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JP6366017B2 - lighting equipment - Google Patents

lighting equipment Download PDF

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JP6366017B2
JP6366017B2 JP2014185796A JP2014185796A JP6366017B2 JP 6366017 B2 JP6366017 B2 JP 6366017B2 JP 2014185796 A JP2014185796 A JP 2014185796A JP 2014185796 A JP2014185796 A JP 2014185796A JP 6366017 B2 JP6366017 B2 JP 6366017B2
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leds
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JP2016058329A (en
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高志 太田
高志 太田
毅洋 赤濱
毅洋 赤濱
吉田 聡
聡 吉田
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Panasonic Intellectual Property Management Co Ltd
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Description

本発明は、LEDを光源とする照明器具に関する。   The present invention relates to a lighting fixture using an LED as a light source.

LEDは、低電力で高輝度の発光が可能であり、しかも長寿命であることから、白熱灯や蛍光灯に代わる光源として注目されている。LED単体の発光により得られる照度は、HIDランプ等に比べて低い。そこで、LEDを光源とする照明器具において高照度を実現するには、複数のLEDが用いられる。この種の照明器具として、矩形平板状のベースの一面にマトリクス状に配置された複数の光源ユニットを備えたものが知られている(例えば、特許文献1参照)。   LEDs are attracting attention as light sources that can replace incandescent lamps and fluorescent lamps because they can emit light with high power and high luminance and have a long lifetime. The illuminance obtained by light emission of a single LED is lower than that of an HID lamp or the like. Therefore, a plurality of LEDs are used to achieve high illuminance in a lighting fixture using LEDs as a light source. As this type of lighting fixture, one having a plurality of light source units arranged in a matrix on one surface of a rectangular flat base is known (for example, see Patent Document 1).

特開2009−129859号公報JP 2009-129859 A

ところで、上述したような高照度の照明が可能な照明器具は、例えば、空港において航空機が駐機するエリアを照明するエプロン照明への利用がなされている。このようなエプロン照明は、航空機の駐機エリアを均斉度よく照明できるように、空港毎に必要照度基準が決められている。また、航空機のパイロットに対するグレアを抑制するために、航空局の仕様書によって配光の規制がなされている。   By the way, the luminaire capable of high-illuminance illumination as described above is used for apron illumination that illuminates an area where an aircraft is parked at an airport, for example. In such apron lighting, the required illuminance standard is determined for each airport so that the parking area of the aircraft can be illuminated uniformly. In addition, in order to suppress glare for aircraft pilots, light distribution is regulated by the specifications of the air station.

そのため、エプロン照明用のLED照明器具には、LEDから出射された光の配光を制御するための光学部材を用いる必要がある。また、一般に、エプロン照明においては、鉛直方向の配光を所定角度に制御するため、複数のLEDがマトリクス状に配された照明器具では、LEDの配光を列毎に制御する複数の帯長状の光学部材が並列配置されて用いられる。   Therefore, it is necessary to use the optical member for controlling the light distribution of the light radiate | emitted from LED in the LED lighting fixture for apron illumination. In general, in the apron illumination, in order to control the vertical light distribution to a predetermined angle, in a lighting apparatus in which a plurality of LEDs are arranged in a matrix, a plurality of band lengths for controlling the light distribution of the LEDs for each column. Shaped optical members are used in parallel.

しかしながら、複数の光学部材を並列に配置してそれらを器具に固定することは、製造工程における手間が多く、生産性が悪い。また、エプロン照明においては、LEDが高輝度で発光することに伴い、高温を発生させることが多い。帯長状の光学部材は、構造的に反り易いので、LEDからの熱による変形が生じ易い。この場合、LEDと光学部材の位置ズレが発生して、所望の光学特性を得られない虞がある。   However, arranging a plurality of optical members in parallel and fixing them to the instrument requires a lot of labor in the manufacturing process, and the productivity is poor. In apron illumination, high temperatures are often generated as LEDs emit light with high brightness. Since the band-shaped optical member is structurally easily warped, deformation due to heat from the LED is likely to occur. In this case, positional deviation between the LED and the optical member may occur, and desired optical characteristics may not be obtained.

本発明は、上記課題を解決するものであって、光学部材の取り付けが簡易で器具の生産性が良く、しかもLEDからの熱による変形が生じ難い光学部材を有する照明器具を提供することを目的とする。   An object of the present invention is to solve the above-described problem, and to provide a lighting apparatus having an optical member that is easy to mount an optical member, has good productivity of the apparatus, and is hardly deformed by heat from an LED. And

本発明は、光源と、前記光源が搭載される器具本体と、前記光源から出射された光の配光を制御する光学部材と、を備えた照明器具であって、前記光源は、マトリクス状に配置された複数のLEDを有し、これらのLEDは3列以上の複数列に配置され、前記光学部材は、別体として構成された第1部材及び第2部材を有し、前記第1部材は、一方の外側列を含む1列以上のLED、及び前記外側列よりも中央側にある中列のLEDの一部に設けられ、前記第2部材は、他方の外側列を含む1列以上のLED、及び前記中列のLEDのうち前記第1部材が設けられていないLEDに設けられていることを特徴とする。   The present invention is a lighting fixture including a light source, a fixture main body on which the light source is mounted, and an optical member that controls light distribution of light emitted from the light source, and the light source is arranged in a matrix. A plurality of LEDs arranged; the LEDs are arranged in a plurality of rows of three or more rows; and the optical member includes a first member and a second member configured separately, and the first member Is provided in a part of one or more LEDs including one outer row and a middle row of LEDs located in the center of the outer row, and the second member includes one or more rows including the other outer row. Of the LEDs in the middle row and the LEDs in which the first member is not provided.

