1331979 .九、發明說明: 【發明所屬之技術領域】 本發明係有關-種空亂防震套,特別是―種逆向吊床式空氣防震套。 【先前技術】 一般在包裝物品時,會先利用保麗龍包覆物品,再將其放入紙箱内, 以避免物品在搬運的過程中產生碰撞。賴保麗龍可避免物品因晃動而損 壞,但保麗龍之體積蓬鬆而占用大量空間,且不易被微生物分解,焚化處 理會釋放出危害人體之毒氣,造成嚴重的環境污染,在環保意識高漲的今 天,保麗龍並不是相當理想的緩衝材料。再者,不同尺寸、大小的物品無 法共用保麗龍包裝’必須㈣不㈤尺寸祕麗龍,不僅是魏上的浪費, 同時也提高了物品的包裝成本。 為解決上述之問題,便產生一種以熱封接著二片塑膠薄膜所製成之氣 體包裝袋,俾供物品於晃動時提供緩衝保護之用。雖然氣體包裝袋可提供 較佳之緩衝保護,但當物品具有銳角或五金接角時,易因物品於氣體包裝 袋内晃動而刺破氣體包裝袋。若氣體包裝袋出現小破洞,氣體包裝袋内之 氣體即會洩出,造成氣體包裝袋喪失緩衝保護之功效,進而提高物品之包 裝成本。為了解決此一問題,可以加強或增厚氣體包裝袋之塑膠薄膜,藉 以減少受到物品刺破之機會,但在連續大量式的生產無法就氣體包裝袋之 單一面加強或增厚,必須全面加強或增厚,導致製造成本大幅增加而失去 市場競爭力。此外,氣體包裝袋亦存在與保麗龍相同之問題,即無法包裝 不同尺寸、大小的物品,必須使用不同尺寸的氣體包裝袋方能包裝多種物 1331979 . 由此可知,如何提供物品良好的緩衝保護,避免物品於運送過程中因 碰撞而損壞或刮傷,並解決氣體包裝袋易受到物品刺破之問題,進而可包 裝不同尺寸、大小的物品,藉以增加氣體包裝袋的適用範圍,係為本案之 發明人以及從事此相關行業之技術領域者亟欲改善的課題。 【發明内容】 有鋥於此’本發明提出一種逆向吊床式空氣防震套,包含:二外膜, 包含上側邊與下側邊;二内膜,介於二外膜之間,二内膜之間塗佈耐熱材 鲁料;充氣通道,為經由熱封手段接著二外膜而形成的空間,包含:至少一 充氣區,用以供氣體充入;及不可充氣區,與充氣區之間以熱封手段接著 二外膜,使氣體無法充入;複數氣柱,併排於充氣通道之側邊,為經由熱 封手段接著二外膜而形成可儲存氣體的空間;複數入氣口,連通充氣通道 與氣柱,為經由熱封手段接著二内膜,由二内膜塗佈耐熱材料的部分形成; 複數第一節點,位於複數氣柱上,為經由熱封手段接著二外膜而形成,使 複數氣柱循著複數第一節點彎折;容置空間,為複數氣柱彎折後彎折熱封 • 接著上側邊與下側邊而形成;及緩衝部,併排於不可充氣區側邊之氣柱收 納於容置空間内而形成,用以承載物品。 本發明亦提出一種逆向吊床式空氣防震套,包含:二外膜,包含上側 邊與下側邊;二内膜,介於二外膜之間,二内膜之間塗佈耐熱材料;集氣 室,包含有可供外部氣體充入之充氣口;複數充氣通道,連接於集氣室, 為經由熱封手段接著二外膜而形成的空間,包含:至少一充氣區,用以供 氣體充入;及不可充氣區,以熱封手段接著二外膜使氣體無法充入;複數 氣柱,為經由熱封手段接著二外膜而形成可儲存氣體的空間,部分複數氣 6 ,柱連接於充氣區,另—部分複數氣柱連接於^可充祕;複數人氣口,連 通充軋通道與氣柱,為經由熱封手段接著二内臈,由二内膜塗佈耐熱材料 的。P分形成,減第-節點’位於複減柱上,為經由_手段接著二外 膜而形成’使複數氣柱循著複數第一節點彎折;容置空間,為複數氣柱弯 折後彎折熱封接著上側邊與下側邊而形成;及緩衝部,為*可統區之氣 柱收納於容置空間内而形成,用以承載物品。 藉由本發明利用緩衝部承載物品,縱使物品之尖角刺破緩衝部,亦不 _ 影響麟健之功效,解決習贼體包裝袋因遭刺破而無法提供緩衝保護 之缺點’再者’本發明可調整氣柱循著複數第一節點彎折的角度而改變容 置空間的形狀,藉以包裝不同尺寸、大小的物品,此外,本發明包覆物品 後’亦可隨著外箱之尺寸、大小不同而調整氣柱彎折的角度,是以,本發 明不需改變尺寸、大小,即可包裝不同物品,並可裝入不同外箱,不僅包 裝方便,且可降低物品的包裝成本。 有關本發明的較佳實施例及其功效,茲配合圖式說明如后。 • 【實施方式】 請參照第1圖、第2A圖、第2B圖、第3圖及第4A圖為本發明之第 一實施例,第1圖為充氣前的平面圖,第2A圖為充氣後的立體示意圖 (一)’第2B圖為充氣後的立體示意圖(二),第3圖為充氣後的剖面圖, 第4A圖為包覆物品的示意圖(一)。 逆向吊床式空氣防震套包含:二片外膜2a與2b、二片内膜la與lb、 複數氣柱20a與20b、充氣通道9、入氣口 2e、容置空間6、第一節點21、 缓衝部5。 7 U51979 ,4外膜2a㈣上下疊合,且二片外膜2a與2b包含上側邊2c與下 側邊2d。 二片内膜ia與lb介於二片外膜2a與2b,且二片内膜u與化置於二 片外膜2a與2b内頂部梢低處,此外,二片内膜la與lb之間為塗佈有耐 熱材料lc,以利用耐熱材料lc做為空氣可流通之通路。 沿著熱封線3a、3b、3c、3d以熱封手段進行熱封,藉以接著二片外膜 23與2b以及二片嶋13與lb,赚二片外膜2a與2b而形成可流通氣體 眷 ㊅充氣通道9,並於充氣通道9之-端形成充氣口 9a。 此外,充氣通道9包含充氣區91與不可充氣區92,而充氣區91位於 不可充氣區92之-側,與不可充氣區92之間以熱封手段接著二片外膜^ 與2b形成熱封線3e,使氣體無法由充氣區91流至不可充氣區%。再者, 二片外膜2a與2b經由熱封接著而形成複數氣柱2〇a與2%,並於氣柱施 與20b上形成複數第一節點2卜其中,複數氣柱2〇a與併排於充氣通 道9之一側。 而二片内膜la與lb之間塗佈耐熱材料1(:後,經由熱封手段互不接著 而於一片内膜la與lb之間形成複數入氣口 2e,且每一入氣口 &對應每一 氣柱20。 依據本發明所揭露之結構,每-人氣σ 2e均連接有氣體通道14,其 中’氣體通道u為於二片内膜la與lb之間塗佈耐熱材料lc後,經由熱 封手段接著二片内膜ia與lb,而形成於二片内膜la與lb之間。 二片内膜la與lb之間為依序間隔塗佈有耐熱材料lc,例如:以印刷 8 1331979 .方式列印耐熱膠或油墨’經過熱封手段,二片内膜la與lb仍不接著而形 成入氣口 2e與氣體通道μ。 §進入充軋口 9a之氣體膨脹充氣通道9後,將二片外膜2a與2b向外 拉開而開啟入氣口 2e,使氣體沿著氣體通道14進入併排於充氣區91側邊 之氣柱20a ’以使氣柱20a充氣膨脹。於氣柱2〇a充氣膨脹後,氣柱2〇a之 氣體的内部壓力壓迫二片内膜4與lb而緊密貼壓於外膜2a或孔(依據其 結構之差異,二片内膜la與lb亦可不側貼於外膜2a或2b而懸掛於氣柱 • 2〇中),覆蓋氣體通道14而封閉氣柱2〇a,使氣柱20a内之氣體不外洩而 達細氣的效果。由於氣體無法由充氣區91流至不可充氣區92,因此併 排於不可充氣區92側邊之氣柱20b無法充氣膨脹。 循著第一節點21彎折併排於充氣區91側邊之氣柱2〇a,同時彎折併 排於不可充氣區92側邊之氣柱20b,再熱封接著二片外膜2a與2b之上侧 邊2c與下側邊2d而形成容置空間6,續將併排於不可充氣區92側邊之氣 柱20b收納於容置空間6内而形成緩衝部5,而緩衝部5之一側具有開口 _ 5卜而開口 51概呈四邊形’使物品100經由開口 51置於緩衝部5上。 於上述說明中,為先使氣柱20a充氣膨脹,再熱封接著二片内膜“與 lb之上側邊几與下側邊%,亦可先熱封接著二片内膜以與比之上側邊 2c與下側邊2d,再對氣柱2〇a進行充氣。 此外,雖上述說明之容置空間6與開口 51概呈四邊形,但其形狀依第 一節點21b之位置、數量的不同而有些微差異,特此說明。 請參照第4A圖、第4B圖、第5A圖及第5B圖為本發明之第一實施 9 1331979 .例,第4A圖為包覆物品的示意圖(一),第4B圖為包覆物品的示意圖(二), 第5A圖為包覆物品的剖視圖(一)’第5B圖為包覆物品的剖視圖(二)。 當物品100經由開口 51置於緩衝部5時,即可由緩衝部5包覆物品 100 —側’並由充氣膨脹之氣柱2〇a與緩衝部5提供物品1〇〇緩衝保護之 用。若物品100物品100具有銳角或五金接角,在搬運的過程中易因碰撞 或晃動使物品100之尖角刺破緩衝部5,此時仍可由緩衝部5繼續包覆物 品100,並不影響氣柱20a與緩衝部5所提供的緩衝保護功效,藉此可解 決習用氣體包裝袋因遭刺破而無法提供緩衝保護之缺點。 再者,包裝不同尺寸、大小的物品1〇〇時,僅需調整氣柱2〇a循著第 -節點21彎折的角度,即可調整開σ 51與容置空間6的形狀即可包裝 不同尺寸、大小的物品1GG,不僅有效增加賴範圍,並可降低物品1〇〇 的包裝成本。 