TW201702148A - Cushioning box structure - Google Patents

Cushioning box structure Download PDF

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Publication number
TW201702148A
TW201702148A TW104122420A TW104122420A TW201702148A TW 201702148 A TW201702148 A TW 201702148A TW 104122420 A TW104122420 A TW 104122420A TW 104122420 A TW104122420 A TW 104122420A TW 201702148 A TW201702148 A TW 201702148A
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Taiwan
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heat seal
line
gas
column
air
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TW104122420A
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Chinese (zh)
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TWI549877B (en
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廖國雄
廖建華
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亞比斯包材工場股份有限公司
廖苔安
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Publication of TW201702148A publication Critical patent/TW201702148A/en

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Abstract

A cushioning box structure includes two air-cylinder sheets. Each air-cylinder includes two first air-cylinder parts, a second air-cylinder part, and two non air-charging parts. The first air-cylinder part includes a plurality of first cylinders, and one end of the first cylinders is a first lateral hot-sealing line. The second air-cylinder part includes a plurality of second cylinders, which has a length longer than the first cylinders. Each second air-cylinder includes a node, and the nodes and the first lateral hot-sealing lines forms a first folding line. The boundaries between the second cir-cylinder part and the first air-cylinder parts form two second folding lines, and the boundaries between the second cir-cylinder part and the non air-charging parts form two third folding lines. The non air-charging parts are disposed on the two sides of the second air-cylinder part and adjacent to the first air-cylinder parts. After folding the two air-cylinder sheets along the first folding line and the second folding lines, the two air-cylinder sheets are arranged upside-down corresponding to each other, and connected together. After connecting, the two non air-charging parts are received therein.

Description

緩衝盒結構Buffer box structure

本發明涉及一種緩衝結構,尤其是一種緩衝盒結構。The present invention relates to a cushioning structure, and more particularly to a cushion box structure.

隨著網路商務的興起,商品的流通、配送的需求也大幅地增加。為了防止在配送時避免商品破裂、或是防止商品移動而造成表面刮傷,除了一般外部的箱體,通常會先將商品放置在一緩衝墊上、或是包裝在一個緩衝袋中。With the rise of online commerce, the demand for distribution and distribution of goods has also increased significantly. In order to prevent the surface from being scratched during the delivery, or to prevent the product from moving, the outer surface of the box is usually placed on a cushion or packaged in a buffer bag.

但是對於大體積、或是重量較高的物件,單單以緩衝墊、或是緩衝袋,仍可能因為長時間運送,緩衝袋、墊因摩擦磨損而破裂。所以通常以多個氣柱片組合而一緩衝盒,並將物體放置於其中,再將整體放至於外箱中。However, for large-volume or high-weight objects, cushions or buffer bags may still be broken due to friction and wear due to long-term transportation. Therefore, a buffer box is usually combined with a plurality of air column sheets, and an object is placed therein, and the whole is placed in the outer box.

然而,目前存在的問題在於,多個氣柱片接合時,容易產生外表突出的狀況,這樣無法是氣柱與外箱的內表面貼合,使得空間利用率較差,也造成緩衝盒在外箱中仍可能移動而磨損、減低緩衝效果。此外,為了減少這些突起,可能需要裁切,這需要多一到人工裁切的製程,無疑增加了製作時間、成本,以及材料的浪費。因此,需要設計一種能夠解決以上問題的緩衝盒結構。However, the current problem is that when a plurality of gas column sheets are joined, it is easy to produce a situation in which the outer surface is protruded, so that the inner surface of the air column and the outer box cannot be attached, so that the space utilization rate is poor, and the buffer box is also in the outer box. It is still possible to move and wear and reduce the cushioning effect. In addition, in order to reduce these protrusions, cutting may be required, which requires an additional manual cutting process, which undoubtedly increases production time, cost, and waste of materials. Therefore, it is necessary to design a buffer box structure that can solve the above problems.

