200800750 九、發明說明: 【發明所屬之技術領域】 【先前技術】200800750 IX. Description of the invention: [Technical field to which the invention pertains] [Prior Art]
易,品之包裝絲為產品運送時之重要課題 :善知,往往造成物品_送過財之損壞,進而增加生產居 ^=是具高精密性或易碎性之電子裝置,例如液晶顯示弟 L電漿顯示裝置、有機發光二極_示||、g /、專,容易因為運送過程中之縣而破壞内部之電路構造或其 他易碎結構,進而造成產品之損失。 …以圖la及圖lb所示之顯示裝置包裝為例,一般在產品缝 达過程中,均將顯示裝置面板7〇與其支樓座5〇分離。首先網 相體10之底部填充緩衝材22,接著將折疊至最小壓縮位置之 支撐座50放入缓衝材22中。支撐座5〇上方設置有隔板3〇, 藉以隔離支撐座50與隔板30上方之顯示裝置面板70,以避 免支撐座50在運送過程中撞擊顯示裝置面板7〇。最後在顯示 裝置面板70上方填充緩衝材21,以完成裝箱作業。 在土述之包裝方式甲,對外力衝擊之防護及缓衝完全仰賴 其間所充填之緩衝材21、22及隔板30,因此缓衝材21、22 及隔板30之厚度及材質即決定了全部的缓衝效果。相對而 言,支撐座50則為其間造成顯示裝置面板70破壞的因素之 5 200800750 -。此外,支撐座50之結構中多設有彈簧或其他之彈性 未能將之加以至整體包裝之缓衝結構t作為_ # 方向之一 十分可惜。因此如何在包裝結構中將支撐座自破壞電子太 體之因素’改變為增加猶效果之裝置,喊為本發、田考 【發明内容】 本發明之目的在練供—種緩衝包裝結構,具有較節省緩 衝材設置之優點。 本發明之目的在於提供一種緩衝包裝結構,利用被包裝物 本身之結構提供猶、吸震之錄,賤雜之功能。 本發明之緩衝包裝結構主要包含箱體、第一緩衝材及間隔 部,以及被包裝之可變形策一内容物及第二内容物。箱體係具 有内部空間,第-緩衝材係設置於内部空間中。間隔部係可 移動$設置於繼之内輕财,縣其鮮-緩衝材間形成 第-空間。可變形第—内容物魏於伸張狀態與獅狀態間之 一較伸張狀態,並容納於第一空間内。此外,可變形第一内容 物較佳係支撐間隔部,使其可移統設置於箱_。第一麟 材亚可充填可變形第一内容物與箱體間之空隙。第二缓衝材亦 設置於内部空間内,並與第—缓衝材位於_部之兩側。第二 緩衝材與間隔部_成第二空間,第二内容物係容納於第二空 間内。第二緩衝材並可用以充填電子裝置主體與箱體間之空 隙。除與間隔部接觸之部份外,在較佳實施例中,第二缓衝材 200800750 ,大致包覆電子裝置主體;第__,麟材触亦大致包覆可變形 弟-内容物除與間隔部接觸之其他部分。 絲佳實施财’可變形第—内雜係為—支撐座。支撐 MU A撐桿、連接座及彈性元件。支撐桿之兩^ 刀為相對之底座端及支撐端。底座端連接底座,而支携端則 2可撕顧端鶴。支雜射相職餘於伸張位置、愿 縮位置及其間之㈣張位置及較壓縮位置。雅元件分別連接 底座及支撐桿。當支撐座位於伸張位置時,彈性元件之變形量 及產生之雜力料最*。當描鮑_驗置時,支撐桿 與底座之相對位移已至極限,使支禮座之體積收縮至最小。Z 時彈性元件之變形量及產生之彈性力均為最大。當支樓座位於 較伸張位置及較壓縮位置時,彈性元件之變形量及產生之彈性 力均在可"增加之區段。 當支撐座容納於箱體之第一空間中時,支撐座係可在第一 方向上伸縮。支撐座係抵觸間隔部,以提供間隔部一支撐力, 並吸收箱體搬運過程中,間隔部所受之震動及位移。當第二内 容物受外力震動時,即沿第-方向壓縮間隔部。間隔部隨即將 外力沿第一方向傳遞至支撐座,使支撐座自較伸張位置壓縮至 較壓lis位置以吸收震動及產生之位移。此時,彈性元件之蓄产 一彈性力,使支撐座得以於壓縮後回復至原位置,即較伸張2 置。藉由支撐座之壓縮及彈性元件之彈性力,得以緩衝第一内 容物受外力震盪所產生之震動。 在較佳實施例中,間隔部及第一緩衝材間之第—預設間隙 200800750 係設置有雜材。_隔躲第—缓_她,雜材之剛性 換言之’當受到等量外力時,彈性材對外力之抵抗 性較間隔掀第-緩衝材為少。#間隔部受力 壓時,由於彈性材之剛性係數較小,因此彈㈣會先於間隔部 及弟-緩倾_生_形變,贿供支撐部足夠之壓縮空 【實施方式】 本發明係提供-種緩衝包裝結構。在較佳實施财,此緩 衝包裝結猶為-奸裝置包裝結構。於轉财,電子裝置 係以-顯示裝置為例,如圖2所示;絲本發明亦可應其 他裝置或設備,例如風扇、燈具等。 在如圖3a及圖3b所示之實施例中,緩衝包裝結構較佳包 含箱體100、第-缓衝材220及間隔部_。箱體1〇〇 # 一内部空請。在此實施例中,箱議較佳係為=體# 且内部糾11G亦為方形之空間。然而在不同實補中,箱體 100及其内部空間110之形狀亦可為其他不同形狀,以配合不 同之被包裝物外形。此外,箱體100較佳係為由紙板製作之紙 箱;然而在不同實施例中,箱體100亦可以塑膠製作或以其他 材質製作。 ^ 如圖3a及圖3b所示,第一缓衝材220係設置於内部空間 110内。第一緩衝材220較佳係由保麗龍所製成。然而在不同 實施例中,第一缓衝材220亦可採用泡棉、其他之有機發泡材 8 200800750 料,或是空氣墊等緩衝材料。間隔部獅係可移動地設 體⑽之内部空間m中,且其兩端係分別與箱體内 接觸,以維隔箱水平方向之穩定性。間隔部_ = 弟-缓衝材22G保持第一預設間隙221,以與第一緩衝材刎 彼此分離。如圖3b所示,間隔部卿係將内部 為第一空間112與第二空間⑴ ? ‘ 部_與第-缓衝請之間,並^間,=於間隔 /、百第一回度。此外,以較 只施例而言,間隔部咖之剛性係數係大於第一緩衝材挪 之剛性係數。在較佳實施例中,間隔部 間之摩擦力可____11()巾; =間:〇係藉由容納於第一空間112中之二 支撐,以可移動地設置於箱體100内。 當箱體100受到碰撞或其他外力作用時 2 ==〇〇產生相對運動。特別是當第一缓衝材22〇與間 戸a h使弟一緩衝材220與間隔部3〇〇間原本之第一預設 縮小為第:預設_概,且第:職間謂小於 221。此時第一空間112原本之第-高度亦被壓 箱體^ —喊。此外’在較佳實施辦,#外力產生時, 緩祕If近第—預設贿222處起轉形,魏合第一 緩衝材220與間隔部300間間隙之改變。 在為間隔_與第—緩衝材咖之另一實施例。 】中間隔部300之兩端係分別向第一缓衝材22〇延 9 200800750 伸第緩衝材220則具有板狀之形狀。第—缓衝材22〇係與 間隔部300之兩端延伸部分接觸並互為切。第一空間ιΐ2則 形成於間隔部300之兩端延伸部分間。 在如圖4a及圖4b所示之實施例中,緩衝包裝結構進一步 包含被包裝之可變形第一内容物5〇〇及第二内容物彻;可變 形第-内容物5GG係容納於第—_ 112内,而第二内容物 則各納於第二空間m内。可變形第一内容物5〇〇較佳係 為具形變能力及形變回復力之支撐座;但在不同實施例中,亦 可為其他具形變能力及形變讀力之其他裝置。第二内容物 700係舉例為顯示器主體。然而在不同實施例中,第二内容物 亦可為風扇主體、燈具主體等電子裝置。此外,在本發明 中’第-内容物700亦包含其他被包裝之非電子類產品替代, 例如鏡子、玻璃等。 在此貝施例中’間隔部3〇〇之厚度係可隨箱體咖内部空 間110之大小加以調整,以調整第二空間ln及第一空間112 之尺寸在較佳實施例中,間隔部·係由 配:第二内容謂及可變形第一内容物50fl之耐衝;:度為 間IW 300之硬度可加以調整,例如選用密度較高之保麗龍材 質來做為間隔部_。此外’間隔部·亦可採用多層結構, 以增加其緩衝能力或因應其他之需求。在如圖5所示之實施例 中,間隔冑300 #於朝第一空間⑴之表面加設—硬綱反 ⑽。藉由硬質隔板⑽之設置,可減少間隔部刻本體因撞 擊所受之傷害以及被穿透之可能性。 200800750 在如圖4a及圖41)所示之實施例中,進一步包含設置於箱 體100内部空間110内之第二缓衝材210。第二緩衝材21〇並 與間隔部3QQ形成第二空間111供容納第二内容物700。第二 ,衝材210係與間隔部300抵接,用以充填第二内容物700與 箱體1GG間之轉。當箱體謂受到外力作用時,第二缓衝材 210亚不相對間隔部3〇〇產生移動;換言之,第二缓衝材_ 一門隔郃300之相對位置關係大致不變。如圖此所示,除與 ΙΡγ^ι邛300接觸之部份外,第二缓衝材21〇較佳地係大致包覆 第二内容物然而在不同實施例中,第二緩衝材210亦可 僅與間隔部300分設於第二内容物7〇〇之上下。此外,第二緩 衝材210較佳係由保麗龍所製成。然而在不同實施例中,第二 緩衝材210亦可採用泡棉、其他之有機發泡材料,或是空氣墊 痒緩衝材料。 在如圖4a及圖4b所示之實施例中,可變形第一内容物5〇〇 係為一支撐座501,供可分離地與第二内容物7〇〇結合以支撐 第二内容物700。如圖4b及圖6a所示,支撐座501較佳地包 含底座510、支撐桿530、連接座550及彈性元件570。支撐 桿530之兩端分別為相對之底座端531及支撐端533。底座端 531係可旋轉地連接底座510,而支撐端530則可旋轉地與連 接座550連接。若以底座510為參考點觀之,支撐端533係可 相對於底座端531旋轉。彈性元件57〇分別連接底座51〇及支 撐桿530。在較佳實施例中,彈性元件570係為設置於支撐桿 530底座端531之扭黄,然而在圖此所示之實施例中,彈性 11 200800750 元件570亦可為沿支擇桿53〇延伸之直線彈菁。