1. Field of the Invention
The presently disclosed and claimed inventive concept(s) relates generally to packaging materials for packaging articles, and more particularly, but not by way of limitation, to a packaging material which includes, in one embodiment, a decorative border and a plurality of individual strips, strands, or units of material bondably connected to the exterior surface of a flexible, inflatable substrate to form a cohesive inflatable cushioning unit for use as a packaging material.
2. Brief Description of the Related Art
In the process of shipping an article from one location to another, the article is typically placed in a container along with a protective packaging material to fill the voids about the article and to cushion the article during the shipping process. One common protective packaging material is comprised of a plurality of plastic foam, peanut-shaped members which are commonly known as “Styrofoam peanuts.” An advantage in using Styrofoam peanuts is the ease with which they may be disposed about an article positioned in a container by simply pouring the Styrofoam peanuts from a dispenser.
While Styrofoam peanuts have been widely accepted in the packaging industry, they are not without disadvantages. For example, their light weight and flowability results in heavier objects gravitating through the peanuts to the bottom of the container where the heavier objects can be damaged. Also, while the flowability of the Styrofoam peanuts facilitates the introduction of the peanuts into a container, the receiver of the package is left with having to deal with cleaning up the mess left by the peanuts which are easily scattered upon removal of the article from the container.
These and other disadvantages associated with the disposal of Styrofoam peanuts, has made paper protective packaging material a popular alternative. Paper is biodegradable, recyclable, and renewable therefore making it an environmentally responsible choice. However, like Styrofoam peanuts, paper packaging materials is not without disadvantages. Paper, particularly shredded paper, can be inconvenient to clean up and to dispose of due to the lack of cohesiveness of the packaging material. Due to the lack of resiliency in paper products, large amounts of paper are typically required to provide the bulk needed to adequately cushion an object.
Strips of sheet material formed into tufts have also been used for many years as a packaging material. More specifically, material known as decorative grass has been used in fruit baskets, Easter baskets, picnic baskets, and for other packaging and decorative purposes. The decorative grass of the prior art has been produced by numerous methods and from a variety of materials such as polymeric materials, paper, cellophane or the like. Typically, such materials are cut and shredded to produce segments having predetermined dimensions. As such, decorative grass, like Styrofoam peanuts and paper materials described above, can be inconvenient to clean up. Furthermore, the decorative grass can compress and lose its cushioning ability. Large amounts of decorative grass are necessary, therefore, in order to overcome such compression and/or compaction deficiencies.
To this end, a packaging material is needed that includes or mimics a plurality of resilient individual strips, strands, or units of material 30 intertwined with one another or other organic or inorganic materials that may be bondably connected to a flexible inflatable substrate so as to form a unitary cushioning unit which overcomes the above-mentioned disadvantages of prior art packaging materials and has the added benefit of providing a decorative border. It is to such a packaging material that the presently disclosed and claimed inventive concept(s) is directed.
Before explaining at least one embodiment of the presently disclosed and claimed inventive concept(s) in detail, it is to be understood that the presently disclosed and claimed inventive concept(s) is not limited in its application to the details of construction and the arrangement of the components set forth in the following description or illustrated in the drawings. The presently disclosed and claimed inventive concept(s) is capable of other embodiments or of being practiced or carried out in various ways and as such all such embodiments and/or equivalents are to be considered as being encompassed within the scope and description of the presently disclosed and claimed inventive concept(s). Also, it is to be understood that the phraseology and terminology employed herein is for purpose of description and should not be regarded as limiting.
The presently disclosed and claimed inventive concept(s) relates, generally, to a packaging material for use in filling boxes, baskets, and in any container used to protect, store, and/or ship articles or objects. In one embodiment, the packaging material includes an inflatable flexible bag having an interior surface and an exterior surface wherein the exterior surface has attached thereto a mass of individual, thin, flexible strips, strands, or units of material intertwined with one another to form a cohesive, resilient tuft. The mass of individual strips, strands, or units of material may also be attached to one another as well as being disposed on the exterior surface of the inflatable flexible bag. Other embodiments are also contemplated for use and are disclosed herein. In an alternate embodiment the inflatable flexible bag is exchanged or replaced by a flexible inflatable substrate.
The packaging material formed according to the methods disclosed herein may be incorporated into a package which additionally includes a container, such as a box or basket, and an object positioned within the container and on top of the packaging material. The packaging material is arranged in the container to support the object when the object is disposed in the container. The inflatable flexible bag may be caused to bond to the container and the object may be caused to bond to the packaging material. In use, the packaging material is substantially inflated so as to take up excess room in the container and protect and/or cushion the object.