鑒於此,本發明提供一種緩衝盒結構。緩衝盒結構包含二氣柱片,且各該氣柱片包含二第一氣柱區、一第二氣柱區、二不進氣區。各第一氣柱區包含複數個第一氣柱,第一氣柱的一端為一第一橫向熱封線。第二氣柱區位於二第一氣柱區之間,第二氣柱區包含複數個第二氣柱,第二氣柱的長度大於第一氣柱。各第二氣柱包含一節點,該等節點與第一橫向熱封線形成一第一轉折線,而第二氣柱區與第一氣柱區的交界形成第二轉折線。不進氣區位於第二氣柱區的兩側,並緊鄰第一氣柱區,其中第二氣柱區與不進氣區的交界形成第三轉折線。二氣柱片各沿著該第一轉折線、第二轉折線轉折後,以倒置方式相對排列,並將二氣柱之第一氣柱區的邊緣及第二氣柱區的邊緣相互對接,且不進氣區在對接後沿第三轉折線壓折後收入,而形成緩衝盒結構。In view of this, the present invention provides a buffer box structure. The buffer box structure comprises two gas column pieces, and each of the gas column pieces comprises two first gas column regions, one second gas column region and two non-intake regions. Each of the first gas column regions includes a plurality of first gas columns, and one end of the first gas column is a first transverse heat seal line. The second gas column region is located between the two first gas column regions, and the second gas column region comprises a plurality of second gas columns, and the second gas column has a length greater than the first gas column. Each of the second gas columns includes a node that forms a first inflection line with the first transverse heat seal line, and a boundary between the second gas column region and the first gas column region forms a second inflection line. The non-intake zone is located on both sides of the second air column region and adjacent to the first air column region, wherein the boundary between the second air column region and the non-intake region forms a third turning line. The two gas column sheets are respectively turned along the first turning line and the second turning line, and are arranged oppositely in an inverted manner, and the edges of the first gas column region of the two gas column and the edge of the second gas column region are butted against each other. And the non-intake area is folded after being folded along the third turning line after docking, and a buffer box structure is formed.

在一實施例中,各氣柱片更包含二縱向邊界、二橫向邊界、複數個第一縱向熱封線、複數個第二橫熱封線、一第二橫向熱封線、以及一第三橫向熱封線。第一橫向熱封線、第二橫向熱封線、以及第三橫向熱封線平行於橫向邊界。第一縱向熱封線及第二縱向熱封線平行於縱向邊界。在第一縱向熱封線之間經充氣後形成第一氣柱、在第二縱向熱封線之間充氣後形成第二氣柱,第三橫向熱封線位於第二氣柱的一端,而第二橫向熱封線位於第一氣柱及第二氣柱的另一端。In one embodiment, each gas column further comprises two longitudinal boundaries, two lateral boundaries, a plurality of first longitudinal heat seal lines, a plurality of second transverse heat seal lines, a second transverse heat seal line, and a third Horizontal heat seal line. The first transverse heat seal line, the second transverse heat seal line, and the third transverse heat seal line are parallel to the lateral boundary. The first longitudinal heat seal line and the second longitudinal heat seal line are parallel to the longitudinal boundary. Forming a first gas column after being inflated between the first longitudinal heat seal lines, and inflating between the second longitudinal heat seal lines to form a second gas column, wherein the third transverse heat seal line is located at one end of the second gas column, and The second transverse heat seal line is located at the other end of the first gas column and the second gas column.

進一步地,在第二橫向熱封線與橫向邊界之間形成一第一對接區、在第三橫向熱封線與橫向熱封線之間形成一第二對接區,一氣柱片的該第一對接區連接另一氣柱片的該第二對接區、第二對接區連接另一氣柱片的第一對接區。Further, a first docking zone is formed between the second transverse heat seal line and the lateral boundary, and a second docking zone is formed between the third transverse heat seal line and the transverse heat seal line, the first of the air column sheets The docking zone connects the second docking zone of the other gas column piece, and the second docking zone connects the first docking zone of the other gas column piece.

