五、新型說明: 【新型所屬之技術領域】 本創作係關於一種立體影像膜片外掛裝置,供與顯示裝置 搭配使用。 t 【先前技術】 顯示器是目前最常使用的資訊產品之—。除了作為個人電 腦的必須輸出設備,包含電視節目之收訊以及電子遊戲等家庭 娛樂與資訊接收,亦需要顯示器作為視覺影像輸出之媒介。自 從第一台以陰極射線管(Cathode Ray Tube,CRT)為工作模式的 黑白電視機發明以來,顯示技術便以飛快的速度不斷演進;根 據習知技藝,陰極射線管(CRT)電視、锢人電腦(pc)顯示器、 液晶(LCD)電視、以及電漿(PDP)電視,主要奠基於二維顯像 技術。然而,人類的視覺是著基於立體觀視,即是以兩個眼睛 分別所見的影像在腦中重疊以形成視覺。 為了達成立體觀視之目的’目前已知的技術包括有紅藍遽 片顯示技術、柱狀透鏡技術以及光栅屏障式技術。其中,紅誌 濾片顯示技術必須搭配特製之眼鏡使用,方便性與舒適性不 佳。光栅屏障式技術雖然不需要搭配眼鏡使用,但顯示裝置費 用較咼且有亮度減半的缺點。因此,柱狀透鏡技術日益受到重 視。 柱狀透鏡(Lenticular Lens)技術的原理是在液晶顯示螢幕 的前面加上一層具有柱狀透鏡陣列的光學膜’供折射光線讓奇 M400592 右眼 數畫素A偶數畫讀應之影像光源分觀人使用者左、 =得立體影像效果。在此謝,柱狀透鏡工 晶顯示錄之纽直棘_奇㈣素及贿 像光源分別進入使用者左、右眼的效果。 —衫 【新型内容】 _本^之主要目的為提供—種立體影像則外掛裳置,供 一員不裝路配使用’具錄佳的使財便性。 、 件以繼置包含立體影像•固定 。£裝置。立體影像刻設置於顯示裝置之顯 1且觸ΐ面平行。岐件分職立體雜則及顯示裝置 ,供固疋立體影像膜ρ調整裝置設置於顯示裝置,且與 立體影像則觸接,供職立體影像則相對於齡面轉 角度。 〜 固定件包含夾片、膠帶或磁鐵。調整裝置包含外殼體 直方向調整裝紅及水平柏調錄置。外殼咖定於顯示裝 置。垂直方向·裝置細可使讀f彡細^直方向移動 之方式設置於肢體内,且可部分延伸料殼體。水平方向調 整裝置係以可使立體影像㈣沿水平方向移動之方式設置於 外殼體内,且可部分延伸出外殼體。 ”在較佳實_中,垂直方向輕裝置包含内題、第一換 形滑塊、第二楔形滑塊以及驅動件。内殼體設置於外殼體内。 第-楔形滑塊似可料直方向軸之方式設置於内殼體 内,包含延伸至外殼體外與立體影像膜片下緣連接之支樓部以 ^於第-娜__切部咖ϋ。第二 ^可=係以可沿水平方向移動之方式設置於内殼體内,具 μ /1面抵接之第二斜面。驅動件係以可驅動第二楔形 =I動之方式設置於内殼體内,且部分延伸至外殼體外。當 魏移崎’第二斜面鮮—斜面姐娜,使第一 ::月塊祕。其巾’驅動件包含步進_,係以可沿水平方 向方疋入或旋出之方式設置。 不同’、蝴中,垂直方向調整裝置包含内殼體、滑塊以 疋驅動件。内殼體設置於外殼體内。滑塊係、以可沿垂直方 2動之枝設置於内殼獅,包含延歧餅舰外與該立 =像料下緣連接之捕部叹設置騎塊之側邊之從動 A轉驅動件係以可驅動滑塊移動之方式設置於内殼體内, 且部分延伸料殼斜。__件触從鱗相互抵接,當 方疋轉驅動件轉動時,旋轉驅動件帶動從動件,使滑塊移動。其 中、,從動件與旋轉軸件可分戦相互f合之祕及齒輪,亦 可為相互觸接之膠條與膠輪。 内殼體之下緣進-步設置有調節齒條,水平方向調整裝置 包含與調節齒條相互f合之調節齒輪。在不同實施例中,水平 方向調置包含㈣,桿件之—如可_之方式與内殼體 連接,另-觀仲料殼體。設於兩端中之支點以可轉動之方 式與外殼體連接。 【實施方式】 如圖1所示之較佳實施例,本創作之立體影像膜片外掛裝 M400592 置_係供與顯示裝置200搭配使用。顯示裝置·、乏扑各種 ^有^功能之裝置,例如液晶顯示器、有機發光二極咖示 益液日曰電視、有機發光二極體電視與電漿電視等,且可 立體影像畫面。其中,立體影像晝面係人體可藉 差^ 生立體視覺效果之影像晝面。 產屋 本創作之立體影像則外掛裝置_包含讀 100、固定件細以及調整裝置·。立體影像膜片刚設置 於顯示裝置200之顯示面21〇外側,且與顯示面加平行。呈 體而言’在較佳實施例中,立體影像則刚平貼於顯示^ 210 ’且為柱狀微透鏡技學膜。_在不同實施例中, 影像膜片100與顯示面210¾可具有一間距,且可為具— 能夠折射級贿植晝纽偶數晝雜應之影像光源^ 進入人體左、右眼之光學結構之光學獏片。 H如圖1所示之較佳實施例,固定件_分別與立體影像膜 片⑽及顯示裝置細觸接,供固定立體影像膜片娜。其卜 固定件30G包含夾片、膠帶或磁鐵等。具體而言,固定件· 完全地限制住立體影像膜片削相對於顯示裝置姻之頻示面 训之間距。脚在較佳實施例中,固定件3⑻ 膜片_持平貼於顯示面別。另—方面,岐件勤^ 度地限制住立體影像則相對於顯示裝置纖之平移。 職姆於顯示面 210之位置,包含角度。 调整裝置500設置於甚自未梦署)如 鐘且與立體影像膜片卿 觸接,供碰立體影__對於顯示面训之旋轉角 ί 200。估口凋整裝置500係以背勝或扣件等固定於顯示裝 以嘲敖ϋ用者可透過雕裝置通對立體影像膜片謂施力 目對於顯示面21G之角度。絲佳實施例_,使用者 右人看-立體影像時,可先將上述立體影像膜片'固定件 300以及破裝置5GG設置妥#,並使顯示裝置顯示一校 f畫面’而後再透過調整裝置剔對立體影像膜片100施力以 5周整其相對於顯示面210之角度,使立體影像則100正確地 折射光線料數畫纽偶數t素對紅純統分別進入使 用者左、右眼’以獲得較佳之立體影像效果。進一步而言,使 用者可自行财本創作之立體影像則外掛裝置動,欲觀看 立體影像時可將其安裝在顯示器2⑻上,欲觀看—般影像晝面 則將其拆卸。如此,可兼具經濟性及便利性。 以下進一步說明調整裝置500之具體態樣。如圖】所示之 較佳實施例,調整裝置500包含外殼體51〇、垂直方向調整裝 置530以及水平方向調整裝置55〇。外殼體51〇固定於顯示裝 置200。垂直方向調整裝置53〇係以可使立體影像膜片1〇〇沿 垂直方向v移動之方式設置於外殼體51〇内,且可部分延伸出 外殼體510。水平方向調整裝置55〇係以可使立體影像膜片丄〇〇 沿水平方向h移動之方式設置於外殼體51〇内,且可部分延伸 出外殼體510。 更具體而言’如圖2所示之較佳實施例,垂直方向調整裝 置530包含内殼體531、第一楔形滑塊533、第二楔形滑塊535 以及驅動件537。内殼體531設置於外殼體510内。第一楔形 滑塊533係以可沿垂直方向v移動之方式設置於内殼體531 M400592 内’包含延伸至外殼體wo外與立體影像膜片刚下緣連接之 支撐部5332以及設置於第-換形滑塊533相對於支樓部迎 之另端之第-斜面5334。第二楔形滑塊535係以可沿水平方 向h移動之方式設置於内殼體531内’具有可與第一斜面遇 抵接之第二斜面„54。驅動件537係以可驅動第二轉滑塊 535移動之方式設置於内殼體531内,且部分延伸至外殼體別 外。其中,驅動件537包含步進螺絲,係以可沿水平方向㈣ 入或旋出之方式設置。當驅動件537被使用者旋轉而沿水平方 向h旋入或旋出時,會驅動第二楔形滑塊535移動,第二斜面 5354則會與第-斜面5334相互推移,使第—楔形滑塊M3移 動,進而使立體影像膜片雨發生垂直方向v之位移。換言之, 使用者可藉此調整立體影像膜片1〇〇相對於顯示裝置2〇〇<之垂 直方向v之位置。 在此較佳實施例中,内殼體531之下緣進一步設置有調節 齒條5312 ’水平方向調整裝置550包含與調節齒條5312相互 齧口之辦齒輪552。具體而言’使用者可撥動靖齒輪552 使内殼體531產生水平方向h之位移,又因為立體影像膜片 ⑽與内殼體531連動’故使用者可藉此調整立體影像膜片1〇〇 相對於顯示裝置2GG之水平方向h之位置,上職,使用者 可分別利用垂直方向調整裝置530以及水平方向調整裝置55〇 調整立體影像膜# 100相對賴示錢之垂直方向v及水 平方向h之位置’進而達到調整體影像膜片剛相對於顯示裝 置200之角度。 