201236943 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種平置地積層保持複數塊玻璃板之梱包 容器及梱包體。 【先前技術】 近年來’用於FPD(Flat Panel Display,平板顯示器)等之 大型玻璃基板之需求增加。作為梱包此種大型玻璃基板之 梱包托板’已知有於將如專利文獻丨所揭示之複數塊玻璃 基板立起地排列之狀態下固定玻璃基板之梱包支架。 然而,因專利文獻1之梱包支架係將玻璃基板於立起之 狀態下進行搬運,故若為大型玻璃基板,則存在於飛機之 高度較低(例如’ 2 m以下)之收納室或先前之卡車之載物 台(例如2.2 m以下)受到高度之限制而無法收納之情形。 又,於將玻璃基板在立起之狀態下進行搬運之情形時,為 確保防止梱包粍板之倒置等之穩定性,而必需使得底面之 一邊之尺寸較大(例如,梱包托板之高度之0.5倍)。 因此,專利文獻1之梱包支架因與積載之玻璃基板之塊 數相比,梱包支架之體積及重量增大,故有搬運效率差之 缺點。 於此種背景下,專利文獻2中提出有如下平置之梱包托 板,其包括台座、及板狀體載置板,該板狀體載置板介由 支持構件而設置於該台座上並且於上表面大致水平地積層 有複數塊玻璃體。該梱包托板係藉由將板狀體載置板之上 表面形成為剖面V字形狀,而沿Μ狀之底板穩定地保持 161768.doc 201236943 藉由水平堆疊而彎曲成凹狀之玻璃板。 又,於專利文獻3中,提出有如下梱包容器:由可彎曲 之片材形成玻璃板之載置面,並且使該載置面繞軸1圈地 弯曲。 先行技術文獻 專利文獻 專利文獻1 :日本專利特開2000-272684號公報 專利文獻2:國際公開第2008/105190號 專利文獻3 :日本專利特開201 〇-13 178號公報 【發明内容】 發明所欲解決之問題 然而,於專利文獻2中將板狀體載置板之上表面形成為 剖面V字形狀,又,於專利文獻3中使玻璃板之載置面繞軸 1圈地彎曲,藉此,穩定地保持藉由水平堆疊而彎曲成凹 狀之玻璃板《然而,例如於利用卡車進行搬運時等,若力 沿剖面V字形狀之折彎軸(中心軸)或彎曲面之中心軸之長 度方向(軸方向)作用於玻璃板,則有載置於載置面之玻璃 板於軸方向上發生位置偏移(平移)之虞。因此,期待可防 止此種玻璃板之位置偏移,從而更穩定地保持固定玻璃板 之梱包之形態。 本發明係於此種背景下完成者,其目的在於提供一種可 於搬運時等防止平置之玻璃板之位置偏移,從而更穩定地 保持固定破璃板之梱包容器及梱包體。 解決問題之技術手段 161768.doc 201236943 本發明之梱包容器係將玻璃板載置為大致水平狀態而加 以保持者;且 C7座及配置於上述台座上並載置玻璃板之於俯視 二為矩形狀之載置板;上述載置板其四個角部全部向中心 P聋曲並且至少兩個角部獨立地向中心部臀曲。 又,於上述梱包容器中,上述載置板亦可為四個角部分 別獨立地向中心部弯曲。 又,於上述梱包容器中,上述載置板亦可為包含相鄰之 兩個角部之一邊部整體向中心部臀曲,另外兩個角部分別 獨立地向中心部臂曲。 又,較佳為上述載置板形成為與所載置之玻璃板大致相 同之大小。 本發明之梱包體包括上述梱包容器、及平置地積層保持 於上述梱包容器之上述載置板上之複數塊玻璃板。 發明之效果 根據本發明之梱包容器,載置玻璃板之載置板因四個角 部全部向中心部彎曲,並且至少兩個角部獨立地向中心部 彎曲,故平置地積層保持於載置板上之複數塊玻璃板藉由 特別是獨立地向中心部彎曲之兩個角部,而使長邊方向及 短邊方向之移動受到限制。藉此,該玻璃板相對於該載置 板之面方向上之所有方位之移動、即平移(位置偏移)受到 限制。因此,可於搬運時等,更穩定地保持固定玻璃板。 根據本發明之梱包體’因包括上述梱包容器、及於上述 桐包容器之上述載置板上平置地積層保持之複數塊玻璃 161768.doc 201236943 板’故於搬運時等,更穩定地保持固定玻璃板。 【實施方式】 以下’雖對本發明之梱包方法及梱包體之一實施形態進 行說明’但本發明並不限定於以下所說明之實施形態。 圖1係表示本實施形態之玻璃板之梱包體丨之外觀之立體 圖’圖2係用以說明於梱包容器1〇上平置地積層保持複數 塊玻璃板G而成之梱包體丨之概略構成之分解立體圖。 於梱包容器1 0中,大致水平地積層收納有複數塊(例如 80〜150塊)矩形狀玻璃板G。又,於玻璃板G之相互間,夾 持以較玻璃板G大之面積形成為矩形狀之間隔紙本實 施形態中所示之玻璃板G為用於FPD用之薄板之大型玻璃 基板’即例如板厚為〇·5 mm〜2.8 mm,縱橫尺寸約為2400 mm><21〇〇 mm〜32〇〇 mmx3 000 mm之大型玻璃板。 又,作為間隔紙12 ’為防止間隔紙12中之樹脂成分轉印 於玻璃板G表面而產生紙紋 '燒痕或污潰,使用紙之平滑 度(JIS P 8119,1976)為20秒以下、較佳為18秒以下之粗糙 面者。藉此,對玻璃板G之表面之接觸面積減少,樹脂成 分之轉印得到抑制。又,較佳為如下間隔紙12 ••可藉由將 樹脂成分調整為〇· 1質量%以下、較佳為〇 〇5質量%以下 (JIS P 8205,1976) ’利用與上述粗糙面之複合作用來保持 玻璃板G之品質。 梱包容器10構成為如圖2所示,包括於俯視時為矩形狀 之台座14及載置板16,更包括間隔紙壓制構件18 ^再者, 於梱包容器10之四角部’分別立設有構成容器積層機構之 I6l768.doc 201236943 導引構件2G。藉此,於將梱包容器1()於縱方向積層複數層 而搬運之情形時,可容易地於梱包容器10間定位,又,可 於梱包容器10間固定。 口座14係如圖1之A_ A線箭線線刮面圖、即圖3所示,藉 由複數根鋼材22而構成為框架狀。鋼材22係藉由將例如包 含1呂合金之擠出材或鋼板切割為特定形狀而形成《>而且, 至少製作2個將該等鋼材22縱橫地組裝成格子狀者,且利 用鋼材22以使格子面大致平行之方式連結該等,藉此形成 台座14。再者,鋼材22之材質只要為具有剛性且不產生微 粒之材質,則可使用所有金屬及樹脂等,但就重量、剛 性、成本之方面而言,較佳為鋁或者鋁合金。 於台座14之整個側面,如圖丨及圖2所示,於台座14之每 一側面之2個部位形成有供堆高機(未圖示)之又插入之堆高 機用開口部28。藉此,自台座14之縱橫側面之任一方向均 可對梱包容器10插入堆高機之又,且可有效地進行操作。 如圖3所不,載置板16介由振動吸收構件3〇及傾斜角度 設定構件32等而搭載於台座μ。 振動吸收構件30包括多個收縮吸收材34及伸長吸收材 36,並且配設於台座14與設置有傾斜角度設定構件32之托 盤38之間,從而吸收自台座14傳遞至載置板16之振動。 收縮吸收材34係如圖4(a)所示,具備具有彈性之凝膠材 料40,於該凝膠材料4〇之上端及下端,介由金屬製板42而 藉由螺栓46、46分別固定有凹形狀之托架44、44。而且, 下側之托架44藉由螺栓48而固定於台座14,上側之托架44 161768.doc 201236943 藉由螺栓48而固定於托盤38,藉此將收縮吸收材34固定於 台座14與托盤38之間。 伸長吸收材36如圖4(b)所示,具備具有彈性之凝膠材料 5〇’於該凝膠材料50之上端藉由銷54而固定有大致r;字狀 之托架52。又,托架52之下端藉由銷56而固定於台座14。 且,於凝膠材料50之下方’以特定間隙配置有大致j字狀 之托架58 ’且該托架58之上端藉由鎖59而固定於托盤38, 藉此將伸長吸收材36固定於台座14與托盤38之間。 收縮吸收材34與伸長吸收材36如圖3所示,規則地(例如 交替地)配設於托盤38之下表面之大致整個面。藉此,伴 隨因搬運時之振動而引起之台座丨4之搖晃之上下方向之振 動被吸收,因而該振動不會經由托盤38而傳遞至台座14上 之載置板16»即,若托盤38與台座14之間被壓縮(圖4(a)之 箭頭F1方向),則構成收縮吸收材34之凝膠材料4〇被壓縮 而收縮,而良好地吸收箭頭F1方向之振動。又,若托盤38 與台座14之間被伸長(圖4(b)之箭頭F2方向),則構成伸長 吸收材36之凝膠材料50被托架52與托架58壓縮而收縮,而 良好地吸收箭頭F2方向之振動。於任一之情形時,凝膠材 料40、50本身均於被壓縮時吸收振動。因此防止自台座“ 經由托盤38而傳達至載置板16之振動所引起之玻璃板〇之 位置偏移等之不良。 再者,於陸運或者空運時,考慮車辅或者飛機所產生之 固有振動數,凝膠材料40、50較佳為可有效地吸收例如 8〜20 Hz之振動頻率之材料。例如,可使用橡膠、樹脂、 161768.doc201236943 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a bread container and a casket body in which a plurality of glass sheets are held in a layered manner. [Prior Art] In recent years, there has been an increase in demand for large glass substrates for FPD (Flat Panel Display) and the like. A bag holder which is a large-sized glass substrate of a bag is known as a bag holder in which a glass substrate is fixed in a state in which a plurality of glass substrates as disclosed in the patent document are arranged upright. However, since the bag holder of Patent Document 1 transports the glass substrate in a state of being erected, if it is a large-sized glass substrate, it exists in a storage room having a low height (for example, '2 m or less) or a previous one. The truck's stage (for example, 2.2 m or less) is limited in height and cannot be stored. Further, in the case where the glass substrate is transported in a state of being erected, it is necessary to make the size of one side of the bottom surface large in order to ensure stability against inversion of the squeegee and the like (for example, the height of the slat plate) 0.5 times). Therefore, the bag holder of Patent Document 1 has a disadvantage in that the volume and weight of the bag holder are increased as compared with the number of stacked glass substrates. In this context, Patent Document 2 proposes a flat slat pallet which includes a pedestal and a plate-shaped mounting plate on which the plate-shaped body mounting plate is placed via a supporting member and A plurality of glass bodies are laminated