200844534 九、發明說明: 【發明所屬之技術領域】 本發明係與光學鏡頭技術領域有關,更詳而言之 是指一種集合式鏡頭組及其製法者。 【先前技術】 習知光學鏡頭係由鏡座、鏡筒與鏡片等元件組合 而成’其中鏡筒與鏡座等機構定位元件多利用塑膠射 出之方式製成,俾有利於大量生產所需。不過,隨著 衫像感應器日漸縮小化之應用趨勢,光學鏡頭之尺寸 亦必須隨之縮小,如此一來,利用塑膠射出之方式製 作鏡筒與鏡座等機構定位元件將無法滿足尺寸上之精 度要求,且,光學鏡頭之封裝製程中塑膠製品之耐熱 μ度亦有所限制。是以,研發更高精度及熱穩定性高 之機構定位元件甚有必要,且亦有利於較高精度要求 的光學鏡頭使用(如免對焦鏡頭),或適用自動化組裝< 、再者,傳統鏡筒以塑膠射出一體成形,其内部尺 ^ =易里测,致使鏡片置入時無法確認其定位狀態, ,、士數片鏡片組成的成像鏡頭中不易察覺偏心、傾 亦可:ΐ不良的原因。X,射出模具零件的加工導角 亦可月匕&成射出品的對應導角 干涉、鏡社裝時造成 1干無去達到應有的位置。 200844534 【發明内容】 本發明之主要目的即在提供一種集合式鏡頭組及 其製法’其可一次產製多數個光學鏡頭,俾有效提升 光學鏡頭之組裝效率,且,其精度及熱穩定性均甚高, 俾可供較局精度要求的光學鏡頭使用。 緣是’為達成前述之目的,本發明係提供一種集 合式鏡頭組’係由數板體相對貼合而成,各該板體上 分別對應開設有數透空,各該透空内並分別設置若干 鏡片,藉此’各該透空外圍區域及透空内之鏡片可形 成供切割分離之數鏡頭組。 此外,本發明更提供一種集合式鏡頭組之製法, 至少包含有以下步驟··提供數板體:於數板體上分別 開設數透空;置入鏡片:將若干鏡片分別設置於各該 板體之透空内;及貼合板體:將各該板體相對貼合, 用以使各該透空外圍區域及透空内之鏡片對應形成可 供切割分離之數鏡頭組。 【實施方式】 以下,茲舉本發明若干較佳實施例,並配合圖式 做進一步之詳細說明如後: 首先’ 5青茶閱圖一及圖二所示,本發明一較佳實 施例之集合式鏡頭組10,包含有二板體12、14,該二 板體12、14分別對應開設有上下貫通之數透空22, 200844534 該板體12底侧與板體14頂侧更設有對應連接之二連 接部24、26,該二連接部24、26係可嵌接之突起與 凹入,用以使該一板體12、14可藉以相對貼合、使各 透空22可對應連通,各該透空22内並分別利用定位 膠(或定位環)固定一鏡片16、18(—個以上之鏡片亦 可),如此一來,各該透空22外圍區域及透空22内之 鏡片16、18即可構成集合式鏡頭組j 〇。 基此,由於各該透空22係對應影像感測元件(圖 中未示)之配佈位置,故,該集合式鏡頭組1〇即可方 便地直接與數影像感測元件結合而構成多數影像擷取 模組,俾可供切割而一次產生多數獨立之影像鏡頭模 組’而提升光學鏡頭組裝之效率。 其次,該集合式鏡頭組10孓製法如下: 如圖三所示,第一步驟係提供數板體110 ··於二 板體12、14上分別開設數透空22,各該板體12、14 之材料可為矽晶圓或金屬、玻璃、陶瓷或耐高溫塑膠 等耐尚溫之材料。以矽晶圓為材料之板體係利用乾蝕 J或"、、钱刻之方式形成透空22,而以金屬為材料之板 體係利用微電鑄(LIGA)之方式形成透空22,而以玻璃 為材料之板體係利用雷射加工之方式形成透空22,以 陶瓷為材料之板體係利用溶凝膠法或燒結之方式形成 透空22,耐高溫塑膠為材料之板體則利用射出成型方 式形成。 200844534 第二步驟係置入鏡片120:於各該板體12、14之 透空^内分別設置一鏡片16、18,並固定與檢測。 第二步驟係貼合板體130 :將各該板體12、14相 對貼合(如利用前揭板體12、14二相對侧所設之二連 接部24、26相對嵌合等貼合技術),即可製成該集合 式鏡頭組1 〇。 口 由上了知,本發明所提供之集合式鏡頭組及其製 法,主要係利用數板體相對貼合之方式,使各該板體 上所設透空外圍區域及透空内之鏡片可對應組成集合 型悲之數鏡頭組,而可一次產製多數個光學鏡頭,俾 可有效提升光學鏡頭之組裝效率;其次,各該板體係 以熱穩定性甚高之耐高溫材質製成,可使用於半導體 製程,如SMT製程,將鏡頭與影像感測元件結合時, 不會影響其光學性質;再者,各該板體更可作為鏡片 表面光學膜彼覆的治具,免除鏡片夾取的頻率與受污 染的機會者。 200844534 【圖式簡單說明】 圖一係本發明一較佳實施例之組合示意圖。 圖二係本發明一較佳實施例之分解示意圖。 圖三係本發明一較佳實施例之製法流程圖。 【主要元件符號說明】 集合式鏡頭組10 板體12、14 鏡片16、18 透空22 連接部24、26 提供數板體110 置入鏡片120 貼合板體130200844534 IX. INSTRUCTIONS: TECHNICAL FIELD OF THE INVENTION The present invention relates to the field of optical lens technology, and more particularly to a collective lens group and its maker. [Prior Art] The conventional optical lens is composed of a combination of a lens holder, a lens barrel and a lens. The mechanism positioning elements such as the lens barrel and the lens holder are often produced by means of plastic injection, which is advantageous for mass production. However, with the trend of shrinking the image sensor, the size of the optical lens must also be reduced. As a result, the positioning of components such as the lens barrel and the lens holder by means of plastic injection will not be able to meet the size. Accuracy requirements, and the thermal resistance of plastic products in the packaging process of optical lenses is also limited. Therefore, it is necessary to develop a higher-precision and high-stability mechanism positioning component, and it is also advantageous for optical lenses with higher precision requirements (such as a focus-free lens), or for automated assembly < The lens barrel is integrally formed by plastic injection, and the internal ruler is easy to measure, so that the positioning state cannot be confirmed when the lens is placed, and the imaging lens composed of the number of lenses is not easy to detect eccentricity or tilting: the reason. X, the processing lead angle of the injection mold part can also be used for the corresponding guide angle of the injection and the injection of the product. When the mirror is installed, it will cause the dry position to reach the proper position. 