JP2014132596A - Led tunnel luminaire - Google Patents

Led tunnel luminaire Download PDF

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JP2014132596A
JP2014132596A JP2014083446A JP2014083446A JP2014132596A JP 2014132596 A JP2014132596 A JP 2014132596A JP 2014083446 A JP2014083446 A JP 2014083446A JP 2014083446 A JP2014083446 A JP 2014083446A JP 2014132596 A JP2014132596 A JP 2014132596A
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light source
led light
led
source devices
source device
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JP5729510B2 (en
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Masaki Horikoshi
真佐樹 堀越
Koji Uchida
浩二 内田
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Iwasaki Denki KK
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Iwasaki Denki KK
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Abstract

PROBLEM TO BE SOLVED: To provide an LED tunnel luminaire for achieving a wider span.SOLUTION: An LED tunnel luminaire 1 includes a luminaire body 11 which is provided on the wall surface or the ceiling surface of a tunnel, and in which LEDs 20 are built for illuminating a road surface through a transparent plate 13 blocking the front face of the luminaire body 11. The plurality of LEDs 20 are arrayed in a row to constitute a plurality of LED light source devices 25A-25H. At least one LED light source device 25A is arranged in the luminaire body 11 so that light enters vertically into the flat surface of the transparent plate 13 to illuminate the road surface in front of the luminaire body 11, and the LED light source devices 25B-25E are arranged in the luminaire body 11 so that light enters obliquely into the flat surface of the transparent plate 13 to illuminate a distant area on each side in the traffic direction of the road surface and a rod shoulder and the wall surface on each of the side where the luminaire body 11 is arranged and the opposite side to the side where the luminaire body 11 is arranged.

Description

本発明は、LEDを光源とするLEDトンネル照明器具に関する。   The present invention relates to an LED tunnel luminaire using an LED as a light source.

トンネルには複数の照明器具が配置され、トンネル照明として、通常、基本照明、入口照明及び出口照明が行われている。基本照明は、自動車の運転者がほぼ順応状態にある場合に対応した照明であって、時刻や交通量、設計速度に応じて予め点灯状態が設定されている。入口照明及び出口照明は、トンネル内外の明るさの違いによる運転者の眼の順応の遅れを補うための照明であって、トンネル坑口付近の野外輝度の変化を検知してその点灯状態が調整されている。
従来では、トンネル照明器具の基本照明の取付間隔(以下、「スパン」と言う)を広げ、コストの縮減を可能としたトンネル照明器具が開発されている(例えば、特許文献1参照)。この種のトンネル照明器具では、光源にランプが採用されている。
A plurality of lighting fixtures are arranged in the tunnel, and basic illumination, entrance illumination, and exit illumination are usually performed as tunnel illumination. The basic lighting is lighting corresponding to the case where the driver of the car is almost in an adapting state, and the lighting state is set in advance according to time, traffic volume, and design speed. Entrance lighting and exit lighting are used to compensate for the delay in adaptation of the driver's eyes due to the difference in brightness between inside and outside the tunnel, and the lighting state is adjusted by detecting a change in outdoor brightness near the tunnel entrance. ing.
2. Description of the Related Art Conventionally, a tunnel lighting fixture has been developed that can reduce the cost by extending the basic lighting installation interval (hereinafter referred to as “span”) of the tunnel lighting fixture (see, for example, Patent Document 1). In this type of tunnel luminaire, a lamp is used as the light source.

特開2005−203302号公報JP-A-2005-203302

ところで、近年では、光源の長寿命化及びメンテナンス費用の削減等を図るために、ランプに代えてLEDを光源としたものが実用されている。
しかしながら、LEDを光源とし、かつ、広スパン化を考慮したトンネル照明器具は提案されていなかった。
本発明は、上述した事情に鑑みてなされたものであり、広スパン化を可能とするLEDトンネル照明器具を提供することを目的とする。
By the way, in recent years, in order to extend the life of the light source, reduce maintenance costs, and the like, LED light sources instead of lamps have been put into practical use.
However, a tunnel lighting fixture that uses an LED as a light source and takes into consideration a wide span has not been proposed.
This invention is made | formed in view of the situation mentioned above, and aims at providing the LED tunnel lighting fixture which enables wide span.

上記目的を達成するために、本発明は、トンネルの壁面や天井面に設けられる器具本体に、LEDを内蔵し、前記器具本体の前面を塞ぐ透明板を通して路面を照明するLEDトンネル照明器具において、複数のLEDを列状に配列して複数のLED光源装置を構成し、前記器具本体の正面の路面を照射するように、少なくとも1つの前記LED光源装置を前記透明板の平面に垂直に光を入射するように前記器具本体内に配置し、前記路面の交通方向両側遠方と、前記器具本体が配置される側及び前記器具本体が配置される側と反対側の各々の路肩や壁面と、を照射するように、前記LED光源装置を前記透明板の平面に対し斜めに光を入射する取付角度で前記器具本体内に配置したことを特徴とする。   In order to achieve the above object, the present invention provides an LED tunnel illuminator that illuminates a road surface through a transparent plate that incorporates an LED in an instrument body provided on a wall surface or a ceiling surface of a tunnel, and closes the front surface of the instrument body. A plurality of LEDs are arranged in a line to form a plurality of LED light source devices, and at least one LED light source device is irradiated with light perpendicular to the plane of the transparent plate so as to irradiate the road surface in front of the instrument body. It is arranged in the instrument body so as to be incident, and the road surface is distant from both sides in the traffic direction, and the road shoulder and wall surface on the side where the instrument body is disposed and on the side opposite to the side where the instrument body is disposed, The LED light source device is arranged in the instrument main body at an attachment angle at which light is incident obliquely with respect to the plane of the transparent plate so as to irradiate.

また、上記構成において、前記透明板の平面に対して斜めに光を入射する前記LED光源装置の各々の取付角度を、前記路面の交通方向遠方へ照射する前記LED光源装置の取付角度をθ1、前記反対側の路肩や壁面を照射する前記LED光源装置の取付角度をθ2、前記器具本体が配置される側の路肩や壁面を照射する前記LED光源装置の取付角度をθ3としたとき、θ1>θ2>θ3として設定してもよい。
また、上記構成において、前記LED光源装置及び電源の端子台を、前記器具本体に着脱自在なユニット取付板に固定してもよい。
また、上記構成において、前記器具本体に内蔵した複数の前記LED光源装置に、2つの電源装置によって分担させて電力を供給してもよい。
また、上記構成において、前記LED光源装置は、それぞれ当該LED光源装置の光を反射する反射板を備え、一対の前記LED光源装置を、対向するLED光源装置の光が前記透明板の内面で反射した光を路面に向けて反射する位置に配置してもよい。
Further, in the above configuration, the mounting angle of each LED light source device that irradiates light obliquely with respect to the plane of the transparent plate, and the mounting angle of the LED light source device that irradiates the road surface far in the traffic direction is θ1, When the mounting angle of the LED light source device that irradiates the opposite shoulder or wall surface of the opposite side is θ2, and the mounting angle of the LED light source device that irradiates the shoulder or wall surface of the side where the instrument main body is disposed is θ3, θ1> You may set as (theta) 2> (theta) 3.
Moreover, in the said structure, you may fix the said LED light source device and the terminal block of a power supply to the unit mounting plate which can be attached or detached to the said instrument main body.
Moreover, in the said structure, you may distribute electric power to the some said LED light source device incorporated in the said instrument main body by two power supply devices, and may supply it.
In the above configuration, each of the LED light source devices includes a reflecting plate that reflects the light of the LED light source device, and the light of the opposing LED light source devices is reflected by the inner surface of the transparent plate. You may arrange | position in the position which reflects the light which went to the road surface.

本発明によれば、複数のLEDを列状に配列して複数のLED光源装置を構成し、器具本体の正面の路面を照射するように、少なくとも1つのLED光源装置を透明板の平面に垂直に光を入射するように器具本体内に配置し、路面の交通方向両側遠方と、器具本体が配置される側及び器具本体が配置される側と反対側の各々の路肩や壁面と、を照射するように、LED光源装置を透明板の平面に対し斜めに光を入射する取付角度で器具本体内に配置したため、ランプを光源とする従来のトンネル照明器具に比べて光源を長寿命化しつつ、広スパン化できる。   According to the present invention, a plurality of LEDs are arranged in a line to form a plurality of LED light source devices, and at least one LED light source device is perpendicular to the plane of the transparent plate so as to irradiate the road surface in front of the instrument body. It is arranged in the equipment body so that light is incident on the road surface, and the road surface is distant from both sides in the traffic direction, and the road shoulder and wall surface on the side where the equipment body is placed and on the side opposite to the side where the equipment body is placed. As described above, since the LED light source device is disposed in the fixture body at an attachment angle at which light is incident obliquely with respect to the plane of the transparent plate, the life of the light source is extended compared to a conventional tunnel lighting fixture using a lamp as a light source, Wide span can be achieved.

