201028262 六、發明說明: 【發明所屬之技術領域】 本發明涉及鏡片製造技術’尤其涉及一種用於承載鏡片之托 盤0 【先前技術】 隨著光學產品之發展,鏡片之應用範圍越來越廣,業界採用 各種方法來製造鏡片以滿足市場對不同規格鏡片之需求(請參見 "Fabrication of Diffractive Optical Lens for Beam splitting Using LIGA Process55, Mechatronics and Automation, Proceedings of the 2006 IEEE International Conference on,pp. 1242-1247, 2006 06)。 然而,藉由各種方法批量生產出之鏡片,需再經過後續處理方能 應用於光學器材中。例如,利用射出成型技術製造之鏡片需要先 經過剪切工序以去除料頭,再需要進行鍍膜工序,即藉由物理或 化學方法,在鏡片表面鍍上一層或多層薄膜,以使得入射、反射 及透射光在薄膜層介面產生干涉作用從而實現聚焦、準直、濾光、 反射及折射等效果,從而使得鏡片產品滿足預定光學性能。 —先前技術中,鍍膜工序一般都為批量處理工序。通常採用具 有複數收容槽之滅來承倾數剪切狀制’絲再將承載 複數鏡片之托盤放入鍍膜設備中進行旋轉鍍膜,以完成該 片之鍍膜序。為便於將複數制放人托盤讀触容槽,收容 槽之尺寸-般大於鏡片之尺寸,從而於後續之鍍膜工序中可 成鏡片在收容槽巾相對於托盤產生—定位移,從而可能影 =鍍膜效果’例如使得鏡片各個部分賴厚度不均,甚至备食 得局部沒紐上賴,如此脑衫彡響制光雜能 ^ 鏡片產品之報廢。 1主1^_成 有鑑於此’提供-種可便於放置鏡片又可穩 鍍膜之托盤實屬必要。 口付纜片進仃 201028262 【發明内容】 以下將以實施例說明一種托盤。 一種托盤,包括一盤體、至少一固定桿及至少一第一彈性元 件’所述盤體具有複數鏡片收容槽及至少一第一收容槽。所述複 數鏡片收容槽用於收谷複數鏡片。每個第一收容槽均與複數鏡片 收容槽連通。所述至少一固定桿收容於所述至少一第一收容槽。 所述至少一第一彈性元件抵靠固定桿從而使得固定桿抵 數收容於制收容槽之。 ^ 本技術方案之托盤具有如下優點:首先,藉由第一彈性元件 • 與固定桿可抵壓固定複數收容於鏡片收容槽之鏡片,從而可避免 複數鏡片之移動,可使得複數鏡片於鑛膜工藝中形成均勻、平整 之膜層;其次’所述第-彈性元件可方便地固定或鬆開複數鏡片二 從而可方便地將複數鏡片放入托盤或從托盤取出。 【實施方式】 下面將結合附圖及複數實施例,對本技術方案提供之把 進一步之詳細說明。 "月併參閱圖1至圖3’本技術方案實施例提供之托盤1包括 φ -盤體12、一固定桿14、兩個第一彈性元件16及五個第二彈性 元件18。 所述盤體12為長方體形,具有上表面12(Π、下表面12〇2、 第一側面1203、第二側面1204、第三側面1205及第四側面12%。 ^述上表面1201與下表面1202平行相對。所述第一侧面12〇3與 第二侧面1204平行相對,且均連接於所述上表面12〇1盥下表^ ^02之間。所述第三側面1205與第四側面12〇6平行相^,且均 連接於第一側面1203與第二側面1204之間。所述盤體12自上表 =1201向盤體12内開設有二十五個鏡片收容槽122、一個第一收 各槽124、兩個第二收容槽126及五個第三收容槽128。 201028262 鏡片收容槽122用於收容鏡片。所述二十五個鏡片收容槽122 成陣列開設於所述盤體12,即,二十五個鏡片收容槽122構成五 列’每列均包括五個自第一側面1203向第二側面1204方向等間 距分佈之鏡片收容槽122。本實施例中,每個鏡片收容槽122之橫 戴面均大致為圓形,用於收容圓形鏡片。 所述第一收容槽124用於收容固定桿14。第一收容槽124包 括五個豎向排列之收容凹槽1241、一個橫向之連接凹槽1242、二 十五個連通凹槽1243、一個通槽1244以及一個卡榫槽1245。所 述五個收容凹槽1241均為橫截面為長方形之長條形凹槽,其長度 方向均垂直於第一側面1203與第二側面1204,且均不貫穿第一側 面1203與第二侧面12〇4。五個收容凹槽1241相互平行地從第三 側面1205向第四侧面1206方向等間距分佈,其中,一個收容凹 槽1241靠近第三側面丨2〇5,位於第三側面12〇5與靠近第三側面 之一列鏡片收容槽122之間,另外四個收容凹槽124i中每個均位 於相4之兩列鏡片收容槽122之間。所述連接凹槽以2亦為橫截 面為長方形之長條形凹槽,其長度方向垂直於第三側面12〇5與第 =面1206 ’且亦不貫穿第三侧面12〇5與第四側自12〇6。所述 样^槽责1^ #近第二側® 1204設置,連通於所述五個收容凹 :^赫第一面題之一端。所述二十五個連通凹槽1243 ==1^通=十五個制收錯122與五條容凹槽 相丨的ί1/,、體地,母個收容凹槽1241遠離第三側面1205之一 個連通凹槽連通,每個連通 m連通。所述通槽1244與 ’2、3 個收谷凹槽1241遠離第一側面咖之 與收容凹槽1241之長度方向一致,且p 長度方向 卡榫槽1245連通於連接凹槽12^ ;、貝一牙1202。所述 包括較靠近第三侧面1205之第42^^=之一側,其 1205之第二伸1247。卡槽6與較遠離第三側面 由-個凸塊間隔日。 槽1246與第二卡槽1247之間 5 201028262 所述第二收容槽126用於收容第—骝叫_仙 容槽126均為橫截面域方形之凹L 16。兩個第二收 之-個收容凹槽1241靠近第三側面日12(^二;、通槽144相連通 C3# 1241is't'a 面1205之—側,且均與該收容 〇又其中個罪近第一侧面1203,另—個則靠近第二側面12〇4。 所述第二收容槽128用於收容第二彈性元 容槽128均為橫截面為長方形之凹_ 一 靠近第-—二Λ槽分別與五個收容凹槽1241 罪近第側面腕之-端相連通,且亦均不貫穿第一侧面12〇3。 所述固定桿14包括五個抵靠捍體⑷、 ❿ 參 二十五個抵靠塊143、-個推桿體〗44 β w上f運接杯體142 = =圓形之長條形桿,其長度方向均垂直 ϊ ί = 凹槽1241之長度相當,其直徑則小於收 從而’每個抵靠桿體141均可完全收容於一 =收合凹槽削内,且可在收容凹槽削内移動。所述連 體142祕面^^形之長條轉體, : 。^接桿體142可收容於連接凹槽1242。所^十= 她靠㈣142。具舰,每健靠桿體 魅it it丄 侧均與五個抵靠塊143相連接。並且, =塊143之長度大於連通凹槽1243之長度 桿體,之五個抵靠塊143 t,相鄰兩個抵靠塊143之間距= -列中相鄰兩個鏡片收容槽122之間距相同。所述推桿體144亦 為圓柱形桿’連接於最罪近第三側面⑽5之抵靠 4 二侧面讓之-端。推桿體144之長度大於通槽1244之^第 因此其部分收容於補1244,部分從賴1244巾突出於盤體12 Ϊ、,=便於對固定桿14進行操作。卡榫145連接於連接桿體142 靠近第二側面1204之-側,其可收容於第一卡24 槽1247,以使固定桿14卡固於盤體12之不同位置。弟一卡 所述兩個第-彈性元件16分別收容於兩個第二收容槽126。 201028262 ',個第-彈性元件16均可以為彈簧、彈片、彈性塊體等且有彈性 ,形及回復能力之元件。本實施财,第元件為 •其W生變形方向垂直於第三側面1205,且其處 ^ 〇 ^ 16«;ί 置= 第二收容槽126後’可由於彈性變形回復力而推動 口疋杯14彺第四側面126方向移動,從而使得固 定收容於鏡㈣緖122内之制。 扣橋Μ抵罪固 =述五個第二彈性元件18分別收容於五個第三收容槽128。 母個弟二彈性元件18均可以為彈簧、彈片、彈性 之彈性”旨塊,其彈性變形方向垂直於第一侧面_,且其 自然狀態下之長度大於第三收容槽128之深度。