M434760 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種載置板狀體,特別是液晶顯示器或電 楽·顯示器等平板顯示器(FPD,Flat Panel Display)中所使用 之玻璃板之板狀體收納容器。 【先前技術】 為包裝並搬送玻璃板等板狀體,而使用有板狀體收納容 器。經切割或加工之玻璃板藉由機器人或專用機等逐個吸 附保持並搬送’且載置(收納)於板狀體收納容器(托板) 中。其後’板狀體收納容器藉由推高機等搬送,取出(板 塊裁切)玻璃板,並投入(供給)至下一步驟中。 存在必需限制板狀體收納容器上之板狀體之移動之情 形。例如,於專利文獻,揭示有如下技術:藉由按壓 構件按壓裝載於板狀體收納容器中之玻璃板,以防止移動 (移位)。該按壓構件藉由螺絲等連結構件可裝卸地連結於 容器本體》 [先前技術文獻] [專利文獻] [專利文獻1]日本專利特開2009-154960龍公報,段落 0033 【新型内容】 "#可月t*存在如下情形:因輸送中之振動等,板狀 體於板狀體I納容器内移動而與按壓構件碰撞。於此情形 時,可能因連結構件用之貫通孔之變形等而難以裝卸按壓 M434760 構件。 鑒於上述情形,本創作之目的在於提供—種實現了防止 因對限制板狀體移動之移動限制構件之衝擊所致之損傷之 板狀體收納容器。 ⑴本創作之-態樣之板狀體收納容器包括:板狀體載置構 件,其載置板狀體;底座,其載置上述板狀體載置構件; 移動限制構件,其限制上述板狀體之移動;及連結機構, 其將上述移㈣制構件可裝卸地連結於上述板狀體載置構 件之側板上,且可進退;上述側板包括開口部,該開口部姍 包含相連通之第旧口區域與第2開口區域,上述第2開口 區域之寬度較上述第!開口區域之寬度窄,上述連結機構 包含:卡合構件,其具備可通過上述^開口區域而無法 通過上述第2開口區域之頭部,且設置於上述移動限制構 件’及it退機才冓,其使上述卡合構件相對於上述側板進 退。 (2)本創作之態樣之板狀體收納容器包括:板狀體載置構 件’其載置板狀體;底座,其載置上述板狀體載置構件;φ 移動限制構件’其限制上述板狀體之移動;及連結機構,* 其將上述移動限制構件可裝卸地連結於上述板狀體載置構. 件之[j板_L 可進退,上述移動限制構件包括開口部, 該開口部包含相連通之第1開口區域與第2開口區域,上述 第2開口區域之寬度較上述第…口區域之寬度窄,上述連 結機構包含:卡合構件,其具備可通過上述第旧口區域 而無法通過上述第2開口區域之頭部,且設置於上述板狀 •4- M434760 體載置構件之側板;及進退機構,其使上述卡合構件相對 於上述移動限制構件進退。 於(1)及(2)之板狀體收納容器中,上述進退機構可電性或 機械地使上述卡合構件進退。 又,上述進退機構可包括偏心凸輪,該偏心凸輪安裝於 軸部’且將與上述卡合構件之轴方向不同之方向作為旋轉 轴而偏心旋轉。M434760 V. New description: [New technical field] This creation is about a glass plate used in a flat panel display (FPD, Flat Panel Display) such as a liquid crystal display or an electric display/display. Plate-shaped container. [Prior Art] In order to package and convey a plate-like body such as a glass plate, a plate-shaped body storage container is used. The cut or processed glass sheets are sucked and held one by one by a robot or a special machine, and are placed and stored in a plate-shaped container (patch). Thereafter, the plate-shaped container is conveyed by a pusher or the like, and the glass plate is taken out (cut by the plate), and is fed (supplied) to the next step. There is a case in which it is necessary to restrict the movement of the plate-like body on the plate-like container. For example, in the patent document, there is disclosed a technique in which a glass plate loaded in a plate-shaped container is pressed by a pressing member to prevent movement (shifting). The pressing member is detachably coupled to the container body by a connecting member such as a screw. [Prior Art Document] [Patent Document 1] [Patent Document 1] Japanese Patent Laid-Open No. 2009-154960 Dragon Gazette, paragraph 0033 [New Content] "# The month t* may be such that the plate-like body moves in the plate-like body I container and collides with the pressing member due to vibration or the like during transportation. In this case, it is difficult to attach or detach the M434760 member due to deformation of the through hole for the connecting member or the like. In view of the above circumstances, an object of the present invention is to provide a plate-shaped container which realizes damage caused by an impact of a movement restricting member that restricts movement of a plate-like body. (1) The plate-shaped body storage container of the present invention includes: a plate-shaped body mounting member on which a plate-shaped body is placed; a base on which the plate-shaped body mounting member is placed; and a movement restricting member that restricts the plate a movement of the body; and a coupling mechanism that detachably couples the member (4) to the side plate of the plate-shaped member, and is movable forward and backward; the side plate includes an opening, and the opening includes The first opening area and the second opening area, and the width of the second opening area is larger than the above! The opening region has a narrow width, and the coupling mechanism includes an engaging member that is provided with the head portion that cannot pass through the second opening region through the opening region, and is provided to the movement restricting member ′ and the IT retracting device. It advances and retracts the engaging member relative to the side panel. (2) The plate-shaped body storage container according to the present aspect of the invention includes: a plate-shaped body mounting member that mounts a plate-like body; a base on which the plate-shaped body mounting member is placed; and a φ movement restricting member' a movement of the plate-like body; and a coupling mechanism, wherein the movement restricting member is detachably coupled to the plate-shaped body mounting member, and the movement restricting member includes an opening portion. The opening includes a first opening region and a second opening region, wherein the width of the second opening region is narrower than a width of the first opening region, and the connecting mechanism includes an engaging member that is configured to pass through the first opening The region does not pass through the head of the second opening region, and is provided on the side plate of the plate-shaped 4-M434760 body mounting member; and the advancing and retracting mechanism that advances and retracts the engaging member with respect to the movement restricting member. In the plate-shaped container according to any one of (1) and (2), the advancing and retracting mechanism electrically or mechanically advances and retracts the engaging member. Further, the advancing and retracting mechanism may include an eccentric cam attached to the shaft portion ′ and rotating in a direction different from the axial direction of the engaging member as a rotating shaft.