請參照第6Α圖與第紐圖為本發明之第一實施例,第6八圖為裝入外 箱的示意圖㈠,第6Β圖為裝入外箱的示意圖(二)。 +本發a月包覆物品100後’亦可裝入不同尺寸大小之外箱8,並可隨 著外相8之尺寸、大小不同而調整氣柱施彎折的角度使氣柱如a收容 於不同之外箱8内,而不倨pp牡— 偈限特疋尺寸、大小之外箱8 ’讓使用者更加便 於包裝不同之物品1〇〇。 請參照第7圖、第8圖、货 圏第9Α圖及第9Β圖為本發明之第二實施例, 第7圖為充氣刚的平面圖,笛 第8圖為充氣後的立體示意圖,第9Α圖為包 覆物品的剖視圖(一),第 乐β圖為包覆物品的剖視圖(二)。 10 1331979 上述說明之充氣區91更包含第一區91a與第二區91b,而二片外膜2a 與2b經由熱封接著而於第一區9ia側邊之複數氣柱2〇a上形成複數第二節 點22,循著複數第二節點22彎折複數氣柱2〇a而改變開口 51之形狀使 第一區91a之氣柱20a彎折後之形狀不同於第二區9比之氣柱2如彎折後 之形狀。 虽本發明包覆物品100後,藉由緩衝部5提供第一層次的缓衝保護, 續以第二區91b之氣柱2Ga提第二層次的供緩衝保護,藉此形成二次緩衝 之用,提供物品1〇〇更佳的緩衝保護。*包裝不同尺寸、大小的物品1〇〇 時,僅需調整氣柱20a循著第-節點21與第二節點22 f折的角度,即可 調整開口 5丨與容置_ 6的形狀’即可包裝不同尺寸、大小的物品ι〇〇。 此外,雖上述說明之容置空間6與開口 51概呈四邊形,但其形狀依第 P.. 〃第一節點22之位置、數量的不同而有些微差異,特此說明。 請參照第1〇圖與第U圖為本發明之第三實施例,第1〇圖為充氣前的 平面圖,第11圖為充氣後的立體示意圖。 充氣區91亦可設置於不可充氣區92之二側,且充氣區91與不可充氣 區92之間以熱封手段接著二片外膜2a與2b形成熱封線 > 當不可充氣區 92側邊之氣柱20b收納於容置空間6内而形成緩衝部5,同時將其中一充 氣區9!之氣柱2〇a收納於容置空間6内,藉以夹持物品議使緩衝部$ 更緊密地包覆物品100。 、,請參照第12圖與第13圖為本翻之第四實施例,第罐充氣前的 平面圖,第13圖為充氣後的立體示意圖。 11 1331979 , 沿著熱封線3a、3b、3c、3d以熱封手段進行熱封,使二片外膜與 2b接著而形成一個集氣室7與多個充氣通道9,集氣室7包含充氣口 7&連 接於外部氣體,其中,充氣通道9包含充氣區91與不可充氣區92,而不 可充氣區92以熱封手段接著二片外膜2a與2b形成熱封線3e,藉由熱封線 3e使氣體無法充入。 再者’二片外膜2a與2b經由熱封接著而形成複數氣柱2〇a與2%,並 於氣柱20a與20b上形成複數第一節點21,其中,每一氣柱2〇a與2〇b連 接於每一充氣通道9,而氣柱20a連接於充氣區91,氣柱2〇b連接於不可 充氣區92。 進入充氣口 7a之氣體經由集氣室7膨脹充氣通道9,使二片外膜 與2b向外拉開,由於外膜2a與内膜la、外膜2b與内膜比經過熱封手段 而接著,不接著的二片内膜la與lb向外拉開而自動開啟入氣口 &。一個 充氣口 7a可經由集氣室7、充氣通道9,同時對充氣區91之複數氣柱2〇a 充氣,可節省充氣時間。 此外,本實施例亦可將充氣區91分為第一區91a與第二區仙,並經 由熱封接著而於第-區91a侧邊之複數氣柱2()a上形成複數第二節點22, 使第-區灿之氣柱2〇a彎折後之形狀不同於第二區仙讀柱咖彎折 後之形狀,藉以達到二次緩衝之用。 依據本發明所揭露的結構,係以熱封手段熱封接著二片外膜&與办 之上側邊2c與下側邊2d而形成容置空間6,續將併排於不可充氣區92側 邊之氣柱20b收納於容置空間6内而形成緩衝部5,亦可進一步熱封接著 12 1331979 ’-片外膜2a與2b而賴容置空間6。舉凡熟悉此項技藝的人士均可依據 本發明的教tf,㈣丨其鱗效的構雜飾或是變化。 本發明藉由彎折氣柱2〇a而改變開口 51與容置空間6的形狀,藉以包 裝不同尺寸、大小的物品1〇〇,並可隨著外箱8之尺寸、大小不同而調整 氣柱20a彎折的角度,不僅包裝方便,且可降低物品1〇〇的包裝成本。 雖然本發明的技術内容已經以較佳實施例揭露如上,然其並非用以限 定本發明,任何熟習此技藝者,在不脫離本發明之精神所作些許之更動與 ® 潤飾,皆應涵蓋於本發明的範疇内,因此本發明之保護範圍當視後附之申 請專利範圍所界定者為準。 【圖式簡單說明】 第1圖為本發明之第一實施例充氣前的平面圖。 第2A圖為本發明之第一實施例充氣後的立體示意圖(一)。 第2B圖為本發明之第一實施例充氣後的立體示意圖(二)。 第3圖為本發明之第一實施例充氣後的剖面圖。 • 第4A圖為本發明之第一實施例包覆物品的示意圖(一 第4B圖為本發明之第一實施例包覆物品的示意圖(二 第5A圖為本發明之第一實施例包覆物品的剖視圖(一)。 第5B圖為本發明之第一實施例包覆物品的剖視圖(二)。 第6A圖為本發明之第一實施例裝入外箱的示意圖(一)。 第6B圖為本發明之第一實施例裝入外箱的示意圖(二 第7圖為本發明之第二實施例充氣前的平面圖。 第8圖為本發明之第二實施例充氣後的立體示意圖。 13 1331979 第9A圖為本發明之第二實施例包覆物品的剖視圖(一)。 第9B圖為本發明之第二實施例包覆物品的剖視圖(二)。 第10圖為本發明之第三實施例充氣前的平面圖。 第11圖為本發明之第三實施例充氣後的立體示意圖。 第12圖為本發明之第四實施例充氣前的平面圖。 第13圖為本發明之第四實施例充氣後的立體示意圖。 【主要元件符號說明】 la/lb............内膜 lc..............耐熱材料 14..............氣體通道 2a/2b............賴 2c..............上側邊 2d..............下側邊 2e..............入氣口 20a/20b..........氣柱 21 ..............第一節點 22 ..............第二節點 3a/3b/3c/3d/3e......熱封線 5 ..............緩衝部 51..............開口 6 ..............容置空間 7 集氣室 1331979 • 7a..............充氣口 8 ..............外箱 9 ..............充氣通道 9a..............充氣口 91..............充氣區 91a.............第一區 91b.............第二區 # 92..............不可充氣區 100.............物品 151331979. Nine, invention description: [Technical field to which the invention pertains] The present invention relates to a kind of air-tight anti-vibration sleeve, in particular to a kind of reverse hammock-type air shock-proof sleeve. [Prior Art] Generally, when packaging an article, the article is first wrapped with a styrofoam and then placed in a carton to avoid collision of the article during handling. Lai Bao Li Long can avoid damage caused by shaking, but the volume of Baolilong is fluffy and takes up a lot of space, and it is not easy to be decomposed by microorganisms. Incineration will release the poisonous gas that harms the human body and cause serious environmental pollution. Styrofoam is not a very ideal cushioning material. Moreover, articles of different