201210902 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種置物箱及置物箱堆疊組合,且特 別是有關於一種具有包裝箱與包裝箱堆疊組合。 【先前技術】 一般而言,液晶面板會以包裝箱包裝後,再運送至其 他地點進行組裝、測試等接續步驟。然而,當多個包裝箱 相互堆疊,將液晶面板放入包裝箱之時,可能會因包裝箱 與包裝箱間的摩擦力不足而使得包裝箱產生位移。而又由 於裝滿液晶面板之包裝箱有一定重量,移位後極難調整回 原來位置,造成此包裝箱堆疊組合容易在運送時因外力造 成紙箱的破損。 此外,包裝箱通常設計為一次可以容置多片液晶面 板,以配合大部分的需求。然而,部分特殊狀況下,僅需 運送少量的液晶面板給予客戶試片或者進行測試。此時, 常見之包裝箱過大的體積將造成運送成本上的浪費。另 外,運送置客戶端後,如果還需要在客戶端進行分送,過 大的包裝箱亦造成困擾。 因此提供一種新的包裝箱結構以及包裝箱堆疊組合, 以解決上述問題,降低運送時紙箱的破損並可應用於絕大 部分的情況,以減少運送成本,為十分重要的課題。 【發明内容】 201210902 因此,本發明之一態樣是在提供一種包裝箱堆疊組合 的結構,包含有複數個包裝箱。其中每一個包裝箱包含有 水平頂面、至少一個内箱、至少一個外箱掀蓋、移動件與 嵌槽。 内箱内具有複數個隔板。外箱掀蓋則活動地設置於水 平頂面。外箱掀蓋具有第一卡槽結構,當外箱掀蓋蓋合時, 第一卡槽結構與隔板卡合。移動件沿該水平頂面之法線方 向滑動連接於包裝箱之垂直壁。嵌槽則對應於移動件設 置。當任二包裝箱相互堆疊時,藉由移動件伸入另一包裝 箱之嵌槽,即可固定各包裝箱之相對位置。 依據本發明一實施例,包裝箱具有兩相連之第一開口 與第二開口,當外箱掀蓋蓋合時,覆蓋第一開口。隔板垂 直於水平頂面間隔設置。隔板所形成的複數個内箱容置空 間同時與第一開口及第二開口相連。第一卡槽結構相鄰於 外箱掀蓋相連於水平頂面之另一邊。且第一卡槽結構具有 複數個卡槽,對應於隔板間隔設置。卡槽分別為不等寬開 孔,此不等寬開孔具有相接通之第一孔域及第二孔域。第 二孔域較第一孔域窄,且外箱掀蓋蓋合時,第二孔域相較 於第一孔域鄰近該第二開口。 依據本發明另一實施例,内箱具有兩相連之第三開口 與第四開口。第三開口之兩相對側上分別設置有内箱掀 蓋。當内箱掀蓋蓋合時,覆蓋第三開口。内箱掀蓋鄰近於 第四開口之邊上具有延伸部。當内箱掀蓋蓋合時,延伸部 覆蓋部分的第四開口。而當内箱設置於包裝箱内時,内箱 掀蓋分別摺疊至内箱垂直於第三開口之兩相對侧面。延伸 201210902 部則分別摺疊至内箱内 相對侧面。 且延伸部與内箱掀蓋夾合上述之 直之實::動件—與水平頂面垂 具有第-嵌合部與第一定位部,’此條狀結構 於於第—嵌合部之截面帛疋位。卩之戴面不同 移動件之末端更包切移動件之投料類箭簇狀, 又匕3肷合部容置部與第一定位邱如、击^ -側壁具有限位部平行於水平頂面設置j位部具有限位 開口 ’且限位開口之形狀對應於第一嵌合部之截面。 依據本發明再一實施例,第二侧壁具有凹槽,用以容 置移動件’且凹槽具有凹槽開口切齊第二侧壁之一側邊。 移動件為τ字結構’具有第二定位部與自第二定位部朝凹 槽開口延伸出之第二嵌合部。凹槽兩相對侧邊之相對距離 配合第二定位部之最大寬度,凹槽開口配合該第二嵌合部 之最大寬度。凹槽兩相對之側邊分別具有限位件,用以限 制該移動件之位置。嵌槽亦配合第二嵌合部之最大寬度。 本發明之另一態樣是在提供一種包裝箱。包裝箱包含 水平頂面、第一開口、第二開口、至少一個内箱、至少一 個外箱掀蓋、移動件與嵌槽。第一開口設置於水平頂面上。 第二開口與第一開口相連。内箱内具有複數個隔板,垂直 水平頂面設置。且隔板所形成之複數個内箱容置空間同時 與第一開口及第二開口相連。外箱掀蓋活動地設置於水平 頂面,且外箱掀蓋具有第一卡槽結構。當外箱掀蓋蓋合時, 第—^槽結構與隔板卡合,並覆蓋第一開口。移動件沿該 水平頂面之法線方向滑動連接於包裝箱之垂直壁,並可部 201210902 …則對應設置於移動件凸*包 =明的實施射設置有移動件以及相對應之 二堆疊時’移動件伸入相互堆疊之另一包裝箱的嵌 =:藉此可固定各個包裝箱間的相對位置。此外,實施 有内箱’因此可根據需要出貨的狀況決定 =出貨,或是以内箱直接出貨。 =況彈性選擇包裝方式,更可降低運送體積,節省^ 【實施方式] =發明之各實施例設置有内箱提高使用彈性,且包 有移動件與相對應之嵌槽,當包裝箱為堆叠形 -各包裝箱_, 請參照第丨圖,此為包裝箱堆#組 =。包制堆叠組合_是由多個包裝箱2〇= ,而成。接著請同時參照第2Α圖與第犯圖 第=圖為包裝箱之示意务於本實施例中,包^箱 :相對於對稱線ΑΑ之兩側為相 液晶面板之包裝箱2GG於其二= :亦可根據實際使用狀況僅設計為沿對稱線AA單側的社 。❹卜,為了簡潔起見,本說明書之各實施例内容僅‘ Π 構進行說明。通f知識者應可根據本說明書了 解匕裂箱200之整體構造。而移動件彻與其他相關之結 7 [S] 201210902 構將於後面再加以詳細欽述。 包裝箱200包含有水平頂面210、至少一個内箱3〇〇、 至》個外相掀盡212。内相300内具有複數個隔板。 外箱掀蓋212則活動地設置於水平頂面210。 包裝箱200具有兩個相連的第一開口 220與第二開口 230,而當外箱掀蓋212蓋合時,會覆蓋第一開口 220,使 得包裝箱200之外觀如第1圖所示。内箱3〇〇可經由第一 開口 220與第二開口 230脫離包裝箱200或放置於包裝箱 200内。於本實施例中,包裝箱200相對於對稱線aa之一 侧可並列容置兩個内箱300。於其他實施例中,可根據實 際使用的狀況,設計包裝箱200與内箱300之大小,增加 或減少包裝箱200容置内箱300的數量。 當内箱300設置於包裝箱200内時,内箱3〇〇内的隔 板310所形成的内箱容置空間320同時與第一開口 220及 第二開口 230相連。藉此’液晶面板可透過第一開口 220 與第二開口 230放置於内箱容置空間320内。亦即,視裝 箱需求可透過頂面或側面的開口來放置液晶面板。 此外,外箱掀蓋212具有第·—槽結構214,當外箱 掀蓋212蓋合時,第一卡槽結構214與隔板310卡合。第 一卡槽結構214相鄰於外箱掀蓋212相連於水平頂面210 之另一邊。第一卡槽結構214具有複數個卡槽226,對應 於隔板310而間隔設置。 請再同時參照第3圖’此為第2B圖中,B部分的放大 示意圖。卡槽226分別為不等寬開孔。不等寬開孔上具有 相接通之第一孔域224及第二孔域222。第二孔域222較 201210902 第一孔域224窄。而當外箱掀蓋212蓋合時,第二孔域222 相較於第一孔域224鄰近第二開口 230。 在外箱掀蓋212朝第2B圖中的A方向蓋合時,第一 孔域224會先接近隔板310,因此第一孔域224的設計較 寬,可提供導引的作用,讓隔板310之卡合部312可輕易 且正確地容置入卡槽226内。隔板310之卡合部312旁有 設置相對應之凹陷處’藉以配合第一卡槽結構214,使第 一卡槽結構214可卡合於隔板310上。接著,當外箱掀蓋 212完全蓋合時,第二孔域222便左右夾合隔板31〇,藉以 使整個第一卡槽結構214與隔板310緊密卡合,定位外箱 掀蓋212的位置,並且避免運送時内箱300脫離包裝箱2〇〇 的情形。 此外,外箱掀蓋亦可同時設計有多個卡槽結構或設置 於其他地方外箱掀蓋上的其他位置。請參照第4圖。此為 本發明另一實施例的示意圖。除了第一卡槽結構214外, 更包含一個第二卡槽結構216,與第一卡槽結構214間隔 一段距離D,平行設置於外箱掀蓋212上。而第二卡槽結 構216上亦有與第一卡槽結構214相同的卡槽226。藉由 兩組卡槽結構214、216,可加強外箱掀蓋212與内箱 間的結合力,更進一步地避免運送時内箱3〇〇脫離包裝箱 200的情形。 接著請參照第5A圖至第5B圖,此為内箱3〇〇的示意 圖。内箱300亦具有兩相連之第三開口 33〇與第四開口 332。為了提高液晶面板容置於内箱容置空間32〇的穩定 性,避免運送時液晶面板脫落,兩開口 33〇、332側的^板 201210902 310上可分別安裝上内緩衝件揭與侧内緩衝件㈣。上内 緩衝件340與侧内緩衝件350可分別透過設置於上的卡槽 形狀與凹陷處對應卡合於隔板上,避免液晶面板從第 三開口 330與第四開口 332滑出。 1二外」第Γ開口 330之兩相對側上分別設置有内箱掀 ’虽内箱掀蓋360蓋合時,會覆蓋第三開口 330。且 内箱掀蓋360鄰近第西開G 332之邊具有延伸部362,备 内箱掀蓋360蓋合時,延伸部362會覆蓋部分之第四開: 332 〇 内時,内箱掀蓋360分 330之兩相對側面370。 ’使兩相對侧面370位 。亦即,延伸部362與 如第5A圖所示。 當内箱300設置於包裝箱2〇〇 別摺疊至内箱300垂直於第三開口 延伸部362分別摺疊至内箱3〇〇内 於内箱掀蓋360與延伸部362之間 内箱掀蓋360夾合兩相對側面37〇, 位署而ίΓ 吏包ί箱相互堆疊時’可固定包裝箱間的相對 位置,本發明之實施例更於每個包褒箱于 相對編槽。請參照第从至第叫此為=1 施方式的一種包裝箱與包裝箱堆疊組合示意圖。 圖為第6Β圖中,Α部分的放大示意圖。 移動件400可沿著水平頂面21〇的法線方向b 而嵌槽266則對應於移動件4〇〇而設置。當任二勺三 200A、200B相互堆疊而成包裝箱堆疊組合1〇〇時以:: =400伸入另-包裝箱之嵌槽挪(例如本實施例為包 裝相200B的移動件400伸入包裝箱2〇〇A之嵌槽2的 可固定包裝箱200A、200B之相對位置。 " ’更 201210902 換句話說’移動件400可部分凸出於包裝箱2〇〇A、 200B的一面,嵌槽266則對應於設置於凸出面的相對面 上。以本實施例來說,包裝箱200B内的移動件4〇〇為向上 移動以固定上方之包裝箱200A。