九、發明說明: 【發明所屬之技術領域】 本發明係有關一種收納袋’特別是一種可多孔排氣之收納袋。 【先前技術】 對於海島型氣候的地區’潮濕多變的氣候容易使物品受潮損壞,或是 發霉、變色、發生異味等’因此在收藏或包裝物品時,會使用三面封閉、 面呈開口之收納袋,在裝入物品後,徒手擠出收納袋内之空氣’再封閉 收納袋,藉以達到保存防潮之目的。 習用收納袋於一側設有排氣道,排氣道之一端為入氣口,另一端為排 氣口 ’當使用者徒手擠出收納袋内之空氣時,空氣由入氣口進入排氣道, 穿過排氣道再由排氣口排出,如中國發明申請號0丨144648X號專利「壓縮 谷納袋」、美國發明第6116781號專利「Storage bag with one-way air valve」、 美國發明第6357915號專利「Storage bag with one-way air valve」、美國發明 第 6729473 號專利「Air-evacuable bag with double-layered valve film and method for manufacturing same」,惟此種方式相當費時費力,不僅當入氣口 受物品阻塞時無法排氣,且排氣效果不佳,氣體容易滯留於排氣道的側邊 區域而無法排出,此外,排氣口必須夠大才能排出空氣,但會造成氣體容 易循著排氣道逆流回到收納袋内’再者,共用的排氣道無法阻止空氣回流, 因此閉氣不足’無法提供排氣順暢、排氣後止氣時久的收納效果。 由此可知’如何改收納袋的結構,以讓使用者可輕易地以徒手方式將 收納袋内之空氣擠出,並防止氣體逆流回到收納袋内’藉以提升收納袋之 保存效果’進而提供較長的保存時間,係為本案之發明人以及從事此相關 1337156 行業之技術領域者亟欲改善的課題。 【發明内容】 有鑑於此’本發明提出一種可多孔排氣之收納袋,包含:二外膜,上 下叠合’包含第一端與第二端;收納空間,經由熱封接著而形成於二外膜 - 之間;二内膜’位於第二端,二内膜介於二外膜之間’二内膜之間於預定 £ 位置處預先塗佈複數個耐熱封材料;複數個排氣口,經由熱封手段熱封橫 貫複數個耐熱材料而形成於二内膜之間;及複數個網狀熱封點,經由熱封 φ 接著而形成於二内膜之間。 本發明亦提出一種可多孔排氣之收納袋,包含:二外膜,上下疊合, 包含第一端與第二端;收納空間,經由熱封接著而形成於二外膜之間;二 内膜’位於第二端,二内膜介於二外膜之間;複數個排氣口,經由鋸齒狀 熱封模具熱封二内膜,形成於二内膜在鋸齒狀熱封模具之非鋸齒處;及複 數個網狀熱封點’經由熱封接著而形成於二内膜之間。 當二外膜之第一端封合而封閉收納空間,用手擠壓二外膜時,收納空 # 間内之氣體推開二外膜之第二端,帶動二内膜向外拉開,自動開啟複數個 各別專屬的排氣口,收納空間内之氣體經由複數個排氣口循各別獨立的排 氣引道流出,當收納空間内之氣體流出後,因氣壓減少生反向吸氣,又由 於各排氣口有獨立的排氣引道,當反向吸力發生會使排氣引道内二内膜向 4 排氣口互相形成閉氣使袋外空氣無法回流,並藉由網狀熱封點強化二内膜 、 在排氣後閉氣效果,只要收納空間内壓力持續低,此種現象持續,也就提 供了一種排氣後能保持很長閉氣效果的收納袋。 若排氣口孔徑小,排氣口數多,就有排氣口開合不全的困擾,為解決 6 1337156 此問題’本發明提出自動開合的開關裝置:在預絲排氣口位址的一片内 膜之内面絲塗制紐料,養合另—片⑽使耐紐料在二内膜之間, 並從外膜在耐麟料上端施予麟手段形成鋪部,及㈣熱㈣中段施 予熱封手段形成熱封線’由於二嶋之間塗佈有耐齡料,故熱封部使二 片内膜不接著’但内膜與外膜接著在―起,因此二内棋分別隨二外膜移動, 又經熱封線熱封耐熱材料中段的部位,内膜不接著而形成排氣口,但沒有 塗佈耐熱材料的内膜與外膜完全密接’因此收納空間内之氣體只能從排氣 口排出。 當收納空間内之氣體將二外膜膨脹、升高時,在第二端的内膜因熱封 部的作用會隨著二外膜升高,在其後方的排氣口自然被此動作強制拉口, 使多孔、口徑小的排氣口排氣順暢。 針對自動開合排氣口的開關裝置,本發明亦提供不用耐熱材料改用耐 熱墊片的方法: 即在預定的開關點及預定的排氣口處,針對其置於二外膜第二端的二 内膜之内面,預先置入耐熱塾>;,並使用上、下熱封方式的點熱封模具或 直線熱封模具及鋸齒狀熱封模具,來熱加工開關裝置及複數個排氣口。 由於二内膜内面置入耐熱墊片,以上、下熱封的方式熱封熱封部時, 二内膜被墊片隔開故不相接著。但二内膜與二外膜接著,於是外膜膨服時, 一内膜會隨各別的外膜膨服,此為自動打開排氣口的動作,又從外膜預定 排氣口的位置以鋸齒狀模具熱封,在非齒部形成排氣口之後,再從排氣口 的二端以垂直熱封線熱封形成專屬的排氣引道。 7 ^^/156 又為了強化開啟的功能,點狀之熱封部在此可以改為線狀之熱封部, 因上下獨立加熱施卫,中間有耐熱塾片阻隔,施工後二内膜不接著,但内 膜與外膜接著,同樣會形成自動開啟位其後方鑛齒模熱封的排氣口,即自 動開啟排氣口的功用。 本發月亦提出-種可多孔排氣之收納袋,包含:二外膜,上下叠合, 包含第-端與第二端;收納空間,經由熱封接著而形成於二外膜之間;二 内膜’位於第二端’二内膜介於二外膜之複數個排氣口,經由熱封接 著而形成於—内膜之間;抽氣引道,經由熱封接著而形成於二内膜之間, 複數個排氣口連通抽氣引道與㈣空間;及複數個敏熱封點,位於抽氣 引道内,經由熱封接著而形成於二内膜之間。 當從第-端封閉收納空間時,以抽氣工具置於抽氣引道,抽取收納空 間内之氣體,或以手排擠壓收納空間,使收納空_之氣體經由複數個排 氣口流至減引道’當收納空_氣壓低會從減引道吸取收納袋外之氣 體’從而使收納空間⑽二内顧吸力而更密合,並藉由網狀熱封點強化 二内膜在排氣後密合效果,達到排氣後止氣的收納效果。 本發明更可包含:懸掛件,其中,懸掛件分為上、中、下段,其中上、 下段為材質厚並熱封成環狀形麟折部,中段為材連接洲來連接 上、下段之彎折部,此連接部被二外膜包覆,上段之彎折部露於袋外,可 懸掛鈎掛在衣櫃’下段之彎折部置於收納空間内,可衣架使衣服垂直 掛放,可以手排氣,從小的排氣口排氣,也可以使用工具從抽氣引道抽氣。 有關本發明的較佳實施例及其功效,茲配合圖式說明如後。 【實施方式】 請參照第1圖、第2圖、第3A圖、第3B圖及第3C圖為本發明之第 一實施例,第1圖為置入物品之示意圖,第2圖為平面圖,第3A圖為第2 圖在AA,斷面的剖面圖(一)’第3B圖為第2圖在AA’斷面的剖面圖(二), 第3C圖為第2圖在AA’斷面的剖面圖(三)。 可多孔排氣之收納袋1包含:二片外膜2a與2b、二片内膜la與ib、 收納空間11、複數個排氣口 2d、複數個網狀熱封點5。 二片外膜2a與2b上下疊合’包含相對應之第一端21與第二端22。 二片内膜la與lb介於二片外膜2a與2b之間,其長度短於外膜2a或 2b之長度,且二片内膜ia與lb之一端對齊於二片外膜仏與北之第二端 22,此外,二片内膜“與lb之間可預先塗佈耐熱材料Uc。 者熱封線Ha熱封接著二片外膜2a與此、二片内膜ia與化時,熱 封線Ua橫跨耐熱材料llc中段,因内膜内面預先塗佈複數個耐熱持料 iic ’經熱封線12a熱封後二片内膜^與lb在有耐熱材料llc之部分不相 接著,形成複數個排氣口 2d ’無耐熱材料llc之部位外膜2a與北、-片 内膜la與lb因熱封而緊密接著,同時對財熱材料…上端施予熱封部&, 也因熱材料llc故二片内膜1&與lb内面不接著,外膜以與内膜外 膜2b與_ lb各自熱封接著,即形成開關裝置 ·、,、訂°P2c可為複 數”,、封點,俾以接著外膜2a與内膜la、外膜2b與内膜lb。 在此,前述之耐熱材料llc僅為舉例說明,非以此為限,亦可於 内膜la與lb之間放置耐熱墊片使其在熱封時不相互接著或是_片一片 2a與2b、二片内膜la與lb可經由鑛齒狀熱封模具間斷性熱封接著, 齒狀熱封模具之缺口處不接著而形成複數個排氣口 2d。 再者,二片外膜2a與2b、二片内膜ia與lb經由熱封接著而於二片内 琪1a與lb之間形成複數個網狀熱封點5,網狀熱封點$與峨熱封點$ 之間_成可流通氣體的通道50,其中,網狀熱封點5可為圓形、方形、 角形、多邊形、橢圓形、細長條形、星形、十字形等之其令一者,單非 以此為限。當氣體自排氣口 2心頃著網狀熱封點5之間的通道5〇排出收納 空間11後,收納空間U峨壓低會造成反向吸力,會將二片内膜h與比 往排氣口 2d吸,經由網狀熱封點5的結構設計,使二片内膜&與化會吸 才在起而雄合形成止氣’提供了排氣後空氣無法回流的閉鎖效果。 沿著熱封線lla、llb熱封接著二片外膜2a與2b,並於二片外膜2a與 2b之第一端21設置閉合元件25,並於熱封線iia、仙、仏與閉合元件 25之間形成收納空間U,藉以放置物品9於收納空間u内而收藏物品9。 則述說明之閉合元件25可為鱗或壓條,端視用絲定,但相此為限, 相關技藝人士可依實際需求以其他元件替代拉鍊或壓條。 請參照第4圖為本發明第二實施例之平面圖。 二片内膜la與lb經由熱封接著而於二片内膜la與比之間形成複數 個排氣引道2e,每-排氣引道2e之末端均設有出口部2f (依實際結構不 同,排氣引道2e之末端可設有一個或多個出口部2f),其中,每一排氣口 2d均連接有專J的排氣引道2e,且自二片外膜仏與此熱封垂直排氣口 % 的…封線其可平行《置也可以—端窄於另一端,使氣體容易由排氣口 % 沿著排氣引道以流出’而不易反向逆流。當氣體自排氣口 %順著排氣引 道仏排出收納空間„後,收納空間η内氣壓低會造成反向吸力,在排氣 引道2e内的吸力會將二片内膜化與化⑽氣口 %吸同時經由網狀熱 封點5的結構設計’二片内膜la與】b自然會密合形成止氣,提供了排氣 後空氣無法回流的閉鎖效果。 S使用者開啟閉合元件25,並將物品9置人收納空間u内後,即可 關閉閉5元件25而测收納空間n,為使物品9具有更好的收藏效果, 並縮小物品9收藏所需佔狀體積,可由第—端21朝向第二端22讎二 片外膜2a#2b,使收納空間11内之氣體推開二片外膜2a與2b之第二端 22,由於外膜2a與内膜la、外膜2b與内膜lb經過熱封手段而接著,而内 膜la、lb内面因在預定點塗佈耐熱材料llc,故熱封不接著因此,排氣 時二片外膜2a與2b因氣膨脹升高,經複數熱封部2c帶動二片内膜la與 lb同步升高,進而自動開啟複數個排氣口 2d,使收納空間丨丨内之氣體從 複數個排氣口 2d順著各自獨立的排氣引道2e流出袋外,達到快速容易排 氣之目的。又由於收納空間Π排氣後壓力較低,袋内壓力差形成反向吸 力,吸取袋外空氣,由於排氣引道2e是二片外膜2a與2b含二片内膜la 與lb,此二片内膜ia與lb如同管子内的二活瓣,吸力會使此二片内膜la 與ib内縮,同時經由網狀熱封點5的結構設計強化二片内膜“與lb會吸 附在一起的效果,藉此使二片内膜la與lb互相貼合密接而斷絕外部空氣 進入形成止氣,使空氣無法回流,達到閉氣持久的效果。 前述說明以排氣引道2e的内膜ia貼附於外膜2a、内膜lb貼附於外膜 2b為例’但非以此為限’依據其結構之差異’二片内膜ia與ib亦可侧貼 11 1337156 於外骐2a或2b。 請參照第5圖為本發明第三實施例之平面圖。 在本實施例中,更包含:複數止擋部6,分別對應於複數排氣口如設 置’為二片外膜2a與2b、二片内膜la與lb經由熱封接著而於二片内膜 la與lb之間形成者’其中,止擋部6概^字體型,且其u字體型之開 口朝向排氣口 2d ’當收納空間n内之物品9為細粉狀時,部份細粉狀之 物9隨著氣體流出,即可以止獅6擋住物品9祕止其排出。 «月參照第6圖、第7圖、第8A圖、第8B囷及第8C圖為本發明之第 四實施例,第6圖為置入物品之示意圖,第7圖為平面圖,第8A圖為第7 圖在BB,斷面的剖面圖㈠,第8B圖為第7圖在bb,斷面的剖面圖㈡, 第8C圖為第7圖在bb’斷面的剖面圖(三)。 