TWM322930U - Hammock type air shock absorber - Google Patents

Hammock type air shock absorber Download PDF

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Publication number
TWM322930U
TWM322930U TW96211803U TW96211803U TWM322930U TW M322930 U TWM322930 U TW M322930U TW 96211803 U TW96211803 U TW 96211803U TW 96211803 U TW96211803 U TW 96211803U TW M322930 U TWM322930 U TW M322930U
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Taiwan
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buffer
buffer wall
wall
hammock
type air
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TW96211803U
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Chinese (zh)
Inventor
Chieh-Hua Liao
Yaw-Shin Liao
Yao-Chuan Liao
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Chieh-Hua Liao
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Priority to TW96211803U priority Critical patent/TWM322930U/en
Publication of TWM322930U publication Critical patent/TWM322930U/en

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Description

M322930 八、新型說明: 【新型所屬之技術領域】 ' 本_係有關-種空驗震套,制是-種吊床式空_震套。 _ 【先前技術】 , 傳統用於緩衝包裝物品之方式,多以-塑膠片上突設複數個凸起小氣囊, 將此-塑膠膜片包覆於物品外周而達到吸震緩衝作用,但小氣囊的吸震能力有 限,對於較大的震動或衝擊負荷便無法達到緩衝吸震的效果,因此便發展出一 種以氣體包裝袋作為包覆用之緩衝材。 雖氣體包裝袋以氣體作為物品緩衝之媒介,依此提供物品緩衝保護之用, 然而,物品在搬運的過程不免產生晃動或碰撞,因此以聚乙稀(p〇lyethylene,pE) 材料製成之氣體包裝袋容易受到包裝物品尖利的銳角或五金接角所刺破,一但 出現小破洞,氣體包裝袋内之氣體即會洩出,容易造成包裝物損壞或刮傷,此 種氣體包裝袋可參閱美國第4850912號專利「Containerforsealinglycontaininga fluid」、美國第 5261466 號專利「Process for continuously filling fluid im。a plural • ofdosedbaSs」及曰本實開平第5-95851號專利「流體用密封袋」。 由此可知,如何改良氣體包裝袋之結構,解決氣體包裝袋因氣體外洩而喪 •失緩衝保護之問題,進而提供更佳之緩衝吸震效果,係為本案之創作人以及從 事此相關行業之技術領域者亟欲改善的課題。 【新型内容】 有鑑於此,本創作提出一種吊床式空氣防震套,用以包覆物品而提供緩衝 保護,空氣防震套包含··第一缓衝壁,包含至少一第一熱封邊;第二緩衝壁, 包含至少一第二熱封邊,經由熱封手段接著第一熱封邊;容置空間,經由彎折 M322930 第-緩衝壁與第二緩衝壁而形成於第-緩衝壁與第二緩衝壁之間;緩衝片,— 側經由賊手段接著第-麟壁,另-_她封手段接著第二_壁,使緩 衝片懸掛於容置空_ •,及置納空間,為緩_11麵 當本創作包覆物品時,即可提供物品緩衝保護之用,若物品在運送過程中 發生晃動時,以麟聽賴純動,m衝雜帛二緩触緩衝保護 物品’藉以提供物品二階段緩衝吸震效果之用,此外,本創作可避免物品直接 抵靠第第二緩賊,社物品触壁鮮二緩触造成氣 體外洩,因而喪失緩衝保護之功效。 有關本創作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2圖、第3圖及第4A圖為本創作之第一實施例,第! 圖為充氣前的平_,第2圖為充氣後的勤圖,第3圖為絲後的立體示意 圖,第4A圖為包覆物品的剖面圖(一)。 吊床式空氣防震套包含:氣柱片2、緩衝片5。 氣柱片2由複數氣柱20所組成,複數氣柱2〇上設有複數彎折點咖,循著 彎折點20a彎折複數氣柱2〇而形成第一緩衝壁21與第二緩衝壁22,其中,第 一緩衝壁21與第二緩衝壁22相連通,且第一緩衝壁21於一側設有第一熱封邊 21a,並設有複數第-節點21b,第二缓衝壁22於一側設有第二熱封邊咖,並 設有複數第二節點22b。第一緩衝壁21循著第一節點21b彎折,第二緩衝壁22 循著第二節點22b彎折,再以熱封手段接著第一熱封邊21a與第二熱封邊22&, 使第一缓衝壁21與第二緩衝壁22之間形成容置空間6,其中,容置空間6概 M322930 呈四邊形’其形狀依第-節點21b、第二節點22b之位置、數量的不同而有些 微差異,並可隨著第一緩衝壁21與第二緩衝壁22彎折之角度而改變容置空間 • 6之形狀’如容置賴6之形狀隨著第一緩衝壁21循著第-節點21b彎折之程 •度而改變,或隨著第二緩衝壁22循著第二節點22b彎折之程度而改變。 上述說明氣柱片2係由二片外膜2a與2b以熱封手段接著而形成,而外膜 2a與2b可為聚乙烯(p〇iyethyiene,pE)所製成。 緩衝片5為由軟質材料所製成,例如:聚氯乙稀(p咖响麗屯哪)、 參聚丙烯(PolyPr〇Pylene,PP)、發泡聚乙烯(EPE)、發泡聚丙烯(EPP)、布質、 泡棉、聚乙烯(polyethylene,PE)做成的小顆㈣包泡布等材質,亦可為瓦愣紙、 紙類及賊材料所製成。而緩衝片5之_侧經由熱封手段接著形成熱封點%而 固定於第緩衝壁2卜另-侧經由熱封手段接著形成熱封點%而固定於第二 緩衝壁22,使緩衝片5懸掛於容置空間6内而概呈吊床狀,並於中央處形成置 納空間50,用以包覆物品100。 本創作更包含絲通道9,伽麟手段麟4外膜2a與2b而形成可流 _通氣體的空間,位於第—緩衝壁21之側邊,用以將氣體充入第一緩衝壁21與 •第二緩衝壁22,使第一緩衝壁21與第二緩衝壁22充氣膨脹而具有緩衝吸震之 功用。 再者,本創作更可包含連續性逆止閥4,係以熱封手段接著二片内膜1&與 lb而形成者,用以連通充氣通道9與第一緩衝壁21,充氣通道9之氣體經由連 續性逆止閥4充入第一緩衝壁21,並經由連續性逆止閥4封閉第一緩衝壁21, 使第一緩衝壁21内之氣體不外洩。而二片内膜la與比之間塗佈耐熱材料lc 後,經由熱封手段互不接著而於二片内膜la與lb之間形成複數入氣口 2e,且 7 M322930 母入氣2e對應母一氣柱20。此外,每一入氣口 2e均連接有氣體通道w 其中’氣體通道14為於二片内膜la與lb之間塗佈耐熱材料ic後,經由熱封 手ί又接著一片内膜la與lb,而形成於二片内膜la與lb之間。當進入充氣、 9a之氣體膨脹充氣通道9後,將二片外膜%與处向外拉開而開啟入氣口 ^ 使氣體沿錢麵道M進人紐如而充氣雜。聽柱如絲触後,氣枝 20之氣體的内部壓力壓迫二片内膜^與⑶而緊密貼壓於外膜&或办據 其結構之差異,二片議1a與lb亦可不側貼於外膜2a或2b而懸掛於氣2〇 中)’覆盍氣體通道14而賴氣柱2〇,使氣柱2〇内之氣财外_達成閉々 的效果。 ;; 依據本創作所揭露之結構,第-緩衝壁21更包含第-接合邊21e,與第_ 熱封邊仏約略垂直,第二緩衝壁22更包含第二接合邊22c,與第二熱封邊仏 約略垂直,緩衝片5之二侧邊分臟由熱封手段接著而貼合於第-接合邊21〇 與第二接合邊22e。