TW201227048A - Image viewing glasses - Google Patents

Image viewing glasses Download PDF

Info

Publication number
TW201227048A
TW201227048A TW100133016A TW100133016A TW201227048A TW 201227048 A TW201227048 A TW 201227048A TW 100133016 A TW100133016 A TW 100133016A TW 100133016 A TW100133016 A TW 100133016A TW 201227048 A TW201227048 A TW 201227048A
Authority
TW
Taiwan
Prior art keywords
glasses
liquid crystal
tang
frame
crystal shutter
Prior art date
Application number
TW100133016A
Other languages
Chinese (zh)
Inventor
Hiroshi Ohno
Tatsuya Sakata
Masamichi Okada
Nobuyuki Hara
Naoto Shimizu
Original Assignee
Sony Corp
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
Priority claimed from JP2010210642A external-priority patent/JP2011085929A/en
Application filed by Sony Corp filed Critical Sony Corp
Publication of TW201227048A publication Critical patent/TW201227048A/en

Links

Landscapes

  • Eyeglasses (AREA)
  • Testing, Inspecting, Measuring Of Stereoscopic Televisions And Televisions (AREA)

Abstract

A glasses-type shutter holder may include left and right temple parts connected respectively to left and right frame end parts of frame. The left and right temple parts may be foldable respectively with respect to the left and right frame end parts in accordance with movement, for each frame end part and temple part pair, of a contact position at which a movement part provided with one of the temple part and the frame end part of the pair is in contact with a contact part of the other of the temple part and the frame end part of the pair. For each of the pairs, the contact part is in contact with the movement part when the temple part is unfolded to a maximum degree, and a maximum degree of opening of the temple part is varied in accordance with the movement of the movable part.

Description

201227048 六、發明說明: 前後參照相關申請案 此申請案主張在2010年9月21日於日本專利局提出之 來自日本專利申請案第2010-2 10642號的優先權,其整個 內容係以引用的方式倂入本文中。 【發明所屬之技術領域】 本揭示內容有關觀看影像的眼鏡、諸如觀看影像的眼 鏡’而被使用於觀看藉由以時分方式顯示左及右影像所實 現之立體影像。 【先前技術】 爲了觀看立體影像,使用者大致上在其頭上配戴眼鏡 型夾架,該夾架顯示右眼影像及左眼影像,且包含具有不 同偏振角度之二偏振板、或與左及右影像同步地交互切換 偏振狀態的二液晶快門。再者,頭戴式顯示元件大致上被 使用於觀看擬真影像、或經由諸如鏡片之光學系統直接地 觀看小尺寸之液晶面板影像。 譬如,在此已建議一影像顯示裝置,其中該等眼睛的 位置及光軸間之對齊係藉由鏡框之柄腳零件(耳掛部)及 將與該使用者之鼻子造成接觸的鼻樑架零件(固持零件) 所測定,以固定眼鏡鏡框(譬如,看日本待審查專利申請 案公告第2001-305475號)。再者’在此已建議一影像顯 示裝置,其中改變該等柄腳之寬度的滑動機構被提供於該 -5- 201227048 眼鏡型夾架的上部中,以致其頭部具有不同尺寸之使用者 能配戴該眼鏡型夾架,且配戴感覺被改善(替如,看日本 待審查專利申請案公告第4-23 5 8 1號)。 在典型之視覺矯正眼鏡的鏡框之大部份鼻樑架零件中 ,細長的鼻樑架支臂藉由軟焊被接合至一邊緣部份。然而 ,在此已被建議一鼻樑架支撐本體,其中以可替換方式安 裝之鼻樑架可被替換(譬如,看日本待審查專利申請案公 告第2007-240700號)。於很多案例中,該鼻樑架零件被 固定至一眼鏡鏡框(邊緣部份),且被設置在該鼻子的上 部(靠近該等眼睛之邊緣)中,而不會特別由該透鏡鏡框 之形狀的外側突出。再者,在此已建議了一眼鏡零組件, 其中該鼻樑架零組件具有一鞍座形狀,且本身由樹脂所製 成之附接件能被可分離地替換(譬如,看日本待審查專利 申請案公告第2006-91641號)。 然而’一般之眼鏡鏡框或一般之柄腳零件係由金屬( 鎳及鈦之合金、黃金、形狀記憶合金等)或塑膠(醋酸鹽 材料或超彈性樹脂)所製成。爲了執行該形狀之細微調整 (塑性變形),專門技術或裝置及夾具已被使用。 爲了觀看立體影像,使用者必需在其頭部上配戴眼鏡 型夾架’該夾架顯示右眼影像及左眼影像,且包含具有不 同偏振角度或二液晶快門之與左及右影像同步地交互切換 偏振狀態的二偏振板。爲了該眼鏡型夾架能用作電視之配 件’一附屬之眼鏡型夾架必須被使用於其頭部具有不同尺 寸的諸如男性、女性、成人、及小孩之使用者,以及配戴 -6- 201227048 視覺矯正眼鏡的使用者。 然而,於根據該相關技藝的上述技術中,沒有技術能 夠讓其頭部具有不同尺寸的使用者配戴該眼鏡型夾架。於 改善配戴感覺之影像顯示裝置中(譬如,看日本待審查專 利申請案公告第4-23581號),柄腳寬度變化機構被提供 ’以爲頭部之寬度變化該柄腳的寬度。然而,既然有節省 重量之問題,於該眼鏡型夾架的上部中提供複雜之可移動 機構係非較佳的。再者,當執行該一般視覺矯正眼鏡夾架 本身之裝配(眼鏡調整)時,在此未考慮到執行由於該等 柄腳零件(耳掛部)或該鼻樑架零件等之最初形狀的塑性 變形所發生之形狀是細微調整之使用者,以便對應於其他 使用者之頭部的寬度,而沒有一特別受訓之操作員、專用 之裝置、或一夾具。 其想要的是提供觀看影像的眼鏡,其顯示右眼影像及 左眼影像,且包含具有不同偏振角度或二液晶快門之與左 及右影像同步地交互切換偏振狀態的二偏振板,以便觀看 立體影像。 再者’其想要的是提供新穎及改良之觀看影像的眼鏡 ,該眼鏡能夠與各種尺寸之頭部對應地被安裝,以觀看立 體影像等。 【發明內容】 按照該揭示內容之一實施例,眼鏡型快門夾架可包含 鏡框,具有分別鄰接左及右鏡框端部零件的左及右開口 201227048 該夾架可包含左及右柄腳零件,用於每一鏡框端部零件及 柄腳零件對,在使得該左及右柄腳零件係可依照接觸位置 之移動相對於該左及右鏡框端部零件折疊的組構中,分別 連接至該左及右鏡框端部零件,而設有該對柄腳零件及鏡 框端部零件之其中一者的移動零件係在該接觸位置與該對 柄腳零件及鏡框端部零件之另一者的接觸零件接觸。再者 ,用於每一對,當該柄腳零件被展開至最大程度時,該接 觸零件係與該移動零件接觸,且該柄腳零件之開口的最大 程度係依照該可移動零件之移動而變化。 根據該揭示內容之實施例,其係可能提供新穎及改良 的觀看影像之眼鏡,該眼鏡能夠與各種尺寸之頭部對應地 被安裝,以觀看該等影像。 根據該揭示內容之實施例,其係可能提供該新穎及改 良之觀看影像的眼鏡,其使用者能以重疊之方式適當地配 戴典型視覺矯正眼鏡之頂部,以觀看立體影像等。 該揭示內容之實施例的特色及優點係由該揭示內容之 實施例的所附圖面及詳細敘述而變得明顯。 【實施方式】 其後,該揭示內容之較佳實施例將參考該等圖面被詳 細地敘述。遍及該說明書及該等圖面,相同之參考數字被 給予具有相同之實際功能的構成元件,且其敘述將不被重 複。 將按照以下之順序敘述。201227048 VI. STATEMENT OF RELATED APPLICATIONS: This application claims priority from Japanese Patent Application No. 2010-2 10642, filed on Sep. 21, 2010, the entire content of The way to break into this article. TECHNICAL FIELD The present disclosure relates to glasses for viewing an image, such as an eyeglass for viewing an image, and is used to view a stereoscopic image realized by displaying left and right images in a time division manner. [Prior Art] In order to view a stereoscopic image, a user generally wears a glasses type holder on his head, which displays a right eye image and a left eye image, and includes two polarizing plates having different polarization angles, or The right image synchronously alternately switches the two liquid crystal shutters of the polarization state. Furthermore, the head mounted display element is generally used to view a immersive image or to directly view a small sized liquid crystal panel image via an optical system such as a lens. For example, an image display device has been proposed in which the position of the eyes and the alignment between the optical axes are by the shank parts of the frame (the ear hooks) and the bridge parts that will come into contact with the nose of the user. (Retaining parts) Measured to fix the spectacle frame (see, for example, Japanese Patent Application Publication No. 2001-305475). Furthermore, an image display device has been proposed, in which a sliding mechanism for changing the width of the tangs is provided in the upper portion of the glasses-type holder of the -5-201227048, so that the heads of the users having different sizes can Wearing the glasses type holder, and the wearing feeling is improved (for example, see Japanese Patent Application Publication No. 4-23 5 8 1). In most of the nose bridge parts of the frame of a typical vision correcting eyeglass, the elongated nose bridge arm is joined to an edge portion by soldering. However, a bridge support body has been proposed here, in which an alternatively mounted nose bridge can be replaced (see, for example, Japanese Patent Application Laid-Open No. 2007-240700). In many cases, the bridge assembly is secured to a spectacle frame (edge portion) and is disposed in the upper portion of the nose (near the edges of the eyes) without the shape of the lens frame. Outer protruding. Furthermore, a spectacle assembly has been proposed herein in which the bridge assembly has a saddle shape and the attachment itself made of resin can be detachably replaced (for example, see Japanese patent pending) Application Announcement No. 2006-91641). However, the general eyeglass frame or general shank parts are made of metal (alloyed alloy of nickel and titanium, gold, shape memory alloy, etc.) or plastic (acetate or superelastic resin). In order to perform fine adjustment (plastic deformation) of the shape, special techniques or devices and fixtures have been used. In order to view the stereoscopic image, the user must wear a glasses type holder on the head. The holder displays the right eye image and the left eye image, and includes the left and right images with different polarization angles or two liquid crystal shutters. Two polarization plates that alternately switch polarization states. In order for the glasses type clip holder to be used as a TV accessory, an accessory glasses type holder must be used for users of different sizes such as male, female, adult, and child, and wearing-6- 201227048 Users of vision correction glasses. However, in the above-described technique according to the related art, there is no technology capable of allowing a user whose head has a different size to wear the glasses type holder. In the image display device for improving the wearing feeling (for example, see Japanese Patent Application Laid-Open No. 4-23581), the tang width changing mechanism is provided to think that the width of the head changes the width of the tang. However, since there is a problem of saving weight, it is not preferable to provide a complicated movable mechanism in the upper portion of the eyeglass holder. Furthermore, when the assembly of the general vision correction glasses holder itself (glass adjustment) is performed, it is not considered here to perform plastic deformation due to the initial shape of the shank parts (ear hooks) or the bridge parts and the like. The shape that occurs is a finely tuned user to correspond to the width of the head of other users without a specially trained operator, dedicated device, or a fixture. What it wants is to provide glasses for viewing images, which display right-eye images and left-eye images, and include two polarizing plates with different polarization angles or two liquid crystal shutters that alternately switch polarization states in synchronization with left and right images for viewing. Stereoscopic image. Further, what is desired is glasses which provide novel and improved viewing images which can be mounted corresponding to heads of various sizes to view stereo images and the like. SUMMARY OF THE INVENTION According to one embodiment of the disclosure, a glasses-type shutter holder may include a frame having left and right openings adjacent to the left and right frame end parts, respectively. 201227048 The holder may include left and right tang parts. For each frame end part and tang part pair, in the structure that allows the left and right tang parts to be folded relative to the left and right frame end parts according to the movement of the contact position, respectively Left and right frame end parts, and the moving parts provided with one of the pair of tang parts and the frame end parts are in contact with the other of the pair of tang parts and the end parts of the frame at the contact position Parts contact. Moreover, for each pair, when the tang part is deployed to the maximum extent, the contact part is in contact with the moving part, and the opening of the shank part is maximized according to the movement of the movable part Variety. In accordance with an embodiment of the disclosure, it is possible to provide novel and improved eyeglasses for viewing images that can be mounted corresponding to heads of various sizes to view the images. According to an embodiment of the disclosure, it is possible to provide the novel and improved viewing image glasses, the user of which can properly wear the top of typical vision correcting glasses in an overlapping manner to view stereoscopic images and the like. The features and advantages of the embodiments of the present invention will be apparent from the description and drawings. [Embodiment] Hereinafter, preferred embodiments of the disclosure will be described in detail with reference to the drawings. Throughout the specification and the drawings, the same reference numerals are given to the constituent elements having the same actual functions, and the description thereof will not be repeated. It will be described in the following order.