本発明の照明器具によれば、光学部材を構成する第1部材及び第2部材は、夫々外側列を含む1列以上のLED、及び外側列よりも中央側にある中列のLEDの一部に設けられている。そのため、一列のLEDのみに設けられる帯長状の光学部材に比べて、LEDからの熱による変形が生じ難い。また、2つの部材を器具本体に取り付ければよいので、列毎の光学部材を取り付ける場合に比べて、光学部材の取り付けが簡易で器具の生産性を良くすることができる。   According to the lighting fixture of the present invention, the first member and the second member constituting the optical member are each one or more LEDs including the outer row, and a part of the middle row LEDs located in the center side of the outer row. Is provided. Therefore, compared with the strip-shaped optical member provided only in one row of LEDs, deformation due to heat from the LEDs is less likely to occur. Moreover, since two members should just be attached to an instrument main body, compared with the case where the optical member for every row | line is attached, attachment of an optical member is simple and can improve the productivity of an instrument.

本発明の一実施形態に係る照明器具を発光面側から見た斜視図。The perspective view which looked at the lighting fixture which concerns on one Embodiment of this invention from the light emission surface side. (a)は上記照明器具の光源ユニットの斜視図、(b)は分解図、(c)は上記光源ユニットの光学部材の斜視図。(A) is a perspective view of the light source unit of the said lighting fixture, (b) is an exploded view, (c) is a perspective view of the optical member of the said light source unit. (a)は上記光学部材を構成する第1部材の上面斜視図、(b)は下面斜視図。(A) is an upper surface perspective view of the 1st member which comprises the said optical member, (b) is a lower surface perspective view. 上記第1部材の短手方向の側断面図、(b)は長手方向の側断面図、(c)は下面図、(d)は長手方向の側面図、(e)は上面図、(f)は短手方向の側面図。(B) is a side sectional view in the longitudinal direction, (c) is a bottom view, (d) is a side view in the longitudinal direction, (e) is a top view, (f) ) Is a side view in the short direction. (a)は上記光学部材を構成する第2部材の上面斜視図、(b)は下面斜視図。(A) is an upper surface perspective view of the 2nd member which comprises the said optical member, (b) is a lower surface perspective view. (a)は上記第2部材の短手方向の側面図、(b)は長手方向の側断面図、(c)は上面図、(d)は長手方向の側面図、(e)は下面図、(f)は短手方向の側断面図。(A) is a side view of the second member in the lateral direction, (b) is a side sectional view in the longitudinal direction, (c) is a top view, (d) is a side view in the longitudinal direction, and (e) is a bottom view. (F) is a sectional side view in the short direction. 上記第1部材及び第2部材を組み合わせた状態における短手方向の側断面図。The sectional side view of the transversal direction in the state which combined the said 1st member and the 2nd member. 上記第1部材のレンズ部の配光を示す光路図Optical path diagram showing light distribution of lens portion of first member (a)は上記光源ユニットの固定台の上面斜視図、(b)は下面斜視図。(A) is a top perspective view of the fixing base of the light source unit, (b) is a bottom perspective view. (a)は上記光源ユニットの取付台の上面斜視図、(b)は下面斜視図。(A) is a top perspective view of the mounting base of the light source unit, (b) is a bottom perspective view. (a)は上記実施形態の変形例に係る照明器具の光源ユニットの斜視図、(b)は分解図。(A) is a perspective view of the light source unit of the lighting fixture which concerns on the modification of the said embodiment, (b) is an exploded view. (a)は上記光源ユニットの光学部材を構成する第1部材の上面斜視図、(b)は下面斜視図。(A) is a top surface perspective view of the 1st member which comprises the optical member of the said light source unit, (b) is a bottom surface perspective view. (a)は上記光学部材を構成する第2部材の上面斜視図、(b)は下面斜視図。(A) is an upper surface perspective view of the 2nd member which comprises the said optical member, (b) is a lower surface perspective view. (a)は上記光源ユニットの固定台の上面斜視図、(b)は下面斜視図。(A) is a top perspective view of the fixing base of the light source unit, (b) is a bottom perspective view.

本発明の一実施形態に係る照明器具について図1乃至図5を参照して説明する。以下の実施形態において、本照明器具は、空港のエプロン照明や、グランドや圃場等に対して光を投射する投光器であるものとして説明する。   A lighting apparatus according to an embodiment of the present invention will be described with reference to FIGS. In the following embodiments, the lighting apparatus will be described as being a projector that projects light to an apron illumination of an airport, a ground, a farm field, or the like.

図1に示すように、照明器具1は、複数の光源ユニット2と、これら光源ユニット2を一体に保持する保持枠3と、を備える。光源ユニット2の各々は、一面に発光面2A(図1参照)を有する矩形平板状の光源20と、光源20が搭載される器具本体4と、光源20の配光を制御する光学部材5と、を備える。器具本体4は、光源20の発光面2Aとは反対側の面に設けられた放熱部を有し、光源20の発光に伴って生じた熱を外部に放熱する。なお、ここでは、複数の光源ユニット2を用いた構成を示すが、光源ユニット2は単体として用いられてもよく、この場合、光源ユニット2自体が照明器具1となる。   As shown in FIG. 1, the lighting fixture 1 includes a plurality of light source units 2 and a holding frame 3 that integrally holds the light source units 2. Each of the light source units 2 has a rectangular flat plate-like light source 20 having a light emitting surface 2A (see FIG. 1) on one side, an instrument body 4 on which the light source 20 is mounted, and an optical member 5 that controls light distribution of the light source 20. . The instrument body 4 has a heat radiating portion provided on the surface opposite to the light emitting surface 2 </ b> A of the light source 20, and dissipates heat generated by the light emission of the light source 20 to the outside. In addition, although the structure using the several light source unit 2 is shown here, the light source unit 2 may be used as a single-piece | unit, In this case, the light source unit 2 itself becomes the lighting fixture 1. FIG.

