201041784 六、發明說明: . 【發明所屬之技術領域】 • 本發明涉及一種托盤,尤其係一種可用於透鏡剪切、透鐘穿 膜及鏡頭組裝的多用途托盤。 又 【先前技術】 ο 近年來’隨著光學產品的發展’光學透鏡的應用範圍持續擴 大。相應地’為降低成本及提高效率,進行批量生產以滿足對^ 學透鏡的需求成為趨勢。然而,通過各種方法批量生產出的 透鏡’需再、經過後續處理方能應用於光學器材中。例 : 技術製造的透鏡需經過剪切、拋光等機械加工切除廢邊 鏡精,度;再通過_或化學方法,在絲透絲面鍍上二 多層薄膜,糊入射、反射及透射光在薄膜層介面產 q現聚焦、準直1光、反射及折射等效果;而考慮 不此滿足實際要求,還可對複數透鏡進行組裝以實現不 衍射等效果,最終滿足產品的光學性能。 外射或 目前對大歸絲透舰行如魏胸、透 裝等後序處理4時,通常使祕㈣縣透舰機組 〇 存。但是*目前使用的托盤60 (請參關υ大多使用螺絲沾來 托盤的上蓋體01及下蓋體62進行鎖合固定,在拆抑或者組合’ 費時費力财方便’而且在拆卸過程中絲易出現污染 ^ 位,產生偏移的情況,甚至還會對後續的光學鍍膜等製造過程^ 生影響。 【發明内容】 有鑒於此,提供-種可以使光學透鏡在盡量避免 染的同時還可以密閉保存固定,並且不會有因為產σ 而對光學鏡頭的後續雜產生影響的承載透鏡用的移 要0 4 201041784 —種托盤,用於承載鏡片,該托盤包括:一上蓋體及一與該 上$體相配合的下蓋體,該上蓋體及該下蓋齡別具有相互對應 的^數承載孔’其中:該托盤進一步包括一形成於該上蓋體表面 •的溝,及-設置於該下蓋體表面且與該溝槽結構相對應的凸棱。 該上蓋體與下蓋體配合後在該溝槽與該凸棱之間形成一密閉空 間’對該密閉空間抽真空使該上蓋體與該下蓋體緊密貼合 密閉空間破真空使該上蓋體與該下蓋體分離。 與先前技術相比,該托盤通過抽真空這種方式,可以使光學 透鏡在盡量避免受到外界污染的同時還可以密閉保存固定,並且 不會有產品歪斜或位移的情況產生而造成後續被鑛上的光學薄膜 ^ 產生偏移。 ' 【實施方式】 下面結合附圖將對本發明實施例作進一步的詳細說明。 請一併參見圖2、圖3及圖4,本實施例提供的托盤i,大致 呈方开> ’其包括一上蓋體10及一與該上蓋體相配合的下蓋體。 該上蓋體10及下蓋體30分別具有相互對應的複數承載孔_。 該上蓋體10上與下蓋體30相配合的表面為第一表面15,該 第一表面15分為承載區152及圍繞該承載區152的週邊區151 了 該複數承載孔100位於該承載區152内,在本實施例中,該複數 承載孔100均勻分佈於該承載區152内。 Μ 在該第一表面15内進一步限定一溝槽20,該溝槽2〇可分佈 於該週邊區151或該承載區152内,或同時分佈於週邊區151及 該承載區152内。在本實施例中,該溝槽20的橫截面為長方形, 其高度小於該上蓋體10的厚度,且分佈於週邊區151及該承‘區 152内’並將該承載區152分割為田字形態。可以理解,本發明^ 施例中溝槽與凸棱的設計與佈局可以根據不同的需要來進行Χ變化' 組合,只要使得在相互配合後凸棱與溝槽之間能夠形成密閉空間 即可。例如可以將溝槽橫截面設計成階梯狀,而與該溝槽相配合 5 201041784 的凸棱橫截面設計為矩形等形狀來相互配合,如圖6所示,橫截 面為階梯狀的溝槽20A與橫截面為矩形的凸棱3〇〇A相配合後形 成-密閉空間40A。當然’該溝槽的橫截面可以選自三角形、四 . 邊形、半圓形及階梯形中的一種幾何形狀。 在該上蓋體10上,與該第一表面15相背的第三表面13内包括 一承載區131及一週邊區132’該承載區ι31及該週邊區132分別 與該第一表面15内的該承載區152及該週邊區151相對應。在該 週邊區132内設置一抽真空孔12及一破真空孔u,該抽真空孔 ^2包括一第一通孔122及一單向氣閥121,該破真空孔11包括一 ❹第二通孔112及一密封塞111,該抽真空孔12與該破真空孔11分 別與該溝槽20相貫通。在本實施例中,該抽真空孔12及該破真 空孔11分別位於該上蓋體1〇對角線的兩端,可以理解地,該真 空孔12及該破真空孔u可以根據不同的設計需要而位元於托盤1 上能夠與該溝槽20相連通的任何區域。 ★請參閱圖2及圖5所示,該下蓋體30具有一第二表面32,該 第二表面32與該上蓋體1〇上的第一表面15相對配合。在該第二 表面32内分佈有多條凸棱300,該凸棱300與該上蓋體10第一表 面15内的溝槽20相互對應,且該凸棱300的棱高小於該溝槽20 的槽深。201041784 VI. Description of the Invention: 1. Field of the Invention The present invention relates to a tray, and more particularly to a multi-purpose tray that can be used for lens cutting, penetrating through the film, and lens assembly. Further [Prior Art] ο In recent years, with the development of optical products, the application range of optical lenses has continued to expand. Accordingly, in order to reduce costs and increase efficiency, mass production to meet the demand for a lens has become a trend. However, the lenses produced in batches by various methods need to be processed after further processing in optical equipment. Example: The lens manufactured by technology needs to be cut and polished to remove the fineness of the waste mirror. Then, by using _ or chemical method, two layers of film are plated on the silk surface, and the paste is incident, reflected and transmitted. The film layer interface produces effects such as focusing, collimating 1 light, reflection and refraction; and considering not meeting the actual requirements, the complex lens can be assembled to achieve non-diffraction effects and finally satisfy the optical performance of the product. External shooting or at present, when the large-scale silkworm ship, such as the chest, the translucent, etc., is processed 4 times, the secret (4) county ship-to-ship units are usually saved. However, *the tray 60 currently used (please refer to the upper cover body 01 and the lower cover body 62 of the tray which are mostly screwed to the lock, and it is convenient to disassemble or combine the 'time-consuming and labor-saving' and it is easy to remove during the disassembly process. The occurrence of contamination, offset, and even the subsequent manufacturing process of optical coatings, etc. [Invention] In view of this, it is possible to provide an optical lens that can be sealed while avoiding dyeing as much as possible. The storage is fixed, and there is no shifting of the carrying lens that