S -8- 201227048 1. 快門眼鏡之組構的範例 2. 柄腳之角度調整結構 3. 眼鏡之裝配 4. 快門眼鏡之組構的另一範例 1·快門眼鏡之組構的範例 於圖1至5中,根據該揭示內容之實施例,眼鏡型液晶 快門夾架(液晶快門眼鏡)1 0 〇之組構被槪要地說明。當 使用者觀看一顯示器(顯示裝置)時,該使用者在他或她 的頭上配戴所說明之眼鏡型液晶快門夾架1〇〇,該顯示器 顯7K左及右眼睛影像及右眼影像,以觀看3 D (立體)影像 。顯示器於該眼鏡型液晶快門夾架1〇〇中,具有不同偏振 角度及二液晶快門而能夠與左及右影像同步地交互切換偏 振狀態的二偏振板被容納在眼鏡鏡框102中。該眼鏡型液 晶快門夾架1 〇〇具有偵測由顯示器(未示出)所傳輸之紅 外線的紅外線偵測單元、液晶快門驅動電路、及諸如驅動 該電路之電池的電與電子零組件。圖1係眼鏡型液晶快門 夾架1 0 0當由該上側觀看時之俯視圖。圖2係該眼鏡型液晶 快門夾架1 0 〇之立體圖。圖3係該眼鏡型液晶快門夾架1 〇 〇 之正面圖。圖4係該眼鏡型液晶快門夾架1 〇 〇之右側視圖。 當該使用者配戴該一般之視覺矯正眼鏡時,該使用者 以重疊之方式將依據此實施例的眼鏡型液晶快門夾架1 00 配戴在典型之視覺矯正眼鏡的頂部上。再者,該眼鏡型液 晶快門夾架1 〇〇被架構,以致具有各種頭部型式或各種臉 -9- 201227048 部尺寸的由成人至小孩之使用者能配戴該眼鏡型液晶快門 夾架100。 於圖1中,該整個眼鏡型液晶快門夾架1 00被說明。由 樹脂材料所模製之眼鏡鏡框102的左及右端部(保護層) 兩者被形成’以便具有一彎曲表面。該左及右端部係分別 經由鉸鏈部份連接至左及右柄腳夾架106。每一柄腳夾架 1 06能經過該鉸鏈部份被折疊。 鼻樑架零件110被固定至該眼鏡鏡框102。該鼻樑架零 件1 1 0被放在配戴該眼鏡型液晶快門夾架]0 0的使用者之鼻 子的兩側面上,以便固定該眼鏡型液晶快門夾架1 00。於 所說明範例中,每一者具有鞍座形狀之鼻樑架零件1 1 0被 建構成靠近該鼻子之中間與該鼻子造成接觸,以便不會與 該眼鏡型液晶快門夾架1 00內側所配戴之視覺矯正眼鏡的 鼻樑架零件干涉。另一方面,該視覺矯正眼鏡的鼻樑架零 件大致上與該鼻子最接近該右及左眼的上部(該眼睛的邊 緣之位置)造成接觸,以便不會盡可能多地暴露至外側。 關於該鼻樑架零件110之材料,諸如不銹鋼之金屬彈簧材 料被用作該核心材料,且該核心材料之表面被鑄造及塗以 燒性樹脂。具有此一組構之鼻樑架零件1 ] 〇被建構,以便 被細微地調整.,以致藉由強加該負載,該鼻子上之鼻樑架 表面(接觸傾斜表面)及至該鼻子之壓力對應於個別使用 者’以便均勻的塑性變形。再者,該鼻樑架零件11〇具有 胃該鼻子被下壓時避免記號發生之功能、及維持穩定之配 戴狀態的功能。S -8- 201227048 1. Example of the structure of the shutter glasses 2. Angle adjustment structure of the tang 3. Assembly of the glasses 4. Another example of the structure of the shutter glasses 1. Example of the configuration of the shutter glasses is shown in Fig. 1. Up to 5, according to the embodiment of the disclosure, the configuration of the glasses type liquid crystal shutter clip (liquid crystal shutter glasses) 10 〇 is briefly explained. When the user views a display (display device), the user wears the illustrated glasses-type liquid crystal shutter holder 1 on his or her head, and the display displays 7K left and right eye images and right eye images. To view 3D (stereo) images. In the eyeglass type liquid crystal shutter frame 1, two polarizing plates having different polarization angles and two liquid crystal shutters and capable of alternately switching the polarization state in synchronization with the left and right images are housed in the eyeglass frame 102. The eyeglass type liquid crystal shutter holder 1 has an infrared detecting unit that detects an infrared line transmitted by a display (not shown), a liquid crystal shutter driving circuit, and electrical and electronic components such as a battery that drives the circuit. Fig. 1 is a plan view of the eyeglass type liquid crystal shutter holder 100 when viewed from the upper side. Fig. 2 is a perspective view of the glasses type liquid crystal shutter holder 10 〇. Figure 3 is a front elevational view of the eyeglass type liquid crystal shutter holder 1 〇 。. Fig. 4 is a right side view of the eyeglass type liquid crystal shutter holder 1 〇 。. When the user wears the general vision correcting glasses, the user wears the eyeglass type liquid crystal shutter holder 100 according to this embodiment on top of the typical vision correcting glasses in an overlapping manner. Furthermore, the glasses-type liquid crystal shutter holder 1 is configured such that an adult-to-child user can wear the glasses-type liquid crystal shutter holder 100 having various head types or various face--9-201227048 sizes. . In Fig. 1, the entire glasses type liquid crystal shutter holder 100 is illustrated. Both the left and right end portions (protective layers) of the spectacle frame 102 molded from the resin material are formed 'to have a curved surface. The left and right end portions are connected to the left and right tang brackets 106 via hinge portions, respectively. Each shank holder 106 can be folded through the hinge portion. A bridge member 110 is secured to the eyeglass frame 102. The bridge member 1 1 0 is placed on both sides of the nose of the user wearing the glasses type liquid crystal shutter holder 0 0 to fix the glasses type liquid crystal shutter holder 100. In the illustrated example, each of the bridge members 1 10 having a saddle shape is constructed to contact the nose in the middle of the nose so as not to be associated with the inside of the glasses type liquid crystal shutter holder 100. Wear the nose bridge parts of Vision Correction Glasses. On the other hand, the bridge member of the optometric glasses is brought into contact substantially with the upper portion of the nose closest to the right and left eyes (the position of the edge of the eye) so as not to be exposed as much as possible to the outside. Regarding the material of the bridge member 110, a metal spring material such as stainless steel is used as the core material, and the surface of the core material is cast and coated with an ablade resin. The bridge member 1 〇 having this set of structures is constructed so as to be finely adjusted so that the surface of the nose bridge (contacting the inclined surface) on the nose and the pressure to the nose correspond to individual use by imposing the load 'for even plastic deformation. Further, the bridge member 11 has a function of avoiding the occurrence of marks when the nose is depressed, and a function of maintaining a stable wearing state.

S -10- 201227048 該柄腳112係隨同該柄腳夾架106 —體成形或係藉由螺 絲等與該柄腳夾架106耦接。關於該柄腳112之材料,諸如 不銹鋼之金屬彈簧材料被用作該核心材料,且接觸該後腦 杓部份或耳朵的柄腳端部之形狀(靠近最新部份)能被細 微地調整。於此實施例中,經過在下面敘述的旋轉式棘輪 機構等之使用及亦藉由該使用者細微地調整該柄腳,該配 戴感覺能藉由改變該柄腳之寬度而被改善。 2.柄腳之角度調整結構 其次,該柄腳1 12之角度調整結構將被敘述。圖5係該 眼鏡型液晶快門夾架1〇〇之立體圖及分開地放大之柄腳夾 架106的槪要圖(放大圖)。圖6係一槪要圖,而當由該眼 鏡鏡框102的內側觀看時,說明該眼鏡鏡框102之柄腳夾架 1 〇 6被安裝的部份。 如圖5所示,圓柱狀旋轉構件114被安裝在該柄腳夾架 106上。該旋轉構件114被建構,以便將在當作該轉軸的中 心軸旋轉。如圖6所示,於該眼鏡鏡框102之柄腳夾架1〇6 被安裝的部份中,每一溝槽(凹入部分)116被形成在對 應於該旋轉構件H4之位置。如圖6所示,該等溝槽1 16係 以弧形繞著該旋轉構件U 4之旋轉中心形成。具有相同形 狀之二溝槽116被形成在相對於該旋轉構件1 14之旋轉中心 呈180度面向彼此的位置。該溝槽116之深度被建構,以便 在該弧形之周圍方向中逐漸地被改變。 圖7A至7C係該柄腳之詳細角度調整結構的槪要圖。圖 -11 - 201227048 7 A係該眼鏡鏡框102及該柄腳夾架106間之連接區段的立體 圖。圖7B及7C係取自沿著圖7A之鏈線VIIB-VIIB、VIIC-VIIC、或VIIIB-VIIIB的槪要圖。於圖7B中,該旋轉構件 1 14之突出部份1 14a係位在該凹入部份Π6之位置。於圖7C 中,該旋轉構件1 14之突出部份1 14a係位在該凹入部份1 16 不被形成之部份中。 如圖7B及7C所示,該柄腳夾架106係可繞著旋轉軸118 相對於該眼鏡鏡框102旋轉,且該鉸鏈部份係藉由該旋轉 軸Π8所建構。如此,該柄腳夾架106及該柄腳112能經過 該鉸鏈部份被折疊。 螺絲122被緊固在旋轉構件(凸輪)114上,使彈簧片 12 0介入於其間,使得該旋轉構件1 14被安裝在該柄腳夾架 106上。如此,該旋轉構件1 14係可相對於該柄腳夾架106 旋轉頂抗該彈簧片12 0之滑動阻抗。當該旋轉構件U4之角 度位置被決定時,該旋轉構件114之位置係藉由當具有彈 簧片形狀的滑動件120滑動時所發生之阻抗來維持。於該 旋轉構件114之端部中,該二突出部份1 14a被形成在該等 突出部份1 14a於180度面向彼此之位置。 當該旋轉構件Π4被旋轉時,該眼鏡鏡框102之二溝槽 1 1 6係沿著該等突出部份1 1 4a之軌跡形成。當該等突出部 份1 1 4a係沿著該旋轉構件1 1 4之角度位置位於該等溝槽1 1 6 之最深部份時,如圖7B中所示,該等突出部份1 14a被完全 地***該等溝槽1〗6。因此,該柄腳夾架1 〇6之開口角度變 成最大。當該等突出部份1 1 4a係位在未形成該等溝槽1 1 6S -10- 201227048 The tang 112 is integrally formed with the shank holder 106 or coupled to the shank holder 106 by a thread or the like. Regarding the material of the tang 112, a metal spring material such as stainless steel is used as the core material, and the shape of the tang end portion (close to the latest portion) contacting the posterior cerebral palsy portion or the ear can be finely adjusted. In this embodiment, the wearing feeling can be improved by changing the width of the tang by the use of the rotary ratchet mechanism or the like described below and also by the user finely adjusting the tang. 2. Angle adjustment structure of the tang. Next, the angle adjustment structure of the tang 1 12 will be described. Fig. 5 is a perspective view of the eyeglass type liquid crystal shutter holder 1 and a schematic view (enlarged view) of the separately enlarged shank holder 106. Fig. 6 is a schematic view showing the portion of the spectacles holder 1 〇 6 to which the spectacles frame 102 is mounted when viewed from the inside of the ocular frame 102. As shown in Fig. 5, a cylindrical rotating member 114 is mounted on the tang holder 106. The rotating member 114 is constructed to rotate in a central axis that acts as the rotating shaft. As shown in Fig. 6, in the portion where the shank holder 1〇6 of the spectacle frame 102 is mounted, each groove (recessed portion) 116 is formed at a position corresponding to the rotating member H4. As shown in Fig. 6, the grooves 1 16 are formed in an arc around the center of rotation of the rotating member U 4 . The two grooves 116 having the same shape are formed at positions facing each other at 180 degrees with respect to the center of rotation of the rotating member 144. The depth of the groove 116 is constructed so as to be gradually changed in the direction around the arc. 7A to 7C are schematic views of the detailed angle adjustment structure of the tang. Figure -11 - 201227048 7 A is a perspective view of a connecting section between the eyeglass frame 102 and the shank holder 106. 7B and 7C are schematic views taken along the line VIIB-VIIB, VIIC-VIIC, or VIIIB-VIIIB of Fig. 7A. In Fig. 7B, the protruding portion 1 14a of the rotating member 14 is positioned at the position of the concave portion Π6. In Fig. 7C, the protruding portion 14 14a of the rotating member 14 is positioned in a portion where the concave portion 1 16 is not formed. As shown in Figures 7B and 7C, the shank holder 106 is rotatable relative to the spectacle frame 102 about a rotational axis 118, and the hinge portion is constructed by the rotating shaft 8 . Thus, the tang holder 106 and the tang 112 can be folded through the hinge portion. The screw 122 is fastened to the rotating member (cam) 114 with the spring piece 120 interposed therebetween, so that the rotating member 14 is mounted on the tang holder 106. As such, the rotating member 14 is rotatable relative to the shank holder 106 against the sliding resistance of the spring piece 120. When the angular position of the rotating member U4 is determined, the position of the rotating member 114 is maintained by the impedance which occurs when the slider 120 having the spring-like shape slides. In the end portion of the rotating member 114, the two projecting portions 14a are formed at positions where the projecting portions 1 14a face each other at 180 degrees. When the rotating member Π 4 is rotated, the two grooves 1 16 of the spectacle frame 102 are formed along the trajectory of the protruding portions 1 14a. When the protruding portions 1 14 4 are located at the deepest portion of the grooves 1 16 along the angular position of the rotating member 1 14 , as shown in FIG. 7B , the protruding portions 1 14 a are The grooves 1 & 6 are inserted completely. Therefore, the opening angle of the shank holder 1 〇 6 becomes maximum. When the protruding portions 1 1 4a are in the position where the grooves 1 1 6 are not formed

