201100303 九、發明說明: 【發明所屬之技術領域】 t本發明之具有間斷性氣閥之防震密封袋,其耐熱層係形成間 斷之型態’於右側出發處塗上耐熱材料,然後經間斷塗佈之後, 於左側邊終點處職-預定寬度之空自料塗佈耐歸料,可減 >製造過程中印刷模具之數量,降低生產成本。 【先前技術】 我國專利申請第098111096號「防震密封袋」與本發明係同一 〇 申请人,本發明係該「防震密封袋」申請案之再發明,將其一併 作為本發明之參考。 傳統用於緩衝包裝物品之方式,係以一塑膠片上突設複數個 凸起小氣囊泡,將該一塑膠膜片包覆於物品外周,藉由該小氣囊 /包吸震緩衝作用,以避免物品於運送途中破裂或損壞。惟,該小 氣囊泡之吸震能力有限,對於較小之衝擊勉強可以產生緩衝作 用,而對於較大之振動或衝擊負荷就無法達成緩衝吸震之目的, ❹ 容易造成物品之破裂損壞。 另外,我國專利公告編號第363600號所揭示之緩衝包裝袋: 具有一内侧壁及反向彎折之外侧壁,而於内、外侧壁間形成一氣 密室,當充填氣體於氣密室中,藉由内側壁緊密地包覆貼靠於欲 收容物品上,使氣密室内之氣體可對欲收容物品形成一緩衝包覆 效果;又如我國專利公告編號第128326號所揭示之緩衝用包襄材 料:係由具備空氣給排口部之止回閥,並以塑膠薄膜製成為方形 201100303 物胁f,㈣成為兩個 ^之充魏料,射,_㈣咖綱之内面各個 «立以有-處成線狀黏接’藉該線狀黏接部於充填空氣時, 用以:制該面空氣之充填收容部之鼓膨狀態者。201100303 IX. Description of the invention: [Technical field of the invention] t The shock-proof sealed bag with intermittent gas valve of the present invention has a heat-resistant layer formed into a discontinuous type, coated with a heat-resistant material at the right starting point, and then intermittently coated. After the cloth, at the end of the left side of the job - the predetermined width of the empty coating coating resistance, can reduce the number of printing molds in the manufacturing process, reducing production costs. [Prior Art] The "anti-vibration sealed bag" of the Japanese Patent Application No. 098111096 is the same as the present invention. The present invention is a reinvention of the "shock-proof sealed bag" application, which is incorporated herein by reference. The traditional method for buffering packaged articles is to use a plurality of raised small airbags on a plastic sheet to cover the outer periphery of the article, and the small airbag/bag shock absorption buffer to avoid the articles. Broken or damaged during transit. However, the small airbag has a limited shock absorbing capability, and can be cushioned for a small impact. For a large vibration or shock load, buffer shock absorption cannot be achieved, and 物品 is liable to cause damage to the article. In addition, the cushioning bag disclosed in Chinese Patent Publication No. 363600 has an inner side wall and a reversely bent outer side wall, and an airtight chamber is formed between the inner and outer side walls, when the filling gas is in the airtight chamber, by The inner side wall is tightly wrapped and placed against the article to be accommodated, so that the gas in the airtight chamber can form a buffer coating effect on the object to be accommodated; and the cushioning material disclosed in the Patent Publication No. 128326: It is made up of a check valve with air supply and discharge port, and is made of plastic film as square 201100303. It is a threat to f. (4) It becomes a two-filled material, and the inside of the _(four) café is made up of The line-shaped adhesive joint is used for filling the air in the filling portion of the filling portion when the air-filling portion is filled with air.
❹ 以述纟知專利案,雖然以氣密室或充填收容部充填空氣, 以保護收容物,達到緩衝包覆效果,惟,其構造複雜,使用上亦 文_關,使1知之_奸«置的伽_無法提升。 ▲此外’制之氣體包裝袋,其並未完全密封,.受包裝保 護,品細部若含籍末等微細雛純(例如碳紐等),於 運送途中即可翻賴絲而有細袋體污染環境之虞。 “另外’氣體包裳袋氣闕之耐熱層的設置型態常常會影響製造 拉具之4,進而影響製造之成本^而連續型態之耐熱層,每一 不同大i之氣體包裝袋,即需有相對大小尺寸之耐熱層,於製造 過程中即需配置相對大小之模具,所f模具之數量一旦增多,無 形中即會影響製造成本。 【發明内容】 本發明之主要目的,係—種具有崎性_之防震密封袋, 不官密封袋練之尺寸大小’在顺層之製造過程巾只需準備一 ’” P刷模具gp可全部適用,減少模具之成本,亦不須隨著不同 尺寸之袋體時時更換模具,使製袋過程更為簡易。 本發明之另一目的,係—種具有間斷性氣閥之防震密封袋, 於密封袋進行充氣操㈣,聽壓力可_克服上、下氣闕膜之 7 201100303 薄膜靜電吸力,推開上、下氣_進人主、辅助氣柱内,使進氣 之氣路更為順暢。 為了達成本發明’本發明一種具有間斷性氣閥之防震密封 袋,係由複數氣柱組所組成,每一氣柱組包含—寬度較大之主氣 -柱’及—寬度較小之辅助·;域柱與_氣柱之間以組内熱 封線加以分隔’該組内熱封線設有複數個連通口,使主氣柱與輔 助氣柱内之氣體可以互通;而氣柱組與氣柱組之間則以沒有連通 〇 口之組間熱封線加时隔,各自獨立,使紐無法在氣柱組之間 互通;前述之氣柱組係由上膜及下膜兩層薄膜組成,而上、下氣 閥膜則係夾置於該上、下膜之間;在該上、下氣闕膜之間塗佈一 耐熱層’該耐熱層於每一主、輔助氣柱之中央處,朝袋體下方之 方向延伸形成-氣柱耐騎;在該氣柱顺層的賴設置複數條 導氣熱封線,可以產生止逆之功能,並協助導引氣流順利進入主、 辅助氣軸,於每-主、_氣柱之上方設置熱娜,該熱封點 〇係位粒、獅餘之雜層、錄雖層_粒置處;以熱 壓印之方式形成-左袋體熱封線及一右袋體熱封線,使其界定出 袋體之周邊,並形成-開口;欲包龜護之物品可由該開口放入 袋體内部,由各主、輔助氣柱加以環繞保護,並將袋體内部抽成 真空狀態之後’以熱壓印之方式形成—氣袋㈣線,將該開口勘 結,使該料騎減闕之P錢㈣袋完全麵,聽於運送途 中物質之滲;其巾:該耐熱層係形賴斷之雜,於右側出發 8 201100303 處塗上耐熱材料,然後經間斷塗佈之後,於左側邊終點處形成一 預定寬度之空白層不塗佈耐熱材料。 本發明一種具有間斷性氣閥之防震密封袋,藉由間斷耐熱層 及熱封點之設計,將可達成前述之各項目的。 為了詳細說明,特舉下述之實施例加以說明如下,惟,該等 實施例並非用於限制本發明。 【實施方式】 本發明一種具有間斷性氣閥之防震密封袋(丨),請同時參閱圖 〇 式第一、二、三圖。第一圖所示,係該具有間斷性氣閥之防震密 封袋(1)未折疊時之正面示意圖;圖式第二圖,係由第一圖所 繪製之斷面示意圖;圖式第三圖,係由第一圖B_B所繪製之斷面示 意圖。該未折疊具有間斷性氣閥之防震密封袋(100)係由複數個氣 柱組(10)所組成,每一氣柱組(10)包含一寬度較大之主氣柱 (11),及一寬度較小之辅助氣柱(12)。主氣柱(η)與辅助氣柱〇2) 之間以組内熱封線(31)加以分隔,在該組内熱封線(31)上,每間 隔10~15公分即開設一連通口⑽,使主氣柱(⑴與辅助氣柱⑽ 内之氣體可以互通。而-氣柱組(10)與一氣柱組⑽之間則以沒 有連通口之組職封線(32)加时隔,各自獨立,使氣體無法在 氣柱組(10)之間互通。因此任—氣柱組(10)之主氣柱⑴)或辅助 氣柱(12)破裂,氣體洩漏時,並不影響其他氣柱組(1〇)仍維持氣 岔之狀恕。另外,每一氣柱組(10)可以設置成大小不同之尺寸, 而每一氣柱組(10)之形態除了長條柱狀之外,亦可以設置成其他 9 201100303 之形態,以配合欲包裝物品之需求。