Easy, the packaging wire of the product is an important issue when the product is shipped: good knowledge, often causes damage to the goods _ to send the wealth, and thus increase the production of the home is a high-precision or fragile electronic device, such as LCD display brother L The plasma display device, the organic light-emitting diodes, the ||, g /, special, easily destroy the internal circuit structure or other fragile structures due to the county in the process of transportation, thereby causing loss of products. For example, in the display device package shown in FIG. 1 and FIG. 1b, the display device panel 7 is generally separated from the support frame 5〇 during the product sewing process. First, the bottom of the mesh body 10 is filled with the cushioning material 22, and then the support base 50 folded to the minimum compression position is placed in the cushioning material 22. A spacer 3 is disposed above the support base 5 to isolate the support panel 50 from the display panel 70 above the partition 30 to prevent the support base 50 from striking the display panel 7 during transport. Finally, the cushioning material 21 is filled above the display device panel 70 to complete the packing operation. In the packaging method of the description of the earth, the protection and buffering of the external impact completely depends on the cushioning materials 21, 22 and the partition 30 filled therein, so the thickness and material of the cushioning materials 21, 22 and the partition 30 are determined. All buffering effects. In contrast, the support base 50 is a factor that causes damage to the display device panel 70. In addition, the structure of the support base 50 is often provided with a spring or other elasticity. The buffer structure t which cannot be added to the overall package is one of the _# directions. Therefore, how to change the factor of the support seat from the destruction of the electronic body to the device for increasing the effect of the hexagram in the packaging structure, shouting the original hair, the field test [invention] The object of the invention is to provide a buffer packaging structure with More advantages of saving cushioning material settings. SUMMARY OF THE INVENTION The object of the present invention is to provide a cushioning and packaging structure which utilizes the structure of the packaged object itself to provide a function of recording, shocking, and noisy. The cushioning package structure of the present invention mainly comprises a box body, a first cushioning material and a spacer, and a packaged deformable content and a second content. The box system has an internal space, and the first cushioning material is disposed in the internal space. The spacers can be moved to be set within the light economy, and the county's fresh-buffering material forms a first space. The deformable first-content is in a state of being stretched between the stretched state and the lion state, and is accommodated in the first space. Further, the deformable first content is preferably a support spacer so that it can be moved to the box_. The first lining material can be filled with a gap between the deformable first content and the casing. The second cushioning material is also disposed in the inner space and is located on both sides of the _ portion with the first cushioning material. The second cushioning material and the partition portion are in a second space, and the second content is housed in the second space. The second buffer material can be used to fill the gap between the main body of the electronic device and the cabinet. In addition to the portion in contact with the spacer, in the preferred embodiment, the second buffer material 200800750 substantially covers the main body of the electronic device; the __, the lining of the lining material is also substantially wrapped with the deformable ridge - the content is divided The other part of the gap contacts. Silk good implementation of the "deformable" - internal miscellaneous is - support. Supports MU A struts, connectors and elastic elements. The two knives of the support rod are opposite the base end and the support end. The base end is connected to the base, and the supporting end is 2 to tear the end crane. The miscellaneous phase is in the extended position, the retracted position and the (four) position and the compression position. The components are connected to the base and the support rod. When the support