时二月内膜la與lb置於二片外膜2a與2b的第二端22之間,並在二 片内膜㈣化之間預先塗佈耐熱材料山,其中至少一耐熱材料山比其IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a storage bag', particularly a storage bag that can be porous. [Prior Art] For the island-type climate, the 'moist and changing climate is easy to damage the items, or moldy, discolored, odorous, etc.' Therefore, when collecting or packaging items, it will be closed with three sides and open. The bag, after loading the item, extrudes the air in the storage bag by hand, and then closes the storage bag, so as to save moisture. The conventional storage bag is provided with an exhaust passage on one side, one end of the exhaust passage is an air inlet, and the other end is an exhaust port. When the user squeezes out the air in the storage bag by hand, the air enters the exhaust passage from the air inlet. It is discharged through the exhaust passage and then discharged from the exhaust port. For example, the Chinese Patent Application No. 0 144648X "Compressed Valley Bag", the US Patent No. 6116681 "Storage Bag with one-way air valve", and the US Invention No. 6357915 Patent "Storage bag with one-way air valve" and "Air-evacuable bag with double-layered valve film and method for manufacturing same", but this method is quite time consuming and laborious, not only when the air inlet is affected When the article is blocked, it cannot be exhausted, and the exhaust effect is not good. The gas is easily retained in the side area of the exhaust passage and cannot be discharged. In addition, the exhaust port must be large enough to discharge the air, but the gas is easily exhausted. The road flows back into the storage bag. In addition, the shared exhaust passage cannot prevent the air from flowing back. Therefore, the air is not closed enough to provide a smooth discharge and a long time after exhausting. fruit. Therefore, it is known how to change the structure of the storage bag so that the user can easily squeeze out the air in the storage bag by hand and prevent the gas from flowing back into the storage bag, thereby improving the preservation effect of the storage bag. The long shelf life is the subject of the inventor of the case and the technical field of the relevant 1337156 industry. SUMMARY OF THE INVENTION In view of the above, the present invention provides a porous venting storage bag comprising: a second outer film, the upper and lower overlapping 'including a first end and a second end; and a storage space formed by heat sealing and then forming The outer membrane - between; the inner membrane is located at the second end, and the inner membrane is interposed between the two outer membranes. A plurality of heat-resistant sealing materials are pre-coated at a predetermined position between the two inner membranes; a plurality of exhaust ports And a plurality of heat-resistant materials are heat-sealed by a heat sealing means to be formed between the two inner films; and a plurality of network heat seal points are formed between the inner and inner films via heat sealing φ. The present invention also provides a porous venting storage bag comprising: two outer films stacked on top of each other, including a first end and a second end; and a storage space formed between the outer and outer films via heat sealing; The membrane is located at the second end, and the two inner membranes are interposed between the two outer membranes; the plurality of exhaust ports are heat-sealed by the serrated heat sealing mold to form the non-serrated teeth of the two inner membranes in the serrated heat-sealing mold And a plurality of reticulated heat seal points are formed between the inner and inner membranes via heat sealing. When the first end of the second outer membrane is sealed to close the storage space, and the outer membrane is squeezed by hand, the gas in the space of the empty space pushes the second end of the outer membrane, and the inner membrane is pulled outward. Automatically open a plurality of separate exhaust ports, and the gas in the storage space flows through the separate exhaust channels through a plurality of exhaust ports. When the gas in the storage space flows out, the gas is reduced by the air pressure. Gas, and because each exhaust port has an independent exhaust guide, when the reverse suction occurs, the inner and inner membranes of the exhaust passage are closed to each other to form a closed air, so that the air outside the bag cannot be recirculated, and the mesh is retracted. The heat sealing point strengthens the inner membrane and closes the air after exhausting. As long as the pressure in the storage space continues to be low, this phenomenon continues, and a storage bag capable of maintaining a long closing effect after exhausting is provided. If the exhaust port has a small aperture and a large number of exhaust ports, there is a problem that the exhaust port is incompletely closed. To solve the problem of 6 1337156, the present invention proposes an automatic opening and closing switch device: at the address of the pre-wire exhaust port. The inner surface of a piece of inner membrane is coated with a new material, and the other piece (10) is used to make the resistant material between the two inner membranes, and the outer layer is applied to the upper end of the resistant material to form a paving portion, and (4) the middle part of the heat (four) is heat-sealed. The method forms a heat seal line 'Because the ageing material is coated between the two crucibles, the heat seal portion makes the two inner membranes not follow' but the inner membrane and the outer membrane are followed up, so the two inner chesss respectively follow the outer membrane Moving, and heat sealing the heat-treated material in the middle part of the heat-resistant material, the inner film does not form an exhaust port, but the inner film which is not coated with the heat-resistant material is completely in close contact with the outer film, so the gas in the storage space can only be discharged from the row. The port is discharged. When the gas in the storage space expands and raises the outer membrane, the inner membrane at the second end is lifted by the outer membrane due to the action of the heat seal portion, and the exhaust port at the rear