因此包裝箱2〇〇A、2〇〇B 的水平頂面210上對應於移動件400設置有移動件開口 268,讓移動件4〇〇之一部分可凸出於水平頂面21^^而嵌 ,266對應設置於水平頂面21〇之相對面上^使下方包裝 箱200B的移動件4〇〇可向上移動,伸入包裝箱2⑼a的嵌 槽266,進而固定兩包裝箱2〇〇八、2〇〇B的相對位置。 當包絲綱僅只有—個,未成堆疊組合時, 動件400於包裝箱2_,避免移動件彻凸出 的邛伤每成運送的不便(如第6A圖所示)。 亩實施例中,移動件働設置於與水平頂面210垂 直”二侧壁270上。且第二側壁27 移件容置空間264’用以容置移動件4〇 動: :移動件容置空間264内沿水平頂面2丨。的法線方向B;201210902 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a stack of storage compartments and storage compartments, and in particular to a combination of a package and a package. [Prior Art] In general, the LCD panel is packaged in a package and transported to other locations for assembly, testing, and the like. However, when a plurality of packages are stacked on each other and the liquid crystal panel is placed in the package, the package may be displaced due to insufficient friction between the package and the package. Moreover, since the package filled with the liquid crystal panel has a certain weight, it is extremely difficult to adjust back to the original position after the displacement, which makes the stacking combination of the package easy to cause damage to the carton due to external force during transportation. In addition, the box is usually designed to accommodate multiple LCD panels at a time to meet most of the needs. However, in some special cases, only a small amount of LCD panel needs to be transported to the customer for test strips or for testing. At this time, the excessive volume of the common package will cause a waste of shipping costs. In addition, after the client is shipped, if it needs to be distributed on the client, too large a box will cause trouble. Therefore, it is an important subject to provide a new package structure and a stack of package boxes to solve the above problems, reduce the damage of the carton during transportation, and apply to most of the cases to reduce the transportation cost. SUMMARY OF THE INVENTION 201210902 Accordingly, one aspect of the present invention is to provide a package stacking structure comprising a plurality of packages. Each of the packages includes a horizontal top surface, at least one inner box, at least one outer box cover, moving parts and recessed grooves. There are a plurality of partitions in the inner box. The outer box cover is movably placed on the top surface of the water. The outer box cover has a first card slot structure, and when the outer box cover is closed, the first card slot structure is engaged with the partition. The moving member is slidably coupled to the vertical wall of the package along the normal direction of the horizontal top surface. The slot corresponds to the moving part setting. When any two packages are stacked on each other, the relative positions of the packages can be fixed by the moving members extending into the slots of the other package. According to an embodiment of the invention, the package has two first openings and a second opening that are joined to cover the first opening when the outer cover is closed. The partitions are spaced perpendicular to the horizontal top surface. The plurality of inner box accommodating spaces formed by the partitions are simultaneously connected to the first opening and the second opening. The first card slot structure is adjacent to the outer box cover and connected to the other side of the horizontal top surface. And the first card slot structure has a plurality of card slots corresponding to the spacer spacing. The card slots are respectively unequal-width openings, and the unequal-width openings have a first hole domain and a second hole domain that are connected to each other. The second hole domain is narrower than the first hole domain, and when the outer casing cover is closed, the second hole domain is adjacent to the second opening than the first hole domain. According to another embodiment of the invention, the inner box has two associated third and fourth openings. An inner box cover is respectively disposed on opposite sides of the third opening. When the inner box cover is closed, the third opening is covered. The inner box lid has an extension adjacent the side of the fourth opening. The extension covers a portion of the fourth opening when the inner box lid is closed. When the inner box is disposed in the packaging box, the inner box lids are