JP2009259654A - Vehicular lighting fixture - Google Patents

Vehicular lighting fixture Download PDF

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Publication number
JP2009259654A
JP2009259654A JP2008108394A JP2008108394A JP2009259654A JP 2009259654 A JP2009259654 A JP 2009259654A JP 2008108394 A JP2008108394 A JP 2008108394A JP 2008108394 A JP2008108394 A JP 2008108394A JP 2009259654 A JP2009259654 A JP 2009259654A
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Prior art keywords
optical axis
lamp
heat sink
light source
reflecting mirror
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JP2008108394A
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JP5275672B2 (en
Inventor
Hidemi Tanaka
秀実 田中
Yukio Yamanaka
幸雄 山中
Kunihiko Seki
邦彦 関
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Stanley Electric Co Ltd
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Stanley Electric Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60QARRANGEMENT OF SIGNALLING OR LIGHTING DEVICES, THE MOUNTING OR SUPPORTING THEREOF OR CIRCUITS THEREFOR, FOR VEHICLES IN GENERAL
    • B60Q1/00Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor
    • B60Q1/02Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor the devices being primarily intended to illuminate the way ahead or to illuminate other areas of way or environments
    • B60Q1/04Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor the devices being primarily intended to illuminate the way ahead or to illuminate other areas of way or environments the devices being headlights
    • B60Q1/06Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor the devices being primarily intended to illuminate the way ahead or to illuminate other areas of way or environments the devices being headlights adjustable, e.g. remotely-controlled from inside vehicle
    • B60Q1/068Arrangement of optical signalling or lighting devices, the mounting or supporting thereof or circuits therefor the devices being primarily intended to illuminate the way ahead or to illuminate other areas of way or environments the devices being headlights adjustable, e.g. remotely-controlled from inside vehicle by mechanical means
    • B60Q1/0683Adjustable by rotation of a screw
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S41/00Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps
    • F21S41/10Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps characterised by the light source
    • F21S41/14Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps characterised by the light source characterised by the type of light source
    • F21S41/141Light emitting diodes [LED]
    • F21S41/147Light emitting diodes [LED] the main emission direction of the LED being angled to the optical axis of the illuminating device
    • F21S41/148Light emitting diodes [LED] the main emission direction of the LED being angled to the optical axis of the illuminating device the main emission direction of the LED being perpendicular to the optical axis
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S45/00Arrangements within vehicle lighting devices specially adapted for vehicle exteriors, for purposes other than emission or distribution of light
    • F21S45/40Cooling of lighting devices
    • F21S45/47Passive cooling, e.g. using fins, thermal conductive elements or openings
    • F21S45/48Passive cooling, e.g. using fins, thermal conductive elements or openings with means for conducting heat from the inside to the outside of the lighting devices, e.g. with fins on the outer surface of the lighting device

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Optics & Photonics (AREA)
  • Mechanical Engineering (AREA)
  • Securing Globes, Refractors, Reflectors Or The Like (AREA)
  • Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)
  • Non-Portable Lighting Devices Or Systems Thereof (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide a compact light easy of optical axis adjusting work and superior in heat dissipation. <P>SOLUTION: A crowned gear 16a is provided on the heat sink of a lighting fixture for adjusting the irradiating direction of a reflecting mirror 13. During adjustment, a tool is inserted along a heat dissipation fin 19 of the heat sink to engage with the crowned gear 16a, thus allowing a worker to easily do optical axis adjusting work. The heat dissipation fin 19 is also served as a tool insertion guide. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は前照灯、フォグランプなどの光軸調整を必要とする車両用灯具に関する。   The present invention relates to a vehicular lamp that requires optical axis adjustment, such as a headlamp and a fog lamp.

前照灯やフォグランプなどの自動車用灯具では、光軸の調整を行う作業が自動車の出荷時に行われる。この光軸調整では、バルブを取り付けたリフレクターを傾動させて調整を行うものである。また、光源としてハロゲンバルブや放電ランプ等がこの種の車両用灯具で用いられてきたが、近年では発光ダイオード(以下、LEDと称する)を用いて小型化を図った車両用灯具が提案されている。   In automotive lamps such as headlamps and fog lamps, the operation of adjusting the optical axis is performed when the automobile is shipped. In this optical axis adjustment, adjustment is performed by tilting the reflector to which the bulb is attached. In addition, halogen bulbs, discharge lamps, and the like have been used as light sources in this type of vehicle lamp. Recently, however, vehicle lamps that have been miniaturized using light emitting diodes (hereinafter referred to as LEDs) have been proposed. Yes.

LEDは各種ランプに比較して一般的に小型、低消費電力、長寿命等の利点を有しており、この利点を利用してハイマウントストップランプ、ストップアンドテールランプ、方向指示灯等の車両用灯具の光源として使用されている。車両用灯具は、一般的に前面レンズとハウジングとによって灯室が形成されており、その灯室内に光源となるLEDが支持される。
そこでLEDを点灯すると、LEDの自己発熱によってLED自体の温度が上昇し、その結果LEDの発光効率が低下することによって灯具の照射光量が低減すると共に、極端な場合には灯具に要求される配光性能や配光規格を満足しなくなる可能性も有している。
LEDs generally have advantages such as small size, low power consumption, and long life compared to various lamps. Using these advantages, LEDs are used for vehicles such as high-mount stop lamps, stop-and-tail lamps, and direction indicators. Used as a light source for lamps. In a vehicular lamp, a lamp chamber is generally formed by a front lens and a housing, and an LED serving as a light source is supported in the lamp chamber.
Therefore, when the LED is turned on, the temperature of the LED itself increases due to the self-heating of the LED, and as a result, the light emission efficiency of the LED decreases, thereby reducing the amount of light emitted from the lamp and, in extreme cases, the distribution required for the lamp. There is also a possibility that the optical performance and the light distribution standard will not be satisfied.