複数の光源ユニット2は、マトリクス状に配置され、光源20の一辺と平行な行方向L(図例では横方向)に配置された光源ユニット2の数は、行方向Lに直交する列方向C(図例では縦方向)に配置された光源ユニット2の数以上となっている。図例では、行方向Lに3つの光源ユニット2が配置され、列方向Cに2つの光源ユニット2が配置された3x2のマトリクス状となっている。列方向Cにおいて隣り合う光源ユニット2の間には、所定の隙間が設けられている。行方向Lにおいて隣り合う光源ユニット2は、互いに隣接して配置されている。   The plurality of light source units 2 are arranged in a matrix, and the number of the light source units 2 arranged in the row direction L (lateral direction in the illustrated example) parallel to one side of the light source 20 is the column direction C orthogonal to the row direction L. More than the number of light source units 2 arranged in the vertical direction (in the illustrated example). In the illustrated example, the light source unit 2 has a 3 × 2 matrix in which three light source units 2 are arranged in the row direction L and two light source units 2 are arranged in the column direction C. A predetermined gap is provided between the light source units 2 adjacent in the column direction C. The light source units 2 adjacent in the row direction L are disposed adjacent to each other.

光源20は、発光面2A側に設けられた配線基板21と、配線基板21にマトリクス状に実装された複数のLED22(後述する図2(b)も参照)と、を有する。LED22は、例えば、青色光を出射する青色LEDチップと、この青色LEDチップを封止する封止材と、この封止材中に分散され青色光を黄色光に変換する蛍光体と、を有し、青色光と黄色光とを互いに混色させることで白色光を出射する。   The light source 20 includes a wiring board 21 provided on the light emitting surface 2A side, and a plurality of LEDs 22 (see also FIG. 2B described later) mounted on the wiring board 21 in a matrix. The LED 22 includes, for example, a blue LED chip that emits blue light, a sealing material that seals the blue LED chip, and a phosphor that is dispersed in the sealing material and converts blue light into yellow light. Then, white light is emitted by mixing blue light and yellow light with each other.

器具本体4は、放熱部として、発光面2Aに直交して設けられた複数の板状フィン41を有する。これら板状フィン41は、列方向Cと平行に並設されている。板状フィン41は、熱伝導率及び剛性の高い材料、例えば、アルミニウムや銅により構成される。光源ユニット2は、器具本体4の内部又は外部に、電源ユニット(不図示)を備え、この電源ユニットが商用電源(不図示)に接続され、商用電源からLED22への給電を制御する点灯回路(不図示)を内蔵している。   The appliance main body 4 has a plurality of plate-like fins 41 provided orthogonal to the light emitting surface 2A as a heat radiating portion. These plate-like fins 41 are arranged in parallel with the column direction C. The plate-like fins 41 are made of a material having high thermal conductivity and high rigidity, for example, aluminum or copper. The light source unit 2 includes a power supply unit (not shown) inside or outside the fixture body 4, and this power supply unit is connected to a commercial power supply (not shown) to control the power supply from the commercial power supply to the LED 22 ( (Not shown).

図2(a)(b)に示すように、光源ユニット2は、器具本体4に固定される固定台6と、光学部材5が固定される取付台7と、を更に備える。取付台7は、固定台6に係止されることで器具本体4に取り付けられる。複数のLED22は、3列以上のマトリクス状に配置されており、本例では、5列が設けられている。また、各列には、3個以上のLED、本例では、4又は5個のLED22が含まれる。また、LED22は、配線基板21の中心部を除いて千鳥格子状となるように配置されている(特に、図2(b)参照)。   As shown in FIGS. 2A and 2B, the light source unit 2 further includes a fixing base 6 that is fixed to the instrument body 4 and a mounting base 7 to which the optical member 5 is fixed. The mounting base 7 is attached to the instrument body 4 by being locked to the fixed base 6. The plurality of LEDs 22 are arranged in a matrix of three or more rows, and in this example, five rows are provided. Each row includes three or more LEDs, in this example, four or five LEDs 22. Moreover, LED22 is arrange | positioned so that it may become a staggered pattern except for the center part of the wiring board 21 (refer FIG.2 (b) especially).

図2(c)に示すように、光学部材5は、別体として構成された第1部材5a及び第2部材5bを有する。第1部材5a及び第2部材5bは、後述するように、同一の配光特性を有し、LED22から出射された白色光を透過させる透光性材料、例えば、透明ポリカーボネート樹脂、透明アクリル樹脂、又は透明ガラス等により構成される。   As shown in FIG.2 (c), the optical member 5 has the 1st member 5a and the 2nd member 5b which were comprised as a different body. As will be described later, the first member 5a and the second member 5b have the same light distribution characteristics and transmit a white light emitted from the LED 22, such as a transparent polycarbonate resin, a transparent acrylic resin, Or it is comprised with transparent glass etc.

図2(b)に示すように、第1部材5aは、一方の外側列OL1を含む1列以上(本例では2列)のLED22、及び外側列OL1よりも中央側にある中列MのLED22の一部(本例では中列の図中右2個のLED22)に設けられている。また、第2部材は5b、他方の外側列OL2を含む1列以上(本例では2列)のLED22、及び中列MのLED22のうち第1部材5aが設けられていないLED22(本例では中列の図中左2個のLED22)に設けられている。   As shown in FIG. 2B, the first member 5a includes one or more (two in this example) LEDs 22 including one outer row OL1, and the middle row M located on the center side of the outer row OL1. It is provided on a part of the LEDs 22 (two LEDs 22 on the right in the middle row in this example). Further, the second member is 5b, one or more (two in this example) LEDs 22 including the other outer row OL2, and the LEDs 22 in the middle row M of the LEDs 22 that are not provided with the first member 5a (in this example). The two LEDs 22) on the left in the middle row are provided.