S -12- 201227048 之部份時,如圖7 C所示,沿著該旋轉構件1 1 4之角度位置 ,該等突出部份114a與未形成該等溝槽116之平面造成接 觸。如此,該柄腳夾架106之開口變成最小。 用於每一預定角度,該溝槽116之深度被建構爲不同 。譬如,減號(-)形狀溝槽係形成在該螺絲1 2 2之頭部中 。如此,該螺絲122及該旋轉構件1 14可藉由嚙合一螺絲起 子、硬幣等被旋轉進入該溝槽及轉動該螺絲122。譬如, 當該等突出部份1 14a係位在該等溝槽1 16之最深部份時, 藉由60度轉動該螺絲122,該等突出部份114a被移至該等 溝槽1 16之深度係較淺的位置。當該等突出部份1 14a之位 置係位在該等溝槽116之深度爲較淺的位置時,譬如,該 等溝槽116之深度能被設定,以致該柄腳夾架106之開口角 度(該鉸鏈之角度)變窄達大約2.5度。當該等突出部份 H 4a與未形成該等溝槽116之平面造成接觸時,該等溝槽 1 16之深度能被設定,以致該柄腳夾架106之開口角度(該 鉸鏈之角度)進一步被減少達大約2.5度。如此,該柄腳 112之開口角度(大約5度)能夠在二步驟中被調整,且該 二右及左柄腳112之寬度能被調整,以便變得比該最初設 定的寬度更狹窄。 於該上述範例中,該二突出部份1 14a被形成在該旋轉 構件114中。然而,突出部份114a之數目可爲一個、或三 個以上。於該上述旋轉構件114中調整該柄腳112之開口角 度的機構係僅只一範例。代替地,該相同之功能可甚至在 —結構中被達成,其中滑動片被***,且具有複數頂點之 -13- 201227048 山形部份被***及抽出。 圖8 A及8 B係包含滑動件之調整機構的範例之槪要圖。 於圖8B中,在取自沿著圖7A之鏈線VIIB-VIIB、VIIC-VIIC 、或VIIIB-VIIIB的位置之橫截面表面被圖示地說明,如於 圖7Β及7C中。於圖8Α中,在取自圖8Β沿著該鏈線VIIIA-VIIIΑ之位置的橫截面表面係圖示地說明。 如圖8A所示,開口 128係形成在該柄腳夾架106之端部 中,且滑動件120被***該開口 I28中。於該開口 128中’ 該滑動件120被建構成於該鏈線VIIIA-VIIIA之方向中往復 移動。該等滑動片120係設有突出部份120a,其被形成在 面對該眼鏡鏡框102之位置。具有在該突出部份120a之移 動方向中逐漸地改變的深度之溝槽1 26係形成在面對該眼 鏡鏡框102的滑動件120之面上。突出部份120b係於該滑動 件120之寬度方向中形成在該滑動件120之側表面上。該突 出部份120b與複數凹入部份124之一嚙合,該凹入部份被 形成對應於該溝槽126之深度。 以此一組構,當該滑動件1 20被滑動時,該突出部份 120b與該等凹入部份124之一嚙合,以致該滑動件120之位 置被界定。再者,既然該突出部份120a與該溝槽126造成 接觸之深度係依照該滑動件120之位置改變,該柄腳112之 開口角度可被調整,如於圖7A至7C所示之案例中。 以此一組構,晋如,當該柄腳之寬度及長度最初被分 別設定至175毫米及130毫米,且該溝槽126之深度係在三 步驟中被設定,該柄腳之寬度能夠藉由第一步驟調整被減 -14- 201227048 少至164毫米(2.5度之調整)。再者,該柄腳之寬度能藉 由第二步驟調整被設定至153毫米。再者,該柄腳之寬度 能被藉由第三步驟調整減少至141毫米。這樣一來,諸如 具有小頭部之小孩的使用者能配戴該眼鏡型液晶快門夾架 100。藉由調整該鼻樑架零件110及該柄腳之寬度,該柄腳 彈簧壓力能被施加,以致其頭部具有不同尺寸之使用者能 穩定地配戴該眼鏡型液晶快門夾架1 〇〇,而沒有感覺舒服 。該柄腳彈簧壓力較佳地係於由大約80克至120克之範圍 中。該推薦之重量係由複數使用者的配戴測試所獲得之結 果的平均値。 再者,比較於該調整係僅只藉由該柄腳1 1 2之彈性所 進行的案例,既然該柄腳之寬度能被該旋轉構件114所調 整,過度之柄腳彈簧壓力能被防止強加。 3 .眼鏡之裝配 圖1 0至1 2係視覺矯正眼鏡之標準尺寸的槪要圖。於圖 10至12中,該眼鏡型液晶快門夾架100被安裝,以便與在 該上側之上的視覺矯正眼鏡300重疊。於圖10中,距離a係 頭部之寬度的統計尺寸。成人男性及女性之平均値係於約 由160毫米至152毫米之範圍中。該距離a之最大及最小値 分別係大約174毫米及大約140毫米。可變之寬度係34毫米 。以便當僅只一眼鏡夾架被使用時,改善其頭部具有不同 尺寸之複數使用者的配戴感覺,該可變之寬度必需藉由將 該柄腳之寬度調整至某一程度所設定。 -15- 201227048 於圖1 1中,距離b係該視覺矯正眼鏡的左及右鼻樑架 零件3 02間之寬度,且視該視覺矯正眼鏡的眼鏡透鏡之尺 寸或該眼鏡鏡框的設計形狀而定。瞳孔間之距離的平均値 係在由61毫米至64毫米之範圍中。瞳孔間之距離的最大及 最小値分別係7 1毫米及6 1毫米。該左及右透鏡鏡框間之鼻 子的寬度(山形寬度)視該透鏡鏡框之形狀或設計而定, 但係在由大約14毫米至大約19毫米之範圍中。以設計之觀 點,一般視覺矯正眼鏡之鼻樑架零件不會由該眼鏡鏡框突 出,且於很多案例中被設置在鼻子之上部中、亦即靠近該 等眼睛之邊緣。 因此,當其係假設該眼鏡型液晶快門夾架100被安裝 在該一般視覺矯正眼鏡之頂部上時,已製備有稍微大於該 視覺矯正眼鏡之鏡框的眼鏡型液晶快門夾架1 00,且具有 鞍座形狀的鼻樑架零件1 1 0之形狀及所形成之位置被建構 爲最佳的。以此一組構,既然該眼鏡型液晶快門夾架1 〇〇 的鼻樑架零件110抵靠著該鼻子之位置可被設定,以便不 會與該視覺矯正眼鏡干涉,該使用者能以重疊之方式配戴 該眼鏡型液晶快門夾架1 00及該視覺矯正眼鏡。 於圖1 2中,距離C係配戴該視覺矯正眼鏡之使用者的 角膜頂及該透鏡的後表面間之距離。該視覺矯正中之一般 標準値係12毫米。於圖12中,距離d係該視覺矯正眼鏡之 透鏡的的後表面及該使用者的耳朵間之柄腳的距離。對應 於該使用者的頭部之寬度的柄腳之寬度的調整範圍大致上 係在由2 0毫米至8 0毫米之範圍中,且較佳地係4 0毫米。爲When part of S -12-201227048, as shown in Fig. 7C, along the angular position of the rotating member 141, the protruding portions 114a are brought into contact with a plane on which the grooves 116 are not formed. As such, the opening of the tang holder 106 becomes minimal. The depth of the trench 116 is constructed to be different for each predetermined angle. For example, a minus (-) shaped groove is formed in the head of the screw 1 2 2 . Thus, the screw 122 and the rotating member 14 can be rotated into the groove and rotated by the screw 122 by engaging a screwdriver, a coin or the like. For example, when the protruding portions 1 14a are positioned at the deepest portions of the grooves 1 16 , the screws 122 are rotated by 60 degrees, and the protruding portions 114 a are moved to the grooves 1 16 The depth is shallower. When the positions of the protruding portions 1 14a are located at a shallower depth of the grooves 116, for example, the depth of the grooves 116 can be set such that the opening angle of the shank holder 106 is (the angle of the hinge) is narrowed by about 2.5 degrees. When the protruding portions H 4a are brought into contact with a plane on which the grooves 116 are not formed, the depth of the grooves 116 can be set such that the opening angle of the shank holder 106 (the angle of the hinge) It is further reduced by approximately 2.5 degrees. Thus, the opening angle (about 5 degrees) of the tang 112 can be adjusted in two steps, and the widths of the two right and left tangs 112 can be adjusted to become narrower than the initially set width. In the above example, the two protruding portions 1 14a are formed in the rotating member 114. However, the number of the protruding portions 114a may be one, or three or more. The mechanism for adjusting the opening angle of the tang 112 in the above-mentioned rotating member 114 is only an example. Alternatively, the same function can be achieved even in the structure in which the slide is inserted and the mountain portion having the complex vertices -13-201227048 is inserted and withdrawn. Figures 8A and 8B are schematic views of an example of an adjustment mechanism including a slider. In Fig. 8B, the cross-sectional surface taken from the position along the line VIIB-VIIB, VIIC-VIIC, or VIIIB-VIIIB of Fig. 7A is illustrated graphically as in Figs. 7A and 7C. In Fig. 8A, the cross-sectional surface taken from the position of Fig. 8A along the chain line VIIIA-VIII is schematically illustrated. As shown in Fig. 8A, an opening 128 is formed in the end of the shank holder 106, and the slider 120 is inserted into the opening I28. In the opening 128, the slider 120 is constructed to reciprocate in the direction of the chain line VIIIA-VIIIA. The sliding sheets 120 are provided with projecting portions 120a formed at positions facing the spectacle frame 102. A groove 126 having a depth gradually changing in the moving direction of the protruding portion 120a is formed on the face of the slider 120 facing the eyeglass frame 102. The projecting portion 120b is formed on the side surface of the slider 120 in the width direction of the slider 120. The protruding portion 120b is engaged with one of the plurality of concave portions 124, and the concave portion is formed to correspond to the depth of the groove 126. In this configuration, when the slider 110 is slid, the projection 120b engages with one of the recessed portions 124 such that the position of the slider 120 is defined. Moreover, since the depth at which the protruding portion 120a makes contact with the groove 126 changes according to the position of the slider 120, the opening angle of the tang 112 can be adjusted, as in the case shown in FIGS. 7A to 7C. . In this configuration, when the width and length of the tang are initially set to 175 mm and 130 mm, respectively, and the depth of the groove 126 is set in three steps, the width of the shank can be borrowed. The first step adjustment is reduced by -14 to 201227048 as little as 164 mm (2.5 degree adjustment). Furthermore, the width of the tang can be set to 153 mm by the second step adjustment. Furthermore, the width of the tang can be reduced to 141 mm by the third step adjustment. In this way, a user such as a child with a small head can wear the eyeglass type liquid crystal shutter holder 100. By adjusting the width of the bridge member 110 and the tang, the shank spring pressure can be applied so that a user having a different size on the head can stably wear the spectacles-type liquid crystal shutter holder 1 〇〇, Not feeling comfortable. The tang spring pressure is preferably in the range of from about 80 grams to about 120 grams. The recommended weight is the average of the results obtained by the wearing test of a plurality of users. Furthermore, compared to the case where the adjustment is performed only by the elasticity of the tang 1 1 2, since the width of the tang can be adjusted by the rotating member 114, the excessive tang spring pressure can be prevented from being imposed. 3. Assembly of the glasses Figure 10 to 1 2 is a summary of the standard dimensions of the optical correction glasses. In Figures 10 through 12, the eyeglass-type liquid crystal shutter holder 100 is mounted to overlap the right-correcting eyewear 300 above the upper side. In Fig. 10, the distance a is the statistical size of the width of the head. The average sputum of adult males and females ranges from about 160 mm to 152 mm. The maximum and minimum 该 of the distance a are approximately 174 mm and approximately 140 mm, respectively. The variable width is 34 mm. In order to improve the wearing sensation of a plurality of users having different sizes of heads when only one eyeglass holder is used, the variable width must be set by adjusting the width of the tang to a certain extent. -15- 201227048 In Figure 11, the distance b is the width between the left and right bridge components of the optometric glasses, and depends on the size of the spectacle lens of the optometric glasses or the design shape of the spectacle frame. . The average distance between the pupils is in the range of 61 mm to 64 mm. The maximum and minimum distances between the pupils are 7 1 mm and 61 mm, respectively. The width of the nose between the left and right lens frames (the width of the mountain) depends on the shape or design of the lens frame, but is in the range of from about 14 mm to about 19 mm. By design, the nose bridge components of general vision correcting glasses are not protruded from the spectacle frame and, in many cases, are placed in the upper portion of the nose, i.e., near the edges of the eyes. Therefore, when it is assumed that the eyeglass type liquid crystal shutter clip 100 is mounted on the top of the general vision correcting eyeglasses, the eyeglass type liquid crystal shutter frame 100 having a frame slightly larger than the vision correcting eyeglasses has been prepared, and has The shape of the saddle-shaped nose piece 1 1 0 and the position formed are constructed to be optimal. With this configuration, since the position of the bridge member 110 of the glasses-type liquid crystal shutter holder 1 against the nose can be set so as not to interfere with the vision correction glasses, the user can overlap The glasses type liquid crystal shutter clip holder 100 and the vision correction glasses are worn in a manner. In Fig. 12, the distance C is the distance between the corneal top of the user wearing the corrective spectacles and the rear surface of the lens. The general standard in this vision correction is 12 mm. In Fig. 12, the distance d is the distance between the rear surface of the lens of the corrective spectacles and the tang of the user's ear. The adjustment range of the width of the tang corresponding to the width of the user's head is substantially in the range of 20 mm to 80 mm, and preferably 40 mm. for