該未折疊具有間斷性氣閥之 防震密封袋(100)係由兩層薄膜組成,分別為上膜(2丨)及下膜 (22)(請參閱圖式第二圖),該兩層膜係由例如塑膠之類的材質所 製成的薄膜。將該專薄膜分別以銅模加以熱壓印形成組内熱封線 (31)及組間熱封線(32),使上、下膜(21)(22)黏結在一起。在未 折疊具有嶋性關之Bir震密封袋(觸之上、下賴,亦以銅模 加以熱壓印形成-上紐熱封線⑹及_τ袋體熱封線⑽。另 Ο Ο 外由上、下氣賺(25)(26)所組成的二層氣贿,係夾置於前述 的上、下膜(21)(22)之間(請參閱圖式第二圖)。該上、下氣閥膜 (25)(26)之寬度係以上袋體熱封線⑷)為起點,朝下袋體熱封線 (42)之方向延伸—寬度’該寬度約為上、下袋體熱封線⑷)(42) 之間長度的六分之-為較佳;該上、下氣閥膜(25)⑽之長度, 則與未折疊具有_性賴謂震密雜⑽)等寬,從未折疊具 有間斷性_之防震密封袋⑽)之右側邊至左侧邊。 請同時參關式第-、二、三、四圖,該第四圖係取第一圖 之耐熱層、氣柱耐熱層等處加以部份放大的示意圖。在該上、下 氣閥臈(25)⑽之間以印刷之方式間斷塗佈—層耐熱層⑽,該 耐熱層(33)係形成間斷之型態,於右側出發處塗上耐熱材料,然 後經間斷塗佈之後’於左側邊終點處形成—預定寬度之空白細) =佈耐熱材料。若係由袋體之右側出發,在所有氣柱組(二之 ,選擇主綠(11)或獅錄⑽兩者射之—的上方塗佈 201100303 耐熱材料,另一則不塗佈耐熱材料,以形成間斷型態之耐熱層 (33)。以本實施例為例’其係選擇於獅氣柱(⑵上方塗佈耐轨 材料,而主氣柱(⑴上方則不塗佈,形成間斷之型態。當然柯 k擇於主氣柱(11)上方塗佈,辅助氣柱⑽上林塗佈。其塗佈 之位置齡於上紐熱封線(41)與賴賴封線(43)之間,並且 於右側出發處必紐佈耐熱材料,而在左側邊則形成-預定寬度 =空白層(34)不塗佈耐熱材料。該間斷型態之_層⑽於防震 Ο密封袋的製造過程中將會產生極大之優點,因為耐熱層(33)係間 斷叹置所以不官防震您封袋的袋體大小(例如氣柱組是十組則袋 體較大,是五組則袋體較小),於製造過程中只需準備一組耐熱層 (33)印職具,即可全部翻。其她於冑知賴—種袋體尺寸 即需準備-組相對應之印刷模具,無形中減少了模具成本,降低 了袋體之製造成本。同時亦無需隨著袋體大小時時更換模具,使 製袋過程更為縣。另外,於每—主氣柱⑽或辅助氣柱⑽之 〇巾央處,朝下袋體熱封線(42)之方向延伸形成一氣柱耐熱層 (36),當以銅模加以熱壓印,在上袋體熱封線(41)的下方,主氣 柱⑴)或辅助氣柱(12)的頂部’形成一進氣道熱封線(43),而該 氣柱耐熱層⑽即可避免上、下氣_(25)⑽在壓印進氣道熱 封線(43)之製造過程中於該處熱封在。亦即進氣道熱封線⑽ 係位於主氣柱(11)或辅助氣柱(12)處,其係將上、下膜(2丨)(2幻, 上、下氣閥膜(25)(26)四層薄膜以熱壓印之方式使其黏結在一 11 201100303 起’但是在氣柱_層(36)處,上、下氣閥膜(25)(26)於賴印 時並未黏結在—起,而形成—人氣口⑹於各個主、輔助氣柱 (11)(12)上,以方便充氣操作之進行。請同時參閱圖式第一、二、 三、四、五圖’該第五圖係由第四圖C-C所繪製之斷面示意圖,其 K-C係騎熱封點⑽處之咖線。於每-主、輔助氣柱⑽⑽ 之上方設置熱封點(37),該熱封點(37)係位在主、辅助氣柱 (11)(12)之耐熱層⑽、氣柱耐熱層⑽的預定位置處,其係將 ❹上膜(21)與上氣閥膜(25)二層薄膜熱封在一起,同時將下氣閥膜 (26)與下膜(22)熱封在-起,而上、下氣醜(25)(26)之間則並 未熱封黏結,因此當密封袋進行充氣操作時,氣體壓力可輕易克 服上、下氣閥膜(25)(26)在該處之薄膜靜電吸力,推開上、下氣 閥膜(25X26)進人主、獅氣柱⑻⑽内,達成充氣之目的。 另外,在每一主、辅助氣柱(11)(12)之氣柱耐熱層(36)的兩側設 置複數條導氣熱封線(38),該導氣熱封線(38)形成一預定之形 Q 狀,並且從進氣道熱封線W3)朝下袋體熱封線(42)之方向延伸至 上、下氣閥膜(25)(26)的下自由端為止。該導氣熱封線(38)係將 上膜(21)、上氣閥膜(25)、下氣閥膜(26)三層熱封在一起,其主 要功能係在完成充氣之後,使上、下氣閥膜(25)(26)可以緊密貼 壓於上膜(21),封閉主、輔助氣柱(11)(12)之入氣口(45),產生 止逆功能,防止主、辅助氣柱(11)(12)内之氣體逃逸,當然亦可 以協助導引氣流使其能順利進入主、辅助氣柱(11)(12)内。該上、 12 201100303 下氣閥膜(25)(26),耐熱層(33) ’氣柱财熱層(36),熱封點(37), 導氣熱封線(38)等即組成一袋體之止回閥裝置,當氣體充入各 主、輔助氣柱(11)(12)内時,可以封閉入氣口(45),使各主、辅 助氣柱(11)(12)保持氣密狀態。另外,於未折疊具有間斷性氣閥 之防震密封袋(100)頂端預定處預設一氣袋密封線(48),以作為最 後密封袋體之用。 δ月同時參閱圖式第一、第六、及第七圖’該第六圖係將第一 〇 圖未折疊具有間斷性氣閥之防震密封袋(100)對折後所形成之具 有間斷性氣閥之防震密封袋(1)的正面示意圖。第七圖,係由第六 圖D-D所繪製之斷面示意圖。將第一圖之未折疊具有間斷性氣閥之 防震密封袋(100)以水平平分線(150)平分成上、下兩部份 (120)(140) ’接著將該未折疊具有間斷性氣閥之防震密封袋(1〇〇) 沿著水平平分線(150)對折,使下部份(14〇)對折後置於上部份 (120)之背面,即形成一具有間斷性氣閥之防震密封袋(1)。在該 Q 具有間斷性氣閥之防震密封袋(1)之左、右側以銅模分別加以熱壓 印形成一左袋體熱封線(53)及一右袋體熱封線(54),使上、不兩 部份(120)(140)黏結在一起。如前所述,因為該耐熱層(33)係形 成間斷之型態’在袋體左侧邊係為「斷」位置處,形成一不塗佈 耐熱材料之空白層(34) ’而左袋體熱封線(53)係通過該空白層 (34),因此左袋體熱封線(53)可將上、下兩部份(12〇)(14〇)完全 密封;而右袋體熱封線(54)雖同樣可將袋體右侧邊完全密封,惟 13 201100303 其留下唯-之例外係在耐熱層⑽塗佈耐熱材料處,上、下氣闕 膜(25X26)在麼印右袋體熱封線⑽之過程中,可以避免於該處 熱封黏結在-起,因此於該處之上、下氣閥臈⑻(26)間形成一 進氣口(2),連接該進氣口⑵塗佈有耐熱材料之耐熱層⑼)亦不 會熱雜結在—喊職—魏道(14),魏氣道⑽與前述之 氣柱耐熱層(36) ’熱封點(37),等所纟域之氣路與個個主、輔助 氣柱(11)(12)連通。因此當氣體由具有間斷性㈣之防震密封袋 〇⑴之進氣口⑵進入後,即可循著進氣道(⑷前進,在耐熱層〈33) 未塗佈有耐熱材料處,纽壓力可衝開上、下氣間膜(25)(26)間 之靜電吸引力,繼續前進;耐熱層(33)塗佈有耐熱材料處,氣體 更是可以姆通過,而熱封點(37)則可獅氣體進人主、輔助氣 柱(11X12) ’對每-氣柱組(1〇)之各個主、辅助氣柱⑻⑽進 4丁充氣之作。 請參閱圖式第八圖’當氣體由具有晴性關之防震密封袋 Ο ⑴之進氣口⑵充入,氣體會沿著進氣道(14)進入各主、辅助氣 柱⑻(12)。該上、下氣閥膜(25)⑽間之耐熱層⑽、氣柱耐 熱層(36),及熱封點(37)等即形成氣路,使氣體可順利進入主、 辅助氣柱(11)⑽。接著請參關式第九、十圖,其係取第二圖 E E處單-氣柱之部份斷面示意圖。氣體進入主、辅助氣柱⑴)⑽ 時’主、辅助氣柱⑴)⑽膨脹成型’充氣完成結束進氣之操作 時’則主、辅助氣柱(⑴⑽内部之高壓氣體將推壓上氣閥膜(25) 14 201100303 及下氣閥膜(26)兩層膜片偏向上膜(21)—側,並使上、下氣閥膜 (25)(26)緊密貼壓於上膜(21)上。因為導氣熱封線(38)係將上膜 (21)、上氣閥膜(25)、下氣閥膜(26)三層熱封在一起,因此上、 下氣閥膜(25)(26)受屢時僅會偏向上膜(21),而不是下膜(22)。 又因為上、下氣閥臈(25)(26)、及上膜(21)等皆係由塑膠製成之 薄膜,當主、辅助氣柱(11)(〗2)内之氣體壓力推壓上、下氣閥膜 (25)(26)緊貼於上膜(21)時,將封閉主、辅助氣柱(n)(12)之入 〇 氣口(45),形成止逆’防止主、辅助氣柱⑴)⑽内之氣體逃逸。 亦即’該導氣熱封線⑽可形成逆向止氣之功能,加強主、輔助 氣柱(11)(12)之氣密效果。 請參閱圖式第十-圖’當該具有間斷性氣閥之防震密封袋⑴ 尚未充氣之前,即先將欲包裝保護之物品⑽)經由該開口⑽放 入具有間斷性賴之防震密封袋⑴之内部。請參關式第十二 圖,接著由該開口⑽以抽氣襄置(圖未示),將袋體内部抽成真 〇空狀態’以減少包裝物品之整體體積,方便運送。然後在該具有 間斷性氣閥之防震密封袋⑴先前翻之氣健騎⑽位置 處’以熱壓印之方式使具有間斷性_之防震密封袋⑴之上、下 兩部份(12G)(14G)在該處黏結,前述之開口(7())即封閉,因此該 具有間斷性賴之防震密封袋⑴即完全密封。請參_式第十三 圖’然後氣體由具有間斷性氣閥之防震密封袋⑴之進氣口⑵充 入’主、伽氣柱(11)(12)瞬即充滿氣體祕脹成型,對該物品 15 201100303 (80)加以環繞保護。因為該具有間斷性氣閥之防震密封袋(〗)以氣 袋密封線(48)將其完全密封,因此受包裝保護之物品(8〇)其内部 若含有粉末等微細顆粒物質(例如碳粉匣),於運送途令即不會有 滲出之虞。而該物品(8〇)係受密封袋充氣氣柱之環繞保護,因此 •可以避免於運送途中受到撞擊而損壞,而達成包裝保護之目的。 另外,亦可以將放入物品(8〇)與充氣操作之次序顛倒,更改 為先將該具有間斷性氣閥之防震密封袋⑴完成充氣操作,使各 〇 主、輔助氣柱(11)(12)充滿氣體,膨脹成型,形成一立體之袋體, 再將欲包裝保護之物品⑽由該開口⑽放入袋體内部,然後以 抽氣裝置’將袋體内部抽成真空狀態,以減少包裳物品之整體體 積’方便運送。接著將先前預留之氣餘雜(48)處,以熱壓印 之方式使具有間斷性氣閥之防震密封袋⑴之上、下兩部份 (120X140)在該處黏結,封閉開口⑽,使該具有間斷性氣闕之 防震密封袋(1)完全密封,受包裝保護之物品⑽)其内轉含有粉 ❹末等微細顆粒物質,於運送途中即不會有渗出之虞,同樣可以達77 成本發明之目的。 綜合言之’本發明之具有間斷性氣閥之防震密封袋⑴明顯具 有下列之功能··-、不管密封袋袋體之尺寸大小,在耐教層⑽ 之製造過程中只群備-如卩刷模具,即可全部相,無料降 低了袋體之製造成本’亦可簡化製造程序。