図3(a)(b)及び図4(a)乃至(f)に示すように、第1部材5aは、複数のLED22の配光を列毎に制御する複数列のレンズ部51,52,53と、それらのレンズ部51〜53を連結する一対の連結部54,55と、を有する。レンズ部51〜53は、マトリクス状に配置されたLED22の列方向に沿う帯長形状に形成されている。   As shown in FIGS. 3A and 3B and FIGS. 4A to 4F, the first member 5a has a plurality of lens portions 51, 52, which control the light distribution of the plurality of LEDs 22 for each column. 53 and a pair of connecting portions 54 and 55 that connect these lens portions 51 to 53. The lens portions 51 to 53 are formed in a band length shape along the column direction of the LEDs 22 arranged in a matrix.

レンズ部51は、外側列OL1のLED22に設けられ、レンズ部52は、外側列OL1の内側の列のLED22に設けられ、レンズ部53は、中列Mの一部のLED22に設けられる。本例においては、図2(b)で示すように、LED22が千鳥格子状に配置されており、外側列OL1のLED22が5個であり、その内側の列のLED22が4個である。そのため、図4(c)に示すように、LED22の配置に対応するように、外側列OL1のLED22に設けられるレンズ部51は、その内側の列のLED22に設けられるレンズ部52よりも長くなるように形成されている。なお、レンズ部52は、レンズ部51と同じ長さであってもよい。また、中列MのLED22に設けられるレンズ部53は、中列Mの2個のLED22に設けられるので、レンズ部52よりも更に短くなるように形成されている。   The lens unit 51 is provided in the LEDs 22 in the outer row OL1, the lens unit 52 is provided in the LEDs 22 in the inner row of the outer row OL1, and the lens unit 53 is provided in some LEDs 22 in the middle row M. In this example, as shown in FIG. 2B, the LEDs 22 are arranged in a staggered pattern, the number of LEDs 22 in the outer row OL1 is five, and the number of LEDs 22 in the inner row is four. Therefore, as shown in FIG. 4C, the lens portion 51 provided in the LED 22 in the outer row OL1 is longer than the lens portion 52 provided in the LED 22 in the inner row so as to correspond to the arrangement of the LEDs 22. It is formed as follows. The lens unit 52 may have the same length as the lens unit 51. Further, since the lens portion 53 provided in the LEDs 22 in the middle row M is provided in the two LEDs 22 in the middle row M, it is formed so as to be shorter than the lens portion 52.

一方の連結部54は、レンズ部51〜53の片端部を接続する板状の部材として構成される。他方の連結部55は、レンズ部51,52の他方の片端部を接続する。これら連結部54,55には、ネジ頭を収容するザグリを有するネジ孔56が設けられている。このネジ孔56にネジ81(図2(a)(b)参照)が挿通されることにより、第1部材5aは、取付台7に固定される。また、第1部材5aは、レンズ部53の連結部54とは反対側の端部に形成され、光源部20の中列Mと対向する平坦部57を有する。   One connecting portion 54 is configured as a plate-like member that connects one end portions of the lens portions 51 to 53. The other connecting portion 55 connects the other one end of the lens portions 51 and 52. The connecting portions 54 and 55 are provided with screw holes 56 having counterbores for receiving screw heads. By inserting a screw 81 (see FIGS. 2A and 2B) through the screw hole 56, the first member 5 a is fixed to the mounting base 7. The first member 5 a has a flat portion 57 that is formed at the end of the lens portion 53 opposite to the connecting portion 54 and faces the middle row M of the light source portion 20.

レンズ部51は、LED22から出射された光が入射する凹溝状の入射部51aと、入射部51aと対峙する長尺状の平坦な出射部51bと、入射部51a及び出射部51bを接続し且つ入射部51aから入射した光を全反射する一対の反射部51c,51dと、を有する(図4(a)参照)。レンズ部52,53もまた、レンズ部51と同様の入射部、出射部、及び反射部を有する(対応する符号は不図示、後述する説明においても同様)。   The lens unit 51 connects the concave groove-shaped incident part 51a into which the light emitted from the LED 22 is incident, the elongated flat emitting part 51b facing the incident part 51a, and the incident part 51a and the emitting part 51b. Moreover, it has a pair of reflection parts 51c and 51d which totally reflect the light which injected from the incident part 51a (refer Fig.4 (a)). The lens parts 52 and 53 also have the same entrance part, exit part, and reflection part as the lens part 51 (corresponding reference numerals are not shown, and the same applies in the description to be described later).

入射部51aは、LED22と対向する対向面が凸形状となるように形成されており、この対向面に入射した光の多くは、LED22の光軸Ax方向に配光制御されて、出射部51bから出射される。また、入射部51aの側面に入射した光の多くは、反射部51c,51dによって全反射されて、出射部51bから出射される。また、反射部51c,51dは、その短手方向の断面視において、非対称である。具体的には、外側列OL1側の反射部51cが丸みのある放物線形状であるのに対して、中列M側の反射部51dは反射部51cに比べて平面的な形状である。   The incident portion 51a is formed so that the facing surface facing the LED 22 has a convex shape, and most of the light incident on the facing surface is light-distributed in the optical axis Ax direction of the LED 22, and the emitting portion 51b. It is emitted from. Further, most of the light incident on the side surface of the incident portion 51a is totally reflected by the reflecting portions 51c and 51d and emitted from the emitting portion 51b. Moreover, the reflection parts 51c and 51d are asymmetric in the cross-sectional view of the transversal direction. Specifically, the reflecting portion 51c on the outer row OL1 side has a rounded parabolic shape, whereas the reflecting portion 51d on the middle row M side has a planar shape as compared with the reflecting portion 51c.

また、出射部51bは、凹状に形成された肉盗み部58を有する(図3(b)参照)。肉盗み部58を設けることにより、第1部材5aの体積を少なくすることができるので、第1部材5aを軽量化することができ、また、構成樹脂材料を削減して製造コストを削減することができる。   Moreover, the emission part 51b has the meat stealing part 58 formed in the concave shape (refer FIG.3 (b)). Since the volume of the first member 5a can be reduced by providing the meat stealing portion 58, the first member 5a can be reduced in weight, and the manufacturing cost can be reduced by reducing the constituent resin material. Can do.

