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TW200927627A - Suction nozzle and suction device having the same - Google Patents

Suction nozzle and suction device having the same Download PDF

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Publication number
TW200927627A
TW200927627A TW96151207A TW96151207A TW200927627A TW 200927627 A TW200927627 A TW 200927627A TW 96151207 A TW96151207 A TW 96151207A TW 96151207 A TW96151207 A TW 96151207A TW 200927627 A TW200927627 A TW 200927627A
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TW
Taiwan
Prior art keywords
hole
end surface
lens
nozzle
suction
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TW96151207A
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Chinese (zh)
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TWI388484B (en
Inventor
Ming-Lung Guo
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Hon Hai Prec Ind Co Ltd
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Priority to TW96151207A priority Critical patent/TWI388484B/en
Publication of TW200927627A publication Critical patent/TW200927627A/en
Application granted granted Critical
Publication of TWI388484B publication Critical patent/TWI388484B/en

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Abstract

The present invention relates to a suction nozzle. The suction nozzle includes a main body and a suction hole configured on the main body. The main body includes a first end surface and a second end surface. The suction hole penetrates the main body, and communicated to the first end surface and the second end surface. The suction hole is communicated to an external suction source at the second end surface. The suction hole is a stepped hole which has at least three inner diameters. The three inner diameters decrease along with a direction from the first end surface to the second end surface. A suction device having the suction nozzle is also provided.

Description

200927627 九、發明說明: 【發明所屬之技術領域】 本發明涉及一種用於吸取鏡片之吸嘴,以及具有該種 吸嘴之吸取裝置。 【先前技術】 隨著多媒體技術之發展,數位相機、攝影機等攝像裝 置越來越為廣大消費者青睞。現有之攝像裝置如數位相 機,其鏡頭模組一般由鏡筒以及收容於鏡筒内之光學鏡片 ❹組成,可參見 Edward H. Adelson 等人於 IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol. 14, No. 2, February 1992 上之 Single Lens Stereo with a Plenoptic Camera —文。由於鏡頭模組之小型化發展,鏡片之尺寸越 來越小,且隨著產品之多樣化,鏡片之外徑之種類亦隨之 增加。 於鏡頭模組之自動化製造過程中,一般採用吸嘴進行 0鏡片澆口剪切排盤或鏡頭模組組裝等工藝。通常,進行上 述工藝之過程中所使用之吸嘴之吸附孔尺寸大小均為針對 待加工之鏡片外徑與非球面直徑之尺寸而專門進行設計 的,從而可適用於具有特定尺寸大小之待加工鏡片。如果 待加工鏡片之尺寸發生變化,則需要根據待加工鏡片之新 尺寸來重新設計具有合適尺寸吸附孔之吸嘴。 有鑒於此,有必要提供一種適用於吸取多種不同尺寸 大小鏡片之吸嘴以及具有該種吸嘴之吸取裝置。 【發明内容】 6 200927627 以下將以具體實施例說明一種吸嘴以及具有該種吸嘴 之吸取裝置,其可用於吸取多種不同尺寸大小之鏡片。 一種吸嘴,用於與外界吸力源相連通以吸附待加工鏡 片,該吸嘴包括一本體以及一設置於本體上之吸附孔,該 本體包括相對之第一端面及一第二端面,該吸附孔貫穿該 第一端面及第二端面並於第二端面處與外界吸力源相連 通,其中,該吸附孔為階梯孔,該階梯孔具有至少三個直 徑,該至少三個直徑沿從第一端面至第二端面之方向依次 變小。 一種吸取裝置’用於吸附待加工鏡片,該吸取裝置包 吸力源、與吸力源相連通之中空管體以及藉由中空管體與 該吸.力源相連通之吸嘴’該吸嘴包括一本體以及一設置於 本體上之吸附孔,該本體包括相對之第一端面及第二端 面’該吸附孔貫穿該第一端面及第二端面並於第二端面處 與該中空管體相連通,其中’該吸附孔為階梯孔,該階梯 ❹孔具有至少三個直徑,該至少三個直徑沿從第一端面至第 —面之方向依次變小。 與先前技術相比,該吸嘴以及具有該種吸嘴之吸取裝 置’因其吸附孔為貫穿吸嘴本體之階梯孔,而該階梯孔具 有複數不同大小之直徑,因此可用於吸取多種不同尺寸大 小之鏡片。 【實施方式】 以下將結合附圖對本發明實施例作進一步詳細說明。 參見圖1,本發明第一實施例所提供之一種吸嘴1 〇包 200927627 . 括一本體11以及一吸附孔12。 該本體11大致呈圓柱形,其包括兩相對之第一端面 及第二端面112。該本體11之材質可為金屬等硬質材料。 該吸附孔12設置於該本體11上,並貫穿本體u之第 一端面110及第二端面112。該吸附孔12為階梯孔,其具 有;σ從第一端面110至第·一端面112方向直徑依次減小之 一階孔121、二階孔122、三階孔123以及四階孔124。該 ❹一階孔121、二階孔122、三階孔123以及四階孔124之直 徑分別為4、I、旬以及Α。