respectively folded to the inner side of the inner box perpendicular to the opposite sides of the third opening. The extension 201210902 is folded into the opposite side of the inner box. And the extension portion and the inner box cover are respectively combined with the above-mentioned straight truth: the movable member has a first-fitting portion and a first positioning portion perpendicular to the horizontal top surface, and the strip-shaped structure is in the cross section of the first-fitting portion帛疋 position. The end of the moving parts of the 卩 更 更 更 更 更 更 更 更 更 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 移动 - - - - - - - - - - - - - - - - The j-position portion is provided with a limit opening 'and the shape of the limit opening corresponds to a cross section of the first fitting portion. In accordance with still another embodiment of the present invention, the second side wall has a recess for receiving the moving member ' and the recess has a recess opening to align one of the sides of the second side wall. The moving member has a τ-shaped structure' having a second positioning portion and a second fitting portion extending from the second positioning portion toward the recess opening. The relative distance between the opposite sides of the groove cooperates with the maximum width of the second positioning portion, and the groove opening fits the maximum width of the second fitting portion. The opposite sides of the groove respectively have a limiting member for limiting the position of the moving member. The recess also fits the maximum width of the second fitting portion. Another aspect of the present invention is to provide a package. The package includes a horizontal top surface, a first opening, a second opening, at least one inner box, at least one outer box lid, a moving member and a slot. The first opening is disposed on the horizontal top surface. The second opening is connected to the first opening. The inner box has a plurality of partitions arranged vertically horizontally. And a plurality of inner box accommodating spaces formed by the partitions are simultaneously connected to the first opening and the second opening. The outer box cover is movably disposed on the horizontal top surface, and the outer box cover has a first card slot structure. When the outer box cover is closed, the first slot structure engages with the partition and covers the first opening. The moving member is slidably connected to the vertical wall of the packaging box along the normal direction of the horizontal top surface, and the portion of the movable member is configured to be placed on the movable member, and the movable member and the corresponding two are stacked. 'The insertion of the moving parts into another package stacked on each other =: Thereby the relative position between the respective packages can be fixed. In addition, there is an inner box, so it can be decided according to the condition of shipment, or shipped directly in the inner box. = Conditional flexibility to select the packaging method, which can reduce the shipping volume and save ^ [Embodiment] = Embodiments of the invention are provided with an inner box to improve the elasticity of use, and include a moving part and a corresponding embedding groove Shape - each box _, please refer to the figure ,, this is the box pile # group =. The package stacking combination _ is made up of multiple boxes 2〇=. Then, please refer to the second map and the first map. The figure is the description of the package. In this embodiment, the box is: relative to the symmetrical line, the two sides of the symmetrical line are the packaging box 2GG of the liquid crystal panel. : It can also be designed as a single side along the symmetry line AA according to the actual use conditions. For the sake of brevity, the contents of the various embodiments of the present specification are described only by the simplification. Those skilled in the art should be able to understand the overall construction of the split box 200 in accordance with this specification. The mobile part is closely related to other related 7 [S] 201210902 structure will be explained in detail later. The package 200 includes a horizontal