201018626 九、發明說明: 【發明所屬之技術領域】 本發月關於一種包裝結構,特別關於一種包裝盒的緩 衝結構及承載結構。 【先前技術】 ❹201018626 IX. Description of the invention: [Technical field to which the invention pertains] This month relates to a packaging structure, and more particularly to a cushioning structure and a load-bearing structure of a package. [Prior Art] ❹
▲ 許多產品皆具有平板單元,例如顯示面板或電子玻璃 基板,因含有許多精密的電子元件或具有易碎的特性,極 易在裝載與運送的過程中,因碰撞或晃動而損害產品本身 的功月b而且,在產品出貨前,產品也必須經過安全性測 。式例如落下(Dropping)、震動(vibration)和衝擊(Bump) 測試,以妥善保護產品的完整性。因此,製造商多以具有 保護性的包裝結構來支撐及保護包裝盒的内容物。^ ,為了保護運送中的平板單元,習知包裝盒藉由外加緩 衝材料’例如填充塑膠、泡棉或是泡狀緩衝塾,亦或以保 麗龍包覆來提供平板單元保護的功效。 ’、 然而’塑膠類的緩衝材料或保麗龍材料,除了體積魔 大’尚需模造成型,因而造成材料成本增加。 ㈣t上近來大眾環保意識括頭’塑膠類、保麗龍等緩 占錄逐漸禁止使用’轉而使用紙板摺合的緩衝結構 成一種時代趨勢選擇^ :目前習知紙板防護結構,大部分皆為以數種 ^;而成_的結構,其缺點為增加製造時間成本,亦或隨 者千板早^尺寸不同而需製作不同規格的紙板緩衝妹 201018626 構’容易使材料成本增加。 因此,如何提供—種包I盒的緩衝結構及承載結構, 減> 襄造時f核本和符合時代環賴勢,射可以經的起 長途運送雜的震動、衝縣落下㈣外發生所造成物品 ί整性損壞,且可按各種裝置的尺寸大小、保護部位及數 置需求作設計變化,已成為重要課題之一。 ❿ 鲁 【發明内容】 …有鑑於上述課題,本發明之目的為提供—種包裝盒的 緩衝、π構及承载結構’ II由角緩衝件與邊缓衝件的搭配, 可按各種平板單元的尺寸大小及保護部位的位置及數量 需求作設計變化,以降低製造成本。 為達上述目的,依據本發明之—種包裝盒的缓衝結 冓,用以保護至少—物體。其中物體具有-第-角、- j與一第—邊。第—邊夾設於第1與第二角之間。《 構肖緩衝件及-邊緩衝件。角緩衝件具有至: ㈣及至少1二_部,第—緩衝部與第二4 衝部相鄰設置,且第二緩 且 毁置,第一承載部係用=第有:數個第-承載部間丨 三緩衝部,且第三緩^邊緩衝件具有— 置,,此笛m ^具有數個第二承載部間隔1 栽部係用以承載第-邊。 W對H第— 載至的T本發明之1承載結構,用以; ^ +板早兀,承栽結構包含1座、—底板、一 201018626 板及複數個分隔板。基座具有一結合部。底板設置於基座 上’且具有一對應結合部,用以與結合部結合。背板與底 板相鄰設置。該些分隔板互相平行設置,且分別與背板及 底板至少其中之—相接。 * 為達上述目的,依據本發明之一種承載結構,用以承 , 載至少一平板單元,承載結構包含一底板、一背板及複數 個分隔板。底板於其周圍設有至少一個凹陷部。背板與底 板相鄰設置。該些分隔板互相平行設置,且分別與背板或 ®底板至少其中之—相接。 為達上述目的,依據本發明之一種承載結構,用以承 截至少一平板單元,承載結構包含一底板、一背板及複數 個刀Pm板。底板具有一第一主要表面及一第二主要表面, 第一主要表面設有至少一個凸塊。背板設置於第二主要表 面。該些分隔板互相平行設置,且分別與背板或底板至少 其中之一相接。 ❹ 為達上述目的’依據本發明之一種包覆結構,用以包 覆至少一平板單元,包覆結構包含一角包覆件及一邊包覆 件。角包覆件具有至少一第一包覆部及至少一第二包覆 • 邛。第一包覆部與第二包覆部相鄰設置,且第二包覆部具 有複數個第一承包部間隔設置。邊包覆件具有一第三包覆 " 部’且第三包覆部具有複數個第二承包部間隔設置,該些 第二承包部與該些第一承包部對應設置。 f為達上述目的,依據本發明之一種結構,用以覆蓋至 J 一平板單元,結構包含一第一覆件及一第二覆件。第一 201018626 ' 覆件具有至少一第一覆部及至少一第二覆部。第一覆部與 第二覆部相鄰設置,且第二覆部具有複數個第一包部間隔 設置。第二覆件具有一第三覆部,且第三覆部具有複數個 第二包部間隔設置,該些第二包部與該些第一包部對應設 • 置。 為達上述目的,依據本發明之一種缓衝結構,用以承 ' 載至少一物體。其中物體具有一第一角、一第二角以及一 第一邊。第一邊夾設於第一角與第二角之間,缓衝結構包 ❹ 含一第一缓衝件、一第二缓衝件及一第三緩衝件。第一缓 衝件,具有至少一第一承載部與至少兩個第一間隔部,其 中第一承載部位於該些第一間隔部之間,且第一承載部係 用以承載第一角。第二緩衝件具有至少一第二承載部與至 少兩個第二間隔部,其中第二承載部位於該些第二間隔部 之間,且第二承載部係用以承載第二角。第三缓衝件具有 至少一第三承載部與至少兩個第三間隔部。第三承載部位 於該些第三間隔部之間,第三承載部係用以承載第一邊。 ® 其中,第一緩衝件、第二緩衝件與第三缓衝件分別由一具 有摺線之可摺性材質摺疊而成。 承上所述,因依據本發明之一種包裝盒的缓衝結構及 二 承載結構藉由紙板摺疊成中空結構的複數個緩衝部,並搭 , 配組成角緩衝件與邊緩衝件以提供複數個平板單元缓衝 及保護。另外,承載結構藉由底板與背板組設後與棧板結 合並圍設包裝箱以完成包裝結構。 與習知技術相較,本發明的緩衝結構能夠依平板單元 8 201018626 產”隨之變化緩衝結構及其缓衝部的組 製;1二成Γ裝便利性’且快速運輪,進而簡化 【實施方式】 〇 Φ -種式,來說明依本發明較佳實施例之 符衝結構’其中相同的元件將以相同的標示 第一實施例: 請參照圖1Α及圖]β张-丄 包農盒的緩衝結構!,用不$本發明第—實施例之一種 有—第一角、—第n第1少—物體。其中物體具 與第二角之間。 、第—邊。第一邊夾設於第一角 包裝盒緩衝結構丨包 u和-底層板13。二個角輯固,衝件11、一邊緩衝件 上的兩側,且至少—個邊緩牛1個別設置於底層板13 中間區域。 牛12設置於底層板13上的 角緩衝件1〗具有至少— ^衝部11b。第—緩衝部u 及至少-第二 第—緩衝部Ha的高度大^^衝部仍相鄰設置。 而形成L型的角緩衝件u。 一故衝部lib的高度,因此 由於本發明之—個角 巧1午U可同時承載複數個平 9 201018626 板單元的轉角,所以第二緩衝部lib具有複數個第一承載 部11c間隔設置,以承載複數個平板單元的轉角。 需注意的是,第一缓衝部11a及第二緩衝部lib皆由 至少一個頂板T卜至少一個底板B1及至少二個側板S1、 、 S2圍繞而成。 需注意的是,產品必須經過安全性測試,例如落下 (Dropping)、震動(Vibration)和衝擊(Bump)測試,以妥善保 護產品的完整性。第一缓衝部11a的高度需要依產品實際 ❹ 安全性測試做相對應的設計變更。 於本實施例中,第一缓衝部11a與第二緩衝部lib為 一體成型,其由單一瓦楞紙板摺疊而成(如圖1B所示)。 第一緩衝部11a由二個頂板T1、二個底板B1、二個 側板S1及二個側板S2圍繞而成。 而第二缓衝部lib亦由二個頂板T1、二個底板B1、 二個側板S1及二個側板S2圍繞而成。 第二緩衝部lib的該些側板SI、S2呈凹齒狀,該些 ® 第一承載部11c位於凹齒狀的底部。 另外,該些第一承載部11c具有一載板T2,且載板 T2自其中之一側板S2延伸,架設於另一側板S1。 二 邊緩衝件12具有一第三缓衝部12b,藉由單一瓦楞板 . 摺疊二個頂板T1、一個底板B1、二個侧板S1及二個側板 S2圍繞而成第三緩衝部12b。 且第三緩衝部12b具有複數個第二承載部12c間隔設 置,該些第二承載部12c與該些第一承載部11c對應設置, 201018626 且實質上為一直線。 且第三缓衝部12b的高度需要比第二緩衝部lib的高 度高,原因在於第三緩衝部12b用於失覆物體以固定物 體’雨第二缓衝部lib附近剛好有平板單元的電路。 . 邊緩衝件12更具有一卡槽121,卡槽ι21設置於各第 二承載部12c與第三緩衝部i2b之間。邊缓衝件12更具有 一隔板122設置於卡槽121。 請參照圖1C所示,角缓衝件u由單一瓦楞紙板的成 ❹ 型過程如下所述: 於角缓衝件11的展開瓦楞紙板中,以摺疊線(如圖 1C虛線所示)將瓦楞紙板區隔出複數個頂板T1、複數個 底板B1及複數個側板SI、S2。由瓦楞紙板最左端的側板 S1開始摺疊捲繞(如圖1C中箭號II所示),再依序捲繞 側板S1、頂板T1、側板S2、底板B1、第二層的側板si、 頂板T1、侧板S2及底板B1而完成第一缓衝部lla。 第二緩衝部lib可接續摺疊捲繞第一緩衝部lla,亦 ® 可由瓦楞紙板另一端的側板S2往第一緩衝部lla的方向 捲繞(如圖1C中箭號12所示),依序捲繞侧板S2、頂板 T1、側板S1、底板B卜第二層之侧板S2、頂板T]l、侧板 、 S1及底板B1而完成第二缓衝部nb。 , 其中’第一緩衝部lla與第二緩衝部llb共用第二層 底板B1。 请參照圖1D所示,本發明之物體以一平板單元p為 例,其具有一第一角Θ1、一第二角02與一第一邊u,且 11 201018626 第一邊L1夾設於第—角Θ1與第二角们之間。平板單元p 可例如為平面顯示面板、平面顯示模組、玻璃基板及石英 基板所組成之群植。其中’平面顯示面板為液晶顯示面 板、發光一極體顯示面板、有機電致發光顯示面板及場發 .射顯不面板中之任—。另外,平板單元p不一定為直線邊 :之矩形平板’其第一邊u可包含一孤形邊,同樣適用於 緩衝結構1。 /田複數平板單元P裝人包褒盒Μ時,先將底層板13 及缓衝、”。構1的角緩衝件11和邊缓衝件12設置於包裝盒 Μ底邛’將該些平板單元Ρ置放於角緩衝件11的第一承 載。p iic及邊緩衝件12 &第二承載部i2c,並 T2支撐。盆中,笛3 & 執攸 ^ T 第—承載部11c係用以承載第一角Θ1及 第一角θ2,第二承載部12c係用以承載第一邊L1。 此外’該些第—承載部Uc及該些第二承載部A的 寬度實質等於該些平板單的厚度。需注意的是,因邊 ❹緩衝件12容易接觸平板單元ρ (例如液錢示面板)的晝 面顯:表面’故可藉由隔板122的設置以避免畫面顯示表 面刮傷。 、/以些平板單元ρ固定於包裝箱Μ底部的緩衝結構i ^後’將另二個角緩衝件u套置該些平板單元p頂部的 K 一個邊肖’使緩衝結構可充分提供緩衝作用於該些平板單 元Ρ以達保護的功效。 因本發明之緩衝結構1實具有包覆物體之功效,如圖 1Α至圖1D所不’依據本發明之—種包覆結構,用以包覆 12 201018626 :板單凡’包覆結構包含-角包覆件及-邊勺涛 件。其中’包覆結構係等同於上述第 邊包覆 M2。覆件及邊包覆件分別㈣於角緩衝件u及邊^ 角包覆件具有至少一第一包 ,部,其分別等同於上述之第—緩衝部⑴^第:包覆 爪,且第-包覆部與第二包覆部相鄰,置,衝部 具有複數個第—承包部(相同於 -匕覆部 ❹設置。 κ戰σΡ 11 c),並間隔 邊包覆件具有一第爱Arr , 12b),且第三包覆部具 ° _相同於第三緩衝部 些第二承包部卿:第固第二承包部間隔設置,該 因本發明構3::應設置。 參照圖圖構覆蓋物體之功效,請 φ 蓋至少一平板單元,結人—之種結構,用以覆 其中,結構係等同於二二:―覆件及一第二覆件。 覆件及第二覆件分別等同於角;::,緩衝:構。第-第-覆件具有至少—第—角=1及邊緩衝件12。 分別等同於上述之第一緩衝部u:m第二覆部,其 第—覆部與第二覆部相鄰第^^部仙,且 包部(相同於第-承載部具有複數個第一 與該些第-包部對應設置。°仏設置,該些第二包部 13 201018626 第一覆件具有至少一第一覆部及至少-第二覆部。第 :=與第二覆部相鄰設置’且第二覆部具有複數個第一 ^間隔設置。第二覆件具有-第三覆部,且第三覆部具 二Γ:間隔設置,該些第二包部與該些第-: 質另外’第一覆件、第二覆件及第三覆件之材 質^構均》別與第一緩衝部lla、第二緩衝部⑽ 二緩衝部12b相同,於此不再贅述。 ❹第二實施例: =參照圖2A及圖2B所示,本發明第二實施例之一種 h益的緩衝結構2’包含一角緩衝件2ι Μ及一邊緩衝件 22 ° 一角緩衝件21 ’具有至少一第一緩衝部21a及至少一第 緩衝。I5 21b ’且第二緩衝部21b具有複數個第一承載部 21c。 ❹ _其中,第一緩衝部21a由二個頂板Ή、二個底板B1、 ,個側板S1及二個側板S2圍繞而成。第一緩衝部的 形成方式如圖2B的21a所示,由最左侧的側板S1開始, ,再依序摺疊出頂板T1、侧板S2及底板m、第二層的侧板 貝板T1、侧板S2及底板B1而完成第一緩衝部21 a。 ' 為增強角緩衝件21的緩衝作用,於本實施例中,角 緩種ί杜ο 1 门 、、^ 1具有二個第二緩衝部21b,其形成方式與上述第 緩衝部21a的過程相同,並連續摺疊形成二個第二緩 ° ’且二個第二緩衝部21b之間共用同一個底板Β1。 14 201018626 另外,該些第一承載部21c具有一載板Τ2,且載板 Τ2自其中之一側板S2延伸,架設於另一側板S1。 邊缓衝件22具有一第三緩衝部22b、一卡槽221及一 隔板222。邊缓衝件22的基本構成與上述第一實施例的邊 . 緩衝件12相同,於此不再贅述。 於本實施例中,邊緩衝件22以二個第三緩衝部22b 配合一隔板222設置於卡槽221而形成。 第三緩衝部22b的形成,如圖2B的22b所示,由最 ❹ 左侧的側板S1開始,再依序摺疊出底板B1、側板S2及 頂板T1,重覆摺疊後形成第二層第三緩衝部22b,以同樣 ‘過程連續形成第二個第三缓衝部22b。 需注意的是,二個第三缓衝部22b亦可分開而不連 續,並藉由隔板222跨設二個第三缓衝部22b (圖2A未顯 示)。 圖3A及圖3B為本發明第二實施例之另一種角緩衝件 31,為上述角緩衝件21的變化態樣。 ® 圖3A所示的角缓衝件31,包含一第一缓衝部31a及 一第二緩衝部31b。本實施例以一個第一緩衝部31a與三 個第二緩衝部31b共同設置於一連結板C上。 、 其中,第一缓衝部31a,由一頂板ΤΠ、二個側板S1、 二 一個側板S2及一個底板B1所構成。 第二缓衝部31b,由二頂板T1、一個側板S1、一個側 板S2及一個底板B1所構成。 如圖3B為角缓衝件31的形成過程,以一個第一緩衝 15 201018626 部31a與一個第二缓衝部31b共同成型,由最左側的側板 S1開始,再依序摺疊出底板B1、側板S2及頂板T1,重 覆摺疊後形成一個第一緩衝部31a及一個第二缓衝部31b。 其它二個第二缓衝部31b,由最左側的側板S2開始, . 再依序摺疊出頂板T卜侧板S1及底板B1,經重覆摺疊後 形成二個第二缓衝部31b。 第三實施例: ❿ 圖4A及圖4B為本發明第三實施例之一種包裝盒Ml 的緩衝結構4,包含一角緩衝件41以及一邊緩衝件42。 包裝盒Ml及其緩衝結構4,係針對大尺寸的平板單 元P而專門設計。 於本實施例中,角缓衝件41具有一個第一缓衝部41a 及二個第二缓衝部41b間隔而設,且第一缓衝部41a及二 個第二缓衝部41b共同設置於一連結板C1。 需注意的是,角緩衝件41更具有一開孔Ο設置於該 ® 些第二缓衝部41b之間,例如設置於連結板Cl以提供輕 量化及方便取出角缓衝件41的功能。 