從而,第性 二件18在壓縮狀態下被放置於第三收容槽128後可以由於彈性 =回復力而推動固定桿14往第二侧面聰方向移動從 付卡榫145抵靠於第一·Nt 1246或第二卡槽1247。 ❹ 明一併參閱圖1至圖4’本實施例中之托盤丨可以穩定固定二 十五侧形鏡片1〇。具體地,可首先將固定桿14放置 槽124 ’使得卡榫145 >(立於第—_NI 1246,並將兩個第一彈性元 件16在壓縮狀態下分別放置於兩個第二收容槽126,五個 性兀,18在壓縮狀態下分別放置於五個第三收容槽128。其次, 3將二十五個剪切後之圓形之鏡片1〇分別放置於二十五個鏡片收 谷槽122中。每個鏡片1〇之直徑均小於鏡片收容槽122之直秤, 從而鏡片ίο放置於鏡片收容槽122後還可能會相對於盤體12" 動。再次,工作人員可藉由操作推桿體144將固定桿14往第一側 面1203方向推壓,從而使得第二彈性元件18被再次壓縮此時 j於^一彈性元件16之彈性回復力之作用,將使得固定桿14往 罪近第四側面1206之方向移動,從而使得抵靠塊143自連通凹栌 =43伸出而抵靠固定放置於鏡片收容槽122内之鏡片1〇。此時: 卡榫145恰好與第二卡槽1247相對應,鬆開推桿體144後由於第 7 201028262 .了彈性兀件丨8之彈性回復力之作用,將使得固定桿14往靠近 一侧面1204方向移動從而使得卡榫145抵靠於第二卡槽1247。如 此,二十五個鏡片10即可被穩定固定於二十五個鏡片收容槽 $而不會相對於盤體12移動。進行鍵膜時,可使得複數鏡片 形成均勻、平整之膜層’鍍膜之後亦可方便地將複數鏡片1〇取出。 β請參閱圖5 ’本技術方案第二實施例提供之托盤2與第一實施 例提供之托盤1大致相同,其不同之處在於,托盤2包括一個盤 體22、五個固定桿24與十個第一彈性元件26。 盤體22具有二十五個鏡片收容槽222、五個第一收容槽224 • 及十個第二收容槽226。每個第一收容槽224均包括一個收容凹槽 2241與五個連通於收容凹槽2241靠近第四側面22〇6之一側之^ 通凹槽2242。每個連通凹槽2242均與一個鏡片收容槽222相連 通母個收谷凹槽2241靠近第三侧面2205之另一側均與兩個第 二收容槽226連通。 、 田五個固定桿24可分別收容於五個第一收容槽224。每個固定 桿24均包括抵靠桿體241與五個間隔一定距離設置於抵靠桿體 241之抵罪塊243。所述抵靠桿體241之長度小於第一收容槽224 之長度,其寬度小於第一收容槽224之寬度,從而抵靠桿體241 φ 可收谷於收谷凹槽2241,並可在第一收容槽224内沿垂直於第三 侧面2205之方向上具有一定位移。所述抵靠塊243可收容於連通 凹槽2242,並可自連通凹槽2242向鏡片收容槽222内突出。 十個第一彈性元件26可分別收容於十個第二收容槽226。第 一彈性元件26在壓縮狀態下被放置於第二收容槽226後,可由於 彈性變形回復力而推動固定桿24之桿體241往鏡片收容槽222方 =移動’從而使得固定桿24之抵靠塊243抵靠固定收容於鏡片收 谷槽222内之鏡片’避免鏡片在鑛膜工藝中相對於盤體22之移動。 請參閱圖6 ’本技術方案第三實施例提供之托盤3與第二實施 例提供之托盤2大致相同,其不同之處在於,鏡片收容槽322之 8 201028262 為擴圓形,其長轴方向垂直於第一側面迦與第二側 Μ此―短軸方向垂直於第三側面32G5與第四侧面3206。鏡 之^長度纽待承載制之長度,其短轴長度小 且’五個第一收容槽324均為橫截面為 長方形之長條_槽’其長度方向均垂直於第—側面迦 =3204。其中’每個第一收容槽324靠近第三侧面薦之一側 均與兩個第二收容槽326連通,靠近第四側面娜之另一側均盘 五個鏡片收容槽322連通。 〜、 所述五個固定桿34分別收容於所述五個第一收容槽324。每 侧定桿34均為長方體形桿。所述十個第一彈性元件%分別收 容於十個第二收容槽326。 本實施例之托盤3亦可承載二十五個圓形鏡片。由於鏡片之 直徑小於鏡片收容槽322之長轴長度,而小於其短轴長度,從而, 鏡片放置於托盤3時,大部分可收容於鏡片收容槽322,小部分則 從鏡片收容槽322向第一收容槽324内突出。如此,第一彈性元 件36在墨縮狀態下被放置於第二收容槽326後,可由於彈性變形 回復力而推動固定桿34往鏡片收容槽322方向移動,從而使得固 定桿34抵靠固定收容於鏡片收容槽322内之鏡片。從而,將托盤 3放置於鑛膜設備中進行旋轉鍍膜時’鏡片不會相對於托盤3移 參動,從而可獲得良好、平整、均勻之膜層,使得鍍膜後之鏡片具 有良好之鑛膜效果及光學性能。 當然’本技術方案中’鏡片收容槽、第一收容槽及第二收容 槽之數量並不限定為二十五個、五個或十個,而可根據實際需要 設定為任意數量,僅需使得每個第一收容槽之一侧均與複數鏡片 收容槽連通,另一側均與至少一第二收容槽連通即可。另外,固 定桿、第一彈性元件及第二彈性元件之數量亦不限,僅需分別與 第一收容槽、第二收容槽及第三收容槽之數量相對應即可,並且 第一彈性元件及第二彈性元件之數量亦可為一個。 201028262 另外,本技術方案中,盤體還可包 — 體,僅需所述蓋體具有複數通孔以t 上表面之一盍 從而不影響鏡片鍍臈工藝之進行即。:;體之複數鏡片’ =鏡版㈣—雜蝴__失去抵靠 本技術方案之托盤具有如下優點:首先, f固定桿可以抵翻定複數收容於鏡片收容槽 免複數鏡狀鷄’可使得複數鏡片在_工#巾形成均句201028262 VI. Description of the Invention: [Technical Field] The present invention relates to a lens manufacturing technology, particularly to a tray for carrying a lens. [Prior Art] With the development of optical products, the application range of lenses has become wider and wider. The industry uses a variety of methods to fabricate lenses to meet the market's need for different sizes of lenses (see "Fabrication of Diffractive Optical Lens for Beam splitting Using LIGA Process 55, Mechatronics and Automation, Proceedings of the 2006 IEEE International Conference on, pp. 1242- 1247, 2006 06). However, lenses produced in batches by various methods can be applied to optical equipment after subsequent processing. For example, a lens manufactured by injection molding technology needs to undergo a shearing process to remove the material head, and then a coating process is required, that is, physical or chemical methods are applied to the surface of the lens to apply one or more layers of film to make incident, reflection and