top surface 210, at least one inner box 3〇〇, and an outer phase 212. The inner phase 300 has a plurality of partitions therein. The outer box cover 212 is movably disposed on the horizontal top surface 210. The package 200 has two connected first openings 220 and second openings 230, and when the outer box cover 212 is closed, the first opening 220 is covered, so that the appearance of the package 200 is as shown in Fig. 1. The inner box 3〇〇 can be detached from the package 200 or placed in the package 200 via the first opening 220 and the second opening 230. In the present embodiment, the package box 200 can accommodate two inner boxes 300 side by side with respect to one side of the symmetry line aa. In other embodiments, the size of the package 200 and the inner box 300 may be designed according to the actual use conditions, and the number of the inner boxes 300 accommodated in the package 200 may be increased or decreased. When the inner box 300 is disposed in the package 200, the inner box accommodating space 320 formed by the partition plate 310 in the inner box 3 is simultaneously connected to the first opening 220 and the second opening 230. Thereby, the liquid crystal panel can be placed in the inner box accommodating space 320 through the first opening 220 and the second opening 230. That is, the liquid crystal panel can be placed through the top or side opening depending on the box requirements. In addition, the outer box cover 212 has a first-slot structure 214. When the outer box cover 212 is closed, the first card structure 214 is engaged with the partition 310. The first card slot structure 214 is adjacent to the outer box cover 212 to the other side of the horizontal top surface 210. The first card slot structure 214 has a plurality of card slots 226 spaced apart corresponding to the spacers 310. Please refer to Fig. 3 at the same time. This is an enlarged schematic view of part B in Fig. 2B. The card slots 226 are respectively unequal width openings. The first wide aperture 224 and the second aperture domain 222 are connected to each other on the unequal aperture. The second aperture field 222 is narrower than the 201210902 first aperture domain 224. When the outer box cover 212 is closed, the second hole 222 is adjacent to the second opening 230 as compared to the first hole 224. When the outer box cover 212 is covered in the direction A in FIG. 2B, the first hole 224 will first approach the partition 310, so the first hole 224 is designed to provide a guiding effect for the partition. The engaging portion 312 of the 310 can be easily and correctly received into the card slot 226. A corresponding recessed portion ‘ is disposed adjacent to the engaging portion 312 of the partition 310 to engage the first card slot structure 214 such that the first card slot structure 214 can be engaged with the partition plate 310. Then, when the outer cover 212 is completely closed, the second hole 222 sandwiches the partition 31 左右, so that the entire first slot structure 214 and the partition 310 are tightly engaged, and the outer cover 212 is positioned. The location, and avoiding the situation in which the inner box 300 is detached from the package 2 when transported. In addition, the outer box cover can be designed with multiple card slots or other locations on the outer box cover at other locations. Please refer to Figure 4. This is a schematic diagram of another embodiment of the invention. In addition to the first card slot structure 214, a second card slot structure 216 is further disposed at a distance D from the first card slot structure 214 and disposed in parallel with the outer box cover 212. The second card slot structure 216 also has the same card slot 226 as the first card slot structure 214. By the two sets of the card slot structures 214, 216, the bonding force between the outer box cover 212 and the inner box can be enhanced, and the situation that the inner box 3 is disengaged from the package 200 during transportation is further avoided. Next, please refer to Figs. 5A to 5B, which is a schematic view of the inner box 3〇〇. The inner box 300 also has two connected third openings 33〇 and a fourth opening 332. In order to improve the stability of the