1337594 九、發明說明: 【發明所屬之技術領域】 本發明涉及-種裝載透鏡用托盤,尤其係—種可用於透鏡剪斷、透鏡錢膜及 鏡頭組裝之多用途托盤。 【先前技術"】 近年來,隨著光學產品之發展’光學透鏡之應用範圍持續擴大。相應地,為 降低,本及提高解,進行批4生產减足對光學透鏡之需求。然,触各種方 法批里生產出之光學透鏡’需再經過後續處理錢翻於光學糾巾。例如利用 成型技術製造之透鏡需經過切削、拋光等機械方式加工切除廢邊或提高透麟細 度;再藉由物理或化學絲’於光學透鏡表面社輩—或多層雜,利用入射、 反射及透射級賊層介面產生之干涉作用實現聚焦、準直、遽光、反射及折射 等效果w考慮解透制;賴足實求,還可顺數舰進行域以實現不 同折射或衍射等效果,最終滿足產品之光學性能。 目前對大批量光學透鏡進行如透鏡剪斷、透鏡舰及鏡頭組裝等後序處理工 序時、.二书存在透鏡之搬運及保存不便荨問題,例如由於每段工序使用之托盤或 其他搬運工具不同而導致操作人員頻繁拆裝其工具,使得製程繁項甚至出猶 鏡受破損等現象。 有繁於此,提供-種可省略加過程巾之繁項製程,從而可節省加工時間並 可降低成本之可用於多段工序之多用途裝載透鏡用托盤實為必要。 【發明内容】 下面將以實施例說明-種裝載透鏡用托盤,其可用於透鏡剪斷、透鏡鍵膜及 鏡頭組裝等工序中。 種裝載透綱托盤,其&括-本體及―與該本齡目配合之蓋體。該本體及 蓋體分別具有相互對應之複數第一通孔及複數第二通孔;該每個第二通孔包括一 承載孔’械於本麟蓋體相配合之表自且向蓋體_彳延伸,該承飢之孔徑大 於與其相鄰孔之孔徑。 相較於先前技術,所述裝載透鏡用托盤可共用於透鏡剪斷、透鏡錢膜及透鏡 組裝等工序巾’降低生產嗔述每虹种_托盤之成本,並且找鏡頭量產 時使用統一托贿送,可簡化每段工序+之拆裝或更換托盤等繁猶程而節省鏡 5 1337594 頭加工時間。 【貫施方式】 下面結合附圖將對本發明實施例作進一步之詳細說明。 參見第一圖,本實施例提供之裝載透鏡用托盤1,大致呈方形,其包括—蓋 • 體1〇及一本體12,該蓋體ίο與該本體12相配合。該托盤1可藉由金屬材料或 塑膠材料製成。所述金屬材料可使用鋁;所述塑膠材料可使用如改性聚笨醚 (Modified Poyl phenylene Ether ;簡稱MPPE)等抗靜電材料,亦可使用如總質 量中含10〜30%玻纖(Glass Fiber)之聚碳酸脂與玻纖之混合物等不抗靜電材料。 凊一併參見第二圖、第三圖及第四圖,該蓋體1〇包括—頂表面(圖未標示) Φ 及一相對之底表面10〇、以及複數第一通孔101。其中,該底表面100係與本體 12相配合之表面;該複數第一通孔1〇1可按規則或不規則排列方式分佈於蓋體 10上,優選地,本實施例中係以矩陣式排列形成於蓋體1〇上。優選地,本實施 例中每個第一通孔101分別包括一第一錐孔1010及一第一圓柱孔1011 ^該第一 錐孔1010形成於頂表面上且向該蓋體10内側延伸,該第一圓柱孔1〇11形成於 底表面100上且向該蓋體丨〇内側延伸,該兩孔於蓋體内相連形成一通孔(如 第三圖所示)。該第一錐孔1010從連接該第一圓柱孔1011之一端至遠離該第一 圓柱孔1011之另一端其孔徑逐漸增大’即該第一錐孔1010之最小孔徑與該第一 圓柱孔1011之孔徑相同。 為方便定位及與本體12對準,該蓋體10還包括一第一定位元件及第三定位 元件》本實施例中,該一第—定位元件包括一第一圓孔102及一第一長方圓孔 103 ’該兩孔102與103分別形成於蓋體1〇之一對角線相應之兩對角處,且均為 通孔。其中第一長方圓孔1〇3之最小孔徑與第一圓孔丨〇2之子通相同。該第三定 位元件包括相同之兩第二圓孔1〇4及1〇5,該兩礼104及105分別形成於蓋體1〇 之另一對角線相應之兩對角處,並且均為通孔,其中第二圓孔1〇4及1〇5之孔徑 與第一圓孔102之孔徑大致相同。優選地,該蓋體1〇還可進一步包括四個凹槽 106 ’形成於蓋體1〇之側邊,以利於當蓋體10與本體12閉合時方便開啟該蓋體 10。為方便使用時對準蓋體1〇與本體丨2 ,該蓋體10還可進一步於蓋體1〇之一 邊角處設置一倒角107。 請一併參見第五圖、第六圖及第七圖,該本體12包括一頂表面12〇及以相 13375941337594 IX. Description of the Invention: [Technical Field] The present invention relates to a tray for loading lenses, and more particularly to a multipurpose tray which can be used for lens cutting, lens money film and lens assembly. [Prior Art "] In recent years, with the development of optical products, the application range of optical lenses has continued to expand. Accordingly, in order to reduce, this and improve the solution, batch 4 production is reduced to the demand for optical lenses. However, the optical lenses produced in various methods are subject to subsequent processing and turned over to optical wipes. For example, lenses made by molding technology need to be machined by cutting, polishing, etc. to cut off the waste edge or improve the fineness of the lining; and then use the physical or chemical filaments on the surface of the optical lens to achieve the social- or multi-layer impurity, using the incident, reflection and The interference effect generated by the transmissive layer thief layer interface achieves the effects of focusing, collimation, calendering, reflection and refraction. Considering the devitrification system; relying on the actual requirements, it is also possible to carry out the field to achieve different refraction or diffraction effects. Ultimately meet the optical properties of the product. At present, when processing large-volume optical lenses such as lens cutting, lens ship and lens assembly, etc., there are problems with the handling and storage of lenses in the second book, for example, because the trays or other handling tools used in each process are different. As a result, the operator frequently disassembles its tools, which causes the process to be complicated or even damaged. In this