The transmitted light interferes with the interface of the film layer to achieve focusing, collimation, filtering, reflection and refraction, so that the lens product satisfies the predetermined optical performance. - In the prior art, the coating process is generally a batch process. Generally, a tray having a plurality of receiving grooves is used to cut the trays into a coating device for spin coating to complete the coating sequence of the sheet. In order to facilitate the reading of the plurality of trays into the contact pockets, the size of the receiving slots is generally larger than the size of the lenses, so that in the subsequent coating process, the lenses can be positioned in the receiving slots relative to the trays, thereby possibly moving shadows. The coating effect 'for example, the thickness of each part of the lens is uneven, and even the preparation of the food is not on the top, so that the brain is smashed and the light is mixed. ^ The lens product is scrapped. 1 main 1^_成 In view of this, it is necessary to provide a tray that can be easily placed and stabilized. The present invention will be described below with reference to an embodiment. A tray comprising a tray body, at least one fixing rod and at least one first elastic element. The tray body has a plurality of lens receiving grooves and at least one first receiving groove. The plurality of lens receiving slots are used to receive a plurality of lenses. Each of the first receiving slots is in communication with the plurality of lens receiving slots. The at least one fixing rod is received in the at least one first receiving slot. The at least one first elastic member abuts against the fixing rod so that the fixing rod is received in the receiving groove. ^ The tray of the technical solution has the following advantages: firstly, the first elastic member and the fixing rod can press and fix the plurality of lenses accommodated in the lens receiving groove, thereby avoiding the movement of the plurality of lenses, and the plurality of lenses can be made in the ore film. A uniform, flat film layer is formed in the process; secondly, the first elastic member can conveniently fix or loosen the plurality of lenses 2 so that the plurality of lenses can be conveniently placed in or taken out of the tray. [Embodiment] Hereinafter, the present technical solution will be further described in detail with reference to the accompanying drawings and the embodiments. <Month and Referring to Figures 1 to 3' The tray 1 provided by the embodiment of the present invention includes a φ-disc body 12, a fixing rod 14, two first elastic members 16, and five second elastic members 18. The disk body 12 has a rectangular parallelepiped shape and has an upper surface 12 (Π, a lower surface 12〇2, a first side surface 1203, a second side surface 1204, a third side surface 1205, and a fourth side surface 12%.) The upper surface 1201 and the lower surface The surfaces 1202 are parallel to each other. The first side 12〇3 is parallel to the second side 1204 and is connected between the upper surface 12〇1盥 and the lower surface. The third side 1205 and the fourth side The side faces 12〇6 are parallel to each other, and are connected between the first side surface 1203 and the second side surface 1204. The disk body 12 is