201003125 九、發明說明: 【發明所屬之技術領域】 • 本發明涉及一種拿取光學鏡片之治具。 【先前技術】 隨著多媒體技術之發展,數位相機、攝像機及帶有攝 像功能之手機等電子產品越來越為廣大消費者青睞(請參 ^ Capturing images with digital still cameras, Micro, IEEE Volume:18,issue:6,Nov.-Dec.1998 Page(s):14-19)。數位相 機、攝像機及帶有攝像功能之手機等產品之鏡頭模組中含 有玻璃或塑膠之鍍膜光學鏡片。這些鍍膜光學鏡片都需要 經過外觀檢查,達到一定之要求,然後再將這些光學鏡片 與其他元件進行組裝,才不至於因為某一光學鏡片之不良 而影響到整個鏡頭模組之品質。該外觀檢查一般是採用強 光燈照射光學鏡片,操作員目檢判斷該鍍膜光學鏡片表面 之髒汙、劃痕、破損等缺陷。於進行外觀檢查時一般以戴 手套之手拿取該鍍膜光學鏡片,如此,則容易於該鍍膜光 學鏡片之表面留下印記,且該印記不好去除。即使拿取該 鍍膜光學鏡片之邊緣,於將該鍍膜光學鏡片翻轉進行外觀 檢查時較浪費時間,很不方便。 【發明内容】 有鑒於此,提供一種可直接拿取光學鏡片,於該光學 鏡片上減少印記且容易將該光學鏡片翻轉之治具實為必 7 201003125 要。 一種拿取光學鏡二 支撐臂,yr第 /σ /、,其包括··彎折形狀之第一 形狀之第二切臂,^ 及—自由端;彎折 由端,該第撐臂具有—連接端以及-自 轉連接 牙:之,端與該第二支撐臂之連接端旋 臂之自由㉟取部’該第—夾取部旋轉連接於第一支撐 =!;第二夾取部,該第二夾取部旋轉』4 支撐臂之自由踹,曰兮势, 逆按歹、乐一 置。 h —夾取部與該第二絲部相對設 臂之先前技術,該拿取光學鏡片之治具之兩個支樓 轉連接4個夾取部分別旋轉連接於兩個支 y之自由端,且該兩個夹取部相對設置;通過控制兩個 支撐臂使_夾取部㈣光學鏡片。該治具可直接拿取光 學鏡片’於該光學鏡片上減少印記且容易將該光學鏡片翻 轉,便在於強光燈照射下,操作員目檢判斷出該光學鏡片 表面之髒汙、劃痕、破損等缺陷。 【實施方式】 下面將結合附圖對本發明作進一步之詳細說明。 請參閱圖1和圖2 ’圖1為本發明實施例提供之拿取光 學鏡片之治具之整體示意圖。圖2為本發明實施例提供之 一種拿取光學鏡片之治具之分解示意圖。 該拿取光學鏡片之治具1〇〇用於對光學鏡片進行外光 檢查時拿取該光學鏡片’使該光學鏡片置於強光燈之照射 201003125 =操作員目檢匈斷 等缺陷。 、聊,卞劃痕、破損 :羊取光學鏡片之治具1〇〇包括 L型第二支撐眢土乐又揮臂10、 澤20,第一夾取部40、第二夾取邱 指環6〇以及第二指環7〇。 夹…0、第一 臂1〇\LH^切臂1G之材料為歸。該L型第一支撐 該L型第一支二自由端11,另-端為第-連接端12。 以及與該上表面\3下具/相對之上表面13與下表面14, …該内表二二:表面14相連之内表面15與外表面 3與外表面16位置相對。 於該第一自由*山w . 17 ^ 11之内表面15開設有—圓形凹槽 3形凹槽i7用於與第—夾取部4〇旋轉連接。 台 ^ m ?係向外表面16—侧突出形成之一凸 12^-ΤΓ#^, 1, 歼h又男弟通孔18,該第一連接端 12之下表面14開設有第一缺口 19。 該L㈣二支撐臂2〇之材料為_ 臂20之一端為第二自 主弗一爻扭 自由知21,另一端為第二連接 該L·型第二支撐臂2〇且古知祉 逆接编以 ^㈣u #八有之上表面23與下表面24, 以及與該上表面23、下矣+ 下表面24相連之内表面25與外表面 26’該内表面25與外表面2M立置相對。 於該弟二自由端21々&士 之内表面25開設有一圓形凹槽(圖 未不),該圓形凹槽用於與第二夾取部50旋轉連接。 該弟二連接端22係向外表面26-侧突出形成之^凸 台’於該k連接端22開設有第二通孔28,第二連接端之 201003125 上表面23開設有第二缺口 29。 該第一連接端12與該第二連接端22搭接,利用鉚釘 30穿過第一通孔18與第二通孔28將該L型第一支撐臂10 • 與L型第二支撐臂20鉚接。該L型第一支撐臂10與L型 第二支撐臂20於外力作用下可打開或閉合一定角度。 可以理解,該L型第一支撐臂10與L型第二支撐臂 20不限於鉚接,也可用螺釘螺紋連接等,只要該L型第一 支撐臂10與L型第二支撐臂20於外力作用下可打開或閉 合一定角度即可。當然,該兩個支撐臂不限於L型,也可 為具有一定彎折角度之弧形支撐臂等。 請一併參閱圖2及圖3,圖3為本發明實施例提供之拿 取光學鏡片之治具之夾取部之結構示意圖。該第一夾取部 40與第二夾取部50之結構相同。下面以第一夾取部40為 例來說明夾取部之具體結構。 該第一夾取部40為一長條形狀,該第一夾取部40於 該長條形狀之長度方向上具有相對之兩個表面41、42。其 中表面41開設有凹槽43,用於收容光學鏡片之邊緣,優選 地,該凹槽43貫通該第一夾取部40之兩個端面。 表面42設置有圓柱型底座44,該底座44上設置有具 有一定間隙之兩個凸起45、46,該凸起45包括半圓柱形支 撐柱451以及與該支撐柱451 —體成型之端帽452,該端帽 452為直徑大於支撐柱451直徑之半圓柱形。該凸起46包 括半圓柱形支撐柱461以及與該支撐柱461 —體成型之端 帽462,該端帽462為直徑大於支撐柱461直徑之半圓柱 10 201003125 形。其中’該端帽452、462直徑相等。 該圓形凹槽17之直徑略大於端中冒452之直徑且小於底 座44之直把。當擠壓該凸起45、46時,該端帽452料 端帽462才目互靠近,於此狀態下,將該凸起45、46插入圓 形凹槽17 ’然後,除去該外加之擠壓力,該凸起45、46 於沒有外加擠壓力之作用下自然分開,由於凹槽 端帽452、462夕阳格从m „ , 之阻拾作用,凸起45、46並不能恢復自然 仍有—定之彈性變形,對凹槽17之内壁產生一彈性 擠壓力’使第一夾取部4〇安裝連接於l型第一支擇臂 第自由糕11。該底座44抵靠於該l型第一支撐臂1〇 之内表面15。並且,該第一夾取部40於外力作用下,可相 對於L型第—支撐臂1〇旋轉。 刑楚同,,第—夾取部5G也是利用上述結構旋轉連接於L 一撐臂20。並且,該第二夾取部5〇於外 可相對於!^型第二支撐臂2〇旋轉。 力作用下 可以理解’該凸起不限於兩個,也可設計多於兩個之 =該第一夾取部4〇與第二爽取部50之凸起之端帽也 = 成圓錐體,該圓錐體之底面與該支撐柱相接。由於 =凸:之端帽為圓錐體,將該凸起插入l型支撐臂之凹槽 :端帽之頂部插入該凹槽,然後對該凸起施加一外力, ^起I各易插人該凹槽,使該第—夾取部仙與第二夹取 ^分別連接於L型第一支撐臂1〇之第一自由端^與^ 一 支撐煮20之第二自由端21。該第一夾取部40與第 /取。P 5〇用於夾持以及翻轉該光學鏡片。 11 201003125 睛參閱圖1和圖2,該第一指環60與第二指環7〇為雉 可牢刺黏搭鏈,該維可牢刺黏搭鏈之兩端黏貼形成一圓 ^環。將該圓環分別通過雙面膠黏貼於L·型第一支撐臂之 -外表面16以及L型第二支撐臂2〇之外表面%,分別形成 第一指% 60與第二指環70。兩根手指分別伸入該第—指環 60與第二指環70,可控制兩個L型支撐臂1〇、2〇打開或 閉名—定角度。 請參閱圖4及圖5’圖4為本發明實施例提供之拿取光 學鏡片之治具之兩個L型支撐臂張開一定角度之結構示意 圖。圖5為用本發明實施例提供之拿取光學鏡片之治具拿 取光學鏡片之示意圖。 兩根手指分別伸入拿取光學鏡片之治具1〇〇之第一指 環60與第二指環70,通過手指之動作控制兩個l型支撐臂 10、20打開一定角度,利用兩個夾取部40、50夾持光學鏡 片8〇。將該光學鏡片80置於強光燈下,然後給該兩個夾取 部40、50施加一外力,使該兩個夾取部4〇、5〇分別相對 於L型第一支撐臂和L型第二支撐臂2〇旋轉,調整光 學鏡片80旋轉到一合適位置停止,於強光燈之照射下目檢 判斷光學鏡片8〇表面之髒汙、劃痕、破損等缺陷。檢查完 畢後’對該兩個夾取部40、50施加一外力使該光學鏡片8〇 翻轉一定角度,於強光燈之照射下目檢判斷光學鏡片8〇另 一表面之髒汙、劃痕、破損等缺陷。 本實施例拿取光學鏡片之治具1〇〇可直接拿取光學鏡 片80’於光學鏡片80上儘量減少印記且容易將光學鏡片 12 201003125 80翻轉,便於進行光學鏡片80之外觀檢查,從而提高檢查 效率。 綜上所述,本發明確已符合發明專利之要件,遂依法 提出專利申請。