on the upper surface substantially horizontally. The bag is formed by forming a V-shaped cross section on the upper surface of the plate-shaped mounting plate, and stably maintaining the bottom plate along the crotch-shaped bottom plate. The glass plate is bent into a concave shape by horizontal stacking. Further, Patent Document 3 proposes a bag container in which a mounting surface of a glass plate is formed from a flexible sheet, and the mounting surface is bent around the axis. CITATION LIST Patent Literature Patent Literature 1: Patent Publication No. 2000-272684 Patent Document 2: International Publication No. 2008/105190 Patent Document 3: Japanese Patent Laid-Open Publication No. JP-A No. 201-178 In order to solve the problem, in Patent Document 2, the upper surface of the plate-shaped mounting plate is formed into a V-shaped cross section, and in Patent Document 3, the mounting surface of the glass plate is bent around the axis. Therefore, the glass plate which is bent into a concave shape by horizontal stacking is stably held. However, for example, when transported by a truck, if the force is along a V-shaped bent axis (central axis) or a central axis of the curved surface When the longitudinal direction (axial direction) acts on the glass plate, the glass plate placed on the mounting surface is displaced (translated) in the axial direction. Therefore, it is expected that the positional deviation of such a glass plate can be prevented, and the shape of the bag of the fixed glass plate can be more stably maintained. The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a bag container and a wrapper body which can prevent the positional deviation of the flat glass plate during transportation and the like, thereby more stably holding the glass frit. Technical means for solving the problem 161768.doc 201236943 The bag container of the present invention holds the glass plate in a substantially horizontal state and holds it; and the C7 seat and the glass plate are placed on the pedestal and placed in a rectangular shape in plan view. a mounting plate; all of the four corners of the mounting plate are twisted toward the center P and at least two corner portions are independently bent toward the center portion. Further, in the above-described bag container, the placing plate may be bent to the center portion independently of the four corner portions. Further, in the above-described bag container, the mounting plate may have a hip portion including one of the adjacent corner portions as a whole, and the other two corner portions are independently bent toward the center portion. Further, it is preferable that the placing plate is formed to have substantially the same size as the placed glass plate. The package body of the present invention comprises the above-mentioned bag container and a plurality of glass plates which are laminated on the above-mentioned mounting plate of the above-mentioned bag container. Advantageous Effects of Invention According to the bag container of the present invention, the mounting plate on which the glass plate is placed is bent toward the center portion by the four corner portions, and at least two corner portions are independently bent toward the center portion, so that the laminated layer is held on the flat surface. The plurality of glass plates on the plate are limited in movement in the longitudinal direction and the short-side direction by the two corner portions which are bent independently toward the center portion. Thereby, the movement, i.e., translation (positional shift) of all orientations of the glass sheet with respect to the direction of the surface of the mounting plate is limited. Therefore, it is possible to hold the fixed glass plate more stably during transportation and the like. According to the present invention, the package body 301768.doc 201236943 is a plurality of pieces of glass 161768.doc 201236943 which are stacked and held on the mounting plate of the above-mentioned tallow container, and are more stably held during transportation. glass plate. [Embodiment] The following describes the embodiment of the bag method and the package body of the present invention. However, the present invention is not limited to the embodiments described below. Fig. 1 is a perspective view showing the appearance of a package body of a glass sheet according to the present embodiment. Fig. 2 is a schematic view showing a schematic configuration of a package body in which a plurality of glass sheets G are stacked and held flat on a stack of containers 1 . Decompose the perspective view. In the bag container 10, a plurality of rectangular glass sheets G (for example, 80 to 150 pieces) are stacked in a substantially horizontal manner. Further, the glass sheet G is sandwiched between the glass sheets G and formed into a rectangular shape in a larger area than the glass sheet G. The glass sheet G shown in the embodiment is a large-sized glass substrate for the sheet for FPD. For example, a large glass plate having a plate thickness of 〇·5 mm to 2.8 mm and an aspect ratio of about 2400 mm><21〇〇mm~32〇〇mmx3 000 mm. Further, the spacer paper 12' is used to prevent the resin component in the