五、新型說明: 【新型所屬之技術領域】 灸本創作「調節光線之影像合成設備」,涉及一種透過 1二,波與物光光波產生干涉條紋來記錄影像於底片之 ο衣置,特別指設有衰減元件用以調整參考光波物光 光波強度,II以控制記錄於底片的影像明亮度達到一致 之創新結構者. 【先前技術】 认近年來,立體電影的拍攝與播放技術越趨成熟,在 幾部立體電影票房大賣之後,立體影像廣受各界囑目與 好。平,不僅片商一窩蜂投入製作立體電影,電視製造商 更是大舉投入開發立體電視的行列。 除了立體電影與立體電視之外,全像展示更是未來 的趨勢之一 所謂全像展示,係以一投影裝置將一 發屐 t像展示片上所記錄的影像投射出,該影像映入人眼後 藉影像角度的差異進而令人產生立體視覺感。 全像展示,係取一物體,於同一水平高度及距離 之下,環繞三百六十度攝得不限數量之各面二維影像, 再將這些二維影像依序記錄於一環形底片上^重建立體 影像時,係於全像展示片下方或後方設置—重建光源, 重建光線穿射過全像展示片進而將影像投射出。當觀察 者位於適當位置,雙眼會接收攝影角度相異的兩幀平面 影像,而對該物體產生立體視覺。 習知建立全像展示片之裝置,係將一光源分成參考 雒与:光#中物光經濾波為物光光波後,投射物體二 ^至展不片;參考光經過濾波為參考光波後,以不 二:物光光波之入射角度照射至展示片。藉由參考光波 铃物光光波兩者產生千.牛备 座生干涉條紋,將二維影像記錄於展示 二中光源係為—雷射光發生機,可發射出紅色、綠 或監色專各種顏色光束。 由於不同色的光具有不同的波長與繞射角度,紅色 Ά色,' I色衫像在以白色光源重建影像時,其影像光 線繞射角度各不相同’影像投射角度不同而無法重疊, 撕法建立多彩立體影像。 斤習知展示片無法重建多彩立體影像之示意圖,可參 閱第t 一圖所示。在重建三維立體影像時,以單一光源作 為:光’將展示片投影出立體影像。若取紅色影像光線 為標準’綠色影像光線投射角度會偏高,藍色影像光線 則偏差更多。因此,習知全像展示片所重建的立體影像 係為三色分離之單色影像,&法忠實呈現物體原本色 彩。 此外,參考光波與物光光波在濾波與投射過程中, 可能會有光強度衰減的情形,造成記錄於展示片的每一 幀影像明亮度不一。如此一來’投射出的立體影像於不 同角度觀賞時,也會有亮度、色彩飽和度不一致而失真 的情形。 創作人有鑑於習知全像展示片僅能單色顯示以及影 像失真等缺失,為追求更具真實感的立體影像表現,遂 4寸以研創成本案’期能籍本案之提出,俾改進現有缺點 ’期使重建立體影像能臻致完善與理想。 【新型内容】V. New Description: [New Technology Field] Moxibustion This book "Image Fusion Equipment for Adjusting Light" involves recording the image on the film through the interference fringes generated by the wave, light wave and object light wave, especially Attenuating element is provided for adjusting the intensity of the light wave of the reference light wave, and II is used to control the innovative structure of the image brightness recorded on the film. [Prior Art] In recent years, the shooting and playing technology of the stereoscopic movie has become more mature. After several large-scale movie box office sales, stereoscopic images have been well received by all walks of life. Ping, not only the filmmakers have invested in making stereoscopic movies, but TV manufacturers have invested heavily in the development of stereoscopic TVs. In addition to stereoscopic movies and stereoscopic TVs, the holographic display is one of the future trends. The so-called holographic display projects a projection device to project images recorded on a display image, which is reflected in the human eye. The difference in image angles in turn leads to a stereoscopic sense. The holographic display captures an object, at an equal level and distance, and captures an unlimited number of 2D images around 360 degrees, and then records the 2D images sequentially on an annular film. ^ When reconstructing a stereoscopic image, it is placed below or behind the holographic display to reconstruct the light source, and the reconstructed light passes through the holographic display to project the image. When the observer is in the proper position, both eyes receive two plane images with different photographic angles, and stereoscopic vision is generated for the object. The device for establishing a full-image display film is divided into a reference light source and a light source. After the object light is filtered into the object light wave, the object is projected to the second object; after the reference light is filtered into the reference light wave, The illumination is irradiated to the display sheet at an incident angle of the object light. By referring to the light and light waves of the light wave, the interference fringes are generated, and the two-dimensional image is recorded in the display. The light source is a laser light generator, which can emit red, green or color. beam. Since different colors of light