本発明の実施の形態に係るLEDトンネル照明器具が設置されたトンネルを示す図であり、(A)はトンネルの構成を模式的に示す断面図であり、(B)は(A)に示すLEDトンネル照明器具の取り付け状態を拡大して示す図である。BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the tunnel in which the LED tunnel lighting fixture concerning embodiment of this invention was installed, (A) is sectional drawing which shows the structure of a tunnel typically, (B) is LED shown to (A). It is a figure which expands and shows the attachment state of a tunnel lighting fixture. トンネル内でのLEDトンネル照明器具の配列を示す上面図である。It is a top view which shows the arrangement | sequence of the LED tunnel lighting fixture in a tunnel. LEDトンネル照明器具の構成を示す正面図である。It is a front view which shows the structure of a LED tunnel lighting fixture. 図3のIV−IV断面を示す図である。It is a figure which shows the IV-IV cross section of FIG. 図3のV−V断面を示す図である。It is a figure which shows the VV cross section of FIG. LEDトンネル照明器具を背面側から示す斜視図である。It is a perspective view which shows a LED tunnel lighting fixture from the back side. ユニット取付板の支持構造を示す図であり、(A)はLEDトンネル照明器具を示す断面図であり、(B)は(A)のX矢視図である。It is a figure which shows the support structure of a unit mounting plate, (A) is sectional drawing which shows a LED tunnel lighting fixture, (B) is a X arrow directional view of (A). 本発明の変形例に係るLEDトンネル照明器具の構成を示す正面図である。It is a front view which shows the structure of the LED tunnel lighting fixture which concerns on the modification of this invention. 図8のIX−IX断面を示す図である。It is a figure which shows the IX-IX cross section of FIG.

以下、図面を参照して本発明の実施の形態について説明する。
図1は本実施の形態に係るLEDトンネル照明器具が設置されたトンネルを示す図であり、図1(A)はトンネルの構成を模式的に示す断面図であり、図1(B)は図1(A)に示すLEDトンネル照明器具の取り付け状態を拡大して示す図である。図2は、トンネル内でのLEDトンネル照明器具の配列を示す上面図である。
図1に示すように、LEDトンネル照明器具1が設置されたトンネル2は、底面(路面)に幅員が例えば約7mの車道3を備え、中央の中央線4(図2参照)によって、対向2車線の車線5に区画されている。このトンネル2の壁面6及び天井面9は、コンクリートにより覆われている。
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a view showing a tunnel in which the LED tunnel lighting apparatus according to the present embodiment is installed, FIG. 1A is a cross-sectional view schematically showing the configuration of the tunnel, and FIG. It is a figure which expands and shows the attachment state of the LED tunnel lighting fixture shown to 1 (A). FIG. 2 is a top view showing an arrangement of LED tunnel lighting fixtures in the tunnel.
As shown in FIG. 1, a tunnel 2 in which an LED tunnel lighting device 1 is installed includes a roadway 3 having a width of, for example, about 7 m on the bottom surface (road surface), and is opposed to the center line 4 (see FIG. 2) by facing the center 2. It is divided into lanes 5 of the lane. The wall surface 6 and the ceiling surface 9 of the tunnel 2 are covered with concrete.

図1及び図2に示すように、LEDトンネル照明器具1は、路面から取付高さHの位置に、トンネル2の中心線Cに対して左右の両壁面6A、6Bのそれぞれに設置されており、LEDトンネル照明器具1を車道3の縦断方向(交通方向)に沿って取付間隔(スパン)Sで千鳥状に設置した、いわゆる千鳥配列、或いは、向き合せで設置した、いわゆる向き合せ配列とされている(図示例は千鳥配列)。各LEDトンネル照明器具1は、建築限界7より壁面6側に、壁面6に固定した複数本(例えば、2本)の固定脚8に、壁面6との間に隙間Dを空けて支持されている。なお、例えば、設計路面輝度2.3cd/m2の時、取付高さHは約5m、取付間隔Sは約11.5mに設定される。 As shown in FIGS. 1 and 2, the LED tunnel lighting device 1 is installed on each of the left and right wall surfaces 6 </ b> A and 6 </ b> B with respect to the center line C of the tunnel 2, at a mounting height H from the road surface. The LED tunnel lighting fixtures 1 are arranged in a staggered manner along the longitudinal direction (traffic direction) of the roadway 3 with a mounting interval (span) S, or a so-called staggered arrangement, or a so-called facing arrangement in which they are installed facing each other. (The example shown is a staggered arrangement). Each LED tunnel lighting device 1 is supported by a plurality of (for example, two) fixed legs 8 fixed to the wall surface 6 with a gap D between the wall surface 6 and the wall surface 6 side from the building limit 7. Yes. For example, when the design road surface brightness is 2.3 cd / m 2 , the mounting height H is set to about 5 m, and the mounting interval S is set to about 11.5 m.

図3は、LEDトンネル照明器具1の構成を示す正面図である。また、図4は図3のIV−IV断面を示す図であり、図5は図3のV−V断面を示す図である。図6は、LEDトンネル照明器具1を背面側から示す斜視図である。
LEDトンネル照明器具1は、図3〜図6に示すように、筐体10を備える。筐体10は、前面が開口した器具本体11と、この器具本体11の前面に蝶番12により開閉自在に取り付けられた平面状の蓋体13とを備えて薄い箱型に構成されている。器具本体11は、例えばステンレス等の耐食性に優れた材料で形成されるとともに、プレス成形等により成形されている。これにより、トンネル2(図1)内の漏水(温泉成分を含む水等)やトンネル2外の車道に散布される融雪剤の付着等によって器具本体11が腐食することが防止される。
蓋体13は、例えばガラス材等の透明板から形成されている。これにより、器具本体11の前面にガラス窓が嵌め込まれた枠材を蓋体として用いる構成に比べ、前面全体に光を遮る箇所が生じないことから、器具本体11の前面開口全体が照射開口として機能し、照明効率が高められている。
FIG. 3 is a front view showing the configuration of the LED tunnel lighting device 1. 4 is a view showing a section taken along line IV-IV in FIG. 3, and FIG. 5 is a view showing a section taken along line VV in FIG. FIG. 6 is a perspective view showing the LED tunnel lighting device 1 from the back side.
As shown in FIGS. 3 to 6, the LED tunnel lighting device 1 includes a housing 10. The housing 10 includes a device main body 11 having an open front surface, and a flat lid 13 attached to the front surface of the device main body 11 by a hinge 12 so as to be openable and closable. The instrument body 11 is formed of a material having excellent corrosion resistance such as stainless steel, and is formed by press molding or the like. This prevents the instrument body 11 from corroding due to leakage of water in the tunnel 2 (FIG. 1) (water containing hot spring components, etc.) or adhesion of a snow melting agent sprayed on the roadway outside the tunnel 2.
The lid 13 is formed of a transparent plate such as a glass material. Thereby, compared with the structure which uses the frame material by which the glass window was inserted in the front surface of the instrument main body 11 as a cover body, since the location which shields light does not arise in the whole front surface, the whole front opening of the instrument main body 11 serves as an irradiation opening. Functional and lighting efficiency is enhanced.

