1297664 • j I ’ f 九、發明說明: 【發明所屬之技術領域】 本發明係關於運輸、保管光碟、磁碟等各種碟片之際 ,適於將複數枚之碟片緊密的疊層固定來操作的碟片包裝 體及碟片包裝方法。 【先前技術】 爲了將已製造的碟片從工廠等出貨的運送,或保管於 倉庫之際,以疊層碟片包裝爲精密的狀態運送、保管,於 i ~ 操作上較方便。作爲如此的將碟片疊層來包裝的形態,一 般係於圓筒形狀之專用盒疊層碟片來收納的方法(例如曰 本國專利文獻1 ),或疊層碟片在此碟片的外周卷繞拉伸薄 膜之形態(例如日本國專利文獻2)。 [專利文獻1]日本國特開2003 -2 1 7 1 82號公報(段落 0007、第 1 圖) [專利文獻 2]日本國特開 2000-2 8 97 92號公報(段落 , 0017 〜0018、第 4 圖) 【發明內容】 (發明欲解決的課題) 然而,依上述專利文獻1之包裝形態,於碟片之製程 中,必須將碟片從當作集積碟片之集積治具所使用的堆疊 柱,移轉到專用盒之工數,此外,專用盒本身之單價亦高 ,其運輸效率有不良的問題。 又如上所述專利文獻2,依包裝薄膜於碟片外周的形 態,能活用堆疊柱,作業效率也良好,但對從碟片上下方 1297664 ,1 · · 向的壓力弱’有所謂的互相相鄰的碟片彼此干涉之可能性 的問題。又於依碟片的構造、種類未具有堆疊柱肋的碟片 ’係在疊層碟片時’爲了防止碟片彼此之磨擦,需要將間 隔件夾入碟片間,但防止此間隔件不齊之用,有另外需要 在碟片之中心孔插通支柱等作業的問題。 有鑑於如此的背景完成了本發明者,本發明係提供疊 層規定數碟片來運輸時,能耐碟片之來自上下方向(旋轉軸 方向)等之力、且能用製造碟片時所使用的集積治具之碟片 包裝體及碟片包裝方法爲目的。 (爲了解決課題的手段) 爲了解決上所述的課題,本發明之碟片包裝體之特徵 係具備有:一端側具有第1卡止部的碟片運輸用柱;形成 有開口從該碟片運輸用柱之另一端側***該碟片運輸用柱 於該開口的第1剛性板;該碟片運輸用柱***中心部之開 口而疊層的複數枚之碟片;形成開口從該碟片運輸用柱之 | 另一端***該碟片運輸用柱於該開口的第2剛性板;介置 在該第1剛性板與該碟片之間、該各碟片彼此之間、及該 第2剛性板與該碟片之間而設的間隔件;裝卸自如地設在 該碟片運輸用柱之另一端側’在與該第1卡止部之間夾持 複數枚之該碟片及第1、第2剛性板的第2卡止部;及至 少包住該第1、第2剛性板之外周側及複數枚之該碟片外 周側的包裝手段。 依如此的構成,將第1卡止部、第1剛性板、碟片、 第2剛性板、第2卡止部’用此順序能從碟片運輸用柱之 1297664 » i1297664 • j I ' f IX. Description of the Invention: [Technical Field] The present invention relates to a method of transporting and storing various discs such as optical discs and magnetic discs, and is suitable for compactly laminating a plurality of discs. Operating disc package and disc packaging method. [Prior Art] In order to transport the manufactured discs from the factory or the like, or to store them in a warehouse, it is convenient to transport and store the discs in a precise state. As such a form in which the discs are stacked and packaged, it is generally a method of accommodating a disc-shaped disc in a cylindrical shape (for example, in Patent Document 1), or a laminated disc is on the outer periphery of the disc. The form in which the stretched film is wound (for example, Japanese Patent Laid-Open Publication No. 2). [Patent Document 1] Japanese Laid-Open Patent Publication No. 2003-2(1), No. pp. pp. pp. pp. pp. pp. pp. pp. pp. (4) Fig. 4 (Problem to be solved by the invention) However, according to the package form of the above Patent Document 1, in the process of the disc, it is necessary to use the disc from the accumulation jig which is used as the accumulation disc. The stacking column is transferred to the work box of the special box. In addition, the unit price of the special box itself is also high, and the transportation efficiency has a bad problem. Further, in Patent Document 2, as described above, according to the form of the packaging film on the outer periphery of the disc, the stacked column can be used, and the work efficiency is also good, but there is a so-called mutual phase with respect to the pressure from the upper and lower sides of the disc 1297664, 1 · · The problem of the possibility that neighboring discs interfere with each other. Further, in the structure and type of the disc, the discs having the stacked column ribs are attached to