JP2005267964A - Lighting device - Google Patents

Abstract

A lighting device 21 using a light emitting element as a light source is applied to a power supply rail 11 to be miniaturized.
In a power supply rail, a groove is provided along a longitudinal direction, and an electrode is provided along the groove. The illuminating device main body 22 having a light emitting element is detachably attached to the power supply rail 11 by the attaching means 32. The lighting circuit 30 of the illuminating device body 22 is housed in the groove 14 of the power supply rail 11. The lighting circuit 30 accommodated in the groove 14 of the power supply rail 11 and the electrode 16 in the groove 14 are electrically connected by the electric connecting means 33. The lighting circuit 30 is housed in the groove 14 of the power supply rail 11 to reduce the size.
[Selection] Figure 1

Description

  The present invention relates to a lighting device that is attached to a power supply rail in which a groove is formed along a longitudinal direction and an electrode is disposed along the groove.

  2. Description of the Related Art Conventionally, in a lighting device using a light emitting diode as a light source, for example, a light emitting diode as a light emitting element, a configuration in which a plurality of light emitting diodes are mounted in a row on a substrate and used as a line light source is known (for example, Patent Documents). 1 and 2).

In general, an illumination device using such a light emitting diode as a light source is attached to a mounting location by screwing or the like and electrically connected using wiring.
JP 2002-299697 A (page 3, FIG. 1) JP-A-10-308536 (second page, FIG. 3)

  However, the conventional lighting device using a light emitting diode as a light source has a problem that the mounting position of the lighting device is not easily changed corresponding to the change of the illumination location, and the wiring work is troublesome.

  By the way, when installing an illuminating device such as a spotlight using a lamp as a light source, a power supply rail in which a groove is formed along the longitudinal direction and an electrode is disposed along the groove is installed on a ceiling or the like. There is a configuration in which the lighting device is mechanically and electrically connected to the power supply rail and attached, and the lighting device can be easily moved to an arbitrary position along the power supply rail. However, there has not been a conventional power supply rail that uses an illumination device that uses a light emitting diode as a light source.

  The present invention has been made in view of the above points, and an object thereof is to be applicable to a power supply rail in a lighting device using a light emitting element as a light source, and to be miniaturized.

  The illuminating device main body according to claim 1, wherein the illuminating device main body includes a light emitting element; and the power supply rail in which a groove is formed along the longitudinal direction and an electrode is disposed along the groove. A mounting means for detachably mounting; a lighting circuit housed in the groove of the power supply rail by mounting the lighting device main body on the power supply rail; a lighting circuit housed in the groove of the power supply rail and the power supply rail Electrical connection means for electrically connecting the electrodes in the groove.

  In this configuration, the lighting device body using the light emitting element as the light source can be applied to the power supply rail, and the lighting circuit is housed in the groove of the power supply rail. Can be realized.

  The lighting device according to claim 2 is the lighting device according to claim 1, wherein the attachment means is attached to and detached from the power supply rail by rotating integrally with the lever provided rotatably on the main body of the lighting device. The electrical connection means includes a connection terminal that can be connected to the electrode of the power supply rail, and a connection switching portion that rotates integrally with the lever and contacts and separates the connection terminal from the electrode of the power supply rail. I have it.

  In this configuration, the lever provided on the lighting device main body is attached to and detached from the power supply rail and the connection terminal is connected to and separated from the electrode of the power supply rail by turning the lever provided on the lighting device main body. Mechanical and electrical attachment / detachment to / from is facilitated.

  According to a third aspect of the present invention, in the lighting device of the first aspect, at least a part of the main body of the lighting device is inserted into a groove of the power supply rail, and mounting means are provided on both sides of the groove of the power supply rail. And an engaging member that is detachably engaged with a portion of the lighting device main body that is inserted into the groove.

  In this configuration, the engaging members provided on both sides of the groove of the power supply rail are detachably engaged with the part of the lighting device main body inserted into the groove of the power supply rail. Can be easily attached to and detached from the power supply rail.

  A lighting device according to claim 4 is the lighting device according to any one of claims 1 to 3, wherein the lighting device and the lighting circuit have a substrate mounted on one surface, and a power supply rail is provided on the other surface of the substrate. A heat radiating surface to the side is provided.

  In this configuration, since the light emitting element and the lighting circuit are mounted on one surface of the substrate, the entire other surface of the substrate can be used as a heat radiating surface to the power supply rail side, and heat dissipation is improved.

  The illumination device according to claim 5 is the illumination device according to any one of claims 1 to 3, wherein at least a part of the illumination device body is inserted into a groove of the power supply rail, A heat conducting member is provided between a portion of the lighting device main body inserted into the groove and the power supply rail.