器具本体11の一辺には、蓋体13の縁に掛止して、当該蓋体13の開放を禁止する2つのフック14が取り付けられている。器具本体11には、蓋体13と接触する箇所(開口縁)に、防水用のゴムパッキン15が設けられ、内部への水等の浸入を防止する構成となっている。また、器具本体11の背面には、2本のフラットバー16が取り付けられており、これらのフラットバー16の両端部に、固定脚8(図1)に取り付けるための取付穴16aが設けられている。筐体10をトンネル2の壁面6(図1)に固定する際には、蓋体13を車道3(図1)側に向け、かつ、筐体10が交通方向とほぼ平行となるように壁にあてがい、取付穴16aの各々にボルト等で固定脚8に固定する。これらの蝶番12、フック14、及び取付穴16aも、例えばステンレス等の耐食性に優れた材料で形成されている。器具本体11は、前面開口(蓋体13)を反対側の路肩等に向けて取り付けられている。   On one side of the instrument body 11, two hooks 14 that are hooked to the edge of the lid 13 and prohibit the opening of the lid 13 are attached. The instrument main body 11 is provided with a waterproof rubber packing 15 at a location (opening edge) in contact with the lid body 13 to prevent intrusion of water or the like into the interior. In addition, two flat bars 16 are attached to the back surface of the instrument body 11, and attachment holes 16a for attaching to the fixed legs 8 (FIG. 1) are provided at both ends of these flat bars 16. Yes. When fixing the casing 10 to the wall surface 6 (FIG. 1) of the tunnel 2, the lid 13 faces the roadway 3 (FIG. 1) and the wall is so that the casing 10 is substantially parallel to the traffic direction. As a result, each of the mounting holes 16a is fixed to the fixing leg 8 with a bolt or the like. These hinges 12, hooks 14, and mounting holes 16a are also formed of a material having excellent corrosion resistance such as stainless steel. The instrument body 11 is attached with the front opening (lid 13) facing the opposite shoulder or the like.

筐体10の内部には、所定個数(本実施の形態では15個)のLED20を列状に配列してなる複数本(本実施の形態では、8本)のLEDモジュール21と、これらのLEDモジュール21に電力を供給する複数(本実施の形態では、2つ)の電源装置22A,22Bと、ヒートシンク(放熱部材)23とが配置されている。各LEDモジュール21には、反射板24が設けられており、これらのLEDモジュール21及び反射板24は、LED光源装置25A〜25Hを構成している。   Inside the housing 10, a plurality (eight in this embodiment) of LED modules 21 in which a predetermined number (15 in this embodiment) of LEDs 20 are arranged in a row, and these LEDs are arranged. A plurality (two in this embodiment) of power supply devices 22A and 22B for supplying power to the module 21 and a heat sink (heat radiating member) 23 are arranged. Each LED module 21 is provided with a reflecting plate 24, and the LED module 21 and the reflecting plate 24 constitute LED light source devices 25A to 25H.

以下、図3〜図5を参照し、LED光源装置25A〜25Hについて詳細に説明する。
LED光源装置25Aは、筐体10の中央部に交通方向と直交する方向(横断方向)に沿って配置されている。一対のLED光源装置25B,25Cは器具中心Oから見て片側にLED光源装置25Aと平行に配置され、一対のLED光源装置25B,25Cは他方の側にLED光源装置25Aと平行に配置されている。また、2本のLED光源装置25F,25Gは下側(路面側)に交通方向に沿って一列に配置され、LED光源装置25Hは上側(天井面9(図1)側)に交通方向に沿って配置されている。
Hereinafter, the LED light source devices 25A to 25H will be described in detail with reference to FIGS.
25 A of LED light source devices are arrange | positioned along the direction (transverse direction) orthogonal to a traffic direction in the center part of the housing | casing 10. FIG. The pair of LED light source devices 25B and 25C are arranged on one side in parallel with the LED light source device 25A as viewed from the instrument center O, and the pair of LED light source devices 25B and 25C are arranged on the other side in parallel with the LED light source device 25A. Yes. Further, the two LED light source devices 25F and 25G are arranged in a row along the traffic direction on the lower side (road surface side), and the LED light source device 25H is along the traffic direction on the upper side (ceiling surface 9 (FIG. 1) side). Are arranged.

LED光源装置25A〜25Hは、器具本体11の上側に寄せて配置され、ヒートシンク23に対し着脱自在に設けられたユニット取付板(ユニット取付部)26に固定されている。中央のLED光源装置25Aは、その光が蓋体13の平面に垂直に入射するように設けられ、ユニット取付板26に直接取り付けられている。他のLED光源装置25B〜25Hは、それらの光が蓋体13の平面に対し斜めに入射するように設けられ、LED取付板27を介してユニット取付板26に取り付けられている。LED取付板27は、LED光源装置25B〜25Hを蓋体13に対して角度を付けて配置できるように、略く字状に形成されている。   The LED light source devices 25 </ b> A to 25 </ b> H are arranged close to the upper side of the instrument body 11 and are fixed to a unit mounting plate (unit mounting portion) 26 that is detachably provided to the heat sink 23. The central LED light source device 25 </ b> A is provided so that the light is perpendicularly incident on the plane of the lid 13 and is directly attached to the unit attachment plate 26. The other LED light source devices 25 </ b> B to 25 </ b> H are provided so that these lights are incident obliquely with respect to the plane of the lid 13, and are attached to the unit attachment plate 26 via the LED attachment plate 27. The LED mounting plate 27 is formed in a substantially square shape so that the LED light source devices 25 </ b> B to 25 </ b> H can be arranged at an angle with respect to the lid body 13.

二対のLED光源装置25B,25C及びLED光源装置25D,25Eは、それぞれ同一方向に向けて配置されるのではなく、それぞれ交通方向に対向するように設けられている。より詳細には、一対のLED光源装置25B,25Cは、片側において、直線L1を中心に対称に配置されている。一対のLED光源装置25D,25Eは、他方の側において、直線L2を中心に対称に配置されている。それらLED光源装置25B〜25Eの取付角度θ1は等しく設定され、本実施の形態では、約60度に設定されている。
2本のLED光源装置25F,25GとLED光源装置25Hとは、横断方向に対向するように設けられている。なお、本実施の形態では、LED光源装置25F,25Gの取付角度θ2はLED光源装置25B〜25Eの取付角度θ1より小さく設定され、LED光源装置25Hの取付角度θ3はLED光源装置25F,25Gの取付角度θ2より小さく設定されている。
The two pairs of LED light source devices 25B and 25C and the LED light source devices 25D and 25E are not arranged in the same direction, but are provided to face each other in the traffic direction. More specifically, the pair of LED light source devices 25B and 25C are arranged symmetrically about the straight line L1 on one side. The pair of LED light source devices 25D and 25E are arranged symmetrically about the straight line L2 on the other side. The mounting angle θ1 of these LED light source devices 25B to 25E is set equal, and is set to about 60 degrees in the present embodiment.
The two LED light source devices 25F and 25G and the LED light source device 25H are provided so as to face each other in the transverse direction. In the present embodiment, the mounting angle θ2 of the LED light source devices 25F and 25G is set smaller than the mounting angle θ1 of the LED light source devices 25B to 25E, and the mounting angle θ3 of the LED light source device 25H is set to that of the LED light source devices 25F and 25G. It is set smaller than the mounting angle θ2.

反射板24は、LED20の光に対して所定の反射率を有する金属板(例えばアルミニウム板)を、LEDモジュール21を覆うカップ部30を有するように、プレス成形等により成形されて構成されている。カップ部30は、その内側面にてLED20の光を反射するものであり、LED20の配列方向に沿って形成された一対の平坦状の側面24aを備えている。
中央のLED光源装置25A以外のLED光源装置25B〜25Hの反射板24には、一方の側面24aの先端から、カップ部30を狭める方向に角度を変えて延出する延出面24bが形成されている。一対のLED光源装置25B,25Cはそれらの延出面24bが直線L1側に位置するように配置され、一対のLED光源装置25D,25Eはそれらの延出面24bが直線L2側に位置するように配置され、LED光源装置25F〜25Hはそれらの延出面24bが下側(路面側)に位置するように配置されている。
The reflection plate 24 is configured by molding a metal plate (for example, an aluminum plate) having a predetermined reflectance with respect to the light of the LED 20 by press molding or the like so as to have a cup portion 30 that covers the LED module 21. . The cup part 30 reflects the light of the LED 20 on the inner side surface thereof, and includes a pair of flat side surfaces 24 a formed along the arrangement direction of the LEDs 20.
The reflecting plate 24 of the LED light source devices 25B to 25H other than the central LED light source device 25A is formed with an extending surface 24b extending from the front end of one side surface 24a at a different angle in the direction of narrowing the cup portion 30. Yes. The pair of LED light source devices 25B and 25C are arranged so that their extending surfaces 24b are located on the straight line L1 side, and the pair of LED light source devices 25D and 25E are arranged so that their extending surfaces 24b are located on the straight line L2 side. And LED light source device 25F-25H is arrange | positioned so that those extended surfaces 24b may be located below (road surface side).