(3)本創作之-態樣之板狀體收納容器包括:板狀體载置構 件,其載置板狀體;底座,其載置上述板狀體載置構件; 移動限制構件,其限制上述板狀體之移動;及連結機構, 其將上述移動限件可裝卸地連結於上述板狀體載置構 件之侧板上,且可進退;上述側板包括開口部該開口部 包含相連通之第㈣口區域與第2開口區域,上述第2開口 上述第旧口區域之寬度窄’上述連結機構 ·卡合構件’其具備可通過上述第i開口(3) The plate-shaped body storage container of the present invention includes: a plate-shaped body mounting member on which a plate-shaped body is placed; a base on which the plate-shaped body mounting member is placed; and a movement restricting member that restricts And a connecting mechanism for detachably connecting the movement restricting member to the side plate of the plate-shaped body mounting member and advancing and retracting; the side plate includes an opening portion, and the opening portion includes the communicating portion a fourth (four) port region and a second opening region, wherein the second opening has a narrow width, and the connecting mechanism and the engaging member are provided with the ith opening
:過二Γ開口區域之頭部,且設置於上述移動限制構 、機構’其相對於上述側板切換上述卡合構件之 申長與收縮;上述切換機構包括:彈性構件,其包含於第 配置二向上具有不同寬度之第3開口、及沿上述第2方向 其安裝且Γ置於上述移動限制構件;及卡止構件, 口,二::軸』’於為上述第1方向時可通過上述第3開 m上34第2方向時無法通過上述第3開°,且卡止於 上述彈性構件之上述槽部。 、 於⑴〜⑺之板狀體收納容器十,更包括自側板或上述移動 切基 者大出之棒狀構件,且於上述側板或上述 移動限制構件$ s ϋ 之另一者包括第4開口,該第4開口插入有上 :棒狀構件’上述棒狀構件以可沿連結上述第1開口區域 ^述第2開口區域之方向移動,且上述卡合構件之上述 頭部與上述第1開σ區域對應之方式被卡止。 板狀體收納容II可包括複數個連結機構。 根據本創作’可提供—種實現了防止因對限制板狀體移 動之移動限制構件之衝擊所致之損傷之板狀 體收納容器。 【實施方式】 以下,參照圖式,對本創作之實施形態進行詳細說明。 再者’於本創作中,所謂「上方」係指鉛垂上方,所謂 「下方」係指錯垂下方。 (第1實施形態) 圖1係表示本創作之第i實施形態之板狀體收納容器1〇〇 之立體圖。 板狀體收納容器1〇〇包含:板狀體載置構件10、底座 20、支柱30、移動限制構件4〇及進退機構5〇,且載置板狀 體,特別是液晶顯示器或電漿顯示器等平板顯示器(FpD) 中所使用之玻璃板。 板狀體載置構件10具有箱形形狀(大致長方體形狀),於 其上面(上板12上)積層並載置板狀體G。板狀體載置構件 10包含侧板11及上板12。如下所述,側板i i包含與移動限 制構件40之卡合構件60及棒狀構件71分別對應之貫通孔 M434760 15 、 16 。 底座20具有箱形形狀(大致長方體形狀),於其上面載置 並保持板狀體載置構件10〇可由縱橫組裝複數個棒狀角 柱、方管或型鋼等框材製作而成之格子狀之框體構成底座 20 ° 於底座20之下面之4角具有與支柱3〇之前端嵌合之支柱 支撐件25。 可視需要’於板狀體載置構件1〇與底座2〇之間配置吸收 振動之緩衝構件。 支柱30配置於底座2〇之上面之4角。如上所述,該支柱 3 0之前端為可與底座2〇之支柱支撐件25嵌合之形狀。利用 s亥嵌合’可堆積複數個板狀體收納容器丨〇〇 ^即,將上段 之板狀體收納容器1〇〇之4角之支柱支撐件25位置對準於下 段之板狀體收納容器1〇〇之4角之支柱3〇之上,並堆積複數 個板狀體收納容器1 〇〇,從而可有效地收納板狀體。 移動限制構件40為用於限制板狀體載置構件丨〇上之板狀 體G之移動之構件,且分別每2個配置於板狀體載置構件1〇 之4個側面。 移動限制構件40包含移動限制構件側板41及移動限制構 件上板42。藉由移動限制構件側板41而防止板狀體自板狀 體載置構件10之上面下落。移動限制構件上板42可用於按 壓所積層之板狀體G之上面。 移動限制構件40藉由下述卡合構件60而與板狀體載置構 件10連結。 M434760 進退機構50為使下述卡合構件6〇相對於板狀體載置構件 10之側板11進退者。再者,其詳情將於後述。 圖2及圖3係表示移動限制構件4〇與板狀體載置構件丨〇間 之連結狀態之部分剖面圖及分解立體圖。 再者’為容易判斷,於圖2中,省略下述進退機構5〇之 操作桿53之圖示。又,於圖3中,省略左側之進退機構5〇 之偏心凸輪52、操作桿53之圖示》 板狀體載置構件1 〇之側板丨丨包含貫通孔丨5、16。貫通孔 15之開口部具有縱長之形狀,且區分為相連通而上下配置 之第1開口區域A1、第2開口區域A2。 第1開口區域A1具有可供下述卡合構件60之頭部62通過 之形狀’例如大致圓形之形狀。第2開口區域A2具有可供 下述卡合構件60之軸部61通過之形狀,例如組合大致矩形 與大致半圓形而成之上下較長之形狀。第2開口區域A2具 有上下較長之形狀之原因在於可使軸部61於第2開口區域 A2内上下移動。 第1開口區域A1之寬度dl大於第2開口區域A2之寬度 d2 °其結果’卡合構件6〇之頭部62無法通過第2開口區域 A2。即’第2開口區域A2僅可供卡合構件60之軸部61通 過。另一方面,第1開口區域A1可供卡合構件60之轴部 61、頭部62之兩者通過。 第1開口區域A1之寬度dl及第2開口區域A2之寬度d2係 規定為於與轴部61之可移動方向(上下方向)垂直之方向上 之寬度。 M434760 移動限制構件側板41上安裝有卡合構件6G及棒狀構件 卡合構件60具有轴部61及頭部62,且連接於進退 5〇。轴㈣具有大致圓柱形狀,且通過移動限制構件側: 41之貝通孔45,轴部61之—端固定於進退機構⑽中 61可通過第”幵’ 口區域幻、帛2開。區域之兩者。碩^ 62具有大致圓柱形狀,且固定於轴部61之另-端。頭部=: passing the head of the opening area, and disposed in the movement restricting mechanism, the mechanism 'switching the length and contraction of the engaging member with respect to the side plate; the switching mechanism includes: an elastic member, which is included in the second configuration a third opening having a different width in the upward direction, and being attached to the movement restricting member in the second direction; and the locking member, the opening, the second axis: the axis is the first direction When the opening m is 34 in the second direction, the third opening is not passed, and the groove portion of the elastic member is locked. The plate-shaped body storage container 10 of (1) to (7) further includes a bar-shaped member that is larger from the side plate or the moving cutter, and the other of the side plate or the movement restricting member $ s 包括 includes the fourth opening The fourth opening is inserted into the rod-shaped member. The rod-shaped member is movable in a direction in which the second opening region is coupled to the first opening region, and the head portion of the engaging member and the first opening are opened. The manner corresponding to the σ region is locked. The plate-shaped receiving body II may include a plurality of connecting mechanisms. According to the present invention, it is possible to provide a plate-shaped container which is prevented from being damaged by the impact of the movement restricting member that restricts the movement of the plate-like body. [Embodiment] Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Furthermore, in this creation, the term "above" refers to the vertical upper side, and the so-called "below" refers to the lower side. (First Embodiment) Fig. 1 is a perspective view showing a plate-shaped body container 1A according to an i-th embodiment of the present invention. The plate-shaped body storage container 1A includes a plate-shaped body mounting member 10, a base 20, a support post 30, a movement restricting member 4A, and an advancing and retracting mechanism 5A, and a plate-shaped body, particularly a liquid crystal display or a plasma display. A glass plate used in a flat panel display (FpD). The plate-shaped body mounting member 10 has a box shape (a substantially rectangular parallelepiped shape), and a plate-shaped body G is placed on the upper surface (upper plate 12). The plate-shaped body mounting member 10 includes a side plate 11 and an upper plate 12. As will be described later, the side plate i i includes through holes M434760 15 and 16 corresponding to the engaging member 60 and the rod member 71 of the movement restricting member 40, respectively. The base 20 has a box shape (a substantially rectangular parallelepiped shape), and a plate-like body mounting member 10 is placed on and held thereon, and a lattice-like shape in which a plurality of rod-shaped corner posts, square tubes, or steel members are assembled in a vertical and horizontal direction can be assembled. The frame constitutes a base 20° at a corner of the lower surface of the base 20 and has a pillar support 25 that is fitted to the front end of the pillar 3〇. A cushioning member that