seat is in the extended position, the amount of deformation of the elastic member and the generated hybrid material are the most *. When the abalone is inspected, the relative displacement of the support rod and the base has reached the limit, which minimizes the volume of the pedestal. The deformation amount of the elastic member and the elastic force generated are the largest at Z. When the pedestal is located at a more extended position and a more compressed position, the amount of deformation of the elastic member and the resulting elastic force are both in the "additional" section. When the support base is received in the first space of the cabinet, the support base can be expanded and contracted in the first direction. The support seat is in contact with the spacer to provide a supporting force for the spacer and to absorb the vibration and displacement of the spacer during the handling of the box. When the second content is vibrated by an external force, the spacer is compressed in the first direction. The spacer is then transmitted to the support seat in the first direction, and the support seat is compressed from the stretched position to the relatively compressed position to absorb shock and displacement. At this time, the elastic element stores an elastic force, so that the support base can be restored to the original position after being compressed, that is, it is stretched. By the compression of the support seat and the elastic force of the elastic member, the shock generated by the shock of the first content by the external force is buffered. In a preferred embodiment, the first predetermined gap 200800750 between the spacer and the first cushioning material is provided with a miscellaneous material. _ 隔 第 ─ ─ ─ ─ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ When the spacer is subjected to a force, since the rigidity coefficient of the elastic material is small, the bomb (four) will be preceded by the spacer and the younger one, and the bridging support portion is sufficiently compressed. [Embodiment] The present invention is Provide a buffer packaging structure. In the preferred implementation, the buffer package is still a packaging device structure. For the sake of money transfer, the electronic device is exemplified by a display device, as shown in Fig. 2; the invention may also be applied to other devices or devices such as fans, lamps and the like. In the embodiment shown in Figures 3a and 3b, the cushioning package structure preferably includes a case 100, a first cushioning member 220 and a spacer. Cabinet 1〇〇 #一内空请请. In this embodiment, the box is preferably = body # and the inner 11G is also a square space. However, in different implementations, the shape of the cabinet 100 and its interior space 110 may be other different shapes to match the shape of the different packaged objects. In addition, the case 100 is preferably a carton made of cardboard; however, in various embodiments, the case 100 can also be made of plastic or made of other materials. As shown in FIGS. 3a and 3b, the first cushioning material 220 is disposed in the internal space 110. The first cushioning material 220 is preferably made of styrofoam. However, in different embodiments, the first cushioning material 220 may also be made of foam, other organic foaming materials, or a cushioning material such as an air cushion. The spacer lion is movably disposed in the inner space m of the body (10), and the two ends thereof are respectively in contact with the casing to maintain the stability of the box in the horizontal direction. The spacer _ = brother - cushioning material 22G holds the first predetermined gap 221 to be separated from the first cushioning material 彼此. As shown in Fig. 3b, the partition is internally defined by the first space 112 and the second space (1)? Between the _ part _ and the first - buffer please, and ^, = interval /, the first time. Further, in a more specific embodiment, the rigidity coefficient of the spacer portion is greater than the rigidity coefficient of the first cushioning material. In a preferred embodiment, the friction between the spacers can be ____11(); the inter-strip: the raft is movably disposed within the housing 100 by being supported by two