  In this configuration, since the heat conduction member is interposed between the portion of the lighting device main body inserted into the groove of the power supply rail and the power supply rail, the heat conduction member heats the lighting device main body side. It is efficiently transmitted to the supply rail, improving heat dissipation.

  The illumination device according to claim 6 is the illumination device according to any one of claims 1 to 3, wherein the illumination device body includes a heat radiating member inserted into the groove of the power supply rail and pressed against the power supply rail. It is.

  In this configuration, the heat dissipating member of the lighting device main body is inserted into the groove of the power supply rail and pressed against the power supply rail, so that the heat on the lighting device main body side is efficiently transmitted to the power supply rail by the heat dissipating member. This improves heat dissipation.

  According to the illuminating device of the first aspect, the illuminating device main body having the light emitting element as the light source can be applied to the power supply rail, and the lighting circuit is housed in the groove of the power supply rail, so that the illuminating device main body is attached. Can be miniaturized.

  According to the illuminating device of claim 2, in addition to the effect of the illuminating device of claim 1, the electrode of the power supply rail can be attached to and detached from the power supply rail by rotating a lever provided on the illuminating device body. The connection terminal can be connected to and separated from the power supply, and mechanical and electrical attachment / detachment to / from the power supply rail of the lighting device body can be facilitated.

  According to the lighting device according to claim 3, in addition to the effect of the lighting device according to claim 1, the engaging members provided on both sides of the groove of the power supply rail are inserted into the groove of the power supply rail. Since it detachably engages with the part of the apparatus body, the illumination apparatus body can be easily attached to and detached from the power supply rail.

  According to the lighting device of claim 4, in addition to the effect of the lighting device of any one of claims 1 to 3, since the light emitting element and the lighting circuit are mounted on one surface of the substrate, the entire other surface of the substrate is Can be used as a heat dissipation surface to the power supply rail side, and heat dissipation can be improved.

  According to the lighting device of the fifth aspect, in addition to the effect of the lighting device according to any one of the first to third aspects, the portion of the lighting device main body inserted into the groove of the power supply rail and the power supply rail Since the heat conducting member is interposed therebetween, the heat conducting member can efficiently transfer the heat on the lighting device main body side to the power supply rail, and the heat dissipation can be improved.

  According to the illuminating device of claim 6, in addition to the effect of the illuminating device according to any one of claims 1 to 3, the heat radiating member of the illuminating device main body is inserted into the groove of the power supply rail so as to become the power supply rail. Since it is press-contacted, the heat from the lighting device main body can be efficiently transmitted to the power supply rail by this heat radiating member, and the heat dissipation can be improved.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 to FIG. 5 show a first embodiment, FIG. 1 is a cross-sectional view of the lighting device, FIG. 2 is a front view of the lighting device attached with the lighting device main body removed, and FIG. FIG. 4 is a front view of the illumination device with the illumination device attached / detached, and FIG. 5 is a sectional view of the illumination device attached / detached.

  In the figure, 11 is a power supply rail, and this power supply rail 11 is installed on an installation surface such as a ceiling surface or a wall surface corresponding to the lighting location, for example, a lighting rail (trade name) for stores, etc. Is preferred. The power supply rail 11 is made of, for example, a metal such as aluminum and is elongated with a substantially C-shaped cross section. An opening 12 is formed on one side of the power supply rail 11 and edges 13 are formed on both sides of the opening 12. A groove 14 communicating with the opening 12 is formed inside. A pair of electrodes 16 are disposed along the longitudinal direction on both sides of the groove 14 by a pair of insulating electrode holding members 15, and power is supplied to these electrodes 16.

  The lighting device 21 applied to the power supply rail 11 has a lighting device main body 22. The lighting device main body 22 is formed to be elongated along the power supply rail 11, and the light source emits light. A plurality of light emitting diodes 23, which are solid light emitting elements, are used as elements, and the plurality of light emitting diodes 23 are configured as a light emitting module in which two rows are arranged in the width direction intersecting the longitudinal direction and spaced in the longitudinal direction. Yes.

  The lighting device body 22 includes a plurality of light emitting diodes 23, a substrate 24 on which the light emitting diodes 23 on one surface are mounted, a case 25 having a substantially U-shaped cross section made of metal such as aluminum to which the other surface of the substrate 24 is bonded, A light control body 26 that is attached to the case 25 and controls light emitted from each light emitting diode 23 is provided.