200844534 SUMMARY OF THE INVENTION The main object of the present invention is to provide a collective lens assembly and a method for manufacturing the same that can produce a plurality of optical lenses at a time, thereby effectively improving the assembly efficiency of the optical lens, and its accuracy and thermal stability are both Very high, 俾 can be used for optical lenses that require more precision. The edge is 'for the purpose of achieving the foregoing, the present invention provides a collective lens group' which is formed by a plurality of plate bodies being relatively attached, and each of the plate bodies is correspondingly provided with a plurality of air permeations, and each of the holes is disposed separately and separately. A plurality of lenses, whereby the respective outer regions of the permeable outer space and the lenses in the permeable space form a plurality of lens groups for cutting and separating. In addition, the present invention further provides a method for manufacturing a collective lens group, comprising at least the following steps: providing a plurality of plates: respectively, opening a plurality of transparent spaces on the plurality of plates; and inserting the lenses: respectively, setting a plurality of lenses on the respective plates And the laminated plate body: the respective plate bodies are relatively affixed to each other, so that the outer peripheral areas of the transparent space and the lenses in the transparent space correspondingly form a plurality of lens groups for cutting and separating. [Embodiment] Hereinafter, some preferred embodiments of the present invention will be described, and further detailed description will be made in conjunction with the drawings. First, the first embodiment of the present invention is shown in FIG. 1 and FIG. The assembly lens assembly 10 includes two plate bodies 12 and 14. The two plate bodies 12 and 14 respectively have a plurality of through-holes 22 for opening and closing. The bottom side of the plate body 12 and the top side of the plate body 14 are further provided. Correspondingly connecting the two connecting portions 24, 26, the two connecting portions 24, 26 are inwardly engaging and recessed, so that the one plate 12, 14 can be relatively fitted, so that the respective through holes 22 can correspond Connected to each of the through-holes 22 and respectively fix a lens 16 and 18 (or more than one lens) by using a positioning glue (or a positioning ring), so that the peripheral area of each of the transparent areas 22 and the transparent space 22 are The lenses 16, 18 can constitute a collective lens group j 〇. Therefore, since each of the permeable spaces 22 corresponds to the arrangement position of the image sensing elements (not shown), the