US20150330027A1 - Fibrous Structures with Visually and Elementally Balanced Designs - Google Patents

Fibrous Structures with Visually and Elementally Balanced Designs Download PDF

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Publication number
US20150330027A1
US20150330027A1 US14/710,636 US201514710636A US2015330027A1 US 20150330027 A1 US20150330027 A1 US 20150330027A1 US 201514710636 A US201514710636 A US 201514710636A US 2015330027 A1 US2015330027 A1 US 2015330027A1
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Prior art keywords
design element
pattern
strip
design
fibrous structure
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US14/710,636
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English (en)
Inventor
Kathryn Christian Kien
Emma Lynn Sartini
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Procter and Gamble Co
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Procter and Gamble Co
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Priority to US14/710,636 priority Critical patent/US20150330027A1/en
Assigned to THE PROCTER & GAMBLE COMPANY reassignment THE PROCTER & GAMBLE COMPANY ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: KIEN, KATHRYN CHRISTIAN, SARTINI, EMMA LYNN
Publication of US20150330027A1 publication Critical patent/US20150330027A1/en
Abandoned legal-status Critical Current

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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H27/00Special paper not otherwise provided for, e.g. made by multi-step processes
    • D21H27/02Patterned paper
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H27/00Special paper not otherwise provided for, e.g. made by multi-step processes
    • D21H27/002Tissue paper; Absorbent paper
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T428/00Stock material or miscellaneous articles
    • Y10T428/24Structurally defined web or sheet [e.g., overall dimension, etc.]
    • Y10T428/24802Discontinuous or differential coating, impregnation or bond [e.g., artwork, printing, retouched photograph, etc.]

Definitions

  • the present invention relates to fibrous structures having an embossed and/or printed design and methods for making the same.
  • Fibrous structures including sanitary tissue products, such as bath tissue, facial tissue and paper towels, are commonly used by consumers. Often fibrous structures are embossed or printed to provide an aesthetically pleasing look to the exposed surface of the products and/or provide some structural enhancement to the product (e.g., embossments assist in bonding multiple plies, providing additional depth, etc.).
  • sheet height imbalance occurs when a design element is repeated in the same spot about a rolled fibrous structure or stacked fibrous structure such that the stacked or rolled product exhibits an undesired high caliper in one location as compared to the surrounding areas.
  • the high caliper can be caused by a higher concentration of ink in that area and is not an intended consequence of the design.
  • Sheet height imbalance may also occur with a repeated embossed element.
  • manufacturers also face the challenge of creating complex designs that visually appear centered, vertically aligned and/or horizontally aligned. Again, production methods are partially responsible for such challenge. For example, printing equipment may not perfectly and consistently register elements and embossment elements are skewed as noted above.
  • a strip of a fibrous structure has a first edge and a second edge opposite the first edge, wherein the first edge and the second edge define a strip width therebetween.
  • the strip has a main centerline extending in a longitudinal direction and equidistant between the first edge and the second edge and a central region extending in a longitudinal direction and having a central width, wherein the central width is less than the strip width and the central region extends laterally outwardly on each side of the main centerline.
  • a first edge region and a second edge region is disposed each extend outward from the central region toward at least one of the first edge and the second edge.
  • the strip has a first pattern comprising a first major design element and a first minor design element, wherein the first major design element is at least partially disposed in the central region and the first minor design element is at least partially disposed in the one of the group consisting of the first edge region and the second edge region.
  • the strip further has a second pattern comprising a second major design element and a second minor design element, wherein the second major design element is at least partially disposed in the central region and the second minor design element is at least partially disposed in the one of the group consisting of the first edge region and the second edge region.
  • the first pattern and the second pattern interlock to form an interlocking motif.
  • a fibrous structure having an interlocking motif comprises a machined direction and a cross machine direction.
  • the interlocking motif has a width, W, in the cross machine direction and a length, L, in the machine direction.
  • the interlocking motif also has a interlocking motif centerline extending longitudinally and being substantially parallel to the machine direction and a first pattern and a second pattern overlapping the first pattern.
  • the fibrous structure includes a lock and step repeat of the interlocking motif to form a repeating interlocking motif having a repeat width, RW, in the cross machine direction.