liquid crystal panel to be accommodated in the inner box accommodating space 32 ,, and avoid the liquid crystal panel falling off during transportation, the inner buffer member and the side inner buffer may be respectively mounted on the side plates of the two openings 33 〇 and 332. (4). The upper inner cushioning member 340 and the inner inner cushioning member 350 are respectively engaged with the partition plate through the shape of the recessed groove provided on the upper portion to prevent the liquid crystal panel from sliding out of the third opening 330 and the fourth opening 332. The inner casing 掀 ′ is disposed on each of the opposite sides of the first and second outer third openings 330. Although the inner casing cover 360 is closed, the third opening 330 is covered. The inner box cover 360 has an extension portion 362 adjacent to the side of the west opening G 332. When the inner box cover 360 is closed, the extension portion 362 covers a portion of the fourth opening: 332 when the inner box cover 360 The two opposite sides 370 of the branch 330. 'Let the two opposite sides 370. That is, the extension portion 362 is as shown in Fig. 5A. When the inner box 300 is disposed in the packaging box 2, the inner box 300 is folded perpendicularly to the third opening extending portion 362 and folded into the inner box 3, respectively, between the inner box cover 360 and the extending portion 362. 360 clamps the two opposite sides 37〇, and when the stacks are stacked on each other, the relative positions between the packages can be fixed, and the embodiment of the present invention is more than the corresponding groove in each of the containers. Please refer to the schematic diagram of a stacking of packaging and packaging boxes from the first to the first. The figure is an enlarged view of the Α part in the sixth figure. The moving member 400 can be disposed along the normal direction b of the horizontal top surface 21〇 while the fitting groove 266 is provided corresponding to the moving member 4〇〇. When any two spoons three 200A, 200B are stacked on each other to form a stack of stacks of the package, the following:: =400 extends into the groove of the other package (for example, the moving member 400 of the package phase 200B extends in this embodiment). The relative position of the cans 2 of the packaging box 2A can be fixed. " 'More 201210902 In other words, the moving part 400 can partially protrude from the side of the package 2〇〇A, 200B, The recess 266 corresponds to the opposite surface disposed on the convex surface. In the present embodiment, the moving member 4 in the package 200B is moved upward to fix the upper package 200A. Therefore, the package 2A The horizontal top surface 210 of the 2〇〇B is provided with a moving member opening 268 corresponding to the moving member 400, so that one part of the moving piece 4〇〇 can be protruded from the horizontal top surface 21^^, and 266 is correspondingly disposed on the horizontal top. The opposite surface of the surface 21〇 enables the moving member 4〇〇 of the lower package box 200B to move upwardly and into the recessed groove 266 of the package box 2(9)a, thereby fixing the relative positions of the two packages 2, 8 and 2B. When the package is only one, not stacked, the moving member 400 is in the package 2_ The inconvenience of transporting the squeezing of the moving member is avoided (as shown in Fig. 6A). In the embodiment, the moving member 働 is disposed on the two side walls 270 perpendicular to the horizontal top surface 210. 27 The moving part accommodating space 264' is for accommodating the moving part 4 to move: the normal direction B of the moving part accommodating space 264 along the horizontal top surface 2丨;