二、主、輔助氣枉 (11)(12)熱封點(37)之設置,使密封袋進行缝操作時,氣體壓 16 201100303 力可輕易克服上、下氣閥膜(25)(26)之薄膜靜電吸力,推開上、 下軋閥膜(25)(26)進入主、輔助氣柱(11)(12)内,使進氣之氣路 更為順暢’有效協助充氣之達成。 綜上所述,本發明具有間斷性氣閥之防震密封袋,藉由耐熱 層間斷塗佈之特性,於製造過程中不須隨著不同尺寸之袋體時時 更換模具’使製袋過程更為簡易,合於產業上之利用性。而其僅 需單-模具,即可剌全料同尺寸之紐,無形巾降低了袋體 〇 之製造成本,顯然較習知技術更具有功效之增進,具有進步性。 另本發明申請前並未見於刊物,其新穎性亦毋庸置疑。本發明合 於專利法之規定,躲法提出發明專利之t請,祈請惠予審查並 賜予專利,實感德便。 【圖式簡單說明】 第一圖係本發明具有間斷性氣閥之防震密封袋未折疊時之正 〇 面示意圖。 第一圖係取第一圖A-A處所繪製之斷面示意圖。 第三圖係取第一圖B-B處所繪製之斷面示意圖。 第四圖係取第一圖之部份放大示意圖。 第五圖係取第四圖C-C處所繪製之斷面示意圖。 第’、圖係將第—圖未折疊具有間斷性賴之防震密封袋對折 後所开y成之具有間斷性氣閥之防震密封袋的正面示意圖。 17 201100303 第七圖係取第六圖D-D處所綠製之斷面示意圖。 第八_本發批具有崎性㈣之防震㈣袋充氣時的示 忍圖。 第域穌㈣綠時,單—主、漏餘的部份斷面示意 圖。 第十圖係本發束充氣時,單-主、辅助氣柱的上、下氣 閥膜壓貼於上膜的部份斷面示意圖。 〇 軒-®係本發明具有晴性氣閥之防震贿袋,放入物品 未充氣之前的立體示意圖。 第十二圖係本發明具有間斷性氣閥之防震密封袋,抽真空完 成密封未充氣之前的立體示意圖。 第十二圖係本發明具有間斷性氣閥之防震密封袋,於結束充 氣膨脹成型後之立體示意圖。 【主要元件符號說明】 (1) 具有間斷性氣閥之防震密封袋 (2) 進氣口 (10) 氣柱組 (11) 主氣柱 (12) 輔助氣柱 (14) 進氣道 (21) 上膜 (22) 下膜 (25) 上氣閥膜 (26) 下氣閥膜 (30) 連通口 18 201100303 (31) 組内熱封線 (32) 組間熱封線 (33) 耐熱層 (34) 空白層 (36) 氣柱财熱層 (37) 熱封點 (38) 導氣熱封線 (41) 上袋體熱封線 (42) 下袋體熱封線 (43) 進氣道熱封線 (45) 入氣口 (48) 氣袋密封線 (53) 左袋體熱封線 (54) 右袋體熱封線 (70) 開口 (80) 物品 (100) 未折疊具有間斷性氣閥之防震密封袋 (120) 上部份 (140) 下部份 (150) 水平平分線❹ In the case of the patent case, although the air is filled in the airtight chamber or the filling and accommodating part to protect the contents and achieve the buffering effect, the structure is complicated, and the use is also _ off, so that the zhi _ _ The gamma cannot be promoted. ▲In addition, the 'made gas packaging bag, which is not completely sealed, is protected by the packaging. If the fine parts of the product are contained in the fine parts such as the end of the product (such as carbon, etc.), the fine parts can be turned over during the transportation. The pollution of the environment. “In addition, the setting pattern of the heat-resistant layer of the gas bag is often affected by the manufacture of the puller 4, which in turn affects the cost of manufacture. The continuous type of heat-resistant layer, each different gas bag, ie It is necessary to have a heat-resistant layer of a relatively large and small size, and a relatively large-sized mold is required in the manufacturing process, and once the number of the molds is increased, the manufacturing cost is invisibly affected. [Summary] The main object of the present invention is to Has a sturdy _ the shockproof sealed bag, the size of the non-seal sealed bag practice 'only need to prepare a manufacturing process towel in the bedding layer'" P brush mold gp can be applied all, reduce the cost of the mold, do not have to The size of the bag is changed from time to time to make the bag making process easier. Another object of the present invention is to provide a shockproof sealed bag with an intermittent gas valve, and to perform an inflating operation in a sealed bag (4), and the listening pressure can overcome the electrostatic attraction of the upper and lower air film 7 201100303 film, push open, Under the air _ into the main, auxiliary gas column, so that the air intake of the air is smoother. In order to achieve the present invention, a shockproof sealed bag having a discontinuous air valve is composed of a plurality of air column groups, each of which includes a main gas column having a large width and an auxiliary having a small width. The domain column and the _ gas column are separated by a heat sealing line in the group. The heat sealing line in the group is provided with a plurality of communication ports, so that the gas in the main gas column and the auxiliary gas column can communicate with each other; Between the gas column groups, the heat-sealing lines between the groups without the connection ports are separated and separated, so that the New Zealand cannot communicate with each other in the air column group; the above air column group is composed of two films of the upper film and the lower film. The upper and lower air valve membranes are sandwiched between the upper and lower membranes; and a heat-resistant layer is applied between the upper and lower air vent membranes. The heat-resistant layer is applied to each of the main and auxiliary gas cylinders. At the center, extending toward the bottom of the bag body to form a gas column resistant ride; in the air column, a plurality of air-conducting heat seal lines are arranged along the layer, which can generate a function of stopping the backflow and assist the guide airflow to smoothly enter the main body. Auxiliary air shaft, which is arranged