由於該吸附孔12用於吸附待 加工鏡片,因此該吸附孔12之各階通常設置為形狀與待加 工鏡片相配合之孔,如本實施例中吸附孔12之各階孔(即一 階孔121、二階孔122、三階孔123以及四階孔124)為圓孔。 由於該吸嘴10之吸附孔12具有複數大小不同之直 徑,從而該吸嘴10適用於吸取多種不同尺寸鏡片之吸取, 例如: © 參見圖2 ’當採用該吸嘴10吸取外徑為di之鏡片30 時,鏡片30之外緣將被直徑為心之一階孔121之孔壁卡持 住,而整個鏡片30之至少一部分被吸附孔12收容於内, 從而於向吸附孔12提供抽真空操作時,鏡片3〇將被吸 吸起。 類似的,當採用該吸嘴10吸取外徑為d2之鏡片時,鏡 片之外緣將被直徑為d2之二階孔122之孔壁卡持住,而整 個鏡片之至少—部分被吸附孔12收容於内;當採用該吸嘴 10吸取外徑為A之鏡片時,鏡片之外緣將被直徑為d3之三 200927627 而整個鏡#之至少—部分被吸附 階孔123之孔壁卡持住, 孔12收容於内。 優選的,該吸附孔12之孔壁上還設置有一層彈性材料 13,如橡膠,其可於吸嘴10吸取鏡片時起到緩衝作用,從 而防止吸嘴10損壞鏡片。 參見圖3及圖4,本發明第二實施例還提供一種吸取裝 置2〇。該吸取裝置20包括中空管體21,以及分別設置ς ❹中空管體21兩端之吸嘴1〇以及吸力源22。 該中空管體21之外形可為圓柱,其内部包括可供氣流 通過之流道210’該流道210與該吸嘴10之吸附孔12相連 通,且該中空管體21位於吸附孔12之開口直徑較小之一 側。當然,該中空管體21之形狀並不局限於為圓柱形,其 還可為棱柱形或其他不規則之形狀。 該吸力源22與流道210相連通,其可為一真空供給裝 置,如真空系荨。該吸力源22可提供給該中空管體2丄不 ❹同之真空度,如此即可對鏡片具有不同之吸力,以便於吸 持或放置鏡片。 需要說明的是’圖2所示待加工鏡片3〇為外徑為& 之雙凸鏡片,當該鏡片30之至少一部分收容於吸附孔12 之直徑為t之一階孔121内時,鏡片3〇之凸起面將被收容 於吸附孔12之直徑為t之二階孔122内而避免因與本體 11直接接觸而造成損傷,當然該二階孔122之收容空間之 大小應至少足以收容鏡片3〇之凸起面區域,即二階孔122 之深度大於或等於該鏡片30之凸起面之高度。因此,針對 9 200927627 -於外徑為之鏡片30,吸嘴l〇之吸附孔12應該至少具有 .一個一階孔121和一個二階孔122。考慮到吸嘴1〇至少還 應用於吸取外徑為心之雙凸鏡片,因此吸嘴1〇之吸附孔 12還應至少包括一個三階孔123用於收容外徑為d2之鏡片 之凸起面’因此,該吸附孔12至少為.三階階梯孔,其還可 為四階階梯孔、五階階梯孔等,即吸附孔12可具有三個、 五個甚至更多大小不同之直徑。 ❹ 另外,該吸附孔12之各階孔之直徑大小還可預先根據 待加工鏡片之外徑而適當設計調整,以滿足多種不同尺寸 大小鏡片之需要,而且,該吸附孔12各階之直徑變化關係 不局限於沿從第一端面110至第二端面112之方向依次減 小’任何可達到本發明技術效果之直徑變化關係均可。該 本體11之形狀並不局限於圓柱形,其亦可為棱柱形等。 综上所述,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日月之較佳實施方 〇式,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係本發明第一實施例所提供吸嘴之剖視圖。 圖2係利用圖i所示吸嘴吸取鏡片之狀態示意圖。 圖3係本發明第二實施例所提供吸取裝置之結構示意 圖。 圖4係圖3所示吸取裝置之局部剖視圖。 200927627 【主要元件符號說明】 吸嘴 10 本體 11 第一端面 110 第二端面 112 吸附子L 12 一階孔 121 二階孔 122 三階孔 123 四階孔 124 彈性材料 13 吸取裝置 20 鏡片 30 中空管體 21 吸力源 22 流道 210 ❹ 11BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a suction nozzle for sucking a lens, and a suction device having the same. [Prior Art] With the development of multimedia technology, digital cameras, cameras and other camera devices are increasingly favored by consumers. In the existing camera device, such as a digital camera, the lens module is generally composed of a lens barrel and an optical lens contained in the lens barrel. See Edward H. Adelson et al., IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol. Single Lens Stereo with a Plenoptic Camera on No. 2, February 1992. Due to the miniaturization of the lens module, the size of the lens is getting smaller and smaller, and as the product is diversified, the type of outer diameter of the lens increases. In the automated manufacturing process of the lens module, a nozzle is used to perform a process such as a zero-lens gate cutting tray or a lens module assembly. Generally, the size of the adsorption holes of the nozzles used in the above process is specifically designed for the outer diameter and the aspherical diameter of the lens to be processed, so that it can be applied to a specific size to be processed. lens. If the size of the lens to be processed changes, it is necessary to redesign the nozzle having the appropriate size of the adsorption hole according to the new size of the lens to be processed. In view of the above, it is necessary to provide a suction nozzle suitable for sucking a plurality of lenses of different sizes and a suction device having the same. SUMMARY OF THE INVENTION 6 200927627 A nozzle and a suction device having such a nozzle, which can be