of the first spaces 112. When the case 100 is subjected to a collision or other external force, 2 == 〇〇 produces relative motion. In particular, when the first cushioning material 22 〇 and the 戸 a h make the first preset between the buffer material 220 and the spacer 3 缩小, the first preset is reduced to the first: the default _, and the first: nd is less than 221 . At this time, the original first height of the first space 112 is also shouted by the pressure box. In addition, in the case of the preferred implementation, when the external force is generated, the temporary If is close to the first place - the preset bribe 222 is turned, and the gap between the first cushioning material 220 and the spacer 300 is changed. In another embodiment of the interval_and the first buffer. The two ends of the intermediate spacer 300 are respectively extended to the first cushioning material 22. 200800750 The first cushioning material 220 has a plate shape. The first cushioning material 22 is in contact with the extending portions of the both ends of the partition portion 300 and is cut away from each other. The first space ι 2 is formed between the extended portions of the both ends of the spacer 300. In the embodiment shown in FIG. 4a and FIG. 4b, the cushioning package structure further comprises the packaged deformable first content 5〇〇 and the second content; the deformable first content 5GG is accommodated in the first _ 112, and the second content is contained in the second space m. The deformable first content 5 is preferably a support having deformability and strain restoring force; but in other embodiments, it may be other devices having deformability and deformation reading force. The second content 700 is exemplified by a display main body. However, in various embodiments, the second content may also be an electronic device such as a fan body or a lamp body. Further, in the present invention, the -content 700 also includes other packaged non-electronic products, such as mirrors, glass, and the like. In this embodiment, the thickness of the spacer 3 can be adjusted according to the size of the internal space 110 of the cabinet to adjust the size of the second space ln and the first space 112. In the preferred embodiment, the spacer ·The matching is: the second content is said and the deformable first content 50fl is resistant; the degree is the hardness of the IW 300. For example, the density of the styrofoam material is used as the spacer _. In addition, the spacers can also be of a multi-layer structure to increase their buffering capacity or to meet other needs. In the embodiment shown in Fig. 5, the spacer 胄300 # is added to the surface of the first space (1) - hard reverse (10). By the arrangement of the hard partition (10), the possibility that the spacer body is damaged by the impact and penetrated can be reduced. In the embodiment shown in Figs. 4a and 41), the second cushioning material 210 disposed in the inner space 110 of the casing 100 is further included. The second cushioning material 21 is formed in a second space 111 with the partition portion 3QQ for accommodating the second content 700. Second, the punching material 210 is in contact with the partition portion 300 for filling the rotation between the second content 700 and the casing 1GG. When the casing is subjected to an external force, the second cushioning material 210 does not move relative to the partition portion 3; in other words, the relative positional relationship of the second cushioning material_one door barrier 300 is substantially constant. As shown in the figure, in addition to the portion in contact with ΙΡγ^ι邛300, the second cushioning material 21〇 preferably covers substantially the second content. However, in various embodiments, the second cushioning material 210 is also It may be disposed only above the second content 7〇〇 with the spacer 300. Further, the second buffer 210 is preferably made of styrofoam. However, in various embodiments, the second cushioning material 210 may also utilize foam, other organic foaming materials, or an air cushioning cushioning material. In the embodiment shown in Figures 4a and 4b, the deformable first content 5 is a support base 501 for detachably combining with the