have different wavelengths and diffraction angles, red Ά color, 'I color jersey image when the image is reconstructed with a white light source, the image light diffraction angle is different' image projection angle is different and can not overlap, tear The method establishes a colorful stereoscopic image. A schematic diagram of the inability to reconstruct a colorful stereo image can be found in Figure 1. When reconstructing a three-dimensional image, a single light source is used as: light' to project a display image into a stereoscopic image. If the red image light is taken as the standard, the green image light projection angle will be higher, and the blue image light will be more biased. Therefore, the stereoscopic image reconstructed by the conventional holographic display film is a three-color separated monochrome image, and the & method faithfully presents the original color of the object. In addition, in the filtering and projection process of the reference light wave and the object light wave, there may be a case where the light intensity is attenuated, and the brightness of each frame recorded on the display sheet is different. As a result, when the projected stereoscopic image is viewed at different angles, the brightness and color saturation may be inconsistent and distorted. The creator has a lack of monochrome display and image distortion in view of the omnipresent display. In order to pursue a more realistic three-dimensional image performance, the 遂 4 inch research and development cost case can be used to improve the existing shortcomings. The period of reconstruction makes stereoscopic images perfect and ideal. [New content]
本創作「調節弁垮夕& M 於:因A各色,A Η 象合成設備」,其主要目的在 改變底動參考光波的照❹度,預先 同mi 之繞射角度,重建立體影像時,不 相同的繞射角度;其次乃適當調整參 考光波與物光光波之強库 古 又,々母幀紀錄於底片的影像明 7C度白為一致,達到各声 分巴衫像豐合建立完整而不失直之 多彩立體影像之目的。 个天/、之 為達上述目的,本安 孓木具妝之内容包含有:一發光單 元、一分光單元、一補伊„ _ 一 補h早兀、一投影單元、一擷影單 元、一底片及一光控單升‘ 早凡,其中’發光單元係一雷射光 源發生機,能發射雷身十也 货扣·田射先束;雷射光束照射至分光單元 ,被分裂為·一道炎者伞& /考先束鉍一道物光光束並穿射過光控 單元,隨後參考光|Α β a 射向補侦單元、物光光束射向投影 單元。 補償單元中包含有渡波元件及微調元件,當參考光 束射入濾波元件,會被轉換成參考光波而投射至底片上 ;微調元件則用於改變參考光波之入射角度。 投影單元中則包含有濾波元件、顯像元件、攝影元 件與電腦’物光光束照射至渡波元件而轉換為物光光波 ’另彳面’擷影單7L取得物體之二維影像,經電腦處 理分色為紅色、綠色與藍色影像,分批次傳送至顯像元 件顯:,物光光波照射至顯像元件,反射物體的二維影 像,最後物光光波投射至底片。 ^ 光拴單TL係包含衰減元件與感應元件,衰減元件分 6 M405612 設於參考光束與物光光束的 架射路徑上’感應元件則配 置於底片後適當處,%岸元件 、j兄 減元件抑制光束強度 回傳的B能進而控制衰 之入==光波與參考光波於底片交會,且兩道光波 之入射角度相異產味+ : ,.^ y 生干"條、.文,將二維影像紀錄於底片 。邊底片係為圓環形,物# - 攝得各個角度影像之二唯:像一水平高度與距離下所 並以f…$ 土 '办像,依序環狀記錄於底片。 至广,曝光原理,將紅色、綠色與藍色影像分別記錄 至底片上重叠,合成全彩之㈣“。 另!。己錄 方式=參Π 件㈣後移動或旋轉 色影像影像至底片時 ’。其作用在於紀錄不同 角度,預先改^ 補償裝置改變參考光波入射 f貝无改變影像績射备 影像時,{同多的旦, &。在以白色光源重建立體 ^ ^ 、衫像投射角度仍能一致並疊合,產生 夕衫之立體影待„ $ A 、 也王 ^ ^ ... ,感應元件位於底片後方偵測每 減元件便抑制參考光貞影像亮度有異時’衰 與其他影像—致 $光光束’調整影像明亮度至 致,使立體影像更為逼真寫實。 【實施方式】 兹謹就本創作「 組成,及所能產生的=先線之影像合成設備」其結構 實施例詳細說明如下〆配合圖式,舉-本案之較佳 設備二。::第二圖所示,本帛「調節光線之影像合成 分光單單元1、不限數量之平面鏡2、— 一擷影單元 補仏早元4、—投影單元5、 7 M405612 底片7及一光控單元8,其中: 七光單儿1 ’係_種雷射光源發射器,可發射出 不同波長之雷射光束11,兮 ^ u亥雷射先束11波長範圍包括 不可見光及可見光如红奋出未 ^,, 曰 -色先束、綠色光束或藍色光束。 不限數里之平面鏡2,係一種能高效率反射光束之 + Μ # :置於本創作内多處適當位置’藉以改變或引導 田射光束11照射路徑。 刀光單70 3 ’旄分裂雷射光束11為兩道光束,雷 :光束11射入分光單元3後,分裂成-道參考光束31 道物光光束32射出;其中,參考光束以經一平面 知2引導射入補償單元 弓丨導射入投影單元“先束32經另一平面鏡2 -補償單A 4, &含有—遽波元件41 、 — … 微調元件 4 2以及一擋板4 3 ;參考丼击q丨么 ^ 苓九束3 1 ir'射入濾波元件4 1並轉 換成參考光波3 1 1射出,灸去止。, ,0 出》考先波311接著穿射過擋板 43後照射至底片7上,兮摔β。& n “板4 3忐限制參考光波311 照射於底片7之區域範圍;微調元件42則可為-馬達連 ϋ機構或—電磁連動機構,其作用在於調整渡波元件41 如後位置或旋轉角唐 益 ν ^ &和月庋,错以改變麥考光波311入底片之 角度。 一投影單元5,台令右—:由,士-从 匕3有 4波70件51、一引導透鏡 5 2與一顯影元件5 3,j:中哕拖马;从c。 