above each main and _ gas column, the heat sealing point is the locust, the lion Layer, recorded layer _ granules; formed by hot embossing - left bag body heat seal line and a right bag body heat seal line, so that it defines the periphery of the bag body, and forms an opening; The protective article can be placed inside the bag body by the opening, surrounded by the main and auxiliary gas columns, and after the inside of the bag body is vacuumed, the air bag (four) line is formed by hot stamping, and the opening is formed. Investigate, so that the material can be reduced by the P money (four) bag completely face, to listen to the infiltration of the material in transit; its towel: the heat-resistant layer is broken, mixed with heat-resistant materials on the right side of the 8 201100303, and then After the intermittent coating, a blank layer of a predetermined width is formed at the end of the left side without coating the heat resistant material. The invention provides a shockproof sealed bag with an intermittent gas valve, and the foregoing items can be achieved by designing a discontinuous heat-resistant layer and a heat sealing point. The following examples are described below for the purpose of illustration, and are not intended to limit the invention. [Embodiment] The present invention relates to a shockproof sealed bag (丨) having a discontinuous air valve, and also refers to the first, second and third figures of the figure 。. The first figure shows the front view of the shock-proof sealed bag (1) with the intermittent gas valve when it is not folded; the second figure of the figure is a schematic view of the cross-section drawn by the first figure; , is a schematic cross-sectional view drawn by the first figure B_B. The unfolded shockproof sealed bag (100) having an intermittent gas valve is composed of a plurality of gas column groups (10), each gas column group (10) includes a main gas column (11) having a larger width, and a Auxiliary gas column (12) with a small width. The main gas column (η) and the auxiliary gas column 〇2) are separated by a heat sealing line (31) in the group, and a communication port is opened at intervals of 10 to 15 cm in the heat sealing line (31) of the group. (10), the main gas column ((1) and the gas in the auxiliary gas column (10) can communicate with each other. - between the gas column group (10) and the gas column group (10), the group seal line (32) without the communication port is separated by time. They are independent of each other, so that the gas cannot communicate between the gas column group (10). Therefore, the main gas column (1) or the auxiliary gas column (12) of the gas column group (10) is broken, and the gas leakage does not affect other gases. The gas column group (1〇) still maintains the discouragement. In addition, each air column group (10) can be set to a size different in size, and each air column group (10) can be set in the form of other 9 201100303 in addition to the long column shape to match the object to be packaged. Demand. The unfolded shockproof sealed bag (100) having an intermittent gas valve is composed of two layers of films, namely an upper film (2 inches) and a lower film (22) (see the second figure of the drawing), the two films It is a film made of a material such as plastic. The special film is heat-embossed by a copper mold to form a heat seal line (31) and a heat seal line (32) between the groups, so that the upper and lower films (21) (22) are bonded together. In the unfolded Bir shock seal bag with sturdy closure (top and bottom, and hot stamping with copper mold - upper heat seal line (6) and _τ bag heat seal line (10). A two-layered bribe consisting of upper and lower gas earning (25) (26) is sandwiched between the upper and lower membranes (21) and 22 (see the second figure in the figure). The width of the lower air valve film (25) (26) is the starting point of the bag body heat sealing line (4)), and extends in the direction of the lower bag heat sealing line (42) - the width is about the upper and lower bag bodies. The heat seal line (4)) (42) is preferably six-minutes in length; the length of the upper and lower air valve membranes (25) (10) is equal to the unfolded shape of the unfolded (10) The right side to the left side of the shockproof sealed bag (10) with intermittent _ is never folded. Please refer to the second, second, third and fourth diagrams at the same time. The fourth diagram is a partial enlarged view