thereof is naturally forced by the action. The mouth makes the venting of the porous and small vents smooth. The present invention also provides a method for switching to a heat-resistant gasket without using a heat-resistant material for the switch device for automatically opening and closing the exhaust port: that is, at a predetermined switch point and a predetermined exhaust port, for the second end of the second outer film. The inner surface of the inner membrane is pre-filled with heat-resistant 塾>; and the hot-sealing mold or the linear heat-sealing mold and the serrated heat-sealing mold are used to heat-process the switching device and the plurality of exhaust gases. mouth. Since the heat-insulating gasket is placed on the inner surface of the inner membrane, when the heat-sealed portion is heat-sealed by the above and the lower heat sealing, the inner membrane is separated by the gasket, so that it does not follow. However, the second intima and the second outer membrane are followed, so that when the outer membrane is swollen, an inner membrane will be swollen with the respective outer membrane, which is an action of automatically opening the exhaust port, and the position of the exhaust port is predetermined from the outer membrane. After being sealed by a serrated mold, after the non-toothed portion is formed with an exhaust port, the exclusive exhaust passage is formed by heat sealing from the two ends of the exhaust port by a vertical heat seal line. 7 ^^/156 In order to strengthen the function of opening, the hot seal of the point can be changed into a linear heat seal. The upper and lower sides are heated independently and protected by a heat-resistant cymbal block. After the construction, the two inner membranes are not Then, the inner membrane and the outer membrane are followed by an exhaust port that automatically opens the heat seal of the rear tooth mold, that is, the function of automatically opening the exhaust port. The present invention also proposes a storage bag for porous exhaust gas, comprising: a second outer film stacked on top of each other, comprising a first end and a second end; and a storage space formed between the outer film via heat sealing; The second inner membrane is located at the second end of the second inner membrane between the plurality of outer membranes of the outer membrane, and is formed between the inner membrane via heat sealing; the suction tunnel is formed by heat sealing. Between the intima, a plurality of exhaust ports are connected to the pumping channel and (4) space; and a plurality of heat sensitive sealing points are located in the pumping channel, and are formed between the inner and inner films via heat sealing. When the storage space is closed from the first end, the air suction tool is placed on the air suction guide to extract the gas in the storage space, or the storage space is squeezed by the hand row, so that the gas containing the air is flowed through the plurality of exhaust ports. To reduce the approach road 'When the storage space _ low air pressure will draw the gas outside the storage bag from the reduction channel', so that the storage space (10) is more closely combined with the suction force, and the inner end membrane is strengthened by the mesh heat sealing point. After the exhaust, the sealing effect is achieved, and the storage effect of the air after the exhaust is achieved. The invention may further comprise: a suspension member, wherein the suspension member is divided into upper, middle and lower sections, wherein the upper and lower sections are thick and heat-sealed into a ring-shaped rib fold, and the middle section is connected to the continent to connect the upper and lower sections. The bent portion is covered by the outer film, and the bent portion of the upper portion is exposed outside the bag, and can be hung in the bent portion of the lower section of the closet to be placed in the storage space, and the hanger can be used to vertically hang the clothes. It can be vented by hand, vented from a small exhaust port, or pumped from the suction channel using a tool. Preferred embodiments of the present invention and their effects are described below in conjunction with the drawings. [Embodiment] Please refer to FIG. 1 , FIG. 2 , FIG. 3A , FIG. 3B , and FIG. 3C for a first embodiment of the present invention. FIG. 1 is a schematic view showing an article to be placed, and FIG. 2 is a plan view. Figure 3A is a second view in AA, a cross-sectional view of the cross section (a) '3B is a cross-sectional view of the second figure in the AA' section (2), and the 3C is a 2D view in the AA' section Sectional view (3). The porous evacuation storage bag 1 includes two outer films 2a and 2b, two inner films la and ib, a storage space 11, a plurality of exhaust ports 2d, and a plurality of mesh heat seal points 5. The two outer films 2a and 2b are superposed one on top of the second end 22 and the second end 22. Two inner membranes la and lb are between the two outer membranes 2a and 2b, the length of which is shorter than the length of the outer membrane 2a or 2b, and one of the two inner membranes ia and lb is aligned with the two outer membranes and the north The second end 22, in addition, the heat-resistant material Uc may be pre-coated between the two inner films "and lb." The heat-sealing wire Ha is heat-sealed, and then the two outer film 2a and the two inner film ia are combined. The heat seal line Ua spans the middle portion of the heat resistant material llc, and the inner film is pre-coated with a plurality of heat-resistant materials