used to suck a plurality of lenses of different sizes, will be described below by way of specific embodiments. a nozzle for communicating with an external suction source for adsorbing a lens to be processed, the nozzle comprising a body and an adsorption hole disposed on the body, the body comprising an opposite first end surface and a second end surface, the adsorption The hole penetrates the first end surface and the second end surface and communicates with an external suction source at the second end surface, wherein the adsorption hole is a stepped hole, the stepped hole has at least three diameters, and the at least three diameters are along the first The direction from the end face to the second end face becomes smaller in turn. a suction device for adsorbing a lens to be processed, the suction device comprising a suction source, a hollow tube connected to the suction source, and a nozzle connected to the suction source by the hollow tube body The utility model comprises a body and an adsorption hole disposed on the body, the body comprises an opposite first end surface and a second end surface, wherein the adsorption hole penetrates the first end surface and the second end surface and is adjacent to the hollow tube body at the second end surface Connected, wherein 'the adsorption hole is a stepped hole, the stepped bore has at least three diameters, and the at least three diameters become smaller in order from the first end face to the first face. Compared with the prior art, the suction nozzle and the suction device having the same have a plurality of different sizes because of the adsorption holes which are through the stepped holes of the nozzle body, and the stepped holes have a plurality of different diameters. The size of the lens. [Embodiment] Hereinafter, embodiments of the present invention will be further described in detail with reference to the accompanying drawings. Referring to FIG. 1, a nozzle 1 package 200927627 according to a first embodiment of the present invention includes a body 11 and an adsorption hole 12. The body 11 is generally cylindrical in shape and includes two opposing first and second end faces 112. The material of the body 11 may be a hard material such as metal. The adsorption hole 12 is disposed on the body 11 and penetrates through the first end surface 110 and the second end surface 112 of the body u. The adsorption hole 12 is a stepped hole having a first-order hole 121, a second-order hole 122, a third-order hole 123, and a fourth-order hole 124 whose diameter decreases from the first end surface 110 to the first end surface 112 in this order. The diameters of the first-order hole 121, the second-order hole 122, the third-order hole 123, and the fourth-order hole 124 are 4, 1, 10, and Α, respectively. Since the adsorption hole 12 is used for adsorbing the lens to be processed, the steps of the adsorption hole 12 are generally arranged to be holes having a shape matching with the lens to be processed, such as the first-order holes 121 of the adsorption hole 12 in this embodiment (ie, the first-order hole 121, The second-order holes 122, the third-order holes 123, and the fourth-order holes 124) are circular holes. Since the suction hole 12 of the nozzle 10 has a diameter of a plurality of different sizes, the nozzle 10 is