provided with twenty-five lens receiving grooves 122 from the upper table=1201 to the disk body 12, The first receiving slot 124, the two second receiving slots 126, and the five third receiving slots 128. The cover receiving slot 122 is configured to receive the lens. The twenty-five lens receiving slots 122 are formed in an array. The disk body 12, that is, the twenty-five lens receiving grooves 122 constitute five rows, each of which includes five lens receiving grooves 122 equally spaced from the first side surface 1203 toward the second side surface 1204. In this embodiment, each The lateral wearing surfaces of the lens receiving slots 122 are substantially circular and are used for receiving circular lenses. The slot 124 is configured to receive the fixing rod 14. The first receiving slot 124 includes five vertically arranged receiving recesses 1241, a lateral connecting recess 1242, twenty-five connecting recesses 1243, a through slot 1244, and a card. The grooving groove 1245 is a long rectangular groove having a rectangular cross section, and the longitudinal direction thereof is perpendicular to the first side surface 1203 and the second side surface 1204, and neither of the first side surface 1203 and the first side surface 1203 The second side surface 12〇4. The five receiving grooves 1241 are equally spaced from each other in the direction from the third side surface 1205 to the fourth side surface 1206, wherein a receiving groove 1241 is adjacent to the third side surface 〇2〇5, and is located at the third side. The side surface 12〇5 is adjacent to the lens receiving groove 122 of one of the third side faces, and the other four receiving grooves 124i are respectively located between the two rows of lens receiving grooves 122 of the phase 4. The connecting groove is also 2 The elongated groove having a rectangular cross section has a longitudinal direction perpendicular to the third side surface 12〇5 and the first surface 1206′ and also does not penetrate the third side surface 12〇5 and the fourth side from 12〇6. The sample is located near the second side of the 1204, connected to the five containment : ^ One of the first side of the problem. The twenty-five connected grooves 1243 = 1 ^ pass = fifteen sets of faults 122 and five pockets of the opposite ί1/, body, mother The receiving groove 1241 is connected to the communication groove of the third side surface 1205, and each of the communicating lines communicates with each other. The through groove 1244 and the 2, 3 valley receiving grooves 1241 are away from the first side surface and the receiving groove 1241. The length direction is the same, and the p-length direction latching groove 1245 is connected to the connecting groove 12^; The second side is 1247 which is closer to the 42nd side of the third side 1205. The card slot 6 is spaced apart from the third side by a bump. Between the slot 1246 and the second slot 1247 5 201028262 The second receiving slot 126 is configured to receive the recessed L 16 of the cross-sectional area square. The two second receiving-storage recesses 1241 are adjacent to the third side of the day 12 (^2; the through-groove 144 is connected to the side of the C3#1241is't'a face 1205, and both of the receiving pockets are The sin is near the first side 1203, and the other