S -16- 201227048 了對應於此距離,由相當昂貴之合金材料或具有彈性之樹 脂材料所製成的柄腳被使用於很多典型之視覺矯正眼鏡中 。於此實施例中,藉由調整該等柄腳及該鼻樑架零件110 之寬度,該使用者在他或她的頭上配戴該眼鏡型液晶快門 夾架100。在此時,經過該等柄腳之寬度的粗略調整以對 應於該頭部之寬度、及經過個別使用者對該鼻樑架零件 110之細微調整,收縮壓力能變得均勻。再者,該配戴感 覺(裝配感覺)可被大幅地改善。該視覺矯正眼鏡之左與 右柄腳可不必定彼此平行,且按照配戴該視覺矯正眼鏡之 使用者的臉之寬度,該等柄腳之寬度可朝向該耳朵(該臉 的後面部份)變得較大。該等柄腳的前端(現代)可爲向 內彎曲而非爲直線,且於很多案例中,裝配可朝向該頭的 後面部份被實現。 調整適合用於該使用者的視覺矯正眼鏡之裝配係藉由 以下所施行:(1)將該等左及右柄腳之位置調整至該鼻 樑架之位置,(2)執行調整,直至該鼻樑架或該等柄腳 之耳朵,(3)調整該等透鏡之傾斜角度,及(4)將該等 透鏡的中心設置至該鏡框之給定位置。 在此有視覺矯正眼鏡,其中該柄腳之材料被建構’以 藉由該等柄腳之調整與該右及左鼻樑架之調整設定該等透 鏡之適當位置,並使用由具有小的彈性係數之鈦合金或 Ni-Ti基記憶合金所製成之彈性材料。再者’在此有視覺 矯正眼鏡,其中此彈性構件係與具有彈性及耐用性之超彈 性塑膠(液晶醯亞氨樹脂)、或具有大彈性係數之非晶熱 -17- 201227048 塑性塑料(聚醚二醯亞胺樹脂)組合。如此’在此有視覺 矯正眼鏡,其中具有該減少應力之效果的方法或材料被使 用,以便撓性地彎曲該柄腳’而不會折疊該柄腳。 然而,以該視覺矯正眼鏡之觀點,其係假設該視覺矯 正眼鏡中之裝配係藉由製造廠或於商店中所進行,且被進 行用於特定之單一使用者。因此,該裝配被施行,以便藉 由可以說是測定來定做用於個別之使用者。 依據此實施例之眼鏡型液晶快門夾架100係隨同3D電 視當作一組地銷售。因此,譬如,當該眼鏡型液晶快門夾 架100在家裡被使用時,具有各種尺寸之頭部的複數使用 者共享該眼鏡型液晶快門夾架100,而不管成人、小孩、 男性 '及女性。既然其係假設該使用者配戴該視覺矯正眼 鏡’亦即,該使用者配戴二種眼鏡,依據此實施例之眼鏡 型液晶快門夾架1 00於使用期間與每一對視覺矯正眼鏡重 鹽〇 因此’該柄腳之開口角度被建構成將藉由該上述棘輪 型調整機構逐漸地調整,該柄腳本身被建構,以便可塑性 變形’且該裝配被進行,以便被最佳用於具有各種尺寸之 頭部的使用者,而不管成人、小孩、男性、及女性。 圖9係該柄腳112之組構的分解立體圖。關於該柄腳 112之材料’諸如不銹鋼之彈簧材料1123被提供當作該柄 腳1 1 2中之核心材料。爲了改善該裝配之感赀,該柄腳具 有一結構’其中該彈簧材料]丨2a係以諸如彈性體之樹脂材 料1 1 2 b覆蓋。該彈簧材料1 1 2 a及該樹脂材料1 1 2 b能夠與該 -18- 201227048 柄腳夾架106被一體地模製。如此,當該使用者以他或她 之手彎曲該柄腳112,該柄腳112係可塑性變形。此外’當 該柄腳1 12係以想要之形狀塑性變形,該柄腳1 12可於該範 圍中被彈性地變形,其中該柄腳1 1 2之曲線係返回。據此 ,譬如,當該使用者藉由該塑性變形直至該寬度比他或她 之頭部的寬度稍微較小來配戴該眼鏡型液晶快門夾架1 〇〇 時,該柄腳Π 2之形狀係由於該彈性變形而稍微返回。因 此,該柄腳能沿著該頭部藉由彈性被維持。該等柄腳之寬 度係在二至四步驟中藉由轉動該旋轉構件114隨同該柄腳 112之變形所調整,如上面所述。如此,具有不同頭部尺 寸之使用者可細微地調整該等柄腳之寬度,以便感受該最 佳之配戴感覺。當諸如不銹鋼之彈簧材料112a被用作該核 心材料,該製造成本能被減少,而不會使用一般眼鏡中所 使用之昂貴的材料。再者,孔洞、刻槽等可被形成在彈簧 材料112a中,以便有利於該塑性變形。 圖13及14係當在該使用者之頭部的頂部觀看時,使用 者所配戴之眼鏡型液晶快門夾架1 00的槪要圖。於圖1 3及 1 4之左側部份中,諸狀態被所說明,其中該柄腳1 1 2及該 鼻樑架零件110不被裝配。於圖13及14之右側部份中,該 等狀態被說明,其中該柄腳1 12及該鼻樑架零件1 10係變形 ’以便裝配一使用者之頭部及鼻子。 於圖13中,所說明之使用者係成人,且他或她之頭部 的尺寸係典型之成人的尺寸。於此案例中,該旋轉構件 Η 4之突出部份係位在對應於該等溝槽】i 6之最深部份的位 201227048 置,且該等柄腳112之開口角度係該最大値。該使用者在 他或她之頭部上配戴該眼鏡型液晶快門夾架100 ’且接著 彎曲順著他或她之頭部的輪廓之柄腳112。然後’當該使 用者爲成人時’該眼鏡型液晶快門夾架100可被最佳地裝 配在他或她之頭部。 於圖14中,所說明之使用者係小孩’且他或她之頭部 的尺寸係相當小。於此案例中,該旋轉構件1 1 4之突出部 份係位在未形成該等溝槽1 1 6之位置,且該等柄腳1 1 2之開 口角度係該最小値。該使用者在他或她之頭部上配戴該眼 鏡型液晶快門夾架1 00,且接著沿著他或她之頭部彎曲該 柄腳112。然後,當該使用者係小孩時,該等柄腳之寬度 可被充分地製成爲減少,且該眼鏡型液晶快門夾架1 0 0可 被最佳地裝配在他或她之頭部上。 在比典型眼鏡之鼻樑架零件302的位置較低之位置, 具有該鞍座形狀之鼻樑架零件110被建構成與該鼻子造成 接觸。如此’其係可能防止該視覺矯正眼鏡之鼻樑架零件 3〇2及該眼鏡型液晶快門夾架1〇〇的鼻樑架零件丨1〇互相干 涉。再者’其係可能實現該結構,其中該等鼻樑架零件 110及302兩者與該鼻子可靠地造成接觸。 於依據此實施例之眼鏡型液晶快門夾架1 〇 〇中,具有 該鞍座形狀之鼻樑架部件n 〇具有雙重結構,並具有核心 材料及覆蓋材料,像該柄腳112。諸如不銹鋼之彈簧材料 被用作lx核/〔、材料,且該核材料之表面被覆蓋以諸如彈 性體之樹脂材料。%此’該岛樑架零件1 1 0係可自由地變S -16-201227048 A tang which is made of a relatively expensive alloy material or an elastic resin material corresponding to this distance is used in many typical vision correcting glasses. In this embodiment, the user wears the eyeglass-type liquid crystal shutter holder 100 on his or her head by adjusting the width of the tangs and the bridge member 110. At this time, the contraction pressure can be made uniform by a rough adjustment of the width of the tangs to correspond to the width of the head and fine adjustment of the bridge member 110 by an individual user. Furthermore, the wearing feeling (assembly feeling) can be greatly improved. The left and right tangs of the optometric glasses may not necessarily be parallel to each other, and according to the width of the face of the user wearing the optometric glasses, the width of the tangs may be changed toward the ear (the rear part of the face) It is bigger. The front end (modern) of the tangs can be curved inward rather than straight, and in many cases the assembly can be implemented towards the rear portion of the head. Adjusting the assembly of the vision correcting glasses suitable for the user is performed by (1) adjusting the positions of the left and right tangs to the position of the bridge, and (2) performing adjustment until the bridge of the nose Or the ears of the tangs, (3) adjusting the angle of inclination of the lenses, and (4) setting the centers of the lenses to a given position of the frame. There are vision correcting glasses wherein the material of the tang is constructed to set the proper position of the lenses by adjustment of the tangs and adjustment of the right and left bridges, and to use a small modulus of elasticity An elastic material made of titanium alloy or Ni-Ti based memory alloy. Furthermore, there are vision correcting glasses, in which the elastic member is a superelastic plastic (liquid crystal yttrium imide resin) having elasticity and durability, or an amorphous heat having a large elastic coefficient -17-201227048 plastic plastic (poly Ether diimine resin) combination. Thus, there is a ocular corrective spectacles in which a method or material having the effect of reducing stress is used to flexibly bend the tang ' without folding the tang. However, from the point of view of the optometric glasses, it is assumed that the assembly in the optometric glasses is performed by the manufacturer or in the store and is used for a specific single user. Therefore, the assembly is implemented to be customized for individual users by means of measurable measurements. The eyeglass type liquid crystal shutter clip 100 according to this embodiment is sold as a group with 3D television. Therefore, for example, when the glasses type liquid crystal shutter clip 100 is used at home, a plurality of users having heads of various sizes share the glasses type liquid crystal shutter clip 100 regardless of adults, children, men's and women's. Since the user assumes that the user wears the optometric glasses, that is, the user wears two types of glasses, the spectacles-type liquid crystal shutter holder 100 according to this embodiment is heavy with each pair of optometric glasses during use. The salt raft is thus constructed such that the opening angle of the shank is gradually adjusted by the ratchet type adjustment mechanism described above, the shank script body is constructed so as to be plastically deformable, and the assembly is performed so as to be optimally used to have Users of various sizes of heads, regardless of adults, children, men, and women. FIG. 9 is an exploded perspective view of the configuration of the tang 112. A spring material 1123 such as stainless steel is provided for the material of the tang 112 as the core material in the shank 112. In order to improve the feeling of the assembly, the tang has a structure in which the spring material 丨 2a is covered with a resin material 1 1 2 b such as an elastomer. The spring material 1 1 2 a and the resin material 1 1 2 b can be integrally molded with the -18-201227048 tang clip 106. Thus, when the user bends the tang 112 with his or her hand, the tang 112 is plastically deformable. Further, when the tang 1 12 is plastically deformed in a desired shape, the tang 12 12 can be elastically deformed in the range, wherein the curve of the tang 1 12 is returned. According to this, for example, when the user wears the glasses type liquid crystal shutter clip 1 藉 by the plastic deformation until the width is slightly smaller than the width of his or her head, the shank Π 2 The shape is slightly returned due to this elastic deformation. Therefore, the tang can be maintained by elasticity along the head. The width of the tangs is adjusted in two to four steps by rotating the rotating member 114 along with the deformation of the tang 112, as described above. Thus, users with different head sizes can finely adjust the width of the tangs to feel the best wearing feel. When a spring material 112a such as stainless steel is used as the core material, the manufacturing cost can be reduced without using an expensive material used in general glasses. Further, holes, grooves, and the like may be formed in the spring material 112a to facilitate the plastic deformation. Figures 13 and 14 are schematic views of the eyeglass-type liquid crystal shutter holder 100 worn by the user when viewed from the top of the user's head. In the left portion of Figs. 13 and 14, the states are illustrated, wherein the tang 1 1 2 and the bridge member 110 are not assembled. In the right portion of Figures 13 and 14, the states are illustrated, wherein the tang 1 12 and the bridge member 1 10 are deformed to assemble a user's head and nose. In Fig. 13, the illustrated user is an adult and the size of his or her head is the size of a typical adult. In this case, the protruding portion of the rotating member Η 4 is positioned at a position 201227048 corresponding to the deepest portion of the grooves i 6 , and the opening angle of the tangs 112 is the maximum 値. The user wears the glasses-type liquid crystal shutter holder 100' on his or her head and then bends the tang 112 along the contour of his or her head. Then, when the user is an adult, the eyeglass type liquid crystal shutter clip 100 can be optimally fitted to his or her head. In Fig. 14, the illustrated user is a child' and his or her head is relatively small in size. In this case, the protruding portion of the rotating member 141 is at a position where the grooves 1 16 are not formed, and the opening angle of the tangs 112 is the minimum 値. The user wears the eyeglass type shutter shutter holder 100 on his or her head and then bends the tang 112 along his or her head. Then, when the user is a child, the width of the tangs can be sufficiently reduced, and the spectacles-type liquid crystal shutter holder 100 can be optimally fitted on his or her head. At a lower position than the nose bridge member 302 of a typical eyeglass, the nose bridge member 110 having the saddle shape is constructed to make contact with the nose. Thus, it is possible to prevent the bridge member 3〇2 of the optometric glasses and the bridge member 丨1 of the spectacles-type liquid crystal shutter holder 1 from interfering with each other. Furthermore, it is possible to implement the structure in which both of the bridge members 110 and 302 reliably come into contact with the nose. In the eyeglass type liquid crystal shutter holder 1 according to this embodiment, the bridge member n 具有 having the saddle shape has a double structure and has a core material and a covering material like the tang 112. A spring material such as stainless steel is used as the lx core/[, material, and the surface of the core material is covered with a resin material such as an elastomer. % this 'the island beam part 1 1 0 series can be freely changed