LED光源装置25A〜25Hは、これらの光が隣接するLED光源装置25A〜25Hの反射板24によって遮られないような間隔で配置されている。特に、二対のLED光源装置25B,25C及びLED光源装置25D,25Eは、それぞれ隣接して対向配置されているため、隣接する反射板24によって影が生じないように、LED光源装置25BとLED光源装置25Cとの間、及び、LED光源装置25DとLED光源装置25Eとの間は、比較的広く空けられている。
一対のLED光源装置25B,25Cは、対向するLED光源装置25C,25Bの光のうち、蓋体13の内面で反射した光を路面に向けて反射する位置に配置されている。また、一対のLED光源装置25D,25Eは、対向するLED光源装置25E,25Dの光のうち、蓋体13の内面で反射した光を路面に向けて反射する位置に配置されている。
The LED light source devices 25A to 25H are arranged at intervals such that these lights are not blocked by the reflecting plate 24 of the adjacent LED light source devices 25A to 25H. In particular, the two pairs of LED light source devices 25B and 25C and the LED light source devices 25D and 25E are arranged adjacent to each other so that the LED light source device 25B and the LED are prevented from being shaded by the adjacent reflector 24. A relatively wide space is provided between the light source device 25C and between the LED light source device 25D and the LED light source device 25E.
The pair of LED light source devices 25B and 25C are disposed at positions where light reflected from the inner surface of the lid body 13 is reflected toward the road surface among the light of the opposing LED light source devices 25C and 25B. In addition, the pair of LED light source devices 25D and 25E are disposed at positions that reflect the light reflected by the inner surface of the lid body 13 toward the road surface among the light of the opposing LED light source devices 25E and 25D.

このように、本実施の形態では、光源にLED光源装置25A〜25Hが用いられているため、光源にランプを用いた場合に比べ、光源を長寿命化できるとともに、光源を小型・軽量化できる。また、光源が複数本(8本)のLED光源装置25A〜25Hで構成されているため、光源を一のLED光源装置で構成する場合に比べ、配光の自由度が向上し、希望の配光パターンを容易に実現できる。
2本のLED光源装置25F,25GとLED光源装置25Hとは、それらの光が蓋体13の平面に対し斜めに入射するように設けられるとともに、横断方向に対向配置されているため、LED光源装置25F〜25Hからの光が交差し、横断方向において広い範囲に光を照射することができる。
As described above, in the present embodiment, since the LED light source devices 25A to 25H are used as the light source, the life of the light source can be extended and the light source can be reduced in size and weight as compared with the case where the lamp is used as the light source. . In addition, since the light source is composed of a plurality of (eight) LED light source devices 25A to 25H, the degree of freedom of light distribution is improved compared to the case where the light source is composed of one LED light source device, and the desired light distribution is achieved. An optical pattern can be easily realized.
The two LED light source devices 25F and 25G and the LED light source device 25H are provided so that their lights are incident obliquely with respect to the plane of the lid body 13, and are disposed opposite to each other in the transverse direction. Lights from the devices 25F to 25H intersect and can irradiate light over a wide range in the transverse direction.

LED光源装置25Aは、その光が蓋体13の平面に垂直に入射するように設けられているため、器具本体11の正面を照射する。二対のLED光源装置25B,25C及びLED光源装置25D,25Eは、それらの光が蓋体13の平面に対し斜めに入射するように設けられるとともに、それぞれ交通方向に対向配置されているため、LED光源装置25B〜25Eからの光Kが交差し、交通方向遠方を照射する。これらのLED光源装置25A〜25Eによって、交通方向において広い範囲に光を照射することができるので、LEDトンネル照明器具1の配置間隔(スパン)をより広げることができる。
ここで、蓋体13の平面に入射する光の入射角度が大きくなるほど、すなわち、LED光源装置25B〜25Hの取付角度θ1〜θ3が大きくなるほど、蓋体13の内面で反射される光の量が多くなる。本実施の形態では、LED光源装置25B〜25Eの取付角度θ1が約60度に設定されているため、LEDトンネル照明器具1から放射される光の角度を交通方向の両側に約60度として照射範囲を広げつつ、蓋体13への入射角度が鋭角となり、蓋体13の内面で反射されて器具本体11内の散乱光として無効となってしまうことを抑えることができる。
The LED light source device 25 </ b> A irradiates the front surface of the instrument main body 11 because the light is provided so as to enter the plane of the lid 13 perpendicularly. Since the two pairs of LED light source devices 25B and 25C and the LED light source devices 25D and 25E are provided so that their light is incident obliquely with respect to the plane of the lid body 13, and are disposed opposite to each other in the traffic direction, Light K from the LED light source devices 25B to 25E intersects to illuminate the far direction of the traffic. Since these LED light source devices 25 </ b> A to 25 </ b> E can irradiate light over a wide range in the traffic direction, the arrangement interval (span) of the LED tunnel lighting device 1 can be further expanded.
Here, as the incident angle of the light incident on the plane of the lid body 13 increases, that is, as the mounting angles θ1 to θ3 of the LED light source devices 25B to 25H increase, the amount of light reflected on the inner surface of the lid body 13 increases. Become more. In this embodiment, since the mounting angle θ1 of the LED light source devices 25B to 25E is set to about 60 degrees, the angle of the light emitted from the LED tunnel lighting device 1 is set to about 60 degrees on both sides in the traffic direction. While increasing the range, it is possible to suppress the incident angle to the lid body 13 from becoming an acute angle, being reflected on the inner surface of the lid body 13 and becoming invalid as scattered light in the instrument body 11.

隣接するLED光源装置25B,25C及びLED光源装置25D,25Eがそれぞれ対向配置されることにより、例えば、隣接するLED光源装置25B,25Cが他方の側の交通方向遠方に向けて配置され、隣接するLED光源装置25D,25Eが片側の交通方向遠方に向けて配置される場合に比べ、隣接する反射板24による影が生じ難くなる。したがって、LED光源装置25B〜25Eをより近づけて配置できるので、LEDトンネル照明器具1を小型化できる。   The adjacent LED light source devices 25B and 25C and the LED light source devices 25D and 25E are arranged to face each other, for example, so that the adjacent LED light source devices 25B and 25C are arranged toward the far side in the traffic direction on the other side and are adjacent to each other. Compared with the case where the LED light source devices 25D and 25E are arranged farther in the traffic direction on one side, shadows due to the adjacent reflectors 24 are less likely to occur. Therefore, since the LED light source devices 25B to 25E can be arranged closer to each other, the LED tunnel lighting device 1 can be downsized.

二対のLED光源装置25B,25C及びLED光源装置25D,25Eは、それぞれ直線L1,L2を中心に対称に対向配置されるとともに、対向相手から放射される光のうち、蓋体13の内面(裏面)で反射される裏面反射光を路面に向けて反射する位置に配置されているため、蓋体13の内面で反射された光も外部に放射されるので、照明効率を向上できる。片側に配置された一対のLED光源装置25B,25Cを例(図4)に説明すると、LED光源装置25Cから放射された光Kは、一部が蓋体13を透過して透過光K1となって外部に放射され、残りが蓋体13の内面で反射されて裏面反射光K2となる。裏面反射光K2は、対向するLED光源装置25Bの反射板24において反射されて、再び蓋体13に入射する入射光K3となる。入射光K3は、一部が蓋体13を透過して透過光K4となって外部に放射される。これにより、裏面反射光を路面に向けて反射する反射板を設けない場合に比べ、LEDトンネル照明器具1の光量を約3割増加させることができる。なお、入射光K3の残りは、蓋体13の内面で反射されて裏面反射光K5となり、この裏面反射光K5がLED光源装置25Aの反射板24にて蓋体13に向けて反射されて、外部に放射される。   The two pairs of LED light source devices 25B and 25C and the LED light source devices 25D and 25E are arranged opposite to each other symmetrically about the straight lines L1 and L2, and the inner surface ( Since the back surface reflected light reflected by the back surface is reflected toward the road surface, the light reflected by the inner surface of the lid 13 is also radiated to the outside, so that the illumination efficiency can be improved. A pair of LED light source devices 25B and 25C arranged on one side will be described as an example (FIG. 4). A part of the light K emitted from the LED light source device 25C is transmitted through the lid body 13 to become transmitted light K1. And the rest is reflected by the inner surface of the lid body 13 to become back-surface reflected light K2. The back surface reflected light K2 is reflected by the reflecting plate 24 of the opposing LED light source device 25B, and becomes incident light K3 incident on the lid 13 again. A part of the incident light K3 is transmitted through the lid 13 to be transmitted to the outside as transmitted light K4. Thereby, compared with the case where the reflecting plate which reflects back surface reflected light toward a road surface is not provided, the light quantity of the LED tunnel lighting fixture 1 can be increased about 30%. The remainder of the incident light K3 is reflected by the inner surface of the lid body 13 to become back surface reflected light K5, and this back surface reflected light K5 is reflected toward the lid body 13 by the reflecting plate 24 of the LED light source device 25A. Radiated to the outside.

