M3 06992 八、新型說明: 【新型所屬之技術領域】 本創作是一種空氣缓衝裝置,特別是一種包裝時可夾持物品且能防震的夾 Μ 持式空氣緩衝裝置。 【先前技術】 電子產品或是貴重物品於包裝時,一般都採用氣泡紙或是保麗龍(或發泡 材料)等將上述之電子裝置或貴重物品包覆或定位之後,在將包覆後的電子產 _ 品或貴重物品放到盒子或箱子内部,藉以防i電子產品或貴重物品在搬運的過 程中產生碰撞。 氣泡紙在使用時,雖然能夠隨著電子產品或貴重物品的形狀予以包覆,但 是氣泡紙本身的厚度較薄,因此必須要包覆數層之後,才能夠達到防止碰撞的 效果,但是當電子產品或貴重物品的體積較大或重量較重時,便無法使用氣泡 紙達到防碰撞的功能,僅能保護電子產品或貴重物品的表面不被刮傷而已。 反觀保麗龍(或發泡材料),其本身的材質具有彈性,且擁有較佳的吸震能 φ 力,因此,電子產品或貴重物品都是採闬保麗龍(或發泡材料)進行包裝,保 麗龍(或發泡材料)在生產時,必須依照電子產品或貴重物品的形狀來製造, 因此不同的電子產品或貴重物品是無法共用相同的保麗龍(或發泡材料)來包 裝。 是以,便有相關業者開發出利用氣柱片結合而成的氣體包裝袋,第一圖與 ^ 第二圖所示,係為習用之氣體包裝袋立體圖與剖視圖,由圖中可清楚看出氣體 - 包裝袋1充氣後,於内部形成有容置空間10,而氣體包裝袋1之一側為設有 開口1 1,則電子產品或貴重物品可由氣體包裝袋1之開口1 1處置入内部的 M3 06992 容置空間10中,此類的氣體保裝袋1在製造時,須透過熱封線12將第一側 壁1 3與第二側壁14二側的膠膜15結合,俾以形成封閉的空間,使氣體包 裝袋1之間得以形成一容置空間10,在膠膜15結合的過程中,必須考慮氣 柱1 6的大小以及熱封線12的位置,倘若熱封線12離氣柱16太近,則氣 體包裝袋1充氣後,第一側壁14與第二側壁15二側的氣柱16相會相互擠 壓,導致氣體包裝袋1内部的容置空間10縮小,反之;當熱封線12離氣柱 16過遠時,則氣體包裝袋1充氣後5第一側壁13與第二側壁14二側的氣 柱16之間將產生過大的間距,導致電子產品或貴重物品在放入氣體包裝袋1 之後,氣體包裝袋1對於二側的保護能力下降。 而為了增加氣體包裝袋1對於側邊的保護能力,便有相關廠商發ώ 了如我 國專利公報,公告號第M2 6 3 3 2 5號之具調壓功能之氣體包裝袋,及公告 號第M2 8 5 5 5 2號之具有調壓功能之兩側加強型氣體防震袋,其主要目的 都是為了增加氣體包裝袋1於;側的防震能力,然在生產製造時,仍是具有下 列缺失存在: (一) 氣體包裝袋1於生產製造時,首先必須依照電子產品、貴重物品或 内容物的體積來決定氣體包裝袋1的大小,以及開口1 1的大小5於決定後5 再將氣體包裝袋1二側以熱封線12密合,因此,氣體包裝袋1僅能對應特定 的電子產品、貴重物品或内容物予以包裝,且必須經由開口1 1將電子產品' 貴重物品或内容物腮入氣體包製裝袋1内部,而在包裝的過程中,容易導致氣 體包裝袋1的開口11遭到撕裂或破壞。 (二) 氣體保包裝袋1之各氣柱16之間係為可相互通氣,則任一個氣柱 16發生漏氣或破損時,將導致其他氣柱16的氣體隨之外洩,而使氣體包裝 M3 06992 袋1内部的氣體完全泡出。 (三)於氣體包裝袋1内部收容電子產品、貴重物品或内容物後,續將氣 體包裝袋1放到包裝盒或盒子内部,此時,由於氣體包裝袋1外側為弧面,則 氣體包裝袋1與包裝盒或盒子内壁並非完全貼合,故容易在運送的過程中使氣 體保裝袋1與包裝盒或盒子内壁發生碰撞,導致電子產品、貴重物品或内容物 發生損壞的情形。 因此,如何設計一種可完整包覆内容物的密封體,且密封體各氣柱間為獨 g 立而不相互通氣,同時能與穩固的收容置盒體内,即為本案之創作人以及從事 此相關行業之技術領域者所需面對的技術課題。 【新型内容】 有鑑於此,本創作提供一種夾持式空氣緩衝裝置。 本創作之夾持式空氣缓衝裝置包括由複數主氣柱並排組成之氣柱片,且氣 柱片經由彎折形成上蓋部、下蓋部、及連接上蓋部與下蓋部之連接部,並於氣 柱片二側分別連接側氣柱,且側氣柱之内徑大於氣柱片之内徑,因此側氣柱與 Φ 氣柱片於充氣後形成高度落差,使上蓋部、下蓋部與側氣柱間形成容置空間, 並於上蓋部與下蓋部相對於容置空間之另一側各形成緩衝空間,藉此,容置空 間内可放置如電子產品等物品5並藉由上蓋部、下蓋部與連接部兩側之側氣柱 來防止物品產生晃動5並藉由側氣柱強化物品側邊之缓衝保護,再者,物品連 同空氣緩衝裝置放置於盒體内部時,可藉上蓋部、下蓋部與連接部兩側之側氣 - 柱緊貼盒體内部,當盒體發生碰撞時,物體首先可藉由側氣柱的形變進行第一 . 次缓衝,再由氣柱片朝缓衝空間形變而進行第二次缓衝,接著可由氣柱片與盒 體接觸時所產生的形變進行三次緩衝,而達到具有多重防震與防碰撞之功能。 M3 06992 有關本創作的較佳實施例及其功效,茲配合圖式說明如后。 1實施方式】 請配合參閱第三圖與第四圖所示,係為本創作第一較佳實施例之立體圖與 立體剖視圖,由圖中可清楚看出空氣缓衝裝置2為具有氣柱片3與二個側氣柱 4所構成5其中: 氣柱片3係由複數排列連接的主氣柱31所構成,而各主氣柱31之間為 各自獨立JL内部氣體互不相通連,又各主氣柱3 1為包含有主連接區段3 2、 B 及主連接區段3 2—側為連接有主上區段3 3,以及另一側連接有主下區段3 4,而主連接區段3 2與主上區段3 3、主下區段3 4間為可透過熱封產生一 個或一個以上之轉折點3 5,再者,上述之主連接區段3 2與主上區段3 3、 主下區段3 4間的長度可為等長或不等長。 二個側氣柱4係連接於氣柱片3兩側之主氣柱31上,各側氣柱4為具有 與主氣柱3 1之主連接區段3 2相對應並等長度的側連接區段41 5以及與主 氣柱3 1兩側之主上區段3 3、主下區段3 4相對應的側上區段4 2、側下區 • 段43,而側連接區段41與側上區段42、側上區段42間為可透過熱封產 生一個或一個以上之轉折點4 4。 空氣缓衝裝置2之氣柱片3與二個側氣柱4二端以熱封線5結合後5氣柱 片3之主氣柱31的主連接區段3 2構成連接部2 1,而主氣柱31之主上區 段3 3構成上蓋部2 2,以及主氣柱3 1之主下區段3 4構成下蓋部2 3,由 ^ 於側氣柱4之内徑大於氣柱片3之各主氣柱31的内徑,因此,連接部21與 - 側連接區段41間為形成有容置空間6,以及上蓋部2 2、下蓋部2 3與側上 區段4 2、側下區段4 3間亦形成有容置空間6,並於連接部21、上蓋部2 M3 06992 2與下蓋部2 3相對於容置空間6之另一側各形成一緩衝空間61。 請配合參閱第四圖與第五圖所示,係為係為本創作第一較佳實施例之立體 剖視圖,與第二較佳實施例之立體圖,圖中可清楚看出空氣缓衝裝置2為具有 氣柱片3與二個側氣柱4所構成,其中: 氣柱片3係由複數排列連接的主氣柱31所構成,而各主氣柱31之間為 各自獨立且内部氣體互不相通連,又各主氣柱3 1為具有二個主連接區段3 2,於各主連接區段3 2之一側為共同連接有主下區段3 4,而於另一側為分 p 連接有主上區段3 3,而主連接區段3 2、主上區段3 3與主下區段3 4間為 可透過熱封產生一個或一個以上之轉折點35◦ 二個側氣柱4係連接於氣柱片3兩側之主氣柱3 1上,各侧氣柱4為具有 與主氣柱3 1之主連接區段3 2相對應並等長度的側連接區段41,以及與主 氣柱31兩侧之主上區段3 3、主下區段3 4相對應的惻上區段4 2 '側下區 段43,而側連接區段41、側上區段42與側上區段42間為可透過熱封產 生一個或一個以上之轉折點4 4。 • 空氣緩衝裝置2之氣柱片3與二個側氣柱4二端以熱封線5結合後,氣柱 片3之主氣柱31的主連接區段3 2構成連接部21,而主氣柱31之主上區 段3 3構成上蓋部2 2,以及主氣柱31之主下區段3 4構成下蓋部2 3,由 於側氣柱4之内徑大於氣柱片3之各主氣柱31的内徑,因此,連接部21與 侧連接區段41間為形成有容置空間6,以及上蓋部2 2、下蓋部2 3與側上 - 區段4 2、側下區段4 3間亦形成有容置空間6,並於連接部21、上蓋部2 - 2與下蓋部23相對於容置空間6之另一側各形成一缓衝空間61。 請參閱第六、七、八圖所示,係為本創作第二較佳實施例之動作示意圖 M3 06992 (一)、(二)與(三),由圖中可清楚看出物品7為收容於空氣缓衝裝置2内部 的容置空間6中,且物品7的側邊為透過側氣柱4予以夾持,因此物品7被空 氣缓衝裝置2包覆後,空氣缓衝裝置2與物品7之間將不會產生碰撞,接著將 包覆有物品7的空氣缓衝裝置2收容於盒體8内部,而於收容的過程之中,由 於空氣缓衝裝置2兩側之側氣柱4為可抵貼於盒體8的内壁,因此包覆有物品 7的空氣緩衝裝置2在收容於盒體8内部之後,當盒體8在搬運或運送的過程 中發生碰撞會時,物品7將被空氣缓衝裝置2保護於内部,且可藉由空氣缓衝 ϋ 裝置2之側氣柱4的形變進行第一次缓衝,再由氣柱片3朝缓衝空間6 1形變 而進行第二次緩衝,接著可由氣柱片3與盒體8接觸時所產生的形變進行三次 缓衝,而達到具有多重防震與防碰撞之功能。 