特に、前照灯では、明るさ確保の点からLEDの定格値近傍の駆動条件で点灯する場合が多い。そのため、LEDの自己発熱の問題が顕著となる。そこで、ヒートシンクを併設した前照灯が提案されている。   In particular, headlamps are often lit under driving conditions near the rated value of the LED from the viewpoint of ensuring brightness. Therefore, the problem of self-heating of the LED becomes significant. Therefore, a headlamp with a heat sink has been proposed.

図7および図8はこの種のLED光源前照灯であり、図8は図7のA−A線に沿う断面図である。このLED光源前照灯1は、大別して、図8にも示すように、レンズ2aと、取り付け孔2cが一部に設けられた裏板2bとで構成されるハウジング2と、前記ハウジング2の前記取り付け孔2cに蓋状に取付けられるベース板3と、前記取り付け孔2cと前記ベース板3との間を閉塞するカバー4によりハウジング2内は密閉状態とされている。   7 and 8 show this type of LED light source headlamp, and FIG. 8 is a cross-sectional view taken along line AA of FIG. As shown in FIG. 8, the LED light source headlamp 1 is roughly divided into a housing 2 composed of a lens 2 a and a back plate 2 b provided with a mounting hole 2 c in a part thereof. The inside of the housing 2 is hermetically sealed by a base plate 3 attached to the attachment hole 2c in a lid shape and a cover 4 closing the space between the attachment hole 2c and the base plate 3.

そして、前記ベース板3上にLEDランプ5a、反射鏡5b、投影レンズ5c、シャッタ5dなどより成り、いわゆるプロジェクタ型とされた投光器5の複数が取付けられ、これら複数の投光器5からの投射光の重ね合わせで、所定の明るさと、所定の形状とした配光特性が得られるものとされている。また、前記ベース板3の背面には、ヒートシンク6(放熱板)が設けられ、LEDランプ5aに過剰な温度上昇を生じることがないようにされている。   A plurality of so-called projector-type projectors 5 including LED lamps 5a, reflecting mirrors 5b, projection lenses 5c, shutters 5d, and the like are mounted on the base plate 3, and projection light from the plurality of projectors 5 By superimposing, light distribution characteristics having a predetermined brightness and a predetermined shape are obtained. Further, a heat sink 6 (heat radiating plate) is provided on the back surface of the base plate 3 so as not to cause an excessive temperature rise in the LED lamp 5a.

また、ベース板3、反射鏡5b、投影レンズ5cなどを保持するマウントブラケット2dの構成に付いて説明を行うと、このマウントブラケット2dは、図8に示すように、一般の前照灯の反射鏡と同様にボールジョイント7a、対角線上に位置している2本のアジャストスクリュー7bなどによる、いわゆる光軸調整機構7が設けられ、前記ハウジング2の裏板2bに取付けられている(例えば、特許文献1参照)。   Further, the structure of the mount bracket 2d that holds the base plate 3, the reflecting mirror 5b, the projection lens 5c, and the like will be described. As shown in FIG. 8, the mount bracket 2d reflects a general headlamp. A so-called optical axis adjusting mechanism 7 is provided by a ball joint 7a, two adjusting screws 7b positioned on a diagonal line like the mirror, and is attached to the back plate 2b of the housing 2 (for example, patent Reference 1).

光軸調整は、対角線上に位置している2本のアジャストスクリュー7bの各々を回転操作することにより行うものであり、アジャストスクリュー7bの回転によってマウントブラケット2dがボールジョイント7bの球面頭部を支点として傾動するため、マウントブラケットに取り付けられたLEDランプ5aおよび/または反射鏡5bの角度が変化する。これにより灯具の主光軸を変更することができる。
特開2007−59202号公報
The optical axis adjustment is performed by rotating each of the two adjustment screws 7b located on the diagonal line, and the mount bracket 2d supports the spherical head of the ball joint 7b by the rotation of the adjustment screw 7b. Therefore, the angle of the LED lamp 5a and / or the reflecting mirror 5b attached to the mount bracket changes. Thereby, the main optical axis of the lamp can be changed.
JP 2007-59202 A

上記した光軸調整は、車体に取り付けた状態で規定の照射方向となるように調整を行なう。よって、車体取り付け状態において作業者が容易に操作が可能となるようになっていることが好ましい。しかしながら、LED光源灯具は、従来のハロゲンバルブ光源や放電バルブ光源を用いた灯具に比べて光源が小型化しているメリットを活かすため、灯具全体の小型化を図る必要がある。そのため、ハウジングに光軸調整機構を設けるためには、ヒートシンク6(放熱板)の設置スペースを小さくしなければならず、放熱面積の拡大を妨げるという問題があった。   The above-described optical axis adjustment is performed so that a predetermined irradiation direction is obtained when the optical axis is attached to the vehicle body. Therefore, it is preferable that the operator can easily operate in the vehicle body mounted state. However, since the LED light source lamp takes advantage of the miniaturization of the light source as compared with a lamp using a conventional halogen bulb light source or discharge bulb light source, it is necessary to reduce the overall size of the lamp. Therefore, in order to provide the optical axis adjusting mechanism in the housing, the installation space for the heat sink 6 (heat radiating plate) must be reduced, which hinders the expansion of the heat radiating area.