second content 7〇〇 to support the second content 700. . As shown in Figures 4b and 6a, the support base 501 preferably includes a base 510, a support rod 530, a connector block 550, and a resilient member 570. The two ends of the support rod 530 are opposite the base end 531 and the support end 533, respectively. The base end 531 is rotatably coupled to the base 510, and the support end 530 is rotatably coupled to the docking station 550. The support end 533 is rotatable relative to the base end 531 if the base 510 is used as a reference point. The elastic members 57 are connected to the base 51 and the support rod 530, respectively. In the preferred embodiment, the resilient member 570 is twisted yellow disposed at the base end 531 of the support bar 530. However, in the illustrated embodiment, the resilient 11 200800750 member 570 can also extend along the retaining bar 53〇. Straight line.
田支撐才干530相對於底座51〇位於伸張位置時,如圖 ^所示,此時連接座55G係可與第二内容物彻之背板連 ,,而底座510則放置於一平台以提供第二内容物700必要之 此和在此—狀態下,彈性元件570之變形量及產生之 彈性力亦為最小。如圖7b所示,當支擇桿相對於底座 位於I縮位置時’支撐桿53()與底座⑽之減位移已壓縮至 極限使支撐座5〇1之體積收縮至最小。此時彈性元件57〇之 變形量及產生之彈性力均為最大。如圖7c所示,當支撐桿530 位於介在伸驗置及魏位韻之較伸驗置級壓縮位置 時’支樓座501之體積亦介於前述二狀態下之體積。此時彈性 元件之變形量及產生之彈性力均在可增加之區段。支撐桿咖 可因外力之改變姉於底座510轉,並進_步拉伸彈性元件 570以產生職外力之雜力,使支撐座·紐形成具有吸 震機制之緩衝裝置。 ' 此外,為維持支撐桿530位於較伸張位置而不致於彈回至 伸張位置’支撐座501較佳包含一圍束元件59〇。圍束元件59〇 係圍束底座510及支撐桿530,以限制支撐桿530朝伸張位置 伸張。如圖7c所示,圍束元件590較佳係限制支撐座5〇1處 於伸張位置與壓縮位置間之較伸張位置;然而在不同實施例 中,圍束元件590亦可限制支撐座501處於最壓縮之位置,以 避免支撐座501發生非預期之伸張。在較佳實施例中,圍束元 件590車父佳係為塑膠束帶。然而在不同實施例中,圍束元件 12 200800750 可為繩索或其他材質之束帶。此外,圍束元件590亦可 >座501内建之定位裝置或卡榫等元件所取代。在不同實 圍束元件59G亦使用於編_之外的其他類形可 父形弟一内容物500上。When the field support 530 is located at the extended position relative to the base 51 ,, as shown in FIG. 2, the connection seat 55G can be connected to the second content of the back plate, and the base 510 is placed on a platform to provide the first The second content 700 is necessary and in this state, the amount of deformation of the elastic member 570 and the elastic force generated are also minimized. As shown in Fig. 7b, when the support rod is in the I-retracted position relative to the base, the reduced displacement of the support rod 53() and the base (10) has been compressed to the limit to minimize the volume of the support base 5〇1. At this time, the amount of deformation of the elastic member 57 and the generated elastic force are the largest. As shown in Fig. 7c, when the support rod 530 is located at the position of the extension and the compression level of the extension position, the volume of the support base 501 is also in the volume of the above two states. At this time, the amount of deformation of the elastic member and the elastic force generated are in the section where the increase is possible. The support bar can be rotated by the base 510 due to the change of the external force, and the elastic member 570 is stretched in order to generate the force of the external force, so that the support base can form a shock absorbing device with an shock absorbing mechanism. Further, in order to maintain the support rod 530 in a more extended position without being bounced back to the extended position, the support base 501 preferably includes a bundle element 59. The bunching element 59 is wrapped around the base 510 and the support rod 530 to limit the extension of the support rod 530 toward the extended position. As shown in Figure 7c, the containment element 590 preferably limits the support seat 5〇1 to a stretched position between the extended position and the compressed position; however, in various embodiments, the containment element 590 can also limit the support base 501 to the most The position is compressed to avoid unintended stretching of the support 501. In the preferred embodiment, the surround element 590 is a plastic strap. In various embodiments, however, the bundle element 12 200800750 can be a drawstring of rope or other material. In addition, the bezel element 590 can also be replaced by a component such as a positioning device or a cassette built into the seat 501. The different bundle elements 59G are also used on other types of content other than the code.
