JP3402855B2 - Lighting device for photographing and camera having the lighting device for photographing - Google Patents
Lighting device for photographing and camera having the lighting device for photographingInfo
- Publication number
- JP3402855B2 JP3402855B2 JP16155695A JP16155695A JP3402855B2 JP 3402855 B2 JP3402855 B2 JP 3402855B2 JP 16155695 A JP16155695 A JP 16155695A JP 16155695 A JP16155695 A JP 16155695A JP 3402855 B2 JP3402855 B2 JP 3402855B2
- Authority
- JP
- Japan
- Prior art keywords
- light
- flash
- light emitting
- optical axis
- camera
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Description
【0001】[0001]
【産業上の利用分野】 本発明は、撮影時に光源からの
射出光を効率よく制御する写真撮影用照明装置及び該写
真撮影用照明装置を備えたカメラに関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting device for photography that efficiently controls light emitted from a light source during photography, and the image capturing device .
The present invention relates to a camera equipped with a true photographing illumination device .
【0002】[0002]
【従来の技術】従来、この種の照明装置は特開平1−9
433号公報に記載されているように、撮影光学系前面
を覆う蓋を回動、持ち上げた状態で、内蔵閃光装置から
の光を蓋内面で反射させて被写体に投光するように構成
されている。また、閃光撮影時の赤目防止の公知例とし
ては、実開昭56−23926号公報に記載されている
ように撮影レンズのカバーに閃光発光器を内蔵し、カメ
ラの回転機構で該カバーを回動することにより、閃光発
光器の発光部をカメラのレンズ光軸と離して設定できる
ものがある。2. Description of the Related Art Conventionally, a lighting device of this type has been disclosed in Japanese Patent Laid-Open No. 1-9.
As described in Japanese Patent No. 433, the lid for covering the front surface of the photographing optical system is rotated and lifted, and the light from the built-in flash device is reflected on the inner surface of the lid to project the light on a subject. There is. Further, as a known example of preventing red eye during flash photography, as described in Japanese Utility Model Application Laid-Open No. 56-23926, a flash illuminator is built in a cover of a photographing lens, and the cover is rotated by a rotating mechanism of a camera. In some cases, the light emitting portion of the flash light emitter can be set apart from the optical axis of the lens of the camera by moving.
【0003】[0003]
【発明が解決しようとする課題】ところが、前述従来例
では内蔵閃光発光装置からの光を蓋内面に設けた反射板
で方向転換を行う構成であったため、以下のような欠点
があった。
(1)内蔵閃光装置からの光を漏れなく集光させようと
すると、反射板が極めて大型化してしまう。または厚み
が厚くなってしまい、実際に実施することは困難であ
る。このため、製品化する場合には閃光発光管からの光
の一部は必要照射角外に捨ててしまっていた。特に閃光
発光管の長手方向の光束はほとんど制御できなかった。However, in the above-mentioned conventional example, since the light from the built-in flash light emitting device is configured to change the direction by the reflecting plate provided on the inner surface of the lid, there are the following drawbacks. (1) If an attempt is made to collect light from the built-in flash device without leaking, the reflector will become extremely large. Alternatively, the thickness becomes thicker, which is difficult to actually carry out. Therefore, when commercialized, a part of the light from the flash tube was thrown out of the required irradiation angle. Especially, the luminous flux in the longitudinal direction of the flash arc tube could hardly be controlled.
【0004】(2)基本的にすべての光束を反射板で反
射させて方向変換しているため、反射率分、光量が低下
してしまう。そして、赤目に関してはカメラに近い部分
で反射した成分が存在するため、効果が不十分である。(2) Basically, all the light beams are reflected by the reflecting plate to change the direction, so that the light amount is reduced by the reflectance. As for the red eye, the effect is insufficient because there is a component reflected at a portion close to the camera.
【0005】(3)特に、前述後者の従来例では閃光発
光器がカバーの先端にあるため、高圧のリード線を引き
回す実装形態となり、回転機構が複雑かつ大型化し、組
立が困難となり、コストアップするだけでなく、感電の
危険性があり、また、リード線が長くなることによる抵
抗増加分で電気的エネルギーも損失し、光量が減少する
などの問題点があった。(3) In particular, in the latter conventional example described above, since the flashlight emitter is located at the tip of the cover, the mounting form is such that high-voltage lead wires are laid out, the rotating mechanism becomes complicated and large, assembly becomes difficult, and the cost increases. In addition, there is a risk of electric shock, and there is a problem that electrical energy is lost due to an increase in resistance due to the lengthening of the lead wire and the amount of light decreases.
【0006】請求項1ないし3に示す本発明は、前述従
来例の欠点を除去し、光源からの射出光を効率よく集光
させるとともに発光面を薄型の面光源化することを可能
にした写真撮影用照明装置を提供することを目的とす
る。The present invention as set forth in claims 1 to 3 eliminates the above-mentioned drawbacks of the prior art, efficiently collects the light emitted from the light source, and makes it possible to make the light emitting surface a thin surface light source. An object is to provide a lighting device for photographing.
【0007】 同じく、請求項4及び5に示す本発明は
発光部の高効率化、面発光化、薄型化に加え、閃光発光
部内蔵カメラの場合に赤目現象のために閃光発光部を撮
影光軸に対して離すことで生ずる種々の問題点を回避で
きる写真撮影用照明装置を有するカメラを提供すること
を目的とする。According to the present invention as set forth in claims 4 and 5, in addition to high efficiency, surface emission, and thinning of the light emitting portion, in the case of a camera with a built-in flash light emitting portion, the flash light emitting portion is used for shooting light. An object of the present invention is to provide a camera having a lighting device for photography that can avoid various problems caused by being separated from the axis.
【0008】[0008]
【課題を解決するための手段】 前述の目的を達成する
ために、請求項1に示す本発明の写真撮影用照明装置は
閃光発光管と該閃光発光管の発光方向を規制する反射笠
とを有し、該反射笠によって反射された光の光軸が垂直
方向よりやや前傾させた状態で光を射出させるように配
置される閃光発光部と、該光軸の傾きよりも傾斜が少な
い状態で配置され、少なくとも閃光発光管側に配置され
た複数のプリズムに入射した光を各々のプリズム面によ
り全反射させるとともに、撮影光軸と平行に光を射出さ
せる光学パネルと、該閃光発光部と該光学パネル以外の
開口部を覆うように構成した反射板とから構成されるも
のである。また、請求項2に示す本発明は該光学パネル
には、更に、前記反射笠寄りの被写体側にフレネルプリ
ズム面を有し、該フレネルプリズム面は該反射笠によっ
て反射されない前記閃光発光管からの直接光を撮影レン
ズの光軸と平行に曲げるものである。また、請求項3に
示す本発明は該反射笠は、少なくともその一部の形状が
該閃光発光管の中心位置をほぼ焦点位置とする放物面で
構成されているものである。 In order to achieve the above-mentioned object, the illuminating device for photography according to the present invention as defined in claim 1 is provided with a flash arc tube and a reflecting shade for controlling a light emitting direction of the flash arc tube.
And the optical axis of the light reflected by the reflector is vertical
It is arranged so that the light is emitted while tilted slightly forward from the direction.
The flash light emitting part to be placed and the inclination of the optical axis are less than the inclination of the optical axis.
Placed at least on the flash tube side.
Light incident on multiple prisms is reflected by each prism surface.
Light is emitted in parallel with the shooting optical axis.
Optical panel, and the flash light emitting section and other than the optical panel
And a reflection plate configured to cover the opening . The present invention according to claim 2 provides the optical panel.
On the subject side closer to the reflective shade,
The Fresnel prism surface by the reflection shade.
The direct light from the flash arc tube that is not reflected by
It is bent in parallel with the optical axis of Z. Further, in the present invention as set forth in claim 3 , at least part of the shape of the reflection shade is
With a parabolic surface with the center of the flash tube as the focal point
It is configured.
【0009】 同じく、請求項4に示す本発明のカメラ
は閃光発光管と該閃光発光管の発光方向を規制する反射
笠からなる閃光発光部をカメラ本体に内蔵し、該反射笠
によって反射された光の光軸が垂直方向よりやや前傾さ
せた状態で光を射出させるように配置される閃光発光部
と、該光軸の傾きよりも傾斜が少ない状態で配置され、
少なくとも閃光発光管側に配置された複数のプリズムに
入射した光を各々のプリズム面により全反射させるとと
もに、撮影光軸と平行に光を射出させる光学パネルと、
該閃光発光部と該光学パネル以外の開口部を覆うように
構成した反射板とから構成される写真撮影用照明装置を
備えたものである。また、請求項5に示す本発明は該閃
光発光部の前面に配置した該反射板は回動可能に支持さ
れ、カメラ携帯時には収納可能であり、裏面を利用して
カメラ保護部材とするものである。Similarly, in the camera of the present invention as defined in claim 4, a flash light emitting portion including a flash light emitting tube and a reflective shade for controlling the light emitting direction of the flash luminous tube is built in the camera body, and the reflective shade is provided.