請參閱第四圖與第九圖所示,係為係為本創作第一較佳實施例之立體剖視 圖,與第三較佳實施例之立體圖,由圖中可清楚看出,各空氣缓衝裝置2為具 有氣柱片3與二個側氣柱4所構成,而氣柱片3為透過複數的主氣柱31相互 連接而成,主氣柱31之主下區段3 4二側為分別包括有主連接區段3 2,並 φ 於各主連接區段3 2另側依序包括有複數主上區段3 3,則各側氣柱4之側下 區段4 3二側為對應主下區段3 4而分別包括有側連接區段41,並於各側連 接區段41另側依序包括有複數側上區段4 2,則氣柱片3之主氣柱3 1的主 連接區段3 2構成連接部21,而主氣柱31之複數主上區段3 3構成上蓋部 2 2,以及主氣柱31之主下區段3 4構成下蓋部2 3,由於側氣柱4之内徑 - 大於氣柱片3之各主氣柱31的内徑,因此,連接部21與側連接區段41間 - 為形成有容置空間6,以及上蓋部2 2、下蓋部2 3與側上區段4 2、側下區 段4 3間亦形成有容置空間6,並於連接部21、上蓋部2 2與下蓋部2 3相 10 M3 06992 對於容置空間6之另一側各形成一緩衝空間61。 籍此,空氣緩衝裝置2為可對依照物品7的形狀而完整的將物品7予以包 覆,並連同物品7收容於盒體8内部5再者,上述實施方式之中,主氣柱31 之主連接區段3 2與各主上區段3 3間為可透過熱封產生一個或一個以上之轉 折點35,以及側連接區段41與側上區段42間為可透過熱封產生一個或一 個以上之轉折點4 4,並且各主上區段3 3、各側上區段4 2間為可透過熱封 產生一個或一個以上之轉折點3 5、44。 上述之氣柱片3與側氣柱4結合後,為可依據連接的上蓋部21、下蓋部 2 3與連接部2 1而設為L型或U型或四方形或三角型或多邊形。 請參閱第十、十一圖所示,係為本創作第四較佳實施例之立體圖以及彎折 後之立體圖,由圖中可清楚看出氣柱片3之主氣柱3 1為具有主連接區段3 6 5主連接區段36為透過熱封形成一個或一個以上的轉折點36 1,轉折點 3 61將組成連接部2 4,則二個側氣柱4之側連接區段4 5為對應主連接區 段3 6而透過熱封形成一個或一個以上的轉折點4 51,籍此,空氣缓衝裝置 2之上蓋部2 2由連接部2 4處進行彎折,而可將物品包裝於内。 進一步將本創作之優點說下: (一)氣柱片於生產製造時,將倨除習用必須依照電子產品或物品的體積 來製作為袋體,而可直接以氣柱片的方式進行生產,且氣柱片可直接進行電子 產品或物品的包裝,而在包裝的過程之中,為透過氣柱片與側氣柱的進行彎折 或改變包裝的方向,而可完整的將電子產品或物品包覆於内部,再者,氣柱片 之各主氣柱以及二個側氣柱之間,係為各自獨立且内部的氣體無法相互流通, 所以當任一個氣柱發生破損而漏氣時,將不會使整個氣柱片内部的氣體隨之外 M3 06992 泡,而能保有原有個防震功能。 (二) 氣柱片為具有氣柱片與二個側氣柱所構成,於充氣之後,側氣柱之 内徑將大於氣柱片之内徑,因此二個側氣柱與氣柱片形成有容置空間,藉此, 電子產品或物品可放置於空氣缓衝裝置的容置空間内部,同時可由二個側氣柱 貼合於電子產品或物品的邊緣,達到防止電子產品或物品產生晃動或碰撞。 (三) 空氣緩衝裝置於充氣之後,藉由側氣柱強化電子產品或物品之側邊 缓衝係護,再者,側氣柱之内徑將大於氣柱片之内徑,因此二個側氣柱與氣柱 片形成有缓衝空間,藉此,當物品連同空氣缓衝裝置放置於盒體内部時,由於 氣柱片兩側之側氣柱與氣柱片間形成有缓衝空間,因此當盒體發生碰撞時,物 體首先可藉由側氣柱的形變進行第一次缓衝,再由氣柱片朝緩衝空間形變而進 行第二次緩銜,接著可由氣柱片與盒體接觸時所產生的形變進行三次緩衝,而 達到具有多重防震與防碰撞之功能。 雖然本創作的技術内容已經以較佳實施例揭露如上,然其並非用以限定本 創作,任何熟習此技藝者,在不脫離本創作之精神所作些許之更動與潤飾5皆 應涵蓋於本創作的範脅内,因此本創作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] 第一圖係為習用之氣體包裝袋立體圖。 第二圖係為習用之氣體包裝袋立體剖視圖。 第三圖係為本創作第一較佳實施例之立體圖。 第四圖係為本創作第一較佳實施例之立體剖視圖。 第五圖係為本創作第二較佳實施例之立體圖。 12 M3 06992 第六圖係為本創作第二較佳實施例之動作示意圖(一)。 第七圖係為本創作第二較佳實施例之動作示意圖(二)。 第八圖係為本創作第二較佳實施例之動作示意圖(三)◦ 第九圖係為本創作第三較佳實施例之立體圖。 第十圖係為本創作第四較佳實施例之立體圖。 第十一圖係為本創作第四較佳實施例於彎折後之立體圖。 [主要元件符號說明】 馨 〇 1 1.。· β * n * β ^。氣體包裝袋 β。β。。·容置空間 開口 ββ*β〇β·〇β •熱封線 oseaeoaoti· ,第一側壁 ~|^ ^| 〇u«»cneee> •第二側壁 «3·β&α«〇ο 。膠膜 1 eoeeeeeeo 。氣柱 2 β 〇 β 〇 β β 〇 β 〇 -空氣缓衝裝 ^ aoveaaean 。連接部 v » β · e ft β Β ο 。上蓋部 βοαβΰ«*〇α 。下蓋部 2 4 · · · ·…·… •連接部 3………·… '氣杜片 ββ·*ββ··ο 。主氣柱 13 2 M3 06992 4 主逆接區段 主上區段 主下區段 轉折點 4 Ο /〇 ύ 0 ° …· 1 u 13 e。e主連接區段 C O G Φ c ‘ 。。e 。·轉折點 4 β…… ’ ° °。。。侧氣柱 /1 I e ο o a c 1: 丄 1。3 β。3側連接區段 4 2。。°*· • 13。,β β側上區段 ^/\ «? a 〇 β > -。=··側下區段 > 。。》 ••轉折點 Zj- J3 * u B * ' > · 。 β •.側連接區段 5 1 e ° > u β ··轉折點 » e 〇 e < > »。β β熱封線 g e o o a ( _。^ 3 β。容置空間 ~| e 〇 f3 O 1 »。。。。<•緩衝空間 γ e 〇 D o ( 0 ° η β ° °物品 g…… a 。 u β β •盒體 14M3 06992 VIII. New description: [New technical field] This creation is an air cushioning device, especially a clip-on air cushioning device that can hold items and be shockproof when packaged. [Prior Art] When electronic products or valuables are packaged, they are usually covered or positioned by using bubble paper or styrofoam (or foaming material), etc., after wrapping or positioning the above-mentioned electronic device or valuables. The electronic products _ goods or valuables are placed inside the box or box to prevent i electronic products or valuables from colliding during handling. When the bubble paper is used, it can be coated with the shape of the electronic product or the valuables, but the thickness of the bubble paper itself is thin, so it is necessary to cover several layers before the collision prevention effect can be achieved, but when the electrons are When the product or valuables are bulky or heavy, the bubble paper