また、車体に取り付けた状態で光軸調整を行なうため、アジャストスクリュー7bを調整する作業は、車体や他の自動車部品と灯具との間の狭いスペース内にドライバーなどの工具を挿入して行なう必要があり、作業者による操作が行ない難いという問題があった。これらは、この種のLED光源前照灯等の共通の課題であった。   In addition, since the optical axis is adjusted while attached to the vehicle body, the adjustment screw 7b must be adjusted by inserting a tool such as a screwdriver in a narrow space between the vehicle body and other automobile parts and the lamp. There was a problem that it was difficult for the operator to perform the operation. These are common problems such as this type of LED light source headlamp.

さらには、LED光源灯体は複数の投光器から構成されておりそれらは個々に光軸調整をしなければならず、光軸調整構造が複雑になり、その分従来よりも光軸調整機構のスペースが必要となるため、よりいっそうの設置スペースの小型化と、放熱面積の拡大が必要になるという問題があった。 Furthermore, the LED light source lamp is composed of a plurality of light projectors, which must individually adjust the optical axis, and the optical axis adjustment structure becomes complicated, so that the space of the optical axis adjustment mechanism is more than that of the conventional one. Therefore, there is a problem that it is necessary to further reduce the installation space and expand the heat radiation area.

また、光軸調整機構は、可動させる、投光ユニットや反射鏡の荷重を支えているが、車輌の走行時には、振動や、加速度で、数倍の荷重を支える事となる。その場合、光軸調整機構を支えるハウジング部についても相応の強度が必要で、従来の樹脂のハウジングの場合は、補強リブや、厚肉化により強度を確保していた。しかし、その場合はハウジング部を省スペースする事が出来ない問題があった。 In addition, the optical axis adjustment mechanism supports the load of the light projecting unit and the reflecting mirror that are movable. However, when the vehicle is traveling, the load is supported several times by vibration or acceleration. In this case, the housing portion that supports the optical axis adjustment mechanism also needs to have an appropriate strength. In the case of a conventional resin housing, the strength is ensured by reinforcing ribs or thickening. However, in this case, there is a problem that the housing cannot be saved.

本発明は、以上の問題に鑑みなされたものであり、本発明は、ヒートシンクを設けたLED光源車両用灯具において、作業者が光軸調整を容易に行なえるように、省スペースで簡易な構成で実現する光軸調整機構付車両用灯具を提供することをその目的とする。   The present invention has been made in view of the above problems, and the present invention is an LED light source vehicle lamp provided with a heat sink, in which a space-saving and simple configuration is provided so that an operator can easily adjust the optical axis. An object of the present invention is to provide a vehicular lamp with an optical axis adjustment mechanism realized in the above.

上記目的を達成するために、本発明は以下の手段とした。
すなわち、請求項1記載の発明は、 開口部を有するハウジングと、ハウジング開口部を覆う透光性の前面カバーと、投光ユニットとを有し、半導体光源を用いた投光ユニットもしくは投光ユニットの反射鏡の照射方向を調整可能な光軸調整手段とを備えた車両用灯具であって、前記車両用灯具の背面には、前記半導体光源と熱的に結合し、背面方向に突出する放熱フィンを設けたヒートシンク部材が露出しており、前記光軸調整手段は、ヒートシンク背面に冠歯車を設けた調整部を設けており、前記ヒートシンク部材の一部に前記冠歯車を回転する為の工具ガイド部が設けられている、ことを特徴とする車両用灯具を提供することで上記目的を達成するものである。
請求項2記載の発明は、ヒートシンク部に設ける冠歯車の中心位置は、
ヒートシンク部の隣り合う放熱フィンの中間位置に設ける事ことにより工具ガイド部とする事を特徴とする請求項1に記載の車両用灯具、を提供することで上記目的を達成するものである。
In order to achieve the above object, the present invention has the following means.
That is, the invention described in claim 1 includes a housing having an opening, a translucent front cover that covers the housing opening, and a light projecting unit, and a light projecting unit or a light projecting unit using a semiconductor light source The vehicle lamp includes an optical axis adjusting means capable of adjusting the irradiation direction of the reflecting mirror, and the rear surface of the vehicle lamp is thermally coupled to the semiconductor light source and protrudes in the rear direction. A heat sink member provided with fins is exposed, the optical axis adjusting means is provided with an adjusting portion provided with a crown gear on the back surface of the heat sink, and a tool for rotating the crown gear on a part of the heat sink member The object is achieved by providing a vehicular lamp characterized in that a guide portion is provided.
In the invention according to claim 2, the center position of the crown gear provided in the heat sink part is
The above object is achieved by providing the vehicular lamp according to claim 1, wherein the vehicular lamp is provided at an intermediate position between adjacent heat dissipating fins of the heat sink portion.