  A mounting member 27 made of metal such as aluminum is tightly fixed to the back surface of at least one end of the case 25 attached to the power supply rail 11 with a screw 28. The mounting member 27 is inserted into the groove 14 of the power supply rail 11. A frame portion 29 is formed, and a lighting circuit 30 for lighting the light emitting diode 23 and a circuit board 31 constituting the lighting circuit 30 are accommodated in the frame portion 29. That is, the lighting circuit 30 is configured to be housed in the groove 14.

  At least one end of the attachment member 27 is provided with attachment means 32 for detachably attaching the lighting device body 22 to the power supply rail 11, and electrical connection means 33 for electrically connecting to the electrode 16 of the power supply rail 11. Is provided.

  The attachment means 32 includes a lever 34 and a rotation member 35 that is connected to the lever 34 and rotates integrally. The lever 34 and the rotation member 35 are attached to a shaft portion 36 that protrudes from the attachment member 27. It is inserted so as to be rotatable, and is rotatably attached by a screw 37 attached to the tip of the shaft portion 36.

  The lever 34 has an operation unit 38 that can move forward and backward with respect to the side of the lighting device body 22, and the operation unit 38 is turned to the back side of the lighting device body 22 as shown in FIGS. 1 to 3. The rotation position is the mounting position where the lighting device body 22 is attached to the power supply rail 11, and the operation unit 38 is rotated to the side of the lighting device body 22 as shown in FIGS. The position is set as an attachment / detachment position at which the illumination device main body 22 can be attached / detached to / from the power supply rail 11.

  The rotating member 35 is inserted into the groove 14 of the power supply rail 11. The side surface of the rotating member 35 is engaged with the edge 13 on both sides of the groove 14 at the mounting position of the lever 34 and the lever. A pair of attachment portions 39 that can be inserted through the openings 12 between the edge portions 13 on both sides of the groove 14 at the attachment / detachment position 34 are formed to project. Further, a pair of connection switching portions 40 constituting a part of the electrical connection means 33 are formed on the side surface of the rotation member 35 so as to correspond to the protruding direction of the pair of attachment portions 39. The angle between the attachment position of the lever 34 and the attachment / detachment position is approximately 90 °.

  The electrical connection means 33 has a pair of connection terminals 41, and the base ends of the connection terminals 41 are directly connected and fixed to the circuit board 31 of the lighting circuit 30 by screws 42, and the distal ends of the connection terminals 41 are rotated. A contact portion 43 is formed at both side positions corresponding to the position of the connection switching portion 40 of the moving member 35, and contacts each electrode 16 of the power supply rail 11 at the tip of each connection terminal 41 to allow electrical connection. Each connection terminal 41 has elasticity in a direction toward the rotation member 35, that is, in a direction away from each electrode 16.

  Next, the operation of the first embodiment will be described.

  When the lighting device 21 is mounted on the power supply rail 11, as shown in FIGS. 4 and 5, the mounting member is turned in a state in which the lever 34 is rotated to the attaching / detaching position protruding to the side of the lighting device body 22. The frame portion 29, the rotation member 35, the connection terminal 41, and the like of 27 are inserted into the groove 14 of the power supply rail 11, and the mounting member 27 is brought into contact with the power supply rail 11.

  Subsequently, as shown in FIGS. 1 to 3, the lever 34 is rotated by approximately 90 ° to the mounting position hidden behind the lighting device main body 22. As a result, the rotation member 35 rotates integrally with the lever 34, and each attachment portion 39 engages with the edge portions 13 on both sides of the groove 14, and the edge portion 13 is between the attachment portion 39 and the attachment member 27. The lighting device body 22 can be firmly attached to the power supply rail 11. Further, the rotation member 35 rotates integrally with the lever 34, and each connection switching unit 40 pushes each connection terminal 41 to press-contact each contact portion 43 to each electrode 16, and each connection terminal 41 and each electrode 16 is electrically connected, and the lighting circuit 30 can be supplied with power.

  Then, by lighting each light emitting diode 23 by the lighting circuit 30, line illumination that shines in a line along the power supply rail 11 can be performed.

  When the lighting device 21 is removed from the power supply rail 11, the lever 34 is rotated by approximately 90 ° to the attaching / detaching position protruding to the side of the lighting device main body 22 as shown in FIGS. , The rotating member 35 rotates integrally with the lever 34, each mounting portion 39 comes off the edge 13 on both sides of the groove 14 and faces the opening 12, and each connection switching portion 40 pushes each connection terminal 41. And the contact portions 43 are separated from the electrodes 16. In this state, by moving the lighting device 21 away from the power supply rail 11, the frame portion 29, the rotating member 35, the connection terminal 41 and the like of the mounting member 27 can be removed from the groove 14, and the lighting device 21 can be removed. it can.