此外,第一緩衝壁21更包含第-底側邊21d,與第_熱封 邊加約略垂直’第二緩衝壁22更包含第二底側邊22d,與第二熱封邊仏約 略垂直’、經由熱封接著第一底側邊21d與第二底側邊22d而封閉容置空間6, 且緩衝片5與熱封接著第一底側邊21c與第二底側邊22d處之間具有一間距, 使緩_ 5不會直接接觸靠近第一底側邊21c與第二底側邊22d之氣柱2〇。 請參照第4A圖、第4B圖及第扣圖為本創作之第一實施例,第从圖為 包覆物品的剖面圖㈠,第4B圖為包覆物品的剖面圖(二),第4C圖為包覆 物品的剖面圖(三)。 ^乍之吊床式空氣防震套包覆物品1〇〇時,即可提供物品動緩衝保 遵之用緩衝片5雖受物品卿之動而向下位移,但仍與靠近第一底側邊加 M322930 ”第底側邊22c之氣柱2〇保持間距而不會相互接觸。物品1〇〇在運送過租中 發生晃動時,即可以緩衝片減緩物品励晃動,並以左右二侧之第_緩衝髮^ ••與第二緩衝壁22提供物品議緩衝保護之功用。若因物品劇烈晃動而使麵片1 :5受力向下壓時,即可以第一緩衝壁21與第二緩衝壁22底部之氣柱鼠緩衡保 •護物品1⑻,藉以提供物品100二階段緩衝吸震效果之用,此外,本創作可趣 免物品100直接抵靠第一緩衝壁21與第二缓衝壁22,防止物品刺破第一緩衡 壁21與第二緩衝壁22造成氣體外戌,因而喪失緩衝保護之功效。 、 • 請參照第5圖為本創作之第二實施例包覆物品的剖面圖。 第-緩衝壁21之第-底侧邊21e與第二緩衝壁22之第二底侧邊a。亦可 不熱封接著,使容置空間6形成開放式之空間,當緩衝片5包覆物品⑽時, 受力向下壓減緩物品100晃動,藉以達到緩衝保護之用。 請參照第6圖為本創作之第二實施例包覆物品的示意圖。 本創作更包含二接合部5:1,位於緩衝片5之二端,為緩衝片5騎後經接 著而形成者。若因物品劇烈晃動而使緩衝片5左右搖晃時,先以緩衝片5減緩 鲁物品100晃動,續以第一缓衝壁21與第二緩衝壁22緩衝保護物品觸,藉以 •提供物品1⑻二階段緩衝吸震效果之用,此外,本創作可避免物品1〇〇直接抵 •靠第一緩衝壁21與第二緩衝壁22,防止物品刺破第一緩衝壁21與第二緩衝壁 22造成氣體外泡,因而喪失緩衝保護之功效。 請參照第7圖及第8圖為本創作之第三實施例,第7圖為充氣前的平面圖, 第8圖為包覆物品的示意圖。 第一緩衝壁21設有多組之複數第一節點21b,第二緩衝壁22設有多組之 複數第二節點22b,第一緩衝壁21循著第一節點21b彎折,第二緩衝壁22循 M322930 =- :=22b料,於第_緩衝壁21與第二緩衝壁22之間形成容置空間〇 間6概呈六邊形,其形狀依第—節隐、第二節㈣之位置、 數量的不同而有些微差異,並可21與第二_ 度而改變容置空間6之形狀。 ^月 依據本創作職哪,糊5經由謝段接著爾於第一緩衝 壁21與第二緩衝壁22,亦可片由第-緩衝㈣或第二緩衝壁22之侧邊延伸 所形成。舉凡熟悉此項技藝的人士均可依據本創作的教示,而作出其他等效的 構造修飾或是變化。 2 根據本創作所揭露之實施例,在上述說财所列舉的__是以氣柱片 侧-緩衡壁以與第二緩衝壁Μ為例,但並非用以限制本創作僅是以此 結構’第-緩衝壁21與第二緩衝壁22亦可為分別獨立之氣柱片2,並分別設 有充氣通道9與連續性逆止閥4,特此說明。 雖然本創作的技術内容已經以較佳實施例揭露如上,然其並非用以限定本 創作,任何熟習此技藝者,在不脫離本創作之精神所作些許之更動與潤飾,皆 應涵蓋於本創作的範缚内,因此本創作之保護範圍當視後附之申請專利範圍所 界定者為準。 【圖式簡單說明】 弟1圖為本創作之第一實施例充氣前的平面圖。 第2圖為本創作之第一實施例充氣後的剖面圖。 第3圖為本創作之第一實施例充氣後的立體示意圖。 第4A圖為本創作之第一實施例包覆物品的剖面圖(一 第4B圖為本創作之第一實施例包覆物品的剖面圖(二)。 M322930 第4C圖為本創作之第一實施例包覆物品的剖面圖(三)。 第5圖為本創作之第二實施例包覆物品的剖面圖。 第6圖為本創作之第二實施例包覆物品的示意圖。 第7圖為本創作之第三實施例充氣前的平面圖。 第8圖為本創作之第三實施例包覆物品的示意圖。 【主要元件符號說明】 la/lb............内膜M322930 VIII, new description: [New technical field] 'This _ is related to - kind of empty vibration test set, the system is a kind of hammock type air _ shock cover. _ [Prior Art], the traditional method for buffering packaged articles, many of which are made up of a plurality of raised small airbags on the plastic sheet, and the plastic film is wrapped around the outer periphery of the article to achieve shock absorption buffering, but the small airbag The shock absorbing ability is limited, and the buffer shock absorption effect cannot be achieved for a large shock or impact load, so that a gas cushion bag is used as a cushioning material for coating. Although the gas packaging bag uses gas as a medium for buffering the articles, it provides buffer protection for the articles. However, the articles are inevitably shaken or collided during the handling process, and thus are made of p〇lyethylene (pE) material. The gas packaging bag is easily pierced by sharp sharp corners or hardware joints of the packaged articles. Once a small hole is formed, the gas in the gas packaging bag will be leaked, which may cause damage or scratching of the packaging material. See, for example, U.S. Patent No. 4,509,912, "Container forsealingly contained a fluid", U.S. Patent No. 5,261,466, "Process for continuous filling fluid im. a plural • of dosedbaSs", and Japanese Patent Laid-Open No. Hei 5-95851, "Seal for Fluids". It can be seen that how to improve the structure of the gas packaging bag, solve the problem that the gas packaging bag is lost due to gas leakage, and provide buffer cushioning effect, which is the creator of the case and the technology of the related industry. The subject of the field is eager to improve. [New