of the heat-resistant layer and the air-heat-resistant layer of the first figure. A heat-resistant layer (10) is intermittently applied between the upper and lower gas valve 臈(25)(10) by printing, and the heat-resistant layer (33) is formed into a discontinuous pattern, and a heat-resistant material is applied to the right side of the starting point, and then After intermittent coating, 'formed at the end of the left side - a blank of predetermined width" = cloth heat resistant material. If starting from the right side of the bag, apply 201100303 heat-resistant material over all gas column groups (two, select either main green (11) or lion record (10), and the other is not coated with heat-resistant material, Forming a discontinuous heat-resistant layer (33). Taking this example as an example, the system is selected from the Shishi column ((2) is coated with a rail-resistant material, and the main gas column ((1) is not coated, forming a discontinuous type). Of course, Ke K chooses to coat the main gas column (11) and coat the auxiliary gas column (10). The coating position is older than the upper heat seal line (41) and the Lai Lai line (43). And on the right side, the refractory material is formed on the right side, and on the left side is formed - the predetermined width = the blank layer (34) is not coated with the heat resistant material. The intermittent type _ layer (10) is in the manufacturing process of the shockproof sealed bag There will be great advantages in the middle, because the heat-resistant layer (33) is intermittently sighed, so it is not the size of the bag that protects your bag. (For example, if the gas column group is ten groups, the bag body is larger, and the five groups are larger. Small), only need to prepare a set of heat-resistant layer (33) printing tools in the manufacturing process, you can turn them all over. Need to prepare - the corresponding printing die, which invisibly reduces the cost of the mold and reduces the manufacturing cost of the bag. At the same time, it is not necessary to change the mold with the size of the bag, so that the bag making process is more county. - at the center of the main air column (10) or the auxiliary air column (10), extending toward the lower body heat seal line (42) to form a gas column heat-resistant layer (36), which is hot-embossed with a copper mold, in the upper bag Below the bulk heat seal line (41), the main gas column (1) or the top of the auxiliary gas column (12) forms an inlet heat seal line (43), and the gas column heat resistant layer (10) can avoid up and down The gas _(25)(10) is heat sealed there during the manufacturing process of the embossed inlet heat seal line (43), that is, the inlet heat seal line (10) is located at the main gas column (11) or the auxiliary gas column. (12), the upper and lower membranes (2 丨) (2 phantom, upper and lower air valve film (25) (26) four layers of film are bonded by heat embossing at 11 201100303 ' However, at the gas column_layer (36), the upper and lower air valve membranes (25) (26) are not bonded at the time of printing, but form a human mouth (6) on each of the main and auxiliary gas columns (11). (12), for easy inflation operation Please refer to the drawings for the first, second, third, fourth and fifth figures. The fifth figure is a schematic diagram of the section drawn by CC in the fourth figure. The KC is the line of coffee at the heat seal point (10). A heat sealing point (37) is disposed above each of the main and auxiliary gas columns (10) (10), and the heat sealing point (37) is located in the heat-resistant layer (10) of the main and auxiliary gas columns (11) (12), and the gas column heat-resistant layer (10). At a predetermined position, the two films of the upper film (21) and the upper air valve film (25) are heat-sealed together, and the lower air valve film (26) and the lower film (22) are heat-sealed. The upper and lower ugly (25) (26) are not heat-sealed, so when the sealed bag is inflated, the gas pressure can easily overcome the upper and lower valve film (25) (26). The electrostatic attraction of the film pushes the upper and lower air valve membranes (25X26) into the main and the lion's air column (8) (10) to achieve the purpose of inflation. In addition, a plurality of air guiding heat sealing lines (38) are disposed on both sides of the air column heat-resistant layer (36) of each of the main and auxiliary air columns (11) (12), and the air guiding heat sealing