cannot be used to achieve the anti-collision function, and only the surface of the electronic product or valuables can be protected from scratching. In contrast, styrofoam (or foamed material) is inherently elastic in material and has a good shock absorbing force. Therefore, electronic products or valuables are packaged with styrofoam (or foamed material). Styrofoam (or foamed material) must be manufactured in accordance with the shape of electronic products or valuables, so different electronic products or valuables cannot be shared with the same styrofoam (or foaming material). . Therefore, the relevant industry has developed a gas packaging bag that combines the use of gas column sheets. The first figure and the second figure show a perspective view and a cross-sectional view of a conventional gas packaging bag, as can be clearly seen from the figure. Gas - After the package 1 is inflated, an accommodation space 10 is formed inside, and on one side of the gas package 1 is provided with an opening 1 1 , the electronic product or valuables can be disposed inside the opening 1 1 of the gas package 1 In the M3 06992 accommodating space 10, the gas holding bag 1 of this type is required to be combined with the film 15 on both sides of the second side wall 14 through the heat sealing line 12 to form a closed portion. The space is such that an accommodating space 10 is formed between the gas packaging bags 1. In the process of bonding the rubber film 15, the size of the gas column 16 and the position of the heat sealing wire 12 must be considered, provided that the heat sealing wire 12 is out of gas. When the column 16 is too close, after the gas package 1 is inflated, the first side wall 14 and the air column 16 on the two sides of the second side wall 15 are pressed against each other, causing the accommodation space 10 inside the gas package 1 to be reduced, and vice versa; When the heat sealing line 12 is too far from the air column 16, the gas packaging bag 1 is inflated after the first 5 Excessive spacing between the side walls 13 and the gas column 16 on either side of the second side wall 14 results in a decrease in the protective capacity of the gas package bag 1 for both sides after the electronic product or valuables are placed in the gas packaging bag 1. In order to increase the protection ability of the gas packaging bag 1 for the side, there are related manufacturers who have issued a gas packaging bag with a pressure regulating function such as the Chinese Patent Gazette, the bulletin No. M2 6 3 3 2 5 , and the announcement number M2 8 5 5 5 2 has a pressure-adjusting side-enhanced gas shock-proof bag, the main purpose of which is to increase the shock-proof capacity of the gas-packing bag 1; while it is still in the manufacturing process, it still has the following defects. Existence: (1) When manufacturing the gas packaging bag 1, the size of the gas packaging bag 1 must be determined according to the volume of the electronic product, valuables or contents, and the size of the opening 1 1 is determined after 5 The two sides of the packaging bag 1 are tightly sealed by the heat sealing line 12, so that the gas packaging bag 1 can only be packaged corresponding to a specific electronic product, valuables or contents, and the electronic product 'valuables or contents must be passed through the opening 1 1 The inside of the gas-packing bag 1 is broken, and during the packaging process, the opening 11 of the gas bag 1 is liable to be torn or broken. (2) The gas cylinders 16 of the gas protection packaging bag 1 are mutually ventilated, and when any one of the gas cylinders 16 is leaked or damaged, the gas of the other gas