iic' heat-sealed by the heat-sealing wire 12a, and the two inner films and lb are not adjacent to the heat-resistant material llc. , forming a plurality of exhaust ports 2d 'the outer film 2a of the heat-resistant material llc and the north, the inner film la and lb are closely sealed by heat sealing, and the heat sealing portion & Because of the thermal material llc, the two inner membranes 1& and the inner surface of the lb are not attached, and the outer membrane is heat-sealed with the inner membrane outer membranes 2b and lb, respectively, that is, the switching device is formed, and the order P2c can be plural. And sealing, the sputum is followed by the outer membrane 2a and the inner membrane la, the outer membrane 2b and the inner membrane lb. Here, the foregoing heat-resistant material 11c is merely an example, and not limited thereto, a heat-resistant gasket may be placed between the inner films la and 1b so as not to be mutually adhered when heat-sealed or _ piece 2a and 2b The two inner membranes la and lb may be intermittently heat-sealed via a mineral-toothed heat-sealing die, and the plurality of exhaust ports 2d are formed without the notch of the tooth-shaped heat-sealing die. Furthermore, the two outer films 2a and 2b, the two inner films ia and lb are formed by heat sealing, and a plurality of mesh heat sealing points 5 are formed between the two inner films 1a and 1b, and the mesh heat sealing point is Between the heat seal points _ into a flowable gas passage 50, wherein the mesh heat seal point 5 can be circular, square, angular, polygonal, elliptical, slender, star, cross, etc. For one, the limit is not limited to this. When the gas exits the storage space 11 from the channel 5 between the core of the air heat sealing point 5 from the air outlet 2, the lowering of the storage space U峨 causes a reverse suction, and the two inner films h and the adjacent row The air port 2d is sucked, and the structural design of the mesh heat sealing point 5 is such that the two inner films & the absorbing and absorbing the air and forming the air stop to provide a blocking effect that the air cannot be recirculated after the exhaust. The two outer films 2a and 2b are heat-sealed along the heat seal lines 11a, 11b, and the closing member 25 is disposed at the first ends 21 of the two outer films 2a and 2b, and closed on the heat seal lines iia, sin, sui and A storage space U is formed between the elements 25, whereby the articles 9 are placed in the storage space u to collect the articles 9. The closing element 25 is described as a scale or a bead, and the end is defined by a wire, but it is limited thereto, and the related art can replace the zipper or the bead with other components according to actual needs. 4 is a plan view showing a second embodiment of the present invention. The two inner membranes la and lb are formed by heat sealing and then a plurality of exhaust gas channels 2e are formed between the two inner membranes la and the ratio, and the outlet portion 2f is provided at the end of each of the exhaust gas passages 2e (according to the actual structure) Differently, the end of the exhaust guide 2e may be provided with one or more outlet portions 2f), wherein each exhaust port 2d is connected with a special J exhaust passage 2e, and from the two outer membranes Heat sealing the vertical exhaust port% of the ... sealing line can be parallel "can also be - the end is narrower than the other end, so that the gas is easily discharged from the exhaust port % along the exhaust channel" without easy reverse flow. When the gas is exhausted from the exhaust port to the storage space „, the low air pressure in the storage space η causes a reverse suction force, and the suction force in the exhaust gas channel 2e converts the two inner membranes (10). At the same time, the port is designed to pass through the structural design of the mesh heat seal point 5, 'the two inner membranes la and b' will naturally form a tight air, providing a blocking effect that the air cannot be recirculated after the exhaust. S user opens the closing element 25 After the article 9 is placed in the storage space u, the closed 5 element 25 can be closed and the storage space n can be measured. In order to make the article 9 have a better collection effect, and to reduce the occupation volume required for the collection of the article 9, the The end 21 faces the second end 22 and the two outer membranes 2a#2b, so that the gas in the storage space 11 pushes away the second ends 22 of the two outer membranes 2a and 2b, due to the outer membrane 2a and the inner membrane la, the outer membrane 2b and the inner film lb are heat-sealed and then the inner surface of the inner film la, lb is coated with the heat-resistant material llc at a predetermined point, so the heat-sealing is not continued. Therefore, the two outer films 2a and 2b are expanded due to gas expansion during the exhaust. High, the plurality of heat seals 2c drive the two inner membranes la and lb to rise synchronously, thereby automatically opening a plurality of exhaust ports 2d, the gas in the storage space is discharged from the plurality of exhaust ports 2d along the independent exhaust channels 2e out of the bag, so as to achieve rapid and easy venting, and the pressure is lower after the storage space is exhausted. The pressure difference in the bag forms a reverse suction force, and the air outside the bag is sucked. Since the exhaust channel 2e is two outer films 2a and 2b, two inner films la and lb are included, and the two inner films ia and lb are like tubes. The second flap, the suction