Not applicable.
Not applicable.
1. Field of the Invention
This disclosure relates to pouches and, more particularly, to a stand-up pouch with a collapsible body.
2. Background of the Invention
A typical pouch for thy storage of items, such as food or other household items, is made of a thin film, such as thermoplastic or foil, so that the pouch is flexible enough to be collapsed into a substantially flat or folded configuration and expanded to accommodate items that are stored therein. Generally, the typical pouch is unable to stand upright by itself without some external support, such as from a user holding the pouch open. In addition, the typical pouch commonly includes heat seals along the sides and/or bottom, along which leaks or tears may be more likely to occur.
Attempts have been made in the past to modify a typical pouch such that a user does not have to hold the pouch open while trying to fill an interior thereof, in order to tree up both hands of fire user during the tilling process. Prior attempts have focused on creating complex gusset patterns in walls of the pouch and/or to rely on using complicated multilayer wall panels, wherein the wall panels may be extruded by conventional web extrusion methods and subsequently formed and sealed along seams into the general form of a pouch.
One suggested, modification to the typical pouch includes providing gusseted wall panels, such as a bottom gusset, front and back panels, and first and second gusseted side panels. The bottom gusset is expandable to provide a simple base structure upon which the pouch can stand in an upright position. The gusseted wall panels are made from a constant thickness film, wherein the sidewalls of the pouch are flexible and tend to fold over or collapse when the pouch is not filled. Further, the pouch with gusseted wall panels can include a multipart closure profile at an upper opening thereof. The multipart closure profile is a relatively complex structure that includes inwardly facing profiles on opposite inner surfaces of the front and back panels and outwardly facing profiles on adjacent outer surfaces of the first and second gusseted side panels. In order to seal the opening of the pouch, the front and back panels are folded together so that the inwardly lacing profiles interlock, while each of the first and second gusseted side panels are folded generally in half so that the outwardly lacing profiles interlock.
Another suggested modification to the typical pouch is to form a pouch from a multilayer film that is heat-sealed together along side and bottom portions thereof to form a pouch with a bottom gusset. More specifically, the multilayer film must be composed of materials that are heat-sealable at different ranges of temperatures to avoid heat sealing incorrect walls together during the manufacturing process.
In one example, a pouch includes a body formed from a film that defines a generally flat base and an upstanding wall that extends from the base to form an elongate mouth having first and second opposing faces. The film has a first thickness at a lower portion of the body that is greater than a second thickness at an upper portion of the body, and the body stands independently in an upright position upon the base when in an expanded position.
In another example, a pouch includes a seamless body formed from a material to define a generally flat base and an upstanding wall that extends from the base to form an elongate mouth having first and second opposing faces. The material has a first thickness at a lower portion of the body that is greater than a second thickness at an upper portion of the body, and the body stands independently in an upright position upon the base when in an expanded position.
In a further example, a pouch includes a body having a generally flat base and an upstanding wall that extends from the base to form a mouth. An upper portion of the body is formed from a first material and a lower portion of the body is formed from a second material that is more rigid than the first material, to allow the body to stand independently in an upright position upon the base when in an expanded position.
A pouch is disclosed herein that is designed to stand independently in an upright position on a base portion. The pouch is sufficiently rigid to maintain its shape while it is being filled with items, yet flexible enough to be easily collapsed for storage, when not in use, or collapsed about items stored within the pouch to occupy a smaller volume when in use. In one embodiment, the pouch has a seamless body to minimize weak spots therein and to avoid the formation of leaks or tears. Additionally, the body of the pouch can be formed to define an elongate opening to facilitate the attachment of a closure mechanism thereto, such as a leak proof extruded thermoplastic interlocking closure.
In one example, a pouch includes a body formed from a film that defines a generally flat base and an upstanding wall that extends from the base to form an elongate mouth having first and second opposing faces. The film has a first thickness at a lower portion of the body that is greater than a second thickness at an upper portion of the body, so that the body can stand independently in an upright position upon the base when in an expanded position. In various examples, the thickness of the film transitions gradually from the first thickness to the second thickness or transitions in one or more steps from the first thickness to the second thickness. Further, the body can include at least one fold line about which the body is collapsible and expandable. Still further, the first thickness can be about three times the thickness of the second thickness. In another example, the flat base is a generally oval shape. In yet another example, the body is seamless and formed from a single layer thermoplastic film, wherein the first thickness can be between about 6 mils (about 0.15 mm) and about 15 mils (about 0.38 mm), and the second thickness can be between about 1 mils (about 0.025 mm) and about 5 mils (about 0.13 mm). Another aspect of the present pouch can be an elongate closure mechanism disposed adjacent to the elongate mouth, wherein the elongate closure mechanism includes a first closure profile disposed on the first face and a second closure profile disposed on the second face. The first closure profile occludes and deoccludes with the second closure profile to provide a substantially leak proof resealable closure for the pouch. Additionally, a slider can be coupled to the closure mechanism for occluding and deoccluding the closure profiles.