第一緩衝部41a,由二頂板T1、四個側板SI、S2及 二 二個底板B1所構成。 二第二缓衝部41b,由二頂板T1、二個側板S卜二個側 板S2及二個底板B1所構成。 如圖4B所示為角缓衝件41的成型過程,以一個第一 緩衝部41a與一個‘第二緩衝部41b共同成型,由最左側的 16 201018626 =開Λ,再依序摺叠出項板T1、側板S1及底㈣, W形成-個第-緩衝部41a及一個第二緩衝部 41b 0 爯二::!二緩衡部41b,則由最左側的側板si開始, 再出頂板T1、側板S2及底板Bi,經重覆摺疊後 形成-個第二緩衝部41b ’且與連結板ci —體成型。 圖4B邊户^衝件Λ2具有一第三緩衝部42b,其形成方式參照 不左側的側板W開始,依序摺疊出頂板T1 ' 側板S2及底板B1,重覆擅疊後形成二層的第三緩 42b。 另外,邊緩衝件42具有一隔板422,呈—门型板 =三緩衝部42b,同樣可避免二平板單元p畫 刮傷。 第四實施例:▲ Many products have flat-panel units, such as display panels or electronic glass substrates. Due to the inclusion of many sophisticated electronic components or fragile characteristics, it is easy to damage the work of the product itself due to collision or shaking during loading and transportation. Month b, and the product must pass the safety test before the product is shipped. For example, Dropping, vibration, and Bump tests to properly protect product integrity. Therefore, manufacturers often support and protect the contents of the package with a protective packaging structure. ^ , In order to protect the flat unit in transit, the conventional packaging box provides the protection of the flat unit by applying a cushioning material, such as plastic, foam or foam cushioning, or by coating with a styrofoam. However, 'plastic cushioning materials or styrofoam materials, in addition to the volume of the big, still need to be molded, resulting in increased material costs. (4) Recently, the public's environmental awareness brackets, such as plastics and styrofoam, have gradually banned the use of 'buffering structures that use paperboard folding to become an era trend choice ^: At present, most of the cardboard protective structures are based on The structure of several types of _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Therefore, how to provide the buffer structure and load-bearing structure of the package I-box, reduce the size of the f-nucleus and conform to the era's circumstance, and shoot the long-distance transporting vibrations that can be passed through, and the Chong County falls (4) outside the place. It has become an important issue because it causes damage to the integrity of the item and can be designed and changed according to the size, protection part and number of various devices. ❿ 鲁 [Summary of the Invention] ... In view of the above problems, the object of the present invention is to provide a cushioning, π-structure and load-bearing structure of a packaging box' II by the combination of an angular cushioning member and a side cushioning member, which can be used according to various flat unit units. Design changes are made to the size and number of locations required to reduce manufacturing costs. In order to achieve the above object, the cushioning of the package according to the invention is used to protect at least the object. The object has a -th angle, -j and a first side. The first side is sandwiched between the first and second corners. "Shaping cushions and - side cushions. The angle buffer member has: (4) and at least one of the two portions, the first buffer portion is disposed adjacent to the second four punch portion, and the second portion is temporarily destroyed, and the first load bearing portion is used for: first: several first portions - The third portion of the buffer portion has a buffer portion, and the third buffer portion has a plurality of second load-bearing portions spaced apart from each other to carry the first side. W to H-loaded to the present invention, the load-bearing structure of the invention is used for; ^ + board early, the bearing structure comprises a seat, a bottom plate, a 201018626 plate and a plurality of partition plates. The base has a joint. The bottom plate is disposed on the base and has a corresponding joint for engaging with the joint. The back plate is placed adjacent to the bottom plate. The partition plates are disposed in parallel with each other and are respectively connected to at least one of the back plate and the bottom plate. In order to achieve the above object, a load-bearing structure according to the present invention is configured to carry at least one flat unit, and the load-bearing structure comprises a bottom plate, a back plate and a plurality of partition plates. The bottom plate is provided with at least one recessed portion around it. The back plate is placed adjacent to the bottom plate. The partition plates are disposed in parallel with each other and are respectively connected to at least one of the back plate or the bottom plate. To achieve the above object, a load-bearing structure according to the present invention is for receiving at least one flat plate unit, and the load-bearing structure comprises a bottom plate, a back plate and a plurality of knife Pm plates. The bottom plate has a first major surface and a second major surface, and the first major surface is provided with at least one bump. The back plate is disposed on the second main surface. The partition plates are disposed in parallel with each other and are respectively in contact with at least one of the back plate or the bottom plate.包覆 In order to achieve the above object, a covering structure according to the present invention is used for covering at least one flat plate unit, and the covering structure comprises an angular covering member and a side wrapping member. The corner covering member has at least one first covering portion and at least one second covering portion. The first covering portion is disposed adjacent to the second covering portion, and the second covering portion is provided with a plurality of first contracting portions spaced apart. The edge wrapping member has a third cladding portion and the third cladding portion has a plurality of second packaging portions spaced apart from each other, and the second packaging portions are disposed corresponding to the first packaging portions. f is a structure according to the present invention for covering the J-plate unit, the structure comprising a first cover and a second cover. First 201018626 'The cover has at least a first cover and at least a second cover. The first cover portion is disposed adjacent to the second cover portion, and the second cover portion has a plurality of first package portion spacings. The second cover has a third cover portion, and the third cover portion has a plurality of second package portions spaced apart from each other, and the second cover portions are disposed corresponding to the first package portions. To achieve the above object, a