201248232 六、發明說明: 【發明所屬之技術領域】 特別是一種光學鏡頭之 本發明係與光學元件的製裎有關, 組裝方法。 【先前技術】 因為手機、數位相機或錄影機的普及使得光學鏡頭的需求 重增加’因此需如何能夠縮短製程時間, 符合使用需求的光學鏡頭便成為了業界所. 1的“出 係在提供一種利用多個組裴工序同時 、方向。本發明 門,提升單位日丄 铜縮短製程時 間钕升早位時間内產旎的光學鏡頭之組裝方法。 【發明内容】 有鑑於此,本發明之主要目的在於提供一種 同時進行以縮短製程時間的光學鏡頭之組裝方法。、、’、王序 為達成上述之目的,本發明之光學鏡頭之組裝 驟為以一取料裝置自一儲料區取得一鏡筒以及至x少二二二步 件’將所取得的鏡筒移至—治具’在該鏡筒移 該光學7G件則移至—檢測區,由檢測區的—檢㈣置 學元件的組裝角位,再將確認後的光學元件移至,、Λ Λ * 該鏡筒内完成-_的㈣。 W具處組入 【實施方式】 說明於下。 請參閱第一圖至第五圖,現將本發明更詳予 3 201248232 本發明光學元件之組裝方法,其步驟為: 以一取料裝置(40)自一儲料區取得一鏡筒(圖未示)以及至 少一光學元件(圖未示),將所取得的鏡筒移至一治具(12),在 該鏡筒移至該治具(12)的同時該光學元件則移至一檢測區,由 檢測區的—檢測裝置(7〇)確認該光學元件的組裝角位,再將確 認後的光學元件移至該治具(12)處組入該鏡筒内完成一鏡頭的 組裝。 因為現在大多數的光學元件都是以射出成型所製成,所以 在每一光學元件上都會留下一剪切部位(D_CUT),這個剪切部 位會使得光學元件的外徑有一部份呈直線,所以要將光學元件 組入鏡筒時就必須要確認這個剪切部位的所在位置,並且轉動 該光學元件或是轉動該鏡筒使剪切部位落在組裝角位以便於 組裝。 、 利用攝影鏡頭 學元件剪切部 在本發明中該檢測裝置(70)為一攝影鏡頭, 拍攝取得該光學元件的影像進而可以確認該光 位所在的位置。 在本發明中該取料裝置(40)包含有至少一 取一鏡筒以及至少一吸嘴(42)用於吸取一光風_彼、()用 是遮光片。在將該光學元件組人鏡筒時該取料,如海 動使光學元件的IT切部位落在組裝角位或是該取^^ 轉動而由該鏡筒轉動使剪切部位落在組裴角位’、置( 依本發明的方法也可以組裝多數個光學_ 如要在-鏡筒内組人三個鏡片時,該取料^件於鏡筒内’例 置三個吸嘴(42),在儲料區一次取得三個 (〇)可以配合設 —鏡片’然後在鏡筒被 4 201248232 被入治具(I2)的同時第一個鏡片在檢測區檢測,而在第一鏡片 被組入鏡糾第二鏡片在檢魏被檢測,第二鏡丨被組入鏡筒 時第三鏡片在檢測區被檢測,利用組人鏡筒與檢測二個工作同 的方式驗-個铜組裝完成㈣間,來達到提升效率 在本發明中該取料裝置(4〇)在取得光學 ,槪件可以先置於—求心裝置⑽,該 在於使該取料裝置(4〇)吸嘴(42)的中心能夠對準光學 =置==學元件組入該鏡筒内。該求心裝; 進行求心對準的^ 料裝置⑽上料學元件逐一的 穴位使該取料裝置(===(5G)可以設置複數個 動作。該求心對準的=先干7°制時—起進行求心對準的 之後進行。㈣作μ錄狀料彳t,也可以在檢測 201248232 【圖式簡單說明】 第一圖為本發明之立體示意圖; 第二圖為本發明另一角度之立體示意圖; 第三圖為本發明之正面示意圖; 第四圖為本發明之頂面示意圖; 第五圖概同第四圖 ,為本發明移除部分元件後之示意圖 【主要元件符號說明】 治具(12) 取料裝置(40) 夾具(41) 吸嘴(42) 求心裝置(50) 檢測裝置(70) 6201248232 VI. Description of the Invention: [Technical Field of the Invention] In particular, an optical lens of the present invention relates to an assembly method of an optical element. [Prior Art] Because the popularity of mobile phones, digital cameras, or video recorders has increased the demand for optical lenses, so how to shorten the processing time, optical lenses that meet the needs of use have become the industry. The invention relates to a method for assembling an optical lens of a unit in which the unit of the copper is shortened and the processing time is increased in the early time. [Invention] In view of the above, the main object of the present invention is The invention provides an assembly method of an optical lens which is simultaneously performed to shorten the processing time. . . . , in order to achieve the above object, the assembly of the optical lens of the present invention is to obtain a mirror from a storage area by a reclaiming device. The cylinder and the x22 step member move the obtained lens barrel to the jig, and the optical 7G piece is moved to the detection area in the lens barrel, and the detection unit (4) is placed in the detection area. Assembling the angular position, and then moving the confirmed optical component to, Λ Λ * The (4) of the -_ is completed in the lens barrel. The W device is integrated into the [Embodiment] and is described below. To the fifth figure, the present invention will now be more detailed. 