case, it is necessary to provide a multi-purpose loading lens tray which can be used for a multi-stage process, which can eliminate the complicated process of adding a process towel, thereby saving processing time and reducing cost. SUMMARY OF THE INVENTION A tray for loading lenses, which can be used in processes such as lens cutting, lens key film, and lens assembly, will be described below by way of examples. A loading tray, which includes a body and a cover that matches the age of the object. The main body and the cover body respectively have a plurality of first through holes and a plurality of second through holes corresponding to each other; each of the second through holes includes a bearing hole that is coupled to the cover body and the cover body _ The 彳 extends, the aperture of the hunger is larger than the aperture of the adjacent hole. Compared with the prior art, the loading lens tray can be used in common for lens cutting, lens money film and lens assembly, etc. 'Reducing the cost of producing each rainbow type tray, and using the unified tray for mass production Bribery can simplify the processing of each step + disassembly or replacement of the tray and save the mirror processing time of 1 1337594 head. [Comment] The embodiments of the present invention will be further described in detail below with reference to the accompanying drawings. Referring to the first embodiment, the loading lens tray 1 of the present embodiment is substantially square, and includes a cover body 1 and a body 12, and the cover body ίο cooperates with the body 12. The tray 1 can be made of a metal material or a plastic material. The metal material may use aluminum; the plastic material may use an antistatic material such as Modified Poyl phenylene Ether (MPPE), or may be used as a total mass of 10 to 30% glass fiber (Glass Fiber) is a non-antistatic material such as a mixture of polycarbonate and glass fiber. Referring to the second, third and fourth figures, the cover 1 includes a top surface (not shown) Φ and an opposite bottom surface 10A, and a plurality of first through holes 101. The bottom surface 100 is a surface that cooperates with the body 12; the plurality of first through holes 〇1 may be distributed on the cover 10 in a regular or irregular arrangement. Preferably, in this embodiment, the matrix is in a matrix. The array is formed on the lid body 1〇. Preferably, each of the first through holes 101 in the embodiment includes a first tapered hole 1010 and a first cylindrical hole 1011. The first tapered hole 1010 is formed on the top surface and extends toward the inner side of the cover 10. The first cylindrical hole 1〇11 is formed on the bottom surface 100 and extends to the inside of the cover body, and the two holes are connected in the cover body to form a through hole (as shown in the third figure). The first tapered hole 1010 has a relatively increasing aperture from the end of the first cylindrical hole 1011 to the other end of the first cylindrical hole 1011. That is, the minimum aperture of the first tapered hole 1010 and the first cylindrical hole 1011 The aperture is the same. In order to facilitate positioning and alignment with the body 12, the cover 10 further includes a first positioning component and a third positioning component. In this embodiment, the first positioning component includes a first circular hole 102 and a first length. The circular hole 103' is formed at two opposite corners of one of the diagonals of the cover 1 ,, and both are through holes. The minimum