Ιθ 76001 [ ι〇ί^;〇64 ΐ5Β mm^\ 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明係關於一種光學模組存放裝置。 【先前技術】 ' [0002] 隨著消費性電子産品之發展,數位相機以及具有數位相 機之行動電話等具有攝像功能之電子産品由於使用方便 、便於攜帶已被人們廣泛使用,因此數位相機光學模組 之需求量越來越大。 [〇〇〇3]對於數位相機光學模組之製造而言,一般所採用之組裝 方式可分為全自動組裝及人工手動組裝。於一般之人工 組裝過程中,需經過鏡片沖壓機壓合以&MTF (Ιθ 76001 [ ι〇ί^;〇64 ΐ5Β mm^\ VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to an optical module storage device. [Prior Art] ' [0002] With the development of consumer electronic products, electronic products with camera functions such as digital cameras and mobile phones with digital cameras have been widely used because of their convenience and portability, so the digital camera optical mode The demand for the group is growing. [〇〇〇3] For the manufacture of digital camera optical modules, the assembly methods generally used can be divided into fully automatic assembly and manual manual assembly. In the normal manual assembly process, it is necessary to press the lens punch to &MTF (
Modulation Transfer Function,調製傳遞函數)檢 測等步驟’這些製程步驟通常一次僅能完成一個光學模 組之壓合或_,因此在組裝錄_,祕費大量時 間成本於光學模組之置換,並且於組裝完成之後,需將 光子模組轉移至存放裝置中,以利後續之包裝出貨’惟 〜夾取過程增加了光學模組損傷之風險,同時降低生 產之速度與良率。 【發明内容】 [0004] 鑒於以上内袞,士 有必要提供—種可提高生產效率之光學 模組存放裝置。 缝存放裝置,用於手工組裝鏡頭之製程,其 包括一放置座及— ^ —健存盤,該放置座上設有複數間隔之 放置孔;該儲在 ^ 螌上設至少一滑槽,該放置座容置於該 09510239^·^^* 滑槽内並可於該说 、'^π槽内滑動,且該儲存盤可堆疊放置。 A0101 第 3 頁 / 共 12 頁 1013227549- 1376001 101年.06月15日梭正替換π [0006] 相較習知技術,所述之光學模組存放裝置可免除組裝沖 壓以及光學性能檢測過程中模組之置換時間,提高生產 效率,並可於組裝完成後以相同之載具存放,減少成品 搬移次數,節省時間成本。 【實施方式】 [0007] 請參閲第一圖至第三圖,本發明之較佳實施方式光學模 組存放裝置包括至少一放置座1〇及至少一儲存盤20 ^ [0008] 放置座10具有一主體11,該主體u上對稱延伸出兩間隔 之突條12。主體11於兩個突條12之間開設有複數間隔之 放置孔13。該放置孔13可用於容置光學模組3〇,其由一 個通孔131和-個大直徑孔132組成,其中該大直徑孔 i32之直徑大於通孔131之直徑,該通孔Hi和大直徑孔 132貫通而於兩孔連通處形成台階。兩個突條! 2於其相對 上對稱.又有複數凹槽14 ’該凹槽14與大直徑孔132貫 通並平滑連接,從而便於光學模組30之放置及夾取。主 ;兩個穴條12靠近通孔131 一端之外側設有兩個滑軌 —在放置座1G之突條12外側側壁上對應放置孔13處設 疋位槽16 α於壓合或檢測時與機台(圖未示)準確對位 〇 [0009] 儲存盤20大致爲長方體,其具有—主表面21,該主表面 21上,又有兩排滑槽22,該兩排滑槽22不相連通而由橫梁 25間斷°每―滑槽22均有1位於儲存盤2G外側邊沿, 另—端靠近儲存盤1°中部之橫梁25,滑槽22與放置座10 之形狀大小相對應’放置座1〇可置於該滑槽22内。滑槽 09510239#單编號軸1 第4頁/共12頁 1013227549-0 1 2戴面爲一個半封閉之“几,, 凸形狀,其底部向兩側延伸 1.376001 1〇1军'。綠15自接正_頁 __·· - _· 形成兩個對稱之滑道221,該滑道221與放置座10之滑轨 15滑動配合,從而避免放置座10從滑槽22内翹起或脫落 。儲存盤20上橫梁25兩端之主表面21兩側靠邊沿部份分 別設一突起23,儲存盤20與主表面21相對之一面上對應 於突起23之位置分別設一開口 24,該突起23之高度大於 開口 24之深度。利用一儲存盤20兩側之突起23與另一儲 存盤20下方之開口 24相結合,可實現儲存盤20堆疊存放 ,以存儲更多之光學模組30 ;另,利用突起23與開口24 之高度配合,可避免壓傷或磨損已完成之光學模組30。 可以理解,該對應之突起23與開口 24亦可互換位置,即 可在主表面21設開口 24,而在主表面21相對一面上對應 開口 24之位置分別設一突起23。 [0010] 裝配時,將複數光學模組30分別置於放置座10之放置孔 13内,將放置座10滑入儲存盤20之滑槽22内。若需多個 儲存盤20,則使位於下方之一儲存盤20兩側之突起23與 另一儲存盤20下方之開口 24.相結合,從而可實現多個儲 存盤20堆疊存放。進行壓合或檢測時,將放置座10上待 處理之光學模組30對準機台之相應操作位置,以進行處 理。當一個光學模組30處理完畢後,滑動放置座10,使 該放置座10上之另一光學模組30對準機台之相應操作位 置,使放置座10上之定位槽16與機台相應位置準確對應 ,以達到定位目的,即可進行另一個光學模組30之處理 ,放置座10上所有光學模組30處理完成後,不必將光學 . 模組30倒出放置座1 0,只需將放置座1 0推回儲存盤20以 利下一步操作,從而減少更換光學模組30之時間,同時 09510239产單編號 A〇101 第5頁/共12頁 1013227549-0 1376001 101年.06月15日修正替換頁 更換另一放置座10,以進行下一組光學模組30之處理。 [0011] 可以理解,若光學模組30數量較少時,放置座10與儲存 盤20均可為一個。另,儲存盤20可爲圓形、三角形或其 他形狀。 [0012] 可以理解,為使放置座10在滑槽22中定位,可於放置座 · 10與滑槽22接觸之表面塗上防滑塗料,或於該滑槽22内 設彈性卡位點,該放置座10上對應位置設卡位孔,該卡 位孔與卡位點配合。 [0013] 综上所述,本發明符合發明專利要件,爰依法提出專利 申請。惟,以上所述者僅為本發明之較佳實施例,舉凡 熟悉本發明技藝之人士,在援依本發明精神所作之等效 修飾或變化,皆應包含於以下之申請專利範圍内。 【圖式簡單說明】 [0014] 第一圖係本發明光學模組存放裝置較佳實施方式之放置 座立體圖; [0015] 第二圖係本發明光學模組存放裝置較佳實施方式之儲存 盤立體圖; [0016] 第三圖係本發明光學模組存放裝置較佳實施方式之放置 座與儲存盤組裝示意圖。 【主要元件符號說明】 [0017] 放置座:10 [0018] 主體:11 [0019] 突條:12 095画产單编號A〇101 第6頁/共12頁 1013227549-0 1376001 :10ί年.06月is日核正_頁 [0020] 放置孔:13 [0021] 通孔:131 [0022] 大直徑孔:132 • [0023] 凹槽:14 • [0024] 滑執:15 [0025] 定位槽:16 [0026] 儲存盤:20 [0027] 主表面:21 、 [0028] 滑槽:22 [0029] 滑道:221 [0030] 突起:23 [0031] 開口 : 24 [0032] 橫梁:25 [0033] 光學模組:30 廳9卢單編號A0101 第7頁/共12頁 1013227549-0Modulation Transfer Function, Modulation Transfer Function, etc. 