cylinders 16 is discharged, and the gas is caused. Packing M3 06992 The gas inside the bag 1 is completely bubbled out. (3) After accommodating electronic products, valuables or contents inside the gas packaging bag 1, the gas packaging bag 1 is continuously placed inside the packaging box or the box. At this time, since the outer side of the gas packaging bag 1 is a curved surface, the gas packaging The bag 1 does not completely conform to the inner wall of the package or the box, so that it is easy to cause the gas protection bag 1 to collide with the inner wall of the package or the box during transportation, resulting in damage to the electronic product, valuables or contents. Therefore, how to design a sealing body that can completely cover the contents, and the air columns of the sealing body are independent and not ventilated, and can be combined with the stable housing box, that is, the creator of the case and engaged in The technical issues that the technical field of this related industry needs to face. [New content] In view of this, the present invention provides a clamp type air cushioning device. The clamped air cushioning device of the present invention comprises a gas column piece composed of a plurality of main gas columns side by side, and the air column piece is formed by bending to form an upper cover portion, a lower cover portion, and a connection portion connecting the upper cover portion and the lower cover portion. And the side gas column is respectively connected to the two sides of the gas column piece, and the inner diameter of the side gas column is larger than the inner diameter of the gas column piece, so the side gas column and the Φ gas column piece form a height difference after being inflated, so that the upper cover part and the lower cover part A accommodating space is formed between the portion and the side air column, and a buffer space is formed on the other side of the upper cover portion and the lower cover portion with respect to the accommodating space, whereby an article such as an electronic product can be placed in the accommodating space and borrowed The side air column of the upper cover portion, the lower cover portion and the connecting portion prevents the article from swaying 5 and strengthens the side protection of the article side by the side air column. Further, the article is placed inside the box together with the air buffer device. When the cover body, the lower cover portion and the side air-columns on both sides of the connecting portion are closely attached to the inside of the box body, when the box body collides, the object can first be firstly buffered by the deformation of the side air column. And then the second cushioning is performed by the gas column sheet deforming toward the buffer space. The column may be deformed upon contact with the casing sheet produced buffer three times, and has a function to achieve anti-collision of multiple and shock. M3 06992 A preferred embodiment of the present invention and its effects are described below in conjunction with the drawings. 1 Embodiments Please refer to the third and fourth figures for a perspective view and a perspective cross-sectional view of a first preferred embodiment of the present invention. It can be clearly seen from the figure that the air cushioning device 2 has a gas column. 