在圖8a及圖8b所示之實施例中,支撐座5〇1係處於伸張 位置於>1縮位置間之較伸張位置,並容納於箱體丨⑼之第—空 f 112中。支撐座5〇1係可在第一方向41〇上伸縮;換言之, 藉由支撐桿53G與彈性元件57〇之設置,連接座55()在第—方 向410上财姆於底座51G產生轉。在此較佳實施例中, 第一方向410係垂直於間隔部3〇〇設置之方向。支樓座5〇ι係 抵觸間隔部3G0,以提供間隔部3⑼一支撑力,並吸收間隔部 300所受之震動及位移。在此較佳實施例中,支撐座之連 接座550係抵觸間隔部300 ;然而在不同實施例中,亦可由支 撐座501之底座510抵觸間隔部300。此外,如圖肋所示, 支撐座501係藉由設置圍束元件590卩維持翻说較伸張位 置;然而在不同實施例中,支撐座501亦可藉由承受間隔部 300及苐一内谷物700之重直,以維持在該較伸張位置,不至 於完全伸張。 此外,在此較佳實施例中,第二内容物7〇〇、支撐座5〇1 之伸張位置、較伸張位置及壓縮位置均在第一方向41〇上排 列。如圖8c所不’當苐一内谷物700受外力震動時,即沿第 一方向410壓縮間隔部300。間隔部300隨即將外力沿第一方 向410傳遞至支撐座501,使支撐座501朝壓縮位置產生壓縮 13 200800750 並移至較壓驗魏魏震動及產生之位移^於間隔部細 相對第-緩衝材220移動,因此第-空間112之高度由原本的 第一高度降為第二高度。此時,彈性元件57Q因壓縮而蓄積一 彈! 生力’使支撐座501接著朝伸張位置回復至原位f (即較伸 張位置)。藉由支撐座5〇1之壓縮及彈性元件570之彈性力, 得以緩衝第二内容物糊受外力震朗產生之震動,以減低第 二内容物700所受的損害。 在如圖8a及圖8b所示之實施例中,包裝結構進一步包含 彈性材600。彈性材600係設置於間隔部_及第一緩衝材22〇 間之第-預設_ 221内。與_部_及第一缓衝材22〇相 車乂’彈性材600之剛性係數最小;換言之,當受到等量外力時, 彈性材600對外力之抵抗性較間隔部3〇〇及第一缓衝材22〇為 f °此外,當受到等量外力時,彈性材咖之形變量則較間隔 P 300及苐一緩衝材220為多。在較佳實施例中,彈性材6〇〇 係包合空氣墊;然而在不同實施例中,彈性材600亦可包含泡 棉等其他材料。如圖8c所示,當間隔部300受力沿第一方向 410向下壓時,第一預設間隙221即縮減為第二預設間隙222。 由於彈性材600之剛性係數較小,因此彈性材6〇〇會先於間隔 部300及第一缓衝材220而產生壓縮形變以配合支撐座5〇1之 壓縮量,並吸收部份衝擊。 圖9a所示為本發明之另一實施例。在此實施例中,支撐座 501之支撐桿530與底座510係沿支撐桿530之軸方向套接。 換言之,支撐座501之支撐桿530與底座510係構成所謂伸縮 14 200800750 望遠鏡式之支撐座結構。在此實施例中,彈性元件57〇較佳係 包含一捲簧或一定力彈簧,其兩端分別連接於支撐桿53〇之底 部與底座510。支撐端530係可旋轉地與連接座55〇連接。如 圖9b所示,支撐座501係容納於箱體1〇〇之第一空間112中。 於此實施例中,係較佳地包含一圍束元件59〇以圍束支撐座 501之連接座550及底座510,使支撐座501維持在較壓縮位 置。支撐座501係可在第一方向410上伸縮;換言之,藉由支 撐桿530與彈性元件570之設置,連接座55〇在第一方^ 41〇 上係可相對於底座510產生位移。支撐座5Q1係抵觸間隔部 300,以提供間隔部300 —支撐力,並吸收間隔部3〇〇所受之 震動及位移。在此較佳實施例中,支撐座5qi之連接座〖〖ο係 抵觸間隔部300 ;然而在不同實施例中,亦可由支撐座5〇1之 底座510抵觸間隔部3〇〇。 此外,在此較佳實施例中,第二内容物7〇〇、支撐座5〇1 之伸張位置、較壓縮位置及壓縮位置均在第一方向41〇上排 列。當第二内容物7〇〇受外力震動時,即沿第一方向41〇壓縮 間隔部300。間隔部300隨即將外力沿第一方向41〇傳遞至支 撐座501,使支撐纟501朝壓縮位置產生壓縮以吸收震動及產 生之位移。同時,彈性元件57〇之彈性力,使支樓座5〇1朝伸 張位置回復至原位置,即較壓縮位置。藉由支撐座弧之壓縮 及彈性το件570之彈性力,得以緩衝第二内容物7〇〇受外力震 盪所產生之震動,以減低第二内容物7〇〇所受的損害。 圖l〇a及圖l〇b所示為本發明之另一實施例。如圖1〇a所 15 200800750 示,支撐座501係被間隔部300及其上第二内容物700之重量 壓縮至壓縮位置。圍束元件590係圍束底座51〇及支撐桿53〇, 並限制支撐座501之伸張不得超過伸張位置與壓縮位置間之 較伸張位置。換言之,如圖l〇a所示,當支撐座5〇1被壓縮至 壓縮位置時,圍束元件_係保持鬆弛之雜。然而當箱體 100被打開,並取出支撐座501上之間隔部·及第二内容物 700 B守’如® l〇b所示,此時支撐座則朝伸張位置回彈。 ⑩ 藉由圍束元件590之設置,得以限制支撐座5〇1之伸張停留在 上述之較伸張位置,避免支撐座5〇1 @直接回彈至伸張位置而 造成意外。 本發明已由上述相關實施例加以描述,然而上述實施例僅 為實施本發明之範例。必需指出的是,已揭露 制本發明之範®。相反地,包含於申請專利如少^例並未限 甲明專利乾圍之精神及範圍 多改及均專設置均包含於本發明之範圍内。 【圖式簡單說明】 • 圖1a為習知技術中包裝結構之拆解示意圖; W lb為習知技射包裝結構之剖面示意圖; 圖2為電子裝置之實施例示意圖; 圖3a為緩衝包裝結構之實施例元件爆炸圖; 圖3b為圖3a所示實施例之剖面示意圖; 圖3c為圖3b所示實施例之作動示意圖; 圖如為間隔部與第-緩衝材之另一實施例。 圖4a為緩衝包裝結構之另_實施例元件爆炸圖; 16 200800750 圖4b為圖4a所示實施例之剖面圖; 圖5為加設硬質隔板之實施例剖面圖; 圖6a為支撐座之實施例示意圖; 圖6b為支撐座之另一實施例示意圖; 圖7a為支撐座位於伸張位置時之實施例示意圖; 圖7b為支撐座位於壓縮位置時之實施例示意圖; 圖7c為支撐座位於較伸張位置時之實施例示意圖; 圖8a為包含彈性材之實施例元件爆炸圖; 圖8b為支樓座位於較伸張位置時之實施例剖面圖; 圖8c為支撐座位於較壓縮位置時之實施例剖面圖; 圖9a為本發明第一内容物及第二内容物另一實施例之示意 園, 圖9b為圖9a所示實施例包裝結構之實施例剖面圖。 圖10a與圖l〇b為本發明另一實施例之示意圖。 【主要元件符號說明】 10箱體 21緩衝材 22缓衝材 30間隔部 50支撐座 59圍束元件 7〇電子裝置主體 17 200800750 100箱體 110内部空間 111第二空間 112第一空間 210第二缓衝材 220第一緩衝材 221第一預設間隙 222第二預設間隙 300間隔部 310硬質隔板 410第一方向 500可變形第一内容物 501支撐座 510底座 530支撐桿 531底座端 533支撐端 550連接座 570彈性元件 590圍束元件 600彈性材 700第二内容物In the embodiment shown in Figures 8a and 8b, the support base 5〇1 is in the extended position between the extended position and the >1 retracted position and is received in the first space f 112 of the casing 丨 (9). The support base 5〇1 can be telescoped in the first direction 41〇; in other words, by the arrangement of the support rod 53G and the elastic member 57〇, the joint 55() is rotated in the first direction 410 by the base 51G. In the preferred embodiment, the first direction 410 is perpendicular to the direction in which the spacers 3 are disposed. The support 5 〇 is in contact with the partition 3G0 to provide a supporting force for the partition 3 (9) and absorb the shock and displacement of the spacer 300. In the preferred embodiment, the base 550 of the support base abuts the spacer 300; however, in various embodiments, the base 510 of the support base 501 can also interfere with the spacer 300. In addition, as shown in the ribs, the support base 501 maintains the traverse position by providing the surrounding element 590; however, in different embodiments, the support 501 can also receive the spacer 300 and the inner grain. The weight of 700 is straight to maintain the stretched position and is not fully stretched. Further, in the preferred embodiment, the second content 7〇〇, the extended position of the support base 5〇1, the stretched position, and the compressed