灯具の光軸調整においてヒートシンクに反射鏡の照射方向を調整する冠歯車を設けたことにより、調整時には、ヒートシンクの放熱フィンに沿って工具を挿入すると、冠歯車と工具が係合され作業者による光軸調整作業が容易にできる。また、ヒートシンクと工具を挿入するガイドを兼用する事により、放熱効果を阻害することなく灯体のコンパクトな傾動機構とする事ができる。これにより、光源で発生する熱を速やかに灯体外に排出すると共に特別に工具用のガイドを設ける事なく、容易に調整作業が行なえる小型の車両用灯具を得ることが可能となる。   In the adjustment of the optical axis of the lamp, a crown gear for adjusting the irradiation direction of the reflecting mirror is provided on the heat sink, and at the time of adjustment, when the tool is inserted along the heat sink fin of the heat sink, the crown gear and the tool are engaged, and the operator Optical axis adjustment work can be done easily. Further, by combining the heat sink and the guide for inserting the tool, it is possible to provide a compact tilting mechanism of the lamp body without hindering the heat dissipation effect. As a result, it is possible to obtain a small vehicle lamp that can be easily adjusted without exhausting heat generated by the light source to the outside of the lamp body and without providing a special tool guide.

請求項2記載の発明によれば、光軸調整作業時に工具と冠歯車の位置関係を確実な物とし、調整時の工具と冠歯車の破損、及び偏磨耗を防ぐ事が出来、より確実な、光軸調整作業が可能となる。
また、ヒートシンクを金属材料を用いれば、従来の様に樹脂部のハウジングに光軸調整機構を設けるのとは違い、前記冠歯車の軸受けが剛性のある金属にて構成されている為に従来の様に樹脂のハウジングに強度を持たせるための、補強リブの設定や厚肉化をしなくとも、格段に剛性があり歪む事が無いので、灯体をコンパクトに構成できる。
According to the second aspect of the present invention, the positional relationship between the tool and the crown gear is ensured during the optical axis adjustment work, and the damage and uneven wear of the tool and the crown gear during the adjustment can be prevented. The optical axis adjustment work becomes possible.
Also, if a metal material is used for the heat sink, unlike the conventional case where the optical axis adjusting mechanism is provided in the housing of the resin portion, the bearing of the crown gear is made of a rigid metal, so that the conventional heat sink is used. In this way, the lamp body can be made compact because it is extremely rigid and not distorted without setting reinforcing ribs or increasing the thickness of the resin housing.

以下、本発明の実施形態を図面に基づいて説明する。なお、上述した背景技術にて説明した構成と同じ構成については同一の符号を付し、その説明の一部を省略する。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, the same code | symbol is attached | subjected about the same structure as the structure demonstrated by the background art mentioned above, and a part of the description is abbreviate | omitted.

図1は、本発明の第一の実施の形態にかかる車両用灯具を正面方向(灯具の照射方向に正対する方向)から見た図である。車両用灯具30は、前方(灯具の照射方向に正対する方向)に開口したハウジング31と、開口部を覆う素通しのアウターレンズカバー32とからなり、ハウジング31内には、図面左側に投光ユニット20が、図面右側には投光ユニット25が収納されている。   FIG. 1 is a view of the vehicular lamp according to the first embodiment of the present invention as seen from the front direction (direction facing the irradiation direction of the lamp). The vehicular lamp 30 includes a housing 31 that opens forward (a direction that is directly opposite to the irradiation direction of the lamp) and a transparent outer lens cover 32 that covers the opening. 20 is housed on the right side of the drawing.

図面右側の投光ユニット25は、プロジェクタ型とされた複数の投光器5、詳しくは上段に2個の投光部と下段の2個の投光部からなる。各々の投光部は異なる配光形状をなし、各々の投光器5からの投射光の重ね合わせで、所定の明るさと、所定の形状とした配光特性が得られるものとされ、背景技術と同様の構成である。すなわち、ハウジング31の背面側にはベース板3を備えたマウントブラケット2dが取り付けられ、前記マウントブラケット2d上に、ベース板3、投光器5のLEDランプ5a、反射鏡5b、投影レンズ5c、シャッタ5dなどが所定の位置関係となるように取り付けられている。また、ベース板3の背面には、ヒートシンク6(放熱板)が設けられ、LEDランプ5aに過剰な温度上昇を生じることがないようにされている。さらに、マウントブラケット2dは、一般の前照灯の反射鏡と同様にボールジョイント7a、対角線上に位置している2本のアジャストスクリュー7bなどによる、いわゆる光軸調整機構7が設けられている(図8参照)。   The light projecting unit 25 on the right side of the drawing includes a plurality of projectors 5 of a projector type, specifically, two light projecting units on the upper stage and two light projecting units on the lower stage. Each light projecting portion has a different light distribution shape, and by superimposing the projection light from each light projector 5, a predetermined brightness and a light distribution characteristic having a predetermined shape can be obtained. It is the composition. That is, a mounting bracket 2d having a base plate 3 is attached to the back side of the housing 31, and the base plate 3, the LED lamp 5a of the projector 5, the reflecting mirror 5b, the projection lens 5c, and the shutter 5d are mounted on the mounting bracket 2d. Etc. are attached so as to have a predetermined positional relationship. Further, a heat sink 6 (heat radiating plate) is provided on the back surface of the base plate 3 so that an excessive temperature rise does not occur in the LED lamp 5a. Further, the mount bracket 2d is provided with a so-called optical axis adjusting mechanism 7 using a ball joint 7a, two adjusting screws 7b positioned on a diagonal line, and the like in the same manner as a general headlight reflector (see FIG. (See FIG. 8).