sizes and sizes cannot share the styrofoam packaging. ‘There must be (four) not (five) size secret lyon, not only the waste of Wei, but also the packaging cost of the goods. In order to solve the above problems, a gas-filled bag made of a heat-sealed two-piece plastic film is provided for providing cushioning protection when the article is shaken. Although the gas bag provides better cushioning protection, when the article has an acute angle or a hardware joint, it is easy to pierce the gas bag by shaking the article in the gas bag. If there is a small hole in the gas bag, the gas in the gas bag will leak out, which will cause the gas bag to lose the buffer protection effect, thereby increasing the packaging cost of the article. In order to solve this problem, the plastic film of the gas packaging bag can be strengthened or thickened, so as to reduce the chance of being pierced by the article, but in a continuous large-scale production, it is impossible to strengthen or thicken the single surface of the gas packaging bag, and must be comprehensively strengthened. Or thickening, resulting in a substantial increase in manufacturing costs and loss of market competitiveness. In addition, the gas packaging bag also has the same problem as the styrofoam, that is, it is impossible to package articles of different sizes and sizes, and it is necessary to use a gas bag of different sizes to package a plurality of objects 1331979. It is thus known how to provide a good cushioning of the articles. Protection, to avoid damage or scratches caused by collision during transportation, and to solve the problem that the gas packaging bag is easily pierced by the article, and then can package articles of different sizes and sizes, thereby increasing the applicable range of the gas packaging bag. The inventors of this case and those who are engaged in the technical field of this related industry are eager to improve. SUMMARY OF THE INVENTION The present invention provides a reverse hammock type air shockproof sleeve comprising: a second outer membrane comprising an upper side and a lower side; and two inner membranes between the outer membrane and the second inner membrane The heat-resistant material is coated between the air; the air passage is a space formed by the heat sealing means and then the outer film, and includes: at least one air-filling area for charging the gas; and the non-inflatable area and the air-filling area The gas is not filled by the heat sealing means, and the gas is not filled; the plurality of gas columns are arranged side by side on the side of the gas passage, and the space for storing the gas is formed by the heat sealing means and then the outer film; the plurality of gas inlets are connected and inflated. The channel and the gas column are formed by heat-sealing means followed by two inner films, and the second inner film is coated with a portion of the heat-resistant material; the plurality of first nodes are located on the plurality of air columns, and are formed by heat sealing means followed by two outer films. The plurality of gas cylinders are bent along the first plurality of nodes; the accommodation space is formed by bending the plurality of gas cylinders after bending, and then forming the upper side and the lower side; and the buffer portion is arranged side by side on the non-inflatable side The air column of the side is stored in Formed within the accommodation space for carrying items. The invention also provides a reverse hammock type air shockproof sleeve, comprising: a second outer membrane comprising an upper side and a