The optical axis of the light reflected by is tilted slightly forward from the vertical direction
Flash emission unit arranged so that light is emitted in the closed state
And arranged with the inclination less than the inclination of the optical axis,
At least multiple prisms placed on the flash tube side
When the incident light is totally reflected by each prism surface,
An optical panel that emits light parallel to the shooting optical axis,
Cover the openings other than the flash emission section and the optical panel.
It is provided with a lighting device for photography, which is composed of the configured reflection plate . Further, according to the present invention as set forth in claim 5, the reflector disposed on the front surface of the flash light emitting portion is rotatably supported and can be stored when the camera is carried, and the back surface is used as a camera protection member. is there.
【0010】[0010]
【0011】[0011]
【作用】 以上の構成の請求項1及び2に示す本発明に
おいて、各光線は光学パネルの各々の微細なプリズム面
で全反射して所定の角度方向に光の方向が変換されるた
め、光量のロスが極めて少なく、また、各光線を傾斜さ
せた光学パネルで受けているため、最終の光射出面であ
る光学パネルを広い面積で利用でき、結果として面光源
化によるソフトな光源を得ることが可能となり、発光部
全体形状を極めて薄く構成することができる。また、請
求項3に示す本発明は反射笠の少なくとも一部の形状を
放物面とすることにより、閃光発光部での発光による光
量ロスが少なく効率よく集光することができる。 In the present invention according to claims 1 and 2 having the above-described structure, since each light ray is totally reflected by each fine prism surface of the optical panel and the direction of the light is converted to a predetermined angle direction, The optical panel that is the final light exit surface can be used in a large area because the light is received by the tilted optical panel, and as a result, a soft light source can be obtained by making it a surface light source. Therefore, the entire shape of the light emitting portion can be made extremely thin. Further, according to the present invention as set forth in claim 3, at least a part of the shape of the reflection shade is formed.
By using a parabolic surface, the light emitted by the flash emission unit
It is possible to collect light efficiently with little amount loss.
【0012】また、以上の構成の請求項4及び5に示す
本発明は前記の機能のほかに閃光発光部をカメラ本体に
内蔵することで、発光部が鏡筒部から離れるので赤目現
象を防止し、光学パネル及び光方向変換部材は収納状態
ではレンズバリアとしてコンパクトに収納された状態と
なる。In addition to the above-mentioned functions, the present invention having the above-mentioned structure has a flash light emitting portion built into the camera body, so that the light emitting portion is separated from the lens barrel portion, so that the red eye phenomenon is prevented. However, the optical panel and the light direction changing member are compactly accommodated as a lens barrier in the accommodated state.
【0013】[0013]
【0014】[0014]
【実施例】以下、本発明の第1実施例を図1ないし図1
0に基づいて説明する。図1は本実施例の要部を断面で
示したカメラの使用状態の側面図、図2は同じく収納状
態の側面図、図3はその閃光発光部の分解斜視図、図4
はその閃光発光部の反射笠の断面形状及びその光線トレ
ース図である。図において、1はカメラ本体、2は撮影
レンズ鏡筒部である。3は写真撮影用の補助光源として
の閃光発光管で、該カメラ本体1内の上部に内蔵されて
おり、4は該閃光発光管3から発生した光を集光するた
めに開口縁が直方形をなしほぼ放物面形状の反射笠で、
その断面形状は後端部の反射面4aと後部両側部の反射
面4bと前部放物反射面4cからなる特性の異なる三つ
の2次曲線面で構成されている。該反射面4aは閃光発
光管3のほぼ中央から射出した光束が反射し、再度閃光
発光管3の中を通る際の屈折を考慮して最終的な発光管
(ガラス管)通過後の光束が閃光発光部の光軸方向と平
行に近い成分として射出するように補正された曲面であ
る。また、該反射面4bは閃光発光管3の斜め後方に射
出する成分を制御する部分で、この部分での反射光はガ
ラス管による屈折の影響が大きいので、閃光発光管と同
心状の円筒面とし、反射後の光束を屈折の影響の少ない
中心部に再度戻し、閃光発光管3より前部の反射面4c
で制御するように構成している。該反射面4cは閃光発
光管3の中心位置より前側の部分で、閃光発光管3の中
心位置をほぼ焦点位置とする放物面である。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described below with reference to FIGS.
A description will be given based on 0. FIG. 1 is a side view of a camera in use showing a main part of the present embodiment in cross section, FIG. 2 is a side view of the same in a stored state, FIG. 3 is an exploded perspective view of a flash light emitting part thereof, and FIG.
FIG. 3 is a cross-sectional shape of a reflection shade of the flash light emitting portion and a ray trace diagram thereof. In the figure, 1 is a camera body, and 2 is a taking lens barrel. Reference numeral 3 denotes a flash light emitting tube as an auxiliary light source for photography, which is built in the upper part of the camera body 1, and 4 has a rectangular parallelepiped opening edge for collecting the light generated from the flash light emitting tube 3. With a parabolic reflector,
Its cross-sectional shape is composed of three quadratic curved surfaces having different characteristics, which are a reflecting surface 4a at the rear end portion, reflecting surfaces 4b at both sides of the rear portion, and a front parabolic reflecting surface 4c. The reflection surface 4a reflects a light beam emitted from substantially the center of the flash arc tube 3, and in consideration of refraction when passing through the flash arc tube 3 again, the light beam after the final arc tube (glass tube) has passed is reflected. It is a curved surface that is corrected so as to be emitted as a component that is nearly parallel to the optical axis direction of the flash light emitting unit. Further, the reflecting surface 4b is a portion for controlling a component emitted obliquely rearward of the flash tube 3, and since the reflected light in this section is largely influenced by refraction by the glass tube, a cylindrical surface concentric with the flash tube is provided. Then, the reflected light beam is returned to the central portion where the influence of refraction is small, and the reflecting surface 4c in front of the flash arc tube 3 is set.
It is configured to be controlled by. The reflecting surface 4c is a part in front of the center position of the flash tube 3 and is a parabolic surface having the center position of the flash tube 3 as a substantially focal position.
【0015】5はカメラ収納状態では撮影レンズの全部
を覆うレンズバリアとして機能し、使用状態では該カメ
ラ本体1の上部に設けたヒンジ軸1aにより回動し、該
反射笠4の開口縁前方で連接して保持固定される蓋部材
である。The reference numeral 5 functions as a lens barrier that covers the entire photographing lens when the camera is in a housed state, and is rotated by a hinge shaft 1a provided at an upper portion of the camera body 1 in a used state, in front of an opening edge of the reflection shade 4. It is a lid member that is connected and retained.
【0016】6はカメラ収納状態で該蓋部材5内に収納
され、使用状態で不図示の機構部材により上部のヒンジ
軸(不図示)を中心として回動し、所定の角度で保持固
定される該蓋部材5と同形の外形が台形状の光学パネル
で、図1及び図3に示すように少なくとも発光部側の面
の上部にフレネル状の微細なプリズム面6aが、その下
部(反射笠寄り)に平面6dがそれぞれ形成され、下部
(反射笠寄り)は被写体側に同じくプリズム面6bが、
その上部は平面6cがそれぞれ形成されており、その短
辺側は該反射笠4の長手方向の長さにある程度の余裕を
持たせた幅を有し、その長辺側は後記する側面反射板8
a,8bの間隔とほぼ一致する幅となっている。A reference numeral 6 is stored in the lid member 5 in a housed state of the camera, and is rotated about an upper hinge shaft (not shown) by a mechanism member (not shown) in a used state and held and fixed at a predetermined angle. As shown in FIGS. 1 and 3, an optical panel having the same shape as the lid member 5 and a trapezoidal outer shape has a Fresnel-shaped fine prism surface 6a at least on the upper surface on the light emitting portion side and a lower portion (close to the reflection shade). ) Is formed with a flat surface 6d, and the lower surface (close to the reflective shade) has a prism surface 6b on the subject side.