absorbs vibration is disposed between the plate-shaped member mounting member 1A and the base 2A as needed. The pillars 30 are disposed at the four corners above the base 2〇. As described above, the front end of the pillar 30 is shaped to be fitted to the pillar support 25 of the base 2b. The plurality of plate-shaped body storage containers can be stacked by the shovel assembly, and the pillar support 25 at the four corners of the plate-shaped body storage container 1 of the upper stage is aligned with the plate-shaped body of the lower stage. A plurality of plate-shaped body storage containers 1 are stacked on the struts 3 of the four corners of the container 1 to efficiently store the plate-shaped body. The movement restricting member 40 is a member for restricting the movement of the plate-shaped body G on the plate-shaped member mounting member, and is disposed on each of the four side faces of the plate-shaped member mounting member 1A. The movement restricting member 40 includes a movement restricting member side plate 41 and a movement restricting member upper plate 42. The plate-like body is prevented from falling from the upper surface of the plate-shaped member 10 by moving the regulating member side plate 41. The movement restricting member upper plate 42 can be used to press the upper surface of the laminated plate body G. The movement restricting member 40 is coupled to the plate-shaped body mounting member 10 by the following engaging member 60. The M434760 advancing and retracting mechanism 50 is for advancing and retracting the engaging member 6〇 described below with respect to the side plate 11 of the plate-shaped member mounting member 10. Furthermore, the details thereof will be described later. 2 and 3 are a partial cross-sectional view and an exploded perspective view showing a state in which the movement restricting member 4A and the plate-shaped member mounting member are connected to each other. Further, in order to make it easy to judge, in Fig. 2, the illustration of the operating lever 53 of the advancing and retracting mechanism 5A described below is omitted. Further, in Fig. 3, the eccentric cam 52 of the left and right advancing and retracting mechanism 5 and the operation lever 53 are omitted. The side plate of the plate-shaped body mounting member 1 includes the through holes 5 and 16. The opening of the through hole 15 has a vertically long shape and is divided into a first opening area A1 and a second opening area A2 which are arranged to communicate with each other. The first opening area A1 has a shape in which the head portion 62 of the following engaging member 60 passes, for example, a substantially circular shape. The second opening area A2 has a shape through which the shaft portion 61 of the engaging member 60 described below can pass, for example, a shape in which a substantially rectangular shape and a substantially semicircular shape are combined to form a shape that is longer and longer. The reason why the second opening area A2 has a vertically long shape is that the shaft portion 61 can be moved up and down in the second opening area A2. The width dl of the first opening area A1 is larger than the width d2 of the second opening area A2. As a result, the head portion 62 of the engaging member 6〇 cannot pass through the second opening area A2. That is, the second opening area A2 is only allowed to pass through the shaft portion 61 of the engaging member 60. On the other hand, the first opening area A1 is allowed to pass through both the shaft portion 61 and the head portion 62 of the engaging member 60. The width d1 of the first opening area A1 and the width d2 of the second opening area A2 are defined as widths in a direction perpendicular to the movable direction (up-and-down direction) of the shaft portion 61. M434760 The movement restricting member side plate 41 is provided with an engaging member 6G and a rod-shaped member. The engaging member 60 has a shaft portion 61 and a head portion 62, and is connected to the front and rear. The shaft (4) has a substantially cylindrical shape, and passes through the movement restricting member side: a shell hole 45 of the shell, and the end of the shaft portion 61 is fixed in the advancing and retracting mechanism (10) 61. The region can be opened by the first 区域 区域 area. Both of them have a substantially cylindrical shape and are fixed to the other end of the shaft portion 61.
之直挂大於軸部61之直徑,且可通過第1開口區域八丨,作 無法通過第2開口區域A2。 棒狀構件71具有大致圓柱形狀,且可通過貫通孔16之開 口部°又’棒狀構件71之長度大於卡合構件6G自移動限: 構件側板41突出之長度。又,棒狀構件71與卡合構件㈣ 應且以如下方式配置。即,棒狀構件71通過貫通孔16,且 棒狀構件71卡止於貫通孔16之上端時,卡合構件60之頭部 62配置於與貫通孔15之第1開口區域A1對應之位置。The straight hang is larger than the diameter of the shaft portion 61, and can pass through the first opening area, so that the second opening area A2 cannot pass. The rod member 71 has a substantially cylindrical shape and can pass through the opening portion of the through hole 16. Further, the length of the rod member 71 is larger than the self-moving limit of the engaging member 6G: the length at which the member side plate 41 protrudes. Further, the rod member 71 and the engaging member (4) are disposed as follows. That is, when the rod-shaped member 71 passes through the through hole 16, and the rod-shaped member 71 is locked to the upper end of the through hole 16, the head portion 62 of the engaging member 60 is disposed at a position corresponding to the first opening area A1 of the through hole 15.
