The present disclosure generally relates to folded sheet materials and arrays of folded sheet materials, and more particularly, to multi-folded napkins and multi-folded napkin arrays.
With the prevalence of fast food establishments, single use dispenser napkins have become important. Single use dispenser napkins are highly desirable in the quick service restaurant industry, because they are readily dispensed and are highly sanitary but, most of all, because they are economical. Dispenser napkins are commonly found on countertops or tabletops in lunchrooms and restaurants.
In most cases, napkins employed in connection with commercial food service or the “away-from-home” markets are not purchased by the end user. Thus, the primary considerations by a purchaser of these napkins are usually cost, number of napkins that can be fit into a dispenser and dispensability characteristics. However, there are a number of problems in trying to “take-cost out” of a napkin. For example, a napkin has to be designed to be contained in a reasonably sized dispenser, be strong enough to resist tearing or tabbing during the dispensing process and also be readily removable from the dispenser.
Accordingly, a continual need exists for improved napkins and arrays of napkins that meet the customer's needs.
Disclosed herein are folded sheet materials and arrays of folded sheet materials.
In one embodiment, an array of sheet materials comprises a first sheet, a second sheet, and an interior sheet located between the first sheet and the second sheet, each sheet having a centrally located medial primary fold formed therein and a secondary off-fold transverse thereto, the medial fold and the transverse off-fold defining four panels in each sheet:
an interior major panel;
an exterior major panel, joined to the interior major panel along the medial fold, each major panel having a lateral free edge and a longitudinal free edge, the longitudinal free edge being generally normal to the medial fold, the lateral free edge being spaced away from the medial fold and generally normal to the transverse off-fold;
an interior minor panel adjoining the interior major panel along the transverse off fold; and
an exterior minor panel adjoining the interior minor panel along the medial fold and the exterior major panel along the transverse off-fold, each interior minor panel having a lateral free edge and a longitudinal free edge, the longitudinal free edge being generally normal to the medial fold, the lateral free edge being spaced away from the medial fold and generally normal to the transverse off-fold;
each of the interior sheet in the array having:
the major panels of at least one other sheet in the array interleaved between the major panels and minor panels of the interior sheet, the medial fold of the other sheet being adjacent the lateral free edges of the interior sheet, and the longitudinal free edges of the other sheet being adjacent the transverse off-fold of the interior sheet; and
the minor panels of a third sheet interleaved between the major panels of the interior sheet and the major panels of the other sheet.
In one embodiment, a folded sheet material comprises a centrally located medial primary fold formed therein and a secondary off-fold transverse thereto, the medial fold and the transverse off-fold defining four panels in each sheet:
an interior major panel;
an exterior major panel, joined to the interior major panel along the medial fold, each major panel having a lateral free edge and a longitudinal free edge, the longitudinal free edge being generally normal to the medial fold, the lateral free edge being spaced away from the medial fold and generally normal to the transverse off-fold;
an interior minor panel adjoining the interior major panel along the transverse off fold; and
an exterior minor panel adjoining the interior minor panel along the medial fold and the exterior major panel along the transverse off-fold, each interior minor panel having a lateral free edge and a longitudinal free edge, the longitudinal free edge being generally normal to the medial fold, the lateral free edge being spaced away from the medial fold and generally normal to the transverse off-fold.
The above described and other features are exemplified by the following Figures and detailed description.
Referring to the exemplary drawings wherein like elements are numbered alike in the several Figures:
Disclosed herein are folded sheet materials and arrays of folded sheet materials. The term “fold sheet material” is being used to generically describe any folded web product. While reference is made throughout this application to napkins as an exemplary embodiment for ease in discussion, it is to be understood that the term folded sheet material can include, but is not limited to napkin, tissue, and towel. The substrate material for the sheet material can be any suitable material including but not limited to, paper and non-wovens (e.g., air-laid, spunbond, hydroentangled and double re-crepe).
In one embodiment, a paper napkin, when unfolded (opened), has an aspect ratio of about 1.1 to about 1.7, more specifically about 1.4 to about 1.6, while the width of the minor panels is about 60 to about 95% of the width of the major panels, more specifically about 60 to about 90% and still more specifically about 70% to about 90%. The napkin has a basis weight of between 11 and 17 pounds (lbs)/3000 squared foot (ft2), more specifically between 12 and 16 lbs/3000 ft2. In some embodiments, the open size of the napkin is between 8 inches×11 inches and 10 inches×14 inches. For example, in one embodiment, the napkin can have an unfolded size of 13 inches×8.5 inches. It is to be understood that these sizes are nominal measurements in which a person of skill in the art will understand that there may be some variance in dimensions due to manufacturing variances.
While the unfolded dimensions of a napkin are important to some end users, it has unexpectedly been discovered that a significant number of end users never even unfold a folded napkin. Indeed, users often grab a handful of napkins from dispensers and use the outer surface of the napkins to wipe their hands and mouths without ever unfolding the napkins. In these instances, a significant portion of the napkin goes unused, which results in a greater number of napkins being used by the end user. It has been discovered that a napkin with folded dimensions similar to currently available napkin folded dimensions, but with a smaller unfolded dimension, can reduce cost for the establishment purchasing the napkins, while still meeting the end users needs in many situations.
Georgia-Pacific Consumer Products LP currently sells a product under the brands MORNAP napkin and MORNAP JR napkin, which have respective unfolded dimensions of 12 inches×17 inches and 13 inches×12 inches. However, when these napkins are folded they both have folded dimensions of 5 inches×6.5 inches. There currently is a need in the market to service those customers that want a folded napkin at a reduced cost compared to current offerings. This need is met with the napkins disclosed herein. For example, in one embodiment, a four-panel napkin has an unfolded size of 13 inches×8.5 inches, with a folded dimension of 5 inches×6.5 inches
A napkin having folded dimensions of 5 inches×6.5 inches advantageously allows the napkin to be used in many existing dispensers. The napkins can be placed on top of each other in an array for use in a dispenser. In a particular embodiment, discussed in greater detail below, the folded napkin can be interleaved to aid in “one-at-a-time” dispensing. The ability to dispense one napkin at a time is extremely desired by many establishments, as it helps mitigate wasted napkins. The combination of the napkin disclosed herein and the interleaved array of napkins offers folded napkin customers a reduced cost solution, while also providing a means to reduce napkin waste.
Referring now to
In one embodiment, the array of napkins has alternating “left-hand” and “right hand” napkins (e.g., see
In
Even though napkins are shown flat in
In
Advantageously, napkin embodiments are disclosed herein that have a smaller unfolded surface area compared to many current commercial offerings, while having the same folded configuration. These napkins result in a napkin with a reduced cost that is still able to meet the customers' needs. Also, embodiment of napkin arrays disclosed herein advantageously allow for one at a dispensing.
While the disclosure has been described with reference to an exemplary embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the disclosure. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the disclosure without departing from the essential scope thereof. Therefore, it is intended that the disclosure not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this disclosure, but that the disclosure will include all embodiments falling within the scope of the appended claims.
This application claims priority to U.S. Provisional Application No. 61/092,429 filed Aug. 28, 2008, which is herein incorporated by reference in its entirety.
Number | Date | Country | |
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61092429 | Aug 2008 | US |