collective lens unit 1 〇 can be easily combined with the digital image sensing elements to form a majority. The image capture module, which can be cut to produce most independent image lens modules at a time, enhances the efficiency of optical lens assembly. Next, the method for manufacturing the collective lens assembly 10 is as follows: As shown in FIG. 3, the first step is to provide a plurality of plate bodies 110, and a plurality of air perforations 22 are respectively formed on the second plate bodies 12 and 14, each of the plate bodies 12, The material of 14 can be a heat-resistant material such as silicon wafer or metal, glass, ceramic or high temperature resistant plastic. The plate system using the silicon wafer as a material forms a transparent space 22 by means of dry etching J or ", and money, and the metal-based plate system forms a transparent space 22 by means of micro-electroforming (LIGA). The glass-based plate system forms a transparent space 22 by means of laser processing, and the ceramic-based plate system forms a transparent space 22 by a lyotropic method or a sintering method, and the high-temperature resistant plastic material is used as a material plate. The molding method is formed. 200844534 The second step is to insert the lens 120: a lens 16, 18 is respectively disposed in the transparent space of each of the plates 12, 14 and fixed and detected. The second step is to bond the plate body 130: the plate bodies 12 and 14 are relatively attached to each other (for example, the two joint portions 24 and 26 provided on the opposite sides of the front plate bodies 12 and 14 are oppositely fitted to each other). , the assembled lens group 1 can be made. According to the above, the collective lens assembly and the method for manufacturing the same according to the present invention mainly utilize the manner in which the plurality of plates are relatively attached, so that the outer peripheral region of the transparent body and the lens in the transparent space can be provided on each of the plates. Corresponding to the composition of the collection type of sad lens group, and can produce a plurality of optical lenses at a time, which can effectively improve the assembly efficiency of the optical lens; secondly, each plate system is made of a high temperature resistant material with high thermal stability. Used in semiconductor processes, such as SMT process, when the lens is combined with the image sensing component, it will not affect its optical properties. Moreover, each of the plates can be used as a fixture for the optical film on the lens surface, eliminating lens clamping. The frequency and the chance of being contaminated. 200844534 BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a combination of a preferred embodiment of the present invention. Figure 2 is an exploded perspective view of a preferred embodiment of the present invention. Figure 3 is a flow chart of a process of a preferred embodiment of the present invention. [Explanation of main component symbols] Collecting lens group 10 Plate 12, 14 Lens 16, 18 Venting 22 Connecting portions 24, 26 Providing a plurality of plates 110 Inserting the lens 120 Fitting the plate body 130