line (38) forms a The predetermined shape is Q-shaped and extends from the intake port heat seal line W3) toward the lower bag heat seal line (42) to the lower free ends of the upper and lower valve diaphragms (25) (26). The air guiding heat sealing line (38) heat seals the upper film (21), the upper air valve film (25) and the lower air valve film (26) together, and the main function is to complete the inflation. The lower air valve membrane (25) (26) can be closely pressed against the upper membrane (21) to close the inlet port (45) of the main and auxiliary gas column (11) (12), and generate a non-return function to prevent the main and auxiliary The gas escape in the gas column (11) (12) can of course also assist in guiding the gas flow to smoothly enter the main and auxiliary gas columns (11) (12). The upper, 12 201100303 lower air valve film (25) (26), heat-resistant layer (33) 'gas column heat layer (36), heat sealing point (37), air-conditioning heat sealing line (38), etc. The check valve device of the bag body can close the air inlet port (45) when the gas is charged into each of the main and auxiliary gas columns (11) (12), so that the main and auxiliary gas columns (11) (12) are kept in gas. Confidential state. In addition, a bag seal line (48) is preset at the top end of the shock-proof sealed bag (100) having the unfolded air valve as the final sealed bag body. At the same time, please refer to the first, sixth, and seventh figures of the drawing. The sixth figure is a discontinuous gas formed by folding the first shockproof sealed bag (100) with the intermittent gas valve unfolded in the first figure. Front view of the anti-vibration sealed bag (1) of the valve. The seventh figure is a schematic cross-sectional view drawn by the sixth drawing D-D. The unsealed shock-proof sealed bag (100) having the intermittent gas valve of the first figure is divided into upper and lower portions (120) (140) by horizontal bisector (150). Then the unfolded has intermittent gas. The anti-vibration seal bag (1〇〇) of the valve is folded in half along the horizontal bisector (150), so that the lower part (14〇) is folded in half and placed on the back of the upper part (120) to form a discontinuous valve. Shockproof sealed bag (1). The left and right sides of the shockproof sealed bag (1) having the intermittent gas valve are respectively hot-embossed by a copper mold to form a left bag body heat seal line (53) and a right bag body heat seal line (54). Bond the upper and lower parts (120) (140) together. As described above, since the heat-resistant layer (33) forms a discontinuous pattern "on the left side of the bag body at the "off" position, a blank layer (34) is formed which is not coated with a heat-resistant material. The body heat sealing line (53) passes through the blank layer (34), so the left bag body heat sealing line (53) can completely seal the upper and lower parts (12 inches) (14 inches); and the right bag body heat The sealing line (54) can also completely seal the right side of the bag body, but the only exception is that the heat-resistant layer (10) is coated with heat-resistant material, and the upper and lower air film (25X26) are printed. During the process of the right bag body heat sealing line (10), it is possible to avoid heat sealing and bonding there, thereby forming an air inlet (2) between the upper and lower air valve ports (8) (26). The air inlet (2) is coated with a heat-resistant layer (9) of heat-resistant material, and it is not hot-mixed - shouting - Wei Dao (14), Wei airway (10) and the aforementioned air column heat-resistant layer (36) 'heat sealing point (37) ), the gas path of the surrounding area is connected to the main and auxiliary gas columns (11) (12). Therefore, when the gas enters the inlet (2) of the shock-proof sealed bag 〇(1) with intermittent (4), it can follow the inlet ((4) forward, in the heat-resistant layer <33), the heat-resistant material is not coated, and the pressure can be The electrostatic attraction between the upper and lower air film (25) (26) is washed away, and the heat-resistant layer (33) is coated with a heat-resistant material, and the gas can pass through, and the heat sealing point (37) The lion gas enters the main and auxiliary gas column (11X12) 'Inflated for each main and auxiliary gas column (8) (10) of each gas column group (1〇). Please refer to the figure 8 of the figure 'When the gas is filled by the air inlet (2) of the shockproof sealed