μ T及.:..1衫凡件53係連結與擷影 單元6而能顯示二維影像;物光光束32射入滤波元件 51轉換成物光光;皮321射出,再穿過引導透鏡52投射 .1心元件53 ’ 3亥顯影元件係為反射式影像顯示器,如 數位微型反射鏡裝置(DMD,DigitaiMicr〇mirr〇rDevice 8 M405612 )或反射式LCD,受到物光光波321照 一 件53上的二維影像反射至底片7。 U將頌影兀 一擷影單元6 ’係由一旋轉座6卜— -電腦63所組成’旋轉座6〗内設有—步進:件:; 轉,攝影元件62用於掘取影像並傳馬 理。該分色處理係將影像中各色像素分離二:色-綠色與藍色之二维影像,再把^成紅色、 53顯示。 〜像傳迗至顯影元件 底片7,係' —紀錄光學影像之環形 -轴座Π上,軸座71 片-’-置於 ,來考, 達可旋轉底片7 /尤波311及物光光波321於底片7上一 藉兩光波干涉條紋紀錄二維影像 :广交會, 作業後即成為-全像展示片,配合:般二過定影 三維立體影像。 ^源使用可重建 -光控單元8’包含感應元件81與 與電腦63連έ士 .片庙-从0 吨疋件82 ’並 凡件81設置於底片7後方或其他 、田处’偵測茶考光波311與物光光& 321干+成傻Β* 之影像明亮度,並 __ ν成像% 度。 乃"·芩考先束31或物光光束32之光強 物品=係應用於製作多彩全像影像展示片,首先取- 4放置於旋轉座6丨上迴轉 取物品64影像,傳'… 门時以攝景…牛62掏 :%傳运至電腦63進行分色與集成處理 、.工色、綠色及藍色之二維影像, , 影元件53。 氺〜佯丹得运至顯 另方面’發光單元)發出—固定波長之雷射光束 9 M405612 11至分光單凡3,分裂為一參考光束3ι與一物光光束 32分別射出。參考光束31藉平面鏡2反射入補償單元4 ’轉換成參考光波311再投射至底片7。物光光束32藉 平面鏡2反射入投影單元5,先轉換為物光光波321投 射至顯影元件’再反射顯影元件53上的二維影像至底片 7。最後,參考光波311與物光光波321於底片7交會, . 猎由兩光波之干涉條紋而將影像紀錄於底片7上。 ' 隨著旋轉座61迴旋物品64,攝影元件62不斷取得 _ 其同—距離與水平高度之各角度影像,顯影元件53上也 同步顯示不同角度取得之二維影像,底片7則藉步進馬 達旋轉而依序連續記錄物品64各角度之二維影像。其中 旋轉座61與底片7具有同步旋轉關係,旋轉座61迴轉 一圈,底片7亦旋轉一圈。 底片7上的影像係分三次重複曝光記錄而成。第一 次記錄時,係透過電腦63將紅色二維影像傳送顯影元件 _ 53,底片7記錄紅色影像。待所有角度之紅色二維影像 •記錄至底片7後,再以重複曝光方式將綠色二維影像記 . 錄於底片7,且補償單元4調整參考光波311投射至底 片7上的入射角,藉以改變綠色二維影像於底片7上的 繞射角度。同法,再調整參考光波311之入射角後,將 監色二維影像記錄於底片7。在上述重複曝光步驟中, 同一角度攝得之各分色二維影像必須完全重疊。最後底 片7經過沖洗定影後,即為—多彩全像展示片。 第二圖所示者,係紀錄綠色與藍色二維影像時,透 過微調元件41改變位置或旋轉角度,進而改變參考光波 311照射至底片7的入射角’預先偏差底片7上綠色影 10 像與藍色影像之繞射角度。 321 =感應元件81靖考井 如干涉成像時之影像明 亏先波311與物光光波 免度標準值;若記 :又亚回傳至電腦63建立明 值時,電㉟63便自動控制的影像明亮度異於該標準 或物光光束32之光% #农/疋件82調整參考光束31 ^ 度,令底片 7 売度一致。其更可— 上紀錄的每幀影像明 維影像之影像明友产—步整批調整紅色、綠色或藍色二 如第三圖所示 乾和度更逼真的影像。 1¾用·一 Q 1 、綠色與藍色影像之也治 ’、1重建立體影像,紅色 體影像;而且底片 =全重疊,呈現真正的多彩立 亦經過重新調配t的母幀影像明亮度-致,各色調 ,重建影像所使用更為逼真寫實。其中 發光二極體箄t "、可為白熾燈泡、燈管或白色 集合而成之複八气j % 、、彔色與藍色發光二極體 之紅色、綠色斑参 案透過電腦63將影像 色光,可進—,該三色更為色彩之三原 以红色影像心色;例如欲呈現紫色影像係 調影像與普…:?r,欲呈現黃色影像係以紅色 '、邑5周衫像登合,依此類推。 :上所述’本案「調節光線之影像合成設備」,其技 y谷完全符合新料利之取得要件。本案在產業上確 貫付以利用,於由)主上_丄」 於申印則未曾見於刊物或公開使用,且非 為公命所知悉之技術。再者,本案有效解決先前技術中 長,存在的問題並達成相關使用者與消費者長期的需求 ^本新型並非能輕易完成。本案富具專利法規定 < ^產業利用性」、「新賴性」與「進步性」等要件,姜 M405612 依法提請專利,懇請鈞局詳查’並儘早為准予 審定,以保護申請人之智慧財產權’俾勵創新。 本新型雖藉由前述實施例來描述,但仍可變 態與細節,於不脫離本新型之精神而達成,並由 項技藝之人士可了解。前述本案之較佳實施例, 本案原理可以具體實施的方式之一,但並不以此 ,應依後附之申請專利範圍所界定為準。 【圖式簡單說明】 第一圖:係為本創作之結構示意圖。 第二圖:料本創作在使W同色光記錄影像時 元件改變位置或角度,改變參考光波之 度。 第一圖係、為本創作之底片放置於光源前’重建 體影像之示意圖。 【主要元件符號說明】 1 —發光單元 11 雷射光束 2 ----平面鏡 3 ----分光單元 31 參考光束 311 --參考光波 32 ---物光光束 3 2 1 --物光光波 4 ----補償單元This work "Adjusts the 弁垮 && M in: A color, A Η image synthesis equipment", its main purpose is to change the illumination of the bottom reference light wave, in advance with the diffraction angle of mi, when reconstructing the stereo image, Different diffraction angles; secondly, the reference light wave and the light wave of the object light are properly adjusted. The image of the mother frame recorded in the film is consistent with the 7C degree white, and the sound is divided into a complete image. Do not lose the purpose of straight and colorful stereoscopic images. For the above purposes, the contents of the intrinsic eucalyptus wood makeup include: a lighting unit, a light splitting unit, a supplemental „ _ _ a supplemental h early 兀, a projection unit, a photographic unit, a The film and a light control single liter 'early, where 'lighting unit is a laser light source generator, can launch the thunder body ten cargo buckle · field shot first beam; the laser beam is irradiated to the beam splitting unit, is split into one The Physician Umbrella & / test bundles a beam of light and passes through the light control unit, and then the reference light | Α β a is directed to the compensation unit, and the object beam is directed