図5(a)(b)及び図6(a)乃至(f)に示すように、第2部材5bもまた、複数のLED22の配光を列毎に制御する複数列のレンズ部51,52,53と、それらのレンズ部51〜53を連結する一対の連結部54,55と、を有する。ここでは、レンズ部51は、外側列OL2のLED22に設けられ、レンズ部52は、外側列OL1の内側の列のLED22に設けられ、レンズ部53は、中列Mの一部のLED22に設けられる。第2部材5bは、連結部54,55にネジ孔56が夫々設けられ、中列MのLED22に設けられるレンズ部53の端部に平坦部57が設けられ、また、レンズ部51の出射部51bに形成された肉盗み部58が形成されている点も、上記と同様である。   As shown in FIGS. 5A and 5B and FIGS. 6A to 6F, the second member 5b also has a plurality of lens units 51 and 52 for controlling the light distribution of the plurality of LEDs 22 for each column. , 53 and a pair of connecting portions 54, 55 for connecting these lens portions 51-53. Here, the lens unit 51 is provided in the LEDs 22 in the outer row OL2, the lens unit 52 is provided in the LEDs 22 in the inner row of the outer row OL1, and the lens unit 53 is provided in some LEDs 22 in the middle row M. It is done. In the second member 5 b, screw holes 56 are respectively provided in the connecting portions 54 and 55, a flat portion 57 is provided at an end portion of the lens portion 53 provided in the LEDs 22 in the middle row M, and an emission portion of the lens portion 51 is provided. The point where the meat stealing part 58 formed in 51b is formed is the same as the above.

図6(f)に示すように、第2部材5bは、レンズ部51の反射部51dが、中列M側の反射部51dが丸みのある放物線形状であるのに対して、外側列OL2側の反射部51cは反射部51dに比べて平面的な形状である点において、第1部材5aとは相違する。そのため、図7に示すように、第1部材5a及び第2部材5bは、それらが組み合わされた状態で同じ配光特性を有する。すなわち、第1部材5a及び第2部材5bは、反射部51c,51dの形状において異なっているので、別体として構成されていても、一つの光学部材5として機能することができる。   As shown in FIG. 6 (f), the second member 5b is configured such that the reflecting portion 51d of the lens portion 51 has a rounded parabola shape on the middle row M side, whereas the outer row OL2 side. The reflective portion 51c is different from the first member 5a in that it has a planar shape as compared with the reflective portion 51d. Therefore, as shown in FIG. 7, the first member 5a and the second member 5b have the same light distribution characteristics in a state where they are combined. That is, since the first member 5a and the second member 5b are different in the shapes of the reflecting portions 51c and 51d, they can function as one optical member 5 even if they are configured separately.

図8に示すように、第1部材5aのレンズ部51を例に挙げると、一方の反射部51dは、反射部51cに比べて平面的な形状なので、入射部51aの側面からレンズ部51に入射した光を、LED22の光軸Axよりもよりレンズ中心方向へ反射させる。その結果、光軸Axよりも所定角度傾斜した方向において、照明器具1(光源ユニット2)の最大光度を得られる器具光軸Lx方向の光束を増やすことができる。また、他方の反射部51cは、LED22の光軸Ax方向と平行に光を反射させるので、器具上方へのグレア規制角度Gx(器具光軸Lxから上方10°)方向への光束を少なくすることができる。   As shown in FIG. 8, taking the lens portion 51 of the first member 5a as an example, one reflecting portion 51d has a planar shape compared to the reflecting portion 51c. The incident light is reflected more toward the lens center than the optical axis Ax of the LED 22. As a result, in the direction inclined by a predetermined angle from the optical axis Ax, the luminous flux in the direction of the fixture optical axis Lx that can obtain the maximum luminous intensity of the lighting fixture 1 (light source unit 2) can be increased. Further, the other reflecting portion 51c reflects light parallel to the optical axis Ax direction of the LED 22, so that the luminous flux in the direction of the glare regulating angle Gx upward (10 ° upward from the instrument optical axis Lx) is reduced. Can do.

図9(a)(b)に示すように、固定台6は、矩形の枠体60と、枠体60の2辺から夫々2対立設されて取付台7と係合する係合爪61と、を有する。固定台6は、例えば、ABS樹脂等の堅牢な樹脂材料により形成される。枠体60は、少なくともその一辺に凹部62が形成されており、この凹部62に、外部電源との接続端子(不図示)から導出されたリード線80(図3(a)(b)参照)が差し込まれて、リード線80の端部が配線基板21に接続される。   As shown in FIGS. 9A and 9B, the fixing base 6 includes a rectangular frame body 60, and an engagement claw 61 that engages with the mounting base 7 by being opposed to each other from two sides of the frame body 60. Have. The fixed base 6 is formed of a robust resin material such as ABS resin, for example. The frame 60 has a recess 62 formed on at least one side thereof, and a lead wire 80 led out from a connection terminal (not shown) to an external power source (see FIGS. 3A and 3B). Is inserted, and the end of the lead wire 80 is connected to the wiring board 21.

枠体60の内側には、マトリクス状に配されたLED22の列に添って、複数の梁部63が設けられている。梁部63は、レンズ部51〜53の入射部51aの下端部と配線基板21との間の隙間を埋め、それらの隙間からの光漏れを抑制する。また、梁部63のうち、第1部材5a及び第2部材5bにおける中列Mに対向する中央寄り2本の梁部63は、固定台6を器具本体4に固定するための固定部64が設けられている。なお、図2(b)に示したように、光源20の中列Mの中央にはLED22が配されておらず、上記固定部64に設けられたネジ孔に挿通されたネジ82のネジ受け部となっている。   Inside the frame body 60, a plurality of beam portions 63 are provided along the rows of the LEDs 22 arranged in a matrix. The beam portion 63 fills a gap between the lower end portion of the incident portion 51a of the lens portions 51 to 53 and the wiring board 21, and suppresses light leakage from these gaps. Of the beam portions 63, the two beam portions 63 near the center facing the middle row M in the first member 5 a and the second member 5 b have a fixing portion 64 for fixing the fixing base 6 to the instrument body 4. Is provided. As shown in FIG. 2B, the LED 22 is not arranged at the center of the middle row M of the light source 20, and a screw receiver for a screw 82 inserted through a screw hole provided in the fixing portion 64. Has become a department.