aperture of the first rectangular hole 1〇3 is the same as that of the first circular hole 丨〇2. The third positioning element includes two identical second circular holes 1〇4 and 1〇5, and the two gifts 104 and 105 are respectively formed at two opposite corners of the other diagonal line of the cover body 1,, and both The through hole, wherein the apertures of the second circular holes 1〇4 and 1〇5 are substantially the same as the apertures of the first circular hole 102. Preferably, the cover 1 〇 further includes four recesses 106 ′ formed on the side of the cover 1 , to facilitate opening the cover 10 when the cover 10 and the body 12 are closed. The lid body 10 may further be provided with a chamfer 107 at one of the corners of the cover body 1 for aligning the cover body 1 and the body 丨 2 for convenience. Please refer to FIG. 5, FIG. 6 and FIG. 7 together. The body 12 includes a top surface 12 and a phase 1337594.
第一通孔101分別對應排列,本實施例中, 4仕通本體12上。其中,該頂表 ;該複數第二通孔121與該複數The first through holes 101 are respectively arranged correspondingly. In this embodiment, the body is on the body 12. Wherein, the top table; the plurality of second through holes 121 and the plurality
S玄等第二通孔121呈相應之矩陣形式 二通孔121分別由一第二錐孔121 〇、 im之-端其孔徑骑增大。這種分佈可方便地將透鏡裝載於該承載^犯 中’並使得裝載於該承載孔體之透鏡不會從該第二圓柱孔ΐ2ΐι及第二錐孔 1210中漏出。 為方便定位及與蓋體10對準,該本體12還可進一步包括—第二定位元件及 第四定侃件。本實施例中,該第二定位树包括兩定位柱123及124,該兩定 錄123及124分別對應於蓋體10之第—定位元件之第一圓孔1〇2及第一長方 圓孔103 ’相應形成於本體12之兩對角處。可根據該兩定位柱123及124之直 徑決定第-圓孔102及第-長方圓孔⑽之孔徑。該第四定位元件,包括一第三 圓孔125及-第二長方圓孔126 ’該兩孔分別形成於與蓋體1〇之第三定位元件 之第二圓孔104及105相對應之本體12之另兩對角處。該第二長方圓孔126之 最小孔徑與第三圓孔125之孔徑相同、且分別與第二圓孔1〇4及1〇5之孔徑配合。 該本體12還可包括-倒角122 ’形成於本體12上且與蓋體1〇之倒角1〇7 相對應之一邊角處,用於確認配合方向,即蓋體與本體12閉合時可先確認形 成有倒角107及122之邊角,再使其兩邊角對準並重眷配合。 該盍體10與本體12中’承載孔1212之孔徑大於相鄰之第一圓杈孔ίο。及第二 圓柱孔1211之孔徑,該盍體10與本體12相配合時,蓋體1〇之底表面1〇〇與本體a 之頂表面120相配合。如此可使得透鏡裝載於該承載孔12丨2内時,可由蓋體1〇底 表面抵靠或局限於承載孔1212内部,不會從蓋體1〇或本體12漏出。 參見第八圊’係δ玄蓋體10與本體12 S己合後剖開其中一組通孔配合之放大 圖,即可使用狀態示意圖。其中,該第一通孔101之錐孔丨〇10及第二通孔121 之錐孔1210,以利於對裝載於該托盤1内之透鏡2進行鍵膜,即可使錄膜材料 順利附著於透鏡上。 1337594 > 該蓋體10與本體12配合時’該第一定位元件之第一圓孔1〇2及第 孔103與該第三定位元件之二定位柱123及124相配合,可用於定位該托盤夏; 該第三定位元件之第二圓孔1〇4及ι〇5與該第四定位元件之第王圓孔既及第二 長方圓孔126相配合,可用於將該托盤丨定位於所使用之機台上。 — 使用時’可先將該把盤1 4體12置於透鏡射出自動剪斷機出料處 自動手臂將透鏡排滿各承載孔1212,再將蓋體1〇之倒角1〇7與本體 對準後將該蓋體10蓋上’並藉由所述第一定位元件之第一圓孔脱與第二定位 兀件之定位柱⑵,及第-定餘件之第—長相孔⑽與第二定侃件之定位 柱124之相配合將托盤1定位並固定。另外,還可再將裝有等處理炫鏡之托盤The second through holes 121 of the S-shaped and the like are in the form of corresponding matrices. The two through holes 121 are respectively increased by the aperture of a second tapered hole 121 〇, im end. This distribution facilitates the loading of the lens into the carrier and causes the lens loaded on the carrier aperture to not escape from the second cylindrical aperture ΐ2ΐ and the second tapered aperture 1210. To facilitate positioning and alignment with the cover 10, the body 12 can further include a second positioning member and a fourth positioning member. In this embodiment, the second positioning tree includes two positioning posts 123 and 124 respectively corresponding to the first circular hole 1〇2 of the first positioning component of the cover body 10 and the first rectangular hole. 103 'is correspondingly formed at two opposite corners of the body 12. The apertures of the first circular hole 102 and the first rectangular hole (10) can be determined according to the diameters of the two positioning posts 123 and 124. The fourth positioning component includes a third circular hole 125 and a second rectangular hole 126 ′ which are respectively formed on the body corresponding to the second circular holes 104 and 