M315326 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種光學透鏡接合之自動調校求心裝置, 特別係關於一種透過自動化校準方式,將第一鏡片與第二鏡 •片之光軸中心點準確對準並接合之光學鏡片自動調校求心裝 置。 【先前技術】 , 請參閱第一圖所示,係為習用複合光學鏡片校準示意 圖,其主要包含有一偏心測定器8,該偏心測定器8具有一 影像擷取用鏡筒81,該鏡筒81内設置有十字形分劃板82, 並於鏡筒81底面外側設置有一反射鏡83及一 照射器 84,並於鏡筒81之下方處設置有一夾具85,該夾具μ係與 鏡筒81保持一距離;係將第一鏡片61先置放於夾具85中定 位,使第一鏡片61不會移動,並將第二鏡片62接合於第一 鏡片61之頂面,其接合處並塗抹有膠體;於校準時,係透過 手動方式將第二鏡片62於第一鏡片61上移動校準,使第二 _ 、見片62與弟一鏡片61之光軸中心點可對準,再透過υν照 射器84之照射,致使第一、第二鏡片6丨、62間之膠體凝固 後穩固接合,以形成複合光學鏡片。 然而,上述複合光學鏡片在構成上仍然具有以下之缺失: 1 ·習用複合光學鏡片係以手動調整校準兩鏡片之光學 中心點,將造成校準誤差率提高,導致良率降低之 缺失。 2·習用複合光學鏡片以手動校準方式,會造成校準時 間過長,產能無法提昇,進而導致成本相對增加。 由此可見,習用複合光學鏡片校準裝置仍具有上述之缺M315326 VIII. New description: [New technical field] This is a kind of automatic adjustment and centering device for optical lens bonding, especially for an optical axis of the first lens and the second lens through an automatic calibration method. The optical lens that is accurately aligned and joined at the center point automatically adjusts the centering device. [Prior Art], as shown in the first figure, is a schematic diagram of a conventional composite optical lens calibration, which mainly includes an eccentricity measuring device 8 having an image capturing lens barrel 81, which is 81 A cross-shaped reticle 82 is disposed therein, and a mirror 83 and an illuminator 84 are disposed outside the bottom surface of the lens barrel 81, and a clamp 85 is disposed below the lens barrel 81, and the clamp μ is held by the lens barrel 81. a distance; the first lens 61 is placed in the clamp 85 for positioning, so that the first lens 61 does not move, and the second lens 62 is joined to the top surface of the first lens 61, and the joint is coated with a colloid During calibration, the second lens 62 is manually calibrated on the first lens 61 so that the second _, the visor 62 and the optical axis center point of the lens 61 can be aligned, and then passed through the υν illuminator. The irradiation of 84 causes the colloids between the first and second lenses 6 and 62 to solidify and then firmly join to form a composite optical lens. However, the composite optical lens described above still has the following drawbacks in composition: 1 • Conventional composite optical lenses are manually adjusted to calibrate the optical center points of the two lenses, which will result in an increase in the calibration error rate, resulting in a loss of yield reduction. 2. The conventional composite optical lens is manually calibrated, which causes the calibration time to be too long, and the productivity cannot be increased, resulting in a relatively high cost. It can be seen that the conventional composite optical lens calibration device still has the above-mentioned shortcomings.
M315326 失,實有加以改良之必要。 【新型内容】 本創作之光學透鏡接合之自動調校求心裝置,主要係包 含-偏心測定ϋ及三具調整襄置,該偏心測定器上具有」载 台,該載台上之中央處設置有-固定座,該固定座上設置有 -定位槽及-調整桿’該定位槽係供第一鏡片容置,而調整 桿則係將第-鏡片穩固^位於(位槽中,且該定位槽並盘偏 心測定器之影像擷取用鏡筒上下相對應,該鏡筒之底端外部 並没置有感光硬化器;該第-、第二、第三調整裝置係等距 設置有偏心測定器之載台上,而該第一、第二、第三調整裝 置上皆包含有-驅動器、調整件及調整鈕,其中,該第三調 整裝置之調整件上具有—緩衝元件;係將第_鏡片固定於偏 心測定态載台中央之定位槽上,使第一鏡片固定並與偏心測 定器之鏡筒相對應,並將第二鏡片接附於第一鏡片之頂面, 其接口 φ ϋ塗佈有膠冑;係藉由一影像操取裝置經由鏡筒操 取第一與第二鏡片之光軸影像,並將所擷取之光軸影像傳送 至一電腦主機或數值處理器中進行位準之計算,以得知第一 鏡片與第二鏡片之光軸中心點是否有對準,若無,即會自動 驅使第一、第二及第三調整裝置之調整件進行校準,並透過 第三調整裝置之緩衝元件緩衝第一、第二調整裝置於調整時 之衝擊力避免第一鏡片於推移時發生破裂情形;因此,透 過自動化校準方式,將有助於產能之提昇。 此其中,於三或複數等多層鏡片接合時,可先經前述步 驟,將第一、二鏡片接合後,以其固應於固定座中,再與第 二鏡片重覆上述作動即可。 