is adjacent to the second side 12〇4. The second receiving groove 128 is for accommodating the second elastic element receptacle 128, which is a rectangular cross section _ a close to the first- The two troughs respectively communicate with the five receiving grooves 1241 near the end of the first side wrist, and neither of the first side faces 12〇3. The fixing rod 14 includes five abutting bodies (4), ❿ ginseng Twenty-five abutment block 143, a pusher body 44 44 w on the f transport cup 142 = = round long bar, the length direction is vertical ϊ ί = the length of the groove 1241 is equivalent, The diameter of the abutting rod body 141 can be completely accommodated in a folding groove, and can be moved within the receiving groove. The length of the connecting body 142 is long. The slewing body, the splicing body 142 can be received in the connecting groove 1242. The tenth = she depends on (four) 142. With the ship, each of the stalks is connected to the five abutting blocks 143. Moreover, the length of the block 143 is greater than the length of the connecting groove 1243, the five abutting blocks 143 t, the distance between the adjacent two abutting blocks 143 = the distance between the adjacent two lens receiving slots 122 in the column The pusher body 144 is also a cylindrical rod connected to the most sinful third side (10) 5 against the two sides of the side. The length of the pusher body 144 is greater than that of the through slot 1244. It is accommodated in the patch 1244, and the portion protrudes from the tray 1224 to the disk body 12, and is convenient for the operation of the fixing rod 14. The cassette 145 is connected to the side of the connecting rod body 142 near the second side 1204, which can be accommodated in the first A card 24 slots 1247 are provided to secure the fixing rods 14 to different positions of the disc body 12. The two first elastic members 16 are respectively received in the two second receiving slots 126. 201028262 ', one- Each of the elastic members 16 can be a spring, a spring piece, an elastic block, etc., and has an elastic, shape, and recovery capability. The present invention has a W-shaped deformation direction perpendicular to the third side 1205, and is located at the same position. ^ 16«; ί Placement = After the second receiving groove 126' can push the mouth cup due to the elastic deformation restoring force 14彺 The fourth side 126 is moved in the direction, so that the system is fixedly received in the mirror (four) 122. The buckle bridge Μ 固 固 固 =========================================================== The two elastic members 18 can be springs, elastic pieces, elastic elastic blocks, and the elastic deformation direction is perpendicular to the first side surface _, and the length in the natural state is greater than the depth of the third receiving groove 128. Thus, the second sex After being placed in the third receiving groove 128 in the compressed state, the member 18 can push the fixing rod 14 to move toward the second side due to the elasticity=recovery force. The counter card 145 is pressed against the first Nt 1246 or the second card. Slot 1247. Referring to Figures 1 to 4' together, the tray 本 in this embodiment can stably fix the twenty-five side lens 1〇. Specifically, the fixing rod 14 may be first placed in the groove 124' such that the cassette 145 > (standing on the first -_NI 1246, and the two first elastic members 16 are respectively placed in the two second receiving slots 126 in the compressed state) Five sex cockroaches, 18 are placed in the five third receiving slots 128 in a compressed state. Secondly, three twenty-five rounded circular lenses are placed in twenty-five lens troughs. 