JP6238173B2 - LED lighting fixtures - Google Patents

Description

  The present invention relates to an LED lighting device that emits light from a light source via a light guide plate.

DESCRIPTION OF RELATED ART Conventionally, the LED lighting fixture (illuminating device) which irradiates the light from a light source via a light-guide plate is known (for example, refer patent document 1).
The LED lighting apparatus described in Patent Literature 1 is a hanging type (so-called pendant light) that is hung from an installation surface such as a ceiling. The LED lighting apparatus described in Patent Literature 1 includes a fixed portion that is fixed to the ceiling, an illumination portion that includes a light source, and two wires that suspend the illumination portion from the fixed portion.
The illumination unit includes two light source modules in which a plurality of LED chips are mounted on an LED substrate, and two light guide plates provided corresponding to each light source module. The light guide plate has an incident end surface on which light from the light source module is incident. The incident end face is disposed to face the light source module. The light guide plate illuminates by guiding the light emitted from the light source module to the inside and emitting it from the upper and lower planes intersecting the incident end face.

JP 2014-032827 A

  In the conventional LED lighting apparatus described above, the light guide plate is attached by sandwiching the base end portion of the light guide plate along the thickness direction. For this reason, since the movement is not restricted in the direction along the surface direction of the light guide plate, the incident efficiency may be lowered when the relative position between the incident end face and the LED chip is shifted.

  The present invention has been made to solve the conventional problems, and an object of the present invention is to provide an LED lighting apparatus that can prevent a decrease in incident efficiency.

  The LED lighting apparatus of the present invention is arranged such that the incident end face is opposed to the light source of the apparatus main body, the power supply unit, the LED light emitting unit that emits light by supplying power from the power supply unit, and the light source of the LED light emitting unit. And a light guide plate that emits light from a plane that intersects the incident end surface, and the light guide plate has a protruding portion that projects in a thickness direction from a plane that intersects the incident end surface, The LED light emitting unit includes a circuit board on which a plurality of LED chips are linearly mounted as the light source, and a holder that holds the circuit board and is fixed to the instrument body. The pair of ridges are provided at positions separated by a predetermined distance so as to sandwich the projection in the direction along the plane.

  In the present invention, the incident end face of the light guide plate is provided with a protrusion that protrudes in the thickness direction of the light guide plate, and the holder is provided with a pair of protrusions at a position sandwiching the protrusion along the plane of the light guide plate. Yes. For this reason, this invention can provide the LED lighting fixture which has the effect that the positioning of an LED chip and the incident end surface of a light-guide plate can be performed easily, and the fall of the incident efficiency in an incident end surface can be prevented.

The perspective view which looked at the state which attached the LED lighting fixture of embodiment which concerns on this invention to the ceiling surface from the downward direction The perspective view which looked at the LED lighting fixture of embodiment which concerns on this invention from upper direction Sectional drawing of the LED lighting fixture of embodiment which concerns on this invention Sectional drawing of the upper LED light emission part vicinity of the LED lighting fixture of embodiment which concerns on this invention Perspective view of the upper cover as seen from above Expanded sectional view of the top cover (A) is the perspective view which looked at the upper light-guide plate from the lower part, (B) is an expanded sectional view of the BB position in (A) (A) is an enlarged plan view of the VIII portion in FIG. 7, (B) is a cross-sectional view of the position BB in (A) (A) is the perspective view which looked at the state which attached the upper LED light emission part, the lower LED light emission part, and the cyclic | annular LED light emission part to the instrument main body from the downward | lower direction, (B) is sectional drawing of the BB position in (A). (A) is the perspective view which looked at the holder which attached the circuit board from the outer side, (B) is sectional drawing of the BB position in (A) The perspective view which shows the positional relationship of the protrusion part of an upper light-guide plate, and the protrusion part of an upper holder. (A) is a front view of the holder, (B) is a bottom view of the holder, and (C) is a side view of the holder. (A) is the perspective view which looked at the holder which attached the heat sink from the inside, (B) is an enlarged perspective view of a projection part (A) is sectional drawing which shows the cross-sectional shape of a center lens, (B) is sectional drawing which shows the modification of the cross-sectional shape of a center lens.

Hereinafter, the LED lighting fixture of embodiment is demonstrated using drawing.
As shown in FIG. 1, the LED lighting fixture 10 of embodiment is attached to the ceiling surface 11, for example, and can be used for mainly illuminating the downward direction.
In the following description, the LED lighting fixture 10 is attached to the ceiling surface 11, and the ceiling surface 11 side is “upper” and the side opposite to the ceiling surface 11 (that is, the floor side) is “lower”.

First, the overall configuration of the LED lighting apparatus 10 will be outlined.
As shown in FIGS. 1 and 2, the LED lighting device 10 has a device body 20 attached to the ceiling surface 11.
An upper light guide plate (light guide plate) 50 is disposed below the instrument body 20. On the lower side of the upper light guide plate 50, an upper cover (clamping member) 51, which is a first clamping member that supports the upper light guide plate 50 from the lower side, is attached to the instrument body 20. The upper cover 51 is an opaque member.