  • a convolutely wound log having a repeating continuing design in another embodiment, includes a terminal sheet having a machine direction, a cross machine direction and a terminal end extending in the cross machine direction.
  • the log also includes an underlying sheet that has a covered portion disposed underneath the terminal sheet and a visible portion adjacent to the terminal end.
  • the fibrous structure has a repeating continuing design comprising a continuing design repeating two or more times in the machine direction, wherein the continuing design is visually continuous between the terminal sheet and the visible portion of the underlying sheet.
  • FIG. 1 is a plan view of a fibrous structure in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 2 is a plan view of a fibrous structure in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 3 is a schematic representation of design elements in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 4 is a schematic representation of one design element in accordance with a nonlimiting embodiment of the present invention.
  • FIG. 4A is a plan, sectional view of a strip in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 5 is a plan view of a fibrous structure in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 6 is a sectional view of the fibrous structure of FIG. 5 ;
  • FIG. 7 is a plan view of a fibrous structure in accordance with another nonlimiting embodiment of the present invention.
  • FIGS. 8A and 8B are schematic representations of an elementally balanced interlocking motif in accordance with nonlimiting embodiments of the present invention.
  • FIG. 9 is a plan view of a strip in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 10 is a schematic representation of a pattern in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 11A is a schematic representation of a pattern in accordance with another nonlimiting embodiment of the present invention.
  • FIG. 11B is a schematic representation of an interlocking motif in accordance with a nonlimiting embodiment of the present invention.
  • FIG. 12A is a schematic representation of emboss roll in accordance with a nonlimiting embodiment of the present invention.
  • FIG. 12B is a schematic representation of a prior art emboss roll
  • FIG. 13 is a schematic representation of a repeating motif in accordance with a nonlimiting embodiment of the present invention.
  • FIG. 14 is a schematic representation of a repeating motif in accordance with another nonlimiting embodiment of the present invention.
  • FIG. 15 is a schematic representation of a convolutely wound log in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 16 is a schematic representation of a fibrous structure having a repeating motif in accordance with a nonlimiting embodiment of the present invention.
  • FIG. 17 is a schematic representation of a design in accordance with a nonlimiting embodiment of the present invention.
  • FIG. 18 is a partial plan view of a fibrous structure in accordance with a nonlimiting embodiment of the present invention.
  • FIGS. 19A and 19B are schematic representations of a convolutely wound log in accordance with nonlimiting embodiments of the present invention.
  • FIG. 20 is a schematic representation of a convolutely wound log in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 21 is a schematic representation of an imparting apparatus in accordance with one nonlimiting embodiment of the present invention.
  • FIG. 22 is a schematic representation of an imparting apparatus in accordance with another nonlimiting embodiment of the present invention.
  • FIG. 23 is a schematic representation of an apparatus for measuring roll diameter and/or roll compressibility in accordance with a nonlimiting embodiment of the present invention.
  • Brand information means any descriptions, depictions, objects or other indicia relating to a brand (i.e., a single source identifier which identifies a product and/or service as exclusively coming from a single commercial source).
  • a brand i.e., PUFFS® facial tissue, CHARMIN® bath tissue, and BOUNTY® paper towels.
  • PUFFS®, CHARMIN® and BOUNTY® are also trademarks.
  • brand information are brand names, brand insignia, slogans, mascots, endorsements, certifications, recommendations and claims regarding brand performance, quality, history recognition or consumers' preferences for the brand.
  • Brand insignia as used herein means objects, character representations, words, colors, shapes or other indicia that can be used to distinguish, identify or represent the manufacturer, retailer, distributor or brand of a product, including but not limited to trademarks, logos, emblems, symbols, designs, figures, fonts, lettering, crests or similar identifying marks.
  • Pattern as used herein means an arrangement of one or more design elements.
  • Design element as used herein means a shape or combination of shapes that visually create a distinct and discrete component, regardless of the size or orientation of the component.
  • a design element may be present in one or more patterns.
  • a design element may be present one or more times within one pattern. In one nonlimiting example, the same design element is present twice in one pattern—the second instance of the design element is smaller than the first instance.
  • One of skill in the art will recognize that alternative arrangements are also possible.