122. The diameter of each lens 1 is smaller than the straight scale of the lens receiving groove 122, so that the lens ίο may be moved relative to the disk after being placed in the lens receiving groove 122. Again, the staff can push by operation The rod body 144 pushes the fixing rod 14 in the direction of the first side surface 1203, so that the second elastic member 18 is compressed again. At this time, the elastic restoring force of the elastic member 16 acts to make the fixing rod 14 close to the sin. The direction of the fourth side 1206 is moved such that the abutting block 143 protrudes from the communication recess=43 against the lens 1 固定 fixed in the lens receiving groove 122. At this time: the cassette 145 is just opposite to the second card slot Corresponding to 1247, after releasing the pusher body 144 due to the 7th 2010282 62. The elastic restoring force of the elastic jaws 8 acts to move the fixing rod 14 toward a side 1204 so that the latch 145 abuts against the second slot 1247. Thus, twenty-five lenses 10 It can be stably fixed in twenty-five lens receiving slots $ without moving relative to the disk body 12. When the key film is formed, the plurality of lenses can be formed into a uniform and flat film layer. Please refer to FIG. 5 'The second embodiment provided by the second embodiment of the present invention is substantially the same as the tray 1 provided in the first embodiment, except that the tray 2 includes a tray 22 and five fixing rods. 24 and ten first elastic members 26. The disk body 22 has twenty-five lens receiving grooves 222, five first receiving grooves 224, and ten second receiving grooves 226. Each of the first receiving grooves 224 includes one. The receiving groove 2241 and the five connecting grooves 2242 communicating with the receiving groove 2241 on one side of the fourth side surface 22〇6. Each of the connecting grooves 2242 is connected with a lens receiving groove 222. The groove 2241 is adjacent to the other side of the third side 2205 The second receiving slots 226 are connected to each other. The five fixing rods 24 can be respectively received in the five first receiving slots 224. Each of the fixing rods 24 includes abutting rods 241 and five spaced apart from each other at a certain distance. The length of the abutting rod body 241 is smaller than the length of the first receiving groove 224, and the width thereof is smaller than the width of the first receiving groove 224, so that the rod body 241 φ can be received in the valley recess The groove 2241 has a certain displacement in the first receiving groove 224 in a direction perpendicular to the third side surface 2205. The abutting block 243 can be received in the communication groove 2242 and protrude from the communication groove 2242 into the lens receiving groove 222. The ten first elastic members 26 can be respectively received in the ten second receiving