S -20- 201227048 形以及正常地變形與由於扭轉而變形。該使用者能藉由最 佳地變形該鼻樑架零件1 1 0來執行最佳之裝配。 圖15係該眼鏡型液晶快門夾架100的鼻樑架零件1 10之 附近的前表面及後表面(將與臉造成接觸的表面)之槪要 圖。該鼻樑架零件110於圖15所示固定位置之附近被固定 至該眼鏡鏡框102。當該使用者係成人及他或她之鼻子的 尺寸及寬度係相當大時(當他或她之鼻子的尺寸爲典型之 成人的尺寸時),藉由將該鼻樑架零件110之開口角度調 整至大尺度,以與他或她之鼻子的寬度匹配,該等鼻樑架 零件110可被裝配在他或她之鼻子上。 另一選擇係,當該使用者係小孩,且他或她之鼻子的 尺寸及寬度係相當小時,藉由將該鼻樑架零件1 1 0之開口 角度調整至小尺度,以與他或她之鼻子的寬度匹配,該鼻 樑架零件110可被裝在他或她之鼻子上。 圖11所示鼻樑架零件110的前端之位置hb及圖12所示 鼻樑架零件110的前端之深度he能藉由調整該鼻樑架零件 110之開口角度而被調整。如此,當該使用者在該視覺矯 正眼鏡之頂部上配戴該眼鏡型液晶快門夾架100時,其係 可能防止該視覺矯正眼鏡之鼻樑架零件302與該眼鏡型液 晶快門夾架1 0 0的鼻樑架零件1 1 0彼此千涉。再者,其係可 能直立地設定該眼鏡型液晶快門夾架1 〇 〇之適當位置。 圖1 6係一案例之槪要圖,其中根據一比較範例,沒有 調整該鼻樑架部件Π0之開口角度的機構被提供。於此案 例中’當該眼鏡型液晶快門夾架1 00之位置被提出,以便 -21 - 201227048 不與該視覺矯正眼鏡干涉時,一問題可發生,其中該眼鏡 型液晶快門夾架1 00往下下降。於此案例中,既然該液晶 快門之開口的位置係往下偏離,一問題可發生,其中該顯 示器上之影像的一部份被省略。 於依據此實施例之眼鏡型液晶快門夾架100中,該鼻 樑架部件110被設定至充分地加長,以便調整該鼻樑架部 件1 1 0之開口角度。因此,甚至當該眼鏡型液晶快門夾架 100係由該視覺矯正眼鏡分離時,其係可能藉由調整該鼻 樑架部件110的前端之寬度ha、該鼻樑架部件110的前端之 位置hb、與該鼻樑架部件110的前端之深度he來匹配該液 晶快門與該光軸之位置。 該鼻樑架部件110之寬度ha被建構成比該視覺矯正眼 鏡之鼻樑架零件3 02的寬度較大,以便防止與該視覺矯正 眼鏡干涉。在此,該視覺矯正眼鏡的鼻樑架零件302間之 間隙(圖1 1所示之間隙b )被建構成在由大約1 6毫米至大 約18毫米之範圍中,其係該平均鼻子寬度之値。至於小孩 用之眼鏡,該鼻子寬度係於由大約14毫米至大約15毫米之 範圍中。至於嬰孩用之眼鏡,該鼻子寬度係大約12毫米。 因此,藉由能夠使該寬度ha被設定至12毫米或更多,由成 人至小孩之使用者能在所有類型之視覺矯正眼鏡的頂部上 配戴該眼鏡型液晶快門夾架1 〇〇。 爲了在該視赀矯正眼鏡之頂部上配戴眼鏡型液晶快門 夾架1 0 0,該眼鏡型液晶快門夾架1 0 0之尺寸必需爲大於該 視覺矯正眼鏡夾架之標準尺寸。因此’既然其係需要降低S -20- 201227048 Shape and normal deformation and deformation due to twisting. The user can perform the optimal assembly by optimally deforming the bridge member 110. Fig. 15 is a view showing the front surface and the rear surface (the surface to be brought into contact with the face) in the vicinity of the bridge member 1 10 of the eyeglass type liquid crystal shutter holder 100. The bridge member 110 is secured to the eyeglass frame 102 adjacent the fixed position shown in FIG. When the size and width of the user's adult and his or her nose are quite large (when the size of his or her nose is a typical adult size), the opening angle of the bridge member 110 is adjusted by the angle of the opening. At a large scale, to match the width of his or her nose, the bridge assembly 110 can be fitted to his or her nose. Another option is to adjust the opening angle of the nose bridge part 1 10 to a small scale when the user is a child and the size and width of his or her nose are relatively small, to be with his or her The width of the nose matches and the bridge member 110 can be placed on his or her nose. The position hb of the front end of the bridge member 110 shown in Fig. 11 and the depth he of the front end of the bridge member 110 shown in Fig. 12 can be adjusted by adjusting the opening angle of the bridge member 110. Thus, when the user wears the glasses-type liquid crystal shutter clip 100 on the top of the optometric glasses, it is possible to prevent the bridge frame component 302 of the optometric glasses from colliding with the glasses-type liquid crystal shutter holder 100. The nose bridge parts 1 1 0 are each other. Furthermore, it is possible to set the appropriate position of the eyeglass type liquid crystal shutter holder 1 直 erect. Fig. 1 is a schematic diagram of a case in which a mechanism for adjusting the opening angle of the bridge member Π0 is provided according to a comparative example. In this case, 'When the position of the glasses-type liquid crystal shutter holder 100 is raised so that -21 - 201227048 does not interfere with the vision correction glasses, a problem can occur, wherein the glasses type liquid crystal shutter holder 100 00 Down. In this case, since the position of the opening of the liquid crystal shutter is deviated downward, a problem may occur in which a portion of the image on the display is omitted. In the eyeglass type liquid crystal shutter holder 100 according to this embodiment, the bridge member 110 is set to be sufficiently lengthened to adjust the opening angle of the bridge member 110. Therefore, even when the glasses type liquid crystal shutter clip 100 is separated by the vision correcting glasses, it is possible to adjust the width ha of the front end of the bridge member 110, the position hb of the front end of the bridge member 110, and The depth of the front end of the bridge member 110 is matched to the position of the liquid crystal shutter and the optical axis. The width ha of the bridge member 110 is constructed to be larger than the width of the bridge member 032 of the vision correcting eyepiece to prevent interference with the vision correcting lens. Here, the gap between the bridge members 302 of the optometric glasses (the gap b shown in Fig. 11) is constructed to be in the range of about 16 mm to about 18 mm, which is the width of the average nose width. . For children's glasses, the width of the nose is in the range of from about 14 mm to about 15 mm. As for the glasses for babies, the width of the nose is about 12 mm. Therefore, by enabling the width ha to be set to 12 mm or more, the user of the adult to child can wear the glasses type liquid crystal shutter holder 1 on the top of all types of optometric glasses. In order to wear the glasses type liquid crystal shutter holder 100 on the top of the right angle correction glasses, the size of the glasses type liquid crystal shutter holder 100 must be larger than the standard size of the vision correction glasses holder. Therefore, since its system needs to be lowered

S -22- 201227048 該鼻樑架零件110對應於該鼻子之部份的位置,該鼻子下 部的前端之寬度ha係大約20毫米。該鼻子下部的前端係位 在大約25毫米(=hb )之位置,以便低於該光軸。既然該 角膜之表面及該典型眼鏡透鏡的後表面間之距離的標準値 係12毫米,離該角膜之表面的距離被設定爲13毫米(=hc )或更多。因此,該使用者能以雙重重疊之方式配戴該視 覺矯正眼鏡及該眼鏡型液晶快門夾架。於此實施例中,該 眼鏡型液晶快門夾架1 〇〇的後表面之高度的較佳値係一非 爲該眼鏡透鏡及鏡框之高度的値。其係需要考慮與配戴典 型視覺矯正眼鏡之使用者的習慣配戴位置之關係。然而, 由於該較大眼鏡型液晶快門夾架1〇〇及該鼻樑架零件110的 位置間之關係,甚至當該光軸係由該眼鏡細微地偏離時, 當該使用者觀看立體影像時沒有關於性能之問題。 藉由利用該上述結構,其係可能以一個眼鏡型液晶快 門夾架1 〇〇滿足所有成人、小孩、男性、及女性。再者, 藉由在二至四步驟中調整該柄腳之寬度與使用該細微調整 機構,並經過該旋轉棘輪機構或該滑動機構之使用,而未 使用昂貴的材料,甚至配戴該視覺矯正眼鏡之使用者或其 頭部之尺寸不同的使用者可輕易地配戴該液晶快門眼鏡, 用於觀看立體影像及可感受該改善之配戴感覺。由於用於 該柄腳之寬度的棘輪機構之以階梯狀方式調整的效果與該 柄腳本身之彈簧特性,用於個別使用者之最佳化能被達成 用於頭部之寬度,該寬度係由該男性成人至女性成人(小 孩)在由大約最大175毫米至大約140毫米之範圍中。 -23- 201227048 當該使用者正常地配戴或脫去他或她之眼鏡時,其係 可能調整該柄腳112之端部(現代部分),以便適合用於 該頭部之曲線或該耳朵之曲線,同時防止該柄腳112之永 久塑性變形。據此,該使用者能獨自輕易地執行該調整等 〇 依據此實施例中’如上面所述,對應於耳掛部份之柄 腳包含鉸鏈部份及旋轉式棘輪機構,且其係可能變動以階 梯狀方式與該頭部造成接觸的柄腳之寬度。改變該柄腳之 寬度的旋轉構件114係設有該突出部份114a。以階梯狀方 式改變之深度的溝槽1 1 6係形成於該對應表面中。藉由改 變該旋轉構件1 1 4之角度,該角度鏡框1 02及該柄腳1 1 2間 之附接角度能夠以階梯狀方式切換。以此一組構,該使用 者可輕易地由該最初形狀至該合適尺寸執行該階梯狀調整 ,並獨自由該使用者之頭部的平均寬度之大約該最大175 毫米至大約140毫米。再者,其頭部具有不同寬度之複數 使用者能僅只使用一眼鏡型液晶快門夾架之配件。 於該眼鏡鏡框102之柄腳112中,具有該彈簧特性之諸 如不銹鋼的彈簧材料1 1 2a被用作該核心材料,且該彈簧材 料l]2a之表面被以柔軟之樹脂11 2b覆蓋。因此,該形狀之 細微調整可藉由施加一負載至該柄腳】12被達成,以便可 塑性變形。如此,該使用者能達成該細微調整’以獨自改 善該配戴感覺,而沒有使用昂貴之材料或使用專門之技術 、特殊裝置、或用於施行典型視资矯正眼鏡之細微調整所 需要的夾具。S -22- 201227048 The bridge member 110 corresponds to the position of the portion of the nose, and the width of the front end of the lower portion of the nose is about 20 mm. The front end of the lower portion of the nose is positioned at approximately 25 mm (=hb) so as to be lower than the optical axis. Since the standard of the distance between the surface of the cornea and the rear surface of the typical spectacle lens is 12 mm, the distance from the surface of the cornea is set to 13 mm (= hc ) or more. Therefore, the user can wear the vision correction glasses and the glasses type liquid crystal shutter holder in a double overlap manner. In this embodiment, the height of the rear surface of the eyeglass type liquid crystal shutter holder 1 is preferably not the height of the lens and the frame. It is necessary to consider the relationship with the custom wearing position of the user wearing the typical vision correcting glasses. However, due to the relationship between the position of the larger eyeglass type liquid crystal shutter holder 1 and the bridge member 110, even when the optical axis is slightly deviated by the glasses, when the user views the stereoscopic image, Questions about performance. By utilizing the above structure, it is possible to satisfy all adults, children, men, and women with a glasses type liquid crystal shutter holder. Furthermore, by adjusting the width of the tang in two to four steps and using the fine adjustment mechanism, and through the use of the rotating ratchet mechanism or the sliding mechanism, no expensive materials are used, and even the visual correction is worn. The user of the glasses or the user of different sizes of the head can easily wear the liquid crystal shutter glasses for viewing the stereoscopic image and feeling the improved wearing feeling. Due to the stepwise adjustment of the ratchet mechanism for the width of the tang and the spring characteristics of the shank, the optimization for individual users can be achieved for the width of the head, which is From the male adult to the female adult (child) in the range of from about 175 mm to about 140 mm. -23- 201227048 When the user normally wears or removes his or her glasses, it is possible to adjust the end (modern part) of the tang 112 so as to be suitable for the curve or the ear of the head. The curve while preventing permanent plastic deformation of the tang 112. Accordingly, the user can easily perform the adjustment and the like by itself. According to the embodiment, as described above, the tang corresponding to the ear hook portion includes the hinge portion and the rotary ratchet mechanism, and the system may change. The width of the tang that makes contact with the head in a stepped manner. The rotating member 114 that changes the width of the tang is provided with the protruding portion 114a. A groove 1 16 which is changed in a stepwise manner is formed in the corresponding surface. By changing the angle of the rotating member 1 14 , the angle of attachment between the angled frame 102 and the tang 1 1 2 can be switched in a stepped manner. In this configuration, the user can easily perform the stepwise adjustment from the initial shape to the appropriate size and independently from the average width of the user's head from about 175 mm to about 140 mm. Furthermore, the head has a plurality of different widths. The user can use only one accessory of the glasses type liquid crystal shutter holder. In the tang 112 of the spectacle frame 102, a spring material 11 2a having a spring characteristic such as stainless steel is used as the core material, and the surface of the spring material l] 2a is covered with a soft resin 11 2b. Therefore, fine adjustment of the shape can be achieved by applying a load to the tang 12 to be plastically deformable. In this way, the user can achieve the fine adjustment 'to improve the wearing feeling alone without using expensive materials or using special techniques, special devices, or fixtures required for performing fine adjustment of typical vision correction glasses. .