suitable for sucking a plurality of lenses of different sizes, for example: © See FIG. 2 'When the nozzle 10 is used, the outer diameter is di In the case of the lens 30, the outer edge of the lens 30 will be held by the hole wall having the diameter of the one-step hole 121, and at least a part of the entire lens 30 is received by the adsorption hole 12, thereby providing vacuum to the adsorption hole 12. During operation, the lens 3 will be sucked up. Similarly, when the nozzle 10 is used to suck the lens having the outer diameter d2, the outer edge of the lens is held by the wall of the second-order hole 122 having the diameter d2, and at least part of the entire lens is received by the adsorption hole 12. When the nozzle 10 is used to suck the lens with the outer diameter A, the outer edge of the lens will be the diameter d3 3 200927627 and the entire mirror # at least partially trapped by the hole wall of the adsorption step hole 123. The hole 12 is received therein. Preferably, the wall of the hole of the adsorption hole 12 is further provided with a layer of elastic material 13, such as rubber, which acts as a buffer when the nozzle 10 sucks the lens, thereby preventing the nozzle 10 from damaging the lens. Referring to Figures 3 and 4, a second embodiment of the present invention also provides a suction device 2A. The suction device 20 includes a hollow tubular body 21, and a suction nozzle 1 两端 and a suction source 22 which are respectively disposed at both ends of the hollow tubular body 21. The hollow tubular body 21 may have a cylindrical shape, and the inside thereof includes a flow passage 210' through which the airflow can pass, the flow passage 210 communicates with the adsorption hole 12 of the suction nozzle 10, and the hollow tubular body 21 is located at the adsorption hole. The opening diameter of 12 is one side of the smaller diameter. Of course, the shape of the hollow tubular body 21 is not limited to a cylindrical shape, and may be a prismatic shape or other irregular shape. The suction source 22 is in communication with the flow path 210, which may be a vacuum supply means such as a vacuum system. The suction source 22 can provide the hollow tube body 2 with a different degree of vacuum so that the lens can have different suction forces to facilitate holding or placing the lens. It should be noted that the lens 3 to be processed shown in FIG. 2 is a lenticular lens having an outer diameter of &, when at least a part of the lens 30 is received in the one-step hole 121 of the diameter t of the adsorption hole 12, the lens The convex surface of the 3 〇 will be accommodated in the second-order hole 122 of the diameter t of the adsorption hole 12 to avoid damage caused by direct contact with the body 11. Of course, the accommodating space of the second-order hole 122 should be at least large enough to accommodate the lens 3 The convex surface area of the crucible, that is, the depth of the second-order hole 122 is greater than or equal to the height of the convex surface of the lens 30. Therefore, for 9 200927627 - for the outer diameter of the lens 30, the suction hole 12 of the nozzle l should have at least one first-order hole 121 and one second-order hole 122. Considering that the nozzle 1 〇 is at least applied to the lenticular lens having the outer