buffer structure according to the present invention is used to carry at least one object. The object has a first angle, a second angle, and a first side. The first side is sandwiched between the first corner and the second corner, and the buffer structure includes a first buffering member, a second buffering member and a third buffering member. The first buffer member has at least one first carrier portion and at least two first spacer portions, wherein the first carrier portion is located between the first spacer portions, and the first carrier portion is configured to carry the first corner. The second buffer member has at least one second carrier portion and at least two second spacer portions, wherein the second carrier portion is located between the second spacer portions, and the second carrier portion is configured to carry the second corner. The third cushioning member has at least one third carrying portion and at least two third spaced portions. The third bearing portion is between the third spacing portions, and the third bearing portion is configured to carry the first side. ® wherein the first cushioning member, the second cushioning member and the third cushioning member are respectively folded by a foldable material. According to the above description, a buffer structure and a two-bearing structure of a package according to the present invention are folded into a plurality of buffer portions of a hollow structure by a cardboard, and are assembled to form an angular buffer member and a side buffer member to provide a plurality of buffer members. Flat unit buffering and protection. In addition, the carrying structure is assembled by the bottom plate and the back plate, and the package is combined with the stack to complete the packaging structure. Compared with the prior art, the buffer structure of the present invention can be produced according to the flat unit 8 201018626 "the composition of the buffer structure and the buffer portion thereof; the convenience of one or two installations" and the fast transport wheel, thereby simplifying [实施 - - 种 种 种 种 - - ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' The buffer structure of the box!, the one of the first embodiment of the present invention has a first angle, an nth first and a small object, wherein the object has a second angle between the object and the second side. The utility model is disposed on the first corner package buffer structure, the bag u and the bottom plate 13. The two corners are solidified, the punching member 11 and the two sides of the buffer member are arranged on the side, and at least one side of the cow is disposed on the bottom plate. 13 intermediate region. The corner buffer 1 provided on the bottom plate 13 has at least a punching portion 11b. The height of the first buffer portion u and at least the second first buffer portion Ha is still large. O. The L-shaped angular buffer member u is formed. The height of the punch portion lib is therefore due to the present invention. A corner U can simultaneously carry a plurality of corners of the flat 9 201018626 board unit, so the second buffer portion lib has a plurality of first carrying portions 11c spaced apart to carry the corners of the plurality of flat units. The first buffer portion 11a and the second buffer portion lib are each surrounded by at least one top plate T and at least one bottom plate B1 and at least two side plates S1, S2. It should be noted that the product must pass a safety test, for example Dropping, vibration, and bump testing to properly protect the integrity of the product. The height of the first buffer portion 11a needs to be changed according to the actual product safety test. In the example, the first buffer portion 11a and the second buffer portion lib are integrally formed, and are folded from a single corrugated cardboard (as shown in Fig. 1B). The first buffer portion 11a is composed of two top plates T1 and two bottom plates B1. The two side plates S1 and the two side plates S2 are surrounded. The second buffer portion lib is also formed by two top plates T1, two bottom plates B1, two side plates S1 and two side plates S2. Lib's side panels SI, S 2, the first bearing portion 11c is located at the bottom of the concave tooth. Further, the first bearing portion 11c has a carrier T2, and the carrier T2 extends from one of the side plates S2, and is mounted on The other side plate S1. The double side cushioning member 12 has a third buffer portion 12b, which is formed by a single corrugated board. The two top plates T1, one bottom plate B1, two side plates S1 and two side plates S2 are folded to form a third The buffer portion 12b has a plurality of second load-bearing portions 12c spaced apart from each other, and the second load-bearing portions 12c are disposed corresponding to the first load-bearing portions 11c, 201018626 and substantially in a straight line. The height of the third buffer portion 12b needs to be higher than the height of the second buffer portion lib because the third buffer portion 12b is used to dispose of the object to fix the object. The circuit in the vicinity of the rain second buffer portion lib has exactly the flat unit. . The side cushioning member 12 further has a card slot 121, and the card slot ι21 is disposed between each of the second carrying portion 12c and the third buffer portion i2b. The side buffer member 12 further has a partition plate 122 disposed on the card slot 121. Referring to Fig. 1C, the process of forming the angle cushioning member u from a single corrugated cardboard is as follows: In the unfolded corrugated cardboard of the corner cushioning member 11, the corrugated cardboard (shown by a broken line in Fig. 1C) will be corrugated. The cardboard area is separated by a plurality of top plates T1, a plurality of bottom plates B1, and a plurality of side plates SI, S2. Folding and winding is started from the leftmost side panel S1 of the corrugated cardboard (as shown by arrow II in FIG. 1C), and then the side panel S1, the top panel T1, the side panel S2, the bottom plate B1, the side panel si of the second layer, and the top panel T1 are sequentially wound. The first buffer portion 11a is completed by the side plate S2 and the bottom plate B1. The second buffer portion lib can be folded and wound around the first buffer portion 11a, and can be wound by the side plate S2 at the other end of the corrugated cardboard toward the first buffer portion 11a (as indicated by an arrow 12 in FIG. 1C), in order. The