M356220 ' 八、新型說明 ^ 【新型所屬之技術領域】 ' 本新型是有關一種容器,其一個部位包含有多個具有 第一高度的第一彈性支撐構件。該等第一彈性支撐構件係 組構成能與一放置於該容器內的零件的一邊緣接觸。多個 第二支撐構件,每一者均具有一較小之第二高度。該等第 . 二支撐構件係相對於該等第一彈性支撐構件設置,以使得 Φ 該等第二支撐構件可在第一彈性支撐構件中相關者彎折一 足夠的量時,接觸到該零件的該邊緣。 【先前技術】 電子及其他裝置用的零件通常是在一個地點製造,並 包裝於容器內,以供運送至另一個地點。硬式磁碟機及半 導體晶圓是這些零件的例子。此種容器內的內容物是相當 敏感,並且在容器掉落或因其他情形而受到撞擊時,會受 Φ 到損傷。在這些內容物放置於此種容器內時,有必要保護 他們免於受損。有多種的嘗試曾被用來提供該種目的用的 . 容器。 熟知此技藝之人士一直努力地進行改良。本創作提供 一種供此目的用的改良的容器。 【新型內容】 一範例性的容器包含有一容器部位,具有多個有著第 —高度的第一彈性支撐構件。該等第一彈性支撐構件係組 -4- M356220 構成能接觸放置於該容器內之一零件的邊緣。多個 撐構件每一者均具有一較小的第二高度。該等第二 件係相對於該等第一彈性支撐構件配置,以使得該 支撐構件可以在第一彈性支撐構件中相關者彎折一 量時’接觸到該零件的該邊緣。 熟知此技藝之人士當可自下面的詳細說明而得 作的各項特點及優點。附隨於此詳細說明的圖式將 中加以簡要地說明。 【實施方式】 第1圖至第4圖中顯示一容器中用來包覆多個 部位1 〇。爲便於討論起見,晶圓及碟片是視爲範例 件。此範例性容器部位1 0包含有多個第一彈性支 1 2,其等具有位於該容器部位1 〇的內側表面14與 一彈性支撐構件1 2之末端1 6之間的第一高度。該 φ 彈性支撐構件1 2係組構並配置於容器部位1 〇上, 個碟片或晶圓提供支撐作用。 . 容器部位1〇亦包含有多個第二支撐構件18。 . 二支撐構件1 8具有第二高度,其係小於該第一高 例中的第二高度是位於該內側表面14與該等第二 件的末端20之間。 第5圖顯示出一包含有該範例性容器部位1 〇 性容器2 2。在此範例中,容器部位1 0係做爲容器 子。容器部位1 0係可選擇性地固定至一基部24上 第二支 支撐構 等第二 足夠之 知本創 於下文 零件的 性的零 撐構件 該等第 等第一 以對多 該等第 度。此 支撐構 的範例 22的蓋 ,以提 -5- M356220 供一封閉的容器。一匣盒26容置於該蓋子10與該基部 之間。該匣盒26包含有多個槽道,用以容置要放置於 器22內的碟片或晶圓。支撐構件12及18可對容器22 的任何晶圓或碟片提供具緩衝功能的支撐作用,以供在 器22關閉時,將他們牢固地固定在匣盒26內。 支撐構件1 2及1 8亦提供緩衝功能來吸收撞擊力量 負載,並防止任何晶圓或碟片在容器22內所產生的不 要移動。在此範例中,第二支撐構件1 8係配置成讓每 者均鄰接於第一彈性支撐構件12中相關的一者。在正 的情形下,第二支撐構件1 8不會接觸到與第一彈性支 構件1 2相接觸的碟片或晶圓。此種狀態是顯示於第5 及第6圖內。如果有足夠的力量作用於這些碟片或晶圓 上,則第一彈性支撐構件1 2將會充份地彎折而讓一碟 或晶圓3 0的邊緣接觸到容器部位1 0。此後一情形係顯 於第7圖中。 在第一彈性支撐構件1 2因任何作用於碟片或晶圓 上的力量而彎折時,第二支撐構件18可穩定住碟片或 圓30。第二支撐構件18可防止碟片或晶圓30與容器部 10的內側表面14間的碰觸。第二支撐構件18亦可防止 片或晶圓3 0在容器22內的側向移動或轉動。第一彈性 撐構件1 2及第二支撐構件1 8的組合可提供一種較佳的 器,其能更進一步地保護容器22內的內容物免於可能 因該容器22掉落或受到某些其他撞擊所致的損傷。 在某些例子中,第二支撐構件是具有彈性的,以供 2 4 容 內 容 或 必 常 撐 圖 30 片 示 3 0 晶 位 碟 支 容 會 在 -6- M356220 第一彈性支撐構件1 2的緩衝作用以外,再提供緩衝作用 ' 。這些較小高度的第二支撐構件18在某些例子中可以彈 性較低些,以供在如第7圖所示的情形中提供較佳的穩定 性。第一彈性支撐構件1 2與第二支撐構件1 8的組合可以 讓第一支撐構件1 2提供夠軟的緩衝作用而不會讓容器22 的內容物移動超過所希望的量。第二支撐構件18的穩定 . 作用可以在即使是第一彈性支撐構件1 2因爲施加的力量 φ 或負載而大幅度彎折時,防止該等內容物與內側表面14 間的碰觸。 如第2圖及第4圖最清楚看到的,這些支撐構件係配 置成多個分隔開的列。該等多個第一彈性支撐構件1 2中 的第一組係配置成多個列3 2,其等係分隔開一第一距離。 該等多個第一彈性支撐構件1 2中的第二組係配置成多個 列3 4,其等係分隔開一較大的第二距離。在所示的範例中 ,第二支撐構件1 8係隨著與他們相關的第一彈性支撐構 φ 件1 2而包含於該等列之每一列內。 該等顯示出的列的一項特點是該等多個第一彈性支撐 . 構件12是組構成能形成多個容置槽道40’其等每一者均 . 可容納一碟片或晶圓30。容置槽道40a中的每一者均是由 列3 2內的第一組支撐構件中的二支撐構件所構成的。容 置槽道40b中的每一者均是由列34內的第二組支撐構件 中的二支撐構件所構成的。該等第一組及第二組係以交錯 的方式沿著該等列配置的,以使得每隔一個的容置槽道40 是由不同組的二支撐構件所構成的。換言之’由第一組之 M356220 支撐構件所構成的容置槽道40a是與由第二組之支撐構件 * 所構成的容置槽道40b相鄰設置的。 該等範例性支撐構件的末端1 6及20的輪廓係組構成 能將一碟片或晶圓3 0的邊緣定心於相關的容置槽道40內 。在此範例內,末端1 6及2 0具有槪呈V形的輪廓。 自第2圖及第3圖中可以瞭解到此種交錯配置的一項 特點。如果要放置至容置槽道40a內的碟片或晶圓30被 φ 意外地錯放至該等欲放置的第一彈性支撐構件12的一旁 ,則其將會被自動地放置至鄰旁的容置槽道40b內。這可 防止碟片或晶圓3 0在容器22內沒有對準的情形,並防止 他們的末端互相碰觸到。 所示之範例的另一項特點是第二組(亦即列3 2 )內的 第一支撐構件12是固定在容器部位10之內側表面14上 ,而使得末端16不對齊於列34內的第一支撐構件12的 末端1 6。此範例中的這些列之間的不同間距,以及末端 φ 1 6間的不同位置,可以確保不論是那些支撐構件會嚙合於 某一特定的碟片或晶圓30,其均可使容置於不同列32、 .3 4之支撐構件內的碟片或晶圓3 0維持在與內側表面1 4相 距大約相同的距離。 在一範例中,容器部位1 0及支撐構件1 2、1 8係—體 地模製成單一構件,且他們具有相同的材料。 第8圖顯示出另一種在容器部位1〇,內結合有支撐構 件12及18的容器架構22’。在此範例中,容器部位1〇,是 一個固定於一基部24’上的蓋子,其間則容置著一匣盒26, -8- M356220 。支撑構件1 2及1 8是設於部位1 〇 ’內面對著匣套 道52,的表面上,以供將碟片固定於容器內所欲 〇 第8圖之範例的一項特點是容器部位1 〇 ’( 子)具有一通道56,沿著一邊緣5 8設置。當匣 容器部位1〇’靠接在一起時’該匣盒26’內有一 6〇會至少部份地容置於該通道56內。在該位置 成該通道56之側邊的邊緣壁部62、64會與該匣 部位60互相重疊。此種設置可提供一迂迴的路 22,之內部與周圍環境之間,其可用來防止外界 進入至該容器內而接觸到該容器內之碟片的表面 點可有助於進一步確保此範例性容器內的碟片的 前述的說明本質上僅是例示性,而非做限制 知此技藝之人士當可知曉前述揭露的範例在不脫 之精髓的情形下的多種變化及改良。本創作的法 圍應僅由下列的申請專利範圍來加以界定。 【圖式簡單說明】 第1圖是一容器的一部份的外觀圖,其中該 係可看到的。 第2圖是自第1圖頂部觀看的立面圖。 第3圖是沿著第2圖中線3 - 3所取的剖面圖 第4圖是沿著第2圖中線4-4所取的剖面圖 第5圖是包含有第1圖中該部位的容器的剖ΐ t 26’之槽 的位置上 亦即該蓋 盒26’及 互補部位 上時,構 盒的互補 徑於容器 的污染物 。此項特 完整性。 之用。熟 離本創作 律保護範 部位內部 圖。 -9- M356220 第6圖是第5圖中該部位處於第一操作狀態下的剖面 圖。 第7圖是類似於第6圖但是處於不同的第二操作狀態 下的剖面圖。 第8圖是另一種範例性容器的分解外觀圖。 