As shown in FIGS. 1 and 3, a lower light guide plate (light guide plate) 60 is disposed below the upper cover 51. Below the lower light guide plate 60, a light-transmissive lower cover 61 that supports the lower light guide plate 60 from the lower side is provided.
The lower cover 61 has an overall disk shape. A disk-shaped center lens (translucent cover) 70 is provided along the inner periphery of the lower cover 61 inside the lower cover 61.
A disc-shaped lid 71 is detachably attached to the inside of the center lens 70.

Hereinafter, each component will be described in detail.
As shown in FIGS. 2 and 3, the instrument main body 20 is formed in a substantially cylindrical shape as a whole with a metal such as aluminum, for example. A flat portion 23 is provided at the center of the instrument body 20. An opening 21 is provided at the center of the flat portion 23. The opening 21 is provided with an attachment adapter (power supply unit) 22 that is connected to a commercial power source and supplies electric power. The attachment adapter (power supply unit) 22 is attached to a hook ceiling (not shown) attached to the ceiling surface 11. A plurality of (here, for example, three) elastic support members 26 are attached to the upper surface of the flat portion 23.

As shown in FIG. 4, the instrument main body 20 is bent so as to incline outward from the outer peripheral end of the flat portion 23 at the center to form an upright wall 24. The lower end portion of the standing wall 24 is bent outward with respect to the center of the instrument body 20 to provide a horizontal portion 25. The horizontal portion (clamping member) 25 is a second clamping member, and clamps the upper light guide plate 50 in the thickness direction in cooperation with an upper cover 51 that is a first clamping member described later. The front end (outer peripheral edge) of the horizontal portion 25 is folded back into a circular cross section, and a contact portion 251 that contacts the upper light guide plate 50 is provided.
The standing wall 24 corresponds to the arrangement of an upper LED light emitting unit (LED light emitting unit) 30 described later, and is formed in, for example, a hexagonal shape in plan view. Each standing wall 24 is formed like each side of the hexagonal column (see also FIG. 2).

  Therefore, the appliance main body 20 is attached to the ceiling surface 11 by electrically and mechanically connecting the attachment adapter 22 to the hook ceiling with the lid 71 (see FIG. 1) removed. At this time, the elastic support member 26 is elastically deformed between the instrument main body 20 and the ceiling surface 11 to be in close contact with the instrument main body 20 and the ceiling surface 11, thereby fixing the instrument main body 20 without wobbling.

As shown in FIGS. 4 and 5, the upper cover 51 has an overall annular shape having an opening 511 at the center. The opening portion 511 corresponds to the arrangement of a lower LED light emitting portion (LED light emitting portion) 40 described later, and is formed in a hexagonal shape in plan view here, and a locking wall 514 is provided along the opening portion 511. . The locking wall 514 positions the lower LED light emitting unit 40 described later.
The outer periphery of the upper cover 51 is provided with an inclined surface (conical surface) 512 so as to rise outward. The tip (upper end) of the inclined surface 512 is a clamping member on the side where the weight of the upper light guide plate 50 acts, and a groove 513 is formed on the upper surface of the tip facing the upper light guide plate 50 over the entire circumference ( (See FIG. 6). The groove 513 is formed at a position substantially opposite to the contact portion 251 of the horizontal portion 25 of the instrument body 20.

An annular elastic member 54 is provided in the groove 513 in plan view. As the elastic member 54, a French pile (polyester) can be used when the insect-proofing property and the sealing property are required. When sealing properties are required, polyurethane ester foam or polyurethane sun felt sun ferron can be used.
The elastic member 54 can be filled by being injected into the groove 513, but may be press-fitted into the groove 513 after being formed in an O-ring shape in advance. The cross-sectional shape of the elastic member 54 formed in advance in an O-ring shape may be circular or rectangular.
In this embodiment, the case where the elastic member 54 is provided only in the groove 513 of the upper cover 51 that is one of the pair of clamping members is illustrated, but the horizontal portion 25 that is the other clamping member is illustrated. Also, an elastic member can be provided.

As shown in FIGS. 3 and 4, an upper light guide plate 50 is supported between the horizontal portion 25 of the instrument body 20 and the upper cover 51.
As shown in FIG. 7A, the upper light guide plate 50 has an overall disc shape and has a hollow portion 52 at the center. The hollow portion 52 is formed in a hexagonal shape in plan view corresponding to the upper holder 31 (see FIG. 9A) supported by the instrument body 20 and arranged in a hexagonal shape. The inner surface of the hollow portion 52 becomes six incident end surfaces 521 on which light from the upper LED light emitting unit 30 is incident, and emits light from a plane (upper surface, lower surface 501) intersecting the incident end surface 521. The upper light guide plate 50 can be controlled in light distribution by providing ribs or printing on the surface (for example, the lower surface 501).
The upper light guide plate 50 is provided with a protruding portion 53 at the edge portion on the hollow portion 52 side on the lower surface (plane) 501.