二対のLED光源装置25B,25C及びLED光源装置25D,25Eの反射板24は、交通方向遠方に向けて光を反射可能な側面24aと、交通方向近方に向けて光を反射可能な延出面24bとを備えているため、交通方向の光量を略均一にすることができる。また、LED光源装置25F〜25Hの反射板24は、横断方向遠方に向けて光を反射可能な側面24aと、天井面9(図1)側に向けて光を反射可能な延出面24bとを備えているため、天井面9を含む横断方向の光量を略均一にすることができる。このように、本実施の形態の反射板24は、裏面反射光を外部放射する機能と、配光パターンを形成する機能とを兼ね備えている。
また、本実施の形態では、LED光源装置25B〜25Hを共通化し、LED光源装置25A〜25Hの配置位置及び取付角度θ1〜θ3だけで配光パターンを形成している。すなわち、LED光源装置25Aは器具本体11正面の路面を照射し、LED光源装置25B〜25Eは路面の交通方向遠方を照射し、LED光源装置25F,25Gは器具本体11が配置された側と反対側の路肩や壁面6(図1)を照射し、LED光源装置25Hは器具本体11が配置された側の路肩や壁面6を照射する。このため、LED光源装置25B〜25Hのコストを低減できるとともに、製造や管理の手間を省くことができる。また、LED光源装置25F,25Gにより路肩や壁面6をむら無く照射しているので、路面輝度に対して1.5倍以上の壁面輝度を確保している。
The reflectors 24 of the two pairs of LED light source devices 25B and 25C and the LED light source devices 25D and 25E include a side surface 24a that can reflect light toward the far side in the traffic direction and an extension that can reflect light toward the near side in the traffic direction. Since the exit surface 24b is provided, the amount of light in the traffic direction can be made substantially uniform. Moreover, the reflecting plate 24 of the LED light source devices 25F to 25H includes a side surface 24a capable of reflecting light toward the far side in the transverse direction and an extending surface 24b capable of reflecting light toward the ceiling surface 9 (FIG. 1). Since it is provided, the amount of light in the transverse direction including the ceiling surface 9 can be made substantially uniform. As described above, the reflector 24 according to the present embodiment has a function of radiating back-surface reflected light to the outside and a function of forming a light distribution pattern.
In the present embodiment, the LED light source devices 25B to 25H are shared, and the light distribution pattern is formed only by the arrangement positions and the mounting angles θ1 to θ3 of the LED light source devices 25A to 25H. That is, the LED light source device 25A irradiates the road surface in front of the instrument main body 11, the LED light source devices 25B to 25E irradiate far away in the traffic direction of the road surface, and the LED light source devices 25F and 25G are opposite to the side on which the instrument main body 11 is disposed. The side road shoulder and the wall surface 6 (FIG. 1) are irradiated, and the LED light source device 25H irradiates the road shoulder and the wall surface 6 on the side where the instrument main body 11 is disposed. For this reason, while being able to reduce the cost of LED light source device 25B-25H, the effort of manufacture and management can be saved. Further, since the road light source and the wall surface 6 are evenly irradiated by the LED light source devices 25F and 25G, the wall surface luminance of 1.5 times or more is ensured with respect to the road surface luminance.

次に、図3を参照し、電源装置22A,22Bについて説明する。
ユニット取付板26の下部には、LED光源装置25A〜25Hを器具本体11の上側に寄せて配置したことで形成された空間Rに、商用電源からの電源線(不図示)を接続する端子台28が固定されている。端子台28は、図示しない電源ケーブルによって電源装置22A,22Bに接続されている。
電源装置22A,22Bは、横断方向に沿って配置され、器具本体11の両側面にそれぞれ固定されている。2つの電源装置22A,22は、複数本(8本)のLED光源装置25A〜25Hに供給する電力を分担している。例えば、片側に配置された電源装置22Aはこの電源装置22Aの近くに配置された4つのLED光源装置25A〜25C,25Gに電力を供給し、他方の側に配置された電源装置22Bは、残り4つのLED光源装置25D,25E,25G,25Hに電力を供給するように構成される。
Next, the power supply devices 22A and 22B will be described with reference to FIG.
A terminal block for connecting a power line (not shown) from a commercial power source to a space R formed by placing the LED light source devices 25A to 25H close to the upper side of the instrument body 11 below the unit mounting plate 26. 28 is fixed. The terminal block 28 is connected to the power supply devices 22A and 22B by a power cable (not shown).
The power supply devices 22 </ b> A and 22 </ b> B are arranged along the transverse direction and are fixed to both side surfaces of the instrument main body 11. The two power supply devices 22A and 22 share power supplied to a plurality (eight) of LED light source devices 25A to 25H. For example, the power supply device 22A arranged on one side supplies power to the four LED light source devices 25A to 25C, 25G arranged near the power supply device 22A, and the power supply device 22B arranged on the other side remains. The four LED light source devices 25D, 25E, 25G, and 25H are configured to supply power.

このように、2つの電源装置22A,22Bに複数本(8本)のLED光源装置25A〜25Hに供給する電力を分担させたため、電源装置22A,22Bのうち一の電力供給が停止しても、他の電力供給によってLED光源装置25A〜25Hの一部を点灯させることができる。したがって、LEDトンネル照明器具1を比較的広い配置間隔(スパン)で配置した場合においても、路面輝度は低下するものの電力供給の停止による暗領域を最小限に抑えることができる。
また、片側に配置された一対の対向するLED光源装置25B,25Cと、他方の側に配置された一対の対向するLED光源装置25D,25Eとが異なる電源装置22A,22Bに接続されているため、電源装置22A,22Bのうち一の電力供給が停止しても、他の電力供給によって一対を点灯できるので、路面輝度は低下するものの交通方向の照射範囲及び輝度分布を維持したまま、路面を照明し続けることができる。
As described above, since the power supplied to the plurality of (eight) LED light source devices 25A to 25H is shared by the two power supply devices 22A and 22B, even if one of the power supply devices 22A and 22B stops supplying power. Some of the LED light source devices 25A to 25H can be turned on by other power supply. Therefore, even when the LED tunnel lighting device 1 is arranged at a relatively wide arrangement interval (span), the road surface luminance is reduced, but the dark region due to the stop of the power supply can be minimized.
Further, the pair of opposed LED light source devices 25B and 25C arranged on one side and the pair of opposed LED light source devices 25D and 25E arranged on the other side are connected to different power supply devices 22A and 22B. Even if the power supply of one of the power supply devices 22A and 22B is stopped, the pair can be turned on by the other power supply, so the road surface brightness is maintained while maintaining the irradiation range and the brightness distribution in the traffic direction, although the road surface brightness decreases. Can continue to illuminate.

