The present invention relates to a buffering sheath, and particularly to an airtight sheath being adjustable in size for packing various shapes of objects.
With the vigorous development of the technical industry, electronic and telecommunication products, such as smart phones, tablets, laptops, and flat LCD TV sets, become more and more exquisite in terms of structure. For ensuring the integrity of these products throughout their packing, transport and delivery, packing materials play an important role. In early days, foam and other soft, loose material were placed in cartons for providing buffering protection. However, their effects are limited as they are unable to be uniformly arranged and they tend to scatter around.
To overcome the foregoing shortcomings, some packing dealers started to use an inflatable air pack as cushioning material. Such an inflatable air pack has a sheet-like shape constructed with a plurality of air columns. In packing, lots of the inflatable air packs are to be placed around an object and to try to stuff the space in a carton in order to protect the object inside. Even though the air packs are arranged in a form in the carton more integral than that of traditional form packing materials, the multiple air packs still remain scattered in the carton. Besides, conventional air packs fail to protect electrical products or other objects during the process of loading objects into the carton because of the sheet-like shape of conventional air packs. That is, electrical products or objects are highly exposed to the risk of impact during loading or delivery to be loaded. Furthermore, electrical products, such as, tablets, lap tops or game consoles are varied in sizes, while conventional air packs are not designed to be adjustable in sizes to fit different widths or lengths of electrical products. In other words, it may need more packing materials to stuff the carton, or more cartons of different sizes are required for different sizes of packing materials, which all result in an inconvenient, troublesome, and a higher cost of packing.
Accordingly, an object of the present invention is to provide an airtight sheath which is adjustable in size for packing objects of different sizes and for providing sound protection for the objects.
To achieve the above-mentioned object, the airtight sheath, which is made of at least two outer films being heat-sealed together, comprises a first buffering unit comprising a plurality of first air columns. A second buffering unit comprises a plurality of second air columns arranged apart from the first air columns, and two terminating sides formed at opposite sides of the second buffering unit, the terminating sides being heat-sealed to two opposite sides of the first buffering body. A bottom buffering unit comprises a plurality of bottom air columns, two opposite sides of the bottom buffering unit integrally respectively connecting the first and second buffering units such that the bottom air columns correspondingly communicating with the first air columns and the second air columns to enable air to flow thereamong, the first, second, and bottom air columns cooperatively surrounding to form a packing space therein. A foldable unit integrally extends from one side of the second buffering unit opposite to the bottom buffering unit, and comprises a bending body, and a plurality of abutting air columns extending from and communicating with the bending body, the bending body being bendable from the second buffering unit so that the foldable unit is foldable into the packing space, where the packing space is capable of being narrowed by the abutting air columns and the first buffering unit.
In one aspect of the present invention, the foldable unit further comprises a plurality of foot air columns connected to ends of the abutting air columns opposite to the bending body, and the foot air columns are being propped against the first buffering unit and bend toward the abutting air columns when the foldable unit is folded into the packing space.
In another aspect of the present invention, the airtight sheath further comprises a suspending layer located in the packing space, one end of the suspending layer is heat-sealed to a top of the first buffering unit, and another end of the suspending layer is heat-sealed to a top of the second buffering unit, and the foot air columns abut onto a bottom of the suspending layer when the foldable unit is folded in the packing space.
In another aspect of the present invention, the foldable unit further comprises two deflated portions formed at opposite end portions of the foldable unit and being flush and terminated with the terminating sides of the second buffering body, and the deflated portions are heat-sealed to be laminated so as to facilitate folding of the foldable unit.
In another aspect of the present invention, any two of the adjacent second air columns are further provided with a narrowing sealing line, which is heat-sealed with the first buffering unit to further narrow the packing space.
The airtight sheath of the present invention utilizes either the foldable unit which is foldable into the packing space or the narrowing sealing line to adjust the size of the packing space, so as to fit and tightly package an object having a smaller size. As the foldable unit is unfolded, the packing space is capable of packing an object having a larger size. In this manner, one airtight sheath of the present invention is capable of packing different sizes of objects, and therefore there is no need to provide various sizes of packing materials for packing objects of different sizes, whereby successfully overcoming the problem of high manufacturing costs and inconvenience arising from traditional packing materials that are incapable of being adjusted in size for packing objects.
The present invention discloses an airtight sheath 10, which is made of two outer films 101 and 102 being heat-sealed together, and is capable of being rapidly inflated to form a three-dimensional buffering structure with an adjustable packing space 100 therein for packing an object 6 and protecting it from being damaged by external impact. The object 6 is, for example, a lap top, a tablet, or a display pane.
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Likewise, as the foldable unit 4 is unfolded, the packing space 100 is also capable of accommodating an object 6 having a different size, i.e. a size of grater thickness or length, and the foldable unit 4 is capable of remaining straight and abutting onto the object 6 so as to expand the area of side protection for the object 6, as shown in
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Accordingly, the airtight sheath 10 of the present invention utilizes either the foldable unit 4 which is foldable into the packing space 100 or the narrowing sealing line 22 to adjust the size of the packing space 100, so as to fit and tightly package an object 6 having a smaller size. As the foldable unit 4 is unfolded, the packing space 100 is capable of packing an object 6 having a greater size. In this manner, a single airtight sheath 10 of the present invention is capable of packing different sizes of objects 6, and therefore there is no need to provide various sizes of packing materials for packing objects of different sizes. Therefore, the airtight sheath 10 of the present invention successfully overcomes the problem of highly manufacturing costs and inconvenience arising from traditional packing materials that are incapable of being adjusted in size for packing objects.
It is understood that the invention may be embodied in other forms within the scope of the claims. Thus the present examples and embodiments are to be considered in all respects as illustrative, and not restrictive, of the invention defined by the claims.