slots 226. After the first elastic member 26 is placed in the second receiving groove 226 in the compressed state, the rod 241 of the fixing rod 24 can be pushed to the lens receiving groove 222 by the elastic deformation restoring force to make the fixing rod 24 abut. The lens 243 abuts against the lens that is received in the lens valley groove 222 to prevent the lens from moving relative to the disk 22 during the mineral film process. Referring to FIG. 6 , the tray 3 provided by the third embodiment of the present invention is substantially the same as the tray 2 provided by the second embodiment, except that the lens receiving groove 322 8 201028262 is an enlarged circle, and the long axis direction thereof. The "short axis direction" perpendicular to the first side and the second side is perpendicular to the third side 32G5 and the fourth side 3206. The length of the mirror is to be carried, the length of the short axis is small, and the five first receiving grooves 324 are long strips having a rectangular cross section, and the length direction thereof is perpendicular to the first side = 3204. Each of the first receiving slots 324 is adjacent to the two second receiving slots 326 adjacent to the third side, and the other side of the fourth side is connected to the five lens receiving slots 322. The five fixing rods 34 are respectively received in the five first receiving slots 324. Each of the side rods 34 is a rectangular parallelepiped rod. The ten first elastic members are respectively accommodated in ten second receiving slots 326. The tray 3 of this embodiment can also carry twenty-five round lenses. Since the diameter of the lens is smaller than the length of the long axis of the lens receiving groove 322 and smaller than the length of the short axis, most of the lens can be received in the lens receiving groove 322 when the lens is placed on the tray 3, and a small portion is taken from the lens receiving groove 322. A receiving groove 324 protrudes. In this way, after the first elastic member 36 is placed in the second receiving groove 326 in the ink-retracting state, the fixing rod 34 can be moved in the direction of the lens receiving groove 322 due to the elastic deformation restoring force, so that the fixing rod 34 is fixedly received. The lens in the lens receiving groove 322. Therefore, when the tray 3 is placed in the mineral film apparatus for spin coating, the lens does not move relative to the tray 3, so that a good, flat, uniform film layer can be obtained, so that the coated lens has a good film effect. And optical properties. Of course, the number of the lens receiving groove, the first receiving groove and the second receiving groove is not limited to twenty-five, five or ten, but can be set to any number according to actual needs, and only needs to be made. One side of each of the first receiving slots is connected to the plurality of lens receiving slots, and the other side is connected to at least one of the second receiving slots. In addition, the number of the fixing rods, the first elastic element and the second elastic element is not limited, and only needs to correspond to the number of the first receiving groove, the second receiving groove and the third receiving groove, respectively, and the first elastic element And the