As shown in FIG. 7B, the protrusion 53 is formed by a gate when the upper light guide plate 50 is molded from resin. The protruding portion 53 has, for example, a trapezoidal shape that tapers away from the lower surface 501 of the upper light guide plate 50. The projecting portion 53 has an auxiliary incident end surface 531 along the same plane as the incident end surface 521 of the upper light guide plate 50, and an inclined surface (side surface) 532 on the side opposite to the auxiliary incident end surface 531. Further, both end surfaces 533 (see FIG. 11) in the longitudinal direction of the protruding portion 53 are inclined so as to approach each other as the distance from the lower surface 501 of the upper light guide plate 50 increases.
As shown in FIG. 7A, radiation from the center of the upper light guide plate 50 in the plan view is radiated at each corner of the hollow portion 52 forming a hexagon in plan view, that is, at the intersection of the six incident end surfaces 521. A U-shaped cutout (slit) 55 that is continuous in the direction by a predetermined dimension is provided. As shown in FIGS. 8A and 8B, the lower surface 501 of the upper light guide plate 50 is provided with an overall U-shaped rib 56 that protrudes downward along the edge of each notch 55. ing.

As shown in FIG. 8B, the upper light guide plate 50 is fixed to the instrument body 20 by a fixing screw 57 through the notch portion 55. The fixing screw 57 includes a head 571 having an outer diameter that allows engagement of a tool and cannot be inserted through the notch 55, a shaft 572 that is continuous with the head 571 and can be inserted through the notch 55, and a shaft. It has the thread part 573 which continues to the part 572 and is screwed to the instrument main body 20. A soft washer 574 is attached to the seating surface of the head 571.
The axial length L1 of the shaft portion 572 is not less than the total value L2 of the thickness dimension of the upper light guide plate 50 and the protruding dimension of the rib 56. Accordingly, when the upper light guide plate 50 is fixed to the instrument body 20, when the fixing screw 57 is fastened to the instrument body 20, the soft washer 574 lightly contacts the lower surface 561 of the rib 56 to support the upper light guide plate 50 in a floating manner. ing.

  Accordingly, the upper light guide plate 50 is attached to the instrument main body 20 with the notch 55 serving as the base end with the fixing screw 57, abuts against the lower surface of the horizontal part 25 of the instrument main body 20, and the upper end of the inclined surface 512 of the upper cover 51. The elastic member 54 is supported from below.

  As shown in FIGS. 3 and 4, the upper LED light emitting unit 30 is accommodated between the horizontal portion 25 of the instrument main body 20 and the upper cover 51. The upper LED light emitting unit 30 includes an upper holder (holder) 31 and a circuit board 32. The upper holder 31 is provided inside the instrument main body 20 so as to be in contact with the lower surface of the flat portion 23. Six upper holders 31 are provided corresponding to the arrangement of the standing walls 24 (here, hexagons) (see FIG. 9A).

As shown in FIGS. 10A and 12, the upper holder 31 has an overall rectangular frame shape, and a substantially C-shaped opening 311 is provided at the center.
The upper holder 31 has at least a pair (here, a pair) of protrusions 312 protruding from the outer surface 314 toward the upper light guide plate 50 side.
As shown in FIG. 11, the pair of protrusions 312 are provided at positions sandwiching both end surfaces 533 in the longitudinal direction of the protrusion 53. The protruding portion 312 is formed in a taper shape, for example, a trapezoidal shape, in which the protruding height increases from the end portion on the side farther from the upper light guide plate 50 (lower side) toward the incident end surface 521 side (upper side) (see FIG. 10 (B)).
Further, it is desirable that a covering portion 313 is provided between the pair of protrusions 312 in the upper holder 31. The covering portion 313 covers the inclined surface 532 of the protruding portion 53 of the upper light guide plate 50 (see FIG. 7B). The upper holder 31 is provided with a gap of, for example, about 0.5 mm so that the covering portion 313 does not adhere to the inclined surface 532 of the protruding portion 53 and the protruding portion 312 does not adhere to the end surface 533 of the protruding portion 53. ing.

As shown in FIGS. 10A and 10B, the circuit board 32 is attached to the opening 311 of the upper holder 31. The circuit board 32 has a plurality of LED chips 322 mounted in a straight line on a mounting surface 321. Further, at both ends in the longitudinal direction of the circuit board 32, connectors 323 are provided for receiving lighting power from the mounting adapter 22 and electrically connecting to other adjacent circuit boards 32.
In a state where the upper holder 31 and the upper light guide plate 50 are attached to the fixture body 20, each LED chip 322 faces the incident end surface 521 of the upper light guide plate 50 while maintaining a predetermined interval.