再進一步地,第一縱向熱封線中最外側的兩者與二縱向邊界之間形成二第三對接區,二氣柱片的二第三對接區,分別與另一氣柱片之二第三對接區反向地相互對接。又不進氣區收入後與對應之第三對接區連接。Further, a second third docking zone is formed between the outermost two of the first longitudinal heat sealing lines and the two longitudinal boundaries, and the second third docking zone of the two air column sheets is respectively the third and the third of the other air column pieces. The docking areas are opposite each other in reverse. After the income of the air intake area is not connected, it is connected with the corresponding third docking area.

在一實施例中,第二橫向熱封線與該橫向邊界之間還包含一第四橫向熱封線,第二橫向熱封線與第四橫向熱封線之間設置有複數個氣閥,該等氣閥對應於第一氣柱及第二氣柱。In an embodiment, a second transverse heat seal line is further included between the second transverse heat seal line and the lateral boundary, and a plurality of air valves are disposed between the second transverse heat seal line and the fourth transverse heat seal line. The gas valves correspond to the first gas column and the second gas column.

在一實施例中,在各節點及對應的二第二縱向熱封線之間具有二間距,在充氣時,使氣體通過。In one embodiment, there is a two-pitch between each node and the corresponding two second longitudinal heat seal lines that allow gas to pass during inflation.

在一實施例中,第二轉折線及三轉折的連線係為第二縱向熱封線最外側的兩者。In one embodiment, the second inflection line and the three inflection line are both the outermost sides of the second longitudinal heat seal line.

在一實施例中,不進氣區收入後與第一氣柱區或該第二氣柱區連接。In an embodiment, the non-intake zone income is coupled to the first gas column zone or the second gas column zone.

在一實施例中,不進氣區收入後以平行於該第一橫向熱封線的一中線對折。In one embodiment, the non-intake zone revenue is folded in half parallel to a centerline of the first transverse heat seal line.

本發明主要藉由在氣柱片中設計了不進氣區,並且在兩氣柱片相互接、形成緩衝盒結構後,能將不進氣區折入,且使外部能夠平滑而沒有突起,能平貼於外箱的內表面,增加內部容置的比例,並減少材料的浪費。The invention mainly designs a non-intake zone in the air column piece, and after the two gas column pieces are connected to each other to form a buffer box structure, the non-intake area can be folded in, and the outer part can be smooth without protrusions. Can be flat on the inner surface of the outer box, increasing the proportion of internal accommodation and reducing material waste.

以下在實施方式中詳細敘述本發明知詳細特徵以及優點,其內容組已使任何熟習相關技藝者瞭解本發明之技術內容並以據以實施,且根據本說明書所接露之內容、申請專利範圍即圖式,任何熟習相關技藝者可輕易地理解本發明相關之目的及優點。The detailed features and advantages of the present invention are described in detail in the following description of the embodiments of the present invention. That is, the objects and advantages associated with the present invention can be readily understood by those skilled in the art.

參閱第1圖至第6圖,其中第1圖為緩衝盒結構中一氣柱片的上視示意圖、第2圖為緩衝盒結構中一氣柱片的轉折示意圖、第3圖至第6圖為對接二氣柱片形成緩衝盒結構的逐步示意圖。如第1圖及第3圖所示,緩衝盒結構2係由二個氣柱片1以倒置的方式相互對接所形成。如第1圖所示,氣柱片1包含二第一氣柱區C1、一第二氣柱區C2以及二不進氣區A1。Referring to Figures 1 to 6, FIG. 1 is a top view of a gas column in a buffer box structure, FIG. 2 is a schematic view showing a transition of a gas column in a buffer box structure, and FIGS. 3 to 6 are docking. A two-column sheet forms a step-by-step schematic of the buffer box structure. As shown in Figs. 1 and 3, the buffer case structure 2 is formed by mutually opposing the two gas column pieces 1 in an inverted manner. As shown in FIG. 1, the gas column piece 1 includes two first gas column regions C1, a second gas column region C2, and two non-intake regions A1.