spacer paper 12 from being transferred onto the surface of the glass sheet G to cause burnt marks or stains, and the smoothness of the paper (JIS P 8119, 1976) is 20 seconds or less. Preferably, it is a rough surface of less than 18 seconds. Thereby, the contact area with respect to the surface of the glass plate G is reduced, and the transfer of the resin component is suppressed. Further, it is preferable that the spacer paper 12 is adjusted to have a resin component of 〇·1 mass% or less, preferably 〇〇5 mass% or less (JIS P 8205, 1976) The role is to maintain the quality of the glass sheet G. The bag container 10 is configured as shown in FIG. 2, and includes a pedestal 14 and a mounting plate 16 which are rectangular in plan view, and further includes a spacer press member 18. Further, the four corner portions of the bag container 10 are respectively provided I6l768.doc 201236943 guiding member 2G constituting a container laminating mechanism. Therefore, when the bag container 1 () is stacked in a plurality of layers in the longitudinal direction, it can be easily positioned between the bag containers 10 and can be fixed between the bag containers 10. The mouthpiece 14 is formed in a frame shape by a plurality of steel materials 22 as shown in Fig. 3, as shown in Fig. 3 . The steel material 22 is formed by cutting an extruded material or a steel plate containing, for example, a monolithic alloy into a specific shape. Further, at least two steel materials 22 are vertically and horizontally assembled into a lattice shape, and the steel material 22 is used. The pedestal 14 is formed by joining the lattice faces in a substantially parallel manner. Further, the material of the steel material 22 may be any metal, resin or the like as long as it is rigid and does not generate fine particles. However, aluminum or an aluminum alloy is preferable in terms of weight, rigidity and cost. On the entire side surface of the pedestal 14, as shown in Fig. 2 and Fig. 2, a stacker opening 28 for inserting a stacker (not shown) is formed at two locations on each side of the pedestal 14. Thereby, the bag container 10 can be inserted into the stacker from either of the longitudinal and lateral sides of the pedestal 14, and the operation can be performed efficiently. As shown in Fig. 3, the placing plate 16 is mounted on the pedestal μ via the vibration absorbing member 3, the inclination angle setting member 32, and the like. The vibration absorbing member 30 includes a plurality of shrinkage absorbing members 34 and an elongated absorbing material 36, and is disposed between the pedestal 14 and the tray 38 provided with the inclination angle setting member 32, thereby absorbing vibration transmitted from the pedestal 14 to the placing plate 16. . As shown in Fig. 4(a), the shrinkage absorbing material 34 is provided with a gel material 40 having elasticity, and is fixed to the upper end and the lower end of the gel material 4, respectively, by bolts 46 and 46 via a metal plate 42. Brackets 44, 44 having a concave shape. Further, the bracket 44 on the lower side is fixed to the pedestal 14 by bolts 48, and the bracket 44 161768.doc 201236943 on the upper side is fixed to the tray 38 by bolts 48, thereby fixing the shrinkage absorbing material 34 to the pedestal 14 and the tray. Between 38. As shown in Fig. 4(b), the elongated absorbent member 36 is provided with a resilient gel material 5?', and a substantially r-shaped bracket 52 is fixed to the upper end of the gel material 50 by a pin 54. Further, the lower end of the bracket 52 is fixed to the pedestal 14 by a pin 56. Further, below the gel material 50, a substantially j-shaped bracket 58' is disposed with a specific gap, and the upper end of the bracket 58 is fixed to the tray 38 by a lock 59, whereby the elongated absorbent member 36 is fixed to the tray 38. Between the pedestal 14 and the tray 38. The shrinkage absorbing material 34 and the elongated absorbing material 36 are regularly (e.g., alternately) disposed on substantially the entire surface of the lower surface of the tray 38 as shown in Fig. 3 . As a result, the vibration of the pedestal 4 caused by the vibration during transportation is absorbed in the vertical direction, and the vibration is not transmitted to the mounting plate 16 on the pedestal 14 via the tray 38. When the pedestal 14 is compressed (in the direction of the arrow F1 in Fig. 4(a)), the gel material 4 constituting the shrinkage absorbing material 34 is compressed and contracted, and the vibration in the direction of the arrow F1 is well absorbed. Further, when the tray 38 and the pedestal 14 are extended (in the direction of the arrow F2 in Fig. 4(b)), the gel material 50 constituting the elongated absorbent member 36 is compressed by the bracket 52 and the bracket 58 to be contracted, and is good. Absorbs the vibration in the direction of the arrow F2. In either case, the gel materials 40, 50 themselves absorb vibrations when compressed. Therefore, it is possible to prevent the positional deviation of the glass sheet due to the vibration transmitted to the mounting plate 16 via the tray 38. Further, in the case of land transportation or air transportation, the natural vibration generated by the vehicle or the aircraft is considered. The gel materials 40, 50 are preferably materials which can effectively absorb a vibration frequency of, for example, 8 to 20 Hz. For example, rubber, resin, 161768.doc can be used.