  • “Concentrated design element(s)” generally are the densest design element(s) on a fibrous structure, emboss apparatus (e.g., emboss roll) or printing apparatus (e.g., print plate). Whether a design element constitutes a concentrated design element is based on relative measurements. Each design element is measured by drawing a perimeter outline that fully surrounds the entire element. The perimeter outline must be at have an area of at least 0.0625 inches. Design elements that can be fully captured with a perimeter outline having an area of less than 0.0625 inches should be discounted from the analysis. A concentrated design element will have an emboss and print area that is at least 1.25 times the emboss and print area of another design element present on the fibrous structure, emboss apparatus or printing apparatus.
  • the relative emboss and print area of the two concentrated design elements may not differ by a factor 1.25; however, each will have a emboss and print area that is at least 1.25 times greater than the emboss and print area of another design element located on the same fibrous structure, print apparatus or emboss apparatus.
  • the word “Charmin” is a concentrated design element.
  • any embossed or printed word or noticeable brand information is a concentrated design element as long as it meets the emboss and print area requirements explained above.
  • Fibrous structure as used herein means a structure that comprises one or more fibrous elements.
  • a fibrous structure according to the present invention means an association of fibrous elements that together form a structure capable of performing a function.
  • Nonlimiting examples of fibrous structures of the present invention include paper (such as a sanitary tissue product) and fabrics (including woven, knitted, and non-woven).
  • Nonlimiting examples of processes for making fibrous structures include known wet-laid papermaking processes, air-laid papermaking processes, and wet, solution, and dry filament spinning processes, for example meltblowing and spunbonding spinning processes, that are typically referred to as nonwoven processes. Further processing of the formed fibrous structure may be carried out such that a finished fibrous structure is formed.
  • the finished fibrous structure is the fibrous structure that is wound on the reel at the end of papermaking.
  • the finished fibrous structure may subsequently be converted into a finished product, e.g. a sanitary tissue product.
  • Fibrous element as used herein means an elongate particulate having a length greatly exceeding its average diameter, i.e. a length to average diameter ratio of at least about 10.
  • a fibrous element may be a filament or a fiber.
  • a “fiber” is an elongate particulate as described above that exhibits a length of less than 5.08 cm (2 in.) and a “filament” is an elongate particulate as described above that exhibits a length of greater than or equal to 5.08 cm (2 in.).
  • Fibers are typically considered discontinuous in nature.
  • Nonlimiting examples of fibers include cellulosic fibers (e.g., wood pulp, cotton linters, rayon, lyocell, bagasse, grasses or grain) and synthetic staple fibers (e.g., polypropylene, polyethylene, polyester, copolymers thereof, rayon, glass fibers and polyvinyl alcohol fibers).
  • Filaments are typically considered continuous or substantially continuous in nature. Filaments are relatively longer than fibers.
  • Nonlimiting examples of filaments include meltblown and/or spunbond filaments.
  • Nonlimiting examples of polymers that can be spun into filaments include natural polymers or synthetic polymers.
  • fibrous elements derived from recycled paper are also applicable to the present invention.
  • “Sanitary tissue product” as used herein means a soft, relatively low density fibrous structure useful as a wiping implement for post-urinary and post-bowel movement cleaning (toilet tissue), for otorhinolaryngological discharges (facial tissue), multi-functional absorbent and cleaning uses (paper towels) and wipes, such as wet and dry wipes.
  • the sanitary tissue product may be convolutely wound upon itself about a core or without a core to form a sanitary tissue product roll or the sanitary tissue product may be in the form of discrete sheets.
  • the sanitary tissue product can be single-ply or multi-ply. In general, any sanitary tissue product made by known papermaking methods can be utilized in the present invention. Therefore, the description below is nonlimiting with respect to the particular sanitary tissue product to be embossed and/or printed on, the particular manufacturing method, or the particular format (e.g., rolled or stacked/interleaved).
  • the sanitary tissue products of the present invention may comprise additives such as softening agents, temporary wet strength agents, permanent wet strength agents, bulk softening agents, lotions, silicones, wetting agents, latexes, patterned latexes and other types of additives suitable for inclusion in and/or on sanitary tissue products.
  • the sanitary tissue product of the present invention may be manufactured by any process known in the art prior to being embossed or printed on in accordance with the present invention.
