JPH08140117A - Stereoscopic video recording adapter - Google Patents

Stereoscopic video recording adapter

Info

Publication number
JPH08140117A
JPH08140117A JP6276604A JP27660494A JPH08140117A JP H08140117 A JPH08140117 A JP H08140117A JP 6276604 A JP6276604 A JP 6276604A JP 27660494 A JP27660494 A JP 27660494A JP H08140117 A JPH08140117 A JP H08140117A
Authority
JP
Japan
Prior art keywords
shutter
adapter
image
video recording
light flux
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.)
Withdrawn
Application number
JP6276604A
Other languages
Japanese (ja)
Inventor
Kaneyasu Ookawa
金保 大川
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Olympus Corp
Original Assignee
Olympus Optical Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Olympus Optical Co Ltd filed Critical Olympus Optical Co Ltd
Priority to JP6276604A priority Critical patent/JPH08140117A/en
Publication of JPH08140117A publication Critical patent/JPH08140117A/en
Withdrawn legal-status Critical Current

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  • Testing, Inspecting, Measuring Of Stereoscopic Televisions And Televisions (AREA)
  • Television Signal Processing For Recording (AREA)

Abstract

PURPOSE: To easily fit this adapter to recording equipment at the time of a stereoscopic picture by alternately operating two shutter parts of a light flux shutter. CONSTITUTION: Light flux emitted from an object forms an image through an adapter optical system 5 and a photographic lens 46 to an image photodetecting part 48. At such a time, only light beams 9a and 10a and light beams 9b and 10b to pass through opening parts 4a and 4b are contributed to the image formation by a fixed iris 4, and the other light flux is cut off by the iris 4. Object images far from or near the object are respectively made different by being passed through the opening parts 4a and 4b, and deviation difference is generated. Therefore, when an optical image is matched with the photodetecting part 48, the deviation difference is turned to '0' and concerning the image away from the object, the more its range is long, the more the deviation difference is enlarged. Then, two liquid crystal shutters 21a and 21b arranged at the opening parts 4a and 4b are alternately operated by a shutter driving part, the opening parts 4a and 4b are switched, and optical mapping is photodetected at the photodetecting part and recorded for each picture by the light flux passed through one opening. Thus, the stereoscopic picture of the object can be recorded and the configuration of a light flux shutter 35 can be simplified.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、一般のビデオカメラ等
の録画機器により被写体の立体映像を録画する際に用い
る立体映像録画アダプタに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stereoscopic video recording adapter used for recording a stereoscopic video of a subject by a recording device such as a general video camera.

【0002】[0002]

【従来の技術】物体の立体映像を録画する録画機器とし
て、従来特開平4−96493号に開示された立体映像
撮影装置が知られている。この立体映像撮影装置は、両
眼視差に対応して被写体から放射状に拡がる2個の光軸
に対して、ロボット制御により1台のビデオカメラの光
軸が交互に一致するように移動し、2個の光軸上で各々
被写体を撮影して両眼視差に対応する1画面毎の画像を
立体的に録画するようにしたものである。2. Description of the Related Art As a recording device for recording a stereoscopic image of an object, a stereoscopic image capturing apparatus disclosed in Japanese Patent Laid-Open No. 4-96493 is known. This stereoscopic image capturing apparatus moves by robot control so that the optical axes of one video camera are alternately aligned with the two optical axes that radiate from a subject in correspondence with binocular parallax. A subject is photographed on each of the optical axes, and an image for each screen corresponding to binocular parallax is stereoscopically recorded.

【0003】[0003]

【発明が解決しようとする課題】しかしながら、上述し
た立体映像撮影装置の場合、1台のビデオカメラを被写
体から放射状に拡がる2個の光軸の位置に交互に移動す
る構成であるため、ビデオカメラの支持機構部が大型化
するとともにロボット制御のための複雑な制御技術が必
要になるという問題があった。However, in the case of the above-mentioned three-dimensional image capturing apparatus, one video camera is configured to be alternately moved to the positions of two optical axes that radially expand from the subject, and therefore the video camera is used. There is a problem in that the support mechanism of the robot becomes large and a complicated control technique for controlling the robot is required.

【0004】請求項1記載の発明の目的は、大型の支持
機構部や複雑な制御技術を不要とし、被写体の立体映像
を録画する際に録画機器に簡単に取り付けられる小型の
構成からなる立体映像録画アダプタを提供することにあ
る。An object of the present invention is to provide a stereoscopic image having a small structure which does not require a large supporting mechanism or a complicated control technique and can be easily attached to a recording device when recording a stereoscopic image of a subject. To provide a recording adapter.