  Thus, the illuminating device body 22 using the light emitting diode 23 as a light source can be applied to the power supply rail 11 and can be easily attached and detached. Therefore, the mounting position of the illumination device 21 with respect to the power supply rail 11 can be easily changed.

  In addition, since the lighting circuit 30 is accommodated in the groove 14 of the power supply rail 11, it is possible to reduce the size of the lighting device main body 22 in the mounted state, particularly to reduce the thickness.

  In addition, the lever 34 provided on the lighting device body 22 can be attached to and detached from the power supply rail 11 and the connection terminal 41 can be connected to and separated from the electrode 16 of the power supply rail 11. Mechanical and electrical attachment / detachment with respect to the supply rail 11 can be easily performed by operating only one lever 34.

  Further, since the connection terminal 41 is directly connected to the circuit board 31, wiring work can be facilitated.

  In addition, since heat generated by the light emitting diode 23 at the time of lighting is transmitted to the power supply rail 11 through the substrate 24, the case 25, and the mounting member 27, heat dissipation can be improved and the life of the light emitting diode 23 can be extended.

  Note that one or a plurality of attachment means 32 can be attached to the power supply rail 11 according to the dimensions of the lighting device body 22. When there are a plurality of attachment means 32, the electrical connection means 33 is provided at the positions of the two attachment means 32, and the two electrical connection means 33 are connected to the electrodes 16 having different polarities. You can also

  Next, FIGS. 6 to 8 show a second embodiment. FIG. 6 is a front view of the lighting device, FIG. 7 is a cross-sectional view of the lighting device, and FIG. 8 is a cross-sectional view of the lighting device.

  The entire illumination device body 22 of the illumination device 21 is accommodated in the groove 14 of the power supply rail 11.

  Concave portions 50 are formed on both sides of the illuminating device main body 22 corresponding to the mounting positions by the mounting means 32.

  A pair of flange portions 51 are formed on both sides of the power supply rail 11, and an engagement member 52 of an attachment means 32 that detachably engages with the lighting device main body 22 is interposed between the flange portions 51. It is attached along the longitudinal direction. These engaging members 52 are metal leaf springs, the base ends of which are fixed to the power supply rail 11 with screws 53, and the lighting device main body 22 through the window portions 54 formed on both sides of the power supply rail 11 near the distal end. A claw portion 55 that engages and disengages with the concave portions 50 on both sides is formed, and a release operation portion 56 for removing the claw portion 55 from the concave portion 50 to the outside is formed at the tip. Each claw portion 55 is inclined in the direction opposite to the opening 12 of the power supply rail 11.

  On the opposite side of the opening 14 in the groove 14 of the power supply rail 11, heat conductivity as a heat conducting member sandwiched between the lighting device body 22 inserted into the groove 14 and pressed against each other Rubber 57 is disposed.

  The lighting circuit 30 is mounted on a substrate 24 on which the light emitting diode 23 is mounted. Some components of the lighting circuit 30 are mounted on the other surface opposite to the one surface of the substrate 24 on which the light emitting diode 23 is mounted. An opening 58 is formed in the case 25 of the illuminating device main body 22 so that the components of the lighting circuit 30 mounted on the other surface of the substrate 24 are protruded.

  When attaching the lighting device 21, by inserting the lighting device body 22 into the groove 14 of the power supply rail 11, the lighting device body 22 comes into contact with the claw portions 55 on both sides and the claw portions 55 are elastically deformed outward. When the lighting device main body 22 is inserted to a predetermined position, the concave portion 50 reaches the position of the claw portion 55, and the claw portion 55 engages with the concave portion 50 by the elasticity of the engaging member 52, and the lighting device main body Lock 22 to prevent it from coming off. At this time, the heat conductive rubber 57 is sandwiched between the illuminating device body 22 and the power supply rail 11 and is in pressure contact therewith.

  When removing the illumination device 21, the release operation portion 56 of each engagement member 52 is opened outward, and the claw portion 55 is removed from the recess 50, so that the illumination device body 22 is removed from the groove 14 of the power supply rail 11. be able to.

  Thus, since the engaging members 52 provided on both sides of the power supply rail 11 are detachably engaged with the lighting device body 22, the lighting device body 22 can be easily attached to and detached from the power supply rail 11. .

  In addition, since the heat conductive rubber 57 is interposed between the lighting device body 22 and the power supply rail 11, the heat conductive rubber 57 can efficiently transfer the heat on the lighting device body 22 side to the power supply rail 11, Heat dissipation can be improved. Therefore, the life of the light emitting diode 23 can be extended, or the current flowing through the light emitting diode 23 can be increased to increase the luminous flux.