在如圖3A所示之不同實施例中,垂直方向調整裝置53〇 8 M400592 包含内殼體531、滑塊532以及旋轉驅動件534。内殼體531 設置於外殼體510内。滑塊532係以可沿垂直方向v移動之方 式設置於内殼體531内’包含延伸至外殼體510外與立體影像 膜片100下緣連接之支撐部5322以及設置於滑塊532之側邊V. New description: [New technical field] This creation is about a three-dimensional image film plug-in device for use with display devices. t [Prior Art] The display is the most commonly used information product at present. In addition to being a must-have device for personal computers, including television program reception and home entertainment and information reception such as video games, the display is also required as a medium for visual image output. Since the invention of the first black-and-white television set with a cathode ray tube (CRT), the display technology has evolved at a rapid rate; according to conventional techniques, cathode ray tube (CRT) television, monks Computer (pc) displays, liquid crystal (LCD) TVs, and plasma (PDP) TVs are based on two-dimensional imaging technology. However, human vision is based on stereoscopic viewing, in which the images seen by the two eyes overlap in the brain to form vision. In order to achieve the purpose of stereoscopic viewing, currently known technologies include red and blue enamel display technology, lenticular lens technology, and grating barrier technology. Among them, the Hongzhi filter display technology must be used with special glasses, which is not convenient and comfortable. Although the barrier barrier technology does not need to be used with glasses, the display device is more expensive and has the disadvantage of halving the brightness. Therefore, lenticular lens technology is increasingly being looked at. The principle of the Lenticular Lens technology is to add an optical film with a lenticular lens array in front of the liquid crystal display screen for the refracted light to make the image of the image source of the odd-shaped M400592 right-eye pixel A. The user user left, = stereo image effect. Here, the lenticular lens shows the effect of entering the left and right eyes of the user's left and right eyes, respectively. - Shirt [New Content] _ The main purpose of this is to provide a kind of three-dimensional image, which is used for external use. , the piece to be included in the stereo image • fixed. £ device. The stereoscopic image is engraved on the display device 1 and the touch surface is parallel. The three-dimensional miscellaneous miscellaneous and display device for the solid-state three-dimensional image film ρ adjustment device is arranged on the display device, and is connected with the stereoscopic image, and the service stereoscopic image is rotated at an angle relative to the age. ~ The fixture contains clips, tape or magnets. The adjustment device consists of an outer casing that adjusts the redness and horizontal registration. The casing is set to display. The vertical direction and the device are finely arranged to be placed in the limb in a manner of moving in a straight direction, and the housing can be partially extended. The horizontal adjustment device is disposed in the outer casing so that the stereoscopic image (4) is moved in the horizontal direction, and partially extends out of the outer casing. In the preferred embodiment, the vertical light device includes an inner problem, a first changeable