惟,以上所述者僅為本發明之較佳實施方 式,自不能以此限制本案之申請專利範圍。舉凡熟悉本案 技藝之人士援依本發明之精神所作之等效修飾或變化,皆 應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 圖1為本發明實施例提供之拿取光學鏡片之治具之整 體示意圖。 圖2為本發明實施例提供之拿取光學鏡片之治具之分 解示意圖。 圖3為本發明實施例提供之拿取光學鏡片之治具之夾 取部之結構示意圖。 圖4為本發明實施例提供之拿取光學鏡片之治具之兩 個L型支撐臂張開一定角度之結構示意圖。 圖5為用本發明實施例提供之拿取光學鏡片之治具拿 取光學鏡片之示意圖。 【主要元件符號說明】 L型第一支撐臂 10 第一自由端 11 第一連接端 12 上表面 13 ' 23 13 201003125 下表面 14、24 内表面 15、25 外表面 16、26 凹槽 17、43 第一通孔 18 第一缺口 19 L型第二支撐臂 20 第二自由端 21 第二連接端 22 第二通孔 28 第二缺口 29 鉚釘 30 第一夾取部 40 表面 41 ' 42 底座 44 凸起 45、46 第二夾取部 50 第一指環 60 第二指環 70 光學鏡片 80 治具 100 支撐柱 451 、 461 端帽 452 > 462 14201003125 IX. Description of the invention: [Technical field to which the invention pertains] • The present invention relates to a jig for taking an optical lens. [Prior Art] With the development of multimedia technology, electronic products such as digital cameras, camcorders and mobile phones with camera functions are increasingly favored by consumers (please refer to Capturing images with digital still cameras, Micro, IEEE Volume: 18) , issue: 6, Nov.-Dec. 1998 Page(s): 14-19). The lens module of a digital camera, a video camera, and a mobile phone with a camera function includes a coated optical lens of glass or plastic. These coated optical lenses require visual inspection to meet certain requirements, and then these optical lenses are assembled with other components so as not to affect the quality of the entire lens module due to the poor optical lens. The visual inspection generally uses a strong light to illuminate the optical lens, and the operator visually inspects the surface of the coated optical lens for defects such as dirt, scratches, and breakage. When the visual inspection is performed, the coated optical lens is generally taken by a gloved hand, so that it is easy to leave a mark on the surface of the coated optical lens, and the mark is not easily removed. Even if the edge of the coated optical lens is taken, it is inconvenient to waste the time when the coated optical lens is turned over for visual inspection. SUMMARY OF THE INVENTION In view of the above, there is provided a jig that can directly take an optical lens, reduce the imprint on the optical lens, and easily flip the optical lens. A second support arm for taking an optical mirror, yr / σ /, comprising: a second cutting arm of a first shape of a bent shape, and a free end; a bent end, the first arm having - a connecting end and a rotating connecting tooth: the connecting end of the end and the second supporting arm is free from the arm 35. The first gripping portion is rotatably connected to the first support=!; the second gripping portion, the The second gripping part rotates. 4 The free arm of the support arm, the potential, the reverse press, and the music. h — a prior art in which the gripping portion is opposite to the second wire portion, and the two branches of the jig for taking the optical lens are connected to the four gripping portions and are respectively rotatably connected to the free ends of the two branches y. And the two clamping portions are oppositely disposed; the optical lens is clamped to the (four) by controlling the two supporting arms. The jig can directly take the optical lens to reduce the imprint on the optical lens and easily flip the optical lens, which is under the illumination of the strong light, and the operator visually judges the surface of the optical lens to be dirty, scratched, Defects such as damage. [Embodiment] Hereinafter, the present invention will be further described in detail with reference to the accompanying drawings. Referring to FIG. 1 and FIG. 2, FIG. 1 is a schematic diagram of a whole of a jig for taking an optical lens according to an embodiment of the present invention. 