A flat surface 6c is formed on each of the upper portions thereof, a short side thereof has a width with a certain amount of margin in the length of the reflection shade 4 in the longitudinal direction, and a long side of the side surface reflection plate described later. 8
The width is almost the same as the distance between a and 8b.
【0017】 7は前記蓋部材5の内面側に固定された
反射板で、該光学パネル6と対向する面側に光輝面が形
成されており、その両側縁には該蓋部材5の使用状態へ
の回動に伴い形成される発光空間から光が漏れるのを防
止するために先端に向かって幅が細くなる側面反射板8
a,8bが折りたたみ可能に形成されている。そして、
該側面反射板8a,8bはカメラ収納状態で内方に折り
たたまれ、使用状態で反射板7に対してほぼ垂直に開く
ようになっている。Reference numeral 7 denotes a reflection plate fixed to the inner surface side of the lid member 5, a bright surface is formed on the surface side facing the optical panel 6, and the usage state of the lid member 5 is on both side edges thereof. Side reflector 8 having a width narrowing toward the tip to prevent light from leaking from the light emitting space formed by the turning to
A and 8b are formed to be foldable. And
The side reflectors 8a and 8b are folded inward when the camera is housed, and are opened substantially perpendicular to the reflector 7 when in use.
【0018】以上の構成の本実施例の動作について説明
する。まず、図2に示すようにカメラ収納状態では、撮
影レンズ鏡筒部2は沈胴状態にあり、最短の状態でカメ
ラ本体1内に収納されている。この鏡筒部2を外部から
不用意に触れられ汚れや傷による光学特性の劣化及び外
力による変形での故障を防止するため、前部には蓋部材
5が覆いかぶさった状態、いわゆるバリアとして機能し
ている。一方、この蓋部材5の内部には後記するように
閃光発光部の発光方向変換のための光学系を形成する各
種部材が最小スペースに納まる形態で収納されている。The operation of this embodiment having the above configuration will be described. First, as shown in FIG. 2, in the camera housed state, the taking lens barrel 2 is in the collapsed state, and is housed in the camera body 1 in the shortest state. In order to prevent the lens barrel portion 2 from being inadvertently touched from the outside by deterioration of optical characteristics due to dirt and scratches and failure due to deformation due to external force, the front portion is covered with the lid member 5 and functions as a so-called barrier. is doing. On the other hand, as will be described later, various members forming an optical system for changing the light emitting direction of the flash light emitting unit are housed inside the lid member 5 in a form that can fit in the minimum space.
【0019】 次に、図1に示す使用状態にする場合
は、まず、撮影者が手動で蓋部材5をヒンジ軸1aを中
心にして外方に回動すると、この回動を検知する不図示
のスイッチにより不図示のメインスイッチがオンとな
る。これによって鏡筒部2が沈胴状態から撮影可能位置
まで移動する。この時、回動の検知手段は鏡筒部2の突
出部分と干渉しない位置までか移動したときに初めて所
定の信号を出力するものとする。Next, in the use state shown in FIG. 1, first, when the photographer manually rotates the lid member 5 outward about the hinge shaft 1a, this rotation is detected (not shown). The main switch (not shown) is turned on by this switch. As a result, the lens barrel portion 2 moves from the collapsed state to the image capturing position. At this time, the rotation detecting means outputs the predetermined signal only when the rotation detecting means moves to a position where it does not interfere with the protruding portion of the lens barrel portion 2.
【0020】次いで、この蓋部材5の回動に伴って光学
パネル6が図1の上部の不図示のヒンジ軸を中心として
反射板7に対して離れる方向に回動する。そして、該蓋
部材5が反射笠4の開口部まで回動した状態で、所定の
開角に固定保持される。一方、この蓋部材5の回動に連
動して側面反射板8a,8bも回動し、蓋部材5が所定
位置まで回動した状態で、図1及び図3に示すように反
射板7に対してほぼ垂直に立ち上がるように開き、光学
パネル6と反射板7及び側面反射板8a,8bで形成さ
れる反射笠4の開口を覆う発光空間を形成する。このよ
うに光が漏れない構成にすることにより、従来の閃光発
光部の構成では無駄に捨てていた閃光発光管の長手方向
の発光を有効に集光させ所定の照射角内に導くことがで
きる。Then, with the rotation of the lid member 5, the optical panel 6 rotates about the hinge shaft (not shown) in the upper portion of FIG. Then, in a state where the lid member 5 is rotated to the opening of the reflection shade 4, the lid member 5 is fixed and held at a predetermined opening angle. On the other hand, the side surface reflectors 8a and 8b also rotate in conjunction with the rotation of the lid member 5, and when the lid member 5 is rotated to a predetermined position, as shown in FIGS. On the other hand, it opens so as to rise almost vertically, and forms a light emitting space that covers the opening of the reflection shade 4 formed by the optical panel 6, the reflection plate 7, and the side reflection plates 8a and 8b. With such a structure in which light does not leak, it is possible to effectively collect the light emitted in the longitudinal direction of the flash light emitting tube, which was wastefully discarded in the structure of the conventional flash light emitting unit, and guide it within a predetermined irradiation angle. .
【0021】 一方、光学パネル6のフレネルプリズム
面6aは閃光発光部側に形成されているので、全反射を
利用することにより効率よく集光される。そして、ほぼ
放物面で構成される反射笠4の焦点位置近傍に配置され
た閃光発光管3によって反射笠4に当たった光はほぼ光
軸と平行方向に進み、光学パネル6のフレネルプリズム
面6aでの全反射により光方向を制御されるが、閃光発
光管3からの直接光はフレネルプリズム面6a側での同
一の制御が困難であるので、フレネルプリズム面6aで
の全反射を用いずに被写体側のフレネルプリズム面6b
の屈折のみで制御される。すなわち閃光発光管3からの
直接光は下側のフレネルプリズム面6bでの屈折により
制御し、反射笠4での反射光は上側のフレネルプリズム
面6aの全反射を用いて、それぞれ分離して制御するの
で、効率よく集光することが可能となる。On the other hand, since the Fresnel prism surface 6a of the optical panel 6 is formed on the flash light emitting portion side, it is efficiently condensed by utilizing total reflection. Then, the light striking the reflecting shade 4 by the flash light emitting tube 3 arranged in the vicinity of the focal position of the reflecting shade 4 which is almost a paraboloid travels in a direction substantially parallel to the optical axis, and the Fresnel prism surface of the optical panel 6 is reached. Although the light direction is controlled by total reflection at 6a, it is difficult to control the direct light from the flash arc tube 3 on the Fresnel prism surface 6a side. Therefore, total reflection at the Fresnel prism surface 6a is not used. Fresnel prism surface 6b on the subject side
It is controlled only by the refraction of. That is, direct light from the flash arc tube 3 is controlled by refraction at the lower Fresnel prism surface 6b, and reflected light at the reflection shade 4 is separately controlled by using total reflection at the upper Fresnel prism surface 6a. Therefore, it is possible to collect light efficiently.
【0022】次に、カメラ使用時の光学パネル6の傾き
及び反射笠4の光軸の傾きについて説明する。この角度
については、閃光発光部として許し得る物理的な光学パ
ネル6の大きさ、反射笠4の大きさ、閃光発光管3の有
効径などによって影響を受ける。また、カメラの全体デ
ザインからくる制約、さらには光学パネル6、反射板7
などからなる発光方向変更部が存在しない時、閃光発光
管3と反射笠4とからなる発光部だけでバウンズ発光と
するなど別仕様とのからみからも一義的に定めることが
できない。しかし、発光部を構成する上での必要最低限
の数値的な制約は存在し、図1及び図3に示すように閃
光発光部の光軸を垂直方向よりやや前傾させ、光学パネ
ル6の傾きはこの傾きより傾斜が少なく、反射板7は反
射笠3の後側端縁と光学パネル6の先端部を結ぶ形態が
望ましい。細かい数値的な説明については後述する。Next, the inclination of the optical panel 6 and the inclination of the optical axis of the reflection shade 4 when the camera is used will be described. This angle is affected by the physical size of the optical panel 6, the size of the reflection shade 4, the effective diameter of the flash tube 3 and the like that can be allowed as the flash section. In addition, there are restrictions due to the overall design of the camera, as well as the optical panel 6 and the reflector 7.
When there is no light emitting direction changing part made up of, for example, the light emitting part made up of the flash light emitting tube 3 and the reflection shade 4 is used for bounce light emission, it cannot be uniquely determined from the viewpoint of other specifications. However, there is a minimum numerical constraint in constructing the light emitting unit, and as shown in FIGS. 1 and 3, the optical axis of the flash light emitting unit is slightly tilted forward from the vertical direction, and The inclination is smaller than this inclination, and the reflection plate 7 preferably connects the rear edge of the reflection shade 3 and the tip of the optical panel 6. A detailed numerical explanation will be given later.