content] In view of this, the present invention proposes a hammock-type air shockproof sleeve for covering the article to provide cushioning protection, and the air shockproof sleeve includes a first buffer wall including at least one first heat seal; The second buffer wall includes at least one second heat sealing edge, and then the first heat sealing edge is performed via a heat sealing means; the accommodating space is formed on the first buffer wall and the second buffer wall by bending the M322930 first buffer wall and the second buffer wall Between the two buffer walls; the buffer sheet, - the side through the thief means followed by the first - lin wall, the other - _ her sealing means followed by the second _ wall, so that the buffer sheet is suspended in the accommodation space _ •, and the space, slow _11 face When the creation of the article is wrapped, the item can be used for buffer protection. If the item is shaken during the transportation process, it will be provided by the lyrics. The second-stage cushioning effect of the object is used for shock absorption. In addition, the creation can avoid the article directly resisting the second thief, and the social object touches the wall to cause the gas to leak, thereby losing the buffer protection effect. The preferred embodiment of the present invention and its effects are described below in conjunction with the drawings. [Embodiment] Please refer to Fig. 1, Fig. 2, Fig. 3, and Fig. 4A for the first embodiment of the creation, the first! The figure shows the flat _ before inflation, the second figure shows the diligent diagram after inflation, the third figure shows the three-dimensional diagram after the silk, and the fourth figure shows the sectional view of the coated article (1). The hammock type air shockproof cover comprises: a gas column piece 2 and a buffer piece 5. The gas column piece 2 is composed of a plurality of gas columns 20, and a plurality of bending points are arranged on the plurality of gas columns 2, and the first buffer wall 21 and the second buffer are formed by bending the plurality of gas columns 2弯 according to the bending point 20a. a wall 22, wherein the first buffer wall 21 is in communication with the second buffer wall 22, and the first buffer wall 21 is provided with a first heat seal edge 21a on one side, and is provided with a plurality of first-nodes 21b, a second buffer The wall 22 is provided with a second heat seal side on one side and a plurality of second nodes 22b. The first buffer wall 21 is bent along the first node 21b, and the second buffer wall 22 is bent along the second node 22b, and then the first heat sealing edge 21a and the second heat sealing edge 22& An accommodating space 6 is formed between the first buffer wall 21 and the second buffer wall 22, wherein the accommodating space 6 is substantially quadrangular, and its shape is different according to the position and number of the first node 21b and the second node 22b. There are some slight differences, and the accommodating space can be changed according to the angle at which the first buffer wall 21 and the second buffer wall 22 are bent. The shape of the shape 6 is the same as the shape of the first buffer wall 21. - The degree of bending of the node 21b changes, or changes as the second buffer wall 22 follows the degree of bending of the second node 22b. The above description of the gas column sheet 2 is formed by heat-sealing means of the two outer films 2a and 2b, and the outer films 2a and 2b may