S 201236943 矽酮等振動吸收材料《又,亦可使用壓縮橡膠等彈性體、 或金屬製之壓縮彈簧來代替此種凝膠材料4〇、5〇0進而, 亦可使用對拉伸具有彈性作用之彈性體。 托盤38如圖2及圖3所示’藉由托盤框架39與傾斜角度設 定構件32而構成。托盤框架39將例如包含鋁合金之擠出材 或鋼板切割成特定形狀而形成之複數個鋼材6丨縱橫地編排 而形成為格子狀。傾斜角度設定構件32藉由固定於托盤框 架39上之咼度不同之複數個鋼材(支持構件)6〇而構成。 鋼材60於本實施形態中如托盤38之平面圖、即圖5所 示,包括:鋼材60a ’其分別配置於與該四角部、即於俯 視時為矩形狀之載置板16之四角部對應之各角部;及其他 鋼材60b ’其配置於該等四角部以外之處。配置於各角部 之鋼材60a與其他鋼材60b相比形成為特定高度,例如高1〇 mm〜50 mm左右。再者,該特定高度根據積層保持於梱包 容器10之玻璃板G之大小而適當決定。其他鋼材6〇b於本實 施形態中配置於各鋼材60a、60&間,並且沿托盤框架39之 長邊方向配置有複數根(圖5中為3根)。惟就該等其他鋼材 60b而言’其數量或配置可適當地變更。 又,就配置於各角部之鋼材60a而言,並未特別限定, 但較佳為其上端面向托盤框架3 9之中心部朝下方傾斜。藉 由如此般地形成,如下述般,於將載置板16貼設於鋼材 60a、60b上時,其四角部會向中心部平緩地彎曲。此處, 本發明中所謂中心部,未必指托盤框架39或載置板“之中 心點,而是指包含該中心點及其附近之相對較廣之範圍。 161768.doc 201236943 例如,作為上述鋼材60a之上端面傾斜之中心部之方向, 設為於圖5中以兩點鍵線表示之菱形η之相對於分別對向之 邊之垂線S方向。再者,圖5中之菱形Η係將於俯視時為矩 形狀之托盤框架39之各邊之中心點連結而形成。 於該等各鋼材60(60a、60b)上,如圖6所示包含鋁板等, 且貼設有與積層保持之玻璃板G大致相同之大小、形狀之 載置板16。該載置板16係載置於各鋼材6〇(6〇a、6〇b)上, 且於藉由將其四角部支持於較高之位置而自各角部至中心 部分別因自重而彎曲後,藉由接著劑或雙面膠帶等接著、 貼設於鋼材60(60a、60b)上。具體而言,載置板16係藉由 接著等而貼設於圖5所示之各角部之鋼材6〇a、及菱 之鋼材60b。藉此,載置板16係如圖6所示,四個角部全部 向中心部彎曲。 即,載置板16係藉由在菱形η内貼設於相同高度之鋼材 60b而成為平面(大致水平面),但於各角部之鋼材6〇&與菱 形Η之間基於鋼材60a與鋼材60b之高低差而傾斜,進而以 因自重而朝下方凸起之方式彎曲。換言之,載置板丨6係其 四個角部(角部)全部向中心部且分別獨立地彎曲。因此, 於載置板16,於其四個角部(角部)形成有分別獨立之彎曲 部 16a。 此處,所謂中心部,如上述般並非指載置板16之中心 點,而是指包含該中心點及其附近之相對較廣之範圍,例 如,係指於圖5中以兩點鏈線表示之垂線8之延長線最接近 上述中心點之部纟。但《,當然亦可於設計上使中心部與 161768.doc 10 201236943 中心點一致。 再者’若如此般地使載置板16之各角部管曲,則為了加 強’亦可使適當之支持材介於各彎曲部l6a與鋼材6〇b、或 與托盤框架39之間。 載置板16之各彎曲部16a之高低差係根據傾斜角度設定 構件32之鋼材60a、60b之高低差而決定,因此如上述般為 10 mm〜5〇 mm左右。可藉由設為10 mm以上,而更良好地 防止如下述般載置於載置板16上之玻璃板G之位置偏移(平 移)。又,可藉由設為50 mm以下,而於裝入或裝卸玻璃板 G時,避開堆積之玻璃板G之角部干擾到裝入或裝卸用之 機械臂(未圖示)等。 再者,此種各彎曲部163之高低差(1〇mm〜5〇mm)若換算 為圖5中之垂線S上之傾斜角,則例如於仍尺寸 mmx2500 mm)時為〇7。〜3 5。左右,又於gi〇尺寸_〇 mmx3130 mm)時為〇5。〜27。左右。因此,實際上看上去 為幾乎不彎曲(傾斜)之程度。 再者作為載置板丨6’只要為容易地追隨鋼材6〇a、6〇b 之门低差而發生彈性變形,進而以因自重而朝下方凸起之 方式彎曲之材質及厚度即可,除純以外,亦可使用銘合 金板或鋁製之蜂窩板等各種者。 圖7(a)係圆1所示之梱包容器10之載置板16之形狀之概念 ^如該圖所不,載置板16係於四角分別獨立地形成弯曲 部16a°藉此’載置板16係以於圖7⑷中以虛線表示之方 式,成為針對每個角部(f曲部16a)而具有彎曲軸丁者。因 161768.doc 201236943 此,載置板16係限制積層保持於其上之玻璃板^相對於其 面方向之所有方位之移動、即平移(位置偏移)。即因玻 璃板G為與載置板16大致相同之大小形狀,故即便欲朝 其面方向中之任一方向移動,亦與彎曲部16a之上述彎曲 軸τ交又,因此,由該等彎曲部16a之任一者所干擾因而移 動受到限制。 再者,本發明之載置板並不限定於圖7(a)所示之構成, 亦可採用例如圖7(b)所示之構成。即,與圖中載置板 16係四個角部分別獨立地向中心部彎曲相對,圖7(b)所示 之載置板17包含相鄰之兩個角部之一邊部整體向中心部彎 曲而形成f曲部丨7b ’另外兩個角部分別獨立地向中心部 蠻曲而形成彎曲部17a。 於角部彎曲而成之彎曲部17a包含與圖7(a)所示之載置板 16中之彎曲部16a相同之構成。又,彎曲部17b係邊部整體 向載置板17之長邊之長度方向之中心線彎曲。因此,構成 該f曲部17b之兩角部藉由向上述中心線方向彎曲,而向 載置板17之中心部弯曲。 就此種構成之載置板17而言,如圖7(b)中以虛線所示 般’成為針對各彎曲部17a、171)之每一個而具有彎曲軸τ 者°因此’載置板17亦限制積層保持於其上之玻璃板g對 於其面方向之所有方位之移動、即平移(位置偏移)。即, 玻璃板G即便欲朝其面方向中之任一方向移動,亦與彎曲 17a、17b之上述彎曲軸τ交又。而且’藉由被獨立地向 中心部彎曲之彎曲部17a干擾,而朝玻璃板G之短邊方向及 161768.docS 201236943 Vibration absorbing material such as fluorenone. Alternatively, an elastomer such as compression rubber or a compression spring made of metal may be used instead of the gel material 4〇, 5〇0, and may also have elasticity for stretching. Elastomer. The tray 38 is constructed by the tray frame 39 and the inclination angle setting member 32 as shown in Figs. 2 and 3 . The tray frame 39 is formed in a lattice shape by arranging a plurality of steel materials 6 formed by cutting an extruded material or a steel plate containing an aluminum alloy into a specific shape. The inclination angle setting member 32 is constituted by a plurality of steel materials (support members) 6 that are fixed to the tray frame 39 with different twists. In the present embodiment, the steel material 60 is a plan view of the tray 38, that is, as shown in FIG. 5, and includes steel materials 60a' which are respectively disposed at the four corner portions, that is, the four corner portions of the mounting plate 16 which is rectangular in plan view. Each corner portion; and other steel materials 60b' are disposed outside the four corner portions. The steel material 60a disposed at each corner portion is formed to have a specific height, for example, about 1 mm to 50 mm higher than the other steel materials 60b. Further, the specific height is appropriately determined depending on the size of the glass sheet G held by the stack container 10 in the laminate. In the present embodiment, the other steel material 6〇b is disposed between the respective steel materials 60a, 60& and a plurality of (three in Fig. 5) are arranged along the longitudinal direction of the tray frame 39. However, the quantity or arrangement of these other steels 60b may be appropriately changed. Further, the steel material 60a disposed at each corner portion is not particularly limited, but it is preferable that the upper end thereof faces the center portion of the tray frame 39 and is inclined downward. With such a configuration, when the mounting plate 16 is attached to the steel materials 60a and 60b as described below, the four corner portions are gently curved toward the center portion. Here, the center portion in the present invention does not necessarily mean the center point of the tray frame 39 or the mounting plate, but refers to a relatively wide range including the center point and its vicinity. 