接著請再同時參照第7A至第7C 圖為本實施例之移動件示意圖。帛7 圖與第7B 圖。 圖為移動件之投影 2件働於本實施例中為條狀結構 第一嵌合部410與第位部畑—條狀、Μ冓具有 面不同於第-嵌合部41〇之截面。 &位部420之截 請參照至第7C圖。在本實施例中 瓦愣紙切割指疊而成。由移動件400的4〇0為利用 衫現圖可清楚看 201210902 到’第一嵌合部410所折出之兩嵌合部折角412與第一定 位部420所折出之兩定位部折角414所指向的角度不同, 而構成類箭簇狀。亦表示出第一定位部420與第一嵌合部 410之兩截面形狀不同。 而上述第二側壁270内的移動件容置空間264内具有 一個限位部260 ’平行於水平頂面210設置。限位部260 具有限位開口 262。此限位開口 262之形狀對應於第一嵌 合部410之截面。因此,僅只有第一嵌合部41〇可通過限 位開口 262,當移動件400向上位移至第一嵌合部410與 第一鼓合部410之交界時’會因為第一定位部420與第一 彼合部410之兩截面形狀不同而使得第一定位部420無法 通過限位開口 262,使移動件400無法無限制的上升。亦 即’第一定位部的折角414無法通過限位開口 262,因而 限制第一嵌合部41〇伸入另一包裝箱2〇〇A之嵌槽266的 凸出部份(如第6C圖所示)。 此外’移動件400之末端更包含有嵌合部容置部430, 與第一定位部420相連。嵌合部容置部430為利用瓦楞紙 指疊而成’其投影為V字結構,其兩V字結構側壁434間 直接構成嵌合部容置空間432,並無另外再形成折角。嵌 合部容置空間432為用來容置下方包裝箱200B之第一嵌合 部410伸入嵌槽266之凸出部份。 移動件除了如上述實施例設計為向上移動之外,亦可 °又°十為向下移動,以達成固定包裝箱堆疊組合相對位置之 功效。 請參考第8A圖至第8D圖。第8A圖至第8D圖為本 [S] 12 201210902 發明另-實施方式的一種移動件示意圖。其中,第8a圖 中為了表現出移動件及相對應之結構,故不繪示部分内箱 及相對應之其他το件’第8B圖與第8c圖為第8A圖中A 。部分的放大圖。第8B圖與第8C圖分別繪示移動件於不同 .狀態下的示意圖。第8D圖則是第犯圖中,移動件之局部 放大圖。於本實施例中,第二侧壁24〇具有凹槽如,用 =容置移動件5G0。而凹槽242具有四槽開口 25()位於第 —侧壁240之一側邊。 移動件500於本實施例中設計為τ字結構的薄板。移 ^牛具有第二定位部51G與第二嵌合部52〇。此第二 嵌合部520自第二定位部51G朝凹槽開口 25()延伸而出。 =凹槽242的兩相對凹槽側邊246之間隔距離設計為配合 一疋位部510的最大寬度A。藉此,凹槽242的兩相對 凹槽側邊246可接觸到第二定位部51〇,藉由兩相對凹槽 側邊246及第二固定部51〇間的摩檫力來大略固定滑動件 5〇〇。此外,凹槽開口 250則配合第二嵌合部52〇的最大寬 度B,讓第二喪合部520可順利通過凹槽開口 25〇,凸出於 包骏箱200A、200B外。 本實施例中’包裝箱200A的移動件為向下移動 2伸入另-包裝箱2讎的嵌槽252内。然而,為了避免在 ,只有-個包裝箱20GA、2_ _,移動件遍受到地心 ^力的影響而向下位移,凹槽242兩相對之凹槽侧邊 ^別具有限位件244,用來限定軸件·之位置。在本 實施例中,限位件244為圓弧狀的凸件,設置於凹槽側邊 46上’使得第二定位部51〇可抵靠限位件244,避免移動 [S1 13 201210902 件500在非預期的狀況下移動。而其他實施例中,限位件 244亦可設計為方形或其他適合的形狀。 若要將移動件500向下移動時,可施力於設置於第二 定位部510上的摟空部512,使移動件5〇〇脫離限位件244 的限制,讓第二嵌合部520伸入另一包裝箱200B的嵌槽 252,藉以定位兩包裝箱200的相對位置。當然,嵌槽252 配合第二嵌合部52〇之最大寬度b,且第二側壁24〇亦設 置有嵌合部容置空間248,用來容置伸入嵌槽252之第二 敌合部520的部份。藉此,當包裝箱2〇〇A的第二嵌合部 520伸入包裝箱200B的嵌槽252,便固定包裝箱200A與 包裝箱200B間的相對位置。 本發明的實施例中設置有移動件以及相對應之嵌槽。 當包裝箱堆疊時,移動件伸入相互堆疊之另一包裝箱的嵌 槽中,藉此便可固定各個包裝箱間的相對位置。避免了包 裝箱放置液晶面板時,因包裝箱與包裝箱間的摩擦力不足 而使得包裝箱產生位移的狀況。更降低運送時因外力造成 紙箱破損的機會。 此外’實施例中包裝箱更具有可取出之内箱,因此可 根據出貨的狀況決定以整個包裝箱出貨,或是以内箱直接 出貨。在運送至疋點後,為方便使用人取用,一次可僅取 用少量樣品,例如本發明之各實施例中即可一次僅取用包 裝箱中的一小内箱進行取用,而其體積及重量僅佔整體包 裝箱的四分之一。如此不但可根據狀況彈性選擇包裝方 式,更可降低運送體積,節省運送成本。 雖然本發明已以實施方式揭露如上’然其並非用以限 201210902 定本發明,任何熟習此技藝者,在不脫離本發明之精神和 範圍内,當可作各種之更動與潤飾,因此本發明之保護範 圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 為讓本發明之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之說明如下: 第1圖是係繪示依照本發明一實施方式的一種包裝箱 堆疊組合示意圖。 第2A圖與第2B圖係繪示依照本發明一實施方式的一 種包裝箱示意圖。 第3圖係繪示第2B圖中B部分的放大示意圖。 第4圖係繪示依照本發明另一實施方式的一種包裝箱 示意圖。 第5A圖至第5B圖係繪示依照本發明另一實施方式的 一種内箱示意圖。 第6A圖至第6B圖係繪示依照本發明一實施方式的一 種包裝箱與包裝箱堆疊組合示意圖。 第6C圖為第6B圖中,A部分的放大示意圖。 第7A圖至第7B圖係繪示依照本發明一實施方式的一 種移動件示意圖。 第7C圖係繪示依照本發明一實施方式的一種移動件 之投影圖 第8A圖至第8D圖係繪示依照本發明另一實施方式的 m 15 201210902 一種移動件示意圖。 【主要元件符號說明】 100 :包裝箱堆疊組合 200 :包裝箱 200A :包裝箱 200B :包裝箱 210 :水平頂面 212 :外箱掀蓋 214 :第一卡槽結構 216 :第二卡槽結構 220 :第一開口 222 :第二孔域 224 :第一孔域 226 :卡槽 230 :第二開口 240 :第二侧壁 242 :凹槽 244 :限位件 246 :凹槽側邊 248 :嵌合部容置空間 250 :凹槽開口 嵌槽 252 201210902 260 :限位部 262 :限位開口 264 :移動件容置空間 266 :嵌槽 268 :移動件開口 270 :第二側壁 300 :内箱 310 :隔板 312 :卡合部 320 :内箱容置空間 330 :第三開口 332 :第四開口 340 :上内緩衝件 350 :側内緩衝件 360 :内箱掀蓋 362 :延伸部 370 :側面 400 :移動件 410 :第一嵌合部 412 :嵌合部折角 414 :定位部折角 420 :第一定位部 430 :嵌合部容置部 201210902 432 :嵌合部容置空間 434 : V字結構侧壁 500 :移動件 510 :第二定位部 512 :摟空部 520 :第二嵌合部Next, please refer to FIGS. 7A to 7C at the same time as a schematic diagram of the moving member of the embodiment. Figure 7 and Figure 7B. The figure is a projection of the moving member. The second fitting portion 410 is a strip-shaped structure. The first fitting portion 410 and the first portion are strip-shaped and have a different surface than the first fitting portion 41. & Section 420 section Refer to Figure 7C. In this embodiment, corrugated paper is cut by fingers. It can be clearly seen from the 4 〇 0 of the moving member 400 that the two fitting portion angles 412 folded from the first fitting portion 410 and the two positioning portion corners 414 which are folded by the first positioning portion 420 can be clearly seen from 201210902. The angles pointed to are different, and they form a cluster of arrows. It is also shown that the first positioning portion 420 and the first fitting portion 410 have different cross-sectional shapes. The moving part accommodating space 264 in the second side wall 270 has a limiting portion 260' disposed parallel to the horizontal top surface 210. The limiting portion 260 has a limiting opening 262. The shape of the limit opening 262 corresponds to the cross section of the first fitting portion 410. Therefore, only the first fitting portion 41 can pass through the limiting opening 262, and when the moving member 400 is displaced upward to the boundary between the first fitting portion 410 and the first merging portion 410, the first positioning portion 420 may be The two cross-sectional shapes of the