如此,棒狀構件71與貫通孔16組合,作為用於將卡合構 件60之頭部62位置對準於貫通孔15之第口區域Ai之導 件而發揮功能。 進退機構50係使卡合構件60相對於板狀體載置構件1〇之 側板11進退者(使卡合構件60自移動限制構件側板41之突 出量發生變化),且包含支持軸51、一對偏心凸輪52及操 作桿53»進退機構50與卡合構件6〇之組合作為連結機構而 發揮功此’該連結機構係將移動限制構件40可裂卸地連結 於板狀體載置構件10之側板11,且可進退。 M434760 支持軸51為大致圓柱形狀,將其中心轴C作為旋轉轴, 可旋轉地支持偏心凸輪52,且與卡合構件60之軸部61連 接。 偏心凸輪52為大致圓柱形狀,且經由支持軸51安裝於轴 部61。偏心凸輪52將與卡合構件60之軸方向不同之方向作 為旋轉轴而相對於轴部61及支持軸51旋轉。 該旋轉為偏心旋轉。即,偏心凸輪52之旋轉軸(支持轴 51之中心軸C)設定於自偏心凸輪52自身之中心軸偏移(移 位)之位置。其結果,藉由偏心凸輪52之旋轉,移動限制 構件側板41與支持轴51之距離可變動。該距離之變動可使 卡合構件60自移動限制構件侧板41之突出量,進而移動限 制構件侧板41與頭部62之距離發生變化。 操作桿53連接於偏心凸輪52,且藉由人手之操作而將用 於旋轉之力施加至偏心凸輪52。 (移動限制構件40之安裝) 如下所述,將移動限制構件40安裝於板狀體載置構件1〇 中。此時,進退機構50之偏心凸輪52(操作桿53)朝向卡合 構件60成為最突出之狀態之方向。 (1) 棒狀構件71對貫通孔16之插入 使棒狀構件71通過貫通孔16。此時,卡合構件6〇未通過 貫通孔15。由於棒狀構件71之長度大於卡合構件6〇之長 度’因此可僅使棒狀構件71通過貫通孔16。 (2) 卡合構件60之定位 使棒狀構件71卡止於貫通孔16之上端。藉由將移動限制 M434760 構件40向上方提昇,棒狀構件71之側面接觸並卡止於貫通 ' 孔16之上端之内壁。此時,卡合構件60之頭部62配置於與 貫通孔15之第1開口區域A1對應之位置。 (3) 卡合構件60對貫通孔15之插入 使卡合構件60之頭部62通過貫通孔15之第丨開口區域 ' A1。頭部62具有與開口區域^對應之形狀,使移動限 制構件40與板狀體載置構件10之側板11之距離接近而使其 φ 等接觸,由此頭部62通過第1開口區域^,且自貫通孔15 凸出。即,於貫通孔15内配置轴部6 i。 (4) 卡合構件60之卡止 於移動限制構件40與板狀體載置構件1〇接觸之狀態下, 使移動限制構件40向下方移動。其結果,卡合構件6〇之軸 部61自開口區域A1移動至開口區域A2。即,卡合構件 之軸部61之側面接觸並卡止於貫通孔15之下端之内壁。其 後,藉由移動限制構件40之自身重量,而維持卡合構件6〇 • 之軸部61保持於貫通孔15之下端之狀態》由於卡合構件6〇 - 之頭部62無法通過開口區域A2,因此移動限制構件4〇不會 自板狀體載置構件10脫落。 (5) 藉由進退機構50之固定 藉由使進退機構50動作,而使卡合構件6〇進退,從而強 化移動限制搆件40與板狀體載置構件10間之連結。即,操 作操作桿53,使偏心凸輪52旋轉,縮小移動限制構件側板 41與卡合構件60之頭部62之距離。其結果,頭部62與側板 11接觸,而牢固地固定。 M434760 藉由以上之順序(ι)~(5)’可簡便地將移動限制構件4〇安 裝於板狀體載置構件1〇中.又,藉由反向執行順序 . (1)〜(5),而可簡便地自板狀體載置構件1〇卸除移動限制構 件40。 於本實施形態中,使用包含軸部61及頭部62之卡合構件 6〇、及包含分別與頭部62及軸部61對應之第丨開口區域及 第2開口區域之貫通孔15,而可簡便地將移動限制構件仂 - 裝卸於板狀體載置構件10中。又,將棒狀構件71與貫通孔 15之組合作為導件,可實現頭部62與第i開口區域八丨之位魯 置對準,移動限制構件40對板狀體载置構件1〇之安裝變得 更容易。 藉由進退機構50,使卡合構件6〇相對於板狀體載置構件 10之側板11進退,從而可容易進行移動限制構件4〇之固定 及其解除。 又,卡合構件60可藉由進退機構5〇而進退,由此緩和對 移動限制構件40之衝擊,從而可防止卡合構件6〇及貫通孔 15之損傷。例如,有可能因輸送中之振動等,板狀體〇於 _ 板狀體載置構件10上移動而與移動限制構件4〇碰撞。於此 情形時,因碰撞所產生之力施加於卡合構件6〇,藉由該 · 力’偏心凸輪52旋轉,卡合構件6〇之突出量發生變化,從 而緩和衝擊。 (第2實施形態) 圖4係表示本創作之第2實施形態之板狀體收納容器200 之立體圖。 •12- M434760 • 板狀體收納容器200包含板狀體載置構件i〇a、底座2〇、 支柱30、移動限制構件40a及進退機構5〇a。 圖5及圖6係表示移動限制構件4〇a與板狀體載置構件i〇a 間之連結狀態之部分剖面圖及分解立體圖。 卡合構件60通過板狀體載置構件丨0a之側板11&之貫通孔 • 其軸部61之端部連接於進退機構50a。又,棒狀構件 71固定於板狀體載置構件1 〇a之側板113之貫通孔17。 進退機構50a配置於板狀體載置構件i〇a之内部,且電性 ® 或機械地使卡合構件60進退(使卡合構件60之突出量發生 變化)。例如,可藉由電動馬達、空氣、油壓等各種手段 使卡合構件60進退。 於卡合構件60通過貫通孔45之狀態下使進退機構5〇a動 作,使卡合構件60進退,從而可使其頭部62接觸並固定於 移動限制構件40a。 藉由進退機構50a可使卡合構件6〇進退,由此緩和因板 φ 狀體G對移動限制構件40a碰撞所致之衝擊等,可防止卡合 .構件60或貫通孔45之損傷。例如,進退機構5〇a使用彈性 • 力而使卡合構件60進退《具體而言,認為經由彈性構件, 或使用空氣便卡合構件60進退。於此情形時,對移動限制 構件40a碰撞所產生之力藉由彈性構件或空氣而緩和(卡合 構件60之大出量因衝擊而發生變化)。 進退機構50a與卡合構件6〇之組合作為連結機構而發揮 功能,該連結機構係將移動限制構件4〇a可裝卸地連結於 板狀體載置構件l〇a之側板Ua,且可進退。 •13· M434760 於板狀體收納容器100中,板狀體載置構件1〇之側板U 包含貫通孔15、16,移動限制構件4〇中安裝有卡合構件6〇 及棒狀構件71。與此相對,於板狀體收納容器2〇〇中板 狀體载置構件l〇a之侧板u上安裝有卡合構件6〇及棒狀構 件71,移動限制構件4〇a之移動限制構件側板41a包含貫通 孔45、46。即,卡合構件6〇與貫通孔45之配置係配置於與 板狀體收納谷器100之情形相反之構件中d 又,貫通孔45之第1區域A1、第2區域A2之配置與板狀 體收納容器100之情形上下倒置。其原因在於,移動限制 構件40a側配置有貫通孔45,且將第1區域八丨設為下方,而 卡合構件60之卡止更穩定。 (第3實施形態) 圖7及圖8係表示本創作之第3實施形態之板狀體收納容 器300中之移動限制構件4〇與板狀體載置構件1〇間之連結 狀態之部分剖面圖及分解立體圖。 整個板狀體收納容器300之立體圖以圖1為準,故而省略 圖示。即’於圖1中,藉由配置切換機構8〇以代替進退機 構50而表示整個板狀體收納容器3 〇〇之立體圖。 再者’為容易判斷,於圖8中’省略左側之切換機構8〇 之彈性構件82之圖示。又,於圖7及圖8中,卡止構件81之 方向不同。 板狀體收納容器3 00包含板狀體載置構件10a、底座2〇、 支柱30、移動限制構件40、卡合構件6〇b及切換機構80。 卡合構件60b包含軸部61b、頭部62及螺帽63。 M434760 為與螺帽63嵌合’而螺絲穿過轴部61 b之端部。 螺帽63旋入至轴部61b,防止卡合構件60b脫落,並且用 於調節卡合構件60b之突出量。作為螺帽63,可使用所謂 之蝶形螺帽等由人手容易鎖緊者。 切換機構80包含卡止構件81、彈性構件82,且切換卡合 構件60b對側板11之伸長與收縮。 卡止構件81與彈性構件82於特定方向上卡合,且包含基 體811、貫通孔812及突起部813。 基體811具有大致長方體形狀等長條形狀。基體811(卡 止構件81)於使其長度方向朝向第1方向(此處為圖8之z方 向)時,通過下述彈性構件82之開口部821,於朝向與該第 1方向垂直之第2方向(此處為圖8之X方向)時,無法通過開 口部 821。 卡合構件60b之轴部61b通過貫通孔812,卡止構件81可 相對於轴部61b旋轉且可於轴方向上移動。 突起部813具有於第1方向(此處為圖8之z方向)上伸長之 形狀(具有朝向z方向之脊線),且與下述彈性構件82之槽 部824於特定方向上卡合。 彈性構件82包含開口部821、保持部822、突出部823及 槽部824’且由具有彈性之板形狀之構件而構成。 開口部821於第1、第2方向(此處分別為圖8之2方向、χ 方向)上具有不同之寬度(具有Z方向上較長之形狀)。如上 所述’卡止構件81於其長度方向為第1方向(圖8之z方向) 時通過開口部821 ’為第2方向(圖8之X方向)時未通過開口 •15· M434760 部 821。 保持部822係接觸、保持於移動限制構件4〇上之部分。 突出部823、槽部824可藉由將板形狀之構件彎曲而形 成。 突出部823自保持部822突出且與移動限制構件4〇相隔。 槽部824包含沿第2方向(此處為圖8之又方向)配置之槽。 於槽部824之槽之方向與卡止構件81之突起部813之脊線之 方向一致時’卡止構件81卡止於彈性構件82之槽部824。 切換機構80與卡合構件60b之組合作為連結機構而發揮 功能,該連結機構係將移動限制構件4〇可裝卸地連結於板 狀體載置構件1〇之側板u,且可進退。 (移動限制構件4〇之安裝) 如下所述,將移動限制構件4〇安裝於板狀體載置構件j 〇 中。此時,調節切換機構8〇以使卡合構件6〇b成為最突出 狀怎。即,使卡止構件81 (基體811)之長度方向與彈性構 件82之開口部821之長度方向-致,並將卡止構件81 g己置 於開口部821内。此時,卡止構件81成為最突出之狀態。 (1) 棒狀構件71對貫通孔16之插入 、:棒狀構件71通過貫通孔16。此時,卡合構件60b未通 過貝通孔15。由於棒狀構件71之長度大於卡合構件6仙之 長度(自移動限制構件側板41之突出量),因此可僅使棒狀 構件71通過貫通孔16。 (2) 卡合構件60b之定位 棒狀構件71卡止於貫通孔16之上端。藉由將移動限制 M434760 構件40向上方提昇,棒狀構件71之側面接觸並卡止於貫通 孔16之上端之内壁。此時,卡合構件60b之頭部62配置於 與貫通孔1 5之第1開口區域A1對應之位置。 (3) 卡合構件60b對貫通孔15之插入 使卡合構件60b之頭部62通過貫通孔1 5之第1開口區域 A1 °頭部62具有與第1開口區域a 1對應之形狀,使移動限 制構件40與板狀體載置構件1 〇之側板丨丨之距離接近而使其 等接觸’由此頭部62通過第1開口區域A1,且自貫通孔15 凸出。即,於貫通孔15内配置有轴部61b。 (4) 卡合構件60b之卡止 於移動限制構件40與板狀體載置構件10接觸之狀態下, 使移動限制構件40向下方移動。其結果,卡合構件6〇b之 轴部61b自開口區域八丨移動至開口區域A2 ^即,卡合構件 60b之軸部61b之側面接觸並卡止於貫通孔15之下端之内 壁。其後’藉由移動限制構件40之自身重量,而維持卡合 構件60b之軸部61 b保持於貫通孔15之下端之狀態。由於卡 合構件60b之頭部62無法通過開口區域A2,因此移動限制 構件40不會自板狀體載置構件1〇脫落。 (5) 藉由切換機構80之固定 藉由使切換機構80動作,而強化藉由卡合構件6〇b之移 動限制構件40與板狀體載置構件1〇間之連結。即,使卡止 構件81旋轉,使卡止構件81之突起部813之脊線之方向與 彈性構件82之槽部824之槽方向一致,從而使卡止構件81 卡止於彈性構件82。此時,藉由彈性構件82之彈性力,卡 -17- M434760 合構件60b之突出量減少,移動限制構件側板41與卡合構 件60b之頭部62之距離變小。其結果,頭部62與側板11接 觸,從而牢固地固定。 藉由切換機構8 0而緩和因板狀體G對移動限制構件4 〇碰 撞所致之衝擊等,從而可防止卡合構件6〇b及貫通孔15之 損傷。即,藉由切換機構80之彈性構件82產生彈性變形, 對移動限制構件40碰撞所產生之力得到緩和(藉由衝擊卡 合構件60b之突出量發生變化)。 (其他貫施形態) 本創作之實施形態並不限定於上述實施形態而可伸長、 變更,經伸長、變更之實施形態亦包含於本創作之技術範 圍中。 於上述實施形態中,1個移動限制構件4〇中使用2個卡合 構件60及棒狀構件7 1。與此相對,亦可將卡合構件6〇之數 量設為僅1個或3個以上。又,亦可不使用棒狀構件”而將 移動限制構件40安裝板狀體載置構件1〇。 已詳細且參照特定實施態樣對本創作進行了說明,但業 者應該明白只要不脫離本創作之範圍及精神,則可添加各 種修正或變更。 本創作係基於201〇年12月20日提出申請之日本實用新案 註冊申請案2〇10-008240者,其内容以參照之形式併入太 文中。 【圖式簡單說明】 圖1係表示本創作之第丨實施形態之板狀體收納容器之立 财34760 體圖。 圖2係表示本創作之第1實施形態之移動限制構件與板狀 體載置構件間之連結狀態之部分剖面圖。 圖3係表示本創作之第1實施形態之移動限制構件與板狀 體載置構件間之連結狀態之分解立體圖。 圖4係表示本創作之第2實施形態之板狀體收納容器之立 體圖》 圖5係表示本創作之第2實施形態之移動限制構件與板狀 體載置構件間之連結狀態之部分剖面圖。 圖6係表示本創作之第2實施形態之移動限制構件與板狀 體載置構件間之連結狀態之分解立體圖。 圖7係表示本創作之第3實施形態之板狀體收納容器之移 %限制構件與板狀體載置構件間之連結狀態之部分剖面 願 ν 圓 。 