161768.doc 201236943 For example, as the above steel The direction of the center portion of the upper end surface of the 60a is set to be in the direction of the perpendicular S of the rhombic η indicated by the two-point key line in Fig. 5, and the rhombic line in Fig. 5 The center points of the sides of the rectangular tray frame 39 are connected to each other in a plan view. The steel materials 60 (60a, 60b) are made of an aluminum plate or the like as shown in Fig. 6, and are attached to the laminate. The glass plate G has substantially the same size and shape of the mounting plate 16. The mounting plate 16 is placed on each of the steel materials 6 (6〇a, 6〇b), and is supported by the four corners thereof. The position of the height is bent from the corners to the center portion by the self-weight, and then attached to the steel materials 60 (60a, 60b) by an adhesive or a double-sided tape or the like. Specifically, the mounting plate 16 is used. Then, the steel material 6〇a and the steel material 60b of each corner portion shown in FIG. 5 are attached to each other. As shown in Fig. 6, all the four corner portions are bent toward the center portion. That is, the mounting plate 16 is flat (substantially horizontal) by being attached to the steel material 60b of the same height in the rhombus η. The steel material 6〇& and the rhombic crucible at each corner are inclined based on the difference in height between the steel material 60a and the steel material 60b, and are further curved so as to protrude downward due to their own weight. In other words, the mounting plate 6 is four. All of the corner portions (corner portions) are bent independently from the center portion. Therefore, the mounting plate 16 is formed with independent curved portions 16a at the four corner portions (corner portions). Here, the center portion As described above, it does not refer to the center point of the mounting plate 16, but refers to a relatively wide range including the center point and its vicinity, for example, an extension of the vertical line 8 indicated by a two-dot chain line in FIG. The line is closest to the center point of the above-mentioned center point. However, "of course, the center part can also be designed to match the center point of 161768.doc 10 201236943. In addition, the corners of the mounting plate 16 are controlled. , in order to strengthen 'can also make the appropriate support material between each bend L6a is separated from the steel material 6〇b or the tray frame 39. The height difference between the curved portions 16a of the placing plate 16 is determined according to the difference in height between the steel materials 60a and 60b of the inclination angle setting member 32, and thus is as described above. 10 mm to 5 mm or so. By setting it to 10 mm or more, the positional shift (translation) of the glass plate G placed on the mounting plate 16 as described below can be more preferably prevented. When it is 50 mm or less, when the glass sheet G is loaded or unloaded, the corners of the glass sheet G that have been piled up are disturbed to the robot arm (not shown) for loading or unloading, etc. The height difference (1 mm to 5 mm) of the curved portion 163 is 〇7 when converted to the inclination angle on the vertical line S in Fig. 5, for example, when the size is still mmx2500 mm. ~3 5. It is 〇5 when it is left and right, and it is gi〇 size _〇 mmx3130 mm). ~27. about. Therefore, it actually appears to be almost not bent (tilted). In addition, the mounting plate 6' may be elastically deformed so as to easily follow the door difference of the steel materials 6〇a and 6〇b, and may be bent and bent to the lower side so as to be convex. In addition to pure, it is also possible to use various types such as alloy sheets or aluminum honeycomb panels. Fig. 7(a) is a view showing the shape of the mounting plate 16 of the bag container 10 shown by the circle 1. As shown in the figure, the placing plate 16 is formed at four corners to form the bent portion 16a independently. The plate 16 is formed by a broken line in Fig. 7 (4), and has a bending axis for each corner portion (f curved portion 16a). As a result, 161768.doc 201236943, the mounting plate 16 is intended to limit the movement, i.e., translation (positional shift) of all orientations of the glass sheet held thereon by the stack. In other words, since the glass sheet G has substantially the same size and shape as the mounting plate 16, even if it is intended to move in either of the plane directions, it is intersected with the bending axis τ of the curved portion 16a, and therefore, the bending is performed by the bending Any of the portions 16a interferes and thus the movement is limited. Further, the mounting plate of the present invention is not limited to the configuration shown in Fig. 7(a), and may be configured, for example, as shown in Fig. 7(b). That is, the four corner portions of the mounting plate 16 in the figure are independently bent toward the center portion, and the placing plate 17 shown in FIG. 7(b) includes one of the adjacent two corner portions as a whole toward the center portion. Bending to form the f-curved portion 7b' The