【0023】次に、側面反射板8a,8bの形状につい
て詳説する。側面反射板8a,8bは図3に示すように
閃光発光管3側に近い側が反射笠3の開口部の短辺側と
ほぼ同じ長さで、遠い側が光学パネル6と反射板7とが
上部でほぼ交わる部分を埋める形の細幅となるほぼ三角
形状をなし、かつこの三角形の反射面を反射笠4の開口
から遠ざかるにつれて発光空間を広げる方向に反射板7
の外形に沿って傾けることによって、側面反射板8a,
8bでの反射後の光束を集光させることができる。この
傾きは必要とさせる照射角によって最適な角度が決定さ
れる。Next, the shapes of the side reflectors 8a and 8b will be described in detail. As shown in FIG. 3, the side reflectors 8a and 8b have substantially the same length on the side close to the flash tube 3 side as the short side of the opening of the reflection shade 3 and on the far side the optical panel 6 and the reflector 7 are upper parts. The shape of the reflection plate 7 is a substantially triangular shape with a narrow width that fills a portion that substantially intersects with each other, and the reflection surface of this triangular reflection surface expands as the distance from the opening of the reflection shade 4 increases.
By tilting along the outer shape of the side reflector 8a,
The light flux after reflection at 8b can be condensed. The optimum angle of this inclination is determined by the required irradiation angle.
【0024】なお、本実施例では反射板7及び側面反射
板8a,8bは平面の例であるが、その形態は平面形に
限定されるものでなく、必要照射角に応じて凹面または
凸面で形成してもよく、特に反射板7は蓋部材5の形状
に合わせた形状にすると、スペース効率が良い。Although the reflector 7 and the side reflectors 8a and 8b are flat in this embodiment, the form is not limited to a flat shape, and may be a concave surface or a convex surface depending on the required irradiation angle. It may be formed, and in particular, if the reflecting plate 7 is shaped to match the shape of the lid member 5, space efficiency is good.
【0025】次に、閃光発光管3からの光線の状態につ
いて、図4及び図5を用いて説明する。反射笠4の反射
面の構造により、図4に示すように閃光発光管3のほぼ
中心から射出した光束は反射笠4を介さないで直接射出
する光束を除いて閃光発光管3及び反射笠4で構成され
る閃光発光部の光軸とほぼ平行の光束として射出され
る。このようにして閃光発光部の光軸と平行に射出した
光学パネル6の上部側に形成したフレネルプリズム面6
aに入射する。Next, the state of the light rays from the flash arc tube 3 will be described with reference to FIGS. 4 and 5. Due to the structure of the reflecting surface of the reflecting shade 4, as shown in FIG. 4, the luminous flux emitted from almost the center of the flash luminous tube 3 is excluded except for the luminous flux directly emitted without passing through the reflecting shade 4. Is emitted as a light beam substantially parallel to the optical axis of the flash light emitting section. In this way, the Fresnel prism surface 6 formed on the upper side of the optical panel 6 which is emitted parallel to the optical axis of the flash light emitting portion.
It is incident on a.
【0026】この入射状況を図5で説明する。ここで、
フレネルプリズム面6aの発光管側に向いた面を6
a1、その反対側の面を6a2、フレネルプリズム面6a
の裏側(被写体側)平面を6cとする。反射笠4を射出
後の光束は、反射笠4の光軸方向にそろえられて進み、
この射出方向に対し、広い平面で受けられるように閃光
発光部光軸より所定角内側に傾けた状態で光学パネル6
を配置する。This incident condition will be described with reference to FIG. here,
The surface of the Fresnel prism surface 6a facing the arc tube side is 6
a 1 , the opposite surface 6a 2 , the Fresnel prism surface 6a
The back side (subject side) plane of 6c is designated as 6c. The light flux emitted from the reflecting shade 4 is aligned in the optical axis direction of the reflecting shade 4 and advances,
With respect to this emission direction, the optical panel 6 is tilted inward by a predetermined angle from the optical axis of the flash light emitting unit so that it can be received by a wide plane.
To place.
【0027】次いで、光学パネル6のフレネルプリズム
各面での光線の挙動について、まず、発光管側の面6a
1での屈折により光方向を被写体側に倒し、対向側の面
6a2で全反射させ、光学パネル6の裏側平面6cで屈
折後、ほぼ撮影光軸と平行に進むように光束を制御す
る。このように構成することによって反射笠4射出後の
光束は広い面で受け、光制御を行うことができるため、
光制御性がよく、また全反射を利用しているため、反射
板などで生じる反射率による光量損失を招くことなく効
率よく方向転換を行うことができる。また、微細な各フ
レネルプリズム面で方向転換を行っているため、極めて
薄い範囲内で方向変更を完了することできるなどの利点
がある。Next, regarding the behavior of light rays on each surface of the Fresnel prism of the optical panel 6, first, the surface 6a on the side of the arc tube is shown.
By refracting at 1 , the light direction is tilted to the subject side, totally reflected by the surface 6a 2 on the opposite side, refracted by the back side flat surface 6c of the optical panel 6, and then the luminous flux is controlled so as to proceed substantially parallel to the photographing optical axis. With this configuration, the light flux emitted from the reflecting shade 4 can be received on a wide surface and the light can be controlled.
Since the light controllability is good and the total reflection is used, the direction can be efficiently changed without causing the loss of the light amount due to the reflectance generated by the reflecting plate or the like. Further, since the direction is changed by each fine Fresnel prism surface, there is an advantage that the direction change can be completed within an extremely thin range.
【0028】一方、前記構成で制御しきれない直接光に
ついてみると、まず、被写体側のフレネルプリズム6b
側に抜ける光束は被写体側に設けられたフレネルプリズ
ム6bによって屈折制御される。すなわち、閃光発光管
3からの直接光は光学パネル6の発光部側下部の平面6
d側に入射屈折し、被写体方向に曲げられ、さらに被写
体側に設けたフレネルプリズム6bによって屈折し、撮
影光軸とほぼ平行な光束に変換される。また、反射部材
7側に抜ける光束はこの反射面で反射し、射出角が閃光
発光光軸方向に近づけられた後、光学パネル6の上部側
のフレネルプリズム6a面で方向変換され、被写体方向
に射出される。このように反射笠4によって制御しきれ
なかった光束についても、下部フレネルプリズム6b面
及び反射板7を介してほぼ被写体に向かう成分に変換さ
れる。On the other hand, looking at the direct light that cannot be controlled by the above-mentioned structure, first, the Fresnel prism 6b on the object side is shown.
The light flux passing to the side is refraction-controlled by the Fresnel prism 6b provided on the subject side. That is, the direct light from the flash arc tube 3 is directed to the flat surface 6 on the lower side of the optical panel 6 on the light emitting portion side.
The light is incident on the d side and refracted, is bent toward the subject, is further refracted by the Fresnel prism 6b provided on the subject side, and is converted into a light flux substantially parallel to the photographing optical axis. Further, the light flux passing through to the reflecting member 7 side is reflected by this reflecting surface, and after the exit angle is brought close to the flash light emission optical axis direction, the light is redirected by the Fresnel prism 6a surface on the upper side of the optical panel 6 to the subject direction. Is ejected. The light flux that cannot be completely controlled by the reflection shade 4 in this way is also converted into a component that almost goes to the subject through the lower Fresnel prism 6b surface and the reflection plate 7.
【0029】上記の動作で閃光発光管3から射出した光
束が被写体方向に向けられる様子を示したのが図6であ
る。図中、実線10aで示した光束が反射笠4によって
方向を揃えられた反射光成分であり、一点鎖線10bで
示した光束が閃光発光管3から直接フレネルプリズム6
bに当たる成分であり、前述のように両成分とも、光学
パネルフレネルプリズムによって撮影光学系にほぼ平行
となるような成分に変換されている。一方、二点鎖線1
0cで示した光束は閃光発光管3から直接反射板7に当
たった成分である。図示のように前者と異なり、撮影光
軸と平行に光を制御することはできないが、フレネルプ
リズム6aを介して必要照射角内の成分として光方向を
変換することが可能である。FIG. 6 shows how the luminous flux emitted from the flash tube 3 is directed toward the subject by the above operation. In the figure, the light beam shown by the solid line 10a is the reflected light component whose direction is aligned by the reflection shade 4, and the light beam shown by the alternate long and short dash line 10b is directly from the flash arc tube 3 to the Fresnel prism 6.