toward the projection unit. The compensation unit contains the wave component And the fine-tuning component, when the reference beam is incident on the filter component, is converted into a reference light wave and projected onto the film; the fine-tuning component is used to change the incident angle of the reference light wave. The projection unit includes a filter component, a developing component, and a photographing unit. Component and computer 'light beam is irradiated to the wave wave component and converted into object light wave 'other side' shadow film 7L to obtain the 2D image of the object, processed by computer to separate the red, green and blue images, batch Transfer to The imaging element is displayed: the object light beam is irradiated to the developing element, the two-dimensional image of the object is reflected, and finally the object light wave is projected onto the film. ^ The optical single TL system includes the attenuating element and the sensing element, and the attenuating element is divided into 6 M405612. The sensing element on the path of the reference beam and the object beam is placed at the appropriate position after the film. The % shore component and the J-thus reduction element suppress the B-band energy of the beam intensity and then control the attenuation. == Light wave and reference light wave The film meets, and the incident angles of the two light waves are different. +, .^ y Dry "Article, Text, record the 2D image on the negative film. The bottom film is a circular ring, object # - Photographed The second image of each angle image: like a level and distance, and f...$ soil' image, recorded in the ring in sequence. To the wide, exposure principle, record the red, green and blue images separately Overlapping on the film, synthesizing the full color (4). another! . Recorded mode = Π Π (4) After moving or rotating the color image to the negative film ’. Its function is to record different angles, and change the compensation device to change the reference light wave incident. When there is no change in the image, the image is more than the same. In the white light source to reconstruct the stereo ^ ^, the projection angle of the shirt image can still be consistent and superimposed, resulting in a three-dimensional shadow of the eve shirt „ $ A , 也王 ^ ^ ... , the sensing element is located behind the film to detect each minus component Suppressing the brightness of the reference pupil image has a different time 'fading and other images—the $light beam' adjusts the brightness of the image to make the stereoscopic image more realistic and realistic. [Embodiment] I would like to create a composition that can be produced. The structure of the image forming apparatus of the first line is described in detail below with reference to the drawings, and the preferred device 2 of the present invention. ::The second picture shows: "Adjusting the light image synthesis splitting unit 1, an unlimited number of plane mirrors 2 - a shadow unit to make up the early 4, - projection unit 5, 7 M405612 film 7 and one The light control unit 8, wherein: a seven-light single-body 1'-type laser light source emitter, can emit laser beams 11 of different wavelengths, and the first wavelength range of the laser beam 11 includes invisible light and visible light. Red Fever is not ^,, 曰-color first beam, green beam or blue beam. Unlimited number of plane mirrors 2, is a kind of high-efficiency reflected beam + Μ # : placed in multiple places in