other two corner portions are independently bent toward the center portion to form the bent portion 17a. The curved portion 17a bent at the corner portion has the same configuration as the curved portion 16a of the placing plate 16 shown in Fig. 7(a). Further, the entire curved portion 17b is bent toward the center line in the longitudinal direction of the long side of the placing plate 17. Therefore, the two corner portions constituting the curved portion 17b are bent toward the center line direction, and are bent toward the center portion of the placing plate 17. As shown in FIG. 7(b), the mounting plate 17 having such a configuration has a bending axis τ for each of the curved portions 17a and 171. Therefore, the mounting plate 17 is also mounted. The movement, that is, the translation (positional shift) of all orientations of the glass sheet g on which the laminate is held is restricted. In other words, even if the glass sheet G is to be moved in either of the plane directions, it is intersected with the above-mentioned bending axis τ of the bends 17a and 17b. Moreover, by the bending portion 17a which is independently bent toward the center portion, it faces the short side direction of the glass sheet G and 161768.doc
S 12 201236943 向該等彎曲部i 7a之方向之移動受到限制。又,藉由被弯 曲部17b干擾,而向朝向彎曲部17b之方向之移動亦受到限 制。 因此’玻璃板G被該等彎曲部17a、17b之任一者干擾因 而移動受到限制。 就具有此種彎曲部17a、17b之載置板17而言,可藉由將 配置於圖5所示之鋼材60b中之一短邊部中之角部間之鋼材 60b設為與角部中之鋼材6〇a相同之高度而形成。 再者,作為載置板之構成,亦可考慮圖7(c)〜(e)所示者 作為參考例。圖7(c)所示之載置板係於對’向之兩邊部形成 彎曲部17b。然而,該載置板雖可良好地防止相對於圖7(c) 中之箭頭X方向之玻璃板G之位置偏移,但無法與先前同 樣地防止該玻璃板G相對於與箭頭X方向正交之箭頭γ方向 之位置偏移。 又’圖7(d)所示之載置板係僅於一對角線上對向之一對 角部,形成彎曲部17a,但於另一對角線上對向之一對角 部,不形成彎曲部,而是為平面形狀,然而,該載置板雖 可良好地防止相對於一對角線方向、即圖7(d)中之箭頭χ 方向之玻璃板G之位置偏移,但無法防止該玻璃板G相對 於另一對角線方向、即箭頭γ方向之位置偏移。 又圖7(e)所示之載置板係於一邊部形成弯曲部17b,並 且僅於其他角部中之一者形成彎曲部17&。然而,該載置 板無法防止相對於另一角部、即圖7(e)中之箭頭γ方向之 玻璃板G之位置偏移。 161768.doc •13· 201236943 因此,作為本發明之梱包容器10及梱包體丨中之載置 板.,採用如下者:#圖7⑷或圖7(b)所示,與各_曲部對 應之彎曲軸τ以遍及所有方位地閉合之方式構成。 於此種構成之載置板16,如圖2所示,於其上表面,黏 附有用以緩衝藉由搬送等而產生之振動之樹脂片材62。作 為該樹脂片材62之材質,並未特別限定,使用可仿照作為 其基底之載置板16(17)之表面形狀,而形成與彎曲部 16a(17a、17b)相同之彎曲形狀之厚度、性狀者。又較佳 地使用為此種厚度、性狀者且緩衝性優異、加工性良好、 熱變形較少、進而無對玻璃造成影響之脫氣之材質者。而 且,於該樹脂片材62上多個玻璃板G介由間隔紙12而積 層0 積層之玻璃板G若其厚度例如為〇.5 mm〜2·8 mm左右則 非常地薄’因而四個角部仿照載置板丨6之表面形狀、即樹 脂片材62之表面形狀而彎曲,且全部向中心部臀曲。 又,就間隔紙12而言,使間隔紙12與玻璃板g之平面方 向之大致中心對準,且間隔紙12以自玻璃板G之各邊露出 特定量之方式積層。此時’於玻璃板G上,與該玻璃板g 同樣地,四個角部全部向中心部彎曲。The movement of S 12 201236943 in the direction of the curved portion i 7a is restricted. Further, the movement in the direction toward the curved portion 17b is also restricted by the bending of the bent portion 17b. Therefore, the glass plate G is interfered by any of the curved portions 17a and 17b, and the movement is restricted. In the mounting plate 17 having such curved portions 17a and 17b, the steel material 60b disposed between the corner portions of one of the short side portions of the steel material 60b shown in Fig. 5 can be set in the corner portion. The steel is formed at the same height as 6〇a. Further, as a configuration of the mounting plate, a case shown in Figs. 7(c) to (e) may be considered as a reference example. The placing plate shown in Fig. 7(c) is formed with a curved portion 17b formed on both sides of the pair. However, although the placing plate can well prevent the positional displacement of the glass sheet G with respect to the arrow X direction in FIG. 7(c), the glass sheet G cannot be prevented from being aligned with the arrow X direction as in the prior art. The position of the intersecting arrow γ is offset. Further, the mounting plate shown in Fig. 7(d) is formed on one diagonal line to form a curved portion 17a on one diagonal line, but does not form a diagonal portion on the other diagonal line. The curved portion has a planar shape. However, the mounting plate can well prevent the positional deviation of the glass sheet G with respect to the diagonal direction, that is, the direction of the arrow 图 in Fig. 7(d), but cannot The position of the glass sheet G with respect to the other diagonal direction, that is, the direction of the arrow γ is prevented from shifting. Further, the placing plate shown in Fig. 7(e) is formed with a curved portion 17b on one side, and the curved portion 17& is formed only in one of the other corner portions. However, the mounting plate cannot prevent the positional displacement of the glass sheet G with respect to the other corner portion, i.e., the arrow γ direction in Fig. 7(e). 161768.doc •13·201236943 Therefore, as the load container 10 of the present invention and the mounting plate in the 梱 丨 ,, the following is used: #图7(4) or Fig. 7(b), corresponding to each _ curved portion The bending axis τ is constructed to be closed over all orientations. As shown in Fig. 2, the mounting plate 16 of such a configuration is provided with a resin sheet 62 for damping vibration generated by conveyance or the like on the upper surface thereof. The material of the resin sheet 62 is not particularly limited, and the thickness of the curved shape which is the same as that of the curved portion 16a (17a, 17b) can be formed by using the surface shape of the mounting plate 16 (17) as a base. Character. Further, those having such a thickness and properties are excellent in cushioning property, good in workability, less in thermal deformation, and no degassing which affects glass. Further, on the resin sheet 62, the plurality of glass sheets G are laminated with a layer of paper 12, and the thickness of the glass sheet G which is laminated with a thickness of, for example, about 0.5 mm to about 2. 