また、固定部64の両側には、上述した第1部材5a及び第2部材5bの平坦部57を支持する一対の支持部65が設けられている。これらの支持部65により、連結部54に設けられたネジ孔56から最も遠い、第1部材5a及び第2部材5bの中間位置が支持されるので、第1部材5a及び第2部材5bが安定的に保持される。その結果、LED22の熱による第1部材5a及び第2部材5bの変形を抑制することができる。   Further, on both sides of the fixed portion 64, a pair of support portions 65 that support the flat portions 57 of the first member 5a and the second member 5b described above are provided. Since these support portions 65 support the intermediate position between the first member 5a and the second member 5b that is farthest from the screw hole 56 provided in the connecting portion 54, the first member 5a and the second member 5b are stable. Retained. As a result, the deformation of the first member 5a and the second member 5b due to the heat of the LED 22 can be suppressed.

図10(a)(b)に示すように、取付台7は、第1部材5a及び第2部材5bのレンズ部51〜53が嵌め込まれる開口部70を形成する枠部71を有する。枠部71は、レンズ部51〜53の出射部51bと平行に形成された板状部材であり、例えば、アルミ等の金属材料により形成される。枠部71には、固定台6の係合爪61と係合する係合溝72と、第1部材5a及び第2部材5bを固定するネジ81(図2(b)参照)が挿通されるネジ孔73と、を有する。また、取付台7は、枠部71から器具本体4に向けて立設された脚部74を有する。この脚部74により、固定台6と取付台7との間隔が一定に保持される。   As shown in FIGS. 10A and 10B, the mounting base 7 has a frame portion 71 that forms an opening 70 into which the lens portions 51 to 53 of the first member 5a and the second member 5b are fitted. The frame portion 71 is a plate-like member formed in parallel with the emission portions 51b of the lens portions 51 to 53, and is formed of a metal material such as aluminum, for example. An engagement groove 72 that engages with the engagement claw 61 of the fixing base 6 and a screw 81 (see FIG. 2B) that fixes the first member 5a and the second member 5b are inserted into the frame portion 71. And a screw hole 73. Further, the mounting base 7 has leg portions 74 that are erected from the frame portion 71 toward the instrument body 4. By this leg portion 74, the distance between the fixed base 6 and the mounting base 7 is kept constant.

枠部71は、レンズ部51〜53の出射部51bと平行に形成された板状部材である。レンズ部51を例に挙げると、LED22からの出射光が入射部51aの側面に入射して、反射部51c,51dに到達した光は、その多くの入射角が臨界角よりも大きく、反射部51c,51dで全反射する。しかしながら、入射角が上記臨界角より小さい光は、反射部51c,51dを透過し、レンズ部51〜53外に漏れてしまう。ここで、本実施形態によれば、枠部71は、レンズ部51〜53の出射部51bと平行に形成されるので、反射部51c,51dから出射した漏れ光を遮光する遮光部として機能する。これにより、所望の方向以外の方向へ光の照射を抑制することができる。   The frame portion 71 is a plate-like member formed in parallel with the emission portion 51 b of the lens portions 51 to 53. Taking the lens unit 51 as an example, the light emitted from the LED 22 is incident on the side surface of the incident unit 51a and reaches the reflecting units 51c and 51d, so that many incident angles are larger than the critical angle. Total reflection occurs at 51c and 51d. However, light whose incident angle is smaller than the critical angle passes through the reflecting portions 51c and 51d and leaks out of the lens portions 51 to 53. Here, according to this embodiment, since the frame part 71 is formed in parallel with the emission part 51b of the lens parts 51-53, it functions as a light-shielding part that shields leakage light emitted from the reflection parts 51c and 51d. . Thereby, irradiation of light in directions other than a desired direction can be suppressed.

本実施形態の光源ユニット2においては、光学部材5が、別体である第1部材5a及び第2部材5bにより構成されており、第1部材5a及び第2部材5bは、夫々外側列OL1,OL2を含む1列以上のLED、及び外側列よりも中央側にある中列MのLEDの一部に設けられている。そのため、一列のLEDのみに設けられる帯長状の光学部材に比べて、LED22からの熱による変形が生じ難い。特に、本実施形態の第1部材5a及び第2部材5bは、2列半のレンズ部51〜53が連結部54,55により接続されているので、レンズ部51の長手方向に対しても、それに直交する方向に対しても変形し難い。また、2つの部材を器具本体4に取り付ければよいので、列毎の光学部材を取り付ける場合に比べて、光学部材5の取り付けが簡易で器具の生産性を良くすることができる。   In the light source unit 2 of the present embodiment, the optical member 5 is constituted by the first member 5a and the second member 5b which are separate bodies, and the first member 5a and the second member 5b are respectively arranged in the outer rows OL1, OL1. It is provided in one or more LEDs including OL2 and a part of the LEDs in the middle row M that is closer to the center than the outer row. For this reason, deformation due to heat from the LEDs 22 is less likely to occur as compared to a strip-shaped optical member provided only in one row of LEDs. In particular, since the first member 5a and the second member 5b of the present embodiment have two rows and a half of the lens portions 51 to 53 connected by the connecting portions 54 and 55, also in the longitudinal direction of the lens portion 51, It is difficult to deform in the direction perpendicular to it. Moreover, since two members should just be attached to the instrument main body 4, compared with the case where the optical member for every row | line | column is attached, attachment of the optical member 5 is simple and can improve the productivity of an instrument.