次いで、図1及び図4を参照し、LEDトンネル照明器具1の放熱構造について説明する。
ユニット取付板26及びLED取付板27は、熱伝導性に優れたアルミニウム等の材料で形成されており、これらのユニット取付板26及びLED取付板27もヒートシンク23とともに放熱部材を構成している。
ヒートシンク23は、熱伝導性に優れたアルミダイカストあるいはアルミ鋳物として構成され、器具本体11の背面に設けた背面開口11aに設けられている。ヒートシンク23は、器具本体11内に配置される基部23aと、背面開口11aから器具本体11と壁面6との間の隙間Dに延出する延出部(部位)23bとを備えている。基部23aは、背面開口11aより大きく形成され、器具本体11内に配置されて器具本体11の背面に固定されており、背面開口11aを閉塞している。延出部23bには、上下に延びる溝23cが設けられて、複数枚(本実施の形態では、7枚)の放熱フィン23dが形成されている。ヒートシンク23の基部23aには、背面開口11aに対応して溝23eが一周にわたって形成されており、この溝23eにパッキン17を配置することで、ヒートシンク23と背面開口11aとの間にパッキン17が間挿され、器具本体11内部への水等の侵入が防止される。
Next, the heat dissipation structure of the LED tunnel lighting device 1 will be described with reference to FIGS. 1 and 4.
The unit mounting plate 26 and the LED mounting plate 27 are formed of a material such as aluminum having excellent thermal conductivity. The unit mounting plate 26 and the LED mounting plate 27 together with the heat sink 23 constitute a heat radiating member.
The heat sink 23 is configured as an aluminum die cast or aluminum casting having excellent thermal conductivity, and is provided in a back opening 11 a provided on the back surface of the instrument body 11. The heat sink 23 includes a base portion 23 a disposed in the instrument main body 11 and an extending portion (part) 23 b extending from the back surface opening 11 a to the gap D between the instrument main body 11 and the wall surface 6. The base portion 23a is formed larger than the back surface opening 11a, is disposed in the device body 11 and is fixed to the back surface of the device body 11, and closes the back surface opening 11a. The extending portion 23b is provided with a vertically extending groove 23c, and a plurality of (in this embodiment, seven) radiating fins 23d are formed. A groove 23e is formed in the base 23a of the heat sink 23 so as to correspond to the back surface opening 11a, and the packing 17 is disposed in the groove 23e so that the packing 17 is interposed between the heat sink 23 and the back surface opening 11a. Insertion of water or the like into the instrument main body 11 is prevented.

ところで、トンネル2内には、車両の通行やトンネル2内に設けられた換気用送風機によって、壁面6に沿って風が流れている。本実施の形態では、ヒートシンク23の延出部23bが器具本体11と壁面6の隙間Dに配置されているため、壁面6に沿って流れる風によって冷却されるので、LED光源装置25A〜25Hをより効果的に冷却できる。延出部23bは、器具本体11の外部に設けられているため、ヒートシンク23全体が器具本体内に収容される場合に比べ、器具本体11の厚みを薄くすることができる。また、延出部23bに溝23cを設けて複数の放熱フィン23dを形成したため、LED光源装置25A〜25Hの放熱性が高められ、LED光源装置25A〜25Hを長寿命化できる。溝23cは、上下に形成されているため、溝23cに塵埃や水等が溜まるのを防止でき、その結果、ヒートシンク23の腐食を抑制できるとともに、冷却効率を向上できる。   By the way, in the tunnel 2, the wind flows along the wall surface 6 by the passage of the vehicle and the ventilation blower provided in the tunnel 2. In the present embodiment, since the extending portion 23b of the heat sink 23 is disposed in the gap D between the instrument body 11 and the wall surface 6, the LED light source devices 25A to 25H are cooled by the wind flowing along the wall surface 6. More effective cooling. Since the extending part 23b is provided outside the instrument main body 11, the thickness of the instrument main body 11 can be made thinner than when the entire heat sink 23 is accommodated in the instrument main body. Moreover, since the groove | channel 23c was provided in the extension part 23b and the several heat radiating fin 23d was formed, the heat dissipation of LED light source device 25A-25H is improved and LED light source device 25A-25H can be extended in lifetime. Since the groove 23c is formed vertically, it is possible to prevent dust and water from accumulating in the groove 23c. As a result, corrosion of the heat sink 23 can be suppressed and cooling efficiency can be improved.

ヒートシンク23は、放熱性に優れたアルミニウムを用いて形成されているため、トンネル2内の漏水やトンネル2外の車道に散布される融雪剤の付着等によって腐食するおそれがある。本実施の形態では、ユニット取付板26がヒートシンク23に対し着脱自在に設けられているため、例えば、ヒートシンク23の腐食が進み、ヒートシンク23を交換する必要が生じた場合にも、LEDトンネル照明器具1全体を交換する必要はなく、ユニット取付板26を取り外すことで、ヒートシンク23だけを交換することができる。また、ヒートシンク23の基部23aは、背面開口11aより大きく形成されるとともに、器具本体11内に配置されているので、ヒートシンク23が腐食して劣化しても、器具本体11内に留まる。   Since the heat sink 23 is formed using aluminum having excellent heat dissipation, there is a possibility that the heat sink 23 may corrode due to water leakage in the tunnel 2 or adhesion of a snow melting agent sprayed on the roadway outside the tunnel 2. In the present embodiment, since the unit mounting plate 26 is detachably provided to the heat sink 23, for example, when the corrosion of the heat sink 23 progresses and the heat sink 23 needs to be replaced, the LED tunnel lighting fixture It is not necessary to replace the entire unit 1, and only the heat sink 23 can be replaced by removing the unit mounting plate 26. Further, since the base 23a of the heat sink 23 is formed larger than the rear opening 11a and is disposed in the instrument main body 11, even if the heat sink 23 is corroded and deteriorated, it remains in the instrument main body 11.

以下、図3及び図7を参照し、ユニット取付板26の支持構造について説明する。
図7は、ユニット取付板26の支持構造を示す図であり、図7(A)はLEDトンネル照明器具1を示す断面図であり、図7(B)は図7(A)のX矢視図である。
ヒートシンク23の前面には、ユニット取付板26を係止するためのユニット取付ねじ29が複数取り付けられている。また、ヒートシンク23の片側の前面には、ユニット取付板26を固定するためのフック31が設けられている。
ユニット取付板26には、ユニット取付ねじ29に対応した位置に、ユニット取付ねじ29に係合する取付孔26aが形成されている。また、ユニット取付板26の片側の前面には、フック31に係合するクレセント32がクレセント取付金具33によって固定されている。これらフック31、クレセント32、及びクレセント取付金具33は、クレセント錠34を構成している。
Hereinafter, the support structure of the unit mounting plate 26 will be described with reference to FIGS. 3 and 7.
7 is a view showing a support structure of the unit mounting plate 26, FIG. 7A is a cross-sectional view showing the LED tunnel lighting device 1, and FIG. 7B is a view taken along an arrow X in FIG. 7A. FIG.
A plurality of unit mounting screws 29 for locking the unit mounting plate 26 are mounted on the front surface of the heat sink 23. A hook 31 for fixing the unit mounting plate 26 is provided on the front surface on one side of the heat sink 23.
A mounting hole 26 a that engages with the unit mounting screw 29 is formed in the unit mounting plate 26 at a position corresponding to the unit mounting screw 29. A crescent 32 that engages with the hook 31 is fixed to the front surface on one side of the unit mounting plate 26 by a crescent mounting bracket 33. The hook 31, the crescent 32 and the crescent mounting bracket 33 constitute a crescent lock 34.

ところで、LED20の寿命は長く、また、LEDトンネル照明器具1を設置した後にその配光パターンを変更することは少ないが、LEDトンネル照明器具1を設置した後にその光量を変更する場合があり、この場合には、LED光源装置25A〜25Hを交換する必要がある。LED光源装置25A〜25Hを交換する際には、トンネル2(図1)内の交通が規制されることが多い。本実施の形態では、器具本体11に対し着脱自在に設けられたユニット取付板26に、複数のLED光源装置25A〜25Hを固定してユニット化したため、LED光源装置25A〜25Hを交換する際には、ユニット取付板26を交換するだけで良く、上述したようにLED光源装置25A〜25Hの配置位置や取付角度θ1〜θ3がそれぞれ異なっていても、LED光源装置25A〜25Hの配置を調整する手間を省くことができる。これにより、LED光源装置25A〜25Hを個別に交換する場合に比べ、LED光源装置25A〜25Hの交換時間を短縮でき、その結果、車線5を規制する時間を短縮できる。これに加え、端子台28もユニット取付板26に固定してユニット化したため、LED光源装置25A〜25Hの交換時に、端子台28を同時に交換できる。   By the way, the life of the LED 20 is long, and the light distribution pattern is rarely changed after the LED tunnel lighting device 1 is installed, but the light amount may be changed after the LED tunnel lighting device 1 is installed. In this case, it is necessary to replace the LED light source devices 25A to 25H. When the LED light source devices 25A to 25H are replaced, traffic in the tunnel 2 (FIG. 1) is often restricted. In the present embodiment, since the plurality of LED light source devices 25A to 25H are fixed to the unit mounting plate 26 that is detachably attached to the instrument body 11, the LED light source devices 25A to 25H are replaced. Only needs to replace the unit mounting plate 26, and adjusts the arrangement of the LED light source devices 25A to 25H even if the arrangement positions and the mounting angles θ1 to θ3 of the LED light source devices 25A to 25H are different as described above. Save time and effort. Thereby, compared with the case where LED light source device 25A-25H is replaced | exchanged separately, the replacement time of LED light source device 25A-25H can be shortened, As a result, the time which regulates the lane 5 can be shortened. In addition, since the terminal block 28 is also fixed to the unit mounting plate 26 and unitized, the terminal block 28 can be replaced at the same time when the LED light source devices 25A to 25H are replaced.