  • Machine Direction or “MD” as used herein means the direction parallel to the flow of the fibrous structure through the fibrous structure making machine and/or sanitary tissue product manufacturing equipment.
  • Cross Machine Direction or “CD” as used herein means the direction parallel to the width of the fibrous structure making machine and/or sanitary tissue product manufacturing equipment and perpendicular to the machine direction.
  • Embossing refers to a type of paper finish obtained by mechanically impressing a design on the finished paper with engraved rolls, plates, or belts in combination with complimentary or mating metallic, cross-linked rubber, or soft rubber or rubber-like rolls, or belts.
  • Print refers to a type of finish applied to the absorbent product that imparts visually perceptible design through the application of color.
  • One or more colors can be applied mechanically by means commonly known in the art such as applying ink by a gravure roll, flexographic plates, ink jet printers or other known means.
  • an item such as a pattern or an interlocking motif
  • (i) can be printed or embossed without substantial vibration or wear in an emboss roll or printing apparatus from which the item was imparted, and/or (ii) can be printed or embossed without creating an area of sheet height imbalance.
  • An example of an elementally balanced pattern is depicted in FIG. 1 .
  • a pattern or motif on an emboss apparatus or on a print apparatus can be directly translated to a fibrous structure (i.e., the design on the emboss apparatus and/or printing apparatus can be substantially replicated on the fibrous structure) such that, for example, a pattern balanced on an emboss roll is balanced on a fibrous structure.
  • Non-Diagonal as used herein means an item, such as a pattern or an interlocking motif, that has a centerline extending longitudinally through the item that is substantially parallel to the MD or that is substantially parallel to the CD.
  • Lock and step refers to a translation of an item, such as repeating interlocking motifs, having both a MD vector component and a CD vector component. As with any translation, every point in the first instance of the item is moved in the same direction and the same distance to arrive at the corresponding point in the second instance of the item. In the case of lock and step as defined herein, the direction in which the points are moved comprises both a MD component and a CD component.
  • “Visually balanced” as used herein means that an item, such as a pattern or interlocking motif, visually appears symmetrical and/or centered.
  • a strip 10 of a fibrous structure 11 such as a sanitary tissue product 12 is provided.
  • the fibrous structure 11 has a machine direction, MD, and a cross-machine direction, CD.
  • the strip 10 comprises one or more design elements 13 disposed in various regions of the strip 10 .
  • design elements 13 may be printed and/or embossed onto the strip 10 .
  • the design elements 13 form patterns 14 , 16 .
  • the patterns 14 , 16 interlock at an imaginary intersection line 15 to form an interlocking motif 18 .
  • the interlocking motif 18 and/or one or more of the patterns 14 , 16 may be elementally balanced and/or visually balanced.
  • the interlocking motif 18 may be repeated in a lock and step manner, which provides the opportunity to helix the interlocking motif 18 about a roll without skewing or jeopardizing vertical and or horizontal alignment of the overall motif 18 , the individual patterns 14 , 16 , and/or the individual design elements 13 .
  • FIG. 2 illustrates that the strip 10 includes a first edge 20 and a second edge 22 that is substantially opposite the first edge 20 .
  • the first edge 20 and second edge 22 may be generally parallel and define a strip width, SW, therebetween.
  • the strip width SW can be from about 15 inches to about 13 inches or from about 12 inches to about 11 inches or from about 10 inches to about 6 inches or from about 5 inches to about 3 inches, reciting, for each of the disclosed ranges, all 0.1 increments therebetween.
  • the strip 10 also includes a main centerline 24 , which extends in a longitudinal direction and is substantially equidistant between the first edge 20 and the second edge 22 . Extending laterally outwardly from the main centerline 24 is a central region 26 .
  • the central region 26 extends in a longitudinal direction, and can extend an equal distance outward on each side of the main centerline 24 or at an unequal distance about either side of the main centerline 24 .
  • the central region 26 has a central width, CW, which is less than the strip width, SW.
  • the central width CW can be from about 97% to about 25% and/or from about 85% to about 40% and/or from about 75% to about 55% or about 70% of the strip width SW.
  • the strip width SW can be equal to about 4 inches and the central width CW can be about 75% of the strip width SW, in which case the central width CW is equal to about 3 inches.
  • One or more edge regions 28 , 30 can extend laterally, outwardly on either side of the central region 26 .