be made of polyethylene (p〇iyethyiene, pE). The buffer sheet 5 is made of a soft material such as polyvinyl chloride (polypyrene), polypropylene (PolyPr〇Pylene, PP), expanded polyethylene (EPE), expanded polypropylene ( EPP), fabric, foam, polyethylene (PE) made of small (four) foam cloth and other materials, can also be made of corrugated paper, paper and thief materials. On the other hand, the side of the buffer sheet 5 is fixed to the first buffer wall 2 via the heat sealing means, and is fixed to the second buffer wall 22 by heat sealing means to form the heat sealing point %. 5 is suspended in the accommodating space 6 and has a hammock shape, and a receiving space 50 is formed at the center for covering the article 100. The present invention further comprises a silk channel 9, a space for forming a flowable gas through the outer membranes 2a and 2b of the Galin means, which is located on the side of the first buffer wall 21 for charging the gas into the first buffer wall 21 and The second buffer wall 22 inflates and expands the first buffer wall 21 and the second buffer wall 22 to have the function of buffering shock absorption. Furthermore, the present invention may further comprise a continuous check valve 4 formed by heat sealing means followed by two inner films 1 & lb and lb for communicating the inflation channel 9 with the first buffer wall 21, and the inflation channel 9 The gas is charged into the first buffer wall 21 via the continuity check valve 4, and the first buffer wall 21 is closed via the continuity check valve 4, so that the gas in the first buffer wall 21 is not leaked. After the heat-resistant material lc is applied between the two inner films la and the ratio, a plurality of air inlets 2e are formed between the two inner films la and lb via heat sealing means, and 7 M322930 mother gas 2e corresponds to the mother. One gas column 20. In addition, each air inlet 2e is connected with a gas passage w, wherein the gas passage 14 is coated with a heat-resistant material ic between the two inner membranes la and lb, and then an inner membrane la and lb are further sealed by heat sealing. It is formed between the two inner membranes la and lb. After entering the inflated, 9a gas expansion inflation passage 9, the two outer membranes are pulled outwardly to open the air inlet port ^ so that the gas enters the mouth along the money surface M and is inflated. After the column is touched by the wire, the internal pressure of the gas of the gas branch 20 oppresses the two inner membranes and (3) and is closely pressed against the outer membrane & or according to the difference in its structure, the two sheets 1a and 1b may not be attached. In the outer membrane 2a or 2b, it is suspended in the gas 2"), and the gas channel 14 is covered and the gas column 2 is closed, so that the gas column 2 inside the gas column is _ 达成 达成 达成 达成 达成 达成 达成 达成 。 。 。 According to the structure disclosed in the present invention, the first buffer wall 21 further includes a first joint edge 21e which is approximately perpendicular to the first heat seal edge, and the second buffer wall 22 further includes a second joint edge 22c and a second heat. The edge banding is approximately vertical, and the two sides of the cushion sheet 5 are separated by the heat sealing means and then attached to the first joining edge 21 and the second joining edge 22e. In addition, the first buffer wall 21 further includes a first bottom side 21d, which is approximately perpendicular to the first