2 is an exploded perspective view of a jig for taking an optical lens according to an embodiment of the present invention. The jig for taking the optical lens is used to take the optical lens when the optical lens is subjected to external light inspection. The optical lens is placed in the illumination of the high-light lamp. 201003125 = The operator visually inspects the defect such as Hungarian. , chat, 卞 scratches, damage: the claws of the sheep taking optical lenses 1〇〇 including the L-shaped second support 眢土乐 and the swing arm 10, Ze 20, the first clamping part 40, the second clamping Qiu ring 6 〇 and the second ring 7〇. Clip...0, the first arm 1〇\LH^The material of the cutting arm 1G is the return. The L-shaped first support is the L-shaped first branch and the second end 11 and the other end is the first-connecting end 12. And the inner surface 15 and the outer surface 3 and the outer surface 16 are opposite to the upper surface \3/with the upper surface 13 and the lower surface 14, ... the inner surface 22: the surface 14 is connected. The surface 15 is opened in the inner surface of the first free mountain. The circular groove 7 is used for the rotational connection with the first clamping portion 4〇. The front surface 16 is laterally protruded to form a convex portion 12^-ΤΓ#^, 1, 歼h and the male through hole 18, and the lower surface 14 of the first connecting end 12 is provided with a first notch 19 . The material of the L (four) two support arm 2 is _ one end of the arm 20 is a second self-floating twist, and the other end is a second connection, the second type of the second support arm 2 is connected. ^(四)u #8 has an upper surface 23 and a lower surface 24, and an inner surface 25 and an outer surface 26' which are connected to the upper surface 23, the lower jaw + lower surface 24, and the inner surface 25 is opposed to the outer surface 2M. A circular groove (not shown) is formed in the inner surface 25 of the second free end 21 々 & the circular groove for rotational connection with the second gripping portion 50. The second connecting end 22 of the second connecting end 22 is formed with a second through hole 28 at the k connecting end 22, and a second notch 29 is formed on the upper surface 23 of the 201003125 of the second connecting end. The first connecting end 12 overlaps the second connecting end 22, and the L-shaped first supporting arm 10 and the L-shaped second supporting arm 20 are passed through the first through hole 18 and the second through hole 28 by using the rivet 30. Riveting. The L-shaped first support arm 10 and the L-shaped second support arm 20 can be opened or closed by an external force. It can be understood that the L-shaped first support arm 10 and the L-shaped second support arm 20 are not limited to riveting, and may be screwed or the like as long as the L-shaped first support arm 10 and the L-shaped second support arm 20 act externally. It can be opened or closed at a certain angle. Of course, the two support arms are not limited to the L-shape, but may be curved support arms having a certain bending angle or the like. Please refer to FIG. 2 and FIG. 3 together. FIG. 3 is a schematic structural diagram of a clamping portion of a jig for taking an optical lens according to an embodiment of the present invention. The first gripping portion 40 has the same structure as the second gripping portion 50. The specific structure of the