3 and two side air columns 4 are formed 5 wherein: the gas column piece 3 is composed of a plurality of main gas columns 31 connected in a row, and the main gas columns 31 are independent of each other, and the internal gas is not connected to each other. Each of the main gas columns 31 includes a main connecting section 3 2, B and a main connecting section 3 2 - the main upper section 3 3 is connected to the side, and the main lower section 3 4 is connected to the other side. Between the main connecting section 3 2 and the main upper section 3 3 and the main lower section 34 4 , one or more turning points 35 are generated through heat sealing, and the main connecting section 3 2 and the main upper side are further The length between the section 3 3 and the main lower section 34 may be equal or unequal length. The two side air columns 4 are connected to the main gas column 31 on both sides of the gas column piece 3, and each side air column 4 is a side connection having an equal length corresponding to the main connection section 3 2 of the main gas column 31. Section 41 5 and an upper upper section 4 2, a lower lower section • a section 43 corresponding to the main upper section 3 3 and the main lower section 3 4 on both sides of the main gas column 3 1 , and the side connecting section 41 One or more turning points 44 are created between the upper side section 42 and the side upper section 42 for heat permeable sealing. The air column piece 3 of the air cushioning device 2 and the two side air column 4 ends are combined with the heat seal line 5, and the main connecting portion 3 2 of the main gas column 31 of the 5 air column piece 3 constitutes the connecting portion 2 1, and The main upper section 3 3 of the main air column 31 constitutes the upper cover portion 2 2 , and the main lower section 3 4 of the main air column 31 forms the lower cover portion 23, and the inner diameter of the side air column 4 is larger than the air column. The inner diameter of each of the main air columns 31 of the sheet 3 is such that the connecting portion 21 and the - side connecting portion 41 are formed with an accommodating space 6, and the upper cover portion 2, the lower cover portion 23 and the upper side portion 4 2. The accommodating space 6 is also formed in the lower side section 4 3 , and a buffer space is formed on the other side of the connecting part 21 , the upper cover part 2 M3 06992 2 and the lower cover part 2 3 with respect to the accommodating space 6 . 61. Please refer to the fourth and fifth figures for a first perspective view of the first preferred embodiment of the present invention, and a perspective view of the second preferred embodiment, the air cushioning device 2 can be clearly seen in the figure. The air column piece 3 is composed of two side air columns 4, wherein: the gas column piece 3 is composed of a plurality of main gas columns 31 connected in a row, and each main gas column 31 is independent and internal gas is mutually independent. The main air column 3 1 has two main connecting sections 3 2 , and one main connecting section 3 2 has a main lower section 34 connected to one side, and the other side is The sub-p is connected to the main upper section 3 3, and the main connecting section 3 2, the main upper section 3 3 and the main lower section 34 are permeable to heat sealing to produce one or more turning points 35 ◦ two sides The gas column 4 is connected to the main gas column 3 1 on both sides of the gas column piece 3, and each side gas column 4 is a side connection section having an equal length corresponding to the main connection section 3 2 of the main gas column 31. 