This invention relates generally to wrap-around article carriers formed of paperboard or similarly foldable material, and more particularly to wrap-around carriers which have end retention structures for preventing the end articles from falling out of the carrier.
Wrap-around carriers provide an inexpensive, effective means for packaging articles, requiring blanks of only minimum size which are capable of running on packaging machines at high speeds. A wrap-around carrier is formed by wrapping a carrier blank around a group of articles such as cans, bottles or bricks and securing the ends of the blank together. Although some wrap-around carriers include integral end panels, most are open-ended. The articles are prevented from falling out through the open ends by tightly wrapping the carrier blank around them and also by providing end retention structures at the opposite ends of the carrier. A typical end retention structure consists of an anchor panel connected to an end edge of a carrier side panel, an end panel connected to an end edge of a bottom panel and a gusset panel interconnecting the anchor and end panels. The anchor panel is folded 180 degrees into face-contacting relationship with the inside surface of the associated side panel, which causes the gusset panel to pull the end panel inwardly and to erect the end panel in an upright position where the end panel engages the end article to prevent it from dislodging from the carrier. The anchor panel is held in the folded position due to the pressure of the end bottles against the anchor panel, which, in turn, retains the end panel in the erected upright position.
While such measures have been successful in containing different articles in their wrap-around carriers, there are drawbacks in the carrier forming or erecting process of the aforesaid carriers. Because the folding of the anchor panel induces not only erection of the end panel but also inward folding of the adjacent carrier bottom flap, it is required that the anchoring panel be folded only by the end user of the carrier who applies the carrier blank to a group of articles to be packaged. Such a carrier application or forming process requires use of a special machine elements that engage the anchor panel during the folding step of the adjacent bottom lap panel. The carrier forming process with such machine elements reduces the operating speed of the packaging machine, which affects the machine productivity. Further, the wrap-around carriers with the retention structures cannot run on packaging machines adjusted for those wrap-around carriers having no retention structures but retention apertures.
What is needed, therefore, is a wraparound carrier that can run on packaging machines of a basic construction that is not equipped with anchor panel folding elements.
The wrap-around carrier of the invention is comprised of side panels hingedly connected to a top panel and to bottom flaps as is well known in the art. An end retention structure is connected to at least one of the side panels and to the adjacent one of the bottom flaps. The end retention structure includes an anchor panel hingedly connected to an end edge of the one side panel and disposed in a face-contacting relationship with the inside surface of the one side panel, a gusset panel hingedly connected to the anchor panel and extending toward the adjacent end opening of the carrier, and an end panel hingedly connected to the gusset panel and disposed to engage the adjacent end article packaged in the carrier to prevent it from dislodging from the carrier. The end retention structure further includes a relief panel that hingedly interconnects the end panel with the one bottom flap. The relief panel is disposed in the plane of the one bottom flap when the carrier is in an erected condition. When the carrier is in blank form, however, the relief panel is capable of folding with respect to the one bottom flap in response to folding of the anchoring panel onto the one side panel. This arrangement allows the blank to remain in a flat collapsed condition even after the anchoring panel is brought into its folded position.
In a preferred embodiment of the invention, the bottom flaps are secured together to form a composite bottom panel.
In another preferred embodiment, the anchor panel is secured to the inside surface of the one side panel.
In still another preferred embodiment, a cutout is defined in the end retention structure to facilitate folding of the end retention structure.
In a further preferred embodiment, the cutout is defined at least in the anchor panel.
In a further preferred embodiment, the first fold line by which the relief panel is connected to the one bottom flap is disposed in alignment with the second fold line by which the gusset and anchor panels are connected together. The first angle between the first fold line and the third fold line by which the relief and end panels are connected together may be generally equal to the second angle between the second fold line and the fourth fold line by which the anchor panel and the one side panel are connected together. The second angle may be generally a half of the third angle that is defined between the fourth fold line and the fifth fold line by which the gusset panel and the end panel are connected together.