圖8係表示本創作之第3實施形態之板狀體收納容器之移 動限制構件與板狀體載置構件間之連結狀態之分解立體 圖0 【主要元件符號說明】 10 板狀體載置構件 10a 板狀體載置構件 11 側板 12 上板 15 貫通孔 16 貫通孔 -19- M434760 17 貫通孔 20 底座 25 支柱支撐件 30 支柱 40 移動限制構件 40a 移動限制構件 41 移動限制構件側板 41a 移動限制構件側板 42 移動限制構件上板 45 貫通孔 46 貫通孔 50 進退機構 50a 進退機構 51 支持轴 52 偏心凸輪 53 操作桿 60 卡合構件 60b 卡合構件 61 軸部 61b 軸部 62 頭部 63 螺帽 71 棒狀構件 80 切換機構In this manner, the rod-shaped member 71 is combined with the through hole 16 and functions as a guide for aligning the head portion 62 of the engaging member 60 with the opening portion Ai of the through hole 15. The advancing and retracting mechanism 50 is configured such that the engaging member 60 moves forward and backward with respect to the side plate 11 of the plate-shaped member mounting member 1 (the amount of protrusion of the engaging member 60 from the movement regulating member side plate 41 is changed), and includes the support shaft 51 and the The combination of the eccentric cam 52 and the operating lever 53»the advancing and retracting mechanism 50 and the engaging member 6〇 functions as a connecting mechanism that detachably couples the movement restricting member 40 to the plate-shaped member 10 The side panel 11 is movable forward and backward. The M434760 supports the shaft 51 in a substantially cylindrical shape, and the central axis C thereof serves as a rotating shaft, and rotatably supports the eccentric cam 52, and is coupled to the shaft portion 61 of the engaging member 60. The eccentric cam 52 has a substantially cylindrical shape and is attached to the shaft portion 61 via the support shaft 51. The eccentric cam 52 rotates in a direction different from the axial direction of the engaging member 60 as a rotating shaft with respect to the shaft portion 61 and the support shaft 51. This rotation is an eccentric rotation. That is, the rotation axis of the eccentric cam 52 (the central axis C of the support shaft 51) is set at a position shifted (shifted) from the central axis of the eccentric cam 52 itself. As a result, the distance between the movement restricting member side plate 41 and the support shaft 51 can be varied by the rotation of the eccentric cam 52. The change in the distance causes the amount of protrusion of the engaging member 60 from the movement restricting member side plate 41, and the distance between the movement restricting member side plate 41 and the head portion 62 changes. The operating lever 53 is coupled to the eccentric cam 52, and a force for rotation is applied to the eccentric cam 52 by the operation of a human hand. (Mounting of the movement restricting member 40) The movement restricting member 40 is attached to the plate-shaped body mounting member 1A as described below. At this time, the eccentric cam 52 (the operating lever 53) of the advancing and retracting mechanism 50 faces the direction in which the engaging member 60 is in the most protruding state. (1) Insertion of the rod-shaped member 71 into the through hole 16 The rod-shaped member 71 passes through the through hole 16. At this time, the engaging member 6 is not passed through the through hole 15. Since the length of the rod member 71 is larger than the length of the engaging member 6', only the rod member 71 can pass through the through hole 16. (2) Positioning of the engaging member 60 The rod-shaped member 71 is locked to the upper end of the through hole 16. By lifting the movement restriction M434760 member 40 upward, the side surface of the rod member 71 contacts and is locked to the inner wall penetrating the upper end of the hole 16. At this time, the head portion 62 of the engaging member 60 is disposed at a position corresponding to the first opening region A1 of the through hole 15. (3) Insertion of the engaging member 60 into the through hole 15 The head portion 62 of the engaging member 60 is passed through the first opening region 'A1 of the through hole 15. The head portion 62 has a shape corresponding to the opening region ^, and the distance between the movement restricting member 40 and the side plate 11 of the plate-like member mounting member 10 is made close to φ or the like, whereby the head portion 62 passes through the first opening region ^, And protruding from the through hole 15. That is, the shaft portion 6 i is disposed in the through hole 15 . (4) Engagement of the engagement member 60 The movement restriction member 40 is moved downward while the movement restricting member 40 is in contact with the plate-shaped member mounting member 1A. As a result, the shaft portion 61 of the engaging member 6 is moved from the opening area A1 to the opening area A2. That is, the side surface of the shaft portion 61 of the engaging member contacts and is locked to the inner wall of the lower end of the through hole 15. Thereafter, the state in which the shaft portion 61 of the engaging member 6 is held at the lower end of the through hole 15 is maintained by the weight of the movement restricting member 40. The head 62 of the engaging member 6〇 cannot pass through the opening region. A2, therefore, the movement restricting member 4〇 does not fall off from the plate-like member 10 . (5) Fixing by the advancing and retracting mechanism 50 By moving the advancing and retracting mechanism 50, the engaging member 6 is moved forward and backward, and the connection between the movement restricting member 40 and the plate-like member 10 is enhanced. That is, the operation lever 53 is operated to rotate the eccentric cam 52 to reduce the distance between the movement restricting member side plate 41 and the head 62 of the engaging member 60. As a result, the head portion 62 is in contact with the side plate 11 and is firmly fixed. M434760 The movement restricting member 4〇 can be easily attached to the plate-shaped body mounting member 1〇 by the above order (1) to (5)'. Further, the order is reversed. (1) to (5) However, the movement restricting member 40 can be easily removed from the plate-shaped member mounting member 1 . In the present embodiment, the engaging member 6A including the shaft portion 61 and the head portion 62 and the through hole 15 including the second opening region and the second opening region