【主要元件符號說明】 1 〇 :容器部位 1 0 ’ :容器部位 1 2 :第一彈性支撐構件 1 4 :內側表面 1 6 :末端 1 8 :第二支撐構件 2 0 :末端 22 :容器 22’ :容器 24 :基部 2 4 ’ :基部 26 :匣盒 26 ’ :匣盒 3 〇 :晶圓 32 :列 34 :列 40 :容置槽道 10- M356220 40a :容置槽道 4〇b :容置槽道 52 :槽道 5 6 :通道 5 8 :邊緣 60 :互補部位 6 2 :邊緣部位 64 :邊緣部位M356220 ' VIII. New description ^ [Technical field of new type] ' The present invention relates to a container in which a portion includes a plurality of first elastic supporting members having a first height. The first resilient support member sets are configured to contact an edge of a component placed within the container. A plurality of second support members each having a second, smaller height. The second support members are disposed relative to the first elastic support members such that the second support members can contact the part when the relevant one of the first elastic support members is bent by a sufficient amount The edge. [Prior Art] Parts for electronics and other devices are usually manufactured in one location and packaged in containers for transport to another location. Hard disk drives and semiconductor wafers are examples of these parts. The contents of such containers are quite sensitive and can be damaged by Φ when the container is dropped or otherwise impacted. When these contents are placed in such containers, it is necessary to protect them from damage. A variety of attempts have been made to provide containers for this purpose. Those skilled in the art have been working hard to improve. This creation provides an improved container for this purpose. [New Content] An exemplary container includes a container portion having a plurality of first elastic support members having a first height. The first resilient support member sets -4- M356220 constitute an edge that can be placed in contact with a part of the container. Each of the plurality of members has a second, lower height. The second members are disposed relative to the first resilient support members such that the support member can contact the edge of the member when the associated one of the first resilient support members is bent by a quantity. Those skilled in the art will be able to obtain various features and advantages from the following detailed description. The drawings attached to the detailed description are briefly described. [Embodiment] Figs. 1 to 4 show a container for covering a plurality of parts 1 〇. For ease of discussion, wafers and discs are considered examples. The exemplary container portion 10 includes a plurality of first resilient branches 12 having a first height between the inside surface 14 of the container portion 1 and the end 16 of the resilient support member 12. The φ elastic support member 12 is assembled and disposed on the container portion 1 , and a disc or wafer provides a supporting function. The container portion 1 also includes a plurality of second support members 18. The second support member 18 has a second height that is less than the second height in the first embodiment between the inner side surface 14 and the end 20 of the second piece. Figure 5 shows a container 2 2 containing the exemplary container portion. In this example, the container portion 10 is used as a container. The container portion 10 is selectively fixed to a base portion 24, a second support structure, etc., and a second sufficient amount of the zero-support member that is capable of creating the following parts. . The cover of the example 22 of this support structure provides a closed container for the -5-M356220. A cassette 26 is received between the cover 10 and the base. The cassette 26 includes a plurality of channels for receiving a disc or wafer to be placed in the unit 22. The support members 12 and 18 provide cushioning support for any wafer or disc of the container 22 for securely securing the container 22 within the cassette 26 when the container 22 is closed. The support members 1 2 and 18 also provide a cushioning function to absorb the impact force load and prevent any wafer or disc from being displaced within the container 22. In this example, the second support members 18 are