105 of the third positioning component of the cover 1〇 The other two corners of 12 are. The smallest aperture of the second rectangular hole 126 is the same as the aperture of the third circular hole 125, and is matched with the apertures of the second circular holes 1〇4 and 1〇5, respectively. The body 12 may further include a chamfer 122' formed on the body 12 at a corner corresponding to the chamfer 1〇7 of the cover 1 , for confirming the mating direction, that is, when the cover and the body 12 are closed It is first confirmed that the corners of the chamfers 107 and 122 are formed, and then the two corners are aligned and overlapped. The aperture of the body 10 and the carrying hole 1212 in the body 12 is larger than the adjacent first circular hole ίο. And the aperture of the second cylindrical hole 1211. When the body 10 is engaged with the body 12, the bottom surface 1 of the cover 1 is matched with the top surface 120 of the body a. Thus, when the lens is loaded in the bearing hole 12丨2, the bottom surface of the cover body 1 can be abutted or limited to the inside of the bearing hole 1212 without leaking from the cover body 1 or the body 12. Referring to the enlarged view of the eighth 圊's δ 玄 盖 10 and the body 12 S, the set of through holes is cut, and the state diagram can be used. The tapered hole 10 of the first through hole 101 and the tapered hole 1210 of the second through hole 121 are used to facilitate the bonding of the lens 2 loaded in the tray 1 to ensure smooth adhesion of the recording film material. On the lens. 1337594 > When the cover 10 is engaged with the body 12, the first circular hole 1〇2 and the first hole 103 of the first positioning component cooperate with the two positioning posts 123 and 124 of the third positioning component, and can be used for positioning a tray in the summer; the second circular holes 1〇4 and ι5 of the third positioning element cooperate with the second circular hole of the fourth positioning element and the second rectangular hole 126, and can be used for positioning the tray 于On the machine used. - When used, the disk 14 body 12 can be placed in the lens to be automatically cut off at the discharge point of the automatic cutting machine. The lens is filled with the bearing holes 1212, and the cover 1 is chamfered 1〇7 and the body. After the alignment, the cover 10 is covered with 'and the positioning hole (2) of the second positioning member is separated by the first circular hole of the first positioning member, and the first-phase hole (10) of the first-defining member is The mating of the positioning posts 124 of the second stator causes the tray 1 to be positioned and fixed. In addition, you can also use the tray with the same processing mirror
1送進鍍膜機進行舰。該舰工序結束後還可再送進自動組裝機之機台上,利 用治具並藉由蓋體1 〇側邊之凹槽i 06將該蓋體i 〇開啟,^ ^ ^ ^ 手臂職裝做親_ 12 。 第广疋位7G件之第二圓孔104與第四定位元件之第三圓孔125,及第三定位元件 孔!05,四定位元件之第二長方圓孔126,與所述剪斷機、纖機及 .且裝機上之;t位Itg-同將該托盤丨錄於所述機台上,使自動手臂能算準各向 軸之座標。該托盤i亦可單細於裝載透鏡,以便完好保存透鏡。上述各工序中, 透鏡裝載於雜to,其他械玉具贿需鶴魏,即可實魏續作 業,從而簡化工序,還可避免傳統作業方式對透鏡產生之損壞。 、 可以理T,明實施例中本體之承載孔之孔徑及深度可根據所需裝載之透 v而確疋蓋肢之第通孔及本體之第二通孔之似至亦可根據透鏡需鑛膜部 2尺相確;t H通狀^通研喊置為觸,亦可嫌實際需要設 置為不同之組合。 人yx轉’本侧#_巾蓋體及讀上之舰柯_其鱗鄉式或细 σ構,其孔徑亦可根據量產之透鏡而選定。 槿,:Γ里解’本發明實施例中蓋體及本體之各定位元件之形狀亦可_其他每 ’二设置位置及數4射娜實雜要確定,只要可實蚊位絲即可。 斤述本發明確已付合發明專利要件,爰依法提出專利申請。惟,以上 僅為本判讀佳實_,舉凡齡本紐藝之人士,於触本案發明賴 子厅作之等效修飾^_變化,皆應包含於以下之申請專利範圍内。 8 1337594 【圖式簡單說明】 第一圖係本發明實施例之托盤之立體示意圖。 第二圖係本發明實施例之托盤之蓋體之俯視圖。 第三圖係沿第一圖之m-m線剖開後之放大圖。 第四圖係本發明實施例之托盤之本體之仰視圖。 第五圖係本發明實施例之托盤之本體之俯視圖。 第六圖係沿第五圖之VI-VI線剖開後之放大圖。 第七圖係本發明實施例之托盤之蓋體之仰視圖。 第八圖係本發明實施例之托盤使用狀態之部分剖面放大圖。 