second buffer portion nb is completed by winding the side plate S2, the top plate T1, the side plate S1, the bottom plate B, the side plate S2 of the second layer, the top plate T1, the side plate, the S1, and the bottom plate B1. Wherein the first buffer portion 11a and the second buffer portion 11b share the second layer bottom plate B1. Referring to FIG. 1D, the object of the present invention is exemplified by a flat panel unit p having a first corner Θ1, a second corner 02 and a first edge u, and 11 201018626 is disposed on the first side L1. - between the corner 1 and the second corner. The tablet unit p can be, for example, a group of a flat display panel, a flat display module, a glass substrate, and a quartz substrate. Among them, the flat display panel is a liquid crystal display panel, a light-emitting one-pole display panel, an organic electroluminescence display panel, and a field emission. Further, the flat plate unit p is not necessarily a straight side: the rectangular flat plate 'the first side u may include a solitary edge, and is also applicable to the buffer structure 1. / When the multi-plate unit P is loaded into the box, the bottom plate 13 and the cushioning, the angular cushioning member 11 and the side cushioning member 12 of the structure 1 are placed in the bottom of the box. The unit is placed on the first load of the corner buffer 11. The p iic and the side buffer 12 & the second carrying portion i2c, and T2 are supported. In the basin, the flute 3 & the handle ^ T the first carrying portion 11c The second carrying portion 12c is configured to carry the first side L1. The width of the first carrying portion Uc and the second carrying portion A is substantially equal to the first angle Θ1 and the first angle θ2. The thickness of the flat sheet. It should be noted that because the side buffer member 12 easily contacts the flat surface of the flat unit ρ (for example, the liquid crystal display panel): the surface can be removed by the partition 122 to avoid the surface of the screen. In the case of the buffer structure i ^ at the bottom of the package box, the other two angle buffers u are placed on the top of the plate unit p, and the buffer structure can be fully provided. Buffering acts on the flat unit to achieve the protection effect. Since the buffer structure 1 of the present invention has a coating The utility model, as shown in FIG. 1A to FIG. 1D, does not have a covering structure according to the present invention, which is used for covering 12 201018626: the board of the single-clad structure includes an angle covering member and a side spoon member. The covering structure is equivalent to the above-mentioned first side covering M2. The covering member and the side covering member respectively (4) have at least one first package at the corner cushioning member u and the edge wrapping member, which are respectively equivalent to the above The first buffer portion (1) is: a covering claw, and the first covering portion is adjacent to the second covering portion, and the punching portion has a plurality of first-contracting portions (same as - the covering portion is set. Ρ Ρ 11 c), and the spacer edge member has a love Arr, 12b), and the third cladding portion has a _ the same as the third buffer portion, the second contractor portion: the second solid portion of the second contractor According to the invention, the structure 3:: should be set. Referring to the diagram to cover the effect of the object, please φ cover at least one flat unit, the structure of the person - to cover, the structure is equivalent to 22: And a second cover. The cover and the second cover are respectively equivalent to the corner;::, buffer: structure. The first-first cover has at least - the first angle = 1 and The side buffer member 12 is respectively equivalent to the first buffer portion u:m second covering portion, and the first covering portion and the second covering portion are adjacent to the first portion, and the package portion (same as the first bearing portion) Having a plurality of first portions corresponding to the first-package portions. The second package portion 13 201018626 has a first cover member having at least a first cover portion and at least a second cover portion. The second covering portion is disposed adjacent to each other and the second covering portion has a plurality of first spacing portions. The second covering portion has a third covering portion, and the third covering portion has two turns: an interval setting, and the second covering portions And the first and second materials of the first, second and third covering members are the same as the first buffer portion 11a and the second buffer portion (10) and the second buffer portion 12b. This will not be repeated here. ❹Second embodiment: Referring to FIG. 2A and FIG. 2B, a buffer structure 2' of the second embodiment of the present invention includes a corner buffer member 2 ι and a buffer member 22 °. The corner buffer member 21' has at least A first buffer portion 21a and at least one first buffer. I5 21b ' and the second buffer portion 21b has a plurality of first carrying portions 21c.第一 _ wherein the first buffer portion 21a is surrounded by two top plates Ή, two bottom plates B1, one side plate S1 and two side plates S2. The first buffering portion is formed in a manner as shown in 21a of FIG. 2B, starting from the leftmost side panel S1, and then sequentially folding the top panel T1, the side panel S2, the bottom panel m, and the side panel of the second layer T1. The first buffer portion 21a is completed by the side plate S2 and the bottom plate B1. In order to enhance the buffering action of the corner cushioning member 21, in the present embodiment, the corner cultivating ί1, ^1 has two second buffering portions 21b formed in the same manner as the above-described first buffering portion 21a. And continuously folding to form two second retarders ' and the two second buffer portions 21b share the same bottom plate Β1. 