heat seal edge. The second buffer wall 22 further includes a second bottom side 22d, which is approximately perpendicular to the second heat seal edge. Opening the accommodating space 6 via the heat sealing followed by the first bottom side 21d and the second bottom side 22d, and the buffer sheet 5 and the heat seal are then provided between the first bottom side 21c and the second bottom side 22d At a pitch, the buffer _ 5 does not directly contact the air column 2 靠近 near the first bottom side 21c and the second bottom side 22d. Please refer to FIG. 4A, FIG. 4B and the first diagram for the first embodiment of the creation. The first drawing is a sectional view (1) of the coated article, and the fourth drawing is a sectional view of the coated article (2), 4C. The picture shows a sectional view of the coated article (3). ^When the hammock-type air-proof shock-proof cover is wrapped with the item 1 ,, the item can be provided with the buffer cushion. The cushion sheet 5 is displaced downward by the movement of the item, but is still close to the first bottom side. The air column 2 of the bottom side 22c of the M322930 ” is kept at a distance and does not contact each other. When the article 1 晃 is shaken during the over-charging, the buffer sheet can be used to slow the sway of the article, and the left and right sides are _ The buffering bulb and the second buffer wall 22 provide the function of buffer protection of the article. If the panel is pressed downward by the force of the object, the first buffer wall 21 and the second buffer wall can be provided. The gas column mouse at the bottom of the 22 balances the protection item 1 (8), thereby providing the two-stage cushioning shock absorbing effect of the article 100. In addition, the creation of the article 100 directly abuts against the first buffer wall 21 and the second buffer wall 22 Preventing the object from puncturing the first balance wall 21 and the second buffer wall 22 to cause gas smashing, thereby losing the effect of buffer protection. · Please refer to FIG. 5 for a cross-sectional view of the coated article of the second embodiment of the present invention. The first bottom side 21e of the first buffer wall 21 and the second buffer wall 22 The second bottom side a may not be heat sealed, so that the accommodating space 6 forms an open space. When the cushion sheet 5 covers the article (10), the force is pressed downward to slow down the object 100, thereby achieving buffer protection. Please refer to Fig. 6 for a schematic view of a coated article according to a second embodiment of the present invention. The present invention further includes two engaging portions 5:1 at the two ends of the cushioning sheet 5, which are formed by the cushioning sheet 5 after riding. If the cushion sheet 5 is shaken left and right due to the violent shaking of the article, the buffer sheet 5 is first used to slow down the swaying of the stencil 100, and the first buffer wall 21 and the second buffer wall 22 are buffered to protect the article, thereby providing the item 1 (8). In addition, the present invention can prevent the article 1 from directly contacting the first buffer wall 21 and the second buffer wall 22, preventing the article from piercing the first buffer wall 21 and the second buffer wall 22. The gas is bubbled out, thus losing the effect of buffer protection. Please refer to Fig. 7 and Fig. 8 for the third embodiment of the present invention, Fig. 7 is a plan view before inflation, and Fig. 8 is a schematic