the discs. In order to prevent the discs from rubbing each other, the spacers need to be sandwiched between the discs, but the spacers are not prevented. For the purpose of use, there is a problem in that it is necessary to insert a post or the like into the center hole of the disc. In view of the above, the present invention has been made in view of the above-described inventors of the present invention. When the present invention provides a plurality of discs for transporting a plurality of discs, it is capable of withstanding the force from the vertical direction (rotational axis direction) of the disc, and can be used when manufacturing the disc. The purpose of the assembly of the disc package and the disc packaging method. In order to solve the above-described problems, the disc package of the present invention is characterized in that the disc transporting column having the first locking portion on one end side is provided, and an opening is formed from the disc. The other end side of the transport column is inserted into the first rigid plate of the opening for the disc transporting; the disc transporting post is inserted into the opening of the central portion to form a plurality of discs; the opening is formed from the disc The other end of the transport column is inserted into the second rigid plate of the opening for the disc transport; between the first rigid plate and the disc, between the discs, and the second a spacer provided between the rigid plate and the disk; detachably disposed on the other end side of the disk transporting column ′ Between the first locking portion and the first locking portion, the plurality of the disk and the first 1. a second locking portion of the second rigid plate; and a packaging means for enclosing at least the outer peripheral side of the first and second rigid plates and the plurality of outer peripheral sides of the disk. According to this configuration, the first locking portion, the first rigid plate, the disk, the second rigid plate, and the second locking portion can be used in this order from the disk transporting column 1297664 » i
» I 一端側向另一端側配置。因而可藉由間隔件將以疊層複數 枚碟片所成的疊層體’從其兩端側用第i剛性板與第2剛 性板來夾住,所以對碟片包裝體加予碟片運輸用柱之軸方 向的負載時’亦由於在第1、第2剛性板接住該負載,所 以可消除碟片的撓曲、變形之虞。尙第1、第2之剛性板 係比碟片剛高的板。 又本發明之碟片包裝方法之特徵,係包括:在豎設於 基台的第1柱之一端安裝第2柱,用來組裝碟片疊層用柱 § 的製程;在形成於第1剛性板的開口插通該碟片疊層用柱 之一端,將該第1剛性板嵌裝於該碟片疊層用柱的製程; 將***有第1剛性板的該碟片疊層用柱之一端,***形成 在碟片中心部的開口,交替地疊層複數枚之該碟片與複數 枚之間隔件的製程;在形成於第2剛性板的開口插通該碟 片疊層用柱之一端,嵌裝該第2剛性板於該碟片疊層用柱 的製程;至少藉包裝手段來包住該第1、第2剛性板之外 周側及複數枚之該碟片外周側的製程;將該第2柱從該第 i 1柱卸下,將一端具有第1卡止部的碟片運輸用柱之另一 端,安裝在該第1柱之一端的製程;從該第1柱將該第1 、第2之剛性板、複數枚之該碟片、及複數枚之間隔件移 到該碟片運輸用柱的製程;從該碟片運輸用柱卸下該第1 柱的製程;及於該碟片運輸用柱之另一端安裝第2卡止部 ,在該第1卡止部與該第2卡止部之間鎖緊該複數枚之碟 片及間隔件、以及第1及第2剛性板來固定的製程。 依如此的構成,將疊層在碟片疊層用柱的第1剛性板 1297664 ,,' * 、碟片、第2剛性板,轉移到碟片運輸用柱,在第1卡止 部與第2卡止部之間能鎖緊此等第1剛性板、碟片、第2 剛性板。因而,對碟片包裝體若加予碟片運輸用柱之軸方 向的負載時,由於將此負載以第1、第2剛性板所接住, 能消除碟片的撓曲、變形之虞。 依本發明,疊層規定數量之碟片運輸時,藉第1、第2 剛性板能耐碟片之來自上下方向(旋轉軸方向)等之力,且 能活用製造碟片時使用的集積治具,能提高作業效率等。 【實施方式】 其次對本發明之實施形態,邊參照適宜圖式詳細的加 以說明。 第1圖係關於一實施形態的碟片包裝體斜視圖,第2 圖係碟片包裝體之第1圖中Π-II剖面圖。