bag Ο (1) with clear humidity, the gas will enter the main and auxiliary gas columns (8) along the inlet (14) (12) . The heat-resistant layer (10) between the upper and lower air valve films (25) (10), the air column heat-resistant layer (36), and the heat sealing point (37) form a gas path, so that the gas can smoothly enter the main and auxiliary gas columns (11) ) (10). Next, please refer to the ninth and tenth drawings, which are taken as a partial cross-sectional view of the single-gas column at the second figure E E. When the gas enters the main and auxiliary gas column (1)) (10), the 'main and auxiliary gas column (1)) (10) expands and forms 'inflated to complete the operation of the intake air'. Then the main and auxiliary gas columns (the high pressure gas inside the (1) (10) will push the upper gas valve. Membrane (25) 14 201100303 and the lower valve membrane (26) two membranes are biased to the side of the membrane (21), and the upper and lower valve membranes (25) (26) are closely pressed against the upper membrane (21) Because the air-sealing heat sealing line (38) heat seals the upper film (21), the upper air valve film (25), and the lower air valve film (26), the upper and lower air valve films (25) (26) It will only be biased to the upper membrane (21) instead of the lower membrane (22). Because the upper and lower valves 25(25)(26) and the upper membrane (21) are all made of plastic. When the film is made, when the gas pressure in the main and auxiliary gas column (11) (?2) pushes the upper and lower valve film (25) (26) close to the upper film (21), the main body will be closed. The auxiliary gas column (n) (12) is introduced into the helium port (45) to form a stop-stop 'preventing the gas in the main and auxiliary gas column (1)) (10) from escaping. That is, the gas guiding heat sealing line (10) can form a reverse gas stopping function to strengthen the airtight effect of the main and auxiliary gas columns (11) (12). Please refer to the figure 10 - Figure 'When the shockproof sealed bag (1) with intermittent valve is not inflated, the object to be packaged (10) is placed in the shockproof sealed bag (1) through the opening (10). Internal. Please refer to the twelfth figure of the closed type. Then, the opening (10) is evacuated (not shown) to draw the inside of the bag into a true hollow state to reduce the overall volume of the packaged article and facilitate transportation. Then, at the position of the gas-proof riding (10) of the shock-proof sealed bag (1) with the intermittent gas valve, the upper and lower parts (12G) of the shock-proof sealing bag (1) having the intermittent property are thermally embossed (1) ( 14G) Bonding there, the aforementioned opening (7()) is closed, so that the intermittently sealed shock-proof sealing bag (1) is completely sealed. Please refer to Figure 13 'then' and then the gas is filled into the 'main, gas column (11) (12) by the air inlet (2) of the anti-vibration sealed bag (1) with intermittent valve. This item 15 201100303 (80) is surrounded by protection. Since the shockproof sealed bag (〗) having an intermittent gas valve is completely sealed by the air bag sealing wire (48), the article protected by the package (8 inches) contains fine particles such as powder (for example, toner).匣), there will be no leakage after the transportation order. The item (8〇) is protected by the surrounding air bag of the sealed bag, so it can avoid the damage caused by impact during transportation and achieve the purpose of packaging protection. In addition, it is also possible to reverse the order of the placed items (8 〇) and the inflation operation, and change the first to complete the inflation operation of the shock-proof sealed bag (1) having the intermittent gas valve, so that the respective main and auxiliary gas columns (11) ( 12) filled with gas, expanded and formed into a three-dimensional bag body, and then the article (10) to be packaged and protected is placed into the bag body through the opening (10), and then the inside of the bag body is evacuated by a suction device to reduce The overall volume of the bag item is convenient for shipping. Then, the previously reserved gas residue (48) is thermally embossed to bond the upper and lower portions (120X140) of the shockproof sealed bag (1) having the intermittent gas valve to close the opening (10). The shock-proof sealed bag (1) with intermittent air stagnation is completely sealed, and the package-protected