ユニット取付板26は、クレセント錠34で固定されているため、工具を使用することなく、ユニット取付板26を着脱できる。また。ユニット取付板26は、複数の取付ねじ29によって係止されているので、クレセント錠34を解錠する際に、作業者が手でユニット取付板26を押える必要がないので、ユニット取付板26の着脱の作業性を向上できる。さらに、ユニット取付板26に図示しない把手を設ければ、ユニット取付板26の着脱の作業性をより向上できる。このようにユニット取付板26を構成することで、メンテナンス性に優れたLEDトンネル照明器具1が実現され、車線5を規制する時間をより短縮できる。   Since the unit mounting plate 26 is fixed by the crescent lock 34, the unit mounting plate 26 can be attached and detached without using a tool. Also. Since the unit mounting plate 26 is locked by a plurality of mounting screws 29, when the crescent lock 34 is unlocked, it is not necessary for the operator to press the unit mounting plate 26 by hand. Detachable workability can be improved. Furthermore, if a handle (not shown) is provided on the unit mounting plate 26, the detachability of the unit mounting plate 26 can be further improved. By configuring the unit mounting plate 26 in this way, the LED tunnel lighting fixture 1 excellent in maintainability is realized, and the time for regulating the lane 5 can be further shortened.

以上説明したように、本実施の形態によれば、複数のLED20を列状に配列して複数のLED光源装置25A〜25Hを構成し、器具本体11の正面を照射するように、1つのLED光源装置25Aを蓋体13の平面に垂直に光を入射するように器具本体11内に配置し、路面の交通方向遠方を照射するように、LED光源装置25B〜25Eを蓋体13の平面に対し斜めに光を入射するように器具本体11内に配置する構成とした。この構成により、交通方向において広い範囲に光を照射することができるので、ランプを光源とする従来のトンネル照明器具に比べ、光源を長寿命化しつつ、広スパン化できる。   As described above, according to the present embodiment, a plurality of LEDs 20 are arranged in a line to form a plurality of LED light source devices 25A to 25H, and one LED is irradiated so as to irradiate the front of the instrument body 11. The light source device 25A is arranged in the instrument main body 11 so that light is incident perpendicularly to the plane of the lid body 13, and the LED light source devices 25B to 25E are arranged on the plane of the lid body 13 so as to illuminate the road surface in the traffic direction. On the other hand, it was set as the structure arrange | positioned in the instrument main body 11 so that light may inject into diagonally. With this configuration, it is possible to irradiate light over a wide range in the traffic direction, so that the life of the light source can be extended and the span can be increased as compared with a conventional tunnel luminaire using a lamp as a light source.

また、本実施の形態によれば、互いに光を交差するように対向配置され路面の交通方向の両側遠方を照射する一対のLED光源装置25B〜25Eを二対備え、各対のLED光源装置25B〜25Eを、正面を照射するLED光源装置25Aの両側に配置する構成とした。この構成により、さらに広い範囲に光を照射することができるので、LEDトンネル照明器具1の配置間隔(スパン)をより広げることができる。   In addition, according to the present embodiment, two pairs of LED light source devices 25B to 25E are arranged so as to face each other so as to cross each other and illuminate both sides of the road surface in the traffic direction, and each pair of LED light source devices 25B. ˜25E are arranged on both sides of the LED light source device 25A that irradiates the front. With this configuration, it is possible to irradiate light over a wider range, so that the arrangement interval (span) of the LED tunnel lighting device 1 can be further widened.

また、本実施の形態によれば、LED光源装置25A〜25Hは、それぞれLED光源装置25A〜25Hの光を反射する反射板24を備え、一対のLED光源装置25B〜25Eを、対向するLED光源装置25B〜25Eの光が蓋体13の内面で反射した光を路面に向けて反射する位置に配置する構成とした。この構成により、蓋体13の内面で反射された光も外部に放射されるので、照明効率を向上できる。   Moreover, according to this Embodiment, LED light source device 25A-25H is provided with the reflecting plate 24 which reflects the light of LED light source device 25A-25H, respectively, and a pair of LED light source device 25B-25E is opposed to LED light source. It was set as the structure arrange | positioned in the position which reflects the light which the light of apparatus 25B-25E reflected on the inner surface of the cover body 13 toward a road surface. With this configuration, the light reflected by the inner surface of the lid body 13 is also emitted to the outside, so that the illumination efficiency can be improved.

また、本実施の形態によれば、複数の電源装置22A,22Bを備え、正面を照射するLED光源装置25Aの片側に配置された一対のLED光源装置25B,25Cと、他方の側に配置された一対のLED光源装置25D,25Eとを異なる電源装置22A,22Bに接続する構成とした。この構成により、電源装置22A,22Bのうち一の電力供給が停止しても、他の電力供給によって一対を点灯できるので、交通方向の照射範囲をほとんど狭めることなく、路面を照明し続けることができる。   Further, according to the present embodiment, a pair of LED light source devices 25B and 25C, which are provided on one side of the LED light source device 25A that includes a plurality of power supply devices 22A and 22B and irradiates the front surface, are disposed on the other side. The pair of LED light source devices 25D and 25E are connected to different power supply devices 22A and 22B. With this configuration, even if the power supply of one of the power supply devices 22A and 22B is stopped, the pair can be turned on by the other power supply, so that the road surface can be continuously lit without substantially narrowing the irradiation range in the traffic direction. it can.

また、本実施の形態によれば、LED光源装置25A〜25Hのそれぞれを、器具本体11に対し着脱自在なユニット取付板26に固定する構成とした。この構成により、ユニット取付板26を交換するだけでLED光源装置25A〜25Hを交換できるので、LED光源装置25A〜25Hの交換時間を短縮できる。   Further, according to the present embodiment, each of the LED light source devices 25 </ b> A to 25 </ b> H is configured to be fixed to the unit mounting plate 26 that is detachable from the instrument body 11. With this configuration, the LED light source devices 25A to 25H can be replaced simply by replacing the unit mounting plate 26, so that the replacement time of the LED light source devices 25A to 25H can be shortened.