number of the second elastic members may also be one. 201028262 In addition, in the technical solution, the disk body can also be packaged, and only the cover body has a plurality of through holes for one of the upper surfaces of the t without affecting the progress of the lens plating process. :;Multiple lenses of the body' = Mirror (4) - Miscellaneous __ Loss of the pallet against this technical solution has the following advantages: First, the f-fixing rod can be folded into a plurality of mirrors in the lens receiving slot to avoid multiple mirror-shaped chickens. Making the plural lenses form a uniform sentence in the _工#
,之,層;其次,所述第—雜元件可方便_定或鬆開複數鏡 片,攸而可方便地將複數鏡片放入托盤或從托盤取出。 ^上所述,本發_已符合發明專狀要件,舰 利申請。惟,以上所述者僅為本發明之較佳實施方 = 此限制本案之_請糊制。軌麟本案聽之人士 =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 ❿ 【圖式簡單說明】 托盤 盤體 固定桿 第一彈性元件 第一彈性元件 上表面 下表面 第一側面 弟一'側面 卜2、3 12 > 22 14、24、34 16、26、36 18 1201 1202 1203'2203 > 3203 1204、2204、3204 201028262 - 第三侧面 1205、2205、3205 . 第四側面 1206'2206'3206 鏡片收容槽 122、222、322 第一收容槽 124、224、324 第二收容槽 126、226、326 第三收容槽 128 收容凹槽 1241 ' 2241 Φ 連接凹槽 連通凹槽 1242 1243、2242 通槽 1244 卡榫槽 1245 第一~^槽 1246 第二卡槽 1247 抵靠桿體 141 ' 241 Φ 連接桿體 抵靠塊 142 143 > 243 推桿體 144 卡榫 145 【主要元件符號說明】 圖1為本技術方案第一實施例提供之托盤之分解示意圖 圖2為本技#f方案第一實施例提供之托盤之組合示意圖 11 201028262 鏡片時之 圖3為沿圖2中之Ιπ 圖4為本技術方案第 示意圖。 ^ 111方向剖開之剖面示意圖。 實施例提供之托盤抵靠固定 圖5為本技術方縛二實施例提供之托盤之俯視示意圖。 圖6為本技财案第三實施例提供之減之俯視示意圖。Secondly, the first and second components can conveniently fix or loosen the plurality of lenses, and the plurality of lenses can be conveniently placed in or taken out of the tray. ^ As stated above, this issue has been in compliance with the requirements of the invention, and the application for the ship. However, the above is only the preferred embodiment of the present invention. The equivalent modification or change made by the spirit of the person who listens to the case shall be covered in the following patent application scope ❿ [Simple description of the drawings] The first elastic member of the tray body fixing rod and the lower surface of the upper surface of the first elastic member a side face, a side face 2, 3 12 > 22 14, 24, 34 16, 26, 36 18 1201 1202 1203 '2203 > 3203 1204, 2204, 3204 201028262 - third side 1205, 2205, 3205. Four sides 1206'2206'3206 lens receiving slots 122, 222, 322 first receiving slots 124, 224, 324 second receiving slots 126, 226, 326 third receiving slots 128 receiving recesses 1241 ' 2241 Φ connecting recesses communicating recesses Slot 1242 1243, 2242 through slot 1244 latch slot 1245 first ~ slot 1246 second card slot 1247 against lever body 141 ' 241 Φ connecting rod abutment block 142 143 > 243 push rod body 144 card 145 BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic exploded view of a tray provided by a first embodiment of the present technical solution. FIG. 2 is a schematic diagram of a combination of a tray provided by a first embodiment of the present invention. FIG. 3 is a schematic view of FIG.中之Ιπ Figure 4 This is the first schematic of the technical solution. ^ Schematic diagram of the section cut in the direction of 111. The tray provided by the embodiment is fixed against the fixing. FIG. 5 is a schematic plan view of the tray provided by the embodiment of the present invention. FIG. 6 is a top plan view of the third embodiment of the present invention.