ends of the cover member and supports both ends of the light source unit;
An illumination device comprising: The cross-section of the cover member includes a light transmitting portion formed on the upper surface so as to face the light emitting portion so that the cross section has a substantially semicircular shape, and both side portions formed with step portions on both sides of the light transmitting portion. And a mounting portion formed so as to form a substantially flat shape on the bottom surface, wherein the step portion positions the light source unit on the inner surface and supports the mounting bracket on the outer surface. The lighting device according to claim 1.

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