第3圖係表示組 裝碟片疊層用柱製程的斜視圖,·第4圖係於碟片疊層用柱 表示依序***剛性板及碟片等製程的斜視圖。第5圖係表 p 示藉由碟片疊層用柱疊層碟片之製程的斜視圖,第6圖係 表示包裝被疊層的碟片外周側之製程的斜視圖。第7圖係 表示第2柱與碟片運輸用柱交換之製程的斜視圖,第8圖 係表示將碟片運輸用柱組裝於第2柱之製程的斜視圖。第 9圖表示將第1、第2剛性板及碟片等移於碟片運輸用柱之 製程的斜視圖,第1 〇圖係將碟片運輸用柱從第1柱卸下來 反轉上下,且安裝第2卡止部之製程的斜視圖。第1 1圖係 表示再度上下反轉碟片包裝體之製程的斜視圖。 如第1圖及第1圖所示,碟片包裝體1具備:碟片運 1297664 輸用柱1 Ο、第1剛性板2 Ο、複數枚之碟片3 Ο、3 0…、第2 剛性板4 0、複數枚之間隔件5 0、及爲包裝手段的包裝薄膜 6 〇所構成。 在此,碟片運輸用柱1 0具備有:用金屬材料等形成的 細長支柱所成的柱本體1 Ο A ; —體形成於柱本體1 〇 a之— 端側(第2圖中之上端側)的圓板狀第1卡止部1 〇 b ;及在形 成於柱本體1 Ο A之另一端側(第2圖中之下端側)的雌螺紋 部1 0D,螺合雄螺紋部1 0E且安裝爲可裝卸的第2卡止部 ¥ 10C。尙此碟片運輸用柱10之長度尺寸L,係如第10圖所 示形成爲比疊層第1剛性板2 0、複數枚之碟片3 0、3 0 ··_、 第2剛性板4 0及複數枚之間隔件5 0、5 0…(參照第4圖) 的高度尺寸h稍微小。因此,如後所述將第2卡止部1 〇 C 螺合於柱本體10A時,在第1卡止部10B與第2卡止部10C 之間,如成鎖緊第1剛性板2 0、複數枚之碟片3 0、3 0…、 第2剛性板40及間隔件50於上下方向(軸方向)來固定。 g 第1剛性板2 0,例如使用鋁合金或鋼鐵材等具有剛性 的材料,形成爲圓板狀。又第1剛性板20之板厚,爲了提 高剛性形成大於碟片3 0之板厚。然後在第1剛性板2 0之 中心部形成爲圓形孔的開口 20A,其孔徑係設定爲大致與 柱本體1 〇 A之外徑相同。又此第1剛性板20之外徑,設定 爲大致與碟片30之外徑相同。又對於第2剛性板40亦形 成爲與第1剛性板相同。然後第1、第2剛性板20、40, 以從兩側夾住各碟片3 0全體的方式,配置在柱本體1 〇 A 之兩端側。藉此,第1、第2剛性板20、40係於碟片包裝 1297664 _ ' 1 體1之運輸時,加予軸方向(第2圖中之箭頭所示F、P)之 負載於碟片包裝體1時,接住此負載,予以防止各碟片3 0 彼此干涉。 碟片3 0例如由光碟等之記錄媒體所成,在其中心部形 成有爲圓形孔的開口 3 Ο Α。此開口 3 Ο Α之孔徑係設定爲大 致與柱本體1 Ο A之外徑相同。然後此碟片3 0,係於開口 3 0 A 內用***柱本體1 〇 A狀態,夾住間隔件5 0而疊層有複數枚。 間隔件5 0,使用樹脂材料等形成作具有開口 5 Ο A的環 ® 狀板,其內徑係設定爲大致與柱本體1 〇 A之外徑相同。又 間隔件50之外徑設定爲碟片30之外徑的1/3〜1/4程度之 大小。然後間隔件5 0,係設在介置於第1剛性板2 0與碟 片3 0之間、各碟片3 0彼此之間、碟片3 0與第2剛性板 40之間。藉此,間隔件5 0係於碟片包裝體1之運輸時等 ,分別防止了第1剛性板20與碟片3 0、各碟片3 0彼此、 碟片3 0與第2剛性板4 0的互相干涉。 包裝薄膜60由具有可撓性的樹脂薄膜所成,卷繞於第 1剛性板20之外周、各碟片30之外周、第2剛性板40之 外周。藉此,包裝薄膜60係於碟片包裝體1之運輸時等, 予以防止了傷到各碟片3 0。 其次,說明爲了包裝複數枚碟片30的碟片包裝方法。 首先如第3圖所示,在豎設於成圓板狀的基台7 1的第 1柱73A***環狀板所成的下板72,接著於形成在第1柱 73A上端(一端)的雄螺紋部73C,藉由螺合形成在第2柱 73B下端的雌螺紋部l〇D(參照第10圖),組裝碟片疊層用 -10- 1297664 I ' 柱7 0。尙下板7 2係如後所述,將第1、第2剛性板2 ο、 4〇及複數枚碟片30’從第1柱73Α向碟片運輸用柱ι〇舉 起之際’爲使作業者之手容易進入基台7 1與第1剛性板 2 〇之間,在基台7 ;ι與第丨剛性板2 〇之間形成間隙者。 其次如第4圖所示,從碟片疊層用柱7 〇之上端將該碟 片疊層用柱7 0,依序插通於第!剛性板2 〇之開口 2 〇 A (參 照第2圖)、間隔件5〇之開口 5〇a及碟片30之開口 30A。 _ 然後如第5圖所示,將複數枚之碟片3 〇之間夾著間隔件 50疊層於碟片疊層用柱70,將該碟片疊層用柱70***形 成於第2剛性板40的開口 40A。 然後接著如第6圖所示,由包裝薄膜60包住第1、第 2剛性板2 0、3 0外周側及複數枚之碟片3 0外周側。 其次如第7圖所示,從碟片疊層用柱70卸下第2柱 7 3 B,如第8圖所示,螺合形成在碟片運輸用柱1 〇下端 (另一端)的雌螺紋部l〇D(參照第2圖),於第1柱73A之雄 _ 螺紋部73C(參照第7圖)。 其次如第9圖所示,將第1、第2剛性板2 0、4 0及複 數枚之碟片30,從第1柱73A向碟片運輸用柱1〇舉起移 動。然後,其次如第10圖所示,將碟片包裝體1’配置成上 下逆向,從碟片運輸用柱10卸下第1柱73A,並藉由在碟 片運輸用柱1〇之上端(另一端)安裝第2卡止部l〇C,在第 1卡止部10B與第2卡止部10C之間鎖緊第1剛性板20、 複數枚之碟片3 0、第2剛性板4 0、及間隔件5 0於上下方 向固定。然後,於最後如第11圖所示,再度配置碟片包裝 -11- 1297664 * * 1 體1爲上下逆向來結束製程。 因而依如此構成的本實施形態,將第1卡止部1 0B、 第1剛性板2 0、複數枚之碟片3 0、第2剛性板4 0、第2 卡止部1 0C,用此順序從碟片運輸用柱1 0之一端側向另一 端側來配置,所以藉由間隔件5 0所疊層的由複數枚碟片 3 0所成的疊層體,可從其兩端側用第1剛性板2 0與第2 剛性板4 0夾住。藉此,對碟片包裝體1若加予碟片運輸用 柱10軸方向之負載(第2圖之箭頭表示F、F’)時,由於以 ® 第1、第2剛性板20、40接住此負載,能消除碟片30撓 曲、變形之虞。 因此,將碟片30疊層規定量來運輸時,藉第1、第2 剛性板20、40能耐從附加於碟片30的上下方向(旋轉軸方 向)等之力,並於活用製造碟片30時使用的集積治具(基台 7 1、碟片疊層用柱70等),能提高作業效率等。 尙在本實施形態,對碟片運輸用柱1 〇係第1、第2卡 | 止部10B、10C之中,僅以第2卡止部10B作可裝卸的安 裝構成之情況舉例說明,但本發明並不限定於此,例如將 第1、第2卡止部10B、10C之兩方對碟片運輸用柱1〇安 裝爲可裝卸構成亦可。 又在本實施形態,將包裝手段藉包裝薄膜60構成者來 敘述,但本發明並不限定於此,例如將包裝手段由具有某 程度剛性的圓筒狀盒來構成也可以。 【圖式簡單說明】 第1圖關於一實施形態表示碟片包裝體斜視圖。 -12- 1297664 第2圖碟片包裝體之第1圖中II-II剖面圖。 第3圖表示組裝碟片疊層用柱製程的斜視圖。 弟4圖表不依順序將剛性板及碟片等***於碟片疊^ 用柱製程的斜視圖。 