図2から図4は投光ユニット20を示す。図2が投光ユニット20の斜視図、図3が縦方向、すなわち、図4(b)におけるB−B線に沿った断面図であり、上下光軸調整用アジャストスクリュー16を含んだ断面図である。図4が投光ユニット裏面を説明する図である。
図面左側の投光ユニット20は、図2および図3に示すように反射タイプの複数の投光器10、10からなり、鉛直方向に設けたベース板17と、ベース板17の前方に突出し、水平方向に固定された水平板12と、水平板12の下面に取り付けられたLED光源11と、水平版12の上面に設けられた放熱フィン18と、水平板12の下側に延びた反射鏡13を備える。また、ベース板17の背面には図5に示す放熱フィン19が設けられており、車両用灯具30のハウジング31の背面側に露出するようにして取り付けられている。LED光源11は点灯すると、LED光源11から照射された光の殆どが反射鏡13に向かって進み、反射鏡13にて灯具前方に反射されて所定の配光を形成するようにされている。なお、反射鏡13には、LED光源11を焦点位置とした複数の放物面系反射面からなる複合反射面が設けられている。
2 to 4 show the light projecting unit 20. 2 is a perspective view of the light projecting unit 20, FIG. 3 is a longitudinal view, that is, a sectional view taken along line BB in FIG. 4B, and a sectional view including the adjustment screw 16 for adjusting the vertical optical axis. It is. FIG. 4 is a diagram illustrating the rear surface of the light projecting unit.
As shown in FIGS. 2 and 3, the light projecting unit 20 on the left side of the drawing is composed of a plurality of reflection type light projectors 10 and 10. The base plate 17 is provided in the vertical direction, protrudes in front of the base plate 17, and extends in the horizontal direction. A horizontal plate 12 fixed to the LED plate 11, an LED light source 11 attached to the lower surface of the horizontal plate 12, radiating fins 18 provided on the upper surface of the horizontal plate 12, and a reflecting mirror 13 extending below the horizontal plate 12. Prepare. 5 is provided on the back surface of the base plate 17, and is attached so as to be exposed on the back surface side of the housing 31 of the vehicular lamp 30. As shown in FIG. When the LED light source 11 is turned on, most of the light emitted from the LED light source 11 travels toward the reflecting mirror 13 and is reflected by the reflecting mirror 13 in front of the lamp to form a predetermined light distribution. The reflecting mirror 13 is provided with a composite reflecting surface composed of a plurality of parabolic reflecting surfaces with the LED light source 11 as a focal position.

また、本実施形態において投光ユニット20は、図4および図5に示すように車両用灯具30の背面側に放熱フィンが露出するように放熱フィン19を設けている。図4(a)は投光ユニット20の後方斜めより見た状態を示し、図4(b)は投光ユニット20を後方から観察した状態を示す背面図である。図5は車両用灯具30の断面をあらわす、その断面は、図4(b)においてC―C線に沿った断面図であり、左右光軸調整用アジャストスクリュー22を含んだ断面である。放熱フィン19の中には、上下光軸調整用アジャストスクリュー16、左右光軸調整用アジャストスクリュー22が配設され、工具31を放熱フィンの間に差込んで調整する。   Moreover, in this embodiment, the light projection unit 20 is provided with the radiation fin 19 so that a radiation fin may be exposed to the back side of the vehicle lamp 30, as shown in FIG. 4 and FIG. 4A is a rear view of the light projecting unit 20 as viewed obliquely from the rear, and FIG. 4B is a rear view of the light projecting unit 20 observed from the rear. FIG. 5 shows a cross section of the vehicular lamp 30. The cross section is a cross section taken along the line CC in FIG. 4B, and is a cross section including the adjustment screw 22 for adjusting the left and right optical axes. In the radiating fin 19, an adjustment screw 16 for adjusting the vertical optical axis and an adjusting screw 22 for adjusting the left and right optical axis are arranged, and a tool 31 is inserted between the radiating fins for adjustment.

なお、反射鏡13の側面、下面及び上面には反射鏡と同じ蒸着処理を施した図示しない側面エクステンション25および図示しない下面エクステンション26が設けられ、上面には図示しない上面エクステンション27を備えて水平板12やLED光源11や反射鏡13とハウジング31の隙間を隠している。   The side surface, the lower surface and the upper surface of the reflecting mirror 13 are provided with a side extension 25 (not shown) and a lower surface extension 26 (not shown) which have been subjected to the same vapor deposition process as the reflecting mirror, and a horizontal plate having an upper surface extension 27 (not shown) on the upper surface. 12, the gap between the LED light source 11, the reflecting mirror 13, and the housing 31 is hidden.

投光ユニット20はベース板17とハウジング31にて固定されている。ベース板17にはボールジョイント7aが設けられており、ボールジョイント7aを介して反射鏡13が取り付けられており反射鏡13の傾動を調整する際の支点となる。   The light projecting unit 20 is fixed by a base plate 17 and a housing 31. The base plate 17 is provided with a ball joint 7a, and a reflecting mirror 13 is attached via the ball joint 7a and serves as a fulcrum when adjusting the tilt of the reflecting mirror 13.