view of the coated article. The buffer wall 21 is provided with a plurality of groups of plural first sections 21b, the second buffer wall 22 is provided with a plurality of sets of second nodes 22b, the first buffer wall 21 is bent along the first node 21b, and the second buffer wall 22 is followed by M322930 =-:=22b, in the first buffer The space between the wall 21 and the second buffer wall 22 is formed into a hexagonal shape, and the shape thereof is slightly different according to the position of the first node, the position of the second section (4), and the number, and 21 The shape of the accommodating space 6 is changed by the second _ degree. ^月 according to the original job, the paste 5 is passed through the first buffer wall 21 and the second buffer wall 22, or may be sliced by the first buffer (four) or The lateral extension of the second buffer wall 22 is formed by those skilled in the art, and other equivalent structural modifications or variations may be made in accordance with the teachings of the present invention. 2 According to the embodiment disclosed in the present invention, the __ listed in the above-mentioned financial statement is based on the air column side-balance wall and the second buffer wall, but is not intended to limit the creation only by this The structure 'the first buffer wall 21 and the second buffer wall 22 may also be separate gas column pieces 2, and respectively provided with an inflation passage 9 and a continuous check valve 4, which will be described here. Although the technical content of the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention. Anyone who is familiar with the art, and some modifications and refinements that do not depart from the spirit of the present invention should be included in the creation. Within the scope of the application, the scope of protection of this creation is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a plan view of a first embodiment of the present invention before being inflated. Fig. 2 is a cross-sectional view showing the first embodiment of the creation after inflation. Fig. 3 is a perspective view showing the first embodiment of the creation after inflation. 4A is a cross-sectional view of the coated article of the first embodiment of the present invention (a 4B is a cross-sectional view of the coated article of the first embodiment of the present invention (2). M322930 4C is the first creation Fig. 5 is a cross-sectional view showing a coated article according to a second embodiment of the present invention. Fig. 6 is a schematic view showing a coated article according to a second embodiment of the present invention. A plan view of the third embodiment of the present invention before inflating. Fig. 8 is a schematic view showing the coated article of the third embodiment of the present invention. [Description of main components] la/lb........... Intima

lc..............耐熱材料 14..............氣體通道 2a/2b............夕卜 _ 2e..............入氣口 2..............氣柱片 20 ..............氣柱 20a.............彎折點 21 ..............第一緩衝壁 21a.............第一熱封邊 21b.............第一節點 21c.............第一接合邊 21d.............第一底側邊 22 ..............第二緩衝壁 22a.............第二熱封邊 22b.............第二節點 11 M322930Lc..............Heat resistant material 14..............Gas channel 2a/2b............卜 _ 2e.............. inlet port 2.............. air column 20 ............ .. air column 20a.............bending point 21..................The first buffer wall 21a......... ....first heat sealing edge 21b.............first node 21c.............first joint edge 21d..... ........first bottom side 22 . . ....... second buffer wall 22a............. second heat seal Side 22b.............Second node 11 M322930