'These process steps usually only complete the pressing or _ of one optical module at a time, so in the assembly record, the secret cost is a lot of time to replace the optical module, and After the assembly is completed, the photonic module needs to be transferred to the storage device to facilitate subsequent packaging shipments. However, the clamping process increases the risk of damage to the optical module while reducing the speed and yield of production. SUMMARY OF THE INVENTION [0004] In view of the above enthusiasm, it is necessary to provide an optical module storage device that can improve production efficiency. a sewing device for manually assembling a lens, comprising: a placing seat and a storage tray, wherein the placing seat is provided with a plurality of spaced holes; the storage is provided with at least one chute, the placing The seat is placed in the 09510239^·^^* chute and can slide in the said, ^^π slot, and the storage tray can be stacked. A0101 Page 3 of 12 1013227549- 1376001 101. On June 15th, the shuttle is replacing π [0006] Compared with the prior art, the optical module storage device can eliminate the assembly stamping and optical performance testing process. The replacement time of the group improves the production efficiency, and can be stored in the same carrier after the assembly is completed, reducing the number of finished product movements and saving time cost. [0007] Referring to the first to third figures, the optical module storage device of the preferred embodiment of the present invention includes at least one placement seat 1 and at least one storage tray 20 ^ [0008] There is a main body 11 on which two spaced apart ribs 12 are symmetrically extended. The main body 11 is provided with a plurality of spaced holes 13 between the two ribs 12. The placement hole 13 can be used for accommodating the optical module 3, which is composed of a through hole 131 and a large diameter hole 132, wherein the diameter of the large diameter hole i32 is larger than the diameter of the through hole 131, and the through hole Hi and large The diameter hole 132 passes through and a step is formed at the intersection of the two holes. Two spurs! 2 is relatively symmetrical. There is a plurality of grooves 14' which are transparent to the large diameter holes 132 and are smoothly connected to facilitate the placement and clamping of the optical module 30. The two holes 12 are disposed on the outer side of one end of the through hole 131, and two sliding rails are disposed on the outer side wall of the protruding wall 12 of the placing seat 1G. The corresponding positioning hole 13 is provided at the corresponding positioning hole 13 at the time of pressing or detecting. The machine table (not shown) is accurately aligned. [0009] The storage tray 20 is substantially rectangular parallelepiped having a main surface 21, and the main surface 21 has two rows of chutes 22 which are not connected. The cross member 25 is intermittently separated. Each of the chutes 22 is located at the outer edge of the storage tray 2G, and the other end is adjacent to the cross member 25 of the middle portion of the storage tray. The chute 22 corresponds to the shape of the placement base 10. 1〇 can be placed in the chute 22. Chute 09510239#单号轴1 Page 4 / Total 12 pages 1013227549-0 1 2 The wearing surface is a semi-closed "several, convex shape, the bottom of which extends to the sides 1.376001 1〇1 army'. Green 15 The self-connecting positive _page __·· - _· forms two symmetrical slides 221, and the slide 221 is slidably engaged with the slide rail 15 of the placement seat 10, thereby preventing the placement seat 10 from lifting or falling off from the chute 22. A protrusion 23 is respectively disposed on the two sides of the main surface 21 of the upper surface of the beam 25 of the storage tray 20, and an opening 24 is formed on a surface of the storage tray 20 opposite to the main surface 21 corresponding to the protrusion 23, and the protrusion is respectively provided. The height of the opening 23 is greater than the depth of the opening 24. The storage tray 20 can be stacked and stored to store more optical modules 30 by using the protrusions 23 on both sides of the storage tray 20 in combination with the opening 24 under the other storage tray 20. In addition, by using the height of the protrusion 23 and the opening 24, the optical module 30 can be prevented from being crushed or worn. It can be understood that the corresponding protrusion 23 and the opening 24 can also be interchanged, and the main surface 21 can be opened. 