The objects, features and advantages of the presently disclosed and claimed inventive concept(s) will become apparent from the following detailed description when read in conjunction with the accompanying drawings and appended claims.
Referring now to the drawings, and more specifically to
The plurality of individual strips, strands, or units of material 30 may also be organic or inorganic materials, including leaves, tree bark, branches, dirt, sand, sea shells, or any other type of organic or inorganic material that is capable of being bondably connected to the flexible inflatable substrate 40 to provide a decorative and/or cushioning effect. Furthermore, when the plurality of individual strips, strands, or units of material 30 are fabricated from a flexible sheet of material, additional inorganic and/or organic materials may be attached onto or be incorporated into or within the flexible sheet of material prior to or after its being used to fabricate the plurality of individual strips, strands, or units of material 30.
The printed pattern on the flexible sheet of material from which the plurality of individual strips, strands, or units of material 30 are fabricated can be printed in a conventional matter so that, when the sheet of material is slit and cut to produce the strips, strands, or units of material 30, at least a substantial portion of the strips, strands, or units of material 30 contain at least a portion of the printed pattern. Further, different colors can be employed to provide the printed pattern on the sheet of material from which the plurality of individual strips, strands, or units of material 30 is fabricated.
The sheet of material can also have one or more embossed patterns to provide the sheet of material with an embossed pattern. Further, the sheet of material can be provided with an embossed pattern as well as a printed pattern, and the embossed pattern can be either in register or out of register with the printed material and/or printed design.
The plurality of individual strips, strands, or units of material 30, as described above, in one embodiment are commonly referred to as strands, or units of “Easter grass” or “decorative grass”, and such, decorative grass has been used for many years for filling fruit baskets, Easter baskets, and picnic baskets and for other decorative and packaging purposes. The decorative grass of the prior art has been produced by numerous methods and from a variety of materials, such as those listed above. Typically, such materials are shredded and cut to produce segmented strips having predetermined dimensions. While the prior art methods for making decorative grass have been widely accepted, new techniques for facilitating the use of decorative grass as a packaging material have been sought in view of the fact that decorative grass and other loose shredded packaging material readily fall onto the floor, cling to various objects making them awkward and inconvenient to clean up, and compact and thereby no longer adequately cushion and/or protect the items placed thereon.
By connecting the tuft 20 (composed of a plurality of the strips, strands, or units of material 30) to the flexible inflatable substrate 40, the clean up problems associated with loose fill materials are alleviated and, because the flexible inflatable substrate 40 is capable of being inflated, the compacting problems with loose fill are also alleviated and lesser amounts of material are required. The flexible inflatable substrate 40 can also be caused to adhere or cohere to an object and/or the container in which it is placed thereby resulting in an enhanced packaging effect. That is, with loose packaging materials, the object being packaged has a tendency to gravitate through the packaging material to the bottom of the container thereby reducing the effectiveness of the packaging material. By using the inflatable packaging material 10 disclosed herein, the cohesiveness of the inflatable packaging material 10 surrounding the object prevents the object from gravitating through the container and coming to rest in the bottom of the container.
As best shown in
The flexible inflatable substrate 40 can also be embossed so as to provide the flexible inflatable substrate 40 with an embossed pattern. Further, the flexible inflatable substrate 40 can be provided with one or more embossed patterns as well as a printed pattern, and the one or more embossed patterns can be either in register or out of register (or partially both) with the printed material.
The first sheet of material 50 and the second sheet of material 60 of the flexible inflatable substrate 40 may be constructed of a single layer of material or a plurality of layers of the same or different types of materials. In addition, any thickness of the first sheet of material 50 and the second sheet of material 60 of the flexible inflatable substrate 40 may be utilized with the presently disclosed and claimed inventive concept(s). The first sheet of material 50 has an outer peripheral edge 70 and the second sheet of material 60 has an outer peripheral edge 80. The outer peripheral edge 70 of the first sheet of material 50 is bonded via a bonding material 90 to the outer peripheral edge 80 of the second sheet of material 60 to provide and define an expandable interior inflation space 100. Means for inflating 110 the flexible inflatable substrate 40 is placed within the expandable interior inflation space 100.