configured such that each abuts an associated one of the first resilient support members 12. In the positive case, the second support member 18 does not contact the disc or wafer that is in contact with the first resilient support member 12. This state is shown in Figures 5 and 6. If sufficient force is applied to the discs or wafers, the first resilient support member 12 will be sufficiently bent to allow the edge of a dish or wafer 30 to contact the container portion 10. The latter case is shown in Figure 7. The second support member 18 stabilizes the disc or circle 30 when the first resilient support member 12 is bent by any force acting on the disc or wafer. The second support member 18 prevents contact between the disc or wafer 30 and the inner side surface 14 of the container portion 10. The second support member 18 also prevents lateral movement or rotation of the sheet or wafer 30 within the container 22. The combination of the first resilient brace member 12 and the second support member 18 can provide a preferred device that can further protect the contents of the container 22 from possible drop or exposure to the container 22. Damage caused by impact. In some examples, the second support member is resilient to provide for a content or a constant view of the figure 30. The 30-position disc is accommodated at the -6-M356220 first elastic support member 1 2 In addition to the buffering effect, a buffering effect is provided. These smaller height second support members 18 may be less elastic in some instances for providing better stability in the situation as shown in Figure 7. The combination of the first resilient support member 12 and the second support member 18 allows the first support member 12 to provide a soft cushioning action without moving the contents of the container 22 beyond the desired amount. The stabilization of the second support member 18 prevents the contact between the contents and the inner side surface 14 even when the first elastic support member 1 2 is largely bent due to the applied force φ or load. As best seen in Figures 2 and 4, these support members are arranged in a plurality of spaced apart columns. The first of the plurality of first resilient support members 1 2 is configured as a plurality of columns 3 2 that are separated by a first distance. The second of the plurality of first resilient support members 12 is configured as a plurality of columns 34 that are spaced apart by a second, greater distance. In the illustrated example, the second support members 18 are included in each of the columns along with the first resilient support member 1 associated with them. One of the features of the displayed columns is the plurality of first elastic supports. The members 12 are grouped to form a plurality of accommodating channels 40', each of which can accommodate a disc or wafer. 30. Each of the accommodating channels 40a is formed by two of the first set of support members in the column 3 2 . Each of the receiving channels 40b is formed by two of the second set of support members in the column 34. The first and second groups are arranged along the columns in a staggered manner such that every other receiving channel 40 is formed by a different set of two support members. In other words, the accommodating channel 40a composed of the M356220 supporting members of the first group is disposed adjacent to the accommodating channel 40b constituted by the supporting members * of the second group. The contours of the ends 16 and 20 of the exemplary support members are configured to center the edges of a disc or wafer 30 within the associated receiving channel 40. In this example, the ends 16 and 20 have a V-shaped profile. A feature of this staggered configuration can be seen in Figures 2 and 3. If the disc or wafer 30 to be placed in the accommodating channel 