【0005】請求項2記載の発明の目的は、簡略な構成
の光束シャッタを備えた立体映像録画アダプタを提供す
ることにある。It is an object of the present invention to provide a stereoscopic video recording adapter provided with a light flux shutter having a simple structure.

【0006】請求項3記載の発明の目的は、光束の通過
領域の広い光束シャッタを備えた立体映像録画アダプタ
を提供することにある。An object of the present invention is to provide a stereoscopic video recording adapter provided with a light beam shutter having a wide light beam passage region.

【0007】請求項4記載の発明の目的は、光束の通過
領域のパターンの変更し得る光束シャッタを備えた立体
映像録画アダプタを提供することにある。An object of the present invention is to provide a stereoscopic video recording adapter provided with a light beam shutter capable of changing the pattern of the light beam passage region.

【0008】[0008]

【課題を解決するための手段】請求項1記載の立体映像
録画アダプタは、立体映像を録画する録画機器の撮像レ
ンズに対する入射瞳面をこの撮像レンズの前面に移動さ
せるレンズを含むアフォーカルレンズ群と、このアフォ
ーカルレンズ群により移動させる入射瞳面に配置した左
右両眼の視差に対応する2個の光束の通過又は遮断を行
う2個のシャッタ部を備えた光束シャッタとを備えたア
ダプタ光学系と、このアダプタ光学系の前記光束シャッ
タの2個のシャッタ部を交互に動作させるシャッタ駆動
部とを有するものである。A stereoscopic video recording adapter according to claim 1, wherein an afocal lens group including a lens for moving an entrance pupil plane of an imaging lens of a recording device for recording stereoscopic video to a front surface of the imaging lens. And an optical flux shutter provided with two shutter sections for passing or blocking two luminous fluxes corresponding to the parallax of the left and right eyes arranged on the entrance pupil plane moved by the afocal lens group. The system and a shutter drive section for alternately operating the two shutter sections of the light beam shutter of this adapter optical system.

【0009】請求項2記載の立体映像録画アダプタは、
前記光束シャッタを、アフォーカルレンズ群により移動
させる入射瞳面に配置した2個の開口部を有する固定絞
りと、この固定絞りの2個の開口部に各々取り付けた単
一セルからなる2個の液晶シャッタとにより構成したも
のである。A stereoscopic video recording adapter according to claim 2 is
A fixed diaphragm having two apertures arranged on the entrance pupil plane where the light beam shutter is moved by an afocal lens group, and two single cells each of which is attached to each of the two apertures of the fixed diaphragm. It is composed of a liquid crystal shutter.

【0010】請求項3記載の立体映像録画アダプタは、
前記光束シャッタを、2個の単一セルからなる液晶シャ
ッタを接合し接合部分の付近を遮光材で覆った2分割液
晶シャッタにより構成したものである。The stereoscopic video recording adapter according to claim 3 is
The luminous flux shutter is configured by a two-divided liquid crystal shutter in which liquid crystal shutters composed of two single cells are joined and the vicinity of the joined portion is covered with a light shielding material.

【0011】請求項4記載の立体映像録画アダプタは、
前記光束シャッタを、多数の液晶セルを平面配置して一
体に構成し、この光束シャッタの両眼視差に対応する2
箇所の領域の各液晶セルを前記シャッタ駆動部からの駆
動信号により1画面毎に交互に所定のパターンで駆動し
て2個のシャッタ部とするものである。The stereoscopic video recording adapter according to claim 4 is
The light flux shutter is integrally configured by arranging a large number of liquid crystal cells on a plane, and the light flux shutter has two binocular parallaxes.
Each liquid crystal cell in the region of the location is alternately driven in a predetermined pattern for each screen by a drive signal from the shutter drive section to form two shutter sections.

【0012】[0012]

【作用】以下に本発明の作用を説明する。The function of the present invention will be described below.

【0013】請求項1記載の立体映像録画アダプタを録
画機器の撮像レンズに取り付けると、この立体映像録画
アダプタのアフォーカルレンズ群により前記撮像レンズ
に対する入射瞳面がこの撮像レンズの前面に移動する。
この状態で、シャッタ駆動部により、移動後の入射瞳面
に配置した光束シャッタの左右両眼の視差に対応する2
個の光束の通過又は遮断を行う2個のシャッタ部を交互
に駆動することにより、この立体映像録画アダプタに入
射する光束は左右両眼の視差に対応する2個の光束に分
離され交互に撮像レンズに入射する。これにより、従来
例のような大型の支持機構部や複雑な制御技術を必要と
しない小型かつ簡略な構成で録画機器の撮像レンズに取
り付けて立体映像を録画することができる。When the stereoscopic video recording adapter according to claim 1 is attached to the imaging lens of the recording device, the entrance pupil plane for the imaging lens moves to the front surface of the imaging lens by the afocal lens group of the stereoscopic video recording adapter.
In this state, the shutter drive unit corresponds to the parallax between the left and right eyes of the light beam shutter arranged on the entrance pupil plane after movement.
By alternately driving the two shutter units that pass or block the individual light fluxes, the light flux that enters this stereoscopic video recording adapter is separated into two light fluxes corresponding to the parallax of the left and right eyes, and the images are taken alternately. Incident on the lens. As a result, a stereoscopic image can be recorded by being attached to the image pickup lens of the recording device with a small and simple configuration that does not require a large supporting mechanism section or a complicated control technique as in the conventional example.