corresponding to the head portion 62 and the shaft portion 61 are used. The movement restricting member 仂 can be easily attached and detached to the plate-shaped body mounting member 10. Moreover, by combining the rod-shaped member 71 and the through-hole 15 as a guide, the head 62 can be aligned with the position of the y-open area, and the movement restricting member 40 can be placed on the plate-shaped body mounting member 1 Installation has become easier. By the advancing and retracting mechanism 50, the engaging member 6 is advanced and retracted with respect to the side plate 11 of the plate-shaped member mounting member 10, whereby the movement restricting member 4''''''''' Further, the engaging member 60 can be advanced and retracted by the advancing and retracting mechanism 5, thereby mitigating the impact on the movement restricting member 40, thereby preventing the damage of the engaging member 6 and the through hole 15. For example, the plate-like body may move on the plate-shaped body mounting member 10 due to vibration during transportation or the like, and may collide with the movement restricting member 4A. In this case, the force generated by the collision is applied to the engaging member 6A, and by the rotation of the "force" eccentric cam 52, the amount of protrusion of the engaging member 6 is changed, thereby mitigating the impact. (Second Embodiment) Fig. 4 is a perspective view showing a plate-shaped object storage container 200 according to a second embodiment of the present invention. • 12- M434760 • The plate-shaped body storage container 200 includes a plate-shaped body mounting member i〇a, a base 2〇, a support post 30, a movement restricting member 40a, and an advancing and retracting mechanism 5〇a. 5 and 6 are a partial cross-sectional view and an exploded perspective view showing a state in which the movement restricting member 4a and the plate-shaped member mounting member ia are connected. The engaging member 60 passes through the through hole of the side plate 11& of the plate-shaped member mounting member 丨0a. The end portion of the shaft portion 61 is connected to the advancing and retracting mechanism 50a. Further, the rod-shaped member 71 is fixed to the through hole 17 of the side plate 113 of the plate-shaped body mounting member 1a. The advancing and retracting mechanism 50a is disposed inside the plate-shaped member mounting member i〇a, and electrically or mechanically moves the engaging member 60 forward and backward (the amount of protrusion of the engaging member 60 is changed). For example, the engaging member 60 can be advanced and retracted by various means such as an electric motor, air, or oil pressure. When the engaging member 60 passes through the through hole 45, the advancing and retracting mechanism 5A is operated to move the engaging member 60 forward and backward, so that the head portion 62 can be brought into contact with and fixed to the movement restricting member 40a. By the advancing and retracting mechanism 50a, the engaging member 6 can be moved forward and backward, thereby mitigating the impact or the like caused by the collision of the plate-shaped body G with the movement restricting member 40a, and the engagement of the member 60 or the through hole 45 can be prevented. For example, the advancing and retracting mechanism 5A uses the elastic force to move the engaging member 60 forward and backward. Specifically, it is considered that the elastic engaging member 60 is used to advance and retreat via the elastic member. In this case, the force generated by the collision of the movement restricting member 40a is relieved by the elastic member or the air (the large amount of the engaging member 60 changes due to the impact). The combination of the advancing and retracting mechanism 50a and the engaging member 6A functions as a connecting mechanism that detachably couples the movement restricting member 4A to the side plate Ua of the plate-shaped member mounting member 10a, and can advance and retreat . 13: M434760 In the plate-shaped body storage container 100, the side plate U of the plate-shaped body mounting member 1 includes the through holes 15, 16 in which the engaging member 6A and the rod-shaped member 71 are attached. On the other hand, the engagement member 6〇 and the rod member 71 are attached to the side plate u of the plate-shaped body mounting member 10a in the plate-shaped body storage container 2, and the movement restriction of the movement restricting member 4〇a is restricted. The member side plate 41a includes through holes 45 and 46. In other words, the arrangement of the engaging member 6A and the through hole 45 is disposed in a member opposite to the case of the plate-shaped body accommodating barn 100, and the arrangement and the plate of the first region A1 and the second region A2 of the through hole 45 are provided. The case storage container 100 is placed upside down. This is because the through hole 45 is disposed on the side of the movement restricting member 40a, and the first area is set to be lower, and the engagement of the engaging member 60 is more stable. (Third Embodiment) FIG. 7 and FIG. 8 are partial cross-sectional views showing a state of connection between the movement restricting member 4A and the plate-shaped member mounting member 1 in the plate-shaped object storage container 300 according to the third embodiment of the present invention. Figure and exploded perspective view. The perspective view of the entire plate-shaped container storage container 300 is based on Fig. 1, and therefore the illustration is omitted. That is, in Fig. 1, a perspective view of the entire plate-like body container 3 is shown by arranging the switching mechanism 8A instead of the advancing and retracting mechanism 50. Further, in order to make it easy