In another example, a pouch includes a seamless body formed from a material to define a generally flat base and an upstanding wall that extends from the base to form an elongate mouth having first and second opposing faces. The material has a first thickness at a lower portion of the body that is greater than a second thickness at an upper portion of the body, so that the body can stand independently in an upright position upon the base when in an expanded position. The material can be a single layer thermoplastic film. Further, the thickness of tire material can transition gradually from the first thickness to the second thickness or can transition in one or more steps from the first thickness to the second thickness. Additionally, the pouch can include a plurality of hinges in the body about which the body is collapsible and expandable. Still further, the pouch may include an elongate closure mechanism disposed adjacent to the elongate mouth, and a slider coupled to the closure mechanism for occluding and deoccluding the closure mechanism. The single elongate closure mechanism can include a first closure profile disposed on the first face and a second closure profile disposed on the second face. The first closure profile occludes and deoccludes with the second closure profile to provide a substantially leak proof resealable closure for the pouch.
In yet another example, a pouch includes a body having a generally flat base and an upstanding wall that extends from the base to form a mouth. An upper portion of the body is formed from a first material and a lower portion of the body is formed from a second material that is more rigid than the first material, to allow the body to stand independently in an upright position upon the base when in an expanded position. In various examples of the present example, the pouch is seamless and formed from a single layer film. Further, the first material can have a thickness that is lesser than the thickness of the second material. Still further, the body can include at least one fold line about which the body is collapsible.
Referring now to
In one embodiment, the opening 42 has a substantially straight configuration that is suitable for the operational placement of a closure mechanism 46 thereto. In the present embodiment, the closure mechanism 46 includes first and second closure profiles 48, 50, respectively, disposed along the top portion 44 of the pouch 20, in such a manner to enable the opening 42 to be resealably closed. Each closure profile 48, 50 may be disposed on a respective internal side or surface of the first and second walls 26, 28, and first and second gusseted end walls 30, 32. The first and second closure profiles 48, 50 releasably occlude or seal with each other to open and to close the opening 42. Further, a slider 52 is operatively coupled to the first and second closure profiles 48, 50 to facilitate selective opening and closing thereof.
The pouch 20, according to one embodiment, is formed of a thermoplastic, such as low density polyethylene (LDPE), high density polyethylene (HDPE), linear low density polyethylene (LLDPE), polypropylene, nylon, or other heat moldable polymeric material. In other embodiments, the pouch 20 is made of organic or biodegradable polymers, such as polyesters based on lactic acid. Further, different portions of the pouch 20 may be formed from the same or different materials or combinations of such materials. For example, the closure profiles 48, 50 and a lower portion 54 of the body 22 that includes the base portion 24 and a lower portion of each of the walls 26-32 can be formed of a mixture of HDPE, LDPE, and LLDPE, to be more rigid than an upper portion 56 of the body 22 that is formed of LDPE to be more flexile and supple. In this embodiment, the more rigid lower portion 54 provides a stable base upon which the pouch 20 can stand upright without the need for additional support, for instance, from a user holding the pouch open and upright, or from a bowl or frame within which the pouch is positioned. The more flexible upper portion 56 provides an opening that can be easily opened and closed by a user. Further, in one embodiment, the pouch body is formed from a single layer of polyethylene and is seamless, to provide a leak-resistant pouch that is suitable to store food products and liquids.
While flexible and rigid can be relative terms, in one context, flexible can be considered in relation to the flexibility of a thermoplastic pouch that is easily deformable by an average human user and rigid can be considered in relation to the rigidity of a thermoplastic container that maintains its shape while it is being filled with items, such as solid or liquid food products, at about standard room temperature and atmospheric pressure. For example, a flexible thermoplastic pouch can be a Ziploc® brand freezer bag or sandwich bag manufactured by S.C. Johnson & Son, Inc. of Racine, Wis. (“S.C. Johnson”), and a rigid thermoplastic container can be a Ziploc® brand container similarly manufactured by S.C. Johnson. However, the concepts disclosed herein would be equally applicable to many others applications outside of such home storage products, as would be apparent to one skilled in the art.
Referring now to
In the embodiment of
The slider 52 (see, e.g.,
In
Referring now to
The pouches 20 disclosed herein can be formed by any appropriate known method, such as on a production line that utilizes a web of thermoplastic material that is formed into the pouch through known cutting, heat scaling, and extrusion techniques. For example, a multi-thickness, single layered web of thermoplastic material may be extruded, folded, heat sealed, and cut to form the pouch of
Other embodiments of the disclosure, including all the possible different and various combinations of the individual features of each of the foregoing described embodiments, are specifically included herein.
The present disclosure discloses various pouches that may be collapsible and are able to remain open on their own, without necessitating the use of a user's hands while trying to fill the pouch. The collapsible pouches disclosed herein, in some embodiments, overcome issues related to forming gusseted wall panels and/or complicated multilayer wall panels.
Numerous modifications to the present disclosure will be apparent to those skilled in the art in view of the foregoing description. Accordingly, this description is to be construed as illustrative only, and is presented for the purpose of enabling those skilled in the art to make and to use the invention, and to teach the best mode of carrying out the same. The exclusive right to all modifications within the scope of this disclosure is reserved.
This application is a continuation application of U.S. patent application Ser. No. 12/566,321, filed on Sep. 24, 2009, which was published as U.S. Patent Application Publication No. 2011/0069911 A1 on Mar. 24, 2011.
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Number | Date | Country | |
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Parent | 12566321 | Sep 2009 | US |
Child | 13944969 | US |