position are all arranged in the first direction 41〇. As shown in Fig. 8c, when the inner grain 700 is shaken by an external force, the spacer 300 is compressed in the first direction 410. The spacer 300 is then transmitted to the support base 501 in the first direction 410, so that the support base 501 is compressed toward the compression position 13 200800750 and moved to the pressure of the Wei Wei Wei and the displacement generated ^ the fine relative to the spacer - the buffer The material 220 moves so that the height of the first space 112 is reduced from the original first height to the second height. At this time, the elastic member 57Q accumulates a bomb due to the compression! The force 'returns' the support base 501 to return to the home position f (i.e., the stretched position) toward the extended position. By the compression of the support seat 〇1 and the elastic force of the elastic member 570, the vibration of the second content paste by the external force is buffered to reduce the damage of the second content 700. In the embodiment shown in Figures 8a and 8b, the package structure further comprises an elastomeric material 600. The elastic material 600 is disposed in the first preset_221 of the partition portion_and the first cushioning material 22''. The rigidity coefficient of the elastic material 600 is the smallest with respect to the _ portion _ and the first cushioning material 22; in other words, when an external force is received, the elastic material 600 is less resistant to external force than the spacer 3 and the first The cushioning material 22 is f °. In addition, when an external force is received, the amount of the elastic material is more than the interval P 300 and the buffer material 220. In the preferred embodiment, the elastomeric material 6 is coated with an air cushion; however, in various embodiments, the elastomeric material 600 may also comprise other materials such as foam. As shown in FIG. 8c, when the spacer 300 is pressed downward in the first direction 410, the first preset gap 221 is reduced to the second preset gap 222. Since the elastic material 600 has a small rigidity coefficient, the elastic material 6〇〇 is compressed and deformed before the spacer 300 and the first cushioning material 220 to match the compression amount of the support base 5〇1, and absorbs a part of the impact. Figure 9a shows another embodiment of the invention. In this embodiment, the support rod 530 of the support base 501 and the base 510 are sleeved in the axial direction of the support rod 530. In other words, the support rod 530 of the support base 501 and the base 510 constitute a so-called telescopic 14 200800750 telescopic type of support structure. In this embodiment, the elastic member 57 〇 preferably includes a coil spring or a force spring, and its two ends are respectively connected to the bottom of the support rod 53 与 and the base 510 . The support end 530 is rotatably coupled to the connector 55A. As shown in Fig. 9b, the support base 501 is housed in the first space 112 of the casing 1〇〇. In this embodiment, a bundle member 59 is preferably included to surround the connector 550 and the base 510 of the support base 501 to maintain the support base 501 in a relatively compressed position. The support base 501 is telescopic in the first direction 410; in other words, by the support rod 530 and the elastic member 570, the connecting seat 55 is displaceable relative to the base 510 on the first side 41. The support 5Q1 is in contact with the spacer 300 to provide the spacer 300 - supporting force and to absorb the shock and displacement of the spacer 3 . In the preferred embodiment, the connecting seat of the support base 5qi is 抵 抵 against the spacer 300; however, in different embodiments, the base 510 of the support base 〇1 may also interfere with the spacer 3〇〇. Further, in the preferred embodiment, the second contents 7〇〇, the extended position of the support base 5〇1, the relatively compressed position, and the compressed position are all arranged in the first direction 41〇. When the second content 7 is shaken by an external force, the spacer 300 is compressed in the first direction 41. The spacer 300 is then transmitted to the support base 501 in the