  Next, FIGS. 9 to 10 show a third embodiment. FIG. 9 is a front view of the lighting device, and FIG. 10 is a cross-sectional view of the lighting device. The basic configuration is the same as that of the second embodiment shown in FIGS.

  An intermediate portion of the engaging member 52 is pivotally supported by a pin 61 penetrating the flange portion 51, a claw portion 55 is formed at the distal end of the engaging member 52, and a release operation is performed at the proximal end portion of the engaging member 52 A portion 56 is formed. The vicinity of the base end of the engaging member 52 is urged by a spring 62 as urging means so that the claw portion 55 enters the groove 14.

  When the lighting device 21 is attached, the lighting device main body is placed in the groove 14 of the power supply rail 11 in a state in which the release operation portions 56 of the engaging members 52 on both sides are operated to release the claw portions 55 to the outside of the groove 14. 22 is inserted, and the operation of the release operation portion 56 of the engagement members 52 on both sides is released. When the illumination device body 22 is inserted to a predetermined position, the recess 50 reaches the position of the claw portion 55, and the claw portion 55 engages with the recess 50 by the bias of the spring 62 to prevent the illumination device body 22 from coming off. Lock. At this time, a heat conductive rubber 57 (not shown, but the same as in FIG. 7) is sandwiched between the lighting device main body 22 and the power supply rail 11 and is in pressure contact therewith.

  Further, when the lighting device 21 is removed, the lighting device main body 22 is removed from the groove 14 of the power supply rail 11 by operating the release operation portion 56 of each engaging member 52 and removing the claw portion 55 from the recess 50. Can do.

  By configuring in this way, the second embodiment has the same operational effects.

  Next, FIG. 11 and FIG. 12 show a fourth embodiment, FIG. 11 is a side view of the lighting device, and FIG. 12 is a sectional view of the lighting device.

  The entire illumination device body 22 of the illumination device 21 is accommodated in the groove 14 of the power supply rail 11.

  Projections 65 are formed on both sides of the illuminating device body 22 so as to correspond to the mounting positions by the mounting means 32.

  A groove 66 is formed in the longitudinal direction on both sides of the power supply rail 11, and an engaging member 67 is slidably attached along the groove 66. Each engaging member 67 is formed with an engaging portion 68 that protrudes into the groove 14 and can be engaged with the protruding portion 65. Each engagement member 67 has a movement position on one end side of the groove 66 as an engagement position where the engagement section 68 engages with the projection 65, and a movement position on the other end side engages with the projection 65. The attachment / detachment position does not match.

  When attaching the lighting device 21, with the engaging members 52 on both sides moved to the attachment / detachment position, the lighting device body 22 is inserted into the groove 14 of the power supply rail 11, and the lighting device body 22 is inserted in the insertion direction. In the pressed state, the engaging member 52 is slid to the engaging position, whereby the engaging portion 68 is engaged with the protrusion 65, and the lighting device main body 22 is prevented from coming off.

  Further, when removing the lighting device 21, by sliding each engaging member 52 to the attaching / detaching position, the engaging portion 68 is detached from the projection 65, and the lighting device main body 22 is removed from the groove 14 of the power supply rail 11. Can do.

  Thus, since the engaging members 67 provided on both sides of the power supply rail 11 are detachably engaged with the lighting device body 22, the lighting device body 22 can be easily attached to and detached from the power supply rail 11. .

  Further, since the engaging portion 68 of the engaging member 67 engages with the protrusion 65, the lighting device main body 22 is pressed against the power supply rail 11, so that the heat on the lighting device main body 22 side is efficiently applied to the power supply rail 11. It can be transmitted and heat dissipation can be improved. Therefore, the life of the light emitting diode 23 can be extended, or the current flowing through the light emitting diode 23 can be increased to increase the luminous flux.

  Next, FIG. 13 and FIG. 14 show a fifth embodiment, FIG. 13 is a front view of the lighting device, and FIG. 14 is a cross-sectional view of the lighting device. The basic configuration is the same as that of the fourth embodiment shown in FIGS.

  Guide grooves 71 communicating with the groove portions 66 are formed on both sides of the surface where the opening 12 of the power supply rail 11 opens, and the operation pins 72 for sliding the engaging members 67 can be slid in these guide grooves 71. Has been placed.

  By comprising in this way, there exists the same effect as 4th Embodiment.

  Further, since the engaging member 67 can be operated from the insertion direction of the lighting device main body 22 in the power supply rail 11, the operability of the engaging member 67 is good and the lighting device main body 22 can be easily attached and detached.