As shown in FIG. 13A, a heat radiating plate 33 is attached to the upper holder 31. The heat radiating plate 33 includes a contact portion 331 that contacts a back surface opposite to the mounting surface 321 of the circuit board 32, and a support portion 332 that is formed by bending the upper end of the contact portion 331 perpendicularly in a direction away from the circuit board 32. And has an L-shaped cross section.
The heat radiating plate 33 is attached to the upper holder 31 with screws 34 in a state where the circuit board 32 is sandwiched between the heat radiating plate 33 and the upper holder 31. Thereby, the upper holder 31, the circuit board 32, and the heat sink 33 are integrated.

As shown in FIG. 13B, the support portion 332 of the heat radiating plate 33 is provided with two protrusions 333 protruding upward. The protrusion 333 can be provided in a V shape by, for example, providing a pair of slits spaced apart by a predetermined distance in the width direction of the support 332 and pushing up the longitudinal center of the slit upward. In addition, a through hole 334 is provided at the center of the support portion 332.
Accordingly, the protrusion 333 is fitted into a recess (not shown) provided in the instrument main body 20, and the fixing screw 35 is passed through the through hole 334 of the support part 332, so that the screw hole provided in the instrument main body 20 ( (Not shown). Thereby, the upper holder 31, the circuit board 32, and the heat sink 33 can be attached to the instrument main body 20.

In the present embodiment, the protruding portion 333 is provided by cutting and raising two places sandwiching the fixing screw 35. However, the protruding portion 333 may be one or more than three. Further, the shape of the protrusion 333 is not limited to the above-described V-shaped cut and raised.
Moreover, the upper LED light emission part 30 should just have the upper holder (holder) 31 and the circuit board 32, and the presence or absence of the heat sink 33 is not ask | required. That is, the upper LED light emitting unit 30 may adopt a structure in which the upper holder (holder) 31 is directly fixed to the instrument body 20 even when the heat radiating plate 33 is not provided.

As shown in FIGS. 1 and 3, the lower cover 61 is supported by the instrument body 20 on the lower side of the upper cover 51. A lower light guide plate 60 is supported between the lower surface of the upper cover 51 and the upper end 611 of the lower cover 61.
The lower light guide plate 60 has a shape similar to that of the upper light guide plate 50 in a plan view, and is different from the upper light guide plate 50 in that the diameter is smaller than that of the upper light guide plate 50. That is, the lower light guide plate 60 has the same configuration as that of the upper light guide plate 50 described above, and a detailed description thereof will be omitted in this embodiment (see the reference numerals in parentheses in FIG. 7).

As shown in FIGS. 3 and 9A, a lower LED light emitting unit 40 is provided between a bottomed hexagonal column-shaped base 27 attached to the lower surface of the instrument body 20 and the lower cover 61. It has been. The lower LED light emitting unit 40 includes a lower holder 41.
Since the lower holder 41 has the same configuration as that of the upper holder 31 described above, a detailed description thereof will be omitted in this embodiment (see the reference numerals in FIG. 10).
Therefore, the incident end surface 621 that is the inner peripheral surface of the hollow portion 62 of the lower light guide plate 60 is disposed to face the LED chip 322 of the circuit board 32 that constitutes the lower holder 41.

  As shown in FIGS. 3 and 4, the lower cover 61 is opaque, and the upper end 611 supports the lower light guide plate 60. Similar to the upper cover 51, an elastic member 54 is provided on the upper end 611.

As shown in FIG. 3, an annular LED light emitting unit 72 that irradiates light downward is provided above the center lens 70.
As shown in FIG. 9A, the annular LED light emitting unit 72 has a plurality of partial arc-shaped circuit boards 73 attached to the lower surface of the pedestal 27. On the mounting surface 731 on the lower surface of the circuit board 73, LED chips 74 are arranged in an arc shape.

As shown in FIG. 9B, a remote control receiver 75 is provided inside a circuit board 73 arranged in a ring shape in the light emitting area of the ring LED light emitter 72 on the lower surface of the pedestal 27. The remote control receiving unit 75 is opposite to the light emitting direction (upward in FIG. 9B) from the height of the mounting surface 731 of the circuit board 73 that is the light emission starting point of the annular LED light emitting unit 72 (in FIG. 9B). , Below).
That is, the remote control receiver 75 is provided at a position lower than the light emission starting point of the annular LED light emitter 72.
The annular LED light emitting unit 72 and the remote control receiving unit 75 are covered with an annular center lens (translucent cover) 70. As shown in FIG. 14 (A), the surface 701 of the center lens 70 is an inclined surface (a mortar surface) in which the outer edge 702 is located farther from the annular LED light emitting unit 72 than the inner edge 703 (ie, downward). .