this creation' In order to change or guide the field beam 11 to illuminate the path. The knife light single 70 3 '旄 split laser beam 11 is two beams, and the light beam 11 is incident on the beam splitting unit 3, and then split into a channel reference beam 31 object light beam 32 is emitted; wherein the reference beam is guided into the projection unit via a plane 2 into the compensation unit. "The first beam 32 passes through another plane mirror 2 - the compensation unit A 4 , & contains the chopping element 41 , ... fine-tuning element 4 2 and a baffle 4 3 ; reference sniper q 丨 ^ 苓 nine bundle 3 1 ir' is injected into the filter element 4 1 and converted into a reference light wave 3 1 1 to be emitted, and the moxibustion is stopped. , , 0 out, the test wave 311 then passes through the baffle 43 and then illuminates the film 7 and smashes β. & n "plate 4 3 忐 limits the area of the reference light wave 311 to the area of the film 7; the fine adjustment element 42 may be a - motor linkage mechanism or - an electromagnetic linkage mechanism, the role of which is to adjust the wave element 41 such as the rear position or the rotation angle Tang Yi ν ^ & and Yue Yue, wrong to change the angle of McCaw light wave 311 into the film. A projection unit 5, Taiwan order right -: by, Shi-Zhe 匕 3 has 4 waves 70 pieces 51, a guiding lens 5 2 and a developing element 5 3,j: a middle dragging horse; from c. μ T and .:..1 shirts 53 series connected to the shadow unit 6 to display a two-dimensional image; the object light beam 32 is incident The filter element 51 is converted into object light; the skin 321 is emitted and then projected through the guiding lens 52. The heart element 53' is a reflective image display, such as a digital micro mirror device (DMD, Digitai Micr〇mirr〇). rDevice 8 M405612 ) or reflective LCD, reflected by the object light wave 321 as a two-dimensional image on a piece of 53 to the negative film 7. U will be a shadow unit 6 'by a rotating seat 6 - computer 63 The composition 'rotation seat 6〗 is provided with - step: piece:; turn, the photographic element 62 is used to dig images And the color separation process separates the pixels of the color in the image into two: the two-dimensional image of color-green and blue, and then displays the red color into 53. The image is transmitted to the developing element negative film 7, which is ' - Recording the optical image of the ring-shaft seat, the shaft seat 71 piece - '- placed, to test, the rotatable film 7 / Youbo 311 and the object light wave 321 on the film 7 by two light wave interference fringe record 2D image: Canton Fair, after the operation, it will become a full-image display film, with the following two: three-dimensional image fixation. ^ Source can be reconstructed - light control unit 8' contains sensing element 81 and computer 63 with a gentleman . Temple - from 0 tons of pieces 82 ' and the pieces 81 are placed behind the film 7 or other, the field 'detecting tea light 311 and light light & 321 dry + into a silly image* brightness, And __ ν imaging % degrees. Is the "quote of the first beam 31 or the light beam of the light beam 32" is used to make a colorful holographic image display, first take - 4 placed on the rotating seat 6 回转 slewing Take the image of the item 64, pass the '... door to the scene... cow 62掏:% transferred to the computer 63 for color separation and integration processing. Two-dimensional image of color, green and blue, and shadow element 53. 