弟5圖表不藉由碟片豐層用柱來疊層碟片製程的斜視 圖。 第6圖表示包裝疊層的碟片外周側製程的斜視圖。 弟7圖表不將弟2柱與碟片運輸用柱交換製程的斜視 圖。 第8圖表示將碟片運輸用柱組裝於第2柱製程的斜視 圖。 第9圖表示將第1、第2剛性板及碟片等移於碟片運 輸用柱製程斜視圖。 第10圖表示從第1柱卸下碟片運輸用柱且上下反轉, 安裝第2卡止部製程的斜視圖。» I One end side is configured to the other end side. Therefore, the laminated body formed by laminating a plurality of discs can be sandwiched by the i-th rigid plate and the second rigid plate from the both end sides thereof by the spacer, so that the disc package is added to the disc package. In the case of the load in the axial direction of the transport column, since the load is caught by the first and second rigid plates, the deflection and deformation of the disk can be eliminated.尙The first and second rigid plates are plates that are just higher than the disc. Further, the disc packaging method of the present invention is characterized in that: the second post is mounted on one end of the first post erected on the base, and the process for assembling the post for the disc lamination is formed; The opening of the plate is inserted into one end of the column for the disc lamination, and the first rigid plate is fitted into the post for the disc lamination; the disc is laminated with the first rigid plate One end is inserted into an opening formed in a central portion of the disc, and a plurality of the discs and a plurality of spacers are alternately laminated; and the opening formed in the second rigid board is inserted into the disc stacking column a process of embedding the second rigid plate in the disc stacking column at one end; at least the outer peripheral side of the first and second rigid plates and the plurality of outer peripheral sides of the disc are wrapped by a packaging means; The second column is detached from the i-th column, and the other end of the disk transporting column having the first locking portion at one end is attached to one end of the first column; the first column is used to The first and second rigid plates, the plurality of the disks, and the plurality of spacers are moved to the disc transporting column; from the disc a sheet transporting column for removing the process of the first column; and mounting a second locking portion at the other end of the disk transporting column, and locking the first locking portion and the second locking portion A process in which a plurality of discs and spacers, and first and second rigid plates are fixed. According to such a configuration, the first rigid plate 1297664, the '*, the disc, and the second rigid plate laminated on the column for disc lamination are transferred to the disc transporting column, and the first locking portion and the first locking portion are The first rigid plate, the disc, and the second rigid plate can be locked between the locking portions. Therefore, when the disk package is loaded in the axial direction of the disk transporting column, since the load is caught by the first and second rigid plates, the deflection and deformation of the disk can be eliminated. According to the