slider, a second wedge slider, and a driving member. The inner casing is disposed in the outer casing. The first wedge-shaped slider is similar to the straight direction. The shaft is disposed in the inner casing, and comprises a branch portion extending to the outer edge of the outer casing and connected to the lower edge of the stereoscopic image film to be in the first to the second. The direction of movement is disposed in the inner casing, and the second inclined surface abuts on the surface of the μ / 1. The driving member is disposed in the inner casing in a manner of driving the second wedge shape and is movable to the outer casing. When Wei Shisaki's second slanted fresh-slanted face Senna, make the first:: month block secret. Its towel' drive piece contains step _, which can be set in the horizontal direction to insert or unscrew. In the different ', the butterfly, the vertical direction adjusting device comprises an inner casing and a sliding block to drive the inner part. The inner casing is disposed in the outer casing body. The sliding block is arranged on the inner shell lion by a branch movable along the vertical side. The driven A-rotation drive is provided on the side of the riding block, which is connected to the lower edge of the vertical pie and the lower edge of the image. The utility model is arranged in the inner casing in such a manner as to drive the sliding of the sliding block, and partially extends the material casing obliquely. The __piece contacts the scales to abut each other, and when the square rotating driving member rotates, the rotating driving member drives the driven member, The slider is moved. Among them, the follower and the rotating shaft member can be combined with the gears and the gears, and the rubber strips and the rubber wheels that are in contact with each other. Adjusting the rack, the horizontal direction adjusting device comprises an adjusting gear which is combined with the adjusting rack. In different embodiments, the horizontal direction includes (4), and the rod member is connected to the inner casing as in the case of another, and The fulcrum of the spheroidal material is rotatably connected to the outer casing. [Embodiment] As shown in the preferred embodiment of the present invention, the stereo image film of the present invention is mounted M400592 _ It is used in conjunction with the display device 200. The display device is equipped with various devices, such as a liquid crystal display, an organic light emitting diode, a liquid crystal display, an organic light emitting diode television, a plasma television, and the like. And stereoscopic image. Among them, stereoscopic The image of the human body can be used to image the surface of the stereoscopic visual effect. The stereoscopic image of the house is created by the external device _ including reading 100, fixing parts and adjusting device. The stereoscopic image film is just set on the display device. The display surface of the display surface 21 of 200 is outside and is parallel to the display surface. In the preferred embodiment, the stereoscopic image is just flat on the display ^ 210 ' and is a cylindrical microlens technical film. In different embodiments, the image film 100 and the display surface 2103⁄4 may have a spacing, and may be an optical source having an optical