【0014】請求項2記載の立体映像録画アダプタは、
前記光束シャッタを、アフォーカルレンズ群により移動
させる入射瞳面に配置した2個の開口部を有する固定絞
りと、この固定絞りの2個の開口部に各々取り付けた単
一セルからなる2個の液晶シャッタとにより構成したの
で、この光束シャッタの構成が極めて簡略となる。A stereoscopic video recording adapter according to claim 2 is
A fixed diaphragm having two apertures arranged on the entrance pupil plane where the light beam shutter is moved by an afocal lens group, and two single cells each of which is attached to each of the two apertures of the fixed diaphragm. Since it is composed of a liquid crystal shutter, the structure of this light flux shutter is extremely simple.

【0015】請求項3記載の立体映像録画アダプタは、
前記光束シャッタを、2個の単一セルからなる液晶シャ
ッタを接合し接合部分の付近を遮光材で覆った2分割液
晶シャッタにより構成したので、2個の単一セルからな
る液晶シャッタの形状に応じて光束の通過領域を広くす
ることができ、暗い撮影環境にも対応できる。The stereoscopic video recording adapter according to claim 3 is
Since the light flux shutter is composed of a two-divided liquid crystal shutter in which liquid crystal shutters composed of two single cells are joined and the vicinity of the joined portion is covered with a light shielding material, a liquid crystal shutter formed of two single cells is formed. Accordingly, the area through which the light flux passes can be widened, and it is possible to cope with a dark shooting environment.

【0016】請求項4記載の立体映像録画アダプタは、
前記光束シャッタを、多数の液晶セルを平面配置して一
体に構成し、この光束シャッタの左右両眼の視差に対応
する2箇所の領域の各液晶セルを前記シャッタ駆動部か
らの駆動信号により1画面毎に交互に所定のパターンで
駆動して2個のシャッタ部とするものであるから、光束
の通過領域のパターンを用途に応じてソフトウェア上で
変更でき、この立体映像録画アダプタの用途の多様化を
図れる。A stereoscopic video recording adapter according to claim 4 is
The light flux shutter is integrally configured by arranging a large number of liquid crystal cells in a plane, and each liquid crystal cell in two regions corresponding to the parallax between the left and right eyes of the light flux shutter is set to 1 by a drive signal from the shutter drive section. Since two shutters are driven alternately in a predetermined pattern for each screen, the pattern of the passage area of the light flux can be changed by software according to the application, and the various applications of this stereoscopic video recording adapter are possible. Can be realized.

【0017】[0017]

【実施例】以下に本発明の実施例を説明する。Embodiments of the present invention will be described below.

【0018】(第1実施例)図1は、第1実施例の立体
映像録画アダプタのアダプタ光学系5の構成を示し、図
2は第1実施例の立体映像録画アダプタのシャッタ駆動
部30を示すものである。また、図3は第1実施例の立
体映像録画アダプタの固定絞り4及び液晶シャッタ21
a、21bからなる光束シャッタ35を示すものであ
る。(First Embodiment) FIG. 1 shows the configuration of the adapter optical system 5 of the stereoscopic video recording adapter of the first embodiment, and FIG. 2 shows the shutter drive unit 30 of the stereoscopic video recording adapter of the first embodiment. It is shown. 3 shows the fixed aperture 4 and the liquid crystal shutter 21 of the stereoscopic video recording adapter of the first embodiment.
3 shows a light beam shutter 35 including a and 21b.

