The present invention relates to packaging, and more particularly to point-of-sale product packages.
A wide variety of products intended for retail sale are packaged in packaging that includes plastic components. One of the most common forms of plastic point-of-sale packages is a blister package. A typical blister package includes a shaped plastic blister that forms the main cavity of the package and a backer panel that closes the cavity. The backer panel is often sealed to the blister, for example, by adhesive to enclose the product within the cavity. The backer panel may be formed from paperboard, plastic, aluminum or other similar materials. Because of the use of a paperboard backer panel, a blister package has the potential to be a relatively low cost packaging solution. The amount of plastic used to contain the product is relatively small and the backer panel can be sized to provide ample space for printed content.
Another common form of plastic point-of-sale package is a clamshell package. A typical clamshell package includes a pair of formed plastic parts (often “halves”) that are joined along a hinge. The parts can be closed about the hinge to entrap the product to be packaged. Clamshell packages vary dramatically in design and configuration. For example, some clamshell packages are sealed shut to protect the contents of the package until it is opened, while other clamshell packages are resealable. With sealed clamshell packages, it is often necessary to at least partially destroy the package to gain access to the contents. In a resealable configuration, the clamshell can be formed with contours that permit the two clamshell parts to be friction interfitted in a way that holds the parts together in a closed configuration about the packaged contents. It is not uncommon to incorporate paper or paperboard inserts into clamshell packages. For example, information and other content can be printed on an insert that is enclosed within the clamshell.
In some applications, a hybrid clamshell package is formed by securing paperboard panels or other similar materials around the peripheral edges of the clamshell. The hybrid package provides, among other things, the added advantage of additional space for additional printed content. Although it enjoys some benefits, the presence of the hinge in the clamshell presents a challenge to hybrid package construction. Conventional constructions provide two options for dealing with the hinge. In one type of construction, the hinge is trapped between the paperboard panels. This provides a strong package because the clamshell is joined to the paperboard around its entire periphery. However, because the hinge is positioned between the paperboard panels, opening and closing of the package forces the paperboard apart, which can cause the paperboard to buckle and tear near the hinge. This problem can be exacerbated with repeated opening and closing of the blister. The peeling and tearing of the paperboard can ultimately break the connection between the paperboard and the blister, which can weaken the package and impact its aesthetic appearance. The second type of hybrid construction includes paperboard panels that are shaped so that they do not entrap the hinge. This prevents the issues of buckling and tearing discussed above, but provides a somewhat weaker package because the clamshell and paperboard panels are not laminated along the hinge.
The present invention provides a hybrid package having a clamshell with a peripheral flange and at least one backer panel extending over at least a portion of the flange. The clamshell includes an operating hinge that is adjacent the flange, but spaced from the panel to enable opening and closing of the clamshell when the flange is covered by the panel. In one embodiment, the clamshell includes two hinges, including a manufacturing hinge disposed along the peripheral edge of the flange and the operating hinge disposed inwardly from the peripheral edge. In one embodiment, the manufacturing hinge permits the clamshell to pivot or fold over itself during manufacture to bring the clamshell parts into mating alignment and the operating hinge permits the clamshell to be opened and closed after the package is completed. In this embodiment, the region between the two hinges defines at least a portion of the flange such that the flange and panel may engage adjacent to the operating hinge.
According to one aspect, the package includes a first hinge to divide the clamshell into first and second parts that are shaped to cooperatively form a cavity to contain the packaged article(s) and a flange extending around at least a portion of the periphery of the clamshell. The first part may include a peripheral lip that extends entirely about the first part. The second part may include a second hinge spaced apart from the first hinge by a lip section. When the first and second parts are folded together along the first hinge, the lip section of the second part overlaps the peripheral lip of the first part, and they cooperatively define the flange. The second hinge is disposed inwardly from the peripheral edge and provides a hinge about which the second part is adapted to pivot away from the first part to an open position. The panel is joined to flange along at least a portion of the overlapped flange section, with the second hinge being free from the panel so that the second part can pivot about the second hinge without placing any stress on the panels.
In one embodiment, the package includes front and rear panels joined together to sandwich and cover the first hinge and at least a portion of the flange. The panels may optionally extend around the entire periphery of the first blister section.
In another embodiment, the second hinge may be a square hinge that reinforces the second part and allows the second part to pivot further away from the first part.
In yet another embodiment, one of the first and second parts may include a snap element that corresponds to a notch on the other of the first and second blister sections, such that the snap element may be snap-fitted into the notch to securely retain the closure over the opening. The characteristics of the snap element and/or notch, such as shape and length, may be varied to provide the stiffness desired to retain the snap element in engagement with the notch.
In another aspect of the invention, a method is provided for forming a hybrid package with a clamshell having at least two hinges, a first one of the hinges covered by a panel and the second hinge spaced from the panel. The first hinge enables the blister to pivot or fold over itself along the first hinge to close the clamshell and create a flange along at least a portion of the clamshell, and the second hinge enables the clamshell to pivot or fold at a position inward from the flange along to open the package.