8 mm is extremely thin. The corner portion is curved in accordance with the surface shape of the placing platen 6, that is, the surface shape of the resin sheet 62, and all of them are hip-curved toward the center portion. Further, in the spacer paper 12, the center of the plane between the spacer paper 12 and the glass sheet g is aligned, and the spacer paper 12 is laminated so as to expose a certain amount from each side of the glass sheet G. At this time, in the glass plate G, all the four corner portions are bent toward the center portion in the same manner as the glass plate g.
間隔紙壓制構件18如圖1所示,於托盤38之4邊之各邊以 特定間隔例如每2個地配置,並藉由螺栓64、64而固定於 托盤38。若藉由螺栓64而緊固間隔紙壓制構件1 8,則玻璃 板G藉由間隔紙壓制構件1 8而自側面被壓制《藉此,玻璃 板G係其4邊由各間隔紙壓制構件18夾持。又,自玻璃板G 161768.doc 14 201236943 之4邊露出之間隔.紙12如圖8所示藉由間隔紙壓制構件18而 壓制,藉此相對於載置板16固定。 再者,於本實施形態中,於托盤38之各邊配置2個間隔 紙壓制構件1 8 ’但並不限定於此,亦可於托盤38之各邊僅 設置1個與各邊之長度對應者,或者亦可沿各邊設置3個以 上之較短之間隔紙壓制構件。 又’間隔紙壓制構件1 8如圖8所示’將自玻璃板g之侧面 露出且朝下側下垂之間隔紙12朝玻璃板G之側面方向壓 制。此時’因下垂之間隔紙12之端部重疊之部分藉由間隔 紙壓制構件18而壓制,故間隔紙壓制構件18不會與玻璃板 G之側面直接接觸。因此,藉由間隔紙12之柔軟性而保護 玻璃板G ’並且玻璃板G之積層體係其4邊之側面確實地被 壓制。又,即便玻璃板G因振動而欲上下移動,下垂之間 隔紙12亦被夾持於間隔紙壓制構件丨8與玻璃板〇之側面之 間,因間隔紙12相對於载置板16固定,故可抑制玻璃板G 之上下移動。又,亦可防止玻璃板G之橫方向之位置偏 移。 然而,於間隔紙壓制構件18之間隔紙壓制面丨9,根據重 疊之間隔紙12之厚度而自上部向下部於自玻璃板〇離開之 方向形成有傾斜面。藉此’可藉由間隔紙壓制構件丨8而確 實地壓制間隔紙12,並且使施加於介由間隔紙丨2而積層之 各玻璃板G之端邊之壓制力均等化。因此,無對玻璃板g 施加過剩之負載,而使玻璃板G損傷之虞。 根據本實施形態之梱包容器10,因以於將玻璃板〇水平 161768.doc 201236943 地水平堆疊之狀態下搬運為前提,故與迄今為止之立式搬 送形態進行比較,可對搬送機構提供充分之積載效率,並 且即便為飛機或卡車等之頂較低之收納庫,與立式搬送形 態進行比較亦可容易地收納。 又,該梱包容器10之載置板16(17)因四個角部全部向中 心部彎曲並且至少兩個角部獨立地向中心部彎曲而形成彎 曲部16a(17a、17b),故可將平置地積層保持於載置板 16(17)上之複數塊玻璃板(^藉由特別是獨立地向中心部彎 曲之兩個角部而限制長邊方向及短邊方向之移動。藉此, 可限制s亥玻璃板相對於該載置板之面方向之所有方位之移 動、即平移(位置偏移)。因此,可於搬運時等,更穩定地 保持固定玻璃板G。 再者,該梱包容器10可於將玻璃板G梱包、搬運、開相 並取出玻璃板G後,直接重新使用空的梱包容器又, 此種重新使用可重複多次。 又’根據本實施形態之梱包體1,因包括上述梱包容器 ίο、及平置地積層保持於該梱包容器之載置板16(17)上之 複數塊玻璃板G,故成為於搬運時等,更穩定地保持固定 玻璃板G者。 再者’本發明並不限定於上述實施形態’而可於不脫離 本發明之主旨之範圍内進行各種變更。 例如,於上述實施形態中,雖使用剛性較高且輕量之鋁 製之板材作為載置板16(17),但亦可將其設為铭製之蜂宵 板0 161768.doc 16 201236943 又’於上述實施形態中,雖使間隔紙12介於玻璃板G 間’但亦可不使間隔紙12如此般地介入,而將複數塊玻璃 板G直接水平堆昼地積層。 雖將本發明詳細地、並參照特定之實施態樣進行了說 明’但對本領域技術人員而言,應明確可於不脫離本發明 之範圍及精神之前提下施加各種修正或變更。 本申請案係基於2011年1月21曰申請之曰本專利申請案 2011-010639 ’並將其内容作為參照引用於此。 產業上之可利用性 根據本發明之梱包容器及梱包體,可提供一種可於搬運 時等防止平置之玻璃板之位置偏移,從而更穩定地保持固 定玻璃板之優異之梱包容器及梱包體。 【圖式簡單說明】 圖1係表示本發明之梱包體之一實施形態之外觀之立體 圖。 圖2係用以說明圖1所示之梱包體之概略構成之分解立體 圖。 圖3係圖1所示之梱包體之a-A線箭線剖面圖。 圖4(a)及4(b)係表示振動吸收構件之構成之側剖面圖。 圖5係托盤之平面圖。 圖6係表示圖1所示之梱包容器之載置板之立體圖。 圖7(a)係圖1所示之梱包容器之載置板之形狀之概念圖, 圖7(b)係作為其他實施形態之載置板之形狀之概念圖,圖 7(c)〜7(e)係參考例之載置板之形狀之概念圖。 161768.doc -17· 201236943 圖8係間隔紙壓制構件之說明圖。 【主要元件符號說明】 1 梱包體 10 梱包容器 12 間隔紙 14 台座 16 載置板 16a 彎曲部 17 載置板 17a 彎曲部 17b 彎曲部 18 間隔紙壓制構件 19 間隔紙壓制面 20 導引構件 22 鋼材 28 堆高機用開口部 30 振動吸收構件 32 傾斜角度設定構件 34 收縮吸收材 36 伸長吸收材 38 托盤 39 托盤框架 40 凝膠材料 42 金屬製板 161768.doc .18· 201236943 44 托架 46 螺栓 48 螺栓 50 凝膠材料 52 托架 54 銷 56 銷 58 托架 59 銷 60 鋼材 60a、60b 鋼材 61 鋼材 62 樹脂片材 64 螺栓 G 玻璃板 H 菱形 S 垂線 T 彎曲軸 161768.doc -19-As shown in Fig. 1, the spacer press member 18 is disposed at a predetermined interval on each of four sides of the tray 38, for example, every two places, and is fixed to the tray 38 by bolts 64 and 64. When the spacer paper pressing member 18 is fastened by the bolts 64, the glass sheet G is pressed from the side by the spacer paper pressing member 18. Thereby, the glass sheet G is lined by the respective spacer pressing members 18 Clamping. Further, the distance between the four sides of the glass plate G 161768.doc 14 201236943 is exposed. The paper 12 is pressed by the spacer pressing member 18 as shown in Fig. 8, thereby being fixed relative to the placing plate 16. Further, in the present embodiment, two spacer paper pressing members 18' are disposed on each side of the tray 38. However, the present invention is not limited thereto, and only one side of each side of the tray 38 may be provided to correspond to the length of each side. Alternatively, three or more shorter spacer paper pressing members may be provided along each side. Further, the spacer paper pressing member 18 is formed by pressing the spacer paper 12 which is exposed from the side surface of the glass sheet g and which is lowered toward the lower side toward the side surface of the glass sheet G as shown in Fig. 8 . At this time, the portion where the end portions of the spacer paper 12 are overlapped is pressed by the spacer pressing member 18, so that the spacer pressing member 18 does not directly contact the side surface of the glass sheet G. Therefore, the glass sheet G' is protected by the softness of the spacer paper 12, and the side walls of the laminated system of the glass sheet G are surely pressed. Further, even if the glass sheet G is to be moved up and down due to vibration, the sag interval paper 12 is sandwiched between the spacer paper pressing member 8 and the side surface of the glass sheet, and the spacer paper 12 is fixed relative to the placing board 16, Therefore, the movement of the glass sheet G up and down can be