左右方向の調整のためにボールジョイント7aから離間したほぼ水平方向に反射鏡13の傾動を調整する左右光軸調整用アジャストスクリュー22が設けられている。左右光軸調整用アジャストスクリュー22の一端には冠歯車22aが取り付けられると共に、ベース板17に回転自在に取り付けられ、固定ワッシャー22cにてベース板17から抜けないように固定されている。また、反射鏡13には光軸調整ナット21bが取り付けられており、左右光軸調整用アジャストスクリュー22と螺合しており反射鏡13の左右方向の傾きを調整可能としている。   A left / right optical axis adjusting screw 22 for adjusting the tilt of the reflecting mirror 13 in a substantially horizontal direction spaced apart from the ball joint 7a for adjusting in the left / right direction is provided. A crown gear 22a is attached to one end of the adjustment screw 22 for adjusting the left and right optical axes, and is rotatably attached to the base plate 17, and is fixed by a fixed washer 22c so as not to come off the base plate 17. Further, an optical axis adjusting nut 21b is attached to the reflecting mirror 13, and is screwed with the left and right optical axis adjusting screw 22 so that the tilt of the reflecting mirror 13 in the left-right direction can be adjusted.

また、上下方向の傾きに関しては、図3に示すようにボールジョイント7aから離間したほぼ垂直方向に反射鏡13の傾動を調整する上下光軸調整用アジャストスクリュー16が設けられている。その上下光軸調整用アジャストスクリュー16の一端には冠歯車16aが固定されている。左右光軸調整用アジャストスクリュー16は、ベース板17に回転自在に取り付けられ、固定ワッシャー16cにてベース板17から抜けないように固定されている。反射鏡13には光軸調整ナット16bが取り付けられており、上下光軸調整用アジャストスクリュー16と螺合しており反射鏡13の上下方向の傾きを調整可能としている。
また、ベース板17、水平板12、放熱フィン19はLED光源11から発せられた熱を効率よく伝熱するために良導体が良く、アジャストスクリューの荷重を支える為に強い材料を使うことが好適であり、例えばアルミニウム合金等を用いることができる。
Further, as shown in FIG. 3, a vertical optical axis adjusting screw 16 for adjusting the tilt of the reflecting mirror 13 in a substantially vertical direction separated from the ball joint 7a is provided for the vertical tilt. A crown gear 16 a is fixed to one end of the vertical optical axis adjusting screw 16. The left and right optical axis adjusting screw 16 is rotatably attached to the base plate 17 and is fixed by a fixed washer 16c so as not to come off the base plate 17. An optical axis adjusting nut 16b is attached to the reflecting mirror 13, and is screwed into the vertical optical axis adjusting screw 16 so that the vertical tilt of the reflecting mirror 13 can be adjusted.
Further, the base plate 17, the horizontal plate 12, and the heat radiating fins 19 are good conductors in order to efficiently transfer the heat generated from the LED light source 11, and it is preferable to use a strong material to support the load of the adjusting screw. For example, an aluminum alloy or the like can be used.

投光ユニット20の光軸を調整するには、次のように実施する。調整手段の左右光軸調整用アジャストスクリュー22(冠歯車22a)を回転すると、反射鏡13に固定されているナット22bに左右光軸調整用アジャストスクリュー22が螺合し、反射鏡13がボールジョイント7aを支点として前後方向に移動する。これにより、反射鏡13の照射方向を左右に調整することができる。
また、上下光軸調整用アジャストスクリュー16をA2方向に回転すると光軸調整ナット16bに上下光軸調整用アジャストスクリュー16のねじが螺合し、反射鏡13がボールジョイント7aを支点として傾動する。反射鏡13の傾動によりLED光源11から照射された光線は、例えば図6の配光パターンPの上端がH線からL線の位置に移動し調整することができる。
The adjustment of the optical axis of the light projecting unit 20 is performed as follows. When the adjusting screw 22 (crown gear 22a) for adjusting the left / right optical axis of the adjusting means is rotated, the adjusting screw 22 for adjusting the left / right optical axis is screwed into the nut 22b fixed to the reflecting mirror 13, and the reflecting mirror 13 is connected to the ball joint. It moves in the front-rear direction with 7a as a fulcrum. Thereby, the irradiation direction of the reflecting mirror 13 can be adjusted to right and left.
When the vertical optical axis adjustment screw 16 is rotated in the A2 direction, the screw of the vertical optical axis adjustment screw 16 is screwed into the optical axis adjustment nut 16b, and the reflecting mirror 13 tilts with the ball joint 7a as a fulcrum. The light beam emitted from the LED light source 11 by the tilt of the reflecting mirror 13 can be adjusted, for example, by moving the upper end of the light distribution pattern P in FIG. 6 from the H line to the L line position.

以上の様に、光軸調整は、ドライバー等の工具を用いて車体に取り付けた状態で行なう。その際に、図3等に示すようにアジャストスクリューに設けた冠歯車16a、22aを回転しなければならないが、その際、放熱フィン19に沿って工具を挿入する。放熱フィン19は背面に突出する多数の板を有しており、図4に示すように工具31の挿入をガイドする役目も担う。ゆえに、ガイドを備えているので、作業者による光軸調整作業を容易にすることが可能となります。   As described above, the optical axis adjustment is performed in a state of being attached to the vehicle body using a tool such as a screwdriver. At that time, as shown in FIG. 3 and the like, the crown gears 16 a and 22 a provided on the adjustment screw must be rotated. At this time, a tool is inserted along the radiation fin 19. The heat dissipating fins 19 have a large number of plates protruding on the back surface, and also serve to guide the insertion of the tool 31 as shown in FIG. Therefore, since the guide is provided, the operator can easily adjust the optical axis.

