M315835 八、新型說明: , 【新型所屬之技術領域】 本創作係與光學鏡頭技術領域有關,更詳而言之是指 一種陣列式鏡筒組者。 【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 參成其中鏡琦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,隨著影像感應器 曰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溫度亦有所限制。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 有利於較南精度要求的光學鏡頭使用(如免對焦鏡頭),或 春適用自動化組裝。 【新型内容】 本創作之主要目的即在提供一種可解決前揭缺失之 陣列式鏡筒組,其精度及熱穩定性均甚高,俾可有效提升 光學鏡頭之組裝效率及供較高精度要求的光學鏡頭使用。 緣是,為達成前述之目的,本創作係提供一種陣列式 鏡筒組,係由多數鏡筒併列連結而成。 5 M315835 【實施方式】 以下,茲舉本創作若干較佳實施例,並配合圖式做進 一步之詳細說明如後: 如圖一及圖二所示,本創作一較佳實施例之陣列式鏡 筒組10,係由多數鏡筒丨2併列連結構成,係以下列方 製作而成: • 纟以石夕晶圓為材料之數板體2 2上利用乾姓刻或濕餘 刻之方式形成複數個透空24,再將各該板體22貼合在一 起’,則各該透空24即可對應構成鏡筒12之内部空間,進 而形成具複數個鏡筒12之陣列式鏡筒i 〇。 此外’亦可利用微電鑄(UGA)之方式逐步於一玻璃或 金屬製之基板30 -側成形出多階的鏡筒12,如圖三所 示’而成為陣列式鏡筒10。 再者,更可利用雷射加工之方式在數玻璃或陶竟板體 22上分別切割出數透空24,再將各局部雷射加工之板體 ·=貼合在一起,即可構成具多數鏡筒部12之陣列式鏡筒 =此’本創作該陣列式鏡筒1Q係運用於光學鏡 組提升鮮鏡敎組裝效率:其可供 生多數獨立之鏡筒12,再將各該鏡们2與鏡座 兄、几件(圖中未不)分別組成光學鏡頭。亦可於尚未七 Γ 該鏡筒12前,先於各該鏡筒12上組成光學· ,再使各該光學鏡頭分離、獨立,俾獲致提升光學鏡瑪 M315835 組裝效率之效果。 如圖四所示,係本創作再一較佳實施例之陣列式鏡筒 組40,其結構大體上與該陣列式鏡筒組1〇相同,不同處 在於:其各鏡筒42係藉由一板狀連接部44連結在一起。 由上可知,本創作所提供之陣列式鏡筒組,其可利用 矽晶圓、金屬、玻璃或陶变為材料製成,精度及熱穩定性 均甚高’ i,藉由陣列式之—體設計,可—次產生多數光 學鏡頭,討有賴升光學鏡敎㈣效率、供較高精度 要求的光學制❹者,·緣是,賴作確實符合新型專利 之規定’緣依法提出申請。 【圖式簡單說明】 圖i本創作-較佳實施例之立體組合圖。 圖二係圖一之側視圖。 圖三係本創作另—較佳實_之側視圖。 圖四係本創作再-較佳實_之立體組合圖 【主要元件符號說明】 陣列式鏡筒組 透空24 鏡筒42 1〇鏡筒12 基板30 連接部44 板體22 陣列式鏡筒組40M315835 VIII. New Description: , [New Technology Field] This creation is related to the field of optical lens technology, and more specifically refers to an array of lens barrels. [Prior Art] The conventional optical lens is composed of a combination of a lens holder, a lens barrel and a lens, and the positioning elements such as the mirror and the mirror base are mostly made of plastic injection, which is beneficial to mass production. . However, as the image sensor is gradually shrinking, the size of the optical lens must also be reduced. As a result, the positioning of the lens barrel and the lens holder by the plastic injection method cannot meet the size. Accuracy requirements, and the heat-resistant temperature of plastic products in the packaging process of optical lenses is also limited. Therefore, it is necessary to develop a mechanism positioning component with higher precision and high thermal stability, and it is also advantageous for optical lens use (such as a focus-free lens) with a higher accuracy requirement, or for automatic assembly in spring. [New content] The main purpose of this creation is to provide an array of lens barrels that can solve the missing problems. The accuracy and thermal stability are very high, which can effectively improve the assembly efficiency of optical lenses and provide higher precision. The use of optical lenses. The reason is that, in order to achieve the above objectives, the present invention provides an array of lens barrels, which are formed by juxtaposing a plurality of barrels. 5 M315835 [Embodiment] In the following, a number of preferred embodiments of the present invention will be described in detail with reference to the drawings. As shown in FIG. 1 and FIG. 2, an array mirror of a preferred embodiment is created. The tube set 10 is composed of a plurality of barrels 并2 juxtaposed and connected, and is made of the following: • 数 石 石 石 晶圆 晶圆 晶圆 晶圆 2 2 2 2 2 2 2 形成 形成 形成 形成 形成 形成 形成 形成 形成 形成 形成 形成 形成 形成 形成 石 石 石 石A plurality of transparent spaces 24, and then the respective plate bodies 22 are attached together, and each of the transparent spaces 24 can correspondingly constitute an internal space of the lens barrel 12, thereby forming an array type lens barrel having a plurality of lens barrels 12 Hey. Further, the multi-stage lens barrel 12 can be formed step by step on the side of a glass or metal substrate 30 by micro-electroforming (UGA), as shown in Fig. 3 to become the array type lens barrel 10. Furthermore, it is also possible to use a laser processing method to cut a plurality of transparent spaces 24 on a plurality of glass or ceramic plates 22, and then to bond the partial laser processed plates to form Array Tubes of Most Tube Sections 12=This 'This Creation Array Tube 1Q is used for optical mirrors to enhance the efficiency of assembly: it can be used to produce most independent barrels 12, and then each mirror We 2 and the mirror brother, several pieces (not shown in the figure) constitute the optical lens. Before the lens barrel 12 is not yet assembled, the optical lens is formed on each of the lens barrels 12, and then the optical lenses are separated and independent, and the effect of improving the assembly efficiency of the optical mirror M315835 is obtained. As shown in FIG. 4, the array lens barrel 40 of the preferred embodiment of the present invention has substantially the same structure as the array lens barrel assembly, except that the respective lens barrels 42 are A plate-like connecting portion 44 is joined together. As can be seen from the above, the array of lens barrels provided by the present invention can be made of silicon wafer, metal, glass or ceramic materials, and the precision and thermal stability are very high, i. Body design, can produce most of the optical lens, relying on the optical lens (4) efficiency, the optical system for higher precision requirements, the edge is that Lai does indeed meet the requirements of the new patent 'the law to apply. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a preferred embodiment of the preferred embodiment. Figure 2 is a side view of Figure 1. Figure 3 is a side view of the creation of another creation. Figure 4 is a three-dimensional combination of the creation and the better simplification. [Main component symbol description] Array tube group permeable 24 lens barrel 42 1 〇 lens barrel 12 substrate 30 connection portion 44 plate 22 array tube group 40