如第1圖及第3圖所示,氣柱片1是由兩外膜a經由熱封所形成,兩外膜a經由熱封,熱封的位置形成二縱向邊界11、二橫向邊界21、複數個第一縱向熱封線13、複數個第二縱向熱封線15、二第一橫向熱封線23、一第二橫向熱封線25、以及一第三橫向熱封線27。第一橫向熱封線23、第二橫向熱封線25及第三橫向熱封線27平行於橫向邊界21,而第一縱向熱封線13及第二縱向熱封線15平行於縱向邊界11。經過充氣後,在該等第一縱向熱封線13之間經充氣後形成複數個第一氣柱31、該等第二縱向熱封線15之間經充氣後形成第二氣柱33。該等第一氣柱31位於氣柱片1的兩側,且其兩橫向端分別為第一橫向熱封線23及第二橫向熱封線25。該等第二氣柱33位於氣柱片1的中間,且第二氣柱33的長度大於第一氣柱31。該等第二氣柱33的兩端分別為為第二橫向熱封線25及一第三橫向熱封線27。As shown in FIGS. 1 and 3, the air column piece 1 is formed by heat sealing of the two outer films a, and the two outer films a are heat-sealed, and the heat-sealed positions form two longitudinal boundaries 11, two lateral boundaries 21, A plurality of first longitudinal heat seal lines 13, a plurality of second longitudinal heat seal lines 15, two first transverse heat seal lines 23, a second transverse heat seal line 25, and a third transverse heat seal line 27. The first transverse heat seal line 23, the second transverse heat seal line 25 and the third transverse heat seal line 27 are parallel to the lateral boundary 21, and the first longitudinal heat seal line 13 and the second longitudinal heat seal line 15 are parallel to the longitudinal boundary 11 . After being inflated, a plurality of first air columns 31 are formed after being inflated between the first longitudinal heat seal lines 13, and the second longitudinal heat seal lines 15 are inflated to form a second air column 33. The first air columns 31 are located on both sides of the air column sheet 1 and the two lateral ends thereof are a first transverse heat seal line 23 and a second transverse heat seal line 25, respectively. The second gas column 33 is located in the middle of the gas column piece 1, and the length of the second gas column 33 is larger than the first gas column 31. The two ends of the second gas column 33 are respectively a second transverse heat seal line 25 and a third transverse heat seal line 27.

第一氣柱區C1包含該些第一氣柱31。第二氣柱區C2包含該些第二氣柱33,且第二氣柱區C2位於二第一氣柱區C1之間。各第二氣柱33包含一節點40,節點40設置於第二氣柱33中,通常係將兩外膜b熱封所形成。一般而言,節點40及對應的二第二縱向熱封線15之間具有二間距331,在充氣時,使氣體通過。又節點40與二第一橫向熱封線13共同形成一第一轉折線F1,而第二氣柱區C2與二第一氣柱區C1的交界形成二第二轉折線F2,用以轉折。The first gas column region C1 includes the first gas columns 31. The second gas column region C2 includes the second gas column 33, and the second gas column region C2 is located between the two first gas column regions C1. Each of the second gas cylinders 33 includes a node 40 disposed in the second gas column 33, usually formed by heat sealing the two outer membranes b. In general, the node 40 and the corresponding two second longitudinal heat seal lines 15 have a second spacing 331 between them to allow gas to pass during inflation. The node 40 and the two first transverse heat seal lines 13 together form a first turning line F1, and the boundary between the second air column area C2 and the two first air column areas C1 forms two second turning lines F2 for turning.