但し、上記実施の形態は本発明の一態様であり、本発明の趣旨を逸脱しない範囲において適宜変更可能であるのは勿論である。
例えば、上記実施の形態では、8つのLED光源装置25A〜25Hを、横断方向に4つ、交通方向に3つ配置したが、LED光源装置の数、配置位置、及び取付角度は、希望の配光パターンに応じて適宜変更できる。例えば、設計速度が低く、比較的暗くても良いトンネル等(例えば、設計路面輝度0.75cd/m2の時、取付高さHは約5m、取付間隔Sは約20mの設定)には、図8及び図9に示すように、比較的少数(例えば、5つ)のLED光源装置25A〜25Eを配置するとともに、これらのLED光源装置25A〜25Eを1つの電源装置22に接続してもよい。この場合、1つのLED光源装置25Aを、蓋体13の平面に垂直に光を入射させて器具本体11の正面を照射するように配置し、一対のLED光源装置25B,25Cを、蓋体13の平面に対し斜めに光Kを入射させるとともに互いに光Kを交差させて交通方向の両側遠方を照射するように、交通方向に対向配置し、一対のLED光源装置25D,25Eを、蓋体13の平面に対し斜めに光を入射させるとともに互いに光を交差させて横断方向の両側遠方を照射するように、横断方向に対向配置することで、広い範囲に光を照射可能にすればよい。詳述すると、LED光源装置25Aはユニット取付板26に直接取付られており、LED光源装置25B〜25EはLED取付板27を介してユニット取付板26に取り付けられている。また、一対のLED光源装置25B,25Cは、器具本体11の中央を通る直線Lを中心に取付角度θ1で対称配置されるとともに、対向するLED光源装置25C,25Bの光Kのうち、蓋体13の内面で反射した裏面反射光K2を路面に向けて反射する位置に配置されている。このように、LED光源装置が着脱自在なユニット取付板26に固定されているため、ユニット取付板26を交換するだけで、LED光源装置の数、配置位置、及び取付角度を容易に変更でき、配光パターンの変更も容易に実現可能である。
However, the above embodiment is an aspect of the present invention, and it is needless to say that the embodiment can be appropriately changed without departing from the gist of the present invention.
For example, in the above embodiment, eight LED light source devices 25A to 25H are arranged four in the transverse direction and three in the traffic direction. However, the number of LED light source devices, the arrangement position, and the mounting angle may be set as desired. It can be suitably changed according to the light pattern. For example, for tunnels that have a low design speed and may be relatively dark (for example, when the design road surface brightness is 0.75 cd / m 2 , the installation height H is about 5 m and the installation interval S is about 20 m), As shown in FIGS. 8 and 9, a relatively small number (for example, five) of LED light source devices 25 </ b> A to 25 </ b> E are arranged, and these LED light source devices 25 </ b> A to 25 </ b> E are connected to one power supply device 22. Good. In this case, one LED light source device 25A is disposed so that light is incident perpendicularly to the plane of the lid body 13 to irradiate the front surface of the instrument body 11, and the pair of LED light source devices 25B and 25C are disposed on the lid body 13. A pair of LED light source devices 25D and 25E are arranged so as to be opposed to each other in the traffic direction so that the light K is incident obliquely with respect to the plane and the light K crosses each other to illuminate both sides of the traffic direction. It is only necessary to make the light irradiable in a wide range by making the light incident obliquely with respect to the plane, and opposing each other in the transverse direction so that the lights cross each other and illuminate the far sides in the transverse direction. More specifically, the LED light source device 25 </ b> A is directly attached to the unit attachment plate 26, and the LED light source devices 25 </ b> B to 25 </ b> E are attached to the unit attachment plate 26 via the LED attachment plate 27. In addition, the pair of LED light source devices 25B and 25C are symmetrically arranged with a mounting angle θ1 about the straight line L passing through the center of the instrument body 11, and the lid body among the light K of the LED light source devices 25C and 25B facing each other. The rear surface reflected light K2 reflected by the inner surface 13 is disposed at a position where it reflects toward the road surface. Thus, since the LED light source device is fixed to the detachable unit mounting plate 26, simply replacing the unit mounting plate 26 can easily change the number, arrangement position, and mounting angle of the LED light source devices, It is also possible to easily change the light distribution pattern.

また、上記実施の形態では、反射板24のカップ部30は、平坦面状に形成されていたが、放物線の曲率を有する湾曲面状に形成されてもよい。
また、上記実施の形態では、LEDトンネル照明器具1をトンネル2内の両壁面6A,6Bに配置する両側配列について例示したが、これに限らず、LEDトンネル照明器具1をトンネル2内の両壁面6A,6Bの片側にのみ配置する片側配列としてもよい。
また、上記実施の形態では、ユニット取付板26をヒートシンク23に固定する固定具は、クレセント錠34として構成されていたが、これに限定されるものではなく、例えばパチン錠として構成されてもよい。
Moreover, in the said embodiment, although the cup part 30 of the reflecting plate 24 was formed in flat surface shape, you may form in the curved surface shape which has the curvature of a parabola.
Moreover, in the said embodiment, although illustrated about the both-sides arrangement | positioning which arrange | positions the LED tunnel lighting fixture 1 in both wall surface 6A, 6B in the tunnel 2, it is not restricted to this, The LED tunnel lighting fixture 1 is both wall surfaces in the tunnel 2 It is good also as a one-sided arrangement | positioning arrange | positioned only to the one side of 6A, 6B.
Moreover, in the said embodiment, although the fixing tool which fixes the unit attachment board 26 to the heat sink 23 was comprised as the crescent lock 34, it is not limited to this, For example, you may be comprised as a snap lock. .

1 LEDトンネル照明器具
2 トンネル
6 壁面
11 器具本体
13 蓋体(透明板)
20 LED
22A,22B 電源装置
24 反射板
25A〜25H LED光源装置
26 ユニット取付板(ユニット取付部)
DESCRIPTION OF SYMBOLS 1 LED tunnel lighting fixture 2 Tunnel 6 Wall surface 11 Appliance main body 13 Cover body (transparent plate)
20 LED
22A, 22B Power supply device 24 Reflector plate 25A-25H LED light source device 26 Unit mounting plate (unit mounting portion)

Claims (5)

トンネルの壁面や天井面に設けられる器具本体に、LEDを内蔵し、前記器具本体の前面を塞ぐ透明板を通して路面を照明するLEDトンネル照明器具において、
複数のLEDを列状に配列して複数のLED光源装置を構成し、
前記器具本体の正面の路面を照射するように、少なくとも1つの前記LED光源装置を前記透明板の平面に垂直に光を入射するように前記器具本体内に配置し、
前記路面の交通方向両側遠方と、前記器具本体が配置される側及び前記器具本体が配置される側と反対側の各々の路肩や壁面と、を照射するように、前記LED光源装置を前記透明板の平面に対し斜めに光を入射する取付角度で前記器具本体内に配置した、
ことを特徴とするLEDトンネル照明器具。
In an LED tunnel lighting device that illuminates a road surface through a transparent plate that incorporates an LED and blocks the front surface of the device body, on the device body provided on the wall or ceiling surface of the tunnel,
A plurality of LED light source devices are configured by arranging a plurality of LEDs in a row,
Disposing at least one LED light source device in the instrument body so that light is incident perpendicular to the plane of the transparent plate so as to irradiate the road surface in front of the instrument body;
The LED light source device is transparent so as to illuminate the road surface on both sides in the traffic direction, and the road shoulder and wall surface on the side opposite to the side where the appliance main body is arranged and the side where the appliance main body is arranged. Arranged in the instrument body at an attachment angle that makes light incident obliquely with respect to the plane of the plate,
The LED tunnel lighting fixture characterized by the above-mentioned.
前記透明板の平面に対して斜めに光を入射する前記LED光源装置の各々の取付角度を、
前記路面の交通方向遠方へ照射する前記LED光源装置の取付角度をθ1、
前記反対側の路肩や壁面を照射する前記LED光源装置の取付角度をθ2、
前記器具本体が配置される側の路肩や壁面を照射する前記LED光源装置の取付角度をθ3としたとき、
θ1>θ2>θ3として設定したことを特徴とする請求項1に記載のLEDトンネル照明器具。
The mounting angle of each of the LED light source devices that enter light obliquely with respect to the plane of the transparent plate,
The mounting angle of the LED light source device that irradiates the road surface away from the traffic direction is θ1,
The mounting angle of the LED light source device that irradiates the opposite shoulder or wall surface is θ2,
When the mounting angle of the LED light source device that illuminates the road shoulder or wall surface on the side where the instrument body is arranged is θ3,
The LED tunnel lighting fixture according to claim 1, wherein θ1>θ2> θ3 is set.
前記LED光源装置及び電源の端子台を、前記器具本体に着脱自在なユニット取付板に固定したことを特徴とする請求項1又は2に記載のLEDトンネル照明器具。   3. The LED tunnel lighting fixture according to claim 1, wherein the LED light source device and a power supply terminal block are fixed to a unit mounting plate that is detachable from the fixture main body. 前記器具本体に内蔵した複数の前記LED光源装置に、2つの電源装置によって分担させて電力を供給することを特徴とする請求項1乃至3のいずれかに記載のLEDトンネル照明器具。   4. The LED tunnel lighting device according to claim 1, wherein power is supplied to the plurality of LED light source devices built in the device body by two power supply devices. 5. 前記LED光源装置は、それぞれ当該LED光源装置の光を反射する反射板を備え、
一対の前記LED光源装置を、対向するLED光源装置の光が前記透明板の内面で反射した光を路面に向けて反射する位置に配置したことを特徴とする請求項1乃至4のいずれかに記載のLEDトンネル照明器具。
Each of the LED light source devices includes a reflector that reflects the light of the LED light source device,
5. A pair of said LED light source devices are arrange | positioned in the position which reflects the light which the light of the LED light source device which opposes reflected in the inner surface of the said transparent plate toward a road surface. The LED tunnel lighting fixture of description.
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