【0019】図1に示す立体映像録画アダプタのアダプ
タ光学系5は、撮像レンズ46、絞り47、画像受光部
48を含む通常のレンズ付のビデオカメラ40の前面に
取り付けられるようになっている。このアダプタ光学系
5は、ビデオカメラ40の撮像レンズ46に対する入射
瞳面をこの撮像レンズ46の前面に移動させるアフォー
カルレンズ群と、このアフォーカルレンズ群により移動
させる入射瞳面に配置した左右両眼の視差に対応する2
個の光束の通過又は遮断を行う固定絞り4及び2個のシ
ャッタ部を構成する液晶シャッタ21a、21bからな
る光束シャッタ35とを備えている。即ち、固定絞り4
には2個の開口部4a、4bが設けられ、この開口部4
a、4bに対して図3に示すようにそれぞれ単一セルの
液晶シャッタ21a、21bを取り付けている(2点鎖
線部に固定)。The adapter optical system 5 of the stereoscopic video recording adapter shown in FIG. 1 is designed to be attached to the front surface of a video camera 40 with a normal lens including an image pickup lens 46, an aperture 47, and an image receiving section 48. This adapter optical system 5 includes an afocal lens group that moves the entrance pupil surface of the video camera 40 to the imaging lens 46 to the front surface of the imaging lens 46, and both left and right lenses arranged on the entrance pupil surface that is moved by the afocal lens group. 2 corresponding to the parallax of the eye
A fixed aperture 4 for passing or blocking one light beam and a light beam shutter 35 including liquid crystal shutters 21a and 21b constituting two shutter portions are provided. That is, fixed aperture 4
The two openings 4a and 4b are provided in the
As shown in FIG. 3, liquid crystal shutters 21a and 21b each having a single cell are attached to a and 4b (fixed to a two-dot chain line portion).

【0020】前記アフォーカルレンズ群は、アフォーカ
ル前群レンズ2、アフォーカル後群レンズ3により構成
している。そして、アフォルーカル後群レンズ3及び撮
像レンズ46による像面を入射瞳面とし、この入射瞳面
に固定絞り4が配置されるようになっている。The afocal lens group is composed of an afocal front lens group 2 and an afocal rear lens group 3. The image plane formed by the afocal rear lens group 3 and the imaging lens 46 serves as an entrance pupil plane, and the fixed diaphragm 4 is arranged on this entrance pupil plane.

【0021】このことにより通常、前記ビデオカメラ4
0の内部に存在する入射瞳面を、外部、即ち、立体映像
録画アダプタのアダプタ光学系5内に移動することがで
き、この位置で絞りを操作することが可能となる。アダ
プタ光学系5には撮像レンズ46の仕様と同等にするた
めに上述したアフォーカルレンズ群が採用される。Therefore, the video camera 4 is normally used.
The entrance pupil plane existing inside 0 can be moved to the outside, that is, inside the adapter optical system 5 of the stereoscopic video recording adapter, and the diaphragm can be operated at this position. The adapter optical system 5 employs the above-described afocal lens group so as to have the same specifications as the imaging lens 46.

【0022】前記液晶シャッタ21a、21bは、図2
に示すように、シャッタ駆動部50からの駆動信号によ
り交互に駆動され、交互に光束の透過又は遮断を行うよ
うになっている。The liquid crystal shutters 21a and 21b are shown in FIG.
As shown in FIG. 5, the shutter drive unit 50 alternately drives to alternately pass or block the light beam.

【0023】次に、前記立体映像録画アダプタの作用を
説明する。図1は、物体(被写体)1の中心部の画像を
形成する状態を示しており、物体1の中心部を発した光
束はアダプタ光学系5及び撮像レンズ46により画像受
光部48の中心部に結像する。ここで前記固定絞り4に
より、開口部4aを通過する光線9a及び10aで決定
される光束及び開口部4aを通過する光線9b及び10
bで決定される光束のみが結像に寄与し、他の光束は固
定絞り4にて遮断される。Next, the operation of the stereoscopic video recording adapter will be described. FIG. 1 shows a state in which an image of the central part of the object (subject) 1 is formed, and the light flux emitted from the central part of the object 1 is directed to the central part of the image light receiving part 48 by the adapter optical system 5 and the imaging lens 46. Form an image. Here, by the fixed diaphragm 4, the light fluxes determined by the light rays 9a and 10a passing through the opening 4a and the light rays 9b and 10 passing through the opening 4a.
Only the light flux determined by b contributes to image formation, and the other light flux is blocked by the fixed diaphragm 4.

【0024】図4は、物体1の周辺部の画像を形成する
状態を示しており、物体1の周辺部を発した光束は、ア
ダプタ光学系5及び撮像レンズ46,絞り47により画
像受光部8の周辺部に結像する。ここで、図1の場合と
同様に前記開口部4aを通過する光線12a及び13a
で決定される光束及び開口部4bを通過する光線12b
及び13bで決定される光束のみが結像に寄与する。FIG. 4 shows a state in which an image of the peripheral portion of the object 1 is formed, and the light flux emitted from the peripheral portion of the object 1 is imaged by the adapter optical system 5, the imaging lens 46 and the diaphragm 47. Image on the periphery of Here, as in the case of FIG. 1, light rays 12a and 13a passing through the opening 4a.
Light beam 12b passing through the light flux and the opening 4b determined by
, And 13b only contribute to the image formation.