The above and other aspects and benefits of the invention will readily be apparent from the more detailed description of the preferred embodiments of the invention that follows.
Referring to
The fold lines 26 and 28 connect the side panels 18 and 20 to the bottom lap flaps 42 and 44. The bottom lap flap 42 includes female locking tabs 56 struck therefrom and hingedly connected thereto by fold lines 58. These female tabs 56 are arranged next to the fold line 26 so that each tab 56 is located in an erected carrier at a position between adjacent ones of the packaged bottles to avoid interference with the bottles. The bottom lap flap 44 includes male locking tabs 60 struck therefrom and hingedly connected thereto along fold lines 62. The male tabs 60, when the carrier is set up, are disposed in registration respectively with the female tabs 56 with the fold lines 58 aligned with the fold lines 62 and they are folded inwardly of the carrier to engage the female tabs 56. These locking tabs 56 and 60 are illustrated to demonstrate a typical bottom lap flap locking arrangement suitable for use with the carrier of the invention, but it should be understood that any desired effective form of bottom lap flap locking means may be employed. For example, the locking tabs 56 and 60 may be replaced by those disclosed in U.S. Pat. Nos. 4,077,095; 4,243,143; 5,131,588; or 4,243,043 which are hereby incorporated by reference. Otherwise, the bottom lap flaps 42 and 44 may be glued together.
Referring further to
Turning to the construction of the carrier of the present invention, it is envisaged that it can be formed by a series of sequential folding and gluing operations in a straight line machine so that the carrier is not required to be rotated or inverted to complete its construction. The folding process is not limited to that described below and may be altered according to particular manufacturing requirements.
In order to erect the article carrier, the top panel 16 is applied to the tops of bottles arranged in a row to be packaged by the carrier. The side panels 18 and 20 are folded downwardly along the fold lines 22 and 24, and the upper sloped panel portions 34 and 36 are folded out of alignment with the remainder of the side panels 18 and 20 along the fold lines 30 and 32 so as to be disposed in a flanking relationship with the side walls of the bottles. The top portion of the bottles are received in the opening 14 and thereby retained in their positions. Before the side panels 18 and 20 are brought into contact with the side walls of the bottles, the bottom lap flaps 42 and 44 are folded along the fold lines 26 and 28 toward each other. This movement activates the relief panels 70 to unfold the end panels 74 outwardly along the fold lines 66 to bring them into their erected position. More particularly, the relief panels 70 are automatically unfolded along the fold lines 46 toward their initial positions when the bottom lap panels 42 and 44 are folded along the fold lines 26 and 28. This, in turn, causes the end panels 74 to be folded out of alignment with their associated relief panels 70 along the fold lines 64 and to be pushed outwardly away from each other. This interim condition is shown in
The final step in the erection of the carrier is to lock the bottom lap panels 42 and 44 together. The details of this phase of the operation have not been illustrated since the particular locking mechanism employed does not form part of the invention. It will, however, be understood by those familiar with the locking elements shown that the male tabs 62 are folded about the fold lines 62 into the apertures defined in the bottom lap flap 42 by the female tabs 56 and are engaged with the perimeter of the such apertures. Locking of the tabs 56 and 60 results in the carrier in a set up condition as shown in
Although the invention has been described in connection with a carrier designed to hold three bottles, it may be incorporated into carriers designed to hold more or less than that and can be utilized with articles of various sizes and shapes. For example, if the articles to be packaged have necks or are otherwise shaped so as to extend through the top panel, the openings 14 of each pair in
It will also be recognized that as used herein, the terms “top”, “bottom” and “side” with respect to the panels of the carrier or carrier blank are relative terms, and that the carrier may be re-oriented as necessary or as desired.
Filing Document | Filing Date | Country | Kind |
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PCT/US02/29589 | 9/18/2002 | WO |
Number | Date | Country | |
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60323257 | Sep 2001 | US |