gripping portion will be described below by taking the first gripping portion 40 as an example. The first clamping portion 40 has an elongated shape, and the first clamping portion 40 has opposite surfaces 41, 42 in the longitudinal direction of the elongated shape. The surface 41 is provided with a recess 43 for receiving the edge of the optical lens. Preferably, the recess 43 extends through the two end faces of the first clamping portion 40. The surface 42 is provided with a cylindrical base 44, which is provided with two protrusions 45, 46 having a certain gap, the protrusion 45 comprising a semi-cylindrical support column 451 and an end cap integrally formed with the support post 451 452, the end cap 452 is a semi-cylindrical diameter larger than the diameter of the support post 451. The projection 46 includes a semi-cylindrical support post 461 and an end cap 462 integrally formed with the support post 461. The end cap 462 is a semi-cylindrical 10 201003125 shape having a diameter larger than the diameter of the support post 461. Wherein the end caps 452, 462 are equal in diameter. The diameter of the circular recess 17 is slightly larger than the diameter of the end 452 and smaller than the straight handle of the base 44. When the projections 45, 46 are pressed, the end caps 452 are brought closer to each other. In this state, the projections 45, 46 are inserted into the circular recesses 17' and then the squeeze is removed. The pressure, the protrusions 45, 46 are naturally separated by the action of the external pressing force, and the protrusions 45, 46 cannot be restored naturally due to the blocking action of the groove end caps 452, 462 from the m „ Having a predetermined elastic deformation, an elastic pressing force is generated on the inner wall of the groove 17 to cause the first clamping portion 4 to be attached to the l-type first branching arm free cake 11. The base 44 abuts against the l The first support arm 1 has an inner surface 15. The first clamping portion 40 is rotatable relative to the L-shaped first support arm 1 by an external force. It is also rotated and connected to the L-support arm 20 by the above structure. Moreover, the second gripping portion 5 can be rotated relative to the second support arm 2 of the type 2. The force can be understood that the protrusion is not limited. Two, more than two can also be designed = the end of the first clamping portion 4 〇 and the raised end of the second cooling portion 50 also = a cone, the circle The bottom surface of the cone is in contact with the support column. Since the end cap of the convex surface is a cone, the protrusion is inserted into the groove of the l-type support arm: the top of the end cap is inserted into the groove, and then the protrusion is applied An external force, ^I is easy to insert the groove, so that the first clamping portion and the second clamping device are respectively connected to the first free end of the L-shaped first supporting arm 1〇 and a support The second free end 21 of the 20. The first gripping portion 40 and the first picking portion P5 are used for clamping and flipping the optical lens. 11 201003125 See FIGS. 1 and 2, the first finger ring 60 and the first The two-ring ring 7〇 is a sturdy adhesive chain, and the two ends of the sturdy adhesive chain are adhered to form a circle. The ring is respectively adhered to the first support arm of the L· type through double-sided adhesive tape- The outer surface 16 and the outer surface of the L-shaped second support arm 2 respectively form a first finger % 60 and