lower side; a second inner membrane between the outer membranes, and a heat resistant material coated between the two inner membranes; The air chamber includes an inflation port for filling with external air; a plurality of inflation channels connected to the air collection chamber, and a space formed by heat sealing means followed by two outer films, comprising: at least one gas-filled area for supplying gas Filling; and non-inflatable area, heat sealing means followed by two outer membranes to make the gas unable to be filled; multiple gas cylinders, forming a space for storing gas through heat sealing means followed by two outer membranes, part of the plurality of gas 6, column connection In the aerated area, another part of the plurality of gas columns are connected to the ^capable secret; a plurality of human mouths are connected to the filling and rolling channels and the gas column, and the heat-resistant material is coated by the inner film by means of heat sealing means followed by two inner helium. P is formed, and the minus-node is located on the double-reduced column, which is formed by the _means followed by the two outer membranes. The plurality of gas cylinders are bent along the first node; the accommodation space is after the plural gas cylinders are bent. The bending heat seal is formed by the upper side and the lower side; and the buffer portion is formed by the air column of the * can be accommodated in the accommodating space for carrying the article. By using the buffer portion to carry the article according to the present invention, even if the sharp corner of the article pierces the buffer portion, it does not affect the effect of the Lin Jian, and solves the shortcoming that the thief body bag cannot be provided with cushioning protection due to puncturing. The invention can adjust the shape of the accommodating space according to the angle at which the first node is bent, so as to package articles of different sizes and sizes, and in addition, after the invention covers the article, the size of the outer box can be The angle of the air column bending is adjusted according to the size, so that the invention can pack different articles without changing the size and size, and can be loaded into different outer boxes, which is convenient for packaging and can reduce the packaging cost of the articles. Preferred embodiments of the present invention and their effects are described below in conjunction with the drawings. [Embodiment] Please refer to Fig. 1, Fig. 2A, Fig. 2B, Fig. 3, and Fig. 4A for the first embodiment of the present invention. Fig. 1 is a plan view before inflation, and Fig. 2A is after inflation. Stereoscopic diagram (1) 'Fig. 2B is a perspective view (2) after inflation, Fig. 3 is a cross-sectional view after inflation, and Fig. 4A is a schematic view (1) of the wrapped article. The reverse hammock type air shockproof sleeve comprises: two outer membranes 2a and 2b, two inner membranes la and lb, a plurality of air cylinders 20a and 20b, an inflation passage 9, an air inlet 2e, an accommodation space 6, a first node 21, and a slow Punch 5. 