In one embodiment, the method includes the steps of: (a) forming a clamshell including a first hinge dividing the clamshell into first and second parts, the second part including a second hinge; (b) folding the clamshell about the first hinge to form a cavity between the first and second parts, with the first and second parts forming an overlapped flange adjacent the first hinge; (c) attaching a panel to the first hinge and to the flange with the second hinge exposed; and (d) pivoting the second part about the second hinge to open the package.
Thus, a package is provided that has a double hinge design in which a clamshell can be formed by pivoting the package about a first hinge covered by a panel and opened by pivoting a part of the package about a second hinge that is spaced from the first hinge and not covered by the panel. The clamshell can be integrally formed and assembled, which is cost effective and makes the package relatively easy to manufacture. Because the first hinge connects the second part and the first part, the first and second parts do not need to be separately aligned when the clamshell is being formed, which simplifies the manufacturing process. Further, by having a flange extending along the first hinge and at least partially covered by a panel, the package maintains its structural integrity. Also, in those embodiments in which the panel is paperboard, the package can be configured to provide ample space for printed content while reducing the amount of plastic required to make the package. Additionally, the package can be repeatedly opened and closed without the second hinge causing damage to the panel(s).
These and other objects, advantages and features of the invention will be more readily understood and appreciated by reference to the detailed description of the invention and the drawings.
A clamshell package in accordance with an embodiment of the invention is shown in
The clamshell 12 can be virtually any desired size and shape depending on the article to be packaged and on aesthetic considerations. In the illustrated embodiment, the first and second parts 18 and 20 form a respective pocket 26, 28, which, when folded in a closed position, create the cavity 13. The pockets 26, 28 are generally rectangular in shape, with rounded edges, and are configured to align when the clamshell is folded about the manufacturing hinge 14. However, the pockets can alternatively be round, oval or any other suitable shape.
The clamshell 12 may be injection molded or thermoformed, and is typically constructed from polyvinyl chloride (PVC) or polyethylene terephthalate (PET) or some other polymer. Although the clamshell stock is typically transparent, translucent or clear, the stock may also be opaque, clouded or tinted any suitable color in some applications. The clamshell 12 will vary in thickness from application to application. For standard applications, the clamshell 12 is likely to have a thickness ranging between 12 and 30 gauge (i.e., 12 to 30 thousands of an inch).
The manufacturing hinge 14 that connects the first and second parts together can be any suitable type of connection that allows the first and second parts 18, 20 to move with respect to each other. For example, the hinge 14 can be a line of weakening in the clamshell material, such that the first and second parts 14, 16 are integrally formed and fold at the line of weakening, which could include a fold line, a line of reduced thickness or a perforation. Alternatively, the hinge 14 could be a standard hinge that allows the first and second parts 18, 20 to pivot with respect to each other.
As noted above, the first and second parts 18, 20 can be integrally formed. The integrally formed clamshell 12 can be injection molded or thermoformed or formed in any other suitable manufacturing process in one piece, such as from a single, one-sided die. The one-piece design eliminates the extra manufacturing step of aligning a separate second part 20 over the first part 18 when closing the clamshell 12. Rather, the placement of the manufacturing hinge 14 allows the first and second clamshell parts 18, 20 to be guided to an aligned, folded position when folded about the manufacturing hinge 14. When the clamshell 12 is pivoted or folded about the hinge 14 to a closed position, the first and second parts 18, 20 form the enclosed cavity 13 (
The depth of the respective pockets 26, 28 may be the same or may vary (FIGS. 5 and 12-14). For example, as shown in
Optionally, the pocket 28 may have a standard depth for a variety of applications, with the depth of the pocket 26 varying to accommodate differently sized articles. For example, if the second part 20 forms the front or “display” side of the article, then maintaining a constant depth for the pocket 28 may result in a somewhat standard appearance of the clamshell package 10. While some features in the embodiments are described herein with respect to “front and rear” or “top and bottom” surfaces and ends, it should be understood that these designations are only included for purposes of description and could be reversed.