【0025】図1において、中心部を発し、開口部4a
及び4bの中心を通過する光線をそれぞれ開口部4a及
び4bの軸上主光線と呼び、それぞれ11a及び11b
で表すものとする、また図4において周辺部4a及び4
bの軸外主光線と呼び、それぞれ14a及び14bで表
すものとする。In FIG. 1, the central portion is emitted and the opening 4a is formed.
And rays passing through the centers of 4b are called axial chief rays of the openings 4a and 4b, respectively, and 11a and 11b, respectively.
4 and the peripheral portions 4a and 4 in FIG.
It is called an off-axis chief ray of b, and is represented by 14a and 14b, respectively.

【0026】図5乃至図7は、本実施例の作用をさらに
解り易く説明するために、軸上主光線11a及び11
b、軸外主光線14a及び14bのみを用いてアダプタ
光学系5の作用を説明するものである。FIGS. 5 to 7 show the axial chief rays 11a and 11 in order to make it easier to understand the operation of this embodiment.
The operation of the adapter optical system 5 will be described using only b and the off-axis chief rays 14a and 14b.

【0027】図5は、図1及び図4より軸上主光線11
a及び11b以外の光線、軸外主光線14a及び14b
以外の光線を除いて重ねた図である。即ち、物体1の光
学像が画像受光部48に形成される状態を示している。
図6は物体1より遠く(図5で物体1より左側)にある
物体を発した光束の経路を示しており、図7は逆に物体
1より近く(図5で物体1より右側)にある物体を発し
た光束の経路を示している。FIG. 5 shows the axial chief ray 11 from FIGS. 1 and 4.
Rays other than a and 11b, off-axis chief rays 14a and 14b
It is the figure piled up except the light rays other than. That is, a state is shown in which an optical image of the object 1 is formed on the image light receiving unit 48.
6 shows a path of a light beam emitted from an object located farther from the object 1 (on the left side of the object 1 in FIG. 5), and FIG. 7 is located closer to the object 1 (on the right side of the object 1 in FIG. 5). The path of the light flux emitted from the object is shown.

【0028】図6においては、光学像は画像受光部48
の前方(図6で左側)の面15に形成される。16a及
び16bは、それぞれこの時の開口部4a及び4bの軸
上主光線であり、17a及び17bは、それぞれこの時
開口部4a及び4bの軸外主光線である。In FIG. 6, the optical image is the image light receiving portion 48.
Is formed on the front surface 15 (on the left side in FIG. 6). 16a and 16b are the axial chief rays of the openings 4a and 4b at this time, respectively, and 17a and 17b are the off-axis chief rays of the openings 4a and 4b, respectively.

【0029】また図7においては、光学像は画像受光部
48の後方(図7で右側)の面18に形成され、19a
及び19bは、それぞれこの時の開口部4a及び4bの
軸上主光線であり、20a及び20bは、それぞれこの
時の開口部4a及び4bの軸外主光線である。Further, in FIG. 7, the optical image is formed on the rear surface 18 (right side in FIG. 7) of the image light receiving portion 48, and 19a
And 19b are the axial chief rays of the openings 4a and 4b at this time, respectively, and 20a and 20b are the off-axis chief rays of the openings 4a and 4b at this time, respectively.

【0030】前記軸上主光線11a及び11bと、画像
受光部48との交点が得られる画像の像点となる。従っ
て図5においては、画像受光部48上で形成される画像
は開口部4aを通過する場合でも、開口部4bを通過す
る場合でも、同一の像なる。The intersections of the axial chief rays 11a and 11b and the image light-receiving section 48 are image points of the obtained image. Therefore, in FIG. 5, the image formed on the image receiving unit 48 is the same image when passing through the opening 4a and when passing through the opening 4b.

【0031】一方、物体1より遠くの物体の画像は、図
6の如く開口部4aを通過する場合と開口部4bを通過
する場合とで異なる。また物体1より近くの物体の画像
は、図7の如く開口部4aを通過する場合と開口部4b
を通過する場合とで異なる。すなわち、いずれの場合で
も2個の光束による画像がずれることになる。そして、
ずれる方向が図6と図7で逆になる。このずれ差を像位
相差と称し、両眼の視差により生じる像位相差と等価で
ある。On the other hand, the image of an object farther than the object 1 is different when passing through the opening 4a and when passing through the opening 4b as shown in FIG. Further, an image of an object nearer to the object 1 passes through the opening 4a as shown in FIG.
It is different when passing through. That is, in any case, the images formed by the two light beams are displaced. And
The shift direction is opposite between FIG. 6 and FIG. 7. This shift difference is called an image phase difference, and is equivalent to an image phase difference caused by the parallax of both eyes.