force will cause the two inner membranes la and ib to retract, and at the same time, through the structural design of the mesh heat seal point 5, the two inner membranes are strengthened to "adsorb the effect together with the lb, thereby making the two inner sheets The membranes la and lb are in close contact with each other to cut off the outside air to form a stop gas, so that the air cannot be recirculated, and the effect of closing the air is achieved. The foregoing description is based on the fact that the inner membrane ia of the exhaust gas channel 2e is attached to the outer membrane 2a and the inner membrane lb is attached to the outer membrane 2b as an example, but not limited thereto, depending on the difference in structure, the two inner membranes ia and Ib can also be attached to 11 1337156 on the outside 2a or 2b. Please refer to Fig. 5 for a plan view of a third embodiment of the present invention. In this embodiment, the method further includes: a plurality of stoppers 6 respectively corresponding to the plurality of exhaust ports, such as two outer membranes 2a and 2b, two inner membranes la and lb, and two heat seals Between the film la and lb, the stopper portion 6 is of a font type, and the opening of the u font type faces the exhaust port 2d. When the article 9 in the storage space n is a fine powder, the portion is fine. The powdery substance 9 can stop the lion 6 from blocking the discharge of the article as the gas flows out. «Monthly reference to Fig. 6, Fig. 7, Fig. 8A, Fig. 8B and Fig. 8C are diagrams of a fourth embodiment of the present invention, Fig. 6 is a schematic view showing an article to be placed, and Fig. 7 is a plan view, Fig. 8A For the seventh diagram at BB, the cross-sectional view of the cross-section (1), the 8B is the 7th view at bb, the cross-sectional view of the cross-section (2), and the 8C is the cross-sectional view of the 7th view at the bb' section (3). In February, the intima la and lb are placed between the second ends 22 of the two outer films 2a and 2b, and a heat-resistant material mountain is pre-coated between the two inner films (four), wherein at least one heat-resistant material mountain is
他耐熱材料nc面積大’之後從二片外臈2a與2b以熱封線仏橫跨耐熱 ㈣nc t段,並在二片外膜2a與2b靠近耐熱材㈣上端處施以熱封 部2C,使二片内膜la與lb内面在耐熱材料山處互不接著,但外膜μ 内膜…_ 2b _膜lb經賴封分_,賴雜 料 nc處熱封不接著形賴健魏口 3d, ‘,,摘 位為大的_3卩 ㈣面積大的部 1卜膜2a與2b的第二端22以熱封線12a、⑶熱封接著,並將 ,、一側熱封_ ’只綱D,此部錢:片外膜&與冰内夹二 12 1337156 片内膜la與lb,形成一端具有出口部3f的抽氣弓丨道知,並於抽氣引道% 内接著二片外膜2a與2b、二片内膜la與lb形成複數個網狀熱封點5。當 物體置入收納空間11並以閉合元件25封閉第一端21,收納空間u内氣體 受壓迫往第二端22流,二片外膜2a與2b受壓膨脹會帶動熱封部2c拉開 : 二片内膜la與lb,使排氣口 3d開啟’氣體流入抽氣引道3e,此時將抽氣 : 工具8由出口部3f置入抽氣引道3e内,即可以抽氣工具8抽取抽氣引道 3e内氣體,當收納空間11之氣壓低時,引起產生自收納空間^外回吸氣 體的力道’會使抽氣引道3e内的·一片内膜la與lb密接,同時經由網狀熱 封點5的結構設計強化二片内膜la與lb會吸附在一起的效果,因而使收 納空間11外氣體無法回流’達到排氣抽氣後止氣久的效果。藉此當收納空 間11面積大時,可以配合電動抽氣來改善手壓排氣緩慢或物體不能壓的缺 前述說明以抽氣引道3e的内膜la貼附於外膜2a、内膜lb貼附於外膜 2b為例’但非以此為限,依據其結構之差異,二片内膜13與比亦可側貼 於外膜2a或2b。再者,在本實施例中,亦可設置如前所述之止擋部6。 請參照第9圖為本發明第五實施例之平面圖。 在本實施例中,第二端22區分為兩個區域,其中一個區域設置如前述 之排氣口 2d與排氣引道2e的結構,另一個區域設置如前述之排氣口 3d與 抽氣引道3e的結構,也就是一個收納袋1的排氣區並存二種排氣結構,可 以使用抽氣引道3e抽氣,亦可以用手壓捲收納空間11,讓氣體由複數個排 氣口 2d排出。 13 1337156 清參照第10圖、第11A圖及第11B圖為本發明之第六實施例第ι〇 圖為平面圖,siia圖為第10圖在cc,斷面的剖面圖(miB圖為 第圖在cc,斷面的剖面圖(二)。 為避免使用者以減工具8抽氣時,二片外膜23與2b之第二端22因 抽氣而貼附在4,造成位於第-端21之氣體無法抽出,可於二片外膜 以與2b之内側面設置複數突起狀之凸部4。#二片外膜^與%之第二端 22因抽氣而貼附在-起時’藉由二片外膜μ#%之凸部4形成間隙⑴, 使氣體可經由_: m流至排氣σ Μ,再由職σ 3d流出純引道知而 達到排氣之目的。 請參照第12 @與第13圖為本發明之第七實施例,第12圖為示意圖 (―),第13圖為示意圖(二)。 在本實施例中,二月外膜2a與2b、二片内膜la與lb以鑛齒狀熱封模 具間斷性熱封接著’其中’有齒模處為密閉區,無齒模處為排氣口 %,其 具體的實施步驟如下: 步驟1 :置入对熱塾片於二片内膜la與lb之間的預定區,熱封模具 上、下同時熱封’开’成線狀之熱封部2c,此線可粗寬也可細長,熱封後使 外膜2a接著内膜la ’二片内膜1&與比不接著,外臈北接著内膜化,形 成二片内膜la與lb可隨二片外膜2a與2b膨脹而自動開啟排氣口 %的效 果。 步称2 ·’以鑛齒狀模具從二片外膜2a與2b熱封在預定排氣口區塊, 即在熱封部2C之下方,形成有齒模的地方二片外膜2a與处、二片内膜la 1337156 與lb密接,無齒模的地方為排氣口 2d,當二片外膜2a與沘膨脹時熱封 部2c的會拉起二片内膜la與lb,使其後的排氣口加自動開啟收納空間 11内之氣體可從排氣口 2d流出。 步驟3 :就排氣口 2d之二邊以從二片外膜2a與2b直線熱封形成上寬 下窄或平行的排氣引道2e,排氣引道2e接出口部2f,並於排氣引道以内 熱封二片外膜2a與2b、二片内膜ia與lb形成複數個網狀熱封點5,此排 氣引道2e為一片外膜2a與2b内包二片内膜la與lb,任務為袋内氣體當 2c隨二片外膜2a與2b開啟時,氣體從排氣口 2d經排氣引道2e流出收納 空間11。由於收納空間11内氣壓小,形成自收納空間u外吸氣之反作用 力,在排氣引道2e引道内會將二片内膜ia與比朝排氣口 2d方向吸入, 此二片内膜la與lb會互相貼合形成阻塞,防止外部氣體進入,因而達到 排氣後閉氣久的效果。 此外,可將設置網狀熱封點5處區分為複數區段15 (如第13圖),區 段15中可對應一個排氣口 2d,亦可對應多個排氣口 2d。 請參照第14A圖、第14B圖、第15圖、第16圖、第17圖及第18圖 為本發明之第八實施例,第14A圖為懸掛件的示意圖(一),第圖為 懸掛件的示意圖(二),第15圖至第18圖分別為平面圖(一)、(二)、(三)、 (四)。 為了解決大衣、西裝類手冊時必須以掛衣櫃的方式儲存,因此本發明 更可包含懸掛件7,首先其掛鈎是由塑膠片重疊熱封形成強勒的片膜,將 此片膜製作成上、下段為厚實的彎折部71,中間為片狀較薄的連接部72, 15 丄 ^7156 用以連接連接二個f折部71,並以麟點7e接著@定而概呈8字體型, 目的為·上段㈣折部71可與環勾掛到城,下段的彎折部”置於收納 工間11内’可勾掛衣架,如此可以解決排氣袋平放,或必須加裝勾吊裝置 之困擾。 懸掛件7位於二片外膜2a與2b的第二端22中間處,並以熱封線12a 熱封接著連接部72及二片外膜2a與2b (如第17圖、第i8 m 端21與第二端22之其中_者_邊,並以熱封線12e 及二__ (咖㈣_,議她則為4多= 疋件25 ’如拉鏈帶等。如不願多次開合,則可以在置入物件後直接熱封側 邊使收納空間11成為_空間,再捲壓排氣。 排氣及抽氣部,係以二_ la與lb置於二片外膜&與⑪之一端, 月)述《兒月可以在_片内琪1&與lb内面預定區塊塗布耐熱材料He,即 对熱節,再從二片外膜2a與2b加工,如果孩計的排氣口嫩师時,則 直接將熱封線12a放置於耐熱材料山頂部,可以不必設置熱封部&。因 其口從大’直接開啟’若口徑小,則應設置二片内膜_化伴隨二片外 膜2a與2b張合的開啟機制’其方式為熱封以刺紐料I。中段熱封。 由於二片内膜la與lb内面有耐熱材料ue,故熱封時不接著,形成排氣口 2d ’又在对熱材料llc上端以熱封複數個熱封部&,使二片内膜&與化 内面不對接,但外面與各別外膜2a、2b對接,如此當二片外棋&與处因 氣壓膨脹而升高會將相接的二片_ la與lb也提高,自然將其内的排氣 口 2d強迫開口,氣體就會從排氣σ 2d排出,又_先在排氣口 %以熱封 ^37156 線熱封形成排氣σ 2d專屬的排氣引道2e,排氣引道2e由二片外膜2a與 2b内含二片内膜ia與lb構成,並於熱封二片外膜2a與%、二片内膜^ 與lb形成複數個網狀熱封點5,當收納空間u内氣體排出後,氣壓低, 會發生反向吸力,對排氣引道2e内二片内膜la與lb朝排氣口况吸入, 二片内膜la與lb在排氣引道2e θ如活晒接,造成阻塞,同時經由網狀 熱封點5的結構設計強化二#觸la與lfc)會酬在—起的效果,外部氣 體無法進入,形成自然的閉氣》 排氣的方法有以手卷物體壓迫收納空間u内氣體的方式,也可以工具 抽氣的方式,若以抽氣工具8抽氣,則先在二片内膜1&與比與二片外膜 2a與2b的排氣區,預先熱封抽氣引道3e,其特徵為上、下、左予以熱封。 只留出口部3f’可以供抽氣工具8插入,其頂側與一大的排氣口 %相接, 抽氣引道3e可與複數個排氣引道2e並存。由於抽氣時,機械的抽力強, 會使二片外膜2a與2b因吸力粘結,影響收納空間丨丨體内其他地區的空氣 排出,因此在二片外膜23與汾接近大的排氣口 3d區預先製作複數突起狀 之凸。p 4使及氣時,抽乳引道3e的二片外膜2a與2b即使對接仍有空隙, 可以傳輸收納空間11内氣氣以達到抽氣減輕體積之目標。 前述說明之懸掛件7的結構僅用以舉例說明而已,非以此為限,熟習 此技藝者亦可依實際需求改變其結構。 