Both components are components corresponding to b, and as described above, both components are converted by the optical panel Fresnel prism into components that are substantially parallel to the photographing optical system. On the other hand, the chain double-dashed line 1
The luminous flux indicated by 0c is a component which strikes the reflector 7 directly from the flash tube 3. Unlike the former, as shown in the figure, the light cannot be controlled parallel to the photographing optical axis, but the light direction can be converted as a component within the required irradiation angle via the Fresnel prism 6a.
【0030】次に、閃光発光部光軸に対する光学パネル
6の傾き及び光学パネル6の撮影光軸に対する傾き、さ
らには光学パネル6のフレネルプリズムの各傾斜面の角
度設定値等について図7ないし図10を用いて説明す
る。まず、図7は光学パネル6の角度関係の説明図で、
説明を容易にするために光学パネル6を垂直に立てた状
態にする。まず、本実施例の構成を写真撮影の照明装置
として利用する場合には、実際にはフレネルプリズム射
出後の光束が、撮影光学系の光軸と一致するように全体
の光学系を回転させて配置させることが必要となる。Next, the inclination of the optical panel 6 with respect to the optical axis of the flash light emitting portion, the inclination of the optical panel 6 with respect to the photographing optical axis, and the angle setting values of the respective inclined surfaces of the Fresnel prism of the optical panel 6 will be described with reference to FIGS. A description will be given using 10. First, FIG. 7 is an explanatory view of the angular relationship of the optical panel 6,
For ease of explanation, the optical panel 6 is set upright. First, when the configuration of the present embodiment is used as an illumination device for photography, the entire optical system is actually rotated so that the luminous flux after exiting the Fresnel prism coincides with the optical axis of the imaging optical system. It is necessary to arrange them.
【0031】図7において、Pは光源の方向を示すた
め、便宜的に定めた光源の位置であり、また、各設定角
度及び光学材料の屈折率を以下のように設定する。
θ :光源の光束方向と水平方向とのなす角、ただし、
0<θ≦90°
αn :n番目のフレネルプリズム入射面の傾き、
βn:n番目のフレネルプリズム全反射面の傾き、
n :フレネルプリズムの材質の屈折率、
とする。まず、本発明を構成するための各設定値の必要
条件については、プレネルプリズムの加工上の制約か
ら、αn,βnは以下の範囲が望ましい。
0≦αn≦90° ・・(1−1)
0≦βn≦90° ・・(1−2)In FIG. 7, P indicates the direction of the light source, so it is a position of the light source that is determined for convenience, and each set angle and the refractive index of the optical material are set as follows. θ: The angle between the luminous flux direction of the light source and the horizontal direction,
0 <θ ≦ 90 ° α n : inclination of the n-th Fresnel prism entrance surface, β n : inclination of the n-th Fresnel prism total reflection surface, and n: refractive index of the material of the Fresnel prism. First, regarding the necessary conditions of each set value for constructing the present invention, α n and β n are preferably in the following ranges due to processing restrictions of the Plenel prism. 0 ≦ α n ≦ 90 ° ··· (1-1) 0 ≦ β n ≦ 90 ° ··· (1-2)
【0032】次に、図8を用いて反射笠4によってほぼ
一方向に揃えられた光束11がフレネル面に入射するの
に最適な角度について説明する。図示のように同一方向
から入射する光線に関しても、光源の位置、フレネル角
度の設定によっては、三種の光路が考えられる。まず、
光線11aは光学パネル6のフレネルプリズム入射面6
a1から入射し、全反射面6a2を介することなく直接射
出面6cに達するものである。図示のように射出面6c
からは射出せず、ほとんど全反射しているが、光源の位
置によっては屈折し、射出する場合もあり得る。Next, referring to FIG. 8, an optimum angle for the light flux 11 aligned in one direction by the reflector 4 to enter the Fresnel surface will be described. As shown in the figure, three types of optical paths are conceivable even for rays incident from the same direction depending on the position of the light source and the setting of the Fresnel angle. First,
The light ray 11a is the Fresnel prism entrance surface 6 of the optical panel 6.
The light enters from a 1 and directly reaches the exit surface 6c without passing through the total reflection surface 6a 2 . Exit surface 6c as shown
Although the light is not emitted from, and is almost totally reflected, it may be refracted and emitted depending on the position of the light source.
【0033】また、光線11bについては、本発明の意
図する光路で、入射面6a1から入射し、全反射面6a2
で全反射後、射出面6cで屈折し射出する成分である。
最後に、光線11cについては、全反射面6a2から入
射し面6a1を通ることなく射出面6cから射出する成
分である。以上のような状況から光線11a及び11c
が極力少なくなるように、光源の入射方向及びフレネル
面の形状を設定する必要がある。実際には入射光線の方
向も一定量のばらつきがあるため、この点も考慮して、
フレネル面の傾き及びピッチ間隔を決定する必要があ
る。The light ray 11b is incident on the incident surface 6a 1 and is the total reflection surface 6a 2 in the optical path intended by the present invention.
Is a component that is refracted and emitted at the emission surface 6c after total reflection at.
Finally, the light ray 11c is a component that enters from the total reflection surface 6a 2 and exits from the exit surface 6c without passing through the surface 6a 1 . From the above situation, the light rays 11a and 11c
It is necessary to set the incident direction of the light source and the shape of the Fresnel surface so as to reduce as much as possible. Actually, there is a certain amount of variation in the direction of the incident ray, so considering this point,
It is necessary to determine the inclination and pitch spacing of the Fresnel surface.
【0034】理想的な数値条件については、まず、光線
11cが全反射面6a2に直接当たらないようにするた
めには、光線の方向とフレネル面の設定を次のようにす
ればよい。
θ≧90°−βn ・・(2)Regarding the ideal numerical condition, first, in order to prevent the light ray 11c from directly hitting the total reflection surface 6a 2 , the direction of the light ray and the Fresnel surface may be set as follows. θ ≧ 90 ° -β n ··· (2)
【0035】また、本来の入射面6a1から入った光束
でも有効光束として利用するためには、以下の条件を満
たさなければならない。この条件について、図9を用い
て説明する。図9は理想状態における光線トレースの拡
大図で、a〜dは以下に示す角度成分を表している。ま
ず、第1の条件として、前述図8に示す光線11aのよ
うに全反射面6a2に当たらない光線を生じさせないた
めの必要条件は、入射面6a1で屈折した後の光線が全
反射面6a2と交わること、すなわち屈折後の光線が全
反射面6a2の傾きより立っていることが必要である。
よって、図9において、
b>a ・・(3)
が最低の条件となる。この関係を今まで与えられた定数
で表わすと、
θ+sin-1{sin(θ−αn)/n}>90°−βn ・・(3)′
となる。この条件を満たせば、フレネルプリズムのピッ
チを適宜選択することによって必ず全反射面6a2に光
を導くことが可能となる。The following conditions must be satisfied in order to use even the light beam originally entering from the incident surface 6a 1 as an effective light beam. This condition will be described with reference to FIG. FIG. 9 is an enlarged view of a ray trace in an ideal state, where a to d represent the angle components shown below. First, as the first condition, a necessary condition for not causing a light ray that does not hit the total reflection surface 6a 2 like the light ray 11a shown in FIG. 8 is that the light ray after being refracted by the incident surface 6a 1 is a total reflection surface. It is necessary that the light beam intersects with 6a 2 , that is, the light beam after refraction rises from the inclination of the total reflection surface 6a 2 .
Therefore, in FIG. 9, the minimum condition is b> a ... (3). If this relationship is expressed by the constants given up to now, θ + sin −1 {sin (θ−α n ) / n}> 90 ° −β n · (3) ′. If this condition is satisfied, the light can be guided to the total reflection surface 6a 2 without fail by appropriately selecting the pitch of the Fresnel prism.