在第二橫向熱封線25與橫向邊界21之間還包含一第四橫向熱封線29,在第二橫向熱封線25與第四橫向熱封線29之間設置有複數個氣閥50,該些氣閥50分別對應於第一氣柱31及第二氣柱33。A fourth transverse heat seal line 29 is further disposed between the second transverse heat seal line 25 and the lateral boundary 21, and a plurality of air valves 50 are disposed between the second transverse heat seal line 25 and the fourth transverse heat seal line 29. The gas valves 50 correspond to the first gas column 31 and the second gas column 33, respectively.

不進氣區A1位於第二氣柱區C2的兩側,並緊鄰第一氣柱區C1。第二氣柱區C2與二不進氣區A1的交界形成二第三轉折線F3,又第二轉折線F2及第三轉折線F3之連線係第二縱向熱封線15最外側的兩者。The non-intake area A1 is located on both sides of the second air column area C2 and is adjacent to the first air column area C1. The boundary between the second air column region C2 and the two non-intake region A1 forms two third turning lines F3, and the connecting line between the second turning line F2 and the third turning line F3 is the outermost two of the second longitudinal heat sealing lines 15. By.

如第2圖所示,首先,氣柱片1可沿著第一轉折線F1轉折,使得第二氣柱區C2被轉折成兩個區塊,一個區塊與第一氣柱區C1緊鄰排列,而另一區塊與不進氣區A1緊鄰, 並位於兩不進氣區A1的中間。接著,可以如第3圖所示,再沿著第二轉折線F2轉折,使得第一氣柱區C1與第二氣柱區C2垂直不供面。並且可以將兩氣柱片1以倒置方式相對排列。As shown in Fig. 2, first, the air column piece 1 can be turned along the first turning line F1, so that the second air column area C2 is turned into two blocks, and one block is arranged in close proximity to the first air column area C1. The other block is adjacent to the non-intake area A1 and is located in the middle of the two non-intake areas A1. Then, as shown in FIG. 3, the second turning line F2 is further turned, so that the first air column region C1 and the second air column region C2 are not perpendicular to the surface. And the two gas column sheets 1 can be arranged opposite each other in an inverted manner.

再次參閱第1圖,第二橫向熱封線25與橫向邊界21之間形成一第一對接區A2、第三橫向熱封線27與另一橫向邊界21之間形成一第二對接區A3。第一縱向熱封線13中最外側的兩者與縱向邊界11之間形成二第三對接區A4。接著如第3圖,一氣柱片1的第一對接區A2連接另一氣柱片1的第二對接區A3、第二對接區A3連接另一氣柱片1的第一對接區A2。二氣柱片2的二第三對接區A4,分別與另一氣柱片1之二第三對接區A4反向地相互對接。將兩氣柱片1一面對接後的下視圖如第4圖所示,其中可以注意的事,不進氣區A1在對接後沿第三轉折線F3壓折後收入緩衝盒結構2中。進一步地,不進氣區A1係以平行於第一橫向熱封線的一中線L對折後,收入緩衝盒結構2中。Referring again to FIG. 1, a first docking zone A2 is formed between the second lateral heat seal line 25 and the lateral boundary 21, and a second docking zone A3 is formed between the third lateral heat seal line 27 and the other lateral boundary 21. Two outermost two of the first longitudinal heat seal lines 13 form a second third butt joint A4 with the longitudinal boundary 11. Next, as shown in FIG. 3, the first docking area A2 of the air column piece 1 is connected to the second docking area A3 of the other air column piece 1, and the second docking area A3 is connected to the first docking area A2 of the other air column piece 1. The two third docking areas A4 of the two-column sheet 2 are opposite to each other in the opposite direction to the third docking area A4 of the other air column sheet 1, respectively. The lower view of the two gas column sheets 1 facing each other is as shown in Fig. 4, wherein it can be noted that the non-intake area A1 is folded into the buffer box structure 2 after being butted along the third turning line F3. . Further, the non-intake area A1 is folded in half with a center line L parallel to the first transverse heat seal line, and is received in the buffer box structure 2.