7 U51979, 4 outer membranes 2a (four) are superposed on top of each other, and the two outer membranes 2a and 2b comprise an upper side 2c and a lower side 2d. The two inner membranes ia and lb are interposed between the two outer membranes 2a and 2b, and the two inner membranes u are placed at the lower end of the two outer membranes 2a and 2b. In addition, the two inner membranes la and lb The heat-resistant material lc is coated with the heat-resistant material lc as a passage through which air can flow. Heat sealing along the heat seal lines 3a, 3b, 3c, 3d by heat sealing means, whereby two outer films 23 and 2b and two sheets 13 and lb are obtained, and two outer films 2a and 2b are obtained to form a flowable gas. The sixth inflatable passage 9 has an inflation port 9a formed at the end of the inflation passage 9. In addition, the inflation passage 9 includes an inflated area 91 and an incompressible area 92, and the inflated area 91 is located on the side of the non-inflatable area 92, and is heat-sealed with the non-inflatable area 92 to form a heat seal by the two outer films ^ and 2b. Line 3e prevents gas from flowing from the inflated zone 91 to the non-inflatable zone %. Furthermore, the two outer films 2a and 2b are formed by heat sealing to form a plurality of gas columns 2〇a and 2%, and a plurality of first nodes 2 are formed on the gas column applying 20b, and the plurality of gas columns 2〇a and Side by side on one side of the inflation channel 9. The heat-resistant material 1 is applied between the two inner films la and lb (afterwards, a plurality of air inlets 2e are formed between one inner film la and lb via heat sealing means, and each air inlet & Each gas column 20. According to the structure disclosed in the present invention, each gas channel σ 2e is connected with a gas passage 14 , wherein the gas channel u is coated with a heat resistant material lc between the two inner membranes la and lb, The sealing means is followed by two inner membranes ia and lb formed between the two inner membranes la and lb. The two inner membranes la and lb are sequentially coated with a heat resistant material lc, for example: printing 8 1331979 The method prints the heat-resistant glue or the ink. After the heat-sealing means, the two inner membranes la and lb are not continued to form the gas inlet port 2e and the gas passage μ. § After entering the gas expansion and inflation passage 9 of the filling and rolling port 9a, The outer film 2a and 2b are pulled outward to open the air inlet 2e, so that the gas enters along the gas passage 14 and is arranged in the air column 20a' on the side of the gas-filling area 91 to inflate the gas column 20a. After inflation, the internal pressure of the gas of the gas column 2〇a presses the two inner membranes 4 and lb tightly against the pressure Membrane 2a or hole (depending on the difference in structure, the two inner membranes la and lb may not be affixed to the outer membrane 2a or 2b and suspended in the air column 2), covering the gas passage 14 and closing the air column 2〇a The gas in the gas column 20a is not leaked to achieve the effect of fine gas. Since the gas cannot flow from the gas-filling zone 91 to the non-inflatable zone 92, the gas column 20b side by side of the non-inflatable zone 92 cannot be inflated and expanded. The first node 21 is bent and arranged in the air column 2〇a on the side of the inflated area 91, and is bent and arranged on the air column 20b on the side of the non-inflatable area 92, and then heat-sealed over the two outer films 2a and 2b. The accommodating space 6 is formed by the side 2c and the lower side 2d, and the air column 20b which is arranged side by side of the non-inflatable area 92 is accommodated in the accommodating space 6 to form the buffer portion 5, and one side of the buffer portion 5 has The opening _ 5 and the opening 51 are substantially quadrangular 'to place the article 100 on the buffer portion 5 via the opening 51. In the above description, in order to inflate the air column 20a first, and then heat seal the two inner films "and lb" The upper side and the lower side% may be heat sealed first and then the two inner membranes are compared with the upper side 2c and the lower side 2d, and then In addition, although the accommodating space 6 and the opening 51 described above are substantially quadrangular, the shape thereof is slightly different depending on the position and number of the first node 21b, and is described here. Please refer to section 4A. Figure 4B, Figure 5A and Figure 5B are the first embodiment of the present invention. 