41, and an upper section 4 2 'side lower section 43 corresponding to the main upper section 3 3 and the main lower section 3 4 on both sides of the main air column 31, and the side connecting section 41 and the upper side section Segment 42 and side One or more turning points 4 4 are created between the upper sections 42 for heat permeable sealing. • After the air column piece 3 of the air cushioning device 2 and the two side air column 4 ends are combined by the heat sealing line 5, the main connecting section 3 2 of the main air column 31 of the air column piece 3 constitutes the connecting portion 21, and the main The main upper section 3 3 of the air column 31 constitutes the upper cover portion 2 2 , and the main lower section 3 4 of the main air column 31 constitutes the lower cover portion 23, since the inner diameter of the side air column 4 is larger than each of the air column pieces 3 The inner diameter of the main air column 31, therefore, the connecting portion 21 and the side connecting portion 41 are formed with an accommodating space 6, and the upper cover portion 2, the lower cover portion 23 and the side upper portion 4, 2 side down An accommodating space 6 is also formed between the sections 43 and 3, and a buffer space 61 is formed on the other side of the connecting portion 21, the upper cover portion 2-2 and the lower cover portion 23 with respect to the accommodating space 6. Please refer to the sixth, seventh and eighth diagrams, which is a schematic diagram of the action of the second preferred embodiment of the present invention, M3 06992 (1), (2) and (3). It can be clearly seen from the figure that the article 7 is for containment. In the accommodating space 6 inside the air cushioning device 2, and the side of the article 7 is sandwiched by the transmissive side air column 4, after the article 7 is covered by the air cushioning device 2, the air cushioning device 2 and the article There will be no collision between the seven, and then the air cushioning device 2 coated with the article 7 is housed inside the casing 8, and in the process of being accommodated, the side air column 4 on both sides of the air cushioning device 2 In order to be able to abut against the inner wall of the casing 8, the air cushioning device 2 coated with the article 7 is placed inside the casing 8, and when the casing 8 collides during transportation or transportation, the article 7 will The air cushioning device 2 is protected inside, and can be first buffered by the deformation of the side air column 4 of the air buffering device 2, and then deformed by the air column piece 3 toward the buffer space 61. The secondary buffering can be performed by three times buffering by the deformation generated when the gas column sheet 3 is in contact with the casing 8 It has multiple anti-shock and anti-collision functions. Please refer to the fourth and ninth drawings, which are perspective views of the first preferred embodiment of the present invention, and a perspective view of the third preferred embodiment, as can be clearly seen from the figure, each air buffer The device 2 is composed of a gas column piece 3 and two side air columns 4, and the gas column piece 3 is formed by interconnecting a plurality of main gas columns 31, and the main lower portion 3 4 of the main gas column 31 is on both sides. Each includes a main connecting section 3 2 , and φ includes a plurality of main upper sections 3 3 on the other side of each main connecting section 3 2 , and the two sides of the side lower section 4 3 of each side air column 4 are Corresponding to the main lower section 3 4 respectively, the side connecting section 41 is included, and on the other side of each side connecting section 41, a plurality of upper side sections 4 2 are sequentially included, and the main air column 3 1 of the air column piece 3 is included. The main connecting section 3 2 constitutes the connecting portion 21, and the plurality of main upper sections 3 3 of the main air column 31 constitute the upper cover