14 201018626 In addition, the first carrying portions 21c have a carrier Τ2, and the carrier Τ2 extends from one of the side plates S2 and is mounted on the other side plate S1. The side cushioning member 22 has a third buffer portion 22b, a card slot 221, and a partition plate 222. The basic configuration of the side cushioning member 22 is the same as that of the side buffering member 12 of the first embodiment described above, and will not be described herein. In the present embodiment, the side buffer member 22 is formed by the two third buffer portions 22b being fitted to the card slot 221 in cooperation with a partition plate 222. The third buffer portion 22b is formed, as shown by 22b in FIG. 2B, starting from the side panel S1 on the left side of the last side, and then sequentially folding out the bottom plate B1, the side plate S2, and the top plate T1, and repeating the folding to form the second layer and the third layer. The buffer portion 22b continuously forms the second third buffer portion 22b in the same 'process'. It should be noted that the two third buffer portions 22b may also be separated and not continuous, and the two third buffer portions 22b (not shown in Fig. 2A) are spanned by the partition plate 222. 3A and 3B show another angle absorbing member 31 according to a second embodiment of the present invention, which is a variation of the above-mentioned angle absorbing member 21. The angle buffer member 31 shown in Fig. 3A includes a first buffer portion 31a and a second buffer portion 31b. In this embodiment, a first buffer portion 31a and three second buffer portions 31b are provided together on a connecting plate C. The first buffer portion 31a is composed of a top plate ΤΠ, two side plates S1, two side plates S2, and one bottom plate B1. The second buffer portion 31b is composed of two top plates T1, one side plate S1, one side plate S2, and one bottom plate B1. 3B is a process of forming the corner buffer member 31, and a first buffer 15 201018626 portion 31a is formed together with a second buffer portion 31b, starting from the leftmost side plate S1, and then sequentially folding out the bottom plate B1 and the side plate. S2 and the top plate T1 are repeatedly folded to form a first buffer portion 31a and a second buffer portion 31b. The other two second buffer portions 31b are started by the leftmost side plate S2, and the top plate T and the bottom plate B1 are folded in order, and the second buffer portions 31b are formed by repeated folding. Third Embodiment: FIG. 4A and FIG. 4B show a buffer structure 4 of a package M1 according to a third embodiment of the present invention, which includes a corner cushioning member 41 and a side cushioning member 42. The package M1 and its cushioning structure 4 are specifically designed for a large-sized flat unit P. In the embodiment, the first buffer portion 41a and the two second buffer portions 41b are spaced apart from each other, and the first buffer portion 41a and the two second buffer portions 41b are disposed together. On a connecting plate C1. It should be noted that the corner buffer member 41 has an opening Ο disposed between the second buffer portions 41b, for example, disposed on the connecting plate C1 to provide weight reduction and easy to take out the corner buffer member 41. The first buffer portion 41a is composed of two top plates T1, four side plates SI, S2, and two bottom plates B1. The second buffer portion 41b is composed of two top plates T1, two side plates S, two side plates S2, and two bottom plates B1. As shown in FIG. 4B, the molding process of the corner buffer member 41 is formed by a first buffer portion 41a and a 'second buffer portion 41b, and is folded from the leftmost 16 201018626, and then sequentially folded out. The plate T1, the side plate S1 and the bottom (four), W form a first buffer portion 41a and a second buffer portion 41b 0 爯 2::! The second balance portion 41b starts from the leftmost side plate si, and then the top plate T1, the side plate S2, and the bottom plate Bi are folded, and after being repeatedly folded, a second buffer portion 41b' is formed and integrally formed with the connecting plate ci. 4B has a third buffer portion 42b, which is formed by referring to the side plate W not on the left side, and sequentially folds the top plate T1' side plate S2 and the bottom plate B1, and repeats the overlapping to form the second layer. Three slow 42b. In addition, the side buffer member 42 has a partition plate 422, which is a door type plate = three buffer portions 42b, so that the two flat plate units p can be prevented from being scratched. Fourth embodiment:
1 ~X<L· ^ vJJ , —角 實質上角度為九十度且第—邊L2實質上為平板單元p 長邊。第一邊L2夾設於第一角Θ1與第二角们之間。 請參照圖5所示,本發明第四實施例之—種緩衝結構 5 ’用以承載至少—物體。其中物體係為_多面體,於本 實施例中,物體係以-平板單元p為例朗,並1有一第 -角Θ卜-第二角θ2以及一第一邊L2。其中,第一角❽】 之 緩衝結構5包含一第一緩衝件51、—第二 及-第三緩衝件53。第—緩衝件51具有至少—第一承載 部5Η與至少兩個第一間隔部512。其中第一承載部5ιι 17 201018626 位於該些第一間隔部512之間,且第一承載部511係用以 承載第一角Θ1。於本實施例中,第一缓衝件51係較佳為 具有複數個第一承載部511形成於複數個第一間隔部512 之間,且該些第一承載部511係用以承載第一角Θ1。 . 第二緩衝件52具有至少一第二承載部521與至少兩 個第二間隔部522,其中第二承載部521位於該些第二間 « 隔部522之間,且第二承載部521係用以承載第二角Θ2。 於本實施例中,第二緩衝件52係較佳為具有複數個第二 ❹ 承載部521形成於複數個第二間隔部522之間,且該些第 二承載部521係用以承載第二角Θ2。 第三缓衝件53具有至少一 531與至少兩個第三間隔 部532。第三承載部531位於該些第三間隔部532之間, 第三承載部531係用以承載第一邊L2。缓衝結構5可具有 複數個第三緩衝件53。於本實施例中,緩衝結構5具有兩 個第三緩衝件53,其中第三缓衝件53具有複數個第三承 載部531形成於複數個第三間隔部532之間,且該些第三 — 承載部531與該些第一承載部511及該些第二承載部521 對應設置。需注意的是,第三承載部531與第一承載部511 及第二承載部521實質上對應設置於一直線上。 ’一 另外,第一緩衝件51、第二缓衝件52與第三缓衝件 二 53分別由一具有摺線之可摺性材質摺疊而成,例如材質為 瓦楞紙之緩衝結構5。於本實施例中,第一缓衝件51、第 二緩衝件52或第三缓衝件53由複數個具有摺線之瓦楞紙 材質摺疊而成。 18 201018626 本實施例之缓衝結構5之第一缓衝件51具有一第一 擋牆513,其與第一間隔部512定義該第一承載部511。 相同地,第二緩衝件52具有一第二擋牆523,其與第二間 隔部522定義第二承載部521。本實施例之缓衝結構5可 . 應用於承載至少一物體,其過程已於上述第一實施例詳 m 述,於此不再贅述。 « 第五實施例: ❿ 請參照圖6A及圖6B所示,本發明第五實施例之一種 承載結構6,用以承載至少一平板單元。平板單元係可選 自由平面顯示面板、平面顯示模組、玻璃基板及石英基板 所組成之群組。承載結構6包含一基座61、一底板62、 一背板63及複數個分隔板64。於本實施例中,基座61為 一棧板,並具有一結合部611。底板62設置於基座61上, 且具有一對應結合部621,用以與結合部611結合。其中, 結合部611可選自例如:卡勾、凹陷部及凸出部所組成之 ® 群組;對應結合部621則與結合部611配合可選自例如: 卡勾、凹陷部及凸出部所組成之群組。於本實施例中,基 座61之結合部611為一卡勾,而底板62於其周圍設有至 - 少一對應結合部621,其為一個凹陷部並類似一卡孔以相 對於結合部611設置。 背板63與底板62相鄰設置,且底板62具有複數個 開孔622,用以讓背板63及該些分隔板64其中之一插附。 該些分隔板64為一雙層結構,並互相平行設置,且分別 19 201018626 與背板63及底板62至少其中之一相接。另外,背板63 設有複數個結合結構631,例如複數個開孔,用以與該些 分隔板64結合。 於本實施例中,背板63與底板62為一體成型或以結 . 合結構加以組裝成型,亦或該些分隔板64、背板63與底 板62為一體成型或以結合結構加以組裝成型。需補充的 / 是,承載結構6除基座61為棧板之外,其他構件之材質 可選自由瓦楞紙或其他例如:泡棉、海綿及橡膠所組成之 ❿ 群組,以增加承載平板單元之缓衝作用。由於承載結構5 之材質可為瓦楞紙,其厚度薄不僅有利於更多數量之平板 單元包裝,且藉由本發明之承載結構亦可提供平板單元運 送途中之保護作用。 第六實施例: 請參照圖7所示,本發明第六實施例之一種承載結構 7,可應用與於一基座71結合。承載結構7包含一底板72、 一背板73及複數個分隔板74。底板72具有一第一主要表 面721及一第二主要表面722,第一主要表面721設有至 少一個凸塊723。背板73設置於第二主要表面722。該些 *· 分隔板74互相平行設置,且分別與背板73或底板72至 -- 少其中之一相接。承載結構7之底板72、背板73及該些 分隔板74之材質及組成方式,已於上述第五實施例之承 載結構6中詳述,於此不再贅述。另外,基座71更包含 結合部711為複數凹洞以對應底板72之對應結合部723 20 201018626 為複數凸境對m,使底板72可與基座71結合。 二參照、圖8所示,本發明較佳實施例之一種包裝結構 8包3至^ —包裝箱80及一承載結構6。其中,包裝箱8〇 係〇覆或覆蓋承载結構6。於本實施例中,包裝結構8係 .用關如包|複數平板單元p,其可選自由平面顯示面 ,板平項不模組、玻璃基板及石英基板所組成之群組。 於本實知例中,包裝結構8之承载結構6係藉由上述第五 實施例之承载結構6與包裝箱⑼結合,而承載結構&之 ©構造、材質及形成方法已詳述於上述實施例,於此不再資 述。