present invention, when a predetermined number of discs are stacked, the first and second rigid plates can withstand the force from the vertical direction (rotational axis direction) of the disc, and can utilize the accumulation jig used for manufacturing the disc. Can improve work efficiency and so on. [Embodiment] Next, an embodiment of the present invention will be described in detail with reference to a suitable embodiment. Fig. 1 is a perspective view of a disk package according to an embodiment, and Fig. 2 is a cross-sectional view taken along line Π-II in Fig. 1 of the disk package. Fig. 3 is a perspective view showing a column process for assembling a disk stack, and Fig. 4 is a perspective view showing a process of inserting a rigid plate and a disk in sequence in a column for disc lamination. Fig. 5 is a perspective view showing a process of laminating a disk by a column for disc lamination, and Fig. 6 is a perspective view showing a process of the outer peripheral side of the disc on which the package is laminated. Fig. 7 is a perspective view showing a process of exchanging the second column with the column for transporting the disk, and Fig. 8 is a perspective view showing a process of assembling the column for transporting the disk to the second column. Fig. 9 is a perspective view showing a process of moving the first and second rigid plates and the discs to the disc transporting column. The first drawing is to remove the disc transporting column from the first column and reverse the up and down. And a perspective view of the process of mounting the second locking portion. Fig. 1 is a perspective view showing a process of reversing the disc package up and down again. As shown in Fig. 1 and Fig. 1, the disc package 1 includes a disc transport 1297664, a transport column 1 Ο, a first rigid plate 2 Ο, a plurality of discs 3 Ο, 3 0 ..., and a second rigidity. The plate 40, the plurality of spacers 50, and the packaging film 6 of the packaging means are formed. Here, the disk transporting column 10 is provided with a column body 1 Ο A formed of an elongated pillar formed of a metal material or the like; the body is formed on the end side of the column body 1 〇a (the upper end in FIG. 2) The disk-shaped first locking portion 1 〇b of the side and the female thread portion 10D formed on the other end side (the lower end side in FIG. 2) of the column body 1 , A, the male thread portion 1 is screwed 0E and installed as a detachable second locking part ¥10C. The length L of the disk transporting column 10 is formed as shown in Fig. 10 as a laminated first rigid plate 20, a plurality of disks 3 0, 3 0 ··_, and a second rigid plate. The height dimension h of the 40 and the plurality of spacers 50, 5 0, ... (see Fig. 4) is slightly small. Therefore, when the second locking portion 1 〇C is screwed to the column main body 10A as described later, the first rigid plate 20 is locked between the first locking portion 10B and the second locking portion 10C. The plurality of discs 30, 