structure that can enter the left and right eyes of the human body. In the preferred embodiment shown in FIG. 1, the fixing member _ is respectively in contact with the stereoscopic image film (10) and the display device for fixing the stereoscopic image film. The fixing member 30G includes a clip, a tape or Magnets, etc. Specifically, the fixing member completely limits the distance between the stereoscopic image film and the display device. Foot In the preferred embodiment, the retainer 3 (8) diaphragm _ is flat against the display surface. On the other hand, the device constrains the stereoscopic image to shift relative to the display device. The position of the employee is on the display surface 210, including the angle. The adjusting device 500 is set in the clock and is connected to the stereoscopic film patch to provide a rotating angle ί 200 for displaying the face training. The evaluation device 500 is fixed to the display device with a back win or a fastener, etc., and the user can use the engraving device to apply the force to the angle of the display surface 21G. Silk embodiment _, when the user sees the stereo image, the stereo image film 'fixing member 300 and the breaking device 5GG can be set to #, and the display device displays a school f picture' and then adjusts The device squeezing the stereoscopic image film 100 to the angle of the display surface 210 for 5 weeks, so that the stereo image is correctly refracted by the light amount, and the number of the image is evenly added to the left and right of the user. Eye 'to obtain a better stereoscopic image effect. Further, the stereoscopic image created by the user can be installed on the display 2 (8) when the stereoscopic image is to be viewed, and the image is removed after being viewed. In this way, it can be both economical and convenient. Specific aspects of the adjustment device 500 are further described below. As shown in the preferred embodiment, the adjustment device 500 includes an outer casing 51, a vertical adjustment device 530, and a horizontal adjustment device 55A. The outer casing 51 is fixed to the display device 200. The vertical direction adjusting device 53 is disposed in the outer casing 51A so as to move the stereoscopic image film 1 〇〇 in the vertical direction v, and partially extends out of the outer casing 510. The horizontal direction adjusting device 55 is disposed in the outer casing 51A so as to move the stereoscopic image diaphragm 沿 in the horizontal direction h, and partially extends out of the outer casing 510. More specifically, as shown in the preferred embodiment of Fig. 2, the vertical direction adjusting device 530 includes an inner casing 531, a first wedge slider 533, a second wedge slider 535, and a driving member 537. The inner casing 531 is disposed inside the outer casing 510. The first wedge-shaped slider 533 is disposed in the inner casing 531 M400592 so as to be movable in the vertical direction v. The support portion 5332 extending to the outer edge of the outer casing body and connected to the lower edge of the stereoscopic image film is disposed on the first portion. The changeable slider 533 welcomes the other end-bevel 5334 with respect to the branch portion. The second wedge-shaped slider 535 is disposed in the inner casing 531 so as to be movable in the horizontal