1 ~ X < L · ^ vJJ , - The angle is substantially ninety degrees and the first side L2 is substantially the long side of the flat unit p. The first side L2 is interposed between the first corner Θ1 and the second corner. Referring to Figure 5, a buffer structure 5' of the fourth embodiment of the present invention is used to carry at least an object. The object system is a polyhedron. In the present embodiment, the object system is exemplified by a plate unit p, and 1 has a first-corner-second angle θ2 and a first side L2. The buffer structure 5 of the first corner includes a first buffer member 51, a second and a third buffer member 53. The first cushioning member 51 has at least a first carrier portion 5A and at least two first spacer portions 512. The first carrying portion 5 ι 17 201018626 is located between the first spacing portions 512, and the first bearing portion 511 is configured to carry the first corner Θ1. In the present embodiment, the first buffering member 51 is preferably formed with a plurality of first receiving portions 511 formed between the plurality of first spaced portions 512, and the first carrying portions 511 are used to carry the first Corner Θ 1. The second buffering member 52 has at least one second carrying portion 521 and at least two second spaced portions 522, wherein the second carrying portion 521 is located between the second partitions 522, and the second carrying portion 521 is Used to carry the second corner Θ2. In the present embodiment, the second buffer member 52 preferably has a plurality of second dam portions 521 formed between the plurality of second spacers 522, and the second carrier portions 521 are used to carry the second Corner Θ 2. The third cushioning member 53 has at least one 531 and at least two third spaced portions 532. The third bearing portion 531 is located between the third spacing portions 532, and the third bearing portion 531 is configured to carry the first side L2. The buffer structure 5 can have a plurality of third buffer members 53. In the present embodiment, the buffer structure 5 has two third buffer members 53 , wherein the third buffer member 53 has a plurality of third bearing portions 531 formed between the plurality of third spacers 532 , and the third portions The bearing portion 531 is disposed corresponding to the first carrying portion 511 and the second carrying portions 521 . It should be noted that the third carrying portion 531 is substantially disposed on the straight line corresponding to the first carrying portion 511 and the second carrying portion 521 . Further, the first cushioning member 51, the second cushioning member 52 and the third cushioning member 53 are respectively folded by a foldable material having a fold line, for example, a cushioning structure 5 made of corrugated paper. In the present embodiment, the first cushioning member 51, the second cushioning member 52 or the third cushioning member 53 are folded from a plurality of corrugated paper materials having fold lines. 18 201018626 The first cushioning member 51 of the cushioning structure 5 of the present embodiment has a first retaining wall 513 which defines the first carrying portion 511 with the first spacing portion 512. Similarly, the second cushioning member 52 has a second retaining wall 523 which defines a second carrying portion 521 with the second spacing portion 522. The buffer structure 5 of the present embodiment can be applied to carry at least one object, and the process thereof is described in detail in the above first embodiment, and details are not described herein again. «Fifth Embodiment: ❿ Referring to FIG. 6A and FIG. 6B, a carrying structure 6 according to a fifth embodiment of the present invention is used to carry at least one flat unit. The flat panel unit is selected from the group consisting of a free flat display panel, a flat display module, a glass substrate, and a quartz substrate. The load bearing structure 6 includes a base 61, a bottom plate 62, a back plate 63 and a plurality of partition plates 64. In the present embodiment, the base 61 is a pallet and has a joint portion 611. The bottom plate 62 is disposed on the base 61 and has a corresponding joint portion 621 for coupling with the joint portion 611. The joint portion 611 may be selected from, for example, a group of hooks, recesses, and protrusions; the corresponding joint portion 621 may be selected from the joint portion 611, for example, a hook, a recess, and a protrusion. The group formed. In this embodiment, the joint portion 611 of the base 61 is a hook, and the bottom plate 62 is provided with a corresponding joint portion 621 at a periphery thereof, which is a recessed portion and is similar to a card hole to be opposite to the joint portion. 611 settings. The back plate 63 is disposed adjacent to the bottom plate 62, and the bottom plate 62 has a plurality of openings 622 for attaching the back plate 63 and one of the partition plates 64. The partition plates 64 are of a two-layer structure and are disposed in parallel with each other, and respectively 19 201018626 is in contact with at least one of the back plate 63 and the bottom plate 62. In addition, the backing plate 63 is provided with a plurality of bonding structures 631, such as a plurality of openings, for bonding with the partitioning plates 64. In this embodiment, the back plate 63 and the bottom plate 62 are integrally formed or assembled by a joint structure, or the partition plates 64, the back plate 63 and the bottom plate 62 are integrally formed or assembled by a joint structure. . It should be added that, in addition to the base 61, the load-bearing structure 6 can be made of corrugated paper or other groups of foam, sponge and rubber, for example, to increase the carrying unit. Buffering effect. Since the material of the load-bearing structure 5 can be corrugated paper, the thin thickness is not only advantageous for a larger number of flat unit packages, but also the protection structure of the flat unit can be provided by the load-bearing structure of the present invention. Sixth Embodiment: Referring to Figure 7, a load-bearing structure 7 of a sixth embodiment of the present invention can be applied in combination with a base 71. The load bearing structure 7 includes a bottom plate 72, a back plate 73 and a plurality of partition plates 74. The bottom plate 72 has a first major surface 721 and a second major surface 722, and the first major surface 721 is provided with at least one bump 723. The backing plate 73 is disposed on the second major surface 722. The partition plates 74 are