to judge, in Fig. 8, the illustration of the elastic member 82 of the switching mechanism 8A on the left side is omitted. Further, in Figs. 7 and 8, the direction of the locking members 81 is different. The plate-shaped body storage container 300 includes a plate-shaped body mounting member 10a, a base 2, a support 30, a movement restricting member 40, an engaging member 6b, and a switching mechanism 80. The engaging member 60b includes a shaft portion 61b, a head portion 62, and a nut 63. M434760 is fitted to the nut 63 and the screw passes through the end of the shaft portion 61b. The nut 63 is screwed into the shaft portion 61b to prevent the engaging member 60b from coming off, and is used to adjust the amount of protrusion of the engaging member 60b. As the nut 63, a so-called butterfly nut or the like can be easily locked by a human hand. The switching mechanism 80 includes the locking member 81 and the elastic member 82, and switches the elongation and contraction of the engaging member 60b with respect to the side plate 11. The locking member 81 and the elastic member 82 are engaged in a specific direction, and include a base 811, a through hole 812, and a protruding portion 813. The base 811 has an elongated shape such as a substantially rectangular parallelepiped shape. When the longitudinal direction of the base member 811 (the locking member 81) faces the first direction (here, the z direction in FIG. 8), the opening portion 821 of the elastic member 82 described below is oriented perpendicular to the first direction. When the two directions (here, the X direction of FIG. 8) are not passed through the opening portion 821. The shaft portion 61b of the engaging member 60b passes through the through hole 812, and the locking member 81 is rotatable relative to the shaft portion 61b and is movable in the axial direction. The projection 813 has a shape elongated in the first direction (here, the z direction in Fig. 8) (having a ridge line in the z direction), and is engaged with the groove portion 824 of the elastic member 82 described below in a specific direction. The elastic member 82 includes an opening portion 821, a holding portion 822, a protruding portion 823, and a groove portion 824', and is constituted by a member having an elastic plate shape. The opening portion 821 has a different width (a shape having a longer Z direction) in the first and second directions (here, the direction of the second direction of Fig. 8 and the direction of the χ). As described above, when the longitudinal direction of the locking member 81 is the first direction (the z direction in FIG. 8), the opening portion 821' is in the second direction (the X direction in FIG. 8), and the opening is not required. 15· M434760 portion 821 . The holding portion 822 is in contact with and held by the portion of the movement restricting member 4A. The protruding portion 823 and the groove portion 824 can be formed by bending a plate-shaped member. The protruding portion 823 protrudes from the holding portion 822 and is spaced apart from the movement restricting member 4A. The groove portion 824 includes a groove disposed along the second direction (here, the direction of FIG. 8 again). When the direction of the groove of the groove portion 824 coincides with the direction of the ridge line of the projection portion 813 of the locking member 81, the locking member 81 is locked to the groove portion 824 of the elastic member 82. The combination of the switching mechanism 80 and the engaging member 60b functions as a connecting mechanism that detachably couples the movement restricting member 4 to the side plate u of the plate-shaped member mounting member 1 and can move forward and backward. (Mounting of the movement restricting member 4A) The movement restricting member 4A is attached to the plate-shaped body mounting member j? as described below. At this time, the switching mechanism 8 is adjusted so that the engaging member 6〇b is most protruded. That is, the longitudinal direction of the locking member 81 (base member 811) and the longitudinal direction of the opening portion 821 of the elastic member 82 are made, and the locking member 81g is placed in the opening portion 821. At this time, the locking member 81 is in the most protruding state. (1) The rod member 71 is inserted into the through hole 16, and the rod member 71 passes through the through hole 16. At this time, the engaging member 60b does not pass through the pass hole 15. Since the length of the rod-shaped member 71 is larger than the length of the engaging member 6 (the amount of protrusion from the movement restricting member side plate 41), only the rod-shaped member 71 can pass through the through hole 16. (2) Positioning of the engaging member 60b The rod-shaped member 71 is locked to the upper end of the through hole 16. By lifting the movement restriction M434760 member 40 upward, the side surface of the rod member 71 contacts and is locked to the inner wall of the upper end of the through hole 16. At this time, the head portion 62 of the engaging member 60b is disposed at a position corresponding to the first opening region A1 of the through hole 15. (3) The insertion of the engaging member 60b into the through hole 15 causes the head portion 62 of the engaging member 60b to pass through the first opening region A1 of the through hole 15, and the head portion 62 has a shape corresponding to the first opening region a1. The movement restricting member 40 is close to the side plate 丨丨 of the plate-shaped body mounting member 1 so as to be in contact with each other 'the head 62 passes through the first opening area A1 and protrudes from the through hole 15 . That is, the shaft portion 61b is disposed in the through hole 15. (4) Engagement of the engagement member 60b With the movement