direction h. The second inclined surface 535 has a second inclined surface „54 that can be abutted against the first inclined surface. The driving member 537 is driven to drive the second rotation. The slider 535 is disposed in the inner casing 531 and partially extends outside the outer casing. The driving member 537 includes a stepping screw, which is arranged to be inserted or unscrewed in the horizontal direction (four). When the member 537 is rotated by the user and screwed in or out in the horizontal direction h, the second wedge slider 535 is driven to move, and the second slope 5354 is displaced from the first slope 5334 to move the first wedge slider M3. Further, the three-dimensional image film rain is displaced in the vertical direction v. In other words, the user can adjust the position of the stereoscopic image film 1 〇〇 relative to the vertical direction v of the display device 2 . In the embodiment, the lower edge of the inner casing 531 is further provided with an adjusting rack 5312. The horizontal direction adjusting device 550 includes a gear 552 that is meshed with the adjusting rack 5312. Specifically, the user can dial the gear 552. Making the inner casing 531 horizontal The displacement of the direction h, and because the stereoscopic image film (10) is interlocked with the inner casing 531, the user can thereby adjust the position of the stereoscopic image film 1 〇〇 relative to the horizontal direction h of the display device 2GG, the user, the user The vertical direction adjustment device 530 and the horizontal direction adjustment device 55 can be used to adjust the position of the stereoscopic image film #100 relative to the vertical direction v and the horizontal direction h of the money, and then the adjustment image film is just opposite to the display device 200. In a different embodiment as shown in Fig. 3A, the vertical direction adjusting device 53A8 M400592 includes an inner casing 531, a slider 532, and a rotary driving member 534. The inner casing 531 is disposed in the outer casing 510. The 532 is disposed in the inner casing 531 so as to be movable in the vertical direction v. The support portion 5322 extending to the outer edge of the outer casing 510 and connected to the lower edge of the stereoscopic image film 100 is disposed on the side of the slider 532.
之從動件5324。旋轉驅動件534係以可驅動滑塊532移動之 方式設置於内殼體531内,且部分延伸至外殼體51〇外。旋轉 驅動件534與從動件5324相互抵接,當旋轉驅動件534轉動 時,旋轉驅動件534帶動從動件5324,使滑塊532移動。在 此實施例中,從動件5324與旋轉驅動件534分別為相互齧合 之齒條及齒輪。然而在如圖3B所示之不同實施例中,從動件 5324與旋轉驅動件534分別為相互觸接之膠條與膠輪。當旋 轉驅動件534被使用者撥動而旋轉時,會驅動轉塊S32移動 產生垂直方向v之位移^言之’使用者可藉此調整立體影像 膜片100相對於顯示裝置200之垂直方向V之位置。Follower 5324. The rotary driving member 534 is disposed in the inner casing 531 in such a manner as to drive the slider 532 to move, and partially extends outside the outer casing 51. The rotary driving member 534 and the follower 5324 abut each other. When the rotary driving member 534 rotates, the rotary driving member 534 drives the follower 5324 to move the slider 532. In this embodiment, the follower 5324 and the rotary drive member 534 are respectively meshed racks and gears. However, in the different embodiments shown in Fig. 3B, the follower 5324 and the rotary drive member 534 are respectively strips and rubber wheels that are in contact with each other. When the rotary driving member 534 is rotated by the user, the rotation of the rotating block S32 is generated to generate a displacement in the vertical direction v. The user can thereby adjust the vertical direction of the stereoscopic image film 100 relative to the display device 200. The location.