disposed in parallel with each other and are respectively in contact with one of the back plate 73 or the bottom plate 72 to . The material and composition of the bottom plate 72, the back plate 73 and the partition plates 74 of the load-bearing structure 7 are detailed in the load-bearing structure 6 of the fifth embodiment, and will not be described herein. In addition, the base 71 further includes a joint portion 711 as a plurality of recesses corresponding to the corresponding joint portions 723 20 201018626 of the bottom plate 72 as a plurality of convex pairs m, so that the bottom plate 72 can be coupled with the base 71. Referring to Figure 8, there is shown a package structure 8 package 3 to a package 80 and a load-bearing structure 6 in accordance with a preferred embodiment of the present invention. Wherein, the package 8 is covered or covered by the load-bearing structure 6. In the present embodiment, the packaging structure 8 is a group of a flat panel display surface, a flat panel display panel, a glass substrate, and a quartz substrate. In the present embodiment, the load-bearing structure 6 of the package structure 8 is combined with the package box (9) by the load-bearing structure 6 of the fifth embodiment described above, and the structure, material and formation method of the load-bearing structure & The embodiment is not described here.
田承載、、、°構6之底板62與基座61 (在此為棧板)結 合完成後’將該些平板單元p置人底板62、分隔板Μ及 背板=3所形成的邊角㈣結構,再由—第―箱體以及一 第二箱體82包覆並覆蓋承載結構6。其中,第一箱體81 為四邊圍板且無底板及侧板之瓦榜紙箱;第二箱體82則 為包裝結構8之外箱,並包覆第-箱體8卜且覆蓋於基座 61上方。之後’可選擇再㈣—角緩衝件(圖未顯示)套 單元p頂部的二個邊角’便可將包裝結構8封 繩或封膠帶而完成平板單元之包料業。由於基座6 -棧板’且為包裝結構8之一部分’故可直接運載裝櫃’, -方面運輪快速,另—方面則節省包裝成本。 第七實施例: 種包裝結構 請參照圖9所示,本發明第七實施例之一 21 201018626 9並包含一缓衝結構1及一基座61。本實施例包裝結構9 係應用結合上述第一實施例之缓衝結構1及第五實施例之 承載結構6之基座61。基座61為一棧板,並具有一結合 部611。缓衝結構1之角缓衝件11具有一對應結合部119, • 且邊缓衝件12亦具有一對應結合部129。於本實施例中, 結合部611為一卡勾,而對應結合部119、129分別為對應 卡勾之凹陷部,使角缓衝件11及邊緩衝件12可對應結合 於基座61上。結合部611與對應結合部111、112之結構 ❿ 及變化態樣與上述實施例之承載結構6的結合部611及對 應結合部621相同,於此不再贅述。當角缓衝件11及邊 緩衝件12結合於基座61上後,可用以包裝保護一物體例 如平板單元P。需注意的是,包裝結構9可再加入上述較 佳實施例之包裝箱80 (本實施例圖未顯示),並覆蓋於基 座61上方。之後,可選擇再設置一角緩衝件11套置於該 些平板單元P頂部的二個邊角,便可將包裝結構9封繩或 封膠帶而完成平板單元之包裝作業。另外,包裝結構9之 ® 緩衝結構1亦可應用置換第二實施例之缓衝結構2或第三 實施例之緩衝結構4設置於基座61上方,可達包裝結構9 相同之功效。 - 第八實施例: 請參照圖10所示,本發明第八實施例之一種包裝結 構10並包含一缓衝結構5及一基座71。本實施例包裝結 構10係結合應用上述第四實施例之緩衝結構5及第六實 22 201018626 施例之承載結構7之基座71。基座71同樣為一棧板,並 具有一結合部711及71Γ。缓衝結構5之角緩衝件51、52 具有一對應結合部519、529,且第三緩衝件53亦具有一 對應結合部539。於本實施例中,結合部711為一凹洞, . 而對應結合部519、529、539分別為對應凹洞之凸塊,使 角緩衝件51、52及第三缓衝件53可對應結合於基座71 上。結合部711及71Γ與對應結合部519、529、539之結 構及變化態樣與上述之承載結構7之結合部711及對應結 ❿ 合部723相同,於此不再贅述。當角緩衝件11及邊緩衝 件12結合於基座61上後,可用以包裝保護一物體例如平 板單元P。另外,包裝結構10之緩衝結構5亦可應用置換 第一實施例之缓衝結構1或第二實施例之緩衝結構2或第 三實施例之緩衝結構4設置於基座71上方,同樣可達包 裝結構10之功效。 另外,包裝結構10可再加入上述較佳實施例之包裝 箱80 (本實施例圖未顯示),以相同包裝方式完成平板單 元P之包裝作業。 综上所述,因依據本發明之一種包裝盒的缓衝結構及 承載結構藉由紙板摺疊成中空結構的複數個缓衝部,並搭 Λ 配組成角缓衝件與邊缓衝件以提供複數個平板單元缓衝 及保護。另外,承載結構藉由底板與背板組設後與棧板結 合並圍設包裝箱以完成包裝結構。與習知技術相較,本發 明的緩衝結構能夠依平板單元的尺寸及數量的需求隨之 變化緩衝結構及其缓衝部的組合,以符合產品包裝的需 23 201018626 求。另外,承載結構藉由機板與包裝箱的結合,增加包裝 便利性,且快速運輸,進而簡化製程,並降低成本。 以上所述僅為舉例性,而非為限制性者。任何未脫離 本發明之精神與範疇,而對其進行之等效修改或變更,均 , 應包含於後附之申請專利範圍中。 j· 【圖式簡單說明】 圖1A為依據本發明第一實施例之包裝盒的緩衝結構 ® 的示意圖; 圖1B為依據圖1A之緩衝結構的展開示意圖; 圖1C為依據圖1A之角缓衝件的摺疊過程的示意圖; 圖1D為依據本發明第一實施例之包裝盒的緩衝結構 及其裝載平板單元的示意圖; 圖2A為依據本發明第二實施例之包裝盒的緩衝結構 的不意圖, 圖2B為依據圖2A之緩衝結構的展開示意圖; 圖3A為依據本發明第二實施例之角緩衝件的變化態 樣的不意圖, 圖3B為依據圖3A之角缓衝件的展開示意圖; 、 圖4A為依據本發明第三實施例之包裝盒的缓衝結構 - 及其裝載平板單元的示意圖; 圖4B為依據圖4A之缓衝結構的展開示意圖; 圖5為依據本發明第四實施例之包裝盒的缓衝結構的 不意圖, 24 201018626 圖6A為依據本發明第五實施例之一種承載結構的分 解示意圖; 圖6B為圖6之承載結構的組合示意圖; 圖7為依據本發明第六實施例之一種承載結構的示意 圖; 圖8為依據本發明較佳實施例之一種包裝結構的示意 圖; 圖9為依據本發明第七實施例之一種包裝結構的示意 ⑩圖;以及 圖10為依據本發明第八實施例之一種包裝結構的示 意圖。 【主要元件符號說明】 I、 2、4、5 :缓衝結構 II、 21、3卜41 :角緩衝件 11a、21a、31a、41a:第一緩衝部 lib、21b、31b、41b :第二缓衝部 11c、21c :第一承載部 12、22、42 :邊缓衝件 、 12b、22b、42b :第三缓衝部 12c、22c :第二承載部 121、 221 :卡槽 122、 222、422 :隔板 13 :底層板 25 201018626 119、129、519、529、539、621、723 :對應結合部 51 :第一緩衝件 511 :第一承載部 512 :第一間隔部 ,· 513 :第一擋牆 52 :第二缓衝件 521 :第二承載部 522 :第二間隔部 ❿ 523 :第二擋牆 53 :第三緩衝件 531 :第三承載部 532 :第三間隔部 6、7 :承載結構 6卜71 :基座 611、711、71Γ :結合部 62、 72 :底板 w 622 :開孔 63、 73 :背板 631、731 :結合結構 ,- 64、74 :分隔板 721 :第一主要表面 722 :第二主要表面 8、9、10 :包裝結構 80 :包裝箱 26 201018626 81 :第一箱體 82 :第二箱體 B1 :底板 C、C1 :連結板 、· II、12 :箭號 LI、L2 :第一邊 d Μ、Ml :包裝盒 Ο :開孔 ❹ P :平板單元 S卜S2 :側板 T1 :頂板 T2 :載板 Θ1 :第一角 Θ2 :第二角After the combination of the bottom plate 62 of the field bearing, and the structure 6 and the base 61 (here, the pallet) is completed, the sides of the flat plate unit p are placed on the bottom plate 62, the partition plate Μ and the back plate = 3 The corner (four) structure is covered by the first box and a second box 82 and covers the load bearing structure 6. Wherein, the first box body 81 is a four-sided board and has no bottom plate and a side panel of the tiled carton; the second box 82 is an outer box of the packaging structure 8 and covers the first box 8 and covers the base Above 61. Then, the optional four-corner cushioning member (not shown) can be used to seal the packaging structure 8 by sealing or sealing the packaging structure 8 to complete the packaging of the flat unit. Since the base 6 - the pallet 'and part of the packaging structure 8 ' can directly carry the loading cabinet ', the front wheel is fast, and the other side saves packaging costs. Seventh Embodiment: A package structure Referring to FIG. 9, a seventh embodiment of the present invention 21 201018626 9 includes a buffer structure 1 and a base 61. The package structure 9 of the present embodiment is applied to the susceptor 61 in combination with the buffer structure 1 of the first embodiment described above and the load-bearing structure 6 of the fifth embodiment. The base 61 is a pallet and has a joint portion 611. The corner buffer member 11 of the cushioning structure 1 has a corresponding joint portion 119, and the side cushion member 12 also has a corresponding joint portion 129. In this embodiment, the joint portion 611 is a hook, and the corresponding joint portions 119 and 129 are recessed portions corresponding to the hooks, so that the corner buffer member 11 and the side cushion member 12 can be coupled to the base 61 correspondingly. The structure 变化 and the variation of the joint portion 611 and the corresponding joint portions 111 and 112 are the same as those of the joint portion 611 of the load-bearing structure 6 of the above-described embodiment, and the corresponding joint portion 621, and will not be described herein. When the corner bumper 11 and the side cushioning member 12 are coupled to the base 61, an object such as the flat unit P can be protected by a package. It should be noted that the package structure 9 can be