30, ..., the second rigid plate 40, and the spacer 50 are fixed in the vertical direction (axial direction). g The first rigid plate 20 is formed of a rigid material such as an aluminum alloy or a steel material, and is formed in a disk shape. Further, the thickness of the first rigid plate 20 is thicker than the thickness of the disk 30 in order to increase the rigidity. Then, an opening 20A having a circular hole is formed in the center portion of the first rigid plate 20, and the aperture is set to be substantially the same as the outer diameter of the column body 1 〇 A. Further, the outer diameter of the first rigid plate 20 is set to be substantially the same as the outer diameter of the disk 30. Further, the second rigid plate 40 is also formed in the same manner as the first rigid plate. Then, the first and second rigid plates 20 and 40 are disposed on both end sides of the column main body 1 〇 A so as to sandwich the entire disk 30 from both sides. Thereby, the first and second rigid plates 20 and 40 are attached to the disk in the axial direction (F, P shown by the arrow in FIG. 2) when the disk package 1297664 _ '1 body 1 is transported. In the case of the package 1, the load is caught to prevent the respective discs 30 from interfering with each other. The disc 30 is formed, for example, by a recording medium such as a compact disc, and has an opening 3 Ο in the center portion thereof as a circular hole. The aperture of this opening 3 Ο 设定 is set to be substantially the same as the outer diameter of the column body 1 Ο A. Then, the disc 30 is placed in the opening 3 0 A in the state of the insertion post body 1 〇 A, and the spacers 50 are sandwiched and stacked. The spacer 50 is formed of a resin material or the like as a ring-shaped plate having an opening 5 Ο A whose inner diameter is set to be substantially the same as the outer diameter of the column body 1 〇 A. Further, the outer diameter of the spacer 50 is set to be about 1/3 to 1/4 of the outer diameter of the disk 30. The spacer 50 is then placed between the first rigid plate 20 and the disk 30, between the disks 30, and between the disk 30 and the second rigid plate 40. Thereby, the spacers 50 are prevented from transporting the first rigid plate 20 and the disk 30, each of the disks 30, the disk 30, and the second rigid plate 4 during transportation of the disk package 1. 0 interferes with each other. The packaging film 60 is made of a flexible resin film and is wound around the outer circumference of the first rigid plate 20, the outer periphery of each of the discs 30, and the outer periphery of the second rigid plate 40. Thereby, the packaging film 60 is attached to the disc package 1 during transportation, and the like, and the discs 30 are prevented from being injured. Next, a description will be given of a disc packaging method for packaging a plurality of discs 30. First, as shown in Fig. 3, the lower post 72 formed by the annular plate is inserted into the first post 73A of the base 7 formed in