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 疋本發明,任何熟習此技藝者,在不脱離本發明之精神所作些許之更動與 潤飾,6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 17 1337156 請專利範圍所界定者為準。 1337156 【圖式簡單說明】 第1圖為本發明第一實施例於置入物品之示意圖。 第2圖為本發明第一實施例之平面圖。 第3A圖為第2圖在AA’斷面的剖面圖(一)。 : 第3B圖為第2圖在AA’斷面的剖面圖(二)。 ' 第3C圖為第2圖在AA’斷面的剖面圖(三)。 第4圖為本發明第二實施例之平面圖。 • 第5圖為本發明第三實施例之平面圖。 第6圖為本發明第四實施例於置入物品之示意圖。 第7圖為本發明第四實施例之平面圖。 第8A圖為第7圖在BB’斷面的剖面圖(一)。 第8B圖為第7圖在BB’斷面的剖面圖(二)。 第8C圖為第7圖在BB’斷面的剖面圖(三)。 第9圖為本發明第五實施例之平面圖。 • 第10圖為本發明第六實施例之平面圖。 第11A圖為第10圖在CC’斷面的剖面圖(一)。 第11B圖為第10圖在CC’斷面的剖面圖(二)。 第12圖為本發明第七實施例之示意圖(一)。 ' 第13圖為本發明第七實施例之示意圖(二)。 , 第14A圖為第八實施例之懸掛件的示意圖(一)。 第14B圖為第八實施例之懸掛件的示意圖(二)。 19 1337156 第15圖為本發明第八實施例之平面圖(一)。 第16圖為本發明第八實施例之平面圖(二)。 第17圖為本發明第八實施例之平面圖(三)。 第18圖為本發明第八實施例之平面圖(四)。 【主要元件符號說明】 1..............收納袋 la/lb............内膜 2a/2b............外膜 2c · · · · 2d/3b/3d 2e · · · · 3e · · 2f/3f 4 · · 熱封部 排氣口 排氣引道 抽氣引道 出口部 凸部 5..............網狀熱封點 50..............通道 11 收納空間 111.............間隙 11c.............耐熱材料 lla/llb/12a/12b/12c ...熱封線 15 區段 1337156 21 ..............第一端 22 ..............第二端 25..............閉合元件 6 ..............止擋部 7 ..............懸掛件 71..............彎折部 7c..............熱封點 8 ..............抽氣工具 9 ..............物品 21 4The heat-resistant material nc has a large area, and then heat-sealed the wire from the two outer ridges 2a and 2b to the heat-resistant (four) nc t segment, and applies a heat-sealing portion 2C at the upper ends of the two outer films 2a and 2b near the heat-resistant material (four), The inner surfaces of the two inner membranes la and lb are not adjacent to each other in the heat-resistant material mountain, but the outer membrane μ inner membrane..._ 2b _ membrane lb is sealed by _, the heat sealing of the nc material is not followed by the shape of Wei Wei 3d, ',, the upper portion of the large _3 卩 (four) large-area portion 1 of the second film 22 of the film 2a and 2b is heat-sealed with heat-sealing lines 12a, (3), and, one side, heat-sealed _ ' Only the outline D, this part of the money: the outer film & and the ice inside the two 12 1337156 inner film la and lb, forming a suction bow at one end with the outlet portion 3f, and then in the pumping channel% The two outer films 2a and 2b and the two inner films la and lb form a plurality of reticulated heat seal points 5. When the object is placed in the accommodating space 11 and the first end 21 is closed by the closing member 25, the gas in the accommodating space u is pressed to the second end 22, and the pressure expansion of the two outer films 2a and 2b causes the heat sealing portion 2c to be opened. : Two inner membranes la and lb, so that the exhaust port 3d is opened, 'the gas flows into the suction passage 3e, and at this time, the air is pumped: the tool 8 is placed into the suction passage 3e from the outlet portion 3f, that is, the suction tool can be used. 8, the gas in the suction passage 3e is extracted, and when the air pressure in the storage space 11 is low, the force generated by the externally sucking gas from the storage space is caused to make the inner membrane la and the lb in the suction passage 3e adhere to each other. At the same time, through the structural design of the mesh heat sealing point 5, the effect that the two inner membranes la and lb are adsorbed together is enhanced, so that the gas outside the storage space 11 cannot be recirculated to achieve the effect of stopping the exhaust gas after exhausting. Therefore, when the storage space 11 is large in area, the electric suction can be used to improve the slow pressure of the hand pressure or the object cannot be pressed. The above description is attached to the inner film la of the suction channel 3e to the outer film 2a and the inner film lb. The film is attached to the outer film 2b as an example 'but not limited thereto, and the two inner films 13 and the side may be attached to the outer film 2a or 2b depending on the difference in structure. Furthermore, in the present embodiment, the stopper portion 6 as described above may be provided. Please refer to Fig. 9 for a plan view of a fifth embodiment of the present invention. In the present embodiment, the second end 22 is divided into two regions, one of which is provided with the structure of the exhaust port 2d and the exhaust guide 2e as described above, and the other region is provided with the exhaust port 3d and the exhaust as described above. The structure of the approach road 3e, that is, the exhaust zone of the storage bag 1 and the two exhaust structures are coexisting, and the air suction channel 3e can be used for pumping, or the storage space 11 can be pressed by hand to allow the gas to be exhausted by a plurality of exhaust gases. The mouth 2d is discharged. 13 1337156 Referring to FIG. 10, FIG. 11A and FIG. 11B, a plan view of a sixth embodiment of the present invention is a plan view, and a siia diagram is a cross-sectional view of a section taken at cc in FIG. 10 (miB diagram is a diagram) In cc, a sectional view of the cross section (2). In order to prevent the user from pumping the reducing tool 8, the second ends 22 of the two outer films 23 and 2b are attached to the fourth end 22 due to pumping, resulting in the first end. The gas of 21 can not be extracted, and the plurality of protrusions 4 can be disposed on the inner side of the two outer films and the inner side of 2b. #二片外膜^ and the second end 22 of the second end 22 are attached by the pumping 'The gap (1) is formed by the convex portion 4 of the two outer membranes μ#%, so that the gas can flow to the exhaust σ 经由 via _: m, and then flow out from the pure sigma 3d to achieve the purpose of exhausting. Referring to the 12th and 13th drawings, a seventh