在圖2所示之實施例中,水平方向調整裝置55〇係調節齒 輪。然而在不同實施例中,水平方向調整裝置可使用桿件。如 圖3B所示,作為水平方向調整裝置55〇之桿件之一端以可轉 動之方式與内殼體53〗連接,另—端延伸出外殼體训。設於 兩端令之支點55切可轉動之方式與外殼體训連接。且體而 :使用者可撥動水平方向調整裝i 55〇延伸出外殼體51〇之 刀使内双體531 1生水平方向h之位移 臈片叫立奴〜像 片inn/、 連動使用者可藉此調整立體影像膜 片】_晴於顯示裝置之水平方向^位置。 雖然前述_述簡式已揭示本解之較佳實_,必須 9 ινι^υυ^^2 瞭解到各種增添、許多修改和取代可能使職本創作較佳實施 例’而不會脫離如所附申請專利範圍所界定的本創作原理之精 砷及範圍。熟悉本創作所屬肋領敵—般技藝者將可體會, 本創作可使用於4多形式、結構 '佈置、比例、材料、元件和 组件的修改。因此’本文於此所揭示的實關紐視為用以說 明本創作,而非用以限制本創作。本創作的範圍應由後附申請 專利範圍所界定,並涵蓋其合法鱗物,並不限於先前的描述。 【圖式簡單說明】 圖1為本創作較佳實施例示意圖;以及 圖2至3Β為本創作不同實施例示意圖。 【主要元件符號說明】 1〇〇立體影像膜片 200顯示裝置 210顯示面 300固定件 500調整裝置 510外殼體 530垂直方向調整裝置 531内殼體 5312調節齒條 532滑塊 5322支撐部 5324從動件 533第一楔形滑塊 5332支撐部 5334第一斜面 534旋轉驅動件 535第二楔形滑塊 53Μ第二斜面 537驅動件 550水平方向調整裝置 10 M400592 552調節齒輪 554支點 800立體影像膜片外掛裝置 v垂直方向 h水平方向In the embodiment shown in Fig. 2, the horizontal direction adjusting means 55 adjusts the gears. However, in various embodiments, the horizontal direction adjustment device can use a lever. As shown in Fig. 3B, one end of the rod as the horizontal direction adjusting means 55 is rotatably connected to the inner casing 53 and the other end extends out of the outer casing. It is connected to the outer body of the outer body so that the fulcrum 55 can be rotated at both ends. And the body: the user can adjust the horizontal direction adjustment device i 55 〇 extended out of the outer casing 51 〇 knife to make the inner double body 531 1 horizontal direction h displacement 臈 叫 立 〜 〜 〜 〜 〜 〜 像 像 像 像 像 像 〜 〜 〜 〜 This can be used to adjust the stereoscopic image film _ clear to the horizontal direction of the display device ^ position. Although the foregoing _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The essence and scope of this creative principle as defined in the scope of application for patents. Familiar with the enthusiasm of this creation - the average artist will be able to understand, this creation can be used for more than 4 forms, structure 'arrangement, proportions, materials, components and components. Therefore, the actual disclosures disclosed herein are used to describe the creation, not to limit the creation. The scope of this creation shall be defined by the scope of the appended patent application and covers its legal scale and is not limited to the previous description. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a preferred embodiment of the present invention; and FIGS. 2 to 3B are schematic views of different embodiments of the present invention. [Main component symbol description] 1" stereoscopic image film 200 display device 210 display surface 300 fixing member 500 adjusting device 510 outer casing 530 vertical direction adjusting device 531 inner casing 5312 adjusting rack 532 slider 5322 supporting portion 5324 driven 533 first wedge-shaped slider 5332 support portion 5334 first inclined surface 534 rotary driving member 535 second wedge-shaped slider 53 Μ second inclined surface 537 driving member 550 horizontal direction adjusting device 10 M400592 552 adjusting gear 554 fulcrum 800 stereoscopic image film plug-in device v vertical direction h horizontal direction