a circular plate shape, and then formed on the upper end (one end) of the first post 73A. The male screw portion 73C is screwed into the female screw portion 10D (see FIG. 10) formed at the lower end of the second post 73B, and the -10-1297664 I' column 70 for disc lamination is assembled. As will be described later, the first and second rigid plates 2, 4, and 30' are lifted from the first column 73 to the disk transport column. The operator's hand is easily inserted between the base 7 1 and the first rigid plate 2 ,, and a gap is formed between the base 7 and the second rigid plate 2 〇. Next, as shown in Fig. 4, the disc stacking column 7 0 is inserted from the upper end of the disc stacking column 7 , in the order of the first! The opening of the rigid plate 2 is 2 〇 A (refer to Fig. 2), the opening of the spacer 5〇 5〇a, and the opening 30A of the disc 30. Then, as shown in Fig. 5, a plurality of discs 3 are stacked on the disc lamination column 70 with the spacer 50 interposed therebetween, and the disc lamination column 70 is inserted into the second rigidity. The opening 40A of the plate 40. Then, as shown in Fig. 6, the outer peripheral side of the first and second rigid plates 20 and 30 and the outer peripheral side of the plurality of discs 30 are wrapped by the packaging film 60. Next, as shown in Fig. 7, the second column 7 3 B is detached from the disc stacking column 70, and as shown in Fig. 8, the female body which is screwed to the lower end (the other end) of the disc transporting column 1 is screwed. The thread portion l〇D (see Fig. 2) is the male screw portion 73C of the first column 73A (see Fig. 7). Next, as shown in Fig. 9, the first and second rigid plates 20 and 40 and the plurality of disks 30 are lifted from the first column 73A to the disk transporting column 1. Then, as shown in Fig. 10, the disc package 1' is placed upside down, and the first column 73A is detached from the disc transporting column 10, and is placed at the upper end of the disc transporting column 1 ( At the other end, the second locking portion 10C is attached, and the first rigid plate 20, the plurality of disks 30, and the second rigid plate 4 are locked between the first locking portion 10B and the second locking portion 10C. 0, and the spacer 50 is fixed in the up and down direction. Then, at the end, as shown in Figure 11, re-distribute the disc package -11- 1297664 * * 1 Body 1 is up and down to end the process. Therefore, according to the present embodiment configured as described above, the first locking portion 10B, the first rigid plate 20, the plurality of disks 30, the second rigid plate 40, and the second locking portion 10C are used. Since the order is arranged from one end side of the disc transporting column 10 to the other end side, the laminated body formed by the plurality of discs 30 stacked by the spacers 50 can be from both end sides thereof The first rigid plate 20 is sandwiched by the second rigid plate 40. By the way, when the disk package 1 is loaded in the