embodiment of the present invention, FIG. 12 is a schematic view (-), and FIG. 13 is a schematic view (2). In this embodiment, the outer film 2a and 2b, two in February The inner film la and lb are intermittently heat-sealed by a mineral-toothed heat-sealing die, followed by a 'closed zone where the toothed die is a closed zone, and the toothless die is a venting port%. The specific implementation steps are as follows: Step 1: The hot sealing piece is heat-sealed in the predetermined area between the two inner films la and lb, and the heat sealing part is heat-sealed at the same time as the heat sealing part 2c which is in the form of a line. The line can be thick and wide, and can be heat-sealed. After the outer membrane 2a is followed by the inner membrane la 'two inner membranes 1 & and the ratio is not followed, the outer membrane is followed by the inner membrane, and the two inner membranes la and lb are formed to expand automatically with the two outer membranes 2a and 2b. The effect of the exhaust port %. Step 2 · 'The heat is sealed from the two outer films 2a and 2b in the predetermined exhaust port block by the mineral tooth mold, that is, the place where the tooth mold is formed below the heat seal portion 2C The two outer membranes 2a and the two inner membranes la 1337156 and lb are closely connected, and the toothless mold is the exhaust port 2d. When the two outer membranes 2a and the crucible are inflated, the heat sealing portion 2c is pulled up in two pieces. The membranes la and lb, the gas in the rear exhaust port and the gas in the storage space 11 can be automatically opened from the exhaust port 2d. Step 3: The two sides of the exhaust port 2d are straight from the two outer films 2a and 2b The heat seal forms an exhaust passage 2e which is narrow or parallel in the upper width, and the exhaust passage 2e is connected to the outlet portion 2f, and heat seals the two outer membranes 2a and 2b and the two inner membranes ia and lb in the exhaust passage. Forming multiple nets Heat sealing point 5, the exhaust gas channel 2e is a piece of outer film 2a and 2b containing two inner membranes la and lb, the task is gas in the bag when 2c is opened with the two outer films 2a and 2b, the gas is exhausted The port 2d flows out of the storage space 11 through the exhaust guide 2e. Since the air pressure in the storage space 11 is small, the reaction force from the outside of the storage space u is formed, and the two inner membranes ia and the ratio are formed in the exhaust guide 2e. Inhaled in the direction of the exhaust port 2d, the two inner membranes la and lb are attached to each other to form a blockage to prevent the entry of outside air, thereby achieving the effect of closing the air for a long time after the exhaust. In addition, a mesh heat seal point 5 can be provided. Divided into a plurality of sections 15 (as shown in FIG. 13), the section 15 may correspond to one exhaust port 2d, and may also correspond to a plurality of exhaust ports 2d. Please refer to FIG. 14A, FIG. 14B, FIG. 15, FIG. 16, FIG. 17, and FIG. 18 for an eighth embodiment of the present invention. FIG. 14A is a schematic view (1) of the suspension member, and the figure is a suspension. The schematic diagram (2) of the piece, the 15th to 18th drawings are the plan views (1), (2), (3), (4). In order to solve the coat and suit manual, it is necessary to store the hanging wardrobe. Therefore, the present invention may further comprise a suspension member 7. First, the hook is formed by overlapping and heat-sealing the plastic sheet to form a film of the strong yarn, and the film is made into the upper film. The lower part is a thick bent portion 71, and the middle is a thin sheet-shaped connecting portion 72, 15 丄^7156 is used to connect and connect the two f-folded portions 71, and is formed by the lining point 7e and then 8 font type The purpose is that the upper part (four) of the folding part 71 can be hooked to the city with the ring, and the bending part of the lower part is placed in the storage room 11 to hook the hanger, so that the exhaust bag can be laid flat, or the hook must be added. The suspension member 7 is located at the middle of the second ends 22 of the two outer films 2a and 2b, and is heat-sealed by the heat seal line 12a to the connecting portion 72 and the two outer films 2a and 2b (as shown in Fig. 17, The i8 m end 21 and the second end 22 of the _ _ side, and the heat seal line 12e and two __ (Caf (four) _, she is more than 4 = 疋 25 ' such as zipper belt, etc. If not willing After multiple opening and closing, the side can be directly heat-sealed after the object is placed, so that the storage space 11 becomes a space, and then the exhaust gas is rolled. The exhaust and the pumping portion are two _ l a and lb are placed on the two outer membranes & and one end of the 11th, month) "Children can be coated in the _ film Qi 1 & lb inside the predetermined block coated heat-resistant material He, that is, the hot section, and then from the two The outer membranes 2a and 2b are processed. If the child's exhaust port is tender, the heat seal line 12a is directly placed on the top of the heat-resistant material mountain, and it is not necessary to provide a heat seal portion & If the diameter is small, two inner membranes should be set up. The opening mechanism of the two outer membranes 2a and 2b is combined. The method is heat sealing to the thorn material I. The middle section is heat-sealed. Because of the two inner membranes la and lb The inner surface is provided with a heat-resistant material ue, so that the heat-sealing