The first and second parts 18, 20 may be secured in a closed position using any suitable closure mechanism or retainer or fastener or the like. In the illustrated embodiment, the first and second clamshell parts 18, 20 may be snap-fitted together to hold the clamshell 12 in a closed position. For example, as shown in the illustrated embodiment, the second clamshell part 20 includes snap elements 46, which are formed as extensions or protrusions on the sidewall 27 of the pocket 28. The first clamshell part 18 includes corresponding notches 48 adapted to receive the snap elements 46 when the clamshell 12 is folded to a closed position, to retain the first and second clamshell parts together (see
The characteristics of the snap elements 46, such as the shape and/or length of the snap elements, may be varied to provide the stiffness desired to maintain a snap-fit between the snap elements 46 and the notches 48. For example, longer snap elements 46 may reduce the overall force required to snap-fit the second clamshell part 20 in place. Further, the leading closing edge of the snap element 46 may be non-planar to provide less resistance when snapping the snap element 46 into engagement with the notch 48. Alternatively, or additionally, the characteristics of the notch, such as size or shape, may be varied to control the force required to operate the snap-fitting interaction of the snap elements 46 and notches 48. In the illustrated embodiment, the lip 30 on the first part 18 may be generally perpendicular to a sidewall 27 of the pocket 26 (
The peripheral lip 40 on the second clamshell part 20 can also be generally uniform in width about the periphery of the lip 40 or may vary in width. The peripheral lip 40 of the second part 20 may optionally be configured to engage and rest against the peripheral lip 30 of the first part 18 or against the panel 24 when the clamshell 12 is in a closed position. Optionally, the peripheral lip 40 of the second part 20 can include a tab 42 extending outward from the peripheral lip 40. The tab 42 can be pulled by a user to pull the second part 20 away from the first part 18 to open the clamshell package 10, for example, to dislodge the snap elements 46 from the notches 48. The tab 42 can be sized so that it can be readily squeezed between a user's thumb and forefinger, for example. As shown, the tab 42 is positioned at a corner of the lip 40, but the tab 42 may be positioned at any desired location on the lip 40.
Once opened, the second part 20 can pivot away from the first part 16 as far as necessary to create an opening through which the goods in the clamshell 12 can be removed. For example, the second part 20 may pivot far enough away from the first part 18 so that a user can access and remove an article such as a cellular phone case or MP3 player from the cavity 13 of the clamshell 12. As shown in
Like the manufacturing hinge 14, the operating hinge 16 can be any suitable type of connection that allows the second part 20 to move with respect to the first part 18. For example, the hinge 14 can be a line of weakening in the clamshell material, such as a fold line, a line of reduced thickness or a perforation. Alternatively, the hinge 14 could be a standard hinge. Optionally, the operating hinge 16 can be positioned toward the bottom of the clamshell package 10 and opposite the hanging aperture 44, so that the contents of the clamshell 12 are supported by the clamshell 12 even when the clamshell package 10 is partially opened.
As shown, the operating hinge 16 is a square hinge 38, which can be formed as a ridge or bump or protrusion in the second part. The square hinge 38 may reinforce the second part 20 (
The panel 24 is adapted to retain the manufacturing hinge 14 in a closed position and can form a border around the clamshell 12. In the illustrated embodiment, the panel 24 includes a front sheet 50 and a rear sheet 52, which are adapted to sandwich the manufacturing hinge 14 and at least a portion of the flange 22 (
Optionally, the front and rear sheets 50, 52 may be integrally formed or otherwise joined. For example, as shown in
To assemble the clamshell 12 and the integrally formed panel 24, the first part 18 of the clamshell 12 can be inserted, bottom first, into the opening 58 formed by the rear sheet 52 (
The panel 24 can be constructed out of paperboard material. However, other materials commonly known in the art, such as plastic, may also be used. Optionally, the panel 24 may define a hanging aperture 44, which aligns with the aperture 44 in the clamshell 12, for hanging the clamshell package 10 from a display hook at a point of sale as shown in
In another aspect, a method is provided for forming a clamshell package, such as the clamshell package 10 described above. The method includes the steps of: (a) forming a plastic clamshell 12 including a manufacturing hinge 14 adapted to divide the clamshell into first and second parts 18, 20, the second part 20 including a operating hinge 16; (b) folding the clamshell 12 about the manufacturing hinge 14 to form a cavity 13 between the first and second parts, with the first and second parts forming a flange 22 adjacent the manufacturing hinge 14; (c) attaching a panel 24 to the manufacturing hinge 14 and flange 22 of the clamshell 12; and (d) pivoting the second part 20 about the operating hinge 16 to open the clamshell package 12.
In one embodiment, the step of forming the plastic clamshell 12 can include placing a piece of sheet stock in a mold and thermoforming the clamshell. The molding or thermoforming step can include forming pockets in the respective first and second parts 18, 20. This step can also include (a) forming the first part with at least one notch 48 and forming the second part with at least one snap element 50 adapted to snap into the notch, and (b) forming a reinforcing square hinge 38 in the second part and spacing the square hinge 38 from the manufacturing hinge 14 and the panel 24. As discussed above, the spacing of the operating hinge 16 from the panel 24 may reduce the likelihood that the panel 24 will peel away or otherwise separate from the clamshell 12.
Optionally, the step of attaching a panel 24 can include securing front and rear sheets 50, 52 about the peripheral lip 30 of the first part. The securing step can include using an adhesive, such as rubber cement, to secure the front and rear sheets to each other and to the clamshell.
The above description is that of the current embodiment of the invention. Various alterations and changes can be made without departing from the spirit and broader aspects of the invention as defined in the appended claims, which are to be interpreted in accordance with the principles of patent law including the doctrine of equivalents.
Number | Date | Country | |
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Parent | 13053514 | Mar 2011 | US |
Child | 13927445 | US | |
Parent | 12640053 | Dec 2009 | US |
Child | 13053514 | US |
Number | Date | Country | |
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Parent | 29338389 | Jun 2009 | US |
Child | 12640053 | US |