further incorporated into the package 80 of the above preferred embodiment (not shown in this embodiment) and overlying the base 61. Thereafter, the corner buffer member 11 can be further disposed on the two corners of the top of the flat plate unit P, and the packaging structure 9 can be sealed or sealed to complete the packaging operation of the flat unit. In addition, the buffer structure 1 of the package structure 9 can also be disposed above the susceptor 61 in place of the buffer structure 2 of the second embodiment or the buffer structure 4 of the third embodiment, which can achieve the same effect as the package structure 9. - Eighth Embodiment: Referring to Figure 10, a package structure 10 of an eighth embodiment of the present invention includes a buffer structure 5 and a base 71. The package structure 10 of the present embodiment is combined with the base 71 of the load-bearing structure 7 of the above-described fourth embodiment of the buffer structure 5 and the sixth embodiment of the 2010. The base 71 is also a pallet and has a joint portion 711 and 71A. The corner buffer members 51, 52 of the cushioning structure 5 have a corresponding joint portion 519, 529, and the third cushion member 53 also has a corresponding joint portion 539. In this embodiment, the joint portion 711 is a recess, and the corresponding joint portions 519, 529, and 539 are respectively corresponding to the concave holes, so that the corner buffer members 51, 52 and the third buffer member 53 can be combined. On the base 71. The structures and variations of the joint portions 711 and 71 and the corresponding joint portions 519, 529, and 539 are the same as those of the joint portion 711 and the corresponding joint portion 723 of the above-described load-bearing structure 7, and will not be described herein. When the corner bumper 11 and the side cushion member 12 are coupled to the base 61, it is possible to protect an object such as the flat plate unit P by packaging. In addition, the buffer structure 5 of the packaging structure 10 can also be disposed on the base 71 instead of the buffer structure 1 of the first embodiment or the buffer structure 2 of the second embodiment or the buffer structure 4 of the third embodiment. The effect of the packaging structure 10. In addition, the packaging structure 10 can be further added to the package 80 of the above preferred embodiment (not shown in the embodiment) to complete the packaging operation of the tablet unit P in the same packaging manner. In summary, the buffer structure and the load-bearing structure of a package according to the present invention are folded into a plurality of buffer portions of a hollow structure by a cardboard, and are assembled to form an angle buffer member and a side buffer member to provide Multiple flat panel buffers and protection. In addition, the carrying structure is assembled by the bottom plate and the back plate, and the package is combined with the stack to complete the packaging structure. Compared with the prior art, the buffer structure of the present invention can vary the combination of the buffer structure and the buffer portion depending on the size and number of the flat unit, so as to meet the requirements of the product packaging 23 201018626. In addition, the load-bearing structure combines the machine board and the packaging box to increase the convenience of packaging and fast transportation, thereby simplifying the process and reducing the cost. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a schematic view of a buffer structure of a package according to a first embodiment of the present invention; FIG. 1B is a schematic exploded view of the buffer structure according to FIG. 1A; FIG. 1D is a schematic view of a buffer structure of a package according to a first embodiment of the present invention and a loading plate unit thereof; FIG. 2A is a view showing a buffer structure of a package according to a second embodiment of the present invention; 2B is a schematic exploded view of the cushioning structure according to FIG. 2A; FIG. 3A is a schematic view of a variation of the angular cushioning member according to the second embodiment of the present invention, and FIG. 3B is an exploded view of the cushioning member according to FIG. 4A is a schematic view of a buffer structure of a package according to a third embodiment of the present invention and a loading plate unit thereof; FIG. 4B is a schematic exploded view of the buffer structure according to FIG. 4A; 4 is a schematic exploded view of a load-bearing structure according to a fifth embodiment of the present invention; FIG. 6B is a combination of the load-bearing structure of FIG. Figure 7 is a schematic view of a load-bearing structure according to a sixth embodiment of the present invention; Figure 8 is a schematic view of a package structure according to a preferred embodiment of the present invention; Figure 9 is a package structure according to a seventh embodiment of the present invention. Figure 10 is a schematic view; and Figure 10 is a schematic view of a package structure in accordance with an eighth embodiment of the present invention. [Description of main component symbols] I, 2, 4, 5: buffer structure II, 21, 3b 41: corner buffers 11a, 21a, 31a, 41a: first buffer portions lib, 21b, 31b, 41b: second Buffer portions 11c, 21c: first carrier portions 12, 22, 42: side buffers, 12b, 22b, 42b: third buffer portions 12c, 22c: second carrier portions 121, 221: card slots 122, 222 422: partition plate 13: bottom plate 25 201018626 119, 129, 519, 529, 539, 621, 723: corresponding joint portion 51: first cushioning member 511: first bearing portion 512: first spacing portion, · 513: The first retaining wall 52: the second buffering member 521: the second supporting portion 522: the second spacing portion 523: the second retaining wall 53: the third buffering member 531: the third supporting portion 532: the third spacing portion 6, 7 : bearing structure 6 卜 71 : pedestal 611 , 711 , 71 Γ : joint portion 62 , 72 : bottom plate w 622 : opening 63 , 73 : back plate 631 , 731 : joint structure, - 64, 74 : partition plate 721 : first main surface 722 : second main surface 8, 9, 10 : packaging structure 80 : packaging box 26 201018626 81 : first housing 82 : second housing B1 : bottom plate C, C1 : connecting plate, · II, 12: Arrows LI, L2 : First side d Μ, Ml : Packing box Ο : Opening ❹ P : Flat unit S Bu S2 : Side panel T1 : Top plate T2 : Carrier plate Θ 1 : First corner Θ 2 : Second corner