また、光学部材5は、取付台7に固定された後、この取付台7を介して固定台6に係止されることで器具本体4に固定されるので、器具本体4から光学部材5の取り外しが容易であり、光学部材5のメンテナンスの手間を削減することができる。また、樹脂製の固定台6を用いることで、LED22及び配線基板21からの熱が光学部材5に伝わり難くなり、光学部材5の変形をより生じ難くすることができる。   In addition, since the optical member 5 is fixed to the fixture body 4 by being fixed to the fixture base 7 via the fixture base 7 after being fixed to the fixture base 7, Removal is easy, and maintenance work of the optical member 5 can be reduced. In addition, by using the resin-made fixing base 6, heat from the LED 22 and the wiring board 21 is hardly transmitted to the optical member 5, and deformation of the optical member 5 can be further prevented.

また、光学部材5は、第1部材5a及び第2部材5bの間に所定の空隙Gが設けられるように、器具本体4に取り付けられている。この空隙Gから、配線基板21及び光学部材5間の空気が排出されるので、放熱性を良くすることができる。その結果、光学部材5の変形をより生じ難くすることができる。従って、LED22を高輝度で発光させて、多くの熱が発生しても、光学部材5は変形し難く、長期間に亘って、所望の配光特性を維持することができる。   The optical member 5 is attached to the instrument body 4 so that a predetermined gap G is provided between the first member 5a and the second member 5b. Since air between the wiring board 21 and the optical member 5 is discharged from the gap G, the heat dissipation can be improved. As a result, the deformation of the optical member 5 can be made more difficult to occur. Therefore, even if the LED 22 emits light with high brightness and a lot of heat is generated, the optical member 5 is not easily deformed, and desired light distribution characteristics can be maintained over a long period of time.

次に、上記実施形態の変形例について、図11乃至図14を参照して説明する。本変形例では、図11(a)(b)に示すように、第1部材5a及び第2部材5bは、連結部54,55から器具本体4に向けて立設された複数の脚部59を夫々有する。そして、取付台7ではなく、脚部59を介して、直接的に固定台6及び器具本体4に固定されている。   Next, a modification of the above embodiment will be described with reference to FIGS. In this modified example, as shown in FIGS. 11A and 11B, the first member 5 a and the second member 5 b are a plurality of leg portions 59 erected from the connecting portions 54 and 55 toward the instrument body 4. Respectively. And it is being fixed directly to the fixing base 6 and the instrument main body 4 through the leg part 59 instead of the mounting base 7. FIG.

第1部材5a及び第2部材5bは、図12(a)(b)及び図13(a)(b)に示すように、レンズ部51,52,53、上記の連結部54,55、平坦部57、及び肉盗み部58を有しており、脚部59が設けられている点を除き、上記実施形態と同様である。なお、脚部59には、ネジ81を挿通させるためのネジ孔56が設けられている。固定台6は、図14(a)(b)に示すように、係合爪61を有していない。また、枠体60の内側の梁部63が固定部64を支持する箇所にだけ設けられている。   As shown in FIGS. 12A, 12B and 13A, 13B, the first member 5a and the second member 5b are composed of lens portions 51, 52, 53, the above-described connecting portions 54, 55, and flat portions. It has the part 57 and the meat stealing part 58, and is the same as that of the said embodiment except the point which the leg part 59 is provided. The leg portion 59 is provided with a screw hole 56 through which the screw 81 is inserted. As shown in FIGS. 14A and 14B, the fixed base 6 does not have the engaging claw 61. Further, the beam portion 63 inside the frame body 60 is provided only at a place where the fixing portion 64 is supported.

この変形例によれば、取付台7を用いない分、部品点数を削減することができ、組み立て工程における作業も減り、器具の生産性を良くすることができる。   According to this modified example, the number of parts can be reduced by not using the mounting base 7, work in the assembly process can be reduced, and the productivity of the instrument can be improved.

なお、本発明に係る照明器具は、上記実施形態に限定されず種々の変形が可能である。例えば、上記実施形態では、LED22が5列に配置された光源20の構成を示したが、6列以上であってもよい。なお、第1部材5a及び第2部材5bの両方が半分ずつ設けられる中列Mは、本例のような1列に限らず、2列又はそれ以上であってもよい。また、光源ユニット2の配置は、上述した3x2のマトリクス状に限定されず、例えば、4x3や10x4のマトリクス状であってもよい。また、光源ユニット2は、好ましくは行方向に配置される数が列方向に配置される数よりも多くなるように構成される。こうすれば、光源ユニット2の発光に伴って生じた熱が上昇気流に乗って照明器具1の鉛直上方に抜け易くなって、放熱性を良くすることができる。これにより、照明器具1の過度の加熱を防いで、熱暴走による照明器具1の誤作動や故障を防止することができる。このような効果は、照明器具1を構成する光源ユニット2の数が多くて放熱性が低下する場合や、光源ユニット2の発光に伴う温度上昇が起こり易い投光器(照明器具1)のような高出力装置において特に重要となる。   In addition, the lighting fixture which concerns on this invention is not limited to the said embodiment, A various deformation | transformation is possible. For example, in the above-described embodiment, the configuration of the light source 20 in which the LEDs 22 are arranged in five rows is shown, but six or more rows may be used. Note that the middle row M in which both the first member 5a and the second member 5b are provided in half is not limited to one row as in this example, but may be two rows or more. Further, the arrangement of the light source units 2 is not limited to the 3 × 2 matrix shape described above, and may be a 4 × 3 or 10 × 4 matrix shape, for example. The light source units 2 are preferably configured such that the number arranged in the row direction is larger than the number arranged in the column direction. If it carries out like this, the heat which generate | occur | produced with light emission of the light source unit 2 will get on an ascending current, and it will be easy to escape | extract vertically upward of the lighting fixture 1, and can improve heat dissipation. Thereby, the excessive heating of the lighting fixture 1 can be prevented, and the malfunctioning and failure of the lighting fixture 1 by thermal runaway can be prevented. Such an effect is high when the number of light source units 2 constituting the lighting fixture 1 is large and heat dissipation is reduced, or when the temperature rises due to light emission of the light source unit 2 is likely to occur. This is particularly important for output devices.