S -24- 201227048 4.快門眼鏡之組構的另一範例 於圖1 7至22中,眼鏡型液晶快門夾架(液晶快門眼鏡 )1 700之組構係根據該揭示內容之另—實施例被槪要地說 明。當該使用者觀看顯示左及右眼影像及右眼影像之顯示 器(顯示裝置)以觀看3D (立體)影像時,使用者在他或 她之頭部上配戴所說明之眼鏡型液晶快門夾架1700。於該 眼鏡型液晶快門夾架1 7 0 0中,能夠與左及右影像同步地交 互切換偏振狀態的二液晶快門被容納於眼鏡鏡框1 702中。 該眼鏡型液晶快門夾架1 700具有偵測由顯示器(未示出) 所傳輸之紅外線的紅外線偵測單元、液晶快門驅動電路、 及諸如驅動該電路之電池的電與電子零組件。圖1 7係該眼 鏡型液晶快門夾架1 7 0 0當由該上側觀看時之俯視圖。圖18 係該眼鏡型液晶快門夾架1 700之立體圖。圖1 9係該眼鏡型 液晶快門夾架1 7 〇 〇之右側視圖。圖2 0係該眼鏡型液晶快門 夾架1 700的左側視圖。圖21係該眼鏡型液晶快門夾架1700 的後面視圖。圖22係該眼鏡型液晶快門夾架1 700的仰視圖 〇 該使用者配戴依據此實施例之眼鏡型液晶快門夾架 1700,以重疊在典型之視覺矯正眼鏡的頂部上。再者,該 眼鏡型液晶快門夾架1 700被建構,以致具有各種頭部型式 及各種臉部尺寸之由成人至小孩的使用者能配戴該眼鏡型 液晶快門夾架1700。 該眼鏡鏡框1 702包含固持該液晶快門之左及右邊緣, -25- 201227048 以便圍繞該圓周及一將該等邊緣連接至彼此之橋接件。該 眼鏡鏡框1 702係由樹脂材料所模製。該眼鏡鏡框1 702之兩 端部(保護層)被形成,以便具有一彎曲之表面。該鏡框 之左及右端部係經由鉸鏈部份分別連接至左及右柄腳1712 。每一柄腳1 7 1 2能夠經過該鉸鏈部份被折疊。 如由圖1 7的上部所了解,突出至該後側的平行之上遮 蔽零件1715係附接至該眼鏡鏡框1702的上邊緣。該上遮蔽 零件1715具有一邊緣零件之作用。該上遮蔽零件1715蓋住 該眼鏡鏡框1 702的上部,並遮住由該上側所入射的外側光 線。 如由圖1 9及20之左及右側視圖所了解,沿著該柄腳 1 7 1 2突出至該後側之橫側遮蔽零件1 7 1 6係附接至該眼鏡鏡 框1 702的右及左端部(保護層)。該橫側遮蔽零件171 6具 有邊緣部份之作用。該橫側遮蔽零件1 7 1 6蓋住該眼鏡鏡框 1 7 02的左及右橫側面,並遮住由該橫側面所入射的外側光 線。 如此,既然該上遮蔽零件1 7 1 5及該橫側遮蔽零件1 7 16 防止該外側光線入射在該眼睛上,配戴該眼鏡型液晶快門 夾架1 700之使用者能聚焦在立體影像上,以觀看該立體影 像。在此,該外側光線包含諸如熒光燈之照明光以及諸如 陽光之天然光線。既然該上遮蔽零件1 7 1 5及該橫側遮蔽零 件171 6阻斷照明光,其係可能獲得防止由於照明光所造成 之閃爍的利益,該照明光於立體影像差異之偏振光方向中 係均勻的。S -24-201227048 4. Another Example of the Configuration of Shutter Glasses In FIGS. 17 to 22, the configuration of the glasses type liquid crystal shutter clip (liquid crystal shutter glasses) 1 700 is according to another embodiment of the disclosure. Explain it briefly. When the user views the display (display device) displaying the left and right eye images and the right eye image to view the 3D (stereo) image, the user wears the illustrated glasses type liquid crystal shutter clip on his or her head. Rack 1700. In the eyeglass type liquid crystal shutter holder 1700, two liquid crystal shutters capable of mutually switching polarization states in synchronization with the left and right images are housed in the eyeglass frame 1702. The eyeglass type liquid crystal shutter holder 1 700 has an infrared detecting unit that detects infrared rays transmitted by a display (not shown), a liquid crystal shutter driving circuit, and electrical and electronic components such as a battery that drives the circuit. Fig. 1 is a plan view of the eyeglass type liquid crystal shutter holder 1700 when viewed from the upper side. Figure 18 is a perspective view of the eyeglass type liquid crystal shutter holder 1700. Figure 1 is a right side view of the glasses type liquid crystal shutter holder 1 7 〇 。. Figure 20 is a left side view of the eyeglass type liquid crystal shutter holder 1 700. 21 is a rear view of the eyeglass type liquid crystal shutter holder 1700. Figure 22 is a bottom plan view of the eyeglass type liquid crystal shutter holder 1 700. The user wears the eyeglass type liquid crystal shutter holder 1700 according to this embodiment to overlap the top of typical vision correcting glasses. Furthermore, the eyeglass type liquid crystal shutter holder 1700 is constructed such that an adult-to-child user having various head types and various face sizes can wear the eyeglass type liquid crystal shutter holder 1700. The spectacle frame 1 702 includes a left and right edge holding the liquid crystal shutter, -25-201227048, to surround the circumference and a bridge connecting the edges to each other. The spectacle frame 1 702 is molded of a resin material. Both ends (protective layers) of the spectacle frame 1 702 are formed so as to have a curved surface. The left and right ends of the frame are connected to the left and right tangs 1712 via hinge portions, respectively. Each shank 1 7 1 2 can be folded through the hinge portion. As understood by the upper portion of Fig. 17, the parallel upper cover member 1715 projecting to the rear side is attached to the upper edge of the spectacle frame 1702. The upper shield member 1715 has an edge feature. The upper shield member 1715 covers the upper portion of the spectacle frame 1 702 and blocks the outer light incident from the upper side. As can be seen from the left and right views of Figures 19 and 20, the lateral side shielding members 1 7 16 projecting to the rear side along the tang 1 7 1 2 are attached to the right side of the eyeglass frame 1 702 and Left end (protective layer). The lateral side shielding member 171 has the function of an edge portion. The lateral shielding member 1 716 covers the left and right lateral sides of the spectacle frame 710 and blocks the outer light incident from the lateral side. Thus, since the upper shielding member 1 7 15 and the lateral shielding member 1 7 16 prevent the outside light from entering the eye, the user wearing the glasses type liquid crystal shutter holder 1 700 can focus on the stereo image. To view the stereo image. Here, the outer light includes illumination light such as a fluorescent lamp and natural light such as sunlight. Since the upper shielding part 1 7 15 and the lateral side shielding part 171 6 block the illumination light, it is possible to obtain the benefit of preventing the flicker caused by the illumination light, which is in the polarization direction of the stereoscopic image difference. average.

S -26- 201227048 於圖2 1中,參考數字1 7 1 7標示快門透鏡之周圍部份。 當此周圍部份被建構成爲輕易地吸收光之黑色或另一顔色 時,該使用者能進一步聚焦該影像。 當圖1 7之實施例係與圖1至5之實施例作比較時,該眼 鏡型液晶快門夾架1 700的上遮蔽零件1715具有寬闊之底部 區域。當該上遮蔽零件1715之底部區域爲寬闊時,不只防 止該外側光線之優點能被獲得,而且該底部空間能被用作 一地點,用於容納電及電子零組件、諸如液晶快門驅動電 路、驅動該電路之電池、及紅外線信號處理電路。相反地 ,當該上遮蔽零件1715係狹窄時,譬如,該電及電子零組 件必需被安裝於諸如該橫側遮蔽零件1 7 1 6之橫側表面中, 且該眼鏡型液晶快門夾架的水平寬度能被相當地增加。因 此,具有該水平寬度之較小及小巧的眼鏡型液晶快門夾架 1 700能根據圖17所示實施例等等被建構。 當諸如液晶快門驅動電路、驅動該電路之電池、及紅 外線信號處理電路的電及電子零組件被容納在該上遮蔽零 件1715的內側時,該重的負載被設置在該正面上,且如此 該整個眼鏡型液晶快門夾架1 700之重心傾斜至該正面。 該上遮蔽零件1715內側的電路之安裝將在下面詳細地 敘述。 如由圖17所了解,電力按鈕1718係設置在該上遮蔽零 件1715的上表面上。當該電力按鈕1718被開啓時,電力被 輸入至該液晶快門驅動電路’且該等左及右液晶快門之操 作開始。然後,配戴該眼鏡型液晶快門夾架之使用者能觀 -27- 201227048 看該立體影像。譬如,關於該左及右液晶快門之開/關時 機的資訊係經過來自該顯示裝置之紅外線信號所給予,其 顯示該立體影像(其係已知)者。 當該電力按鈕1718被設置在該上遮蔽零件1715的上表 面或該眼鏡鏡框1 702之邊緣的上表面上時,該使用者可輕 易地找尋該電力按鈕1718之位置。再者,甚至當該使用者 配戴該眼鏡型液晶快門夾架1700及下壓該電力按鈕1718時 ,反應力係由該鼻樑架零件1710或該柄腳1712獲得。因此 ,該使用者配戴該眼鏡型液晶快門夾架1 700之位置未偏離 。在另一方面,於該電力按鈕被設置在該眼鏡型液晶快門 夾架之橫側表面或底部表面上之案例中,當該使用者下壓 該電力按鈕時,其係難以使該使用者操作該電力按鈕。這 是因爲該眼鏡型液晶快門夾架移至該右面、左面、上面、 或下側。 該上遮蔽零件1715之底部區域係寬闊的。因此,當該 使用者在典型視覺矯正眼鏡之頂部上以重疊方式配戴該眼 鏡型液晶快門夾架1 700時,該上遮蔽零件1715係位在該視 覺矯正眼鏡之眼鏡鏡框上,且該眼鏡型液晶快門夾架1 700 係藉由位在下面之視覺矯正眼鏡所支撐。在此時,該眼鏡 型液晶快門夾架1 700之重量被分佈至該鼻樑架零件及該眼 鏡鏡框〗702。因此,既然該使用者幾乎沒有感覺到該眼鏡 型液晶快門夾架1 7 0 0之重量,該使用者能具有良好的配戴 感覺。 如由圖1 9及2 0之右及左側視圖及圖2 1的後面視圖所了S -26- 201227048 In Fig. 21, reference numeral 1 7 1 7 indicates the surrounding portion of the shutter lens. When the surrounding portion is constructed to easily absorb black or another color of light, the user can further focus the image. When the embodiment of Fig. 17 is compared with the embodiment of Figs. 1 through 5, the upper shield member 1715 of the eyeglass type liquid crystal shutter holder 1 700 has a wide bottom portion. When the bottom portion of the upper shielding member 1715 is wide, not only the advantages of the outer light can be prevented, but also the bottom space can be used as a place for accommodating electrical and electronic components, such as a liquid crystal shutter driving circuit. A battery that drives the circuit and an infrared signal processing circuit. Conversely, when the upper shielding member 1715 is narrow, for example, the electrical and electronic components must be mounted in a lateral side surface such as the lateral shielding member 176, and the spectacles-type liquid crystal shutter holder The horizontal width can be considerably increased. Therefore, the lens type liquid crystal shutter holder 1 700 having such a small and small horizontal width can be constructed according to the embodiment shown in Fig. 17 or the like. When electrical and electronic components such as a liquid crystal shutter drive circuit, a battery that drives the circuit, and an infrared signal processing circuit are housed inside the upper shield member 1715, the heavy load is disposed on the front surface, and thus The center of gravity of the entire eyeglass type liquid crystal shutter holder 1 700 is inclined to the front side. The mounting of the circuit inside the upper shield member 1715 will be described in detail below. As understood from Fig. 17, a power button 1718 is disposed on the upper surface of the upper shield member 1715. When the power button 1718 is turned on, power is input to the liquid crystal shutter driving circuit' and the operations of the left and right liquid crystal shutters start. Then, the user wearing the glasses type liquid crystal shutter clip can view the stereoscopic image from -27 to 201227048. For example, information on the on/off timing of the left and right liquid crystal shutters is given by an infrared signal from the display device, which displays the stereoscopic image (which is known). When the power button 1718 is disposed on the upper surface of the upper shield member 1715 or the upper surface of the edge of the eyeglass frame 1 702, the user can easily find the position of the power button 1718. Moreover, even when the user wears the glasses-type liquid crystal shutter holder 1700 and depresses the power button 1718, the reaction force is obtained by the bridge member 1710 or the tang 1712. Therefore, the position at which the user wears the glasses type liquid crystal shutter holder 1 700 does not deviate. On the other hand, in the case where the power button is disposed on the lateral side surface or the bottom surface of the glasses type liquid crystal shutter clip frame, when the user presses the power button, it is difficult for the user to operate. The power button. This is because the glasses type liquid crystal shutter clip is moved to the right side, the left side, the upper side, or the lower side. The bottom region of the upper shield member 1715 is wide. Therefore, when the user wears the glasses-type liquid crystal shutter holder 1 700 in an overlapping manner on the top of the typical vision correction glasses, the upper shielding part 1715 is fastened on the glasses frame of the vision correction glasses, and the glasses The type of liquid crystal shutter holder 1 700 is supported by the optical correction glasses positioned below. At this time, the weight of the eyeglass type liquid crystal shutter holder 1 700 is distributed to the bridge member and the eyeglass frame 702. Therefore, since the user hardly feels the weight of the glasses type liquid crystal shutter holder 1700, the user can have a good wearing feeling. As shown in the right and left views of Figures 19 and 20 and the back view of Figure 21