affects the subsequent miscellaneous of the optical lens due to the production of σ. 0 4 201041784 A tray for carrying a lens, the tray comprising: an upper cover body and a top plate a body-fitted lower cover body, the upper cover body and the lower cover cover have mutually corresponding load-bearing holes 'where: the tray further includes a groove formed on the surface of the upper cover body, and - disposed under the a rib corresponding to the surface of the cover and corresponding to the groove structure. The upper cover body and the lower cover body form a closed space between the groove and the rib, and the vacuum is vacuumed on the sealed space. The body and the lower cover body are closely adhered to the closed space to break the vacuum to separate the upper cover body from the lower cover body. Compared with the prior art, the tray can be vacuumed in such a manner that the optical lens can be protected from external pollution as much as possible. At the same time, it can be sealed and fixed, and there is no product skew or displacement, which causes the subsequent optical film on the ore to be offset. 'Embodiment】 The embodiment of the present invention will be further described below with reference to the accompanying drawings. Referring to FIG. 2, FIG. 3 and FIG. 4 together, the tray i provided in this embodiment is substantially square-opening'. The utility model comprises an upper cover body 10 and a lower cover body matched with the upper cover body. The upper cover 10 and the lower cover 30 respectively have a plurality of bearing holes _ corresponding to each other. The surface of the upper cover 10 that cooperates with the lower cover 30 is a first surface 15, and the first surface 15 is divided into a bearing area 152 and surrounding In the peripheral area 151 of the carrying area 152, the plurality of carrying holes 100 are located in the carrying area 152. In the embodiment, the plurality of carrying holes 100 are evenly distributed in the carrying area 152. 进A trench 20 is defined, which may be distributed in the peripheral region 151 or the carrying region 152, or simultaneously distributed in the peripheral region 151 and the carrying region 152. In this embodiment, the trench 20 The cross section is a rectangle having a height smaller than the thickness of the upper cover 10 and distributed in the peripheral region 151 and the bearing region 152 and dividing the bearing region 152 into a field shape. It can be understood that the present invention has a groove. The design and layout of the grooves and ribs can be combined according to different needs, as long as the sealing space can be formed between the ribs and the grooves after the mutual fitting. For example, the groove cross section can be designed as a step. Shape, and cooperate with the groove 5 The cross-section of the rib of 201041784 is designed to be rectangular or the like to cooperate with each other. As shown in Fig. 6, the groove 20A having a stepped shape and the rib 3 having a rectangular cross section are shown. When 〇A is combined, a closed space 40A is formed. Of course, the cross section of the groove may be selected from one of a triangular shape, a quadrangular shape, a semicircular shape, and a stepped shape. On the upper cover 10, the third surface 13 opposite to the first surface 15 includes a bearing area 131 and a peripheral area 132'. The carrying area ι 31 and the peripheral area 132 are respectively associated with the first surface 15 The carrying area 152 corresponds to the peripheral area 151. A vacuuming hole 12 and a vacuuming hole u are disposed in the peripheral area 132. The vacuuming hole 22 includes a first through hole 122 and a one-way air valve 121. The vacuuming hole 11 includes a second The through hole 112 and a sealing plug 111, the vacuuming hole 12 and the vacuuming hole 11 respectively penetrate the groove 20. In this