9 1331979. Example, Figure 4A is a schematic view of a coated article (1), and Figure 4B is a schematic view of a coated article (2) 5A is a cross-sectional view of the coated article (1) 'Fig. 5B is a cross-sectional view (2) of the coated article. When the article 100 is placed in the buffer portion 5 via the opening 51, the article 100 can be covered by the buffer portion 5 - The side 'is provided by the inflated air column 2〇a and the buffer portion 5 for cushioning protection of the article 1 . If the article 100 has an acute angle or a hardware angle, the sharp corner of the article 100 is easily punctured by the buffer portion 5 during the transportation process due to collision or shaking. At this time, the article 100 can be continuously covered by the buffer portion 5 without affecting The cushioning protection effect provided by the air column 20a and the buffer portion 5 can thereby solve the disadvantage that the conventional gas packaging bag cannot be provided with cushioning protection due to puncturing. Furthermore, when packaging items of different sizes and sizes, it is only necessary to adjust the angle of the air column 2〇a following the bending of the first node 21, and the shape of the opening σ 51 and the accommodating space 6 can be adjusted to be packaged. Items 1GG of different sizes and sizes not only effectively increase the range, but also reduce the packaging cost of the item. Please refer to Fig. 6 and Fig. 1 for the first embodiment of the present invention. Fig. 6 is a schematic view (1) of the outer casing, and Fig. 6 is a schematic view (2) of the outer casing. + After the invention covers the article 100 in a month, it can also be loaded into the box 8 of different sizes, and the angle of the air column can be adjusted according to the size and size of the outer phase 8 so that the air column is contained in a Different in the box 8, not 倨 牡 — - 疋 疋 疋 疋 疋 疋 疋 疋 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' Please refer to Fig. 7, Fig. 8, Fig. 9 and Fig. 9 for a second embodiment of the present invention, Fig. 7 is a plan view of the inflated body, and Fig. 8 is a perspective view of the inflated body, Fig. 9 The figure shows a cross-sectional view (1) of the coated article, and the figure is a cross-sectional view of the coated article (2). 10 1331979 The aerated zone 91 described above further comprises a first zone 91a and a second zone 91b, and the two outer membranes 2a and 2b are formed by heat sealing and then on the plurality of gas cylinders 2〇a on the side of the first zone 9ia. The second node 22 changes the shape of the opening 51 by bending the plurality of air columns 2〇a according to the plurality of second nodes 22, so that the shape of the air column 20a of the first region 91a is different from that of the second region 9 2 such as the shape after bending. Although the present invention covers the article 100, the first level of buffer protection is provided by the buffer portion 5, and the second level of the air column 2Ga of the second region 91b is used