In the present embodiment, the outer edge 702 of the center lens 70 protrudes below the inner edge 703. For this reason, as shown in FIG. 3, a part of the light BM1 emitted from the annular LED light emitting unit 72 is reflected by the inner surface of the center lens 70 and reflected outward (light BM2). The reflected light BM2 strikes the lower cover 61 and is irradiated downward (light BM3).
As shown in FIG. 14B, the center lens 70 may be an inclined surface (conical surface) in which the inner edge 703 of the surface 701 protrudes below the outer edge 702.

  Moreover, the LED lighting fixture 10 can relieve | moderate the curvature of the whole light-guide plate 50 when the light-guide plate 50 expand | swells with a heat | fever by providing the notch of the notch part 55 in the upper light-guide plate 50 long. This effect is the same in the notch portion of the lower light guide plate 60.

Further, in the LED lighting apparatus 10, when the upper light guide plate 50 and the lower light guide plate 60 are manufactured by injection molding, protruding pin marks are formed in the vicinity of the hexagonal shape of the hollow portions 52 and 62 in the plan view. However, these pin marks are not formed at the corners of the plan view, but at the center of the side portions of the hollow portions 52 and 62 in the plan view, thereby mitigating the decrease in brightness near the corners. it can.
That is, in the LED lighting device 10, the brightness in the vicinity of the corners in the plan view of the hollow parts 52 and 62 is lower than that in the vicinity of the center of the side part in the plan view. Then, part of the light guided to the inside of the upper light guide plate 50 and the lower light guide plate 60 is emitted from the protruding pin trace that is a rough surface, and the brightness of the corner portion in plan view is further reduced.
On the other hand, by forming the protruding pin mark in the vicinity of the center of the side part in the plan view of the hollow parts 52 and 62, it is possible to mitigate a decrease in brightness of the corner part.

  Moreover, about the outer peripheral edge part shape of the upper light-guide plate 50 and the lower light-guide plate 60, the outer-periphery edge part of the upper light-guide plate 50 is made into the inclined surface which falls substantially perpendicularly and the outer peripheral edge part of the lower light-guide plate 60 falls toward the outer side from the inner side. By doing so, it is possible to prevent light from the lower light guide plate 60 from causing a shadow of the upper light guide plate 50 on the ceiling surface while turning light to the ceiling surface or the upper part of the wall surface.

The effect of the LED lighting fixture 10 is demonstrated.
The LED lighting apparatus 10 includes an apparatus main body 20, a power supply unit (mounting adapter 22), an LED light emitting unit (upper LED light emitting unit 30) that emits light when power is supplied from the power supply unit (mounting adapter 22), and an LED light emitting unit ( A light guide plate (upper light guide plate 50) that emits light from a plane that intersects the incident end surface 521, and is disposed so that the incident end surface 521 faces the light source of the upper LED light emitting unit 30). . The light guide plate (upper light guide plate 50) has a protruding portion 53 that protrudes in the thickness direction from a plane (lower surface 501) that intersects the incident end surface 521. An LED light emitting unit (upper LED light emitting unit 30) as a light source includes a circuit board 32 on which a plurality of LED chips 322 are linearly mounted, and a holder (upper holder) that holds the circuit board 32 and is fixed to the instrument body 20 31). The holder (upper holder 31) includes at least a pair of protrusions 312 facing the plane (lower surface 501), and the pair of protrusions 312 sandwich the protrusion 53 in a direction along the plane (lower surface 501). Are provided at positions separated by a predetermined distance.

  For this reason, in the LED lighting apparatus 10, each protrusion 53 of the upper light guide plate 50 is sandwiched between the pair of protrusions 312, so that each protrusion 53 extends along the longitudinal direction of the incident end surface 521 with respect to the upper holder 31. Movement in any direction is restricted. Thereby, since the LED lighting fixture 10 can maintain long-term positioning with each LED chip 322 and the incident end surface 521 of the upper light-guide plate 50, it can prevent the fall of incident efficiency.

  In addition, the LED lighting device 10 is preferably provided with a covering portion 313 that is supported by a holder (upper holder 31) and covers a side surface of the protruding portion 53 that faces away from the incident end surface 521.

  That is, the LED lighting apparatus 10 has the covering portion 313 that covers the side surface of the upper light guide plate 50 that faces away from the incident end surface 521 in the protruding portion 53 of the upper light guide plate 50, so that the covering portion 313 of the upper holder 31 is The movement of the upper light guide plate 50 in the direction orthogonal to the incident end face 521 is restricted and positioned. Therefore, the LED lighting apparatus 10 can prevent the distance between the LED chip 322 and the incident end face 521 from increasing and prevent the incidence efficiency from decreasing.

  In addition, the LED lighting device 10 includes a contact portion 331 that contacts the back surface of the circuit board 32 and a support portion 332 that is connected to the contact portion 331 and contacts the device body 20. And what has the fixed screw | thread 35 penetrated to the instrument main body 20 through the support part 332, and the projection part 333 which protrudes from the support part 332 and is accommodated in the recessed part provided in the instrument main body 20 is desirable.