【0036】次に、全反射面6a2に当たった光が全反
射するための条件が必要となる。すなわち、図9におい
て
∠c≧臨界角 ・・(4)
が必要となる。この関係を今まで与えられた定数で表わ
すと、
180°−(αn+βn)−sin-1{sin(θ−αn)/n}≧sin-1(
1/n) ・・(4)′Next, a condition for total reflection of the light striking the total reflection surface 6a 2 is required. That is, in FIG. 9, ∠c ≧ critical angle ... (4) is required. When this relationship is expressed by the constants given so far, 180 ° − (α n + β n ) −sin −1 {sin (θ−α n ) / n} ≧ sin −1 (1 / n) ··· (4 ) ′
【0037】最後に、射出面6cに当たった光が全反射
しないことが必要になる。
|d|<臨界角 ・・(5)
これも同様に与えられた定数で整理した形で表わすと、
|180°+θ−2(αn+βn)−sin-1{sin(θ−αn)/n}|<
sin-1(1/n) ・・(5)′
以上が光量損失を引き起こさないための各定数の必要条
件となる。Finally, it is necessary that the light striking the exit surface 6c is not totally reflected. | D | <critical angle ··· (5) Similarly, when expressed in a form organized by given constants, | 180 ° + θ-2 (α n + β n ) -sin −1 {sin (θ−α n ) / N} | <sin −1 (1 / n) ··· (5) ′ The above are the necessary conditions for the respective constants so as not to cause the light amount loss.
【0038】上記各条件をより簡単にまとめると、まず
各角度は(1)式より
0≦αn,βn、θ≦90° ・・(6)
また、全反射面の条件式(4)及び(5)より
αn+βn−θ>0 ・・(7)
さらに、条件式(2)、(3)より
θ≧αn の場合、 θ+βn>90° ・・(8−1)
θ<αn の場合、θ+βn−sin-1{sin(θ−αn)/n}>90°
・・(8−2)
が必要条件となる。To summarize the above conditions more simply, first, the respective angles are expressed by the following equation (1): 0 ≦ α n , β n , θ ≦ 90 ° (6) From (5), α n + β n −θ> 0 ··· (7) Further, from the conditional expressions (2) and (3), when θ ≧ α n , θ + β n > 90 ° ··· (8-1) θ <for α n, θ + β n -sin -1 {sin (θ-α n) / n}> 90 ° ·· (8-2) is a necessary condition.
【0039】各条件を同時に満たすことが理想的だが、
実際にはフレネルプリズムの厚み、加工状態または成形
状態、さらには配置可能な大きさなどの各種制約から一
部条件を満たせない場合も生じる。しかし、想定される
光線の多くが所定の屈折反射、屈折の光路を通過するこ
とにより、効率は低下するが、閃光発光の方向を変更す
るという目的はほぼ達成することができる。Ideally, each condition should be satisfied at the same time,
Actually, some conditions may not be satisfied due to various restrictions such as the thickness of the Fresnel prism, the processing state or the molding state, and the size at which the Fresnel prism can be arranged. However, although most of the assumed light rays pass through the predetermined optical path of refraction reflection and refraction, the efficiency is lowered, but the purpose of changing the direction of flash light emission can be almost achieved.
【0040】 図10は上記の各種条件を満たした例を
示す。図10(a)〜(c)はそれぞれ同一フレネルプ
リズムに対し、入射光線の方向を変えた場合の光線トレ
ースを示す。実際、フレネル面に入射する光束はある一
定角度範囲分布しており、図10ではその分布領域を光
学パネル6が80°傾いた状態を基準として±10°の
20°の分布を想定したものであり、各パラメータの値
は以下のようである。
θ1=80° ,θ2=70° ,θ3=90°
αn=80° ,βn=50°
n=1.492 (アクリル樹脂を想定)
これらを上記各条件式に当てはめてみると、
a=90°−50°=40°
b1=80.0° ,b2=63.3° ,b3=96.
7°
c1=50.0° ,c2=56.7° ,c3=43.
3°
d1=0° ,d2=−3.3° ,d3=3.3
°
臨界角=42.2°
となり、上記(1)〜(5)の条件をすべて満たし、フ
レネルプリズムのピッチを最適化すれば、光量損失なく
閃光発光の方向を変換することが可能となる。FIG. 10 shows an example in which the above various conditions are satisfied. 10 (a) to 10 (c) show the same Fresnel
The ray trace when the direction of the incident ray is changed with respect to the rhythm is shown. In fact, the luminous flux incident on the Fresnel surface has a certain angular range distribution, and in FIG. 10, a 20 ° distribution of ± 10 ° is assumed based on the state where the optical panel 6 is inclined by 80 ° in the distribution area. Yes, the value of each parameter is as follows. θ 1 = 80 °, θ 2 = 70 °, θ 3 = 90 ° α n = 80 °, β n = 50 ° n = 1.492 (Assuming acrylic resin) Applying these to the above conditional expressions, , a = 90 ° -50 ° = 40 ° b 1 = 80.0 °, b 2 = 63.3 °, b 3 = 96.
7 ° c 1 = 50.0 °, c 2 = 56.7 °, c 3 = 43.
3 ° d 1 = 0 °, d 2 = -3.3 °, d 3 = 3.3
° critical angle = 42.2 °, and the meets all the above conditions (1) to (5), off
By optimizing the pitch of the Renel prism , it is possible to change the direction of flash light emission without loss of light quantity.
【0041】以上の実施例では、局部的な一つのフレネ
ルプリズムのプリズム面に着目したが、これと同様の光
制御が各面で可能であり、各面の設定角度を最適化する
ことにより、フレネルプリズム射出後の配光分布を詳細
に制御することが可能である。In the above embodiments, attention was focused on the local prism surface of one Fresnel prism, but similar light control can be performed on each surface, and by optimizing the set angle of each surface, It is possible to precisely control the light distribution after the Fresnel prism is emitted.
【0042】 図11は本発明の第2実施例を示すもの
である。説明を簡単にするために前述第1実施例と同一
部分には同一符号を付して説明する。本実施例ではカメ
ラ本体1内の上部に設けた閃光発光部の反射笠4の前方
でかつカメラ本体1の上部に回動可能にヒンジされた蓋
部材5の前部に設けた反射板7の前部に、そのほぼ中央
部分まで対面する前部反射板21を配置し、該反射板2
1の先端と該反射板7の先端との間に内面側を微細プリ
ズム面22aにした光学パネル22を連接して一体に配
置したものである。その他の構成は前述第1実施例と同
様である。FIG. 11 shows a second embodiment of the present invention. In order to simplify the description, the same parts as those in the first embodiment will be designated by the same reference numerals. In the present embodiment, a reflector plate 7 is provided in front of the reflection shade 4 of the flash light emitting portion provided in the upper portion of the camera body 1 and in the front portion of the lid member 5 which is hinged rotatably to the upper portion of the camera body 1. In the front, almost its center
The front reflection plate 21 facing up to a part is arranged, and the reflection plate 2
Fine pre an inner surface between the tip of one of the tip and the reflecting plate 7
The optical panels 22 having the prism surface 22a are connected and integrally arranged. The other structure is similar to that of the first embodiment.
【0043】以上の構成の本実施例はカメラ本体1内部
に位置した閃光発光管3及び反射笠4からなる閃光発光
部からの射出光を反射板7、前部反射板21及び光学パ
ネル22からなる光方向変換部材で方向を変換し、光学
パネル22から射出させる。In the present embodiment having the above-mentioned structure, the light emitted from the flash light emitting portion formed of the flash light emitting tube 3 and the reflecting shade 4 located inside the camera body 1 is reflected from the reflecting plate 7, the front reflecting plate 21 and the optical panel 22. The light is changed in direction and is emitted from the optical panel 22.
【0044】ところで、前述第1実施例では最終の発光
面となる光学パネル6が大きく、カメラ本体1に近い部
分から射出する成分が存在し、赤目現象に対する効果が
不十分であったが、本実施例ではこの点を改善したもの
で、光射出部は光方向変換部材の先端部に位置する光学
パネル22部のみとし、それより下の部分に関しては反
射板21を設けることにより、一部光束は前部反射板2
1を介して、または前部反射板21及び反射板7を介し
て光学パネル22に入射し、このパネル22内での全反
射により方向が変換され、被写体に向かう。このような
構成にすることにより、赤目現象を生じさせることなく
効率よく閃光発光の照射方向を変えることが可能になっ
た。By the way, in the above-mentioned first embodiment, the optical panel 6 which is the final light emitting surface is large, and there is a component emitted from a portion close to the camera body 1, so that the effect against the red eye phenomenon is insufficient. In the embodiment, this point is improved. The light emitting portion is limited to the optical panel 22 located at the tip of the light redirecting member, and the reflection plate 21 is provided for the portion below the light redirecting member, so that the partial luminous flux is reduced. Is the front reflector 2
The light is incident on the optical panel 22 via 1 or via the front reflection plate 21 and the reflection plate 7, and the direction is converted by the total reflection within the panel 22 to head for the subject. With such a configuration, it becomes possible to efficiently change the irradiation direction of the flash light emission without causing the red-eye effect.