  Next, FIGS. 15 to 17 show a sixth embodiment, in which FIG. 15 is a sectional view of the lighting device, FIG. 16 is a sectional view of the lighting device, and FIG. 17 is a sectional view of the lighting device.

  The light emitting diode 23 and the lighting circuit 30 are mounted on one surface of the substrate 24, and the entire other surface of the substrate 24 is formed as a heat dissipation surface 75 to the power supply rail 11 side. The heat radiating surface 75 may be printed with a metal foil having good thermal conductivity such as copper or aluminum.

  The components 76 of the lighting circuit 30 mounted on one surface of the substrate 24 are disposed between the light control body 26 and the case 25, between the light control body 26 and the light control body 26, and the like. For the lead component 77 having a lead wire, the component body is mounted on one surface of the substrate 24 and the lead wire protrudes on the other surface of the substrate 24, so that the case 25 does not interfere with the lead wire. A recess 78 is formed.

  Since the heat dissipation surface 75 of the substrate 24 comes into surface contact with the case 25, the heat generated when the light emitting diode 23 is turned on is efficiently transferred from the substrate 24 to the case 25, and is efficiently transmitted to the power supply rail 11 through the case 25. Well communicated.

  As described above, since the components of the light emitting diode 23 and the lighting circuit 30 are mounted on one surface of the substrate 24, the entire other surface of the substrate 24 can be used as the heat radiating surface 75 to the power supply rail 11 side, improving heat dissipation. it can. Therefore, the life of the light emitting diode 23 can be extended, or the current flowing through the light emitting diode 23 can be increased to increase the luminous flux.

  Next, FIG. 18 shows a seventh embodiment, and FIG. 18 is a sectional view of the lighting device. The basic configuration is the same as that of the second embodiment shown in FIGS.

  The illuminating device main body 22 has a heat radiating member 81 that is inserted into the groove 14 of the power supply rail 11 and radiates heat from the substrate 24 side to the power supply rail 11. The heat radiating member 81 is made of a metal such as aluminum and has a substantially U-shaped cross section, and is joined to the case 25 on the substrate 24 side.

  Between one side portion of the heat radiating member 81 inserted into the groove 14 and one side portion of the power supply rail 11, an expansion member 82 made of, for example, a resin having a thermal expansion coefficient larger than that of metal is disposed.

  Then, the expansion member 82 is thermally expanded by the heat generated when the light emitting diode 23 is turned on, and the heat dissipation member 81 is pressed against the power supply rail 11 to be in pressure contact therewith. Thereby, the heat of the light emitting diode 23 can be efficiently transmitted to the power supply rail 11 through the heat radiating member 81, and the heat dissipation can be improved. Therefore, the life of the light emitting diode 23 can be extended, or the current flowing through the light emitting diode 23 can be increased to increase the luminous flux.

  Next, FIG. 19 shows an eighth embodiment, and FIG. 19 is a sectional view of the illumination device. The basic configuration is the same as that of the seventh embodiment shown in FIG.

  For example, a heat radiating member 85, which is a sealed container formed by sealing a gas with metal or heat conductive rubber, is used, and the heat radiating member 85 is disposed in the groove 14, and is connected to the lighting device body 22 and the power supply rail 11. Be joined.

  Then, the heat in the heat radiating member 85 is thermally expanded by the heat generated when the light emitting diode 23 is turned on, so that the heat radiating member 85 is in pressure contact with the lighting device body 22 and the power supply rail 11. Thereby, the heat of the light emitting diode 23 can be efficiently transmitted to the power supply rail 11 via the heat dissipation member 85, and the heat dissipation can be improved.

  Next, FIG. 20 to FIG. 23 show a ninth embodiment, FIG. 20 is a sectional view of the lighting device, FIG. 21 is a sectional view showing another example of the lighting device, and FIG. FIG. 23 is a cross-sectional view showing still another example of the lighting device.

  As shown in FIG. 20, the illuminating device main body 22 has a substantially U-shaped heat radiating member 88 made of, for example, metal that is joined to the substrate 24. An elastic pressure contact portion 89 that is elastically pressed against the power supply rail 11 by being inserted is provided. The elastic pressure contact portion 89 is disposed so as to face the insertion direction of the power supply rail 11 into the groove 14.

  A lighting circuit 30 is mounted on the other surface opposite to one surface of the substrate 24 on which the light emitting diode 23 is mounted, and a heat radiating member 88 is joined at a portion other than the lighting circuit 30.

  Then, by inserting the lighting device main body 22 into the groove 14 of the power supply rail 11, the elastic pressure contact portion 89 of the heat radiating member 88 comes into contact with the power supply rail 11 and further illuminates against the elasticity of the elastic pressure contact portion 89. The apparatus main body 22 is inserted, and the lighting apparatus main body 22 is locked to the power supply rail 11 with a locking structure such as a claw (not shown).