【0032】従って、光学像が画像受光部48に一致し
た時のみ像位相差が0となり、この時の物体1より離れ
た物体の画像は離れる距離が大きい程、像位相差が大き
くなる。そして開口部4a及び4bの近くに配設された
2個の液晶シャッタ21a及び21bを図2に示すシャ
ッタ駆動部50により交互に動作させ、開口部4a及び
4bの一方を通過する光束のみで形成される光学像を受
光し、1画面毎に前記通過する開口部4a及び4bを交
互に切替えて画像受光部48に受光し、録画することに
より、物体1の立体映像を録画することができる。Therefore, the image phase difference becomes 0 only when the optical image coincides with the image receiving portion 48, and the image phase difference becomes larger as the distance of the image of the object apart from the object 1 at this time increases. The two liquid crystal shutters 21a and 21b arranged near the openings 4a and 4b are alternately operated by the shutter drive unit 50 shown in FIG. 2 to form only the light flux passing through one of the openings 4a and 4b. A stereoscopic image of the object 1 can be recorded by receiving the optical image thus formed, alternately switching the passing openings 4a and 4b for each screen, and receiving the image by the image light receiving unit 48 for recording.

【0033】上述した立体映像録画アダプタによれば、
従来例のような大型の支持機構部や複雑な制御技術を必
要としない小型かつ簡略な構成で前記撮像レンズ46の
前面に取り付けて立体映像を録画することができる。ま
た、前記光束シャッタ35を、2個の開口部4a、4b
を有する固定絞り4と、この固定絞り4の開口部4a、
4bに各々取り付けた単一セルからなる2個の液晶シャ
ッタ21a、21bとにより構成したので、この光束シ
ャッタ35の構成が極めて簡略となる。According to the stereoscopic video recording adapter described above,
A stereoscopic image can be recorded by being attached to the front surface of the image pickup lens 46 with a small and simple structure that does not require a large supporting mechanism section or a complicated control technique as in the conventional example. In addition, the light flux shutter 35 is provided with two openings 4a and 4b.
And a fixed aperture 4 having an aperture 4a,
Since it is composed of two liquid crystal shutters 21a and 21b each of which is composed of a single cell attached to 4b, the structure of the light flux shutter 35 becomes extremely simple.

【0034】(第2実施例)図8は、前記立体映像録画
アダプタにおける光束シャッタ35の代りに用いる光束
シャッタ37を示すものである。この光束シャッタ37
は、2個の長方形状の単一セルからなる液晶シャッタ3
7a、37bを接合し、接合部分(図8において2点鎖
線で示す部分)の付近を遮光材36(例えば、黒色塗装
を施した金属板等)で遮蔽した2分割型の構成である。
この光束シャッタ37によれば、液晶シャッタ37a、
37bの形状に応じて光束の通過領域を広くすることが
でき、暗い撮影環境においても最適録画が可能となる。(Second Embodiment) FIG. 8 shows a luminous flux shutter 37 used in place of the luminous flux shutter 35 in the stereoscopic video recording adapter. This light beam shutter 37
Is a liquid crystal shutter 3 composed of two rectangular single cells.
7a and 37b are joined together, and the vicinity of the joined portion (the portion indicated by the chain double-dashed line in FIG. 8) is shielded by a light-shielding material 36 (for example, a metal plate coated with black) to form a two-part configuration.
According to the light flux shutter 37, the liquid crystal shutter 37a,
The light flux passage area can be widened according to the shape of 37b, and optimal recording can be performed even in a dark shooting environment.

【0035】(第3実施例)図9及び図10は、前記立
体映像録画アダプタにおける光束シャッタ35の代りに
用いる光束シャッタ38を示すものである。この光束シ
ャッタ38は、微小サイズの多数の液晶セルを平面配置
して一体に構成し、この光束シャッタ37の左右両眼の
視差に対応する2箇所の領域38a、38aの各液晶セ
ルを前記シャッタ駆動部50からの駆動信号により1画
面毎に交互に所定のパターンで駆動して左右両眼の視差
に対応する2個のシャッタ部とするものである。この場
合、予め設定されているプログラムに従ってソフトウェ
ア上で各微小サイズの多数の液晶セルの駆動パターンを
変更することで、光束の通過領域のパターンを用途に応
じて変更でき、この光束シャッタ38を用いる立体映像
録画アダプタの用途の多様化を図れる。(Third Embodiment) FIGS. 9 and 10 show a luminous flux shutter 38 used in place of the luminous flux shutter 35 in the stereoscopic video recording adapter. The light flux shutter 38 is formed by integrally arranging a large number of minute liquid crystal cells in a plane, and the liquid crystal cells in two regions 38a and 38a corresponding to the parallax of the left and right eyes of the light flux shutter 37 are provided as the shutters. The two shutter units corresponding to the parallax of the left and right eyes are alternately driven in a predetermined pattern for each screen by a driving signal from the driving unit 50. In this case, by changing the driving patterns of a large number of liquid crystal cells of each small size on software according to a preset program, the pattern of the light flux passage region can be changed according to the application, and the light flux shutter 38 is used. It is possible to diversify the applications of the stereoscopic video recording adapter.