不進氣區A1收入後與第一氣柱區C1或第二氣柱區連接C2。或者,各不進氣區A1收入後與對應之第三對接區A4連接。After the income of the non-intake area A1 is connected to the first air column area C1 or the second air column area, C2 is connected. Alternatively, each of the non-intake areas A1 is connected to the corresponding third docking area A4.

如第5圖及第6圖所示,在兩氣柱1相互對接後,可以將欲保護的物件100放入緩衝盒結構2中後,將兩氣柱片1另一組第一對接區A2連接另一氣柱片1的第二對接區A3、第二對接區A3連接另一氣柱片1的第一對接區A2,並將不進氣區A1壓折後收入,而完成物件的緩衝包裝。As shown in FIG. 5 and FIG. 6, after the two air columns 1 are butted together, the object 100 to be protected can be placed in the buffer box structure 2, and the first pair of first docking areas A2 of the two air column sheets 1 can be The second docking zone A3 and the second docking zone A3 connected to the other air column piece 1 are connected to the first docking zone A2 of the other air column piece 1, and the non-intake zone A1 is crimped and then incomeed, thereby completing the buffer packaging of the object.

本發明的技術特徵藉由在氣柱片中設計了不進氣區,並且在兩氣柱片相互接、形成緩衝盒結構後,能將不進氣區折入,且使外部能夠平滑而沒有突起,能平貼於外箱的內表面,增加內部容置的比例,並減少材料的浪費。The technical feature of the present invention is that the non-intake zone is designed in the air column piece, and after the two gas column pieces are connected to each other to form a buffer box structure, the non-intake area can be folded in, and the outside can be smoothed without The protrusions can be flatly attached to the inner surface of the outer box, increasing the proportion of internal accommodation and reducing material waste.

雖然本發明的技術內容已經以較佳實施例揭露如上,然其並非用以限定本發明,任何熟習此技藝者,在不脫離本發明之精神所作些許之更動與潤飾,皆應涵蓋於本發明的範疇內,因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。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 any modifications and refinements made by those skilled in the art without departing from the spirit of the present invention are encompassed by the present invention. The scope of protection of the present invention is therefore defined by the scope of the appended claims.

1‧‧‧氣柱片
2‧‧‧緩衝盒結構
11‧‧‧縱向邊界
13‧‧‧第一縱向熱封線
15‧‧‧第二縱向熱封線
21‧‧‧橫向邊界
23‧‧‧第一橫向熱封線
25‧‧‧第二橫向熱封線
27‧‧‧第三橫向熱封線
29‧‧‧第四橫向熱封線
31‧‧‧第一氣柱
33‧‧‧第二氣柱
331‧‧‧間距
40‧‧‧節點
50‧‧‧氣閥
100‧‧‧物件
a‧‧‧外膜
A1‧‧‧不進氣區
A2‧‧‧第一對接區
A3‧‧‧第二對接區
A4‧‧‧第三對接區
C1‧‧‧第一氣柱區
C2‧‧‧第二氣柱區
F1‧‧‧第一轉折線
F2‧‧‧第二轉折線
F3‧‧‧第三轉折線
L‧‧‧中線
1‧‧‧ gas column
2‧‧‧buffer box structure
11‧‧‧ vertical boundary
13‧‧‧First longitudinal heat seal line
15‧‧‧Second longitudinal heat seal line
21‧‧ ‧ horizontal boundary
23‧‧‧First transverse heat seal line
25‧‧‧second transverse heat seal line
27‧‧‧ Third transverse heat seal line
29‧‧‧Fourth transverse heat seal line
31‧‧‧First gas column
33‧‧‧Second gas column
331‧‧‧ spacing
40‧‧‧ nodes
50‧‧‧ gas valve
100‧‧‧ objects
A‧‧‧outer membrane
A1‧‧‧ non-intake area
A2‧‧‧First docking area
A3‧‧‧Second docking area
A4‧‧‧ third docking area
C1‧‧‧The first gas column area
C2‧‧‧Second gas column area
F1‧‧‧First turning line
F2‧‧‧second turning line
F3‧‧‧ Third turning line
L‧‧‧ midline