  • a first edge region 28 can extend from the central region 26 towards the first edge 20 .
  • the first edge region 28 extends from the boundary 26 a of the central region 26 that is most proximate to the first edge 20 to the first edge 20 .
  • a second edge region 30 can extend from the central region 26 towards the second edge 22 .
  • the second edge region 30 extends from the boundary 26 b of the central region 26 that is most proximate to the second edge 22 to the second edge 22 . Both the first edge region 28 and the second edge region 30 extend longitudinally as well.
  • the first edge region 26 can be the same width as the second edge region 28 , or the two regions 26 , 28 may comprise different widths.
  • the width of each edge region 26 , 28 may be dependent on the central width, CW, and the disposition of the central region 26 .
  • the sum of the widths of the first edge region 28 and the second edge region 30 is generally the difference between the strip width, SW, and the central width, CW.
  • the strip 10 also includes a first and second pattern 14 , 16 (as illustrated in FIGS. 1 and 2 ), each having one or more design elements 13 .
  • the first pattern 14 may be different from the second pattern 16 .
  • the first pattern 14 and the second pattern 16 may be the same.
  • the first pattern 14 is different from the second pattern 16 but the two patterns 14 , 16 comprise one or more of the same design elements 13 .
  • the two patterns 14 , 16 comprise different design elements 13 .
  • Countless design elements 13 may be selected from when developing a pattern 14 , 16 .
  • a design element 13 may include any shape, line or combination of shapes and/or lines.
  • the design element 13 is a circle.
  • the design element 13 has a circular portion.
  • the present inventors have discovered that specific design elements 13 a - 13 h (illustrated in FIG. 3 ) are suitable for use in the present invention because the circle-like structures and wave structures connote water, cleaning and softness to consumers.
  • circles and circle-like figures have no top or bottom, or up or down, and therefore creating visually and elementally balanced patterns 14 , 16 with such shapes presents far fewer issues than balancing shapes with sharp edges, multiple sides and/or asymmetrical elements.
  • an exemplary design element 130 can comprise a main portion 132 , such as a main circular portion.
  • the design element 130 can further comprise features that are associated with but different from the main portion 132 , such as a tail portion 134 .
  • the main portion 132 may be substantially closed from a visual perspective using, for example, Gestalt's theory of visual perception pertaining to closure. Closure occurs when there is enough of a shape present that a person is able to mentally complete the shape so as to perceive a broken figure as a whole figure. Viewing FIG. 4 , the main portion 132 of the exemplary design element 130 can be perceived as substantially closed despite the use of broken and/or dotted lines.
  • the main portion 132 of a design element 130 is substantially disposed within the central region 26 as shown for example in FIG. 4A .
  • the patterns 14 , 16 interlock to form an interlocking motif 18 .
  • the first pattern 14 and second pattern 16 are interlocked at an imaginary line of intersection 15 to form an interlocking motif 18 .
  • the patterns 14 , 16 may be interlocked by overlapping one or more elements 14 a , 14 b of the first pattern 14 with one or more elements 16 a , 16 b of the second pattern 16 .
  • the patterns 14 , 16 may overlap in the MD and/or in the CD, and thereby result in interlocking in the MD and/or CD respectively.
  • the interlocking motif 18 may be elementally balanced. Further, the interlocking motif 18 may repeat in the machine direction and/or cross machine direction.
  • interlocking motif 18 repeats, the repetition may be done in a lock and step manner as discussed more fully below. Although only two patterns 14 , 16 are described for illustrative purposes, multiple additional patterns may be interlocked with the first and/or second patterns 14 , 16 in creating the interlocking motif 18 .
  • the design elements 13 may be disposed within the pattern 14 , 16 in any suitable means to provide apparent visual symmetry and/or centering throughout the pattern 14 , 16 and/or interlocking motif 18 .
  • design elements 13 may be arranged in accordance with the teachings of commonly assigned U.S. patent application Ser. No. 13/899,897 to Sartini in order to achieve apparent visual symmetry and/or centering. Further, the design elements 13 may be disposed such that one or more of the patterns 14 , 16 is elementally balanced.
  • the design elements 13 can include major and minor design elements. “Major design elements” will generally be partially disposed in the central region 26