24, and one position corresponding to the opening 24 on the opposite side of the main surface 21 [0010] During assembly, the plurality of optical modules 30 are respectively placed in the placement holes 13 of the placement base 10, and the placement base 10 is slid into the sliding slots 22 of the storage tray 20. If a plurality of storage trays 20 are required, Then, the protrusions 23 located on one side of the lower storage tray 20 are combined with the opening 24. below the other storage tray 20, so that the plurality of storage trays 20 can be stacked and stored. When the pressing or detecting is performed, the seat 10 is placed. The optical module 30 to be processed is aligned with the corresponding operating position of the machine for processing. When an optical module 30 is processed, the mounting seat 10 is slid so that the other optical module 30 on the placing base 10 The corresponding operation position of the quasi-machine table enables the positioning slot 16 on the placement base 10 to accurately correspond to the corresponding position of the machine table, so as to achieve the purpose of positioning, the other optical module 30 can be processed, and all the optical modules on the seat 10 are placed. After the processing is completed, it is not necessary to pour the optical module 30 out of the storage stand 10, and it is only necessary to push the placement block 10 back to the storage tray 20 to facilitate the next operation, thereby reducing the time for replacing the optical module 30, while the 09510239 is produced. Single Number A〇101 Page 5/Total 12 Page 101322754 9-0 1376001 101. The correction replacement page is replaced with another placement base 10 for the processing of the next set of optical modules 30. [0011] It can be understood that if the number of optical modules 30 is small, placement The seat 10 and the storage tray 20 can each be one. Alternatively, the storage tray 20 can be circular, triangular or other shape. [0012] It can be understood that in order to position the placement base 10 in the chute 22, the seat can be placed. The surface contacting the chute 22 is coated with a non-slip coating, or an elastic card position is disposed in the chute 22. The corresponding position on the placement seat 10 is provided with a card hole, and the card hole cooperates with the card position. [0013] In summary, the present invention complies with the requirements of the invention patent, and submits a patent application according to law. It is to be understood that the above-mentioned preferred embodiments of the present invention are intended to be included within the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS [0014] The first drawing is a perspective view of a preferred embodiment of the optical module storage device of the present invention; [0015] The second drawing is a storage disk of a preferred embodiment of the optical module storage device of the present invention. 3 is a schematic view showing the assembly of the placement base and the storage tray of the preferred embodiment of the optical module storage device of the present invention. [Main component symbol description] [0017] Placement seat: 10 [0018] Main body: 11 [0019] Bulge: 12 095 picture number A 〇 101 Page 6 / Total 12 pages 1013227549-0 1376001 : 10 年 years. 06is issuance _ page [0020] Placement hole: 13 [0021] Through hole: 131 [0022] Large diameter hole: 132 • [0023] Groove: 14 • [0024] Slip: 15 [0025] Positioning Slot: 16 [0026] Storage tray: 20 [0027] Main surface: 21, [0028] Chute: 22 [0029] Slide: 221 [0030] Protrusion: 23 [0031] Opening: 24 [0032] Beam: 25 [0033] Optical Module: 30 Hall 9 Lu Single No. A0101 Page 7 / Total 12 Page 1013227549-0