22c · 22d · 4 · · 5 · · 5a/5b 50 · · 51 · · 6 · · 9 · 9a · 100 第二接合邊 第二底側邊 連續性逆止閥 缓衝片 熱封點 置納空間 接合部 容置空間 充氣通道 充氣口 物品22c · 22d · 4 · · 5 · · 5a/5b 50 · · 51 · · 6 · · 9 · 9a · 100 Second joint side second bottom side continuity check valve cushion heat seal point receiving space Joint receiving space inflatable passage inflation mouth item

1212

Claims (1)

M322930 九、申請專利範圍: 卜一種吊床式空氣防震套,用以包覆_物品而提供緩衝保護,該空氣防震套包 第一緩衝壁,包含至少一第一熱封邊; 一第二緩衝^,包含至少-第二熱封邊’經由熱封手段接著該第一熱封 一容置空間’經由彎折該第一緩衝壁與該第二緩衝壁而形成於該第—緩 φ 衝壁與該第二緩衝壁之間; 一緩衝片,一側經由熱封手段接著該第一緩衝壁,另一側經由熱封手段 接著該第二緩衝壁,使該緩衝片懸掛於該容置空間内;及 置納空間,為該緩衝片經對折而形成者,用以放置該物品,以該緩衝 片減緩該物w晃動,並以該第一緩衝壁與該第二緩衝壁緩衝保護該物品。 月求項1之吊床式空氣防震套,更包含一充氣通道,位於該第—緩衝壁之 側邊,用以將氣體充入該第一緩衝壁。 # 3、如請求項^之吊床式空氣防震套,更包含一連續性逆止闕,用以連通該充氣 ‘ 妨與謂緩触’該絲通道之_經_連雜耻人該第一緩 .衝壁,並經由該連續性逆止閥封閉該第-緩衝壁’使該第—緩衝壁内之氣體 不外^。 其中該第一緩衝壁與該第二緩衝壁相連通。 4、如請求項2之吊床式空氣防震套 、如睛求項1之吊床式空氣p雲 、 套’更包含一充氣通道,位於該第二緩衝壁之 侧邊,用以將氣體充入該第二緩衝壁。 、如请求項5之吊床式空n p雷 ' 奮’更包含一連續性逆止閥,用以連通該充氣 M322930 通道與該第二緩触,該統魏之纽軸該連雜逆止駄人該第二緩 、、之吊床式空氣防震套,更包含二接合部,位於該緩衝4之二端, 為該緩衝片對折後經接著_成者。 …欠項之吊床式空氣防震套,其中該第一緩衝壁更包含一第一底侧邊, 、乂第”、、封邊約略垂直,該第二緩衝壁更包含—第二底侧邊,與該第二熱 封邊約略垂直,_熱封接著該第_底侧邊與該第二底側邊而封_容置空 間。 9、 如請求項8之料她防震套,其中該糊與熱封接著該第—底側邊與 該第二底側邊處之間具有一間距。 10、 如^ 1之吊床式如_,其㈣—緩衝壁更包含—第一接合邊, ^第‘、,、封邊約略垂直,該第二緩衝壁更包含—第二接合邊,與該第二 熱封邊約略垂直,該緩衝片之二侧邊分別貼合於該第一接合邊與該第二接 合邊。 11、 如請求項1之吊床式空氣防震套,更包含至少—第-節點與至少-第二節 點’該第-節點位於該第一緩衝壁上,該第一緩衝壁循著該第一節點彎折, 該第二節點位於該第二緩衝壁上,該第二緩衝壁循著該第二節點彎折。 U、如請求項η之吊床式空氣防震套,其中該容蝴之形狀隨綱一緩衝 壁循著該第一節點彎折之程度而改變。 、如請求項12之吊床式空氣防震套,其中該容置空間之形狀隨著該第一節點 彎折之位置、數量的不同而改變。 14 13 M322930 14、 如請求項11之吊床式空氣防震套,其中該容置空間之形狀隨著該第二缓衝 壁循著該第二節點彎折之程度而改變。 15、 如請求項14之吊床式空氣防震套,其中該容置空間之形狀隨著該第二節點 彎折之位置、數量的不同而改變。 16、 如請求項1之吊床式空氣防震套,其中該緩衝片由該第一缓衝壁之側邊延 伸所形成。 17、 如請求項1之吊床式空氣防震套,其中該緩衝片由該第二緩衝壁之側邊延 伸所形成。 15M322930 IX. Patent application scope: A hammock-type air shockproof sleeve for providing buffer protection for covering _ articles, the first shock absorbing wall of the air shockproof package, comprising at least a first heat seal; a second buffer ^, Including at least a second heat seal 'via a heat sealing means followed by the first heat seal and an accommodating space ' formed by bending the first buffer wall and the second buffer wall on the first tempering wall and the Between the second buffer walls; a buffer sheet, one side is followed by the first buffer wall via a heat sealing means, and the other side is followed by the second buffer wall via a heat sealing means, so that the buffer sheet is suspended in the accommodating space; And a receiving space formed by folding the buffer sheet to place the article, the buffer sheet is used to slow the shaking of the object w, and the first buffer wall and the second buffer wall are buffered to protect the article. The hammock type air shockproof sleeve of the first item 1 further comprises an inflation passage located at a side of the first buffer wall for charging a gas into the first buffer wall. #3, such as the hammock-type air shock-proof sleeve of the request item ^, further includes a continuous reverse stop 阙, which is used to connect the air-filling and the slow-touching of the silk channel. The wall is blasted, and the first buffer wall is closed by the continuous check valve to make the gas in the first buffer wall not. The first buffer wall is in communication with the second buffer wall. 4. The hammock-type air shock-proof sleeve of claim 2, the hammock-type air p-cloud of the item 