The means for inflating 110 the flexible inflatable substrate 40 may be any composition or assembly capable of inflating the expandable interior inflation space 100 to provide and place the inflatable packaging material 10 in its inflated configuration. For example, the means for inflating 110 the flexible inflatable substrate 40 may be associated with an exterior surface 120 of the flexible inflatable substrate 40 and be in fluid communication with the expandable interior inflation space 100—e.g., a tube capable of being sealed off after air and/or other gases and/or liquids are passed into the expandable interior inflation space 100.
In an alternative embodiment the means for inflating 110 the expandable interior inflation space 100 is an exothermic reaction assembly wherein, when the exothermic reaction assembly is activated, an exothermic reaction takes place thereby producing a gas capable of filling at least a portion of the expandable interior inflation space 100 of the flexible inflatable substrate 40. The exothermic reaction assembly may further include at least two chambers wherein at least one other chamber contains a weak basic composition and at least one chamber contains a weak acid composition that, when brought into reactive contact with one another (e.g., breaking each open to intermix the weak acid composition with the weak basic composition), react and form a gaseous reaction product that substantially fills the expandable interior inflation space 100 of the flexible inflatable substrate 40. The weak basic composition may in one embodiment include a Group I or Group II element. For example, the weak basic composition may be selected from the group consisting of sodium carbonate, calcium carbonate, and combinations thereof. The weak acid may be vinegar. Although certain compositions have been set forth as being included in the exothermic reaction assembly, any combination of compositions that, when placed in reactive contact with one another, produce a gaseous reaction that substantially fills the expandable interior inflation space 100 of the flexible inflatable substrate 40 are considered for use.
Although the flexible inflatable substrate 40 is shown in
To receive the tuft 20, the exterior surface 120 of the flexible inflatable substrate 40 is coated with a bonding material 130 (which may be the same as the bonding material 90) such as an adhesive or cohesive whereby the tuft 20 is caused to bond to the exterior surface 120 of the flexible inflatable substrate 40 as illustrated in
The term “bonding material” as used herein can mean an adhesive, frequently a pressure sensitive adhesive, or a cohesive or any adhesive/cohesive combination, having adhesive qualities (i.e., qualities of adhesion or adhesion/cohesion, respectively) sufficient to effect the connection between portions of the tuft 20 brought into engagement with the flexible inflatable substrate 40. It will be appreciated that both adhesives and cohesives suitable for the purposes described herein are well known in the art, and both are commercially available.
The roll of material 150 provides a web of sheet material 180 which is passed through a slitter 190. The slitter 190 includes a plurality of spaced apart, stationary knives or other conventional cutting mechanism, which slit or cut the web of sheet material 180 into the individual strips, strands, or units of material 30 of into a desired width.
The slitted web of sheet material 180 is thereafter passed into a cutter 200 where the slitted web of sheet material 180 is cut into predetermined lengths so as to form the individual strips, strands, or units of material 30. From the cutter 200, the individual strips, strands, or units of material 30 are conveyed by a conveyor unit 210, which is in the form of a centrifugal blower, to a storage area (not shown) which may be in the form of a suitable bin, packaging machine, or the like.
As an alternative to forming the individual strips, strands, or units of material 30 from the roll of material 150, it will be appreciated that the individual strips, strands, or units of material 30 may be formed from a polymeric film discharged from a film extrusion die which is then chilled prior to the slitting process. Such a method is disclosed in U.S. Pat. No. 4,292,266, entitled “Process for Making Decorative Grass”, issued to Weder et al. on Sep. 29, 1981, which is hereby expressly incorporated herein in its entirety by reference.
As illustrated in
To assemble the inflatable packaging material 10, the individual strips, strands, or units of material 30 are amassed and intertwined to form the tuft 20 and then the tuft 20 is bondably connected to the flexible inflatable substrate 40 (
Referring now to
The structure of the flexible inflatable bag 340 can be that of any flexible inflatable bag suitable for being used in a packaging manner. For example, the flexible inflatable bag 340 can be fabricated from a sheet of material having a relatively small thickness and being of the type commonly referred to in the art as a “film”. More particularly, the sheet of material can be a processed, man-made organic polymer film selected from the group of films consisting of polypropylene, polyvinyl chloride, or combinations thereof. However, it is to be noted that the sheet of material may also be constructed from a material selected from a group of materials consisting of plastic film, cellophane, paper, cloth, or combinations thereof. Alternatively, the flexible inflatable bag 340 may be of the type used typically to package sandwiches, such as a Glad™ sandwich bag. The flexible inflatable bag 340 may also be a corsage bag, a balloon, a water storage bag, or any flexible bag or container that is capable of being inflated.