  That is, in the LED lighting device 10, the contact portion 331 contacts the back surface of the circuit board 32, and the contact portion 331 is supported by the device body 20 by the support portion 332 connected to the contact portion 331. Since the heat is transmitted to the instrument body 20 via the contact portion 331 and the support portion 332, the heat dissipation efficiency is improved.

Further, in the LED lighting device 10, the support portion 332 is accommodated in a fixing screw 35 that passes through the support portion 332 and is screwed into the device main body 20, and a recess that protrudes from the support portion 332 and is provided in the device main body 20. It is desirable to have a protrusion 333.
For this reason, the LED lighting apparatus 10 can position the circuit board 32 on which the LED chip 322 is mounted with respect to the upper light guide plate 50.

Moreover, as for the LED lighting fixture 10, it is desirable for the protrusion part 53 to have the auxiliary incident end surface 531 along the extended surface of the incident end surface 521.
In the LED lighting apparatus 10, the protruding portion 53 has an auxiliary incident end surface 531 along the extended surface of the incident end surface 521, so that light that could not enter the incident end surface 521 is incident from the auxiliary incident end surface 531, and inside the protruding portion 53. The light is reflected and guided from the protrusion 53 to the upper light guide plate 50. That is, since the LED lighting fixture 10 uses the light that could not be incident on the incident end face 521 as illumination light, the illumination efficiency is improved.

  Further, in the LED lighting device 10, it is desirable that each of the pair of protrusions 312 has a tapered shape in which the protrusion height increases from the end far from the upper light guide plate 50 toward the incident end face 521.

That is, in the LED lighting apparatus 10, each of the pair of protrusions 312 has a tapered shape in which the protruding height increases from the end far from the upper light guide plate 50 toward the incident end face 521. The light emitted from the upper light guide plate 50 in the region covered with 51 is internally reflected by the tapered surface and returns to the upper light guide plate 50 again.
For this reason, the illumination efficiency of the upper light guide plate 50 is improved in the LED lighting device 10.

  The LED lighting apparatus 10 includes an apparatus main body 20, a power supply unit (mounting adapter 22) accommodated in the apparatus main body 20, and an LED light emitting unit (upper LED light emitting unit 30) that emits light when power is supplied from the power supply unit (mounting adapter 22). ) And a light guide plate (upper light guide plate 50) disposed with the incident end face 521 facing the light emission axis of the LED light emitting unit (upper LED light emitting unit 30). Furthermore, a pair of clamping members (upper cover 51, horizontal part 25) supported by the instrument body 20 and sandwiching the light guide plate (upper light guide plate 50) in the thickness direction, and the LED light emitting part (upper side) in parallel with the incident end face 521 It has the elastic member 54 provided between the light-guide plate (upper light guide plate 50) and the clamping member (upper cover 51, the horizontal part 25) so as to oppose the LED light emission part 30).

  That is, since the LED lighting apparatus 10 includes the elastic member 54 provided between the upper light guide plate 50 and the upper cover 51, the elastic member 54 follows even if the upper light guide plate 50 is deformed by heat from the LED chip 322. Thus, since a gap is prevented from being formed with the upper cover 51, foreign matters such as insects and dust can be prevented from entering through the gap. Further, in the LED lighting apparatus 10, one or both of the upper light guide plate 50 and the upper cover 51 is deformed due to deterioration with time or changes in room temperature or humidity, or the upper light guide plate 50 maintains its initial shape due to deterioration with time. Even if the contact pressure with respect to the upper cover 51 due to its own weight cannot be increased, the upper light guide plate 50 and the upper cover 51 are in contact with each other via the elastic member 54, so that the upper light guide plate 50 and the upper cover 51 rub against each other. It is possible to prevent squeaking noises and the like.

In addition, the LED lighting device 10 includes a light guide plate (upper cover 51) on the side of the pair of holding members (upper cover 51, horizontal portion 25) on which the light guide plate (upper light guide plate 50) is subjected to its own weight. It is desirable that a groove 513 is provided on the surface facing the upper light guide plate 50), and the groove 513 is filled with a filler as the elastic member 54.
Further, a groove 513 is formed on the entire surface of the holding member (upper cover 51) facing the light guide plate (upper light guide plate 50), and a filler as the elastic member 54 is filled over the entire periphery of the groove 513. Is preferred. At this time, a state in which the filler and the light guide plate are provided in contact with each other is preferable. When filling the groove 513, it is preferable to provide the filler so as to be higher than the height of the edge of the groove so that the filler and the light guide plate are provided in contact with each other.