diameter as the center of the heart, the suction hole 12 of the nozzle 1 还 should also include at least one third-order hole 123 for accommodating the protrusion of the lens having the outer diameter d2. Therefore, the adsorption hole 12 is at least a third-order stepped hole, which may also be a fourth-order stepped hole, a fifth-order stepped hole, or the like, that is, the adsorption hole 12 may have three, five or even more different diameters. ❹ In addition, the diameter of each step hole of the adsorption hole 12 can be appropriately designed and adjusted according to the outer diameter of the lens to be processed to meet the needs of a plurality of lenses of different sizes, and the diameter relationship of each step of the adsorption hole 12 is not changed. It is limited to sequentially decrease in the direction from the first end face 110 to the second end face 112, and any diameter change relationship that can achieve the effects of the present invention can be achieved. The shape of the body 11 is not limited to a cylindrical shape, and may be a prism shape or the like. 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 is only the preferred implementation method of this issue, and it is not possible to limit the scope of patent application in this case. 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 cross-sectional view showing a nozzle provided in a first embodiment of the present invention. Fig. 2 is a schematic view showing a state in which a lens is taken by a nozzle shown in Fig. i. Fig. 3 is a schematic view showing the structure of a suction device provided in a second embodiment of the present invention. Figure 4 is a partial cross-sectional view of the suction device of Figure 3. 200927627 [Main component symbol description] Nozzle 10 Body 11 First end face 110 Second end face 112 Adsorber L 12 First-order hole 121 Second-order hole 122 Third-order hole 123 Fourth-order hole 124 Elastic material 13 Suction device 20 Lens 30 Hollow tube Body 21 suction source 22 flow channel 210 ❹ 11

Claims (1)

200927627 . · 十、申請專利範圍: ,^一種吸嘴’用於與外界吸力源相連通以吸附待加工鏡片, 該吸嘴包括一本體以及一設置於本體上之吸附孔,該本 體包括相對之第一端面及第二端面,該吸附孔貫穿該第 一端面及第二端面並於第二端面處與外界吸力源相連 通’其改進在於:該吸附孔為階梯孔,該階梯孔具有至 少三個直徑,該至少三個直徑沿從第一端面至第二端面 之方向依次變小。 2. 如申請專利範圍第1項所述之吸嘴,其中,該階梯孔包括 第一階孔及第二階孔,該第一階孔用於吸附被吸附面為 凸起面之待加工鏡片並卡持該待加工鏡片之外緣,該第 二階孔用於收容該凸起面,該第二階孔之深度大於或等 於該凸起面之高度。 3. 如申請專利範圍第1項所述之吸嘴,其中,該階梯孔之各 階孔為圓孔。 © 4·如申明專利範圍第1項所述之吸嘴,其中,該吸附孔之側 壁表面上設置有彈性材料層。 5 ·如申請專利範圍第4項所述之吸嘴,其中,該彈性材料為 橡膠。 6.種吸取裝置,用於吸附待加工鏡片,該吸取裝置包括吸 力源、與吸力源相連通之中空管體以及藉由中空管體與 該吸力源相連通之吸嘴,該吸嘴包括一本體以及一設置 於本體上之吸附孔,該本體包括相對之第一端面及第二 端面,該吸附孔貫穿該第一端面及第二端面並於第二端 12 200927627 面處與該中空管體相連通,其改進在於:該吸附孔為階 * 梯孔,該階梯孔具有至少三個直徑,該至少三個直徑沿 從第一端面至第二端面之方向依次變小。 7.如申請專利範圍第6項所述之吸取裝置,其中,該階梯孔 包括第-P皆孔及第二階孔,該第—階孔用於吸附被吸附 面為凸起面之待加工鏡片並卡持該待加工鏡片之外緣, 該第二階孔用於收容該凸起面’該第二階孔之深度大於 ❹或等於該凸起面之高度。 =申請專利範圍第6項所述之吸取裝置,其中,該階梯孔 之各階孔為圓孔。 9. 如申請專利範圍第6項所述之 ^ u日丨肚* 裒置’其中,該吸附孔 之侧壁表面上設置有彈性材料層。 10. 如申請專利範圍第9項所述之 _ 材料為_。 