for buffer protection, thereby forming a secondary buffer. Use, to provide better cushioning protection for items. * When packaging items of different sizes and sizes, it is only necessary to adjust the shape of the opening 5丨 and the receiving_6 by adjusting the angle at which the air column 20a is folded along the first node 21 and the second node 22 It can pack items of different sizes and sizes. Further, although the accommodating space 6 and the opening 51 described above are substantially quadrangular, the shape thereof is slightly different depending on the position and number of the first node 22 of the first P.. Referring to Figures 1 and U, a third embodiment of the present invention is shown. Figure 1 is a plan view before inflation and Figure 11 is a perspective view after inflation. The inflated area 91 may also be disposed on two sides of the non-inflatable area 92, and a heat seal line is formed between the inflated area 91 and the non-inflatable area 92 by a heat sealing means followed by two outer films 2a and 2b> when the non-inflatable area 92 side The side air column 20b is housed in the accommodating space 6 to form the buffer portion 5, and at the same time, the air column 2〇a of one of the inflated areas 9! is accommodated in the accommodating space 6, thereby clamping the article to make the buffer portion $ more The article 100 is wrapped tightly. Referring to Figures 12 and 13, the fourth embodiment of the present invention is a plan view of the first can before inflation, and Figure 13 is a perspective view after inflation. 11 1331979, heat-sealing along the heat-sealing lines 3a, 3b, 3c, 3d by heat sealing means, so that the two outer films and 2b are followed by forming a plenum 7 and a plurality of inflation channels 9, the plenum 7 containing The inflation port 7& is connected to the outside air, wherein the inflation passage 9 includes the inflation zone 91 and the non-inflatable zone 92, and the non-inflatable zone 92 forms a heat seal line 3e by heat sealing means followed by the two outer films 2a and 2b, by heat The sealing line 3e prevents the gas from being charged. Furthermore, the two outer films 2a and 2b are formed by heat sealing to form a plurality of gas columns 2〇a and 2%, and a plurality of first nodes 21 are formed on the gas columns 20a and 20b, wherein each gas column 2〇a and 2〇b is connected to each of the inflation passages 9, and the air column 20a is connected to the inflation zone 91, and the air column 2〇b is connected to the non-inflatable zone 92. The gas entering the inflation port 7a expands the inflation passage 9 through the plenum 7, so that the two outer membranes and 2b are pulled outward, since the outer membrane 2a and the inner membrane la, the outer membrane 2b and the inner membrane are further heated than the heat sealing means. The two inner membranes la and lb are not pulled outward to automatically open the air inlet & An inflation port 7a can inflate the plurality of air columns 2〇a of the inflated area 91 via the plenum 7 and the inflation passage 9, thereby saving inflation time. In addition, in this embodiment, the inflated area 91 may be further divided into a first area 91a and a second area, and a plurality of second nodes are formed on the plurality of air columns 2()a on the side of the first area 91a via heat sealing. 