本実施の形態は上下、左右方向の光軸調整を可能とする構造であるが、場合によっては、上下だけの光軸調整で事足りる場合もある。その場合には左右の光軸調整機構は不要となると共に、ボールジョイント部を回転軸を持つ支点に置き換える。   Although the present embodiment has a structure that enables adjustment of the optical axis in the vertical and horizontal directions, in some cases, adjustment of the optical axis only in the vertical direction may be sufficient. In this case, the left and right optical axis adjustment mechanisms are not necessary, and the ball joint portion is replaced with a fulcrum having a rotation axis.

「背景技術」にて説明したように、LED光源11が点灯すると自己発熱し、その自己発熱によってLED自体の温度が上昇することになり、LEDの発光効率が低下する。これに起因してLED光源車両用灯具の照射光量が低減することになる。そこで、LED光源点灯時の温度上昇を抑制する手段として水平板12の上面側およびベース板17の背面側に放熱フィン18,19が設けられている。放熱フィン18および19は熱の良導体である材料で形成されていると共に、互いに所定間隔をおいて平行に配置された複数の放熱フィンを備えている。アルミニウム2およびベース板17は、各々の放熱フィン18、19と一体に同一材料、例えばアルミニウム合金からなる金属により作成される。   As described in “Background Art”, when the LED light source 11 is turned on, the LED light source 11 is self-heated, and the temperature of the LED itself is increased by the self-heat generation, and the light emission efficiency of the LED is lowered. As a result, the amount of light emitted from the LED light source vehicle lamp is reduced. Therefore, heat radiation fins 18 and 19 are provided on the upper surface side of the horizontal plate 12 and the rear surface side of the base plate 17 as means for suppressing a temperature rise when the LED light source is turned on. The radiating fins 18 and 19 are made of a material that is a good conductor of heat, and are provided with a plurality of radiating fins arranged parallel to each other at a predetermined interval. The aluminum 2 and the base plate 17 are made of the same material, for example, a metal made of an aluminum alloy, integrally with the heat radiating fins 18 and 19.

以上のような構成により、LED光源11で発生した熱は、水平板12の放熱フィン18により一部が投光ユニット20の上方に向けて放熱される。投光ユニット20は車両用灯具30内に収納されているので灯具内部を暖める。これにより、例えばカバー4に付着した雪を融雪することができる。   With the above configuration, a part of the heat generated by the LED light source 11 is radiated toward the upper side of the light projecting unit 20 by the radiation fins 18 of the horizontal plate 12. Since the light projecting unit 20 is housed in the vehicular lamp 30, the interior of the lamp is warmed. Thereby, for example, snow attached to the cover 4 can be melted.

また、LED光源11で発生した熱の他の一部は、水平板12を通してベース板17に到達する。ベース板17に到達した熱は放熱フィン19により投光ユニット20の背面、すなわち車両用灯具30の背面から放熱フィン近傍の車体中の空気に熱伝達されて移動し、空気を媒体として大気中に放散される。各投光器10のベース板17は、図4に示すように投光ユニット20、換言すれば車両用灯具30の背面を構成する。よって、車両用灯具の外部に熱を放散することができる。   Further, another part of the heat generated by the LED light source 11 reaches the base plate 17 through the horizontal plate 12. The heat reaching the base plate 17 is transferred by the heat radiation fins 19 from the back surface of the light projecting unit 20, that is, from the back surface of the vehicle lamp 30, to the air in the vehicle body near the heat radiation fins. Dissipated. As shown in FIG. 4, the base plate 17 of each projector 10 constitutes the rear surface of the projector unit 20, in other words, the vehicular lamp 30. Therefore, heat can be dissipated outside the vehicular lamp.

尚、本発明の車両用灯具は、上記した実施の形態に限定されるものではなく、例えば、放熱フィン19のガイド部となる位置においては、鉛直方向でなく斜め方向に設けるもの等も、本発明に含まれる。また、ボールジョイントを用いない支点構造に変更する等の本発明の要旨を逸脱しない範囲内において種々変更を加え得ることは勿論である。   Note that the vehicular lamp of the present invention is not limited to the above-described embodiment, and for example, a lamp provided in an oblique direction instead of a vertical direction at a position serving as a guide portion of the radiating fin 19 may be used. Included in the invention. Of course, various modifications can be made without departing from the gist of the present invention, such as changing to a fulcrum structure without using a ball joint.

本発明の第一の実施の形態にかかる車両用灯具を正面方向(灯具の照射方向に正対する方向)から見た図である。It is the figure which looked at the vehicle lamp concerning 1st embodiment of this invention from the front direction (direction facing the irradiation direction of a lamp). 本発明の第一の実施の形態にかかる灯光ユニット20を正面斜めから見た図である。It is the figure which looked at the lamp unit 20 concerning 1st embodiment of this invention from front diagonally. 本発明の第一の実施の形態にかかる灯光ユニット20の図4(b)のB−B断面図である。It is BB sectional drawing of FIG.4 (b) of the lamp unit 20 concerning 1st embodiment of this invention. (a)本発明の第一の実施の形態にかかる灯光ユニット20の後方斜めよりヒートシンク部を見た図 (b)本発明の第一の実施の形態にかかる灯光ユニット20の後方よりヒートシンク部を見た図(A) The figure which looked at the heat sink part from the back diagonal of the lamp unit 20 concerning 1st embodiment of this invention (b) The heat sink part from the back of the lamp unit 20 concerning 1st embodiment of this invention Viewed 本発明の第一の実施の形態にかかる灯光ユニット20の図5(b)のC−Cの断面図である。It is CC sectional drawing of FIG.5 (b) of the lamp unit 20 concerning 1st embodiment of this invention. 本発明の第一の実施の形態にかかる灯光ユニット20より照射されるスクリーンに投影された配光パターンThe light distribution pattern projected on the screen irradiated from the lamp unit 20 according to the first embodiment of the present invention 従来の車両用灯具を正面から見た図であるIt is the figure which looked at the conventional vehicle lamp from the front. LED光源を用いたプロジェクター型の投光器の一例を示す断面図である。It is sectional drawing which shows an example of the projector type projector using an LED light source.