氺~佯丹 is shipped to the other side of the 'lighting unit' emits a fixed-wavelength laser beam 9 M405612 11 to the split light 3, split into one The reference beam 3 is emitted from the object beam 32. The reference beam 31 is reflected by the plane mirror 2 into the compensation unit 4' and converted into the reference beam 311 and projected onto the film 7. The object beam 32 is reflected by the plane mirror 2 into the projection unit 5, first converted The object light beam 321 is projected onto the developing element 'rereflecting the two-dimensional image on the developing element 53 to the negative film 7. Finally, the reference light wave 311 and the object light wave 321 intersect at the negative film 7, and the image is recorded on the negative film 7 by the interference fringes of the two light waves. As the rotating seat 61 rotates the article 64, the photographic element 62 continuously acquires the angle images of the same distance and the horizontal height, and the developing element 53 simultaneously displays the two-dimensional images obtained at different angles, and the negative film 7 is driven by the stepping motor. The two-dimensional image of each angle of the article 64 is continuously recorded in sequence while rotating. The rotary base 61 and the negative film 7 have a synchronous rotation relationship, the rotary base 61 rotates one turn, and the negative film 7 also rotates one turn. The image on the film 7 was recorded by three repeated exposures. In the first recording, the red two-dimensional image is transmitted through the computer 63 to the developing element _ 53, and the negative film 7 records the red image. After the red 2D image of all angles is recorded to the negative film 7, the green 2D image is recorded in the repeated exposure mode on the negative film 7, and the compensation unit 4 adjusts the incident angle of the reference light wave 311 projected onto the negative film 7, thereby The diffraction angle of the green two-dimensional image on the film 7 is changed. In the same way, after adjusting the incident angle of the reference light wave 311, the two-dimensional image of the color is recorded on the film 7. In the above repeated exposure step, the respective color separation two-dimensional images taken at the same angle must completely overlap. After the final film 7 is rinsed and fixed, it is a colorful hologram display. As shown in the second figure, when the green and blue two-dimensional images are recorded, the position or rotation angle is changed by the fine adjustment element 41, and the incident angle of the reference light wave 311 to the negative film 7 is changed to change the green shadow image on the negative film 7 in advance. Diffraction angle with blue image. 321 = Inductive component 81 Jing Kao, if the image is interferometric, the image of the first wave 311 and the object light wave exemption standard value; if the note is returned to the computer 63 to establish the bright value, the electric 3563 automatically controls the image. The brightness is different from the light of the standard or object beam 32. The agricultural/clamp 82 adjusts the reference beam by 31 ^ degrees to make the film 7 uniform. It's even more possible - the image of each frame of the recorded image of the image is displayed in the same way - the whole batch is adjusted to red, green or blue. As shown in the third figure, the image is more realistic. 