suppressed. Further, the position of the glass sheet G in the lateral direction can be prevented from shifting. However, the spacer pressing surface 9 of the spacer paper pressing member 18 is formed with an inclined surface from the upper portion to the lower portion in the direction away from the glass sheet according to the thickness of the overlapping paper 12 . Thereby, the spacer paper 12 can be surely pressed by the spacer paper pressing member 8 and the pressing force applied to the end sides of the respective glass sheets G laminated via the spacers 2 can be equalized. Therefore, no excessive load is applied to the glass sheet g, and the glass sheet G is damaged. The bag container 10 according to the present embodiment is premised on the horizontal stacking of the glass plate 〇 level 161768.doc 201236943, so that the transfer mechanism can be provided in comparison with the conventional vertical transfer mode. It has a stowage efficiency and can be easily accommodated even when compared to a vertical transfer form, even if it is a container with a lower top of an airplane or a truck. Further, the mounting plate 16 (17) of the bag container 10 is formed by bending all of the four corner portions toward the center portion and at least two corner portions are bent independently toward the center portion to form the bent portion 16a (17a, 17b). The plurality of glass sheets that are stacked on the mounting plate 16 (17) are placed on the surface of the mounting plate 16 (17), and the movement in the longitudinal direction and the short-side direction is restricted by the two corner portions that are bent independently toward the center portion. It is possible to restrict the movement, that is, the translation (positional shift) of all the directions of the glass plate with respect to the surface direction of the mounting plate. Therefore, the fixed glass plate G can be more stably held during transportation and the like. The bag container 10 can directly re-use the empty bag container after the glass plate G is bagged, conveyed, opened, and taken out of the glass plate G. This re-use can be repeated a plurality of times. Further, the package body 1 according to the present embodiment In addition, since the above-mentioned bag container ίο and a plurality of glass plates G which are stacked on the mounting plate 16 (17) of the bag container are stacked in a flat manner, the glass plate G is stably held while being conveyed. Furthermore, the present invention is not limited to the above implementation. The present invention can be variously modified without departing from the spirit and scope of the invention. For example, in the above embodiment, a plate made of aluminum having a high rigidity and a light weight is used as the mounting plate 16 (17). It can be set as the bee board of the name 0 161768.doc 16 201236943 In the above embodiment, although the spacer paper 12 is interposed between the glass sheets G, the spacer paper 12 may not be intervened as such. The plurality of glass sheets G are stacked in a horizontally horizontally. The present invention has been described in detail with reference to the specific embodiments thereof, but it should be apparent to those skilled in the art that The present invention is based on the application of various amendments or changes. The present application is based on the entire disclosure of the entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire The bag container and the package body of the present invention can provide an excellent bag container and a wrapper body which can prevent the position of the glass plate which is placed flat during transportation and the like, thereby maintaining the glass plate more stably. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing the appearance of an embodiment of the package body of the present invention. Fig. 2 is an exploded perspective view showing the schematic configuration of the package body shown in Fig. 1. Fig. 3 is a side view of the package shown in Fig. 1. 4(a) and 4(b) are side cross-sectional views showing the structure of the vibration absorbing member. Fig. 5 is a plan view of the tray. Fig. 6 is a view showing the container of the package shown in Fig. 1. Fig. 7(a) is a conceptual view showing the shape of the mounting plate of the bag container shown in Fig. 1, and Fig. 7(b) is a conceptual view showing the shape of the placing plate of the other embodiment. 7(c) to 7(e) are conceptual diagrams of the shape of the mounting plate of the reference example. 161768.doc -17·201236943 Fig. 8 is an explanatory view of the spacer pressing member. [Description of main component symbols] 1 梱 体 10 梱 容器 12 12 12 12 12 12 12 12 12 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 28 Stacker opening 30 Vibration absorbing member 32 Tilt angle setting member 34 Shrinking absorbent material 36 Elongation absorbing material 38 Pallet 39 Pallet frame 40 Gel material 42 Metal plate 161768.doc .18· 201236943 44 Bracket 46 Bolt 48 Bolt 50 Gel material 52 Bracket 54 Pin 56 Pin 58 Bracket 59 Pin 60 Steel 60a, 60b Steel 61 Steel 62 Resin sheet 64 Bolt G Glass plate H Diamond S Vertical line T Bending axis 161768.doc -19-