That is, the LED lighting apparatus 10 has a groove on a surface facing the upper light guide plate 50 in the upper cover 51 on the side where the weight of the upper light guide plate 50 acts, of the upper cover 51 and the horizontal portion 25 that are a pair of clamping members. Since the groove 513 is filled with the filler as the elastic member 54, the state where the upper light guide plate 50 is in contact with the elastic member 54 can be maintained for a long time.
Therefore, the LED lighting apparatus 10 can prevent foreign matter such as insects and dust from entering between the upper light guide plate 50 and the upper cover 51 for a long period of time.

In addition, since the LED lighting device 10 is provided with the elastic member 54 by filling the groove 513 with a filler, the elastic member 54 is preliminarily formed by fitting the elastic member 54 into the groove 513 after forming the elastic member 54 as an O-ring in advance. The elastic member 54 can be provided very easily as compared with the operation of arranging the position.
Moreover, since the LED lighting fixture 10 presses the upper light guide plate 50 with the elastic member 54, vibration isolation is obtained, and it is possible to prevent squeaking noise caused by deformation and expansion / contraction of the upper light guide plate 50 due to vibration and lighting / extinguishing. .

  The LED lighting apparatus 10 includes an apparatus main body 20, a power supply unit (attachment adapter 22) accommodated in the apparatus main body 20, and an annular LED light emission having an annular light emitting region that emits light when power is supplied from the power supply unit (attachment adapter 22). Part 72. Furthermore, a remote control receiving unit 75 disposed in the light emitting region of the annular LED light emitting unit 72 and disposed on the opposite side of the light emitting direction from the light emission starting point of the annular LED light emitting unit 72, and an annular transparent light covering the annular LED light emitting unit 72. And a light cover (center lens 70). The surface 701 of the translucent cover (center lens 70) is an inclined surface in which one of the outer edge 702 and the inner edge 703 is positioned farther from the LED light emitting part (upper LED light emitting part 30) than the other.

That is, in the LED lighting apparatus 10, the remote control receiving unit 75 disposed in the light emitting region of the annular LED light emitting unit 72 is disposed on the side opposite to the light emitting direction from the circuit board 73 that is the light emission starting point of the annular LED light emitting unit 72. ing.
For this reason, even if the LED lighting fixture 10 arrange | positions the remote control receiver 75 in the light emission area | region, the malfunctioning of the remote control receiver 75 can be prevented.

In the LED lighting apparatus 10, the annular LED light emitting unit 72 is covered with an annular center lens 70. The surface 701 of the center lens 70 protrudes in a direction in which one of the outer edge 702 and the inner edge 703 is parallel to the light emitting axis of the annular LED light emitting part 72 and away from the annular LED light emitting part 72 than the other. It is an inclined surface.
For this reason, in the LED lighting apparatus 10, the signal light emitted toward the remote control receiving unit 75 easily passes through the surface 701 of the center lens 70 and is received by the remote control receiving unit 75.

  In the LED lighting apparatus 10, the surface 701 of the translucent cover (center lens 70) is preferably an inclined surface in which the outer edge 702 is located farther from the annular LED light emitting unit 72 than the inner edge 703.

That is, in the LED lighting device 10, the surface 701 of the center lens 70 is an inclined surface in which the outer edge 702 is in a direction away from the annular LED light emitting unit 72 than the inner edge 703.
For this reason, in the LED lighting device 10, the light emitted from the annular LED light emitting unit 72 is reflected by the inclined surface and irradiated to the outside of the center lens 70. Can be spread.

  Further, the LED lighting device 10 emits light by power supply from the device main body 20, the power supply unit (mounting adapter 22) accommodated in the device main body 20, and the power supply unit (mounting adapter 22), and is arranged in a planar view shape. A plurality of LED light emitting units (upper LED light emitting unit 30). Furthermore, it has the light-guide plate (upper light-guide plate 50) in which the square-shaped hollow part 52 was formed by arrange | positioning the several incident end surface 521 facing the light emission axis line of each LED light-emitting part (upper LED light-emitting part 30). . The light guide plate (upper light guide plate 50) is formed at a slit (notch portion 55) continuous in a radial direction from each corner of the hollow portion 52 and at an edge of each slit (notch portion 55). A rib 56 protruding on the surface of the upper light guide plate 50) on the side not in surface contact with the instrument body 20. Moreover, it has a fixing screw 57 for fixing the light guide plate (upper light guide plate 50) to the instrument body 20 through the slit (notch portion 55). The fixing screw 57 is continuous with the head 571 that can be engaged with the tool and cannot be inserted through the slit (notch 55), the soft washer 574 provided on the seating surface of the head 571, and the head 571. In addition, a shaft portion 572 through which the slit (notch portion 55) can be inserted, and a screw portion 573 that is continuous with the shaft portion 572 and screwed into the instrument main body 20 are provided. The axial length L1 of the shaft portion 572 is not less than the total value L2 of the thickness dimension of the light guide plate (upper light guide plate 50) and the protruding dimension of the rib 56.