13⁄4 uses · a Q 1 , green and blue image of the rule ', 1 reconstructs the stereo image, red body image; and the film = full overlap, showing the true colorful and also re-adjusted the maternal image brightness of t , each color tone, the use of reconstructed images is more realistic and realistic. The light-emitting diode 箄t ", can be an incandescent light bulb, a light bulb or a white collection of the complex eight gas j%, the red and blue light-emitting diode red, green spotting case through the computer 63 The image color light can be entered into, and the three colors are more color. The original color is reddish; for example, the purple image is used to adjust the image and the general...:? r, the yellow image is intended to be red, the 邑5 week shirt is like a squad, and so on. : The above-mentioned "image-adjusting equipment for adjusting light", the technology of which is fully in line with the requirements of the new material. The case was successfully applied in the industry, and the main _丄 was not seen in the publication or publicly used in Shenyin, and it was not a technology known to the public. Furthermore, this case effectively solves the problems of the prior art, the existing problems and the long-term needs of relevant users and consumers. The new model cannot be easily completed. In this case, the Patent Law stipulates the requirements of < ^ industrial utilization, "new dependence" and "progressiveness". Jiang M405612 collects patents according to law, and invites the bureau to investigate in detail and approve the application as soon as possible to protect the applicants. Intellectual property rights encourage innovation. The present invention has been described in terms of the foregoing embodiments, but is not to be construed as limited by the spirit of the invention. In the foregoing preferred embodiment of the present invention, the principle of the present invention may be one of the specific implementation manners, but it is not limited thereto, and should be defined in the scope of the appended patent application. [Simple description of the diagram] The first picture: is a schematic diagram of the structure of the creation. The second picture: The material creation changes the position or angle of the component when the image is recorded by the same color light, and changes the degree of the reference light wave. The first picture is a schematic diagram of the reconstructed body image of the original film placed in front of the light source. [Main component symbol description] 1 - Light-emitting unit 11 Laser beam 2 - Plane mirror 3 - Beam splitting unit 31 Reference beam 311 - Reference light wave 32 - - Object light beam 3 2 1 - Object light wave 4 ---- Compensation unit
專利之 化其形 熟悉此 僅係藉 為限帝J ’微調 照射角 多彩立 12 M405612 41---濾波元件 42---微調元件 4 3---擔板 5 ----投景多單元 51---濾波元件 52---引導透鏡 5 3---顯影元件 6——擷影單元 61---旋轉座 6 2---攝影元件 63---電腦 6 4----物品 7 ----底片 71---轴座 8 ----光控单元 81---感應元件 82---农減元件 91---光源 93- --紅色影像光線 94- --綠色影像光線 95- --藍色影像光線 13Patentized shape is familiar with this only by the limited emperor J 'fine tuning angle colorful vertical 12 M405612 41---filtering element 42---fine tuning component 4 3---plate 5 ---- projection multi-unit 51---Filtering Element 52---Guiding Lens 5 3---Developing Element 6-Shadowing Unit 61---Rotating Seat 6 2---Photographic Element 63---Computer 6 4----Article 7 ---- Negative film 71---Shaft seat 8 ---- Light control unit 81---Inductive component 82---Agricultural reduction component 91---Light source 93- --Red image light 94- --Green Image Light 95- -- Blue Image Light 13