a second finger ring 70. Two fingers respectively extend into the first finger ring 60 and the second finger ring 70 to control two L-shaped support arms 1〇, 2〇 open or closed-fixed angle. Please refer to FIG. 4 and FIG. 5'. FIG. 4 is a view of two of the jigs for taking optical lenses according to an embodiment of the present invention. Schematic diagram of the L-shaped support arm opening a certain angle. Figure 5 is a schematic view of the optical lens taken by the jig for taking the optical lens provided by the embodiment of the present invention. Two fingers respectively extend into the jig for taking the optical lens 1 The first finger ring 60 and the second finger ring 70 are controlled by the action of the finger to open the two l-shaped support arms 10, 20 at a certain angle, and the optical lens 8 is clamped by the two clamping portions 40, 50. The lens 80 is placed under a strong light, and then an external force is applied to the two clamping portions 40, 50 so that the two clamping portions 4, 5, respectively, are opposite to the L-shaped first support arm and the L-shaped second When the support arm 2 rotates, the optical lens 80 is rotated to a proper position to stop, and the surface of the optical lens 8 is visually inspected for defects such as dirt, scratches, and breakage under the illumination of the strong light. After the inspection, an external force is applied to the two clamping portions 40, 50 to turn the optical lens 8 to a certain angle, and the optical lens 8 is visually inspected under the illumination of the strong light to determine the dirt and scratches on the other surface of the optical lens 8 Defects such as damage. In this embodiment, the jig for taking the optical lens can directly take the optical lens 80' on the optical lens 80 to minimize the imprint and easily flip the optical lens 12 201003125 80, thereby facilitating the visual inspection of the optical lens 80, thereby improving Check efficiency. In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application according to law. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application of the present invention. Equivalent modifications or variations made by persons skilled in the art in light of the present invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a whole of a jig for taking an optical lens according to an embodiment of the present invention. 2 is a schematic exploded view of a jig for taking an optical lens according to an embodiment of the present invention. FIG. 3 is a schematic structural view of a clamping portion of a jig for taking an optical lens according to an embodiment of the present invention. FIG. 4 is a schematic structural view showing the two L-shaped support arms of the jig for taking an optical lens opened at a certain angle according to an embodiment of the present invention. FIG. 5 is a schematic view of an optical lens taken by a jig for taking an optical lens according to an embodiment of the present invention. [Main component symbol description] L-shaped first support arm 10 First free end 11 First connection end 12 Upper surface 13' 23 13 201003125 Lower surface 14, 24 Inner surface 15, 25 Outer surface 16, 26 Grooves 17, 43 First through hole 18 first notch 19 L-shaped second support arm 20 second free end 21 second connection end 22 second through hole 28 second notch 29 rivet 30 first clamping portion 40 surface 41 ' 42 base 44 convex 45, 46 second clamping portion 50 first finger ring 60 second finger ring 70 optical lens 80 jig 100 support column 451, 461 end cap 452 > 462 14