40a is accidentally misplaced to the side of the first elastic support member 12 to be placed, it will be automatically placed next to it. It is accommodated in the channel 40b. This prevents the disc or wafer 30 from being misaligned within the container 22 and prevents their ends from touching each other. Another feature of the illustrated example is that the first support member 12 in the second set (i.e., column 3 2) is secured to the inside surface 14 of the container portion 10 such that the ends 16 are not aligned within the column 34. The end 16 of the first support member 12. The different spacing between the columns in this example, as well as the different positions between the ends φ 16 , ensures that the support members can be placed in a particular disc or wafer 30, regardless of the support member. The discs or wafers 30 in the support members of the different columns 32, .34 are maintained at approximately the same distance from the inner side surface 14 . In one example, the container portion 10 and the support members 12, 18 are integrally molded into a single member and they have the same material. Figure 8 shows another container architecture 22' having a support member 12 and 18 incorporated within the container portion. In this example, the container portion 1 is a cover that is fixed to a base portion 24', and a cassette 26, -8-M356220 is accommodated therebetween. The support members 1 2 and 18 are disposed on the surface of the portion 1 〇 ' facing the rafter 52 for securing the disc to the container. A feature of the example is the container. The portion 1 〇 '(sub) has a channel 56 disposed along an edge 58. When the container portion 1〇' is brought into abutment, a 6" of the cassette 26' is at least partially received in the channel 56. The edge wall portions 62, 64 at the side of the passage 56 at this position overlap the dam portion 60. Such an arrangement provides a bypass path 22 between the interior and the surrounding environment which can be used to prevent the outside from entering the container and contacting the surface points of the disc within the container to help further ensure this exemplary The foregoing description of the discs in the container is merely exemplary in nature and is not intended to limit the scope of the invention. The scope of this creation shall be defined only by the scope of the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an external view of a portion of a container in which the system can be seen. Figure 2 is an elevation view from the top of Figure 1. 3 is a cross-sectional view taken along line 3-3 of FIG. 2, FIG. 4 is a cross-sectional view taken along line 4-4 of FIG. 2, and FIG. 5 is a view including the portion in FIG. When the container is in the position of the groove t 26', that is, on the cover box 26' and the complementary portion, the complementary diameter of the frame is smaller than the contaminant of the container. This special integrity. Use. Cooked away from the internal map of this creative law protection. -9- M356220 Fig. 6 is a cross-sectional view of the portion in the first operation state in Fig. 5. Figure 7 is a cross-sectional view similar to Figure 6 but in a different second operational state. Figure 8 is an exploded perspective view of another exemplary container. [Description of main component symbols] 1 〇: container part 1 0 ' : container part 1 2 : first elastic support member 1 4 : inner side surface 1 6 : end 1 8 : second support member 2 0 : end 22 : container 22' : Container 24: Base 2 4 ': Base 26: cassette 26': cassette 3 〇: wafer 32: column 34: column 40: accommodating channel 10-M356220 40a: accommodating channel 4〇b: capacity Channel 52: Channel 5 6 : Channel 5 8 : Edge 60 : Complementary part 6 2 : Edge part 64 : Edge part
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