S -28- 201227048 解,該鉸鏈部份被設置在該眼鏡鏡框1702之兩端部(保護 層)的上區段中,且該等柄腳1712由該眼鏡鏡框1 702的上 區段延伸朝向該後側。因此’當該使用者以重疊的方式在 該典型之視覺矯正眼鏡的頂部上配戴該眼鏡型液晶快門夾 架1 700時,該柄腳1712之高度係與位於朝內的視覺矯正眼 鏡之高度不同。因此,該眼鏡型液晶快門夾架1700之柄腳 不與該視覺矯正眼鏡之柄腳干涉。據此,該使用者能以雙 重重疊之方式在該視覺矯正眼鏡之頂部上配戴該眼鏡型液 晶快門夾架1 700。 該柄腳1712較佳地係由難以折疊之重量輕的材料所製 成。此材料之一範例係以尼龍爲基礎之材料、諸如 Grilamid (商標)。於此案例中,當該使用者配戴該眼鏡 型液晶快門夾架1 700時,該柄腳17 12被適當地彎曲。因此 ,該配戴感覺係良好的,且該柄腳係簡直沒有折疊,甚至 當該使用者強制地彎曲該柄腳時。據此,甚至當沒有調整 該柄腳之寬度的機構被提供時,柄腳彈簧壓力能被施加, 以致其頭部具有不同尺寸之使用者能藉由彎曲該左及右柄 腳1 7 1 2穩定地配戴該眼鏡型液晶快門夾架1 700,而不管爲 男性、女性、成人、及小孩,而沒有感覺不舒服。 如由圖17之俯視圖、圖21的後面視圖、及圖22之仰視 圖所了解,一對鼻樑架零件1710被設置在該眼鏡鏡框1702 之左及右邊緣內側。於此實施例中,如所說明,該鼻樑架 零件1 7 1 0係由橡膠材料所製成,且沒有金屬核心。該鼻樑 架零件1710被建構爲薄的,且完成該鼻樑架零件之原來功 -29- 201227048 能。當該使用者以重疊之方式在該典型之視覺矯正眼鏡的 頂部上配戴該眼鏡型液晶快門夾架時,該鼻樑架零件丨7】〇 避開該視覺矯正眼鏡之鼻樑架零件(該鼻樑架零件171〇在 低於該視覺矯正眼鏡之鼻樑架零件的位置與該鼻子造成接 觸)。如由圖17及22所了解,孔洞係在該鼻樑架零件1710 中被打開。該鼻樑架零件1710係沒有孔洞之鼻樑架零件較 輕及更有彈性的。 圖23係安裝在該上遮蔽零件17】5內側之電路零組件當 由該上側觀看時的俯視圖。圖24係安裝在該上遮蔽零件 1 7 1 5內側之電路零組件當由該左下側觀看時的立體圖。如 由該等圖面所了解,液晶快門驅動電路1 7 2 1被設置在該上 遮蔽零件1715的右側上,且驅動一電路之電池1722被設置 在該上遮蔽零件1 7 1 5之左側上。如此,藉由在該右及左側 上分開地設置該沈重的電路零組件,該整個眼鏡型液晶快 門夾架1 700之重量可在該右及左側上被平衡。 如此,當該液晶快門驅動電路1 7 2 1及該電池1 7 2 2被容 納在該上遮蔽零件1715內側,該重負載被設置在該正面上 ,且該整個眼鏡型液晶快門夾架1 7 0 0之重心傾斜至該正面 。當該使用者以重疊之方式在該典型之視覺矯正眼鏡的頂 部上配戴該眼鏡型液晶快門夾架1700時,該上遮蔽零件 1715係位在該視覺矯正眼鏡之眼鏡鏡框上。在此時,該眼 鏡型液晶快門夾架1 700之重量係分佈至該鉍樑架零件及該 眼鏡鏡框1 702。因此,既然該使用者幾乎沒有感赀到該眼 鏡型液晶快門夾架1 700之重Μ,該使用者能具有良好之配S-28-201227048, the hinge portion is disposed in an upper section of the two ends (protective layer) of the spectacle frame 1702, and the tangs 1712 are extended by the upper section of the spectacle frame 1702 The back side. Therefore, when the user wears the glasses-type liquid crystal shutter holder 1 700 on top of the typical vision correcting glasses in an overlapping manner, the height of the tang 1712 is at the height of the inwardly facing corrective spectacles. different. Therefore, the tang of the eyeglass type liquid crystal shutter holder 1700 does not interfere with the tang of the vision correcting glasses. Accordingly, the user can wear the glasses-type liquid crystal shutter holder 1 700 on top of the optometric glasses in a double overlap manner. The tang 1712 is preferably made of a lightweight material that is difficult to fold. An example of this material is a nylon based material such as Grilamid (trademark). In this case, when the user wears the eyeglass type liquid crystal shutter holder 1 700, the tang 17 12 is appropriately bent. Therefore, the wearing feeling is good, and the tang is simply not folded, even when the user forcibly bends the tang. According to this, even when a mechanism for adjusting the width of the tang is provided, the tang spring pressure can be applied, so that the user whose head has different sizes can bend the left and right tangs 1 7 1 2 The glasses type liquid crystal shutter holder 1 700 was stably worn regardless of the male, female, adult, and child, and did not feel uncomfortable. As seen from the top view of Fig. 17, the rear view of Fig. 21, and the bottom view of Fig. 22, a pair of bridge members 1710 are disposed inside the left and right edges of the eyeglass frame 1702. In this embodiment, as illustrated, the bridge assembly 1 7 10 is made of a rubber material and has no metal core. The bridge assembly 1710 is constructed to be thin and completes the original work of the bridge assembly. When the user wears the glasses-type liquid crystal shutter clip on the top of the typical vision correcting glasses in an overlapping manner, the bridge component 丨 7 avoids the bridge component of the vision correcting glasses (the bridge of the nose) The frame member 171 is in contact with the nose at a position below the bridge component of the vision correcting eyeglasses. As understood by Figures 17 and 22, the holes are opened in the bridge member 1710. The bridge assembly 1710 is a lighter and more resilient nose piece without holes. Figure 23 is a plan view of the circuit component mounted on the inside of the upper shield member 17 5 as viewed from the upper side. Fig. 24 is a perspective view of the circuit component mounted on the inner side of the upper shield member 1 7 1 5 when viewed from the lower left side. As understood from the drawings, a liquid crystal shutter driving circuit 1 7 2 1 is disposed on the right side of the upper shielding member 1715, and a battery 1722 driving a circuit is disposed on the left side of the upper shielding member 1 7 1 5 . Thus, by arranging the heavy circuit components separately on the right and left sides, the weight of the entire eyeglass type liquid crystal shutter clamp 1 700 can be balanced on the right and left sides. Thus, when the liquid crystal shutter driving circuit 1 7 2 1 and the battery 1 7 2 2 are housed inside the upper shielding part 1715, the heavy load is disposed on the front surface, and the entire glasses type liquid crystal shutter holder 17 The center of gravity of 0 0 is tilted to the front. When the user wears the eyeglass type liquid crystal shutter holder 1700 on the top of the typical optomeidoscope in an overlapping manner, the upper shielding member 1715 is seated on the eyeglass frame of the vision correcting spectacles. At this time, the weight of the eyeglass type liquid crystal shutter holder 1 700 is distributed to the truss member and the eyeglass frame 1702. Therefore, since the user hardly feels the weight of the eyeglass type liquid crystal shutter holder 1 700, the user can have a good match.

S -30- 201227048 戴感覺。 在此實施例中,該電池1 722被建構成一充電式電池。 專用之充電器可被製成,但當該充電電源纜線係附接至該 眼鏡型液晶快門夾架1700之本體時,該電池1722可經由插 入該眼鏡型液晶快門夾架1 700之充電電源纜線被充電。 於此實施例中,該電源纜線之***通口係在該右橫側 遮蔽零件1 7 1 6中形成。當一蓋件係由該橫側遮蔽零件1 7 1 6 分離時,如圖25所示,該電源纜線之***通口 1731能夠被 看見。 圖26係一案例之槪要圖,在此電源纜線1 732被***該 橫側遮蔽零件1 7 1 6中所形成之***通口 1 73 1。該電源纜線 進入該***通口 1731之***方向係往下導向。如圖26所示 ,被***該***通口 1731之電源纜線1732由該橫側遮蔽零 件171 6的下部延伸至該下側。 如圖26所示,被***該***通口 1731之電源纜線1732 係離開配戴該眼鏡型液晶快門夾架1 700的使用者之視野。 據此,雖然被連接至該電源纜線1732之電池1722被充電, 該使用者能觀看該影像,亦即,操作充電可被達成。 在圖26所示範例中,USB (通用序列匯流排)纜線被 用作該電源纜線1 73 2。該USB纜線的一端部之裝置連接B 插頭被***該眼鏡型液晶快門夾架1700的***通口 1731, 且該USB纜線的另一端部之主機連接A插頭被***主機設 備之USB端子(未示出),該主機設備諸如電視接收器或 PC (個人電腦)’以致電力能經由該USB纜線之輸電線( -31 - 201227048 v BUS)被餵入。該揭示內容之要旨不被限制於特定之介面 標準。 那些熟諳該技藝者應了解各種修改 '組合、次組合、 及變更可視設計需求及其他因素而定來發生,而該等設計 需求及其他因素係所附申請專利或其同等項之範圍內。 【圖式簡單說明】 圖1係眼鏡型液晶快門夾架當由上側觀看時之俯視圖 > 圖2係該眼鏡型液晶快門夾架之立體圖; 圖3係該眼鏡型液晶快門夾架之正面圖; 圖4係該眼鏡型液晶快門夾架之右側視圖: 圖5係該眼鏡型液晶快門夾架及分開地放大之柄腳夾 架的立體圖; 圖6係一零件當由該眼鏡鏡框的內側觀看時之槪要圖 ’該眼鏡鏡框之柄腳夾架被安裝在該零件上; 圖7 A係該柄腳之詳細角度調整結構的槪要圖; 圖7B係該柄腳之詳細角度調整結構的槪要圖; 圖7C係該柄腳之詳細角度調整結構的槪要圖; 圖8A係包含滑動件的調整機構之範例的槪要圖; 圖8 B係包含滑動件的調整機構之範例的槪要圖; 圖9係該柄腳之組構的分解立體圖; 圖〗〇係視赀矯正眼鏡之標準尺寸的槪要圖; 圖11係該視赀矯正眼鏡之標準尺寸的槪要圖;S -30- 201227048 Wearing feeling. In this embodiment, the battery 1 722 is constructed as a rechargeable battery. A dedicated charger can be made, but when the charging power cable is attached to the body of the glasses type liquid crystal shutter holder 1700, the battery 1722 can be charged via the charging power of the glasses type liquid crystal shutter holder 1 700. The cable is charged. In this embodiment, the insertion port of the power cable is formed in the right lateral side shielding member 1 71. When a cover member is separated by the lateral side shielding member 1 71, as shown in Fig. 25, the insertion opening 1731 of the power cable can be seen. Figure 26 is a schematic view of a case where the power cable 1 732 is inserted into the insertion port 1 73 1 formed in the lateral side shield member 1 716. The insertion direction of the power cable into the insertion port 1731 is downwardly guided. As shown in Fig. 26, the power cable 1732 inserted into the insertion port 1731 extends from the lower portion of the lateral shielding member 171 6 to the lower side. As shown in Fig. 26, the power cable 1732 inserted into the insertion port 1731 is away from the field of view of the user wearing the eyeglass type liquid crystal shutter holder 1 700. Accordingly, although the battery 1722 connected to the power cable 1732 is charged, the user can view the image, that is, operational charging can be achieved. In the example shown in Fig. 26, a USB (Universal Serial Bus) cable is used as the power cable 1 73 2 . The device connection B plug of one end of the USB cable is inserted into the insertion port 1731 of the glasses type liquid crystal shutter holder 1700, and the host connection A plug of the other end of the USB cable is inserted into the USB terminal of the host device ( Not shown), the host device such as a television receiver or PC (Personal Computer) is such that power can be fed via the USB cable's power line (-31 - 201227048 v BUS). The gist of this disclosure is not limited to a particular interface standard. Those skilled in the art should be aware of the various modifications, combinations, sub-combinations, and changes in visual design requirements and other factors that fall within the scope of the accompanying patent application or its equivalent. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view of a glasses type liquid crystal shutter clip frame when viewed from the upper side. Fig. 2 is a perspective view of the glasses type liquid crystal shutter clip frame; Fig. 3 is a front view of the glasses type liquid crystal shutter clip frame Figure 4 is a right side view of the glasses type liquid crystal shutter holder: Figure 5 is a perspective view of the glasses type liquid crystal shutter holder and the separately enlarged shank holder; Fig. 6 is a part when the inside of the spectacle frame is When viewing, the shank holder of the spectacle frame is mounted on the part; Fig. 7A is a schematic view of the detailed angle adjustment structure of the tang; Fig. 7B is a detailed angle adjustment structure of the tang Figure 7C is a schematic view of the detailed angle adjustment structure of the shank; Figure 8A is a schematic view of an example of an adjustment mechanism including a slider; Figure 8B is an example of an adjustment mechanism including a slider Figure 9 is an exploded perspective view of the configuration of the tang; Fig. 11 is a schematic view of the standard size of the corrective spectacles; Fig. 11 is a schematic view of the standard size of the corrective spectacles;