embodiment, the vacuuming hole 12 and the vacuuming hole 11 are respectively located at opposite ends of the upper cover 1 , diagonal line. It can be understood that the vacuum hole 12 and the vacuum breaking hole u can be designed according to different designs. It is desirable to have any area on the tray 1 that can communicate with the trench 20. Referring to Figures 2 and 5, the lower cover 30 has a second surface 32 that mates with the first surface 15 of the upper cover 1 . A plurality of ribs 300 are disposed in the second surface 32, and the ribs 300 correspond to the grooves 20 in the first surface 15 of the upper cover 10, and the ridges 300 have a lower rib height than the grooves 20 Groove depth.
G 该上蓋體10與該下蓋體30通過該溝槽20及該凸棱300相互 配合後’在該溝槽20與該凸棱300之間形成一密閉氣道40。使用 時利用抽真空設備(圖未標示)通過該單向氣閥121對該密閉氣 道40進行抽真空來使該托盤1的上蓋體1〇與下蓋體3〇相互緊密 ,定。當拆卸時’通過拔取該密封塞111對形成真空狀態的密閉 氣道40進行破真空。 可以理解’本發明實施例中的名詞上蓋體及下蓋體僅僅具有 空間上的上下意義,換言之,在一定情況下本實施例中的上蓋體 也可以定義為下蓋體,而下蓋體也可以定義為上蓋體。 6 201041784 综上所述,本發明確已符合發明專利之要 利申請。惟’以上所述者僅為本發 】專 此限制本案之申請專利範圍。舉方式自不忐以 明之精神所作之等效修飾或變二心本案技之人士援依本發 内。 7次變化,白應涵蓋於以下申請專利範圍 【主要元件符鱿說明】 托盤 1 上蓋體 10 下蓋體 30 承載孔 100 第一表面 15 承載區 152、131 週邊區 151、 132 溝槽 20、20A 凸棱 300A、300 密閉空間 40A 第三表面 13 真空孔 12 破真空孔 11 第一通孔 122 單向氣閥 121 第二通孔 112 密封塞 Ο 〇 111 7 •201041784 第一表面 % • 密閉氣道 4〇 , 【圖式簡單說明】 圖1係先前技射所使用的托盤的分解示意圖。 圖2係本發明實施例提供的托盤的分解示意圖。 圖3係圖2所示的托盤上蓋體的另一表面的示意圖。 圖4係本發明實施例提供的托盤組裝後的立體示意圖。 〇 圖5係圖4所示的托盤沿V-V線切割後的剖視圖。 ,6係本發明提供的托盤上蓋體溝槽的橫截面為階梯 與下蓋體相配合後,沿圖4所示的v_v線切割後的剖視圖。 〇 8G. The upper cover 10 and the lower cover 30 are engaged with each other through the groove 20 and the rib 300. A closed air passage 40 is formed between the groove 20 and the rib 300. At the time of use, the sealed air passage 40 is evacuated by the one-way air valve 121 by means of a vacuuming device (not shown) to make the upper cover 1 and the lower cover 3 of the tray 1 close to each other. When the disassembly is performed, the closed air passage 40 which is in a vacuum state is evacuated by pulling out the sealing plug 111. It can be understood that the noun upper cover body and the lower cover body in the embodiment of the present invention only have spatial upper and lower meanings. In other words, the upper cover body in this embodiment may also be defined as a lower cover body, and the lower cover body may also be defined under certain circumstances. Can be defined as the upper cover. 6 201041784 In summary, the present invention has indeed met the application for an invention patent. However, the above is only for this issue. This specifically limits the scope of patent application in this case. The method of self-improvement of the equivalent modification of the spirit of the Ming Dynasty or the change of the mind of the case is supported by this issue. 7 times change, white should be covered in the following patent application scope [main component description] tray 1 upper cover 10 lower cover 30 bearing hole 100 first surface 15 bearing area 152, 131 peripheral area 151, 132 groove 20, 20A Rib 300A, 300 Confined space 40A Third surface 13 Vacuum hole 12 Broken vacuum hole 11 First through hole 122 One-way air valve 121 Second through hole 112 Sealing plug 〇111 7 •201041784 First surface % • Closed air passage 4 〇, [Simple description of the drawing] Fig. 1 is an exploded view of the tray used in the prior art. 2 is an exploded perspective view of a tray provided by an embodiment of the present invention. Figure 3 is a schematic view of the other surface of the upper cover of the tray shown in Figure 2. 4 is a perspective view of the tray after assembly according to an embodiment of the present invention. Figure 5 is a cross-sectional view of the tray shown in Figure 4 taken along line V-V. 6 is a cross-sectional view of the groove of the upper cover of the tray provided by the present invention after the step is matched with the lower cover body, and is cut along the v_v line shown in FIG. 〇 8