3 201248232 The assembly method of the optical component of the present invention comprises the steps of: taking a lens barrel (not shown) from a stocking area by a take-up device (40) and at least An optical component (not shown) moves the obtained lens barrel to a fixture (12), and the optical component moves to a detection area while the lens barrel is moved to the fixture (12) The detection device (7〇) of the zone confirms the assembly angular position of the optical component, and then moves the confirmed optical component to the fixture (12) to assemble into the lens barrel to complete the assembly of a lens. The optical components are made by injection molding, so there is a shearing part (D_CUT) on each optical component. This shearing part will make the outer diameter of the optical component have a straight line, so it will be When the optical component is incorporated into the lens barrel, it is necessary to confirm the position of the shearing portion, and rotate the optical component or rotate the lens barrel so that the shearing portion falls at the assembly angle to facilitate assembly. The cutting portion is the detecting device (70 in the present invention) For a photographic lens, the image of the optical component is taken to confirm the position of the light position. In the present invention, the reclaiming device (40) includes at least one lens barrel and at least one nozzle (42). It is used to absorb a light wind _ 彼, () is a light shielding film. When the optical component is assembled into a human lens barrel, the material is taken, such as the sea motion, so that the IT cut portion of the optical component falls in the assembly corner position or the Rotating and rotating by the lens barrel causes the shearing portion to fall in the group corner position, and can be assembled according to the method of the present invention. If a plurality of lenses are to be assembled in the lens barrel, the material is taken. ^In the lens barrel, there are three nozzles (42), and three (〇) in the stocking area can be used together with the lens, and then the lens barrel is inserted into the fixture (I2) by 4, 201248232. The first lens is detected in the detection area, and the second lens is detected in the first lens and the second lens is detected in the detection. When the second lens is assembled into the lens barrel, the third lens is detected in the detection area, and the group is used. The lens barrel is tested in the same way as the two work--a copper assembly is completed (four) to achieve the lifting efficiency in the present invention. The take-up device (4〇) takes the optics, and the pick-up device can be placed first—the centering device (10), so that the center of the pick-up device (4〇) nozzle (42) can be aligned with the optical=set== The components are incorporated into the lens barrel. The centering device is provided with acupuncture points on the material device (10) to make the material picking device (===(5G) can set a plurality of actions. The centering alignment = first dry 7° system - After performing the alignment, (4) as the recording material 彳t, can also be tested 201248232 [Simplified description of the drawings] The first figure is a perspective view of the present invention; the second figure is another perspective of the present invention The third figure is a front view of the present invention; the fourth figure is a top view of the present invention; the fifth figure is the same as the fourth figure, which is a schematic view of the present invention after removing some components [the main component symbol description] (12) Reclaiming device (40) Clamp (41) Nozzle (42) Centering device (50) Detection device (70) 6