符号の説明Explanation of symbols

1 LED光源前照灯
2 ハウジング
3 ベース板
4 カバー
5 投光器
6 ヒートシンク
7 光軸調整機構
10 投光器
11 LED光源
12 水平板
13 反射鏡
16 上下光軸調整用アジャストスクリュー
17 ベース板
18,19 放熱フィン
20,25 投光ユニット
22 左右光軸調整用アジャストスクリュー
30 車両用灯具
31 ハウジング
32 アウターレンズカバー
DESCRIPTION OF SYMBOLS 1 LED light source headlamp 2 Housing 3 Base plate 4 Cover 5 Light projector 6 Heat sink 7 Optical axis adjustment mechanism 10 Light projector 11 LED light source 12 Horizontal plate 13 Reflecting mirror 16 Vertical screw adjustment screw 17 Base plates 18 and 19 Radiation fin 20 , 25 Projecting unit 22 Adjusting screw 30 for adjusting the left and right optical axis Vehicle lamp 31 Housing 32 Outer lens cover

Claims (2)

開口部を有するハウジングと、ハウジング開口部を覆う透光性の前面カバーと、投光ユニットとを有し、半導体光源を用いた投光ユニットもしくは投光ユニットの反射鏡の照射方向を調整可能な光軸調整手段とを備えた車両用灯具であって、
前記車両用灯具の背面には、前記半導体光源と熱的に結合し、背面方向に突出する放熱フィンを設けたヒートシンク部材が露出しており、
前記光軸調整手段は、ヒートシンク背面に冠歯車を設けた調整部を設けており、前記ヒートシンク部材の一部に前記冠歯車を回転する為の工具ガイド部が設けられている、ことを特徴とする車両用灯具。
A housing having an opening, a translucent front cover covering the housing opening, and a light projecting unit, and the irradiation direction of the light projecting unit using the semiconductor light source or the reflecting mirror of the light projecting unit can be adjusted A vehicular lamp including an optical axis adjusting means,
On the back of the vehicular lamp, a heat sink member that is thermally coupled to the semiconductor light source and provided with heat radiation fins protruding in the back direction is exposed,
The optical axis adjusting means is provided with an adjusting portion provided with a crown gear on the back surface of the heat sink, and a tool guide portion for rotating the crown gear is provided on a part of the heat sink member. Vehicle lamp.
ヒートシンク部に設ける冠歯車の中心位置は、
ヒートシンク部の隣り合う放熱フィンの中間位置に設ける事ことにより工具ガイド部とする事を特徴とする請求項1に記載の車両用灯具。
The center position of the crown gear provided in the heat sink is
The vehicular lamp according to claim 1, wherein the vehicular lamp is provided as a tool guide portion by being provided at an intermediate position between adjacent heat dissipating fins of the heat sink portion.
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CN104428584B (en) * 2012-07-13 2017-03-08 黑拉许克联合股份有限公司 The modular assembly with deflectable semiconductor module for headlamp
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JP2014132546A (en) * 2012-12-04 2014-07-17 Koito Mfg Co Ltd Lighting device for vehicle
JP2014157710A (en) * 2013-02-15 2014-08-28 Koito Mfg Co Ltd Vehicle lighting device
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WO2015025945A1 (en) * 2013-08-23 2015-02-26 株式会社小糸製作所 Lamp device for vehicle and lighting device for vehicle
US10434928B2 (en) 2013-08-23 2019-10-08 Koito Manufacturing Co., Ltd. Lamp device for vehicle and lighting device for vehicle
JP2016091976A (en) * 2014-11-11 2016-05-23 株式会社小糸製作所 Vehicle lamp fitting
JP2018519640A (en) * 2015-06-30 2018-07-19 ツェットカーヴェー グループ ゲーエムベーハー Illumination device for automatic vehicle floodlight
CN107013861A (en) * 2015-11-30 2017-08-04 株式会社小糸制作所 Lamps apparatus for vehicle
WO2019076914A1 (en) * 2017-10-17 2019-04-25 Automotive Lighting Reutlingen Gmbh Adjustable reflector assembly, and method for adjusting a reflector assembly
WO2019141576A1 (en) * 2018-01-16 2019-07-25 Automotive Lighting Reutlingen Gmbh Motor vehicle headlamp and adjustment system for a luminaire component of the motor vehicle headlamp
DE102019219243A1 (en) * 2019-12-10 2021-06-10 Psa Automobiles Sa Motor vehicle headlight assembly and motor vehicle
WO2024084015A1 (en) * 2022-10-20 2024-04-25 Valeo Vision Aiming system for a vehicle lamp
FR3145966A1 (en) * 2023-02-22 2024-08-23 Psa Automobiles Sa Ergonomically adjustable automotive vehicle projector

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