【0045】 図12は本発明の第3実施例を示すもの
である。図において、31はカメラ本体、32は撮影レ
ンズ鏡筒部であり、33は外付け閃光装置で、その内部
には一端面側に閃光発光管34及び反射笠35を設け、
その前面に広範囲にわたって内面に微細フレネルプリズ
ム面36aを形成しかつ外面を平面36bにした光学パ
ネル36を設けている。そして、反射笠35の光学パネ
ル36と対面する反射面35a側は光学パネル36のプ
リズム面36aに合わせて前側の反射面35bより延伸
している。FIG. 12 shows a third embodiment of the present invention. In the figure, 31 is a camera body, 32 is a photographing lens barrel, 33 is an external flash device, and a flash light emitting tube 34 and a reflection shade 35 are provided inside one end face side of the flash device.
An optical panel 36 having a fine Fresnel prism surface 36a formed on the inner surface and a flat surface 36b on the outer surface is provided over a wide area on the front surface . The reflection surface 35a side of the reflection shade 35 facing the optical panel 36 extends from the reflection surface 35b on the front side in alignment with the prism surface 36a of the optical panel 36.
【0046】以上の構成の本実施例はカメラ本体と別体
の外付け閃光装置に前述第1実施例と同様な照明装置を
内蔵させるもので、閃光発光管34から射出後の光線ト
レースも同様である。ただ、前述第1実施例との相違点
は、反射笠35の一方を延伸した反射面35aとするこ
とで、第1実施例の反射笠4及び反射板7を一体的にし
た一部品だけで構成している点である。このように構成
することで部品点数を削減することが可能となる。In the present embodiment having the above-described structure, an illumination device similar to that of the first embodiment is built in an external flash device which is separate from the camera body, and the light ray traces emitted from the flash arc tube 34 are also the same. Is. However, the difference from the first embodiment described above is that one of the reflecting shades 35 and the reflecting plate 7 of the first embodiment is integrated by forming one of the reflecting shades 35 as the extending reflecting surface 35a. This is the point of composition. With this configuration, the number of parts can be reduced.
【0047】また、従来の電子閃光装置では、赤目現象
を防止するため、閃光発光部の位置が上部に配置させな
ければならなかったが、閃光発光部の閃光発光管34を
下部に配置することも可能であり、部品レイアウトの自
由度も増し、従来にない形態の閃光装置を提供すること
が可能になった。Further, in the conventional electronic flash device, in order to prevent the red-eye phenomenon, the position of the flash light emitting section had to be arranged in the upper part, but the flash light emitting tube 34 of the flash light emitting section should be arranged in the lower part. It is also possible to increase the degree of freedom in the layout of parts, and it has become possible to provide a flash device having an unprecedented form.
【0048】さらに、閃光装置の前面をすべて発光部と
して利用できる形態であるため、効率よく集光できると
ともに、面発光に近い光源にできるため、ソフトな感じ
の照明が可能となった。また、図示のように光学パネル
36の発光部側にフレネルプリズム面36aが形成さ
れ、外面側が平面36bとなっているため、たとえ光学
パネル36の前面が汚れたとしても容易に拭くことが可
能であり、従来のようにフレネルプリズム部分にゴミが
溜まり、光学特性が低下することを防止できる。Further, since the entire front surface of the flash device can be used as the light emitting portion, the light can be efficiently collected and the light source can be a light source close to the surface light emission, so that the soft lighting is possible. Further, as shown in the drawing, since the Fresnel prism surface 36a is formed on the light emitting portion side of the optical panel 36 and the outer surface side is the flat surface 36b, even if the front surface of the optical panel 36 is dirty, it can be easily wiped. Therefore, it is possible to prevent dust from accumulating on the Fresnel prism portion and deterioration of optical characteristics as in the conventional case.
【0049】[0049]
【発明の効果】 以上説明したように請求項1に示す本
発明は閃光発光管と該閃光発光管の発光方向を規制する
反射笠とを有し、該反射笠によって反射された光の光軸
が垂直方向よりやや前傾させた状態で光を射出させるよ
うに配置される閃光発光部と、該光軸の傾きよりも傾斜
が少ない状態で配置され、少なくとも閃光発光管側に配
置された複数のプリズムに入射した光を各々のプリズム
面により全反射させるとともに、撮影光軸と平行に光を
射出させる光学パネルと、該閃光発光部と該光学パネル
以外の開口部を覆うように構成した反射板とから構成さ
れることにより、発光管からの射出光は従来より光量ロ
スが少なく、効率よく集光でき、また、発光部を広くと
れて面光源化できるので、被写体に対しソフトな照明が
可能となり、さらに微細な配光の修正が容易で設計自由
度が高く、発光系全体を小型化できる。また、請求項2
に示す本発明は該光学パネルには、更に、前記反射笠寄
りの被写体側にフレネルプリズム面を有し、該フレネル
プリズム面は該反射笠によって反射されない前記閃光発
光管からの直接光を撮影レンズの光軸と平行に曲げるこ
とにより、さらに光量ロスがなく有効に集光できる。ま
た、請求項3に示す本発明は該反射笠は、少なくともそ
の一部の形状が該閃光発光管の中心位置をほぼ焦点位置
とする放物面で構成されていることにより、閃光発光部
の発光において光量ロスを引き起こすことがなく、効率
よく集光することができる。 As described above, the present invention according to claim 1 has a flash arc tube and a reflection shade for regulating the light emission direction of the flash discharge tube, and the optical axis of the light reflected by the reflection shade.
Emits light in a state in which it is tilted slightly forward from the vertical direction.
And the flash emission part that is arranged so that it is tilted more than the tilt of the optical axis.
Are placed in a state where there is little
Light incident on multiple prisms placed on each prism
The light is made to be totally reflected by the surface and the light is parallel to the shooting optical axis.
Optical panel for emitting light, flash light emitting section, and optical panel
And a reflector configured to cover the opening other than
By being, light emitted from the arc tube is less loss of light than a conventional, can be efficiently condensed Since it widely taken in surface light emitting portion, it is possible to soft lighting to subject, finer The light distribution can be easily modified, the degree of freedom in design is high, and the entire light-emitting system can be downsized. In addition, claim 2
To the present invention is the optical panel showing further the reflector nearest
Has a Fresnel prism surface on the subject side.
The prism surface emits the flash light that is not reflected by the reflector.
Bend the direct light from the light tube parallel to the optical axis of the shooting lens.
As a result, light can be collected effectively without further loss of light quantity. Further, in the present invention as set forth in claim 3, the reflection shade has a parabolic surface in which at least a part of the reflection shade has a center position of the flash light emission tube as a substantially focal position, whereby Efficient without causing light loss in light emission
It can collect light well.
【0050】また、請求項4に示す本発明は閃光発光管
と該閃光発光管の発光方向を規制する反射笠からなる閃
光発光部をカメラ本体に内蔵し、該反射笠によって反射
された光の光軸が垂直方向よりやや前傾させた状態で光
を射出させるように配置される閃光発光部と、該光軸の
傾きよりも傾斜が少ない状態で配置され、少なくとも閃
光発光管側に配置された複数のプリズムに入射した光を
各々のプリズム面により全反射させるとともに、撮影光
軸と平行に光を射出させる光学パネルと、該閃光発光部
と該光学パネル以外の開口部を覆うように構成した反射
板とから構成される写真撮影用照明装置を備えることに
より、赤目現象防止の上で閃光発光部をカメラの上面、
側面などの任意の位置に配置でき、光軸の傾きに対して
も許容度が高いためカメラ内の部品配置の自由度が増
し、構成が容易となる。さらに、請求項5に示す本発明
は該閃光発光部の前面に配置した該反射板は回動可能に
支持され、カメラ携帯時には収納可能であり、裏面を利
用してカメラ保護部材とすることにより、カメラの鏡筒
部のバリア部として兼用できるので、スペース効率が良
くなる。Further, according to the present invention as defined in claim 4, a flash light emitting portion comprising a flash light emitting tube and a reflective shade for controlling the light emitting direction of the flash luminous tube is built in the camera body and reflected by the reflective shade.
Light with its optical axis tilted slightly forward from the vertical direction
And a flash light emitting portion arranged so as to emit
It is placed with less inclination than the inclination and at least the flash
Light incident on multiple prisms arranged on the side of the light-emitting tube
Shooting light while totally reflecting each prism surface
Optical panel for emitting light parallel to the axis, and the flash light emitting section
And a reflection configured to cover an opening other than the optical panel
By providing a lighting device for photography composed of a board and a plate , the flash light emitting portion is provided on the top surface of the camera to prevent the red-eye phenomenon.