【主要元件符號說明】 托盤 1 蓋體 10 底表面 100 第一通孔 101 第一錐孔 1010 第一圓柱孔 1011 第一圓孔 102 第一長方圓孔 103 第二圓孔 104'105 凹槽 106 倒角 107 、 122 本體 12 頂表面 120 第二通孔 121 第二錐孔 1210 第二圓柱孔 1211 承載孔 1212 定位柱 123 、 124 第三圓孔 125 第二長方圓孔 126 91 sent to the coating machine for the ship. After the ship is finished, it can be sent to the machine of the automatic assembly machine. The cover is opened by the recess i 06 on the side of the cover 1 by using the fixture. ^ ^ ^ ^ Arm position Pro _ 12 . The second circular hole 104 of the 7G piece and the third circular hole 125 of the fourth positioning element, and the third positioning element hole! 05, the second rectangular hole 126 of the four positioning elements, and the cutting machine, the fiber machine and the installed machine; the t-bit Itg- is recorded on the machine table, so that the automatic arm can Calculate the coordinates of the axes. The tray i can also be thinner than the loading lens in order to preserve the lens intact. In each of the above processes, the lens is loaded on the misto, and other mechanical jade pieces are required to be bribed, and the work can be continued, thereby simplifying the process and avoiding damage to the lens caused by the conventional operation mode. It can be understood that the aperture and depth of the bearing hole of the body in the embodiment can be determined according to the required through hole v and the second through hole of the body and the second through hole of the body. The membrane section is 2 feet in phase; t H-passing is known to be touched, and it may be necessary to set it to a different combination. People yx turn 'this side #_ towel cover and read the ship _ its scale township or fine σ structure, its aperture can also be selected according to the lens of mass production.槿 Γ Γ ’ ’ ’ ’ ’ ’ 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本Jin said that the invention has indeed fulfilled the requirements of the invention patent, and filed a patent application according to law. However, the above is only for the purpose of reading this _, the person who is the person of the age of this New Art, in the case of the invention of the invention, the equivalent modification ^_ change, should be included in the scope of the following patent application. 8 1337594 BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a perspective view of a tray of an embodiment of the present invention. The second drawing is a plan view of the lid of the tray of the embodiment of the present invention. The third figure is an enlarged view taken along the line m-m of the first figure. The fourth figure is a bottom view of the body of the tray of the embodiment of the present invention. The fifth drawing is a plan view of the body of the tray of the embodiment of the present invention. The sixth drawing is an enlarged view taken along line VI-VI of the fifth drawing. The seventh drawing is a bottom view of the lid of the tray of the embodiment of the present invention. Figure 8 is a partially enlarged cross-sectional view showing the state in which the tray is used in the embodiment of the present invention. [Main component symbol description] Tray 1 cover 10 bottom surface 100 first through hole 101 first tapered hole 1010 first cylindrical hole 1011 first circular hole 102 first rectangular hole 103 second circular hole 104'105 groove 106 Chamfer 107, 122 body 12 top surface 120 second through hole 121 second tapered hole 1210 second cylindrical hole 1211 bearing hole 1212 positioning post 123, 124 third circular hole 125 second rectangular hole 126 9