  Since the elastic pressure contact portion 89 of the heat radiating member 88 is elastically pressed against the power supply rail 11, heat of the light emitting diode 23 can be efficiently transmitted to the power supply rail 11 through the heat radiating member 88, and heat dissipation can be improved. Therefore, the life of the light emitting diode 23 can be extended, or the current flowing through the light emitting diode 23 can be increased to increase the luminous flux.

  Further, as shown in FIG. 21, an elastic pressure contact portion 89 at one end of a heat radiating member 88 having a substantially U-shaped cross section is disposed on one side, and this heat radiating member 88 is inserted into the groove 14 to thereby provide one side elastic pressure contact portion. 89 and the other side of the heat radiating member 88 are in pressure contact with both sides of the power supply rail 11.

  Further, as shown in FIG. 22, elastic pressure contact portions 89 are provided on both sides of the heat radiating member 88, and the heat radiating members 88 are inserted into the grooves 14, so that the elastic pressure contact portions 89 on both sides are pressed against both sides of the power supply rail 11. To do.

  Further, as shown in FIG. 23, the elastic pressure contact portions 89 provided on both sides of the heat radiating member 88 have a convex curved surface shape, and the convex curved surfaces of the elastic pressure contact portions 89 are in pressure contact with both sides of the power supply rail 11. In this case, it is easy to insert the heat radiating member 88 into the groove 14, and the pressure contact force at the portion in contact with the power supply rail 11 is large, so that the heat transfer performance at that portion can be improved.

  Next, FIG. 24 to FIG. 28 show a tenth embodiment, FIG. 24 is a cross-sectional view of a lighting device, FIG. 25 is a cross-sectional view showing another example of the lighting device, and FIG. FIG. 27 is a sectional view showing still another example of the lighting device, and FIG. 28 is a sectional view showing still another example of the lighting device.

  As shown in FIG. 24, the luminaire main body 22 has a substantially U-shaped heat radiating member 92 made of, for example, metal that is joined to the substrate 24, and between one side of the heat radiating member 92 and one side of the power supply rail 11. An urging means 93 composed of a coil spring is disposed on the other side, and the urging means 93 urges the other side of the heat radiating member 92 to the other side of the power supply rail 11.

  When the heat radiating member 92 is in pressure contact with the power supply rail 11, the heat of the light emitting diodes 23 can be efficiently transmitted to the power supply rail 11 through the heat radiating member 92, and the heat dissipation can be improved. Therefore, the life of the light emitting diode 23 can be extended, or the current flowing through the light emitting diode 23 can be increased to increase the luminous flux.

  Further, as shown in FIG. 25, the urging means 93 may be constituted by a leaf spring having a substantially V-shaped cross section.

  In addition, as shown in FIG. 26, the heat radiating member 92 may be formed in a substantially L-shaped cross section, and a large coil spring as the urging means 93 may be used to increase the urging force.

  Further, as shown in FIG. 27, a plate spring may be used as the urging means 93, and the end of the plate spring may be hooked on the heat radiating member 92 to be urged.

  In addition, as shown in FIG. 28, a mounting portion 94 for mounting both ends of the leaf spring of the biasing means 93 may be provided on the heat dissipating member 92 and biased by the leaf spring mounted on the mounting portion 94. .

  Next, FIG. 29 and FIG. 30 show an eleventh embodiment. FIG. 29 is a sectional view of the lighting device in a separated state, and FIG. 30 is a sectional view of the lighting device in an assembled state.

  As shown in FIG. 29, the components of the lighting circuit 30 are mounted on the other surface of the substrate 24 opposite to the surface on which the light emitting diodes 23 are mounted. It is covered with a thermosetting resin 97 having elasticity.

  Then, by inserting the lighting device main body 22 into the groove 14 of the power supply rail 11 from the thermosetting resin 97 side, the thermosetting resin 97 contacts the power supply rail 11 as shown in FIG. By inserting the apparatus main body 22, the thermosetting resin 97 is elastically deformed, in particular, is deformed so as to spread in both directions of the power supply rail 11, and the thermosetting resin 97 is pressed against both sides of the power supply rail 11. The inserted state of the lighting device body 22 into the power supply rail 11 is held by the holding portions 98 of the attachment means 32 provided on both sides of the opening 12 of the power supply rail 11.

  When the thermosetting resin 97 is in pressure contact with the power supply rail 11, the heat of the light emitting diodes 23 can be efficiently transmitted to the power supply rail 11 via the thermosetting resin 97, and heat dissipation can be improved. Therefore, the life of the light emitting diode 23 can be extended, or the current flowing through the light emitting diode 23 can be increased to increase the luminous flux.