That is, in the LED lighting apparatus 10, since the axial length L1 of the shaft portion 572 of the fixing screw 57 is defined to be equal to or greater than the total value L2 of the thickness dimension of the upper light guide plate 50 and the protruding dimension of the rib 56, In fixing the optical plate 50 to the instrument body 20, the fixing screw 57 does not excessively press the upper light guide plate 50 along the thickness direction. In the LED lighting device 10, the upper light guide plate 50 is so-called floating mounted with respect to the device body 20, so that the upper light guide plate 50 is hardly distorted, bent, or the like.
Further, in the LED lighting apparatus 10, since the upper light guide plate 50 has a hexagonal shape and a circular outer shape of the hollow portion 52, the radial direction length from the corner portion is shorter than the other portions, and the bending strength Although the (sagging resistance) is slightly weak, the rib 56 is raised along the notch portion 55 to locally reinforce the thickness dimension of the upper light guide plate 50, and the sagging deformation starting from the location corresponding to the notch portion 55 Can be suppressed.

The LED lighting apparatus is not limited to the above-described embodiment, and appropriate modifications and improvements can be made.
For example, in the above-described embodiment, the LED lighting apparatus 10 is exemplified by the upper light guide plate 50 and the lower light guide plate 60 having a disc-shaped overall shape having a hexagonal opening in plan view in the center. Other shapes such as a triangle, a quadrangle, and a pentagon are also possible. The LED lighting apparatus 10 can be applied to the upper light guide plate 50 and the lower light guide plate 60 in which the overall shape is a disk shape in plan view, and the overall shape is a polygonal shape in plan view.
Furthermore, the LED lighting device 10 has a shape in which the upper light guide plate 50 and the lower light guide plate 60 are not in an annular shape having an opening in the center, but are in a rectangular shape protruding from the device main body to the left and right outer sides, with one end surface being an incident end surface. Things are also applicable.

  Moreover, in embodiment mentioned above, although the whole shape was trapezoid as the protrusion part 53 of the LED lighting fixture 10, the form which used the auxiliary | assistant incident end surface 531 whose one end surface is flush with the incident end surface 521 was illustrated. The overall shape is not limited. In other words, the protruding portion 53 of the LED lighting device 10 may be simply a pin shape. Even if the LED lighting apparatus 10 employs a pin-shaped protrusion, the upper light guide plate 50 is prevented from moving in the surface direction by a pair of members provided at positions sandwiched along the surface direction of the upper light guide plate 50. Can do.

  In the above-described embodiment, the case where the upper holder 31 is provided with the covering portion 313 that covers the inclined surface 532 of the protruding portion 53 is exemplified, but the present invention can also be applied to the case where the covering portion 313 is not provided.

10 LED Lighting Equipment 20 Equipment Body 22 Mounting Adapter (Power Supply Unit)
30 Upper LED light emitting part (LED light emitting part)
31 Upper holder (holder)
312 ridge portion 313 covering portion 32 circuit board 322 LED chip 331 contact portion 332 support portion 333 projection portion 35 fixing screw 40 lower LED light emitting portion (LED light emitting portion)
41 Lower holder (holder)
50 Upper light guide plate (light guide plate)
501 Lower surface (plane)
521, 621 Incident end face 53 Projection 531 Auxiliary incident end face 60 Lower light guide plate (light guide plate)

Claims (5)

An instrument body;
A power supply,
An LED light-emitting unit that emits light by power supply from the power unit;
A light guide plate that is arranged so that an incident end face faces the light source of the LED light emitting unit, and emits light from a plane intersecting the incident end face;
With
The light guide plate has a protruding portion protruding in the thickness direction from the plane,
The LED light emitting unit is
A circuit board on which a plurality of LED chips are linearly mounted as the light source;
A holder that holds the circuit board and is fixed to the instrument body,
The holder includes at least a pair of protrusions facing the plane,
The pair of protrusions is an LED lighting apparatus provided at a predetermined distance so as to sandwich the protrusion in a direction along the plane. In the LED lighting fixture of Claim 1,
The LED lighting apparatus which has a coating | coated part which is supported by the said holder and covers the side surface which faces the opposite side to the said incident end surface in the said protrusion part. In the LED lighting fixture of Claim 1 or Claim 2,
A contact portion that contacts a back surface of the circuit board; a support portion that is connected to the contact portion and contacts the instrument body; a fixing screw that passes through the support portion and is screwed into the instrument body; and the support A LED lighting device having a protrusion protruding from the portion and housed in a recess provided in the device main body. In the LED lighting fixture of any one of Claims 1-3,
The protrusion is an LED lighting apparatus having an auxiliary incident end surface along an extended surface of the incident end surface. In the LED lighting fixture of any one of Claims 1-4,
Each of the pair of protrusions is an LED lighting device having a tapered shape in which a protruding height increases from an end portion far from the light guide plate toward the incident end face side.

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