S -32- 201227048 圖12係該視覺矯正眼鏡之標準尺寸的槪要圖; 圖1 3係使用者所配戴之眼鏡型液晶快門夾架的槪要圖 » 圖1 4係使用者所配戴之眼鏡型液晶快門夾架的槪要圖 * 圖1 5係該眼鏡型液晶快門夾架的鼻樑架零件之附近的 前表面及後表面之槪要圖; 圖1 6係一案例之槪要圖,其中根據一比較範例,沒有 調整該鼻樑架零件之開口角度的機構被提供; 圖1 7係該眼鏡型液晶快門夾架當由該上側觀看時之俯 視圖; 圖1 8係該眼鏡型液晶快門夾架之正面圖; 圖1 9係該眼鏡型液晶快門夾架之右側視圖; 圖2 0係該眼鏡型液晶快門夾架之左側視圖; 圖2 1係該眼鏡型液晶快門夾架當由該後側觀看時之後 面視圖; 圖22係該眼鏡型液晶快門夾架當由該下側觀看時之仰 視圖, 圖23係安裝在上遮蔽部份內側之電路零組件當由該上 側觀看時的俯視圖; 圖24係安裝在上遮蔽部份內側之電路零組件當由該左 下側觀看時的立體圖; 圖25係當蓋件係由橫側遮蔽部份分離時,—電源纜線 的***通口之槪要圖;及 -33- 201227048 圖2 6係一***該橫側遮蔽部份中所形成之***通口的 電源纜線之槪要圖。 【主要元件符號說明】 100 :快門夾架 102 :眼鏡鏡框 106 :柄腳夾架 1 1 0 :鼻樑架零件 1 12 :柄腳 1 12a :彈簧材料 1 12b :樹脂材料 1 1 4 :旋轉構件 1 14a :突出部份 Π6 :溝槽 1 18 :旋轉軸 1 2 0 :彈簧片 120a :突出部份 120b :突出部份 1 2 2 :螺絲 124 :凹入部份 126 :溝槽 1 2 8 :開口 3 00 :視覺矯正眼鏡 3 02 :鼻樑架零件S -32- 201227048 Figure 12 is a brief view of the standard size of the vision correction glasses; Figure 1 3 is a brief view of the glasses-type liquid crystal shutter clips worn by the user » Figure 1 4 is worn by the user A brief view of the glasses type liquid crystal shutter clip frame * Fig. 1 is a schematic diagram of the front surface and the rear surface of the nose bridge part of the glasses type liquid crystal shutter clip frame; Fig. 1 6 is a schematic diagram of a case According to a comparative example, a mechanism for adjusting the opening angle of the bridge member is provided; FIG. 1 is a top view of the eyeglass type liquid crystal shutter holder when viewed from the upper side; FIG. Figure 1 is the right side view of the glasses type liquid crystal shutter holder; Figure 2 is the left side view of the glasses type liquid crystal shutter holder; Figure 2 1 is the glasses type liquid crystal shutter holder when FIG. 22 is a bottom view of the eyeglass type liquid crystal shutter clip when viewed from the lower side, and FIG. 23 is a circuit component mounted on the inner side of the upper shield portion when viewed from the upper side. Top view; Figure 24 is mounted on the upper shield a perspective view of the inner circuit component when viewed from the lower left side; FIG. 25 is a schematic view of the insertion port of the power cable when the cover member is separated by the lateral side shielding portion; and -33-201227048 2 6 is a schematic diagram of a power cable inserted into the insertion port formed in the lateral side shielding portion. [Description of main component symbols] 100: Shutter clamp 102: Spectacle frame 106: Shank clamp 1 1 0: Nose part 1 12: Shank 1 12a: Spring material 1 12b: Resin material 1 1 4 : Rotating member 1 14a: protruding portion Π6: groove 1 18: rotating shaft 1 2 0 : spring piece 120a: protruding portion 120b: protruding portion 1 2 2 : screw 124: concave portion 126: groove 1 2 8 : opening 3 00 : Vision Corrective Glasses 3 02 : Bridge Parts

S -34- 201227048 1 7 〇 〇 :快門夾架 1 702 :眼鏡鏡框 1 7 1 0 :鼻樑架零件 1 7 1 2 :柄腳 1 7 1 5 :上遮蔽零件 1 7 1 6 :橫側遮蔽零件 1 7 1 7 :周圍部份 1 7 1 8 :電力按鈕 1 7 2 1 :驅動電路 1 7 2 2:電池 1 73 1 :***通口 1 73 2 :電源纜線 -35-S -34- 201227048 1 7 〇〇: Shutter clamp 1 702 : Spectacle frame 1 7 1 0 : Nose part 1 7 1 2 : Shank 1 7 1 5 : Upper shield part 1 7 1 6 : Horizontal side shield part 1 7 1 7 : Surrounding part 1 7 1 8 : Power button 1 7 2 1 : Drive circuit 1 7 2 2: Battery 1 73 1 : Insert port 1 73 2 : Power cable -35-

Claims (1)

201227048 七、申請專利範圍: 1.一種眼鏡型快門夾架,包括: 鏡框,具有分別鄰接左及右鏡框端部零件的左及右開 口;及 左及右柄腳零件,用於每一鏡框端部零件及柄腳零件 對’在使得該左及右柄腳零件係可依照接觸位置之移動相 對於該左及右鏡框端部零件折疊的組構中,分別連接至該 左及右鏡框端部零件,而設有該對柄腳零件及鏡框端部零 件之其中一者的移動零件係在該接觸位置與該對柄腳零件 及鏡框端部零件之另一者的接觸零件接觸, 其中,用於每一對,(i)當該柄腳零件被展開至最 大程度時,該接觸零件係與該移動零件接觸,及(π)該 柄腳零件之開口的最大程度係依照該可移動零件之移動而 變化。 2 .如申請專利範圍第1項之眼鏡型快門夾架,其中該 左及右柄腳零件包含可塑性變形的彈簧材料。 3 ·如申請專利範圍第1項之眼鏡型快門夾架,其中用 於每一對,該可移動零件係可移動的’而以階梯狀方式與 該接觸零件接觸。 4 ·如申請專利範圍第1項之眼鏡型快門夾架,其中該 鏡框包含快門驅動電路。 5 .如申請專利範圍第1項之眼鏡型快門夾架,其中該 鏡框包含電池。 6.如申請專利範園第1項之眼鏡型快門夾架,另包括 -36 - 201227048 鼻樑架零件’附接至該鏡框,該鼻樑架零件包含橡膠 材料及不包含金屬核心。 7 如申請專利範圍第1項之眼鏡型快門夾架,另包括 零件,在該鏡框之左及右邊緣附接至該鏡框。 -37-201227048 VII. Patent application scope: 1. A glasses type shutter clamp, comprising: a frame with left and right openings respectively adjoining the end parts of the left and right frames; and left and right tang parts for each frame end The part and the tang part pair are respectively connected to the left and right frame ends in a configuration in which the left and right tang parts are foldable relative to the left and right frame end parts according to the contact position. And a moving part provided with one of the pair of tang parts and the frame end part is in contact with the contact part of the other of the pair of shank parts and the frame end part, wherein In each pair, (i) when the tang part is deployed to a maximum extent, the contact part is in contact with the moving part, and (π) the shank part opening is maximally in accordance with the movable part Move and change. 2. The eyeglass type shutter holder of claim 1, wherein the left and right tang parts comprise a plastically deformable spring material. 3. A spectacles-type shutter clip according to claim 1, wherein for each pair, the movable member is movable and in contact with the contact member in a stepped manner. 4. The eyeglass type shutter holder of claim 1, wherein the frame comprises a shutter drive circuit. 5. The eyeglass type shutter holder of claim 1, wherein the frame comprises a battery. 6. For example, the eyeglass type shutter holder of Patent Application No. 1 further includes a -36 - 201227048 nose bridge part 'attached to the frame, the bridge part comprising a rubber material and not including a metal core. 7 For example, the eyeglass type shutter holder of claim 1 includes a part attached to the frame at the left and right edges of the frame. -37-
TW100133016A 2010-09-21 2011-09-14 Image viewing glasses TW201227048A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2010210642A JP2011085929A (en) 2009-09-18 2010-09-21 Glasses for image viewing

Publications (1)

Publication Number Publication Date
TW201227048A true TW201227048A (en) 2012-07-01

Family

ID=46934737

Family Applications (1)

Application Number Title Priority Date Filing Date
TW100133016A TW201227048A (en) 2010-09-21 2011-09-14 Image viewing glasses

Country Status (1)

Country Link
TW (1) TW201227048A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114153069A (en) * 2020-09-07 2022-03-08 宏达国际电子股份有限公司 Glasses type display device
TWI823179B (en) * 2021-10-29 2023-11-21 鴻海精密工業股份有限公司 Shaft structure and terminal device

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114153069A (en) * 2020-09-07 2022-03-08 宏达国际电子股份有限公司 Glasses type display device
TWI802914B (en) * 2020-09-07 2023-05-21 宏達國際電子股份有限公司 Glasses type display device
US12032165B2 (en) 2020-09-07 2024-07-09 Htc Corporation Glasses type display device
TWI823179B (en) * 2021-10-29 2023-11-21 鴻海精密工業股份有限公司 Shaft structure and terminal device

Similar Documents

Publication Publication Date Title
US8770741B2 (en) Image viewing glasses
TWI599796B (en) Wearable device with input and output structures
WO2013027752A1 (en) Head-mounted display
JP6023793B2 (en) Adjustable eyewear
TWI229208B (en) Glasses and glasses lenses for stereoscopic image and system using the same
US11113889B1 (en) Adjustable waveguide assembly and augmented reality eyewear with adjustable waveguide assembly
KR20180113176A (en) Head-worn display apparatus having flexible stems
JP2013044833A (en) Head-mounted display
JP5199509B1 (en) Foldable modern
US11169395B2 (en) Frame for bifocal eyeglasses
JP2017517774A (en) Glasses positioning device
TW201227048A (en) Image viewing glasses
EP2625561B1 (en) Glasses
JPH10293544A (en) Head-mount type video display device
JP6829515B2 (en) Eyeglass frame
WO2007148650A1 (en) Spectacles set
KR200455089Y1 (en) Secondary glasses
JP2011065017A (en) Glasses for image viewing
CN212160251U (en) Adjustable glasses
JP5648603B2 (en) Head mounted display
CN207318865U (en) A kind of 3D glasses of convenient myopia population
JP5935842B2 (en) Display unit and head mounted display
TW202246855A (en) Eyeglasses, optical frame, and position adjustment mechanism
JPH09304705A (en) Binoculars and eye pad therefor