M315326 【實施方式】 1參閱第—圖所示,係為本創作之光學透鏡接合之自動 調校求心裝置,主要包括: 一=心測定器1,該偏心測定器1至少包含有一载台11 ^鏡筒I2’该栽台11之中央處設置有一固定座111,該固 广座111上叹置有一定位槽112及一調整桿113,該定位槽 ^供第鏡片61容置,而調整桿113則係將第一鏡片61 ^ 口疋位於疋位槽112中,且該定位槽丨12並與鏡筒Η相對 :二該鏡筒12之底面外緣並設置有感光硬化器13或UV硬 4匕益, 第一^壯第二、第三調整裝置3、4、5,該第一、第二、 整St置532及4、5上皆包含有一驅動器31、41、5卜調 41、5丨可為牛逸巧調告整紐33、43、53’其中,該驅動器31、 32、42、52Υ人馬達或氣壓紅等其它驅動元件;該調整件 ⑵上連Γ有—含推—=321、421、521’該滑座321,、 51驅使調整件3= ;2422、522’係透過驅動器31、4卜 切、422、522 52之滑座321、421、521帶動推桿 調整件32、42二之而調整紐33、43、53同樣可驅使 第三調整裝置5之調整? 32卜421、521前後滑移;另外, 頭55,該緩衝元/54=i為包含一緩衝元件54及一頂抵 可以活動狀態套設於推:二於推桿522上,而㈣^ 持,該緩衝元件54可^22頂端,並與緩衝元件54相抵 係透過電:二:為:/或其:緩衝广 5之驅動器31、41、二一、/二及第三調整裝置3、4、 調整:32、U、d:使驅、Η可帶動 -再參閲第三圖、第四圖及第五圖所示,係本創作之操 M315326 作示意圖,係先將第一鏡片61固定於偏心測定器載台11中 央固定座内的定位槽112中,並透過調整桿113之調整,將 第一鏡片61穩固定位於定位槽112中,不會隨易移動,使第 一鏡片61固定並與偏心測定器i之鏡筒i 2相對應,|將第 二鏡片62接附於第一鏡片61之頂面,其接合面並塗佈有膠 體’並藉由一影像擷取裝置7經由鏡筒12擷取第一與第二鏡 片之接合光軸影像,並將所擷取之光軸影像傳送至一電腦主 機(或數值處理器)中進行第一鏡片61與第二鏡片62之位準M315326 lost, it is necessary to improve. [New content] The automatic adjustment and centering device for the optical lens joint of the present invention mainly includes an eccentricity measuring device and three adjusting devices, and the eccentricity measuring device has a "stage" on the center of the stage. a fixing seat, the fixing seat is provided with a positioning groove and an adjusting rod for accommodating the first lens, and the adjusting rod is for fixing the first lens to the (position groove), and the positioning groove The image capturing cylinder of the disc eccentricity measuring device corresponds to the upper and lower sides of the lens barrel, and the photosensitive hardening device is not disposed outside the bottom end of the lens barrel; the first, second and third adjusting devices are equidistantly arranged with the eccentricity measuring device On the stage, the first, second, and third adjustment devices include a driver, an adjustment member, and an adjustment button, wherein the adjustment member of the third adjustment device has a buffer element; The lens is fixed on the positioning groove in the center of the eccentric measuring stage, the first lens is fixed and corresponding to the lens barrel of the eccentricity measuring device, and the second lens is attached to the top surface of the first lens, and the interface is φ ϋ Cloth has plastic bottles; it is handled by an image The optical axis images of the first and second lenses are taken through the lens barrel, and the captured optical axis images are transmitted to a computer host or a numerical processor for level calculation to learn the first lens and the first lens Whether the center point of the optical axis of the two lenses is aligned, if not, the adjustment components of the first, second and third adjusting devices are automatically driven to be calibrated, and the first and second buffers are buffered by the buffering elements of the third adjusting device Adjusting the impact force of the device during adjustment to avoid the rupture of the first lens when it is pushed; therefore, the automatic calibration method will contribute to the improvement of productivity. Among them, when three or more multi-layer lenses are joined, In the foregoing steps, after the first and second lenses are joined, they are fixed in the fixing seat, and then the second lens is repeated with the above operation. M315326 [Embodiment] 1 Refer to the first figure, which is a creation The optical lens bonding automatic tuning and seeking device mainly comprises: a = heart measuring device 1 , the eccentricity measuring device 1 at least comprising a loading table 11 ^ lens barrel I2 ′ a fixed seat 111 is arranged at the center of the planting table 11 The fixing seat 111 is provided with a positioning groove 112 and an adjusting rod 113 for receiving the first lens 61, and