  In the second to eleventh embodiments described above, the electrical connection means 33 is not shown, but the electrical connection means 33 that contacts the electrode 16 of the power supply rail 11 and supplies power to the lighting circuit 30 is provided. It has.

It is sectional drawing of the illuminating device which shows the 1st Embodiment of this invention. It is the front view which removed the illuminating device main body of the attachment state of the illuminating device same as the above. It is sectional drawing of the attachment state of an illuminating device same as the above. It is the front view which removed the illuminating device main body of the attachment / detachment state of an illuminating device same as the above. It is sectional drawing of the attachment or detachment state of an illuminating device same as the above. It is a front view of the illuminating device which shows the 2nd Embodiment of this invention. It is sectional drawing of an illuminating device same as the above. It is sectional drawing of an illuminating device same as the above. It is a front view of the illuminating device which shows the 3rd Embodiment of this invention. It is sectional drawing of an illuminating device same as the above. It is a side view of the illuminating device which shows the 4th Embodiment of this invention. It is sectional drawing of an illuminating device same as the above. It is a front view of the illuminating device which shows the 5th Embodiment of this invention. It is sectional drawing of an illuminating device same as the above. It is sectional drawing of the illuminating device which shows the 6th Embodiment of this invention. It is sectional drawing of an illuminating device same as the above. It is sectional drawing of an illuminating device same as the above. It is sectional drawing of the illuminating device which shows the 7th Embodiment of this invention. It is sectional drawing of the illuminating device which shows the 8th Embodiment of this invention. It is sectional drawing of the illuminating device which shows the 9th Embodiment of this invention. It is sectional drawing which shows the other example of an illuminating device same as the above. It is sectional drawing which shows another example of an illuminating device same as the above. It is sectional drawing which shows another example of an illuminating device same as the above. It is sectional drawing of the illuminating device which shows the 10th Embodiment of this invention. It is sectional drawing which shows the other example of an illuminating device same as the above. It is sectional drawing which shows another example of an illuminating device same as the above. It is sectional drawing which shows another example of an illuminating device same as the above. It is sectional drawing which shows the further another example of an illuminating device same as the above. It is sectional drawing of the isolation | separation state of the illuminating device which shows the 11th Embodiment of this invention. It is sectional drawing of the assembly state of an illuminating device same as the above.

Explanation of symbols

11 Power supply rail
14 groove
16 electrodes
21 Lighting equipment
22 Lighting device body
23 Light-emitting diodes as light-emitting elements
24 substrates
30 lighting circuit
32 Mounting method
33 Electrical connection means
34 Lever
39 Mounting part
40 Connection selector
41 Connection terminal
52, 67 engaging member
57 Thermally conductive rubber as a thermal conductive member
75 Heat dissipation surface
81, 85, 88, 92 Heat dissipation member

Claims (6)

A lighting device body having a light emitting element;
Attachment means for detachably attaching the lighting device main body to a power supply rail in which a groove is formed along the longitudinal direction and an electrode is disposed along the groove;
A lighting circuit housed in the groove of the power supply rail by attaching the lighting device body to the power supply rail;
Electrical connection means for electrically connecting the lighting circuit housed in the groove of the power supply rail and the electrode in the groove of the power supply rail;
An illumination device comprising: The attachment means has a lever that is rotatably provided on the lighting device main body, and an attachment portion that rotates integrally with the lever and is attached to and detached from the power supply rail.
The electrical connection means includes a connection terminal that can be connected to the electrode of the power supply rail, and a connection switching portion that rotates integrally with the lever to bring the connection terminal into and out of contact with the electrode of the power supply rail. Item 2. The lighting device according to Item 1. The lighting device body is at least partially inserted into the groove of the power supply rail,
The mounting means includes engaging members that are provided on both sides of the groove of the power supply rail and detachably engage with a portion of the main body of the lighting device inserted into the groove. Lighting device.   4. The light-emitting element and the lighting circuit have a substrate mounted on one surface, and a heat radiating surface to the power supply rail side is provided on the other surface of the substrate. Lighting equipment. The lighting device body is at least partially inserted into the groove of the power supply rail,
The heat conduction member interposed between the part of the illuminating device main body inserted in a groove | channel and a power supply rail is provided in the groove | channel of the power supply rail, The Claim 1 thru | or 3 characterized by the above-mentioned. Lighting device.   4. The lighting device according to claim 1, wherein the lighting device main body includes a heat radiating member that is inserted into a groove of the power supply rail and is pressed against the power supply rail.

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