第1圖為緩衝盒結構中一氣柱片的上視示意圖。 第2圖為緩衝盒結構中一氣柱片的轉折示意圖。 第3圖至第6圖為對接二氣柱片形成緩衝盒結構的逐步示意圖。Figure 1 is a top plan view of a gas column in a buffer box structure. Figure 2 is a schematic view showing the turning of a gas column in the buffer box structure. Fig. 3 to Fig. 6 are step-by-step diagrams showing the structure of the buffer box formed by docking the two gas column sheets.

2‧‧‧緩衝盒結構 2‧‧‧buffer box structure

A1‧‧‧不進氣區 A1‧‧‧ non-intake area

A2‧‧‧第一對接區 A2‧‧‧First docking area

A4‧‧‧第三對接區 A4‧‧‧ third docking area

Claims (10)

一種緩衝盒結構,包含: 二氣柱片,各該氣柱片包含: 二第一氣柱區,各該第一氣柱區包含複數個第一氣柱,該等第一氣柱的一端為一第一橫向熱封線; 一第二氣柱區,位於該二第一氣柱區之間,該第二氣柱區包含複數個第二氣柱,該等第二氣柱的長度大於該第一氣柱,且各該第二氣柱包含一節點,該等節點與該等第一橫向熱封線形成一第一轉折線,而該第二氣柱區與該二第一氣柱區的交界形成二第二轉折線;以及 二不進氣區,位於該第二氣柱區的兩側,並緊鄰該等第一氣柱區,其中該第二氣柱區與該二不進氣區的交界形成二第三轉折線; 其中各二氣柱片各沿著該第一轉折線、該等第二轉折線轉折後,以倒置方式相對排列,並將該二氣柱之該等第一氣柱區的邊緣及該第二氣柱區的邊緣相互對接,且各該不進氣區在對接後沿該第三轉折線壓折後收入。A buffer box structure comprising: two gas column pieces, each of the gas column pieces comprising: two first gas column regions, each of the first gas column regions comprising a plurality of first gas columns, one end of the first gas column being a first transverse heat seal line; a second gas column region between the two first gas column regions, the second gas column region comprising a plurality of second gas columns, the second gas column having a length greater than the a first gas column, and each of the second gas columns includes a node, the nodes forming a first turning line with the first transverse heat sealing line, and the second air column area and the second first air column area a second transition line formed by the junction; and two non-intake regions located on both sides of the second air column region and adjacent to the first air column region, wherein the second air column region and the second air column region The intersection of the zones forms a second third turning line; wherein each of the two gas column pieces are respectively turned along the first turning line and the second turning line, and are arranged in an inverted manner, and the second gas column is arranged An edge of the air column region and an edge of the second air column region are butted against each other, and each of the non-intake region is folded along the third turning line after docking Into. 如請求項1所述之緩衝盒結構,其中該氣柱片更包含二縱向邊界、二橫向邊界、複數個第一縱向熱封線、複數個第二縱向熱封線、一第二橫向熱封線、以及一第三橫向熱封線,該第一橫向熱封線、該第二橫向熱封線以及該第三橫向熱封線平行於該等橫向邊界、該等第一縱向熱封線及該等第二縱向熱封線平行於該等縱向邊界,在該等第一縱向熱封線之間經充氣後形成該等第一氣柱、在該等第二縱向熱封線之間經充氣後形成該等第二氣柱,該第三橫向熱封線位於該等第二氣柱的一端,而該第二橫向熱封線位於該等第一氣柱及該等第二氣柱的另一端。The buffer box structure of claim 1, wherein the air column further comprises two longitudinal boundaries, two lateral boundaries, a plurality of first longitudinal heat seal lines, a plurality of second longitudinal heat seal lines, and a second transverse heat seal. a line and a third transverse heat seal line, the first transverse heat seal line, the second transverse heat seal line, and the third transverse heat seal line being parallel to the lateral boundaries, the first longitudinal heat seal lines, and The second longitudinal heat seal lines are parallel to the longitudinal boundaries, and after inflating between the first longitudinal heat seal lines, the first air columns are formed and inflated between the second longitudinal heat seal lines Forming the second gas column, the third transverse heat seal line is located at one end of the second gas column, and the second transverse heat seal line is located at the first gas column and the second gas column One end. 