【0036】[0036]

【発明の効果】以上詳述した本発明によれば、以下の効
果を奏する。According to the present invention described in detail above, the following effects can be obtained.

【0037】請求項1記載の発明によれは、従来例のよ
うな大型の支持機構部や複雑な制御技術を必要としない
小型かつ簡略な構成の立体映像録画アダプタを提供する
ことができる。According to the first aspect of the present invention, it is possible to provide a stereoscopic video recording adapter having a small size and a simple structure which does not require a large-sized support mechanism section or a complicated control technique as in the conventional example.

【0038】請求項2記載の発明によれば、光束シャッ
タの構成が極めて簡略な立体映像録画アダプタを提供す
ることができる。According to the second aspect of the present invention, it is possible to provide a stereoscopic video recording adapter in which the structure of the luminous flux shutter is extremely simple.

【0039】請求項3記載の発明によれば、光束の通過
領域を広くすることができ、暗い撮影環境にも対応でき
る立体映像録画アダプタを提供することができる。According to the third aspect of the present invention, it is possible to provide a stereoscopic video recording adapter capable of widening the light flux passage region and adapting to a dark photographing environment.

【0040】請求項4記載の発明によれば、光束シャッ
タにおける光束の通過領域のパターンを用途に応じて変
更でき、用途の多様化を図れる立体映像録画アダプタを
提供することができる。According to the fourth aspect of the present invention, it is possible to provide a stereoscopic video recording adapter which can change the pattern of the passage area of the light flux in the light flux shutter according to the application and can diversify the application.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の第1実施例の立体映像録画アダプタの
アダプタ光学系及びテレビカメラを示す光学配置図であ
る。FIG. 1 is an optical layout diagram showing an adapter optical system and a television camera of a stereoscopic video recording adapter according to a first embodiment of the present invention.

【図2】本発明の第1実施例の立体映像録画アダプタの
シャッタ駆動部及び液晶シャッタの駆動系を示すブロッ
ク図である。FIG. 2 is a block diagram showing a shutter driving unit and a liquid crystal shutter driving system of the stereoscopic video recording adapter according to the first embodiment of the present invention.

【図3】本発明の第1実施例の立体映像録画アダプタの
光束シャッタの正面図である。FIG. 3 is a front view of a luminous flux shutter of the stereoscopic video recording adapter according to the first embodiment of the present invention.

【図4】本発明の第1実施例のアダプタ光学系に物体の
周辺部から光束が入射する場合の光路説明図である。FIG. 4 is an explanatory diagram of an optical path when a light flux enters the adapter optical system according to the first embodiment of the present invention from a peripheral portion of an object.

【図5】本発明の第1実施例のアダプタ光学系に物体の
中心部及び周辺部から光束が入射する場合の光路説明図
である。FIG. 5 is an explanatory diagram of an optical path when a light beam enters the adapter optical system according to the first embodiment of the present invention from the central portion and the peripheral portion of an object.

【図6】本発明の第1実施例のアダプタ光学系に物体よ
り近くの位置から光束が入射する場合の光路説明図であ
る。FIG. 6 is an explanatory diagram of an optical path when a light beam is incident on the adapter optical system according to the first embodiment of the present invention from a position closer to an object.

【図7】本発明の第1実施例のアダプタ光学系に物体よ
り遠くの位置から光束が入射する場合の光路説明図であ
る。FIG. 7 is an explanatory diagram of an optical path when a light beam is incident on the adapter optical system according to the first embodiment of the present invention from a position distant from the object.

【図8】本発明の第2実施例のアダプタ光学系に用いる
光束シャッタを示す正面図である。FIG. 8 is a front view showing a light beam shutter used in an adapter optical system according to a second embodiment of the present invention.

【図9】本発明の第3実施例のアダプタ光学系に用いる
光束シャッタの左右両眼の視差に対応する一方の領域を
駆動した状態を示す正面図である。FIG. 9 is a front view showing a state in which one region corresponding to the parallax between the left and right eyes of the light beam shutter used in the adapter optical system of the third embodiment of the present invention is driven.

【図10】本発明の第3実施例のアダプタ光学系に用い
る光束シャッタの左右両眼の視差に対応する他方の領域
を駆動した状態を示す正面図である。FIG. 10 is a front view showing a state in which the other area corresponding to the parallax between the left and right eyes of the light beam shutter used in the adapter optical system of the third embodiment of the present invention is driven.