the adjusting rod 113 is for positioning the first lens 61 in the clamping groove 112. And the positioning slot 12 is opposite to the lens barrel :: the outer edge of the bottom surface of the lens barrel 12 is provided with a photosensitive hardener 13 or UV hard, and the first and second adjusting devices 3 and 4 5, the first, second, the entire St set 532 and 4, 5 are included with a driver 31, 41, 5 Bud 41, 5 丨 can be Niu Yiqiao to adjust the whole button 33, 43, 53' The driver 31, 32, 42, 52 is a motor or a red air pressure and other driving components; the adjusting member (2) is connected to the slider 321 with the push-=321, 421, 521', and 51 drives the adjusting member 3 = 2422, 522' through the drive 31, 4 cut, 422, 522 52 slides 321, 421, 521 to drive the push rod adjustment members 32, 42 and adjust the buttons 33, 43, 53 can also drive the third Adjustment of the adjustment device 5? 32 421, 521 before and after slipping; in addition, the head 55, the buffer element /54 = i is comprised of a cushioning element 54 and a top-fitting movable state is set on the push: two on the push rod 522, and (four) ^ The buffering member 54 can be at the top end of the device and can be electrically connected to the buffering member 54. The second: is: / or: the driver 31, 41, the two, the second and the third adjusting device 3, 4 , Adjustment: 32, U, d: drive and Η can be driven - refer to the third, fourth and fifth figures, which is the schematic diagram of the operation M315326, which is to fix the first lens 61 first. In the positioning groove 112 in the central fixing seat of the eccentric measuring instrument stage 11, and through the adjustment of the adjusting rod 113, the first lens 61 is stably fixed in the positioning groove 112, and does not move easily, so that the first lens 61 is fixed. Corresponding to the lens barrel i 2 of the eccentricity measuring device i, the second lens 62 is attached to the top surface of the first lens 61, and the bonding surface thereof is coated with a colloid ' and is passed through an image capturing device 7 via The lens barrel 12 captures the optical axis image of the first and second lenses, and transmits the captured optical axis image to a computer host (or a numerical processor) Performed a first level and the second lens 61 of the lens 62
計算’以得知第一鏡片61與第二鏡片62之光軸中心點是否 對準’若無’即會自動驅使第一、第二及第三調整裝置3、4、 5之驅動器31、41、51驅使調整件32、42、52移動,使調 整件32、42、52之推桿322、422、522會將第二鏡片62推 移’使第一鏡片62與第一鏡片61之光轴中心點可準確對準, 對準後,立即驅使感光硬化器13以感光方式將第一、第二鏡 片61、62間之膠體瞬間凝固,致使第一、第二鏡片61、 形率一複合光學鏡片;且為避免第二鏡片62於堆移過程中, 毛生破4情形,於推移過程中,第二鏡片62會受到第三調整 裝置5 u周整件52之頂抵頭55抵持,使第二鏡片62所承受之 推力會經由第三調整裝置5之緩衝元件54吸收, 片62損壞。 兄乐一親 丨又π I邳可透過調整鈕 使第一、第二、第三調整裝置3、4、5之調整件32: :2:『2 由λ動方式進行第二鏡片62位置之調整,可以為 V電或八他兩求,以為因應。 為,本創作更加顯現出進步性與實用性, 作一比較分析如下: 、白用物口口 習用缺失: M315326 ι·習用複合光學鏡片係、以手動調整校準兩鏡片之光轴中 心點’將造成校準誤差率提高,導致良率降低之缺失。 2·習用複合光學鏡片以手動校準方式,會造成校準時間 過長,產此無法提昇,進而導致成本相對增加。 本創作之優點: 1 ·本創作係以自動方式進行兩鏡片光軸中心點之校 準’以大幅降低校準誤差,進而提昇產品之良率。 2·本創作係以自動方式進行兩鏡片光軸中心點之校 準,以加速兩鏡片之校準時間,進而提昇複合光學鏡 片之產能。 圖式簡單說明】 圖 第一圖為習用光學透鏡接合之自動調校求心裝置示意 心裝置之立 第二圖為本創作光學透鏡接合之自動調校 體示意圖。 " 第三圖為本創作光學透鏡接合之自動心 視示意圖。 第四圖為本創作光學透鏡接合之自動 視示意圖。 叫衣〜裝置之側 第五圖為本創作光學透鏡接合自動 作示意圖。 