如請求項2所述之緩衝盒結構,其中在該第二橫向熱封線與該橫向邊界之間形成一第一對接區、該第三橫向熱封線與另一該橫向邊界之間形成一第二對接區,一氣柱片的該第一對接區連接另一氣柱片的該第二對接區、該第二對接區連接另一氣柱片的第一對接區。The buffer box structure of claim 2, wherein a first docking region is formed between the second lateral heat seal line and the lateral boundary, and a third lateral heat seal line is formed between the third lateral heat seal line and the other lateral boundary. The second docking zone, the first docking zone of one gas column piece is connected to the second docking zone of another gas column piece, and the second docking zone is connected to the first docking zone of another gas column piece. 如請求項3所述之緩衝盒結構,其中在該等第一縱向熱封線中最外側的兩者與該二縱向邊界之間形成二第三對接區,該二氣柱片的該二第三對接區,分別與另一氣柱片之該二第三對接區反向地相互對接。The buffer box structure of claim 3, wherein a second third docking zone is formed between the outermost two of the first longitudinal heat seal lines and the two longitudinal boundaries, the two The three docking areas are respectively opposite to each other in opposite directions from the two third docking areas of the other air column piece. 如請求項4所述之緩衝盒結構,其中各該不進氣區收入後與對應之該等第三對接區連接。The buffer box structure of claim 4, wherein each of the non-intake areas is connected to the corresponding third docking area. 如請求項2所述之緩衝盒結構,其中在該第二橫向熱封線與該橫向邊界之間還包含一第四橫向熱封線,在該第二橫向熱封線與該第四橫向熱封線之間設置有複數個氣閥,該等氣閥對應於該等第一氣柱及該等第二氣柱。The buffer box structure of claim 2, further comprising a fourth transverse heat seal line between the second transverse heat seal line and the lateral boundary, the second transverse heat seal line and the fourth lateral heat seal A plurality of gas valves are disposed between the seal lines, and the gas valves correspond to the first gas column and the second gas column. 如請求項2所述之緩衝盒結構,其中在各該節點及對應的二第二縱向熱封線之間具有二間距,在充氣時,使氣體通過。The buffer box structure of claim 2, wherein there is a two-pitch between each of the nodes and the corresponding two second longitudinal heat seal lines, and when inflated, the gas is passed. 如請求項2所述之緩衝盒結構,其中該等第二轉折線及該等三轉折線的連線係為該等第二縱向熱封線最外側的兩者。The buffer box structure of claim 2, wherein the connecting lines of the second turning line and the three turning lines are the outermost sides of the second longitudinal heat sealing lines. 如請求項1所述之緩衝盒結構,其中各該不進氣區收入後與該第一氣柱區或該第二氣柱區連接。The buffer box structure of claim 1, wherein each of the non-intake regions is connected to the first air column region or the second air column region. 如請求項1所述之緩衝盒結構,其中各該不進氣區收入後以平行於該第一橫向熱封線的一中線對折。The buffer box structure of claim 1, wherein each of the non-intake regions is folded in half by a center line parallel to the first transverse heat seal line.
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