axial direction of the disk transporting column 10 (the arrows in the second figure indicate F and F'), the first and second rigid plates 20 and 40 are connected by the ® By this load, the deflection and deformation of the disc 30 can be eliminated. Therefore, when the discs 30 are stacked and transported by a predetermined amount, the first and second rigid plates 20 and 40 can withstand the force applied in the vertical direction (rotational axis direction) of the disc 30, and the disc can be used for production. The accumulation jig (the base 7 1 and the disc stacking column 70) used at 30 o'clock can improve work efficiency and the like. In the present embodiment, the case where the second transporting portion 10B is detachably attached to the first and second card|seat portions 10B and 10C of the disk transporting column 1 is exemplified, but The present invention is not limited thereto. For example, both the first and second locking portions 10B and 10C may be attached to the disk transporting column 1A so as to be attachable and detachable. Further, in the present embodiment, the packaging means is described by the packaging film 60. However, the present invention is not limited thereto, and for example, the packaging means may be constituted by a cylindrical case having a certain degree of rigidity. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a disk package according to an embodiment. -12- 1297664 Fig. 2 is a cross-sectional view taken along line II-II of Fig. 1 of the disc package. Fig. 3 is a perspective view showing the process of assembling the column for disc lamination. The 4th chart does not insert the rigid board and the disc in the order of the disc stack. The squint of the disc process is not superimposed by the disc layer. Fig. 6 is a perspective view showing the process of the outer peripheral side of the disc of the package stack. The 7th chart does not compare the squint of the 2 column and the disc transporting column. Fig. 8 is a perspective view showing the assembly of the disc transporting column in the second column process. Fig. 9 is a perspective view showing the process of moving the first and second rigid plates, the disk, and the like to the column for transporting the disk. Fig. 10 is a perspective view showing the process of attaching the second transporting portion by removing the disc transporting column from the first column and turning it upside down.
第11圖表示再度上下反轉碟片包裝體製程的斜視圖。 【主要元件符號說明】 1,1’ 碟片包裝體 10 碟片運輸用柱 20 第1剛性板 20A、30A、40A 開口 30 碟片 4〇 第2剛性板 5〇 間隔件 -13- 1297664 ,* ' 60 包裝薄膜(包裝手段) 70 碟片疊層用柱 73 A 第1柱 73B 第2柱Fig. 11 is a perspective view showing the process of reversing the disc packaging process again and again. [Description of main component symbols] 1,1' Disc package 10 Disc transport column 20 1st rigid plate 20A, 30A, 40A Opening 30 Disc 4〇 2nd rigid plate 5〇 Spacer-13-1297664,* ' 60 Packaging film (packaging method) 70 Disc stacking column 73 A 1st column 73B 2nd column
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