It can be arranged at an arbitrary position such as a side surface, and since the tolerance for the inclination of the optical axis is high, the degree of freedom in arranging components in the camera is increased, and the configuration is facilitated. Further, according to the present invention as set forth in claim 5, the reflecting plate disposed on the front surface of the flash light emitting portion is rotatably supported and can be stored when the camera is carried, and the back surface is used as a camera protection member. Since it can also be used as a barrier portion of the lens barrel of the camera, space efficiency is improved.
【0051】[0051]
【図1】本発明に係る第1実施例の写真撮影用照明装置
を有するカメラの使用状態における側面図である。FIG. 1 is a side view of a camera having an illumination device for photography according to a first embodiment of the present invention in a use state.
【図2】同じく、収納状態における側面図である。FIG. 2 is likewise a side view in a stored state.
【図3】その発光部の分解斜視図である。FIG. 3 is an exploded perspective view of the light emitting unit.
【図4】その閃光発光部の反射笠による光線トレース図
である。FIG. 4 is a ray trace diagram by a reflection shade of the flash light emitting portion.
【図5】その光学パネル近傍の光線トレース図である。FIG. 5 is a ray trace diagram in the vicinity of the optical panel.
【図6】その発光部全体における光線トレース図であ
る。FIG. 6 is a ray trace diagram of the entire light emitting unit.
【図7】その光学パネルの角度関係の説明図である。FIG. 7 is an explanatory diagram of an angular relationship of the optical panel.
【図8】同じく、光学パネルに入射する最適な角度の説
明図である。FIG. 8 is likewise an explanatory view of the optimum angle of incidence on the optical panel.
【図9】同じく、適正条件の関係式を求める必要定数の
説明図である。FIG. 9 is also an explanatory diagram of necessary constants for obtaining a relational expression of appropriate conditions.
【図10】その関係式を満たした状態における光線トレ
ース図で、(a),(b),(c)は光源の光束方向と
水平方向とのなす角度が、それぞれ80°,70°,9
0°の場合である。FIG. 10 is a ray trace diagram in a state where the relational expression is satisfied, and in (a), (b), and (c), the angles formed by the luminous flux direction of the light source and the horizontal direction are 80 °, 70 °, and 9 °, respectively.
This is the case of 0 °.
【図11】本発明の第2実施例の写真撮影用照明装置を
有するカメラの使用状態における側面図である。FIG. 11 is a side view of the camera having the photographic illumination device according to the second embodiment of the present invention in use.
【図12】本発明の第3実施例の外付け写真撮影用照明
装置を有するカメラの使用状態における側面図である。FIG. 12 is a side view of a camera having an illumination device for external photography according to a third embodiment of the present invention in use.
1,31・・カメラ本体、2,32・・鏡筒部、3,3
4・・閃光発光管、4,35・・反射笠、5・・蓋部
材、6,22,36・・光学パネル、6a,6b,22
a,36a・・フレネルプリズム面、7・・反射板、8
a,8b・・側面反射板、21・・反射板,33・・外
付け閃光装置。1,31 ··· Camera body, 2,32 ··· Lens barrel, 3,3
4 ... Flash arc tube, 4, 35 ... Reflector, 5 ... Lid member, 6, 22, 36 ... Optical panel, 6a, 6b, 22
a, 36a ... Fresnel prism surface, 7 ... Reflector, 8
a, 8b ... Side reflector, 21 ... Reflector, 33 ... External flash device.
Claims (5)
規制する反射笠とを有し、該反射笠によって反射された
光の光軸が垂直方向よりやや前傾させた状態で光を射出
させるように配置される閃光発光部と、該光軸の傾きよ
りも傾斜が少ない状態で配置され、少なくとも閃光発光
管側に配置された複数のプリズムに入射した光を各々の
プリズム面により全反射させるとともに、撮影光軸と平
行に光を射出させる光学パネルと、該閃光発光部と該光
学パネル以外の開口部を覆うように構成した反射板とか
ら構成されることを特徴とする写真撮影用照明装置。1. A flash luminous tube and a reflecting shade for controlling a light emitting direction of the flash luminous bulb, and the light is reflected by the reflecting shade.
Light is emitted with the optical axis of the light tilted slightly forward from the vertical direction
And the tilt of the optical axis.
Arranged with less inclination, at least flashing light
Light incident on multiple prisms arranged on the tube side
The prism surface allows total reflection, and the shooting optical axis is flat.
An optical panel for emitting light to a row, the flash light emitting section, and the light
Such as a reflector configured to cover the openings other than the academic panel
An illumination device for photography, which is configured by
りの被写体側にフレネルプリズム面を有し、該フレネル
プリズム面は該反射笠によって反射されない前記閃光発
光管からの直接光を撮影レンズの光軸と平行に曲げるこ
とを特徴とする請求項1記載の写真撮影用照明装置。2. The optical panel further comprises the reflective shade.
Has a Fresnel prism surface on the subject side.
The prism surface emits the flash light that is not reflected by the reflector.
This <br/> the photographic lighting apparatus of claim 1, wherein the bent parallel to the optical axis of the direct light taking lens from the light pipe.
が該閃光発光管の中心位置をほぼ焦点位置とする放物面
で構成されていることを特徴とする請求項1記載の写真
撮影用照明装置。3. The reflection shade has a shape of at least a part thereof.
Is a parabolic surface with the central position of the flash arc tube as the focal position
The illuminating device for photography according to claim 1, wherein
規制する反射笠からなる閃光発光部をカメラ本体に内蔵
し、該反射笠によって反射された光の光軸が垂直方向よ
りやや前傾させた状態で光を射出させるように配置され
る閃光発光部と、該光軸の傾きよりも傾斜が少ない状態
で配置され、少なくとも閃光発光管側に配置された複数
のプリズムに入射した光を各々のプリズム面により全反
射させるとともに、撮影光軸と平行に光を射出させる光
学パネルと、該閃光発光部と該光学パネル以外の開口部
を覆うように構成した反射板とから構成される写真撮影
用照明装置を備えたことを特徴とするカメラ。4. A flash light emitting portion comprising a flash light emitting tube and a reflecting shade for controlling the light emitting direction of said flash emitting tube is built into the camera body, and the optical axis of the light reflected by said reflecting shade is perpendicular to the vertical direction.
It is arranged to emit light in a slightly tilted state
Flashing light emitting section and a state in which the inclination is less than the inclination of the optical axis
And a plurality of them arranged at least on the flash tube side.
The light incident on each prism is totally reflected by each prism surface.
Light that emits light parallel to the shooting optical axis
Panel, opening other than the flash light emitting portion and the optical panel
A camera comprising a lighting device for photography, which comprises a reflector configured to cover the .
は回動可能に支持され、カメラ携帯時には収納可能であ
り、裏面を利用してカメラ保護部材とすることを特徴と
する請求項4記載のカメラ。5. The reflector disposed on the front surface of the flash light emitting portion is rotatably supported and can be stored when the camera is carried, and the back surface is used as a camera protection member. The camera according to claim 4.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16155695A JP3402855B2 (en) | 1995-06-06 | 1995-06-06 | Lighting device for photographing and camera having the lighting device for photographing |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16155695A JP3402855B2 (en) | 1995-06-06 | 1995-06-06 | Lighting device for photographing and camera having the lighting device for photographing |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH08334811A JPH08334811A (en) | 1996-12-17 |
| JP3402855B2 true JP3402855B2 (en) | 2003-05-06 |
Family
ID=15737359
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP16155695A Expired - Fee Related JP3402855B2 (en) | 1995-06-06 | 1995-06-06 | Lighting device for photographing and camera having the lighting device for photographing |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3402855B2 (en) |
Families Citing this family (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP3372785B2 (en) * | 1996-10-09 | 2003-02-04 | キヤノン株式会社 | Illumination device and photographing device using the same |
| US6022117A (en) * | 1996-10-09 | 2000-02-08 | Canon Kabushiki Kaisha | Illuminating device for projecting light |
| WO2003087928A1 (en) * | 2002-04-12 | 2003-10-23 | Mitsubishi Denki Kabushiki Kaisha | Imaging apparatus |
| JP6168779B2 (en) * | 2013-01-25 | 2017-07-26 | キヤノン株式会社 | Lighting device for photography |
| KR102246882B1 (en) * | 2014-01-28 | 2021-04-30 | 엘지이노텍 주식회사 | Camera module |
-
1995
- 1995-06-06 JP JP16155695A patent/JP3402855B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH08334811A (en) | 1996-12-17 |
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