restricting member 40 in contact with the plate-shaped member mounting member 10, the movement restricting member 40 is moved downward. As a result, the shaft portion 61b of the engaging member 6b moves from the opening area to the opening area A2. That is, the side surface of the shaft portion 61b of the engaging member 60b contacts and is locked to the inner wall of the lower end of the through hole 15. Thereafter, the shaft portion 61b of the engaging member 60b is maintained in the state of the lower end of the through hole 15 by the weight of the movement restricting member 40. Since the head portion 62 of the engaging member 60b cannot pass through the opening area A2, the movement restricting member 40 does not fall off from the plate-shaped member mounting member 1''. (5) Fixing by the switching mechanism 80 By operating the switching mechanism 80, the connection between the movement restricting member 40 of the engaging member 6b and the plate-shaped member mounting member 1 is enhanced. In other words, the locking member 81 is rotated, and the direction of the ridge line of the protruding portion 813 of the locking member 81 coincides with the groove direction of the groove portion 824 of the elastic member 82, whereby the locking member 81 is locked to the elastic member 82. At this time, by the elastic force of the elastic member 82, the amount of protrusion of the card -17-M434760 engaging member 60b is reduced, and the distance between the movement restricting member side plate 41 and the head portion 62 of the engaging member 60b becomes small. As a result, the head portion 62 comes into contact with the side plate 11, thereby being firmly fixed. By the switching mechanism 80, the impact or the like caused by the collision of the plate-like body G with the movement restricting member 4 is alleviated, and the damage of the engaging member 6b and the through hole 15 can be prevented. That is, the elastic member 82 of the switching mechanism 80 is elastically deformed, and the force generated by the collision of the movement restricting member 40 is alleviated (by the amount of protrusion of the impact engaging member 60b). (Other embodiments) The embodiments of the present invention are not limited to the above-described embodiments and can be extended or changed. The embodiments that are extended and changed are also included in the technical scope of the present invention. In the above embodiment, two engagement members 60 and a rod member 71 are used for one movement restricting member 4A. On the other hand, the number of the engaging members 6〇 can be set to only one or three or more. Further, the movement restricting member 40 may be attached to the plate-shaped body mounting member 1 without using a rod-shaped member. The present invention has been described in detail with reference to specific embodiments, but it should be understood that the scope of the present invention is not deviated from the scope of the present invention. And the spirit, you can add various amendments or changes. This creation is based on the application for registration of Japanese utility new cases 2〇10-008240 filed on December 20, 201, and its contents are incorporated into Taiwen in the form of reference. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a body of a plate-shaped body container according to a third embodiment of the present invention. Fig. 2 is a view showing a movement restricting member and a plate-shaped body according to a first embodiment of the present invention. Fig. 3 is an exploded perspective view showing a state in which the movement restricting member and the plate-shaped member mounting member according to the first embodiment of the present invention are connected. Fig. 4 shows a second embodiment of the present invention. Fig. 5 is a partial cross-sectional view showing a state in which the movement restricting member and the plate-shaped member mounting member according to the second embodiment of the present invention are connected. Fig. 6 is an exploded perspective view showing a state in which the movement restricting member and the plate-shaped member mounting member according to the second embodiment of the present invention are connected. Fig. 7 is a view showing a shift of the plate-shaped container according to the third embodiment of the present invention. A partial cross-section of the connection state between the restriction member and the plate-shaped member mounting member is desired to be a circle. Fig. 8 is a view showing a space between the movement restricting member and the plate-shaped member of the plate-shaped container according to the third embodiment of the present invention. Disclosed perspective view of the connected state 0 [Description of main component symbols] 10 Plate-shaped body mounting member 10a Plate-shaped body mounting member 11 Side plate 12 Upper plate 15 Through-hole 16 Through-hole -19- M434760 17 Through-hole 20 Base 25 Pillar support 30 pillar 40 movement restricting member 40a movement restricting member 41 movement restricting member side plate 41a movement restricting member side plate 42 movement restricting member upper plate 45 through hole 46 through hole 50 advancing and retracting mechanism 50a advancing and retracting mechanism 51 supporting shaft 52 eccentric cam 53 operating lever 60 engaging Member 60b Engagement member 61 Shaft portion 61b Shaft portion 62 Head portion 63 Nut 71 Rod member 80 Switching mechanism
-20- M434760 81 卡止構件 82 彈性構件 100 板狀體收納容器 200 板狀體收納容器 811 基體 812 貫通孔 813 突起部 821 開口部 822 保持部 823 突出部 824 槽部-20- M434760 81 locking member 82 elastic member 100 plate-shaped body container 200 plate-shaped container 811 base 812 through hole 813 protrusion 821 opening 822 holding portion 823 protruding portion 824 groove
•21 -•twenty one -