portion 22, and the main lower section 34 of the main air column 31 constitutes the lower cover portion 23, Since the inner diameter of the side air column 4 is larger than the inner diameter of each of the main air columns 31 of the air column piece 3, between the connecting portion 21 and the side connecting portion 41, an accommodation space 6 is formed, and the upper cover portion 2 2 , the lower cover portion 2 3 and An accommodating space 6 is also formed between the upper side section 4 2 and the side lower section 4 3 , and is connected to the connecting portion 21 , the upper cover portion 2 2 and the lower cover portion 2 3 10 M3 06992 for the accommodating space 6 Each side forms a buffer space 61. Therefore, the air cushioning device 2 can completely cover the article 7 according to the shape of the article 7, and is accommodated in the interior of the casing 8 together with the article 7. In the above embodiment, the main air column 31 Between the main connecting section 3 2 and each of the main upper sections 3 3 , one or more turning points 35 are formed by heat sealing, and a heat permeable seal is formed between the side connecting section 41 and the side upper section 42 . More than one turning point 44, and each of the main upper section 3 3 and the upper side section 4 2 is permeable to heat sealing to produce one or more turning points 35, 44. The above-described air column piece 3 is combined with the side air column 4 so as to be L-shaped or U-shaped or square-shaped or triangular-shaped or polygonal depending on the upper cover portion 21, the lower cover portion 23 and the connecting portion 21. Please refer to the tenth and eleventh drawings for the perspective view of the fourth preferred embodiment and the perspective view after bending. It can be clearly seen from the figure that the main air column 3 1 of the air column piece 3 has a main connection. Section 3 6 5 main connecting section 36 is formed by heat sealing to form one or more turning points 36 1 , turning point 3 61 will constitute connecting part 24, then the side connecting sections 45 of the two side air columns 4 correspond The main connecting section 36 forms one or more turning points 4 51 by heat sealing, whereby the upper cover portion 2 2 of the air cushioning device 2 is bent by the connecting portion 24, and the article can be packaged therein. . Further, the advantages of this creation are as follows: (1) When the gas column piece is manufactured, it must be made into a bag body according to the volume of the electronic product or article, and can be directly produced by the air column piece. The gas column piece can directly package the electronic product or the article, and in the process of packaging, the electronic product or the article can be completely bent by bending or changing the direction of the package through the gas column piece and the side air column. Covered inside, in addition, the main gas column of the gas column and the two side gas columns are independent and the internal gas cannot flow through each other, so when any gas column breaks and leaks, The gas inside the entire gas column will not be bubbled with the M3 06992, and the original shockproof function can be maintained. (2) The gas column piece is composed of a gas column piece and two side gas columns. After inflation, the inner diameter of the side gas column will be larger than the inner diameter of the gas column piece, so the two side gas columns and the gas column piece are formed. There is a space for the electronic product or article to be placed inside the accommodating space of the air cushioning device, and the two side air columns can be