is not continued, and the exhaust port 2d' is formed by heat-sealing a plurality of heat-sealing portions & at the upper end of the thermal material llc, so that the two inner films & But the outside is docked with the respective outer membranes 2a, 2b, so that when the two outer chess & and the increase due to the air pressure expansion will increase the two pieces _ la and lb that are connected, naturally the exhaust port therein 2d forced opening, the gas will be discharged from the exhaust σ 2d, and then _ first in the exhaust port % heat sealed ^ 37156 line heat seal to form the exhaust σ 2d exclusive exhaust 2e, the exhaust channel 2e is composed of two inner membranes ia and lb in the two outer membranes 2a and 2b, and forms a plurality of meshes in the heat-sealing two outer membranes 2a and 2, and the two inner membranes ^ and lb. Heat sealing point 5, when the gas in the storage space u is discharged, the air pressure is low, reverse suction occurs, and the inner film la and lb of the exhaust gas channel 2e are sucked toward the exhaust port, and the two inner membranes la and Lb in the exhaust approach 2e θ such as live drying, causing blockage, while through the structural design of the mesh heat seal point 5 to strengthen the effect of the two touch and lfc), the external gas can not enter, forming a natural The method of venting has the method of pressing the gas in the storage space u by the hand-rolling object, or the method of pumping the air. If the pumping tool 8 is used for pumping, the first inner film 1& The exhaust regions of the outer film 2a and 2b are preheated and sealed to the air suction channel 3e, which is characterized by heat sealing of the upper, lower and left sides. Only the outlet portion 3f' can be inserted into the suction tool 8, the top side of which is connected to a large exhaust port %, and the suction passage 3e can coexist with the plurality of exhaust guides 2e. Due to the strong pumping force during pumping, the two outer membranes 2a and 2b are adhered by suction, which affects the air discharge in other parts of the storage space, so that the two outer membranes 23 are close to the crucible. A plurality of protrusions are formed in advance in the exhaust port 3d area. When p 4 is used for the gas, the two outer films 2a and 2b of the sucking channel 3e have a gap even if they are butted, and the gas in the storage space 11 can be transported to achieve the goal of evacuating the volume. The structure of the suspension member 7 described above is for illustrative purposes only, and is not limited thereto, and those skilled in the art may change the structure according to actual needs. 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 should make some modifications and refinements without departing from the spirit of the present invention. Within the scope of the present invention, therefore, the scope of the present invention is defined by the scope of the appended claims. 1337156 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing an article placed in the first embodiment of the present invention. Figure 2 is a plan view showing a first embodiment of the present invention. Fig. 3A is a cross-sectional view (1) of Fig. 2 in the AA' section. : Fig. 3B is a cross-sectional view (2) of Fig. 2 in the AA' section. '3C is a cross-sectional view (3) of the second figure in the AA' section. Figure 4 is a plan view showing a second embodiment of the present invention. • Fig. 5 is a plan view showing a third embodiment of the present invention. Figure 6 is a schematic view of the fourth embodiment of the present invention for placing articles. Figure 7 is a plan view showing a fourth embodiment of the present invention. Fig. 8A is a cross-sectional view (Fig. 7) of the BB' section of Fig. 7. Fig. 8B is a cross-sectional view (b) of Fig. 7 in the BB' section. Fig. 8C is a cross-sectional view (III) of Fig. 7 in the BB' section. Figure 9 is a plan view showing a fifth embodiment of the present invention. • Fig. 10 is a plan view showing a sixth embodiment of the present invention. Fig. 11A is a cross-sectional view (Fig. 1) of the Fig. 10 in the CC' section. Figure 11B is a cross-sectional view (2) of the 10th view of the CC' section. Figure 12 is a schematic view (1) of a seventh embodiment of the present invention. Figure 13 is a schematic view (2) of a seventh embodiment of the present invention. Fig. 14A is a schematic view (1) of the suspension member of the eighth embodiment. Fig. 14B is a schematic view (2) of the suspension member of the eighth embodiment. 19 1337156 Fig. 15 is a plan view (1) of an eighth embodiment of the present invention. Figure 16 is a plan view (2) of an eighth embodiment of the present invention. Figure 17 is a plan view (3) of an eighth embodiment of the present invention. Figure 18 is a plan view (four) of an eighth embodiment of the present invention. [Description of main component symbols] 1..............storage bag la/lb............inner film 2a/2b....... ..... Outer film 2c · · · · 2d/3b/3d 2e · · · · 3e · · 2f/3f 4 · · Heat seal part exhaust port exhaust channel suction duct exit part convex part 5 ..............NET heat seal point 50..............Channel 11 Storage space 111........... .. clearance 11c............. heat resistant material 11a/llb/12a/12b/12c ... heat seal line 15 section 1337156 21 ........... ...the first end 22 ..............the second end 25..............closing element 6 ........ ...stop part 7 ..............suspension 71.............bend part 7c..... .........Hot seal point 8 ..............Exhaust tool 9 .............. Item 21 4