【符号の説明】[Explanation of symbols]

1 物体 2 アフォーカル前群レンズ 3 アフォーカル後群レンズ 4 固定絞り 4a 開口部 4b 開口部 5 アダプタ光学系 20 光束シャッタ 21a 液晶シャッタ 21b 液晶シャッタ 30 シャッタ駆動部 35 光束シャッタ 40 テレビカメラ 46 撮像レンズ 47 絞り 48 画像受光部 1 Object 2 Afocal Front Group Lens 3 Afocal Rear Group Lens 4 Fixed Aperture 4a Aperture 4b Aperture 5 Adapter Optical System 20 Light Beam Shutter 21a Liquid Crystal Shutter 21b Liquid Crystal Shutter 30 Shutter Drive Unit 35 Light Beam Shutter 40 TV Camera 46 Imaging Lens 47 Aperture 48 Image receiver

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】 立体映像を録画する録画機器の撮像レン
ズに対する入射瞳面をこの撮像レンズの前面に移動させ
るレンズを含むアフォーカルレンズ群と、このアフォー
カルレンズ群により移動させる入射瞳面に配置した左右
両眼の視差に対応する2個の光束の通過又は遮断を行う
2個のシャッタ部を備えた光束シャッタとを備えたアダ
プタ光学系と、このアダプタ光学系の前記光束シャッタ
の2個のシャッタ部を交互に動作させるシャッタ駆動部
とを有することを特徴とする立体映像録画アダプタ。1. An afocal lens group including a lens for moving an entrance pupil surface of an imaging lens of a recording device for recording a stereoscopic image to a front surface of the imaging lens, and an entrance pupil surface moved by the afocal lens group. And an adapter optical system including a light beam shutter having two shutter portions that pass or block two light beams corresponding to the parallax of the left and right eyes, and the two light beam shutters of the light beam shutter of the adapter optical system. A stereoscopic video recording adapter, comprising: a shutter drive section that alternately operates shutter sections. 【請求項2】 前記光束シャッタは、アフォーカルレン
ズ群により移動させる入射瞳面に配置した2個の開口部
を有する固定絞りと、この固定絞りの2個の開口部に各
々取り付けた単一セルからなる2個の液晶シャッタとに
より構成した請求項1記載の立体映像録画アダプタ。2. The light beam shutter has a fixed diaphragm having two openings arranged on an entrance pupil plane which is moved by an afocal lens group, and a single cell attached to each of the two openings of the fixed diaphragm. The stereoscopic video recording adapter according to claim 1, wherein the stereoscopic video recording adapter comprises two liquid crystal shutters. 【請求項3】 前記光束シャッタは、2個の単一セルか
らなる液晶シャッタを接合し接合部分の付近を遮光材で
覆った2分割液晶シャッタにより構成したものである請
求項1記載の立体映像録画アダプタ。3. The stereoscopic image according to claim 1, wherein the light flux shutter is composed of a two-divided liquid crystal shutter in which liquid crystal shutters composed of two single cells are joined and the vicinity of the joined portion is covered with a light shielding material. Recording adapter. 【請求項4】 前記光束シャッタは、多数の液晶セルを
平面配置して一体に構成され、この光束シャッタの両眼
視差に対応する2箇所の領域の各液晶セルを前記シャッ
タ駆動部からの駆動信号により1画面毎に交互に所定の
パターンで駆動して2個のシャッタ部とするものである
請求項1記載の立体映像録画アダプタ。4. The light flux shutter is integrally configured by arranging a large number of liquid crystal cells in a plane, and driving each liquid crystal cell in two regions corresponding to the binocular parallax of the light flux shutter from the shutter drive section. 3. The stereoscopic video recording adapter according to claim 1, wherein the three-dimensional video recording adapter is driven alternately in a predetermined pattern for each screen by a signal to form two shutter units.
JP6276604A 1994-11-10 1994-11-10 Stereoscopic video recording adapter Withdrawn JPH08140117A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP6276604A JPH08140117A (en) 1994-11-10 1994-11-10 Stereoscopic video recording adapter

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP6276604A JPH08140117A (en) 1994-11-10 1994-11-10 Stereoscopic video recording adapter

Publications (1)

Publication Number Publication Date
JPH08140117A true JPH08140117A (en) 1996-05-31

Family

ID=17571763

Family Applications (1)

Application Number Title Priority Date Filing Date
JP6276604A Withdrawn JPH08140117A (en) 1994-11-10 1994-11-10 Stereoscopic video recording adapter

Country Status (1)

Country Link
JP (1) JPH08140117A (en)

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