勒⑴父未心裝置之動 【主要元件符號說明】 1偏心測定器 11載台 111固定座 M315326 112定位槽 113調整桿 12鏡筒 13感光硬化器 3第一調整裝置 , 3 1驅動器 , 32調整件 321滑座 322推桿 ❿ 33調整鈕 4第二調整裝置 41驅動器 42調整件 421滑座 422推桿 43調整鈕 5第三調整裝置 5 1驅動器 ® 52調整件 521滑座 、 522推桿 53調整鈕 54緩衝元件 5 5頂抵頭 61第一鏡片 62第二鏡片 7影像擷取裝置 M315326 8偏心測定器 81鏡筒 82十字形分劃板 83反射鏡 84UV照射器 85夾具Calculating 'to know if the optical axis center points of the first lens 61 and the second lens 62 are aligned with 'if no' will automatically drive the first, second and third adjustment devices 3, 4, 5 of the drivers 31, 41 , 51 drives the adjustment members 32, 42, 52 to move, so that the push rods 322, 422, 522 of the adjustment members 32, 42, 52 will push the second lens 62 'to make the optical axis of the first lens 62 and the first lens 61 The dots can be accurately aligned. Immediately after the alignment, the photosensitive hardener 13 is sensitized to coagulate the colloid between the first and second lenses 61 and 62 in an instant manner, so that the first and second lenses 61 and the shape ratio of the composite optical lens are obtained. And in order to avoid the situation that the second lens 62 is broken during the stacking process, during the shifting process, the second lens 62 is resisted by the top abutting head 55 of the third adjusting device 5 u the whole piece 52, so that The thrust experienced by the second lens 62 is absorbed by the cushioning member 54 of the third adjusting device 5, and the sheet 62 is damaged. The brothers and relatives π I邳 can adjust the first, second and third adjusting devices 3, 4, 5 through the adjusting button 32: :2:『2 The second lens 62 position is performed by the λ motion mode. Adjustment, you can ask for V electricity or eight, and think it should be. For this reason, the creation is more progressive and practical. A comparative analysis is as follows: The use of the mouth of the white object is missing: M315326 ι·Common composite optical lens system, manually adjusting and calibrating the optical axis center point of the two lenses' This causes an increase in the calibration error rate, resulting in a loss of yield reduction. 2. The conventional composite optical lens is manually calibrated, which will cause the calibration time to be too long, and the production cannot be improved, resulting in a relatively high cost. Advantages of this creation: 1 · This creation automatically calibrates the center point of the two optical axes of the lens to reduce the calibration error and improve the yield of the product. 2. This creation automatically calibrates the center point of the two lens optics to accelerate the calibration time of the two lenses, thereby increasing the productivity of the composite optical lens. Brief Description of the Drawings Fig. The first figure shows the schematic diagram of the automatic adjustment and centering device for the conventional optical lens joint. The second figure is the schematic diagram of the automatic adjustment of the optical lens joint. " The third figure is an automatic view of the creative optical lens joint. The fourth figure is an automatic view of the engagement of the creative optical lens. The clothing-to-device side The fifth picture is a schematic diagram of the automatic engagement of the creative optical lens. Le (1) father unintentional device movement [main component symbol description] 1 eccentricity measuring device 11 stage 111 fixed seat M315326 112 positioning groove 113 adjustment rod 12 lens barrel 13 photosensitive hardener 3 first adjustment device, 3 1 driver, 32 adjustment Piece 321 slide 322 push rod ❿ 33 adjustment button 4 second adjustment device 41 driver 42 adjustment member 421 slide 422 push rod 43 adjustment button 5 third adjustment device 5 1 drive® 52 adjustment member 521 slide, 522 push rod 53 Adjusting button 54 cushioning element 5 5 abutting head 61 first lens 62 second lens 7 image capturing device M315326 8 eccentricity measuring device 81 barrel 82 cross-shaped reticle 83 mirror 84 UV illuminator 85 fixture