取裝置,其中,該彈性200927627 . · X. Patent application scope: ^ A nozzle is used to communicate with an external suction source to adsorb a lens to be processed. The nozzle includes a body and an adsorption hole disposed on the body, the body including the opposite The first end surface and the second end surface, the adsorption hole penetrates the first end surface and the second end surface and communicate with the external suction source at the second end surface. The improvement is that the adsorption hole is a stepped hole, and the stepped hole has at least three The diameters of the at least three diameters become smaller in the direction from the first end face to the second end face. 2. The nozzle according to claim 1, wherein the stepped hole comprises a first step hole and a second step hole, wherein the first step hole is used for adsorbing the lens to be processed with the convex surface being the convex surface And holding the outer edge of the lens to be processed, the second step hole is for receiving the convex surface, and the depth of the second step hole is greater than or equal to the height of the convex surface. 3. The nozzle of claim 1, wherein each stepped hole of the stepped hole is a circular hole. The nozzle according to claim 1, wherein the side wall of the adsorption hole is provided with a layer of an elastic material. 5. The nozzle of claim 4, wherein the elastic material is rubber. 6. A suction device for adsorbing a lens to be processed, the suction device comprising a suction source, a hollow tube body communicating with the suction source, and a nozzle connected to the suction source by the hollow tube body, the nozzle The body includes a body and an adsorption hole disposed on the body, the body includes an opposite first end surface and a second end surface, the adsorption hole extends through the first end surface and the second end surface and is at the second end 12 200927627 surface The empty tube body is connected to each other, and the improvement is that the adsorption hole is a stepped hole having at least three diameters, and the at least three diameters are sequentially smaller in a direction from the first end surface to the second end surface. 7. The suction device of claim 6, wherein the stepped hole comprises a first-P-hole and a second-order hole, wherein the first-order hole is used for adsorbing the adsorbed surface as a convex surface to be processed. The lens and the outer edge of the lens to be processed are used to receive the convex surface. The depth of the second step hole is greater than or equal to the height of the convex surface. The suction device of claim 6, wherein each stepped hole of the stepped hole is a circular hole. 9. The surface of the side wall of the adsorption hole is provided with a layer of elastic material as described in the sixth paragraph of the patent application. 10. As stated in item 9 of the patent application, the material is _. Taking the device, wherein the elasticity 1313
TW96151207A 2007-12-31 2007-12-31 Suction nozzle and suction device having the same TWI388484B (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102004293A (en) * 2009-09-02 2011-04-06 鸿富锦精密工业(深圳)有限公司 Optical element picking and placing device and method for picking and placing multiple optical elements

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102004293A (en) * 2009-09-02 2011-04-06 鸿富锦精密工业(深圳)有限公司 Optical element picking and placing device and method for picking and placing multiple optical elements
CN102004293B (en) * 2009-09-02 2014-04-23 鸿富锦精密工业(深圳)有限公司 Optical element picking and placing device and method for picking and placing multiple optical elements

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