1 照明器具
2 光源ユニット
20 光源
22 LED
2A 発光面
4 器具本体
5 光学部材
5a 第1部材
5b 第2部材
51,52,53 レンズ部
51a 入射部
51b 出射部
51c,51d 反射部
54,55 連結部
57 平坦部
58 肉盗み部
59 脚部
6 固定台
65 支持部
7 取付台
DESCRIPTION OF SYMBOLS 1 Lighting fixture 2 Light source unit 20 Light source 22 LED
2A Light emitting surface 4 Instrument body 5 Optical member 5a First member 5b Second member 51, 52, 53 Lens portion 51a Incident portion 51b Ejecting portion 51c, 51d Reflecting portion 54, 55 Connecting portion 57 Flat portion 58 Meat stealing portion 59 Leg portion 6 Fixing base 65 Supporting part 7 Mounting base

Claims (9)

光源と、前記光源が搭載される器具本体と、前記光源から出射された光の配光を制御する光学部材と、を備えた照明器具であって、
前記光源は、マトリクス状に配置された複数のLEDを有し、これらのLEDは3列以上の複数列に配置され、
前記光学部材は、別体として構成された第1部材及び第2部材を有し、
前記第1部材は、一方の外側列を含む1列以上のLED、及び前記外側列よりも中央側にある中列のLEDの一部に設けられ、
前記第2部材は、他方の外側列を含む1列以上のLED、及び前記中列のLEDのうち前記第1部材が設けられていないLEDに設けられていることを特徴とする照明器具。
A lighting apparatus comprising: a light source; an instrument main body on which the light source is mounted; and an optical member that controls light distribution of light emitted from the light source,
The light source has a plurality of LEDs arranged in a matrix, and these LEDs are arranged in a plurality of rows of three or more rows,
The optical member has a first member and a second member configured separately,
The first member is provided on a part of one or more LEDs including one outer row, and a middle row of LEDs located on the center side of the outer row,
The second member is provided in one or more LEDs including the other outer row, and in the LEDs in which the first member is not provided among the LEDs in the middle row.
前記光学部材は、前記第1部材及び第2部材の間に所定の空隙が設けられるように、前記器具本体に取り付けられることを特徴とする請求項1に記載の照明器具。   The lighting apparatus according to claim 1, wherein the optical member is attached to the apparatus main body so that a predetermined gap is provided between the first member and the second member. 前記器具本体に固定される固定台を更に備え、
前記固定台は、前記第1部材及び第2部材における前記中列に対向する箇所を支持する支持部を有することを特徴とする請求項1又は請求項2に記載の照明器具。
Further comprising a fixing base fixed to the instrument body,
The lighting fixture according to claim 1, wherein the fixing base includes a support portion that supports a portion of the first member and the second member that faces the middle row.
前記第1部材及び第2部材は、前記複数のLEDの配光を列毎に制御する複数列のレンズ部と、前記複数のレンズ部を連結する連結部と、を夫々有する請求項3に記載の照明器具。   The first member and the second member each include a plurality of lens units that control light distribution of the plurality of LEDs for each column, and a connecting unit that connects the plurality of lens units. Lighting fixtures. 前記レンズ部は、前記LEDから出射された光が入射する凹溝状の入射部と、前記入射部と対峙する長尺状の出射部と、前記入射部及び出射部をそれらの長手方向に沿って接続し且つ前記入射部から入射した光を全反射する一対の反射部と、を有し、
前記反射部は、その長手方向に直交する断面視において、非対称であり、
前記第1部材及び第2部材は、互いに相違する形状であり、それらが組み合わされた状態で各列のレンズ部が同じ配光特性を有することを特徴とする請求項4に記載の照明器具。
The lens portion includes a concave groove-shaped incident portion into which light emitted from the LED is incident, a long-shaped emitting portion facing the incident portion, and the incident portion and the emitting portion along their longitudinal directions. And a pair of reflecting parts that totally reflect the light incident from the incident part,
The reflection portion is asymmetric in a cross-sectional view orthogonal to the longitudinal direction ,
The lighting apparatus according to claim 4, wherein the first member and the second member have shapes different from each other, and the lens portions in each row have the same light distribution characteristic in a state where they are combined.
前記出射部は、凹状に形成された肉盗み部を有することを特徴とする請求項5に記載の照明器具。   The lighting device according to claim 5, wherein the emitting portion includes a meat stealing portion formed in a concave shape. 前記光学部材が固定される取付台を更に備え、
前記第1部材及び第2部材は、前記連結部を介して前記取付台に夫々固定され、
前記取付台が前記固定台に係止されることを特徴とする請求項5又は請求項6に記載の照明器具。
A mounting base on which the optical member is fixed;
The first member and the second member are respectively fixed to the mounting base via the connecting portion,
The lighting fixture according to claim 5 or 6 , wherein the mounting base is locked to the fixed base.
前記取付台は、前記レンズ部が嵌め込まれる開口部を形成する枠部を有し、
前記枠部は、前記出射部と平行に形成されて前記反射部から出射した光を遮光する遮光部を有することを特徴とする請求項7に記載の照明器具。
The mount has a frame portion that forms an opening into which the lens portion is fitted,
The lighting device according to claim 7, wherein the frame portion includes a light shielding portion that is formed in parallel with the light emitting portion and shields light emitted from the reflecting portion.
前記第1部材及び第2部材は、前記連結部から前記器具本体に向けて立設された複数の脚部を夫々更に有し、前記脚部を介して前記器具本体に夫々固定されていることを特徴とする請求項4乃至請求項6に記載の照明器具。   Each of the first member and the second member further includes a plurality of legs standing from the connecting portion toward the instrument body, and is fixed to the instrument body via the legs. The lighting fixture according to any one of claims 4 to 6.
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