attached to the edge of the electronic product or the article to prevent the electronic product or the article from shaking. Or collision. (3) After the air cushioning device is inflated, the side buffer column is used to strengthen the side buffer of the electronic product or the article. Further, the inner diameter of the side air column will be larger than the inner diameter of the air column piece, so the two sides The air column and the air column piece form a buffer space, whereby when the object is placed inside the box together with the air buffer device, a buffer space is formed between the side air column and the air column piece on both sides of the air column piece. Therefore, when the box collides, the object can first be buffered by the deformation of the side air column, and then the air column piece is deformed toward the buffer space for the second time, and then the air column and the box can be used. The deformation generated during contact is buffered three times to achieve multiple shock and collision avoidance functions. Although the technical content of the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention. Anyone who is familiar with the art, and some modifications and retouchings 5 that do not depart from the spirit of the present invention should be included in the creation. The scope of protection of this creation is subject to the definition of the scope of the patent application attached. [Simple description of the drawings] The first figure is a perspective view of a conventional gas packaging bag. The second figure is a perspective cross-sectional view of a conventional gas packaging bag. The third figure is a perspective view of the first preferred embodiment of the creation. The fourth drawing is a perspective cross-sectional view of the first preferred embodiment of the creation. The fifth drawing is a perspective view of the second preferred embodiment of the present invention. 12 M3 06992 The sixth figure is a schematic diagram (1) of the action of the second preferred embodiment of the present invention. The seventh figure is a schematic diagram of the action of the second preferred embodiment of the present creation (2). The eighth drawing is a schematic view of the operation of the second preferred embodiment of the present invention. (3) The ninth drawing is a perspective view of the third preferred embodiment of the present invention. The tenth figure is a perspective view of the fourth preferred embodiment of the present creation. The eleventh figure is a perspective view of the fourth preferred embodiment of the present invention after being bent. [Main component symbol description] Xin 〇 1 1. · β * n * β ^. Gas bag β. β. . ·Receiving space Opening ββ*β〇β·〇β • Heat sealing line oseaeoaoti· , first side wall ~|^ ^| 〇u«»cneee> • Second side wall «3·β&α«〇ο. Film 1 eoeeeeeeo. Air column 2 β 〇 β 〇 β β 〇 β 〇 - air cushioning ^ aoveaaean. Connection v » β · e ft β Β ο . Upper cover part βοαβΰ«*〇α. Lower cover part 2 4 · · · ···· • Connection part 3......·... 'Air film' ββ·*ββ··ο . Main gas column 13 2 M3 06992 4 Main reverse section Main upper section Main lower section Turning point 4 Ο /〇 ύ 0 ° ...· 1 u 13 e. e main connection section C O G Φ c ‘ . . e. • Turning point 4 β... ’ ° °. . . Side gas column /1 I e ο o a c 1: 丄 1. 3 β. 3 side connection section 4 2. . °*· • 13. , β β side upper section ^/\ «? a 〇 β > -. =·· Side down section > . . ••• Turning point Zj- J3 * u B * ' > · . β •. Side connection section 5 1 e ° > u β ·· turning point » e 〇 e <> ». Ββ heat seal line geooa ( _.^ 3 β. accommodation space ~| e 〇f3 O 1 »...<•buffer space γ e 〇D o ( 0 ° η β ° ° items g... a u β β • Box 14