The flexible inflatable bag 340 is characterized as having the exterior surface 330 as well as an interior surface 350 with the interior surface 350 defining an expandable interior inflation space 360. As best shown in
Upon the tuft 310 being placed onto the flexible inflatable bag 340, the tuft 310 will bondingly connect to the exterior surface 330 of the flexible inflatable bag 340 via the bonding material 370. After the tuft 310 has been disposed onto the flexible inflatable bag 340, the flexible inflatable bag 340 may be inflated via a means for inflating 380 the flexible inflatable bag 340 disposed in the expandable interior inflation space 360 to form the inflatable packaging material 300. The means for inflating 380 the flexible inflatable bag 340 is the same as the means for inflating 110 the flexible inflatable substrate 40 of the inflatable packing material 10 as described hereinabove. It should be appreciated that with the tuft 310 disposed on the flexible inflatable bag 340, the flexible inflatable bag 340 can be stored, transported, and displayed in a conventional manner when it is in its inflated configuration or in its non-inflated configuration.
In addition to, or as an alternative to coating the exterior surface 330 of the flexible inflatable bag 340 with the bonding material 370, the tuft 310 may be connected to the exterior surface 330 of the flexible inflatable bag 340 via a bonding material 390 (
With the flexible inflatable bag 340 inflatable, the inflatable packaging material 300 may then be positioned in an interior 420 of the basket 400 such that the flexible inflatable bag 340 substantially conforms to the contour of the interior 420 of the basket 400 and thereby lines the interior 420 of the basket 400 with the plurality of articles or objects 230 being supported by the tuft 310 and the tuft 310 being held in the basket 400.
It will be appreciated that coating the tuft 310 with a bonding material in the manner discussed above provides an additional advantage of improved object support. That is, with loose packaging materials, objects being packaged often have a tendency to gravitate through the packaging material to the bottom of the container thereby reducing the effectiveness of the packaging material. By providing a bonding material on the individual strips, strands, or units of material 320 making up the tuft 310, the cohesiveness of the tuft 310 supporting the plurality of articles or objects 410 prevent the plurality of articles or objects 410 from gravitating through the tuft 310.
As shown in
In using the inflatable packaging material 300 described above, it should be appreciated that a single unit of the inflatable packaging material 300 can be used in a container or on a surface or multiple units of the inflatable packaging material 300 can be used by either nesting one inflatable packaging material 300 into another inflatable packaging material 300 or otherwise layering one inflatable packaging material 300 on top of another inflatable packaging material 300, thereby increasing the volume and/or density of the inflatable packaging material 300.
From the above description it is clear that the presently disclosed and claimed inventive concept(s) is well adapted to carry out the objects and to attain the advantages mentioned herein as well as those inherent in the presently disclosed and claimed inventive concept(s). While presently preferred embodiments of the presently disclosed and claimed inventive concept(s) have been described for purposes of this disclosure, it will be understood that numerous changes may be made which will readily suggest themselves to those skilled in the art and which are accomplished within the spirit of the inventive concept(s) disclosed and as defined in the appended claims.
The following patents and patent applications are hereby expressly incorporated herein by reference: U.S. Ser. No. 13/011,325, filed Jan. 21, 2011; U.S. Ser. No. 12/634,086, filed Dec. 9, 2009; U.S. Ser. No. 11/283,008, filed Nov. 18, 2005; U.S. Ser. No. 10/383,413, filed Mar. 7, 2003; U.S. Ser. No. 09/934,301, filed on Aug. 21, 2001, now U.S. Pat. No. 6,534,136, issued Mar. 18, 2003; U.S. Ser. No. 09/094,182, filed Jun. 9, 1998.
Number | Date | Country | |
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Parent | 13011325 | Jan 2011 | US |
Child | 13735328 | US | |
Parent | 12634086 | Dec 2009 | US |
Child | 13011325 | US | |
Parent | 11283008 | Nov 2005 | US |
Child | 12634086 | US | |
Parent | 10383413 | Mar 2003 | US |
Child | 11283008 | US | |
Parent | 09094182 | Jun 1998 | US |
Child | 09934301 | US |
Number | Date | Country | |
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Parent | 09934301 | Aug 2001 | US |
Child | 10383413 | US |