first direction 41 ,, causing the support 纟 501 to compress toward the compressed position to absorb shock and displacement. At the same time, the elastic force of the elastic member 57 causes the support base 5〇1 to return to the original position, that is, the compression position. By the compression of the support seat arc and the elastic force of the elastic member 570, the shock generated by the shock of the external force 7 is buffered to reduce the damage of the second content. FIG. 10A and FIG. 1B show another embodiment of the present invention. As shown in Fig. 1a, 15 200800750, the support base 501 is compressed by the weight of the spacer 300 and the second content 700 thereon to a compressed position. The bunching element 590 is wrapped around the base 51 and the support rod 53 and restricts the extension of the support 501 from exceeding the stretched position between the extended position and the compressed position. In other words, as shown in Fig. 1a, when the support base 5〇1 is compressed to the compressed position, the bundle element _ remains loose. However, when the casing 100 is opened and the partition portion on the support base 501 and the second contents 700 B are held as shown in Fig. 1, the support base rebounds toward the extended position. 10 By the arrangement of the bundling member 590, it is possible to limit the extension of the support base 5〇1 to the above-mentioned extended position, and avoid the accident that the support base 5〇1 @ directly rebounds to the extended position. The present invention has been described by the above related embodiments, but the above embodiments are merely examples for implementing the present invention. It must be pointed out that the invention of the invention has been disclosed. On the contrary, the spirit and scope of the invention included in the patent application is not limited to the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1a is a schematic view of a disassembled structure of a conventional structure; W lb is a schematic cross-sectional view of a conventional technical packaging structure; Fig. 2 is a schematic view of an embodiment of an electronic device; Fig. 3a is a buffer packaging structure Figure 3b is a schematic cross-sectional view of the embodiment of Figure 3a; Figure 3c is a schematic view of the embodiment of Figure 3b; Figure 2 is another embodiment of the spacer and the first cushioning material. Figure 4a is an exploded view of another embodiment of the buffer package structure; 16 200800750 Figure 4b is a cross-sectional view of the embodiment shown in Figure 4a; Figure 5 is a cross-sectional view of an embodiment in which a hard spacer is added; Figure 6a is a support block Figure 6b is a schematic view of another embodiment of the support base; Figure 7a is a schematic view of the embodiment of the support base in the extended position; Figure 7b is a schematic view of the embodiment when the support base is in the compressed position; Figure 7c is a schematic view of the support seat Figure 8a is an exploded view of the embodiment of the embodiment comprising the elastic material; Figure 8b is a cross-sectional view of the embodiment when the support is in the extended position; Figure 8c is the support when the support is in the compressed position Fig. 9a is a schematic view showing another embodiment of the first content and the second content of the present invention, and Fig. 9b is a cross-sectional view showing an embodiment of the package structure of the embodiment shown in Fig. 9a. 10a and FIG. 10B are schematic views of another embodiment of the present invention. [Description of main component symbols] 10 housing 21 cushioning material 22 cushioning material 30 spacer 50 supporting seat 59 surrounding element 7 electronic device main body 17 200800750 100 housing 110 internal space 111 second space 112 first space 210 second Buffer material 220 first buffer material 221 first preset gap 222 second preset gap 300 spacer portion 310 hard partition 410 first direction 500 deformable first content 501 support seat 510 base 530 support rod 531 base end 533 Supporting end 550 connecting seat 570 elastic element 590 surrounding element 600 elastic material 700 second content