1, the sleeve further comprises an inflation passage, located at a side of the second buffer wall for charging the gas into the The second buffer wall. The hammock-type air np thunder 'Fen' of claim 5 further includes a continuous check valve for connecting the inflated M322930 channel with the second slow contact, the system of the Wei-Xin The second type of hammock type air shockproof sleeve further includes two joint portions located at two ends of the buffer 4, and the buffer sheet is folded in half and then formed. a hammock type air shockproof sleeve, wherein the first buffer wall further comprises a first bottom side, the first side, the edge is approximately vertical, and the second buffer wall further comprises a second bottom side. The heat sealing edge is approximately perpendicular to the second heat sealing edge, and the heat sealing is followed by the first bottom side edge and the second bottom side edge to accommodate the space. 9. According to claim 8, the shockproof sleeve, wherein the paste is The heat seal then has a spacing between the first bottom side and the second bottom side. 10. The hammock type such as ^1, (4) - the buffer wall further includes - the first joint edge, ^ ' The second buffer wall further includes a second joint edge that is approximately perpendicular to the second heat seal edge, and the two side edges of the buffer sheet are respectively attached to the first joint edge and the first 11. The joint edge of the hammock type air shockproof sleeve of claim 1, further comprising at least - a - node and at least - a second node - the first node is located on the first buffer wall, the first buffer wall follows The first node is bent, the second node is located on the second buffer wall, and the second buffer wall follows the second node bend U. The hammock-type air shock-proof sleeve of claim η, wherein the shape of the butterfly changes according to the degree to which the buffer wall follows the bending of the first node. The hammock-type air shockproof sleeve of claim 12. The shape of the accommodating space changes according to the position and the number of the first node bending. 14 13 M322930 14. The hammock type air shockproof sleeve of claim 11, wherein the shape of the accommodating space is The second buffer wall is changed according to the degree of bending of the second node. 15. The hammock type air shockproof sleeve of claim 14, wherein the shape of the receiving space is along with the position of the second node being bent, 16. The hammock type air shockproof sleeve of claim 1, wherein the cushion sheet is formed by extending a side of the first buffer wall. 17. The hammock type air shockproof sleeve of claim 1 Wherein the buffer sheet is formed by extending from the side of the second buffer wall.
TW96211803U 2007-07-19 2007-07-19 Hammock type air shock absorber TWM322930U (en)

Priority Applications (1)

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Application Number Priority Date Filing Date Title
TW96211803U TWM322930U (en) 2007-07-19 2007-07-19 Hammock type air shock absorber

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI424943B (en) * 2011-12-15 2014-02-01
CN108657632A (en) * 2017-03-31 2018-10-16 上海艾尔贝包装科技发展有限公司 Air-packing devices and its packing method

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI424943B (en) * 2011-12-15 2014-02-01
CN108657632A (en) * 2017-03-31 2018-10-16 上海艾尔贝包装科技发展有限公司 Air-packing devices and its packing method

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