22, the shape of the first section of the gas column 2〇a is different from the shape of the second section of the fairy column, so as to achieve secondary buffering. According to the structure disclosed in the present invention, the accommodating space 6 is formed by heat sealing and then the two outer films & and the upper side 2c and the lower side 2d are formed, and are continuously arranged side by side on the non-inflatable area 92 side. The air column 20b is accommodated in the accommodating space 6 to form the buffer portion 5, and the space 6 can be further heat-sealed by the outer film 2a and 2b. Anyone who is familiar with the art can use the teachings of the present invention, (iv) the sculpt or variation of the scale effect. The invention changes the shape of the opening 51 and the accommodating space 6 by bending the air column 2〇a, thereby packaging the articles 1不同 of different sizes and sizes, and adjusting the gas according to the size and size of the outer box 8. The angle at which the column 20a is bent is not only convenient for packaging, but also reduces the packaging cost of the article 1〇〇. 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, and those skilled in the art will be able to cover the present invention without departing from the spirit of the invention. Within the scope of the invention, therefore, the scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing a first embodiment of the present invention before being inflated. Fig. 2A is a perspective view (I) of the first embodiment of the present invention after inflation. Fig. 2B is a perspective view (2) of the first embodiment of the present invention after inflation. Figure 3 is a cross-sectional view showing the first embodiment of the present invention after inflation. 4A is a schematic view of a coated article according to a first embodiment of the present invention (a 4B is a schematic view of a coated article according to a first embodiment of the present invention (2A 5A is a first embodiment of the present invention coated) Fig. 5B is a cross-sectional view (II) of a coated article according to a first embodiment of the present invention. Fig. 6A is a schematic view (I) of the first embodiment of the present invention incorporated in an outer casing. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 7 is a plan view showing a second embodiment of the present invention before being inflated. FIG. 8 is a perspective view showing a second embodiment of the present invention after being inflated. 13 1331979 FIG. 9A is a cross-sectional view (1) of a coated article according to a second embodiment of the present invention. FIG. 9B is a cross-sectional view (II) of a coated article according to a second embodiment of the present invention. FIG. 10 is the first embodiment of the present invention. 3 is a plan view of a third embodiment of the present invention after inflating. Fig. 12 is a plan view of a fourth embodiment of the present invention before inflating. Fig. 13 is a fourth embodiment of the present invention. A perspective view of the embodiment after inflation. [Main Description of component symbols] la/lb............inner film lc..............heat-resistant material 14........... ...gas passage 2a/2b............Lai 2c.............. Upper side 2d.......... .... lower side 2e.............. air inlet 20a/20b.......... air column 21 .......... ....first node 22 ..............second node 3a/3b/3c/3d/3e... heat seal line 5... ........ cushioning section 51.............. opening 6 .............. accommodating space 7 plenum 1331979 • 7a..............Inflatable port 8 ..............Outer box 9 ..............Inflatable Channel 9a..............Inflatable port 91..............Inflatable area 91a............. Zone 91b.............Second Zone# 92..............Inflatable Zone 100........... .. Item 15