first engaging portion 410 are different, so that the first positioning portion 420 cannot pass through the limiting opening 262, so that the moving member 400 cannot rise without restriction. That is, the angle 414 of the first positioning portion cannot pass through the limiting opening 262, thereby restricting the protruding portion of the first fitting portion 41 into the recess 266 of the other packaging box 2A (as shown in FIG. 6C) Shown). Further, the end of the moving member 400 further includes a fitting portion accommodating portion 430 connected to the first positioning portion 420. The fitting portion accommodating portion 430 is formed by stacking with a corrugated paper. The projection is a V-shaped structure, and the two V-shaped side walls 434 directly constitute the fitting portion accommodating space 432, and no additional folding angle is formed. The fitting receiving space 432 is a protruding portion for receiving the first fitting portion 410 of the lower package 200B and extending into the recess 266. In addition to being designed to move upward as in the above embodiment, the moving member can also be moved downwards by a factor of ten to achieve the effect of fixing the relative position of the stack combination of the packages. Please refer to Figures 8A to 8D. 8A to 8D are schematic views of a moving member according to another embodiment of [S] 12 201210902. In the figure 8a, in order to show the moving parts and the corresponding structures, some of the inner boxes and the corresponding other pieces are not shown. Figs. 8B and 8c are A in Fig. 8A. Part of the enlarged view. 8B and 8C are schematic views showing the moving parts in different states. The 8D plan is a partial enlarged view of the moving part in the first crime diagram. In the embodiment, the second side wall 24 has a groove, for example, the movable member 5G0 is accommodated. The groove 242 has a four-slot opening 25 () located on one side of the first side wall 240. The moving member 500 is designed as a thin plate of a τ-shaped structure in this embodiment. The shifting cow has a second positioning portion 51G and a second fitting portion 52A. The second fitting portion 520 extends from the second positioning portion 51G toward the groove opening 25 (). = The spacing of the two opposite groove sides 246 of the groove 242 is designed to match the maximum width A of the nip portion 510. Thereby, the two opposite groove side edges 246 of the groove 242 can contact the second positioning portion 51〇, and the sliding member is substantially fixed by the frictional force between the two opposite groove side edges 246 and the second fixing portion 51. 5〇〇. In addition, the recess opening 250 cooperates with the maximum width B of the second fitting portion 52, so that the second mating portion 520 can smoothly pass through the recess opening 25, and protrudes out of the bag 200A, 200B. In the present embodiment, the moving member of the package 200A is moved downwardly into the recess 252 of the other-package 2'. However, in order to avoid that only one of the packages 20GA, 2__, the moving member is displaced downward by the influence of the geocentric force, the opposite side of the groove 242 has a limiting member 244, To limit the position of the shaft. In this embodiment, the limiting member 244 is an arc-shaped convex member disposed on the side edge 46 of the groove so that the second positioning portion 51 can abut against the limiting member 244 to avoid movement [S1 13 201210902 500 Move in unexpected conditions. In other embodiments, the limiting member 244 can also be designed in a square shape or other suitable shape. When the moving member 500 is moved downward, the hollow portion 512 disposed on the second positioning portion 510 can be biased to disengage the moving member 5 from the limiting member 244, so that the second engaging portion 520 is allowed to be removed. The slot 252 of the other package 200B is extended to position the relative positions of the two packages 200. Of course, the slot 252 is matched with the maximum width b of the second engaging portion 52, and the second side wall 24 is also provided with a fitting receiving space 248 for receiving the