article (10) is internally filled with fine particulate matter such as powder mash, so that there is no oozing out during transportation, and the same can be Up to 77 cost of the invention. In summary, the shockproof sealed bag (1) of the present invention having a discontinuous air valve obviously has the following functions. Regardless of the size of the sealed bag body, only the group in the manufacturing process of the resistant layer (10) is prepared. Brushing the mold, all the phases, no material reduces the manufacturing cost of the bag' can also simplify the manufacturing process. Second, the main and auxiliary air enthalpy (11) (12) heat sealing point (37) set, so that when the sealed bag is seamed, the gas pressure 16 201100303 can easily overcome the upper and lower air valve film (25) (26) The electrostatic attraction of the film pushes the upper and lower rolling valve membranes (25) (26) into the main and auxiliary gas columns (11) (12) to make the air passage of the intake air smoother' effective to assist the inflation. In summary, the shockproof sealed bag with intermittent gas valve of the present invention has the characteristics of intermittent coating of the heat-resistant layer, and does not need to change the mold with the different size of the bag during the manufacturing process. For the sake of simplicity, it is compatible with industrial use. However, it only needs a single-mold, which can be used as a new material of the same size. The invisible towel reduces the manufacturing cost of the bag body, and is obviously more effective and improved than the prior art. In addition, the present invention was not found in the publication before the application, and its novelty is also unquestionable. The invention is in accordance with the provisions of the patent law, and the method of arbitrarily presenting a patent for invention, praying for review and granting a patent, is truly sensible. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic view of the front side of the shockproof sealed bag with intermittent gas valve of the present invention when it is not folded. The first figure is a schematic cross-sectional view taken at the first drawing A-A. The third figure is a schematic cross-sectional view taken at the first figure B-B. The fourth figure is a partial enlarged view of the first figure. The fifth figure is a schematic cross-sectional view taken at the fourth figure C-C. The figure is a front view of the shock-proof sealed bag with the intermittent gas valve which is opened after the anti-seismic sealing bag which is unfolded by the first drawing is folded. 17 201100303 The seventh figure is a schematic view of the green section of the D-D section of the sixth figure. The eighth _ this batch has a shocking (four) shockproof (four) bag when the inflatable map. When the first domain (four) is green, the partial-main and leaky partial sections are schematic. The tenth figure is a partial cross-sectional view of the upper and lower gas valve membranes of the single-main and auxiliary gas cylinders pressed against the upper membrane when the hair bundle is inflated. 〇 Xuan-® is a three-dimensional schematic diagram of the anti-shock bribe bag with a clear air valve. The twelfth figure is a perspective view of the shockproof sealed bag with intermittent gas valve of the present invention, which is vacuumed to complete the seal before being inflated. The twelfth figure is a perspective view of the shock-proof sealed bag with the intermittent gas valve of the present invention after the inflation molding is completed. [Main component symbol description] (1) Shockproof sealed bag with intermittent valve (2) Air inlet (10) Air column group (11) Main gas column (12) Auxiliary gas column (14) Intake port (21 Upper film (22) Lower film (25) Upper air valve film (26) Lower air valve film (30) Communication port 18 201100303 (31) Heat seal line in group (32) Heat seal line between groups (33) Heat-resistant layer (34) Blank layer (36) Gas column heat layer (37) Heat seal point (38) Air guide heat seal line (41) Upper bag heat seal line (42) Lower bag heat seal line (43) Intake Hot seal line (45) Air inlet (48) Air bag seal line (53) Left bag body heat seal line (54) Right bag body heat seal line (70) Opening (80) Item (100) Unfolded with discontinuity Air valve shockproof sealed bag (120) upper part (140) lower part (150) horizontal bisector
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