second enemy portion extending into the slot 252. Part of 520. Thereby, when the second fitting portion 520 of the package 2A protrudes into the recess 252 of the package 200B, the relative position between the package 200A and the package 200B is fixed. In the embodiment of the invention, a moving member and a corresponding recessed groove are provided. When the packages are stacked, the moving members extend into the recesses of the other of the stacked packages, thereby fixing the relative positions between the respective packages. When the liquid crystal panel is placed in the packaging box, the packaging box is displaced due to insufficient friction between the packaging box and the packaging box. It also reduces the chance of damage to the carton caused by external forces during transportation. Further, in the embodiment, the package has a removable inner box, so that it can be shipped in the entire package depending on the condition of the shipment, or can be directly shipped in the inner box. After being transported to the defect, for the convenience of the user, only a small amount of sample can be taken at a time. For example, in each embodiment of the present invention, only one small inner box in the package can be taken at a time for access. The volume and weight account for only a quarter of the overall package. In this way, not only can the packaging method be flexibly selected according to the situation, but also the shipping volume can be reduced and the transportation cost can be saved. The present invention has been described in the above embodiments, and it is not intended to limit the scope of the present invention. It is to be understood that the invention may be modified and modified without departing from the spirit and scope of the invention. The scope of protection is subject to the definition of the scope of the patent application attached. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more <RTIgt; A schematic diagram of a stacking arrangement of packaging boxes. 2A and 2B are schematic views of a package according to an embodiment of the present invention. Fig. 3 is an enlarged schematic view showing a portion B of Fig. 2B. Figure 4 is a schematic view of a package in accordance with another embodiment of the present invention. 5A to 5B are schematic views showing an inner box according to another embodiment of the present invention. 6A to 6B are schematic views showing a stacking combination of a package and a package according to an embodiment of the present invention. Fig. 6C is an enlarged schematic view of a portion A in Fig. 6B. 7A to 7B are schematic views showing a moving member according to an embodiment of the present invention. 7C is a perspective view of a moving member according to an embodiment of the present invention. FIGS. 8A to 8D are schematic views showing a moving member of m 15 201210902 according to another embodiment of the present invention. [Main component symbol description] 100: package stacking combination 200: packaging box 200A: packaging box 200B: packaging box 210: horizontal top surface 212: outer box lid 214: first card slot structure 216: second card slot structure 220 The first opening 222 is: the second hole field 224: the first hole field 226: the card slot 230: the second opening 240: the second side wall 242: the groove 244: the limiting member 246: the groove side 248: the fitting Part accommodating space 250: recess opening slot 252 201210902 260: limiting portion 262: limiting opening 264: moving member accommodating space 266: slot 268: moving member opening 270: second side wall 300: inner box 310: Separator 312 : engaging portion 320 : inner box accommodating space 330 : third opening 332 : fourth opening 340 : upper inner cushioning member 350 : side inner cushioning member 360 : inner box 掀 cover 362 : extending portion 370 : side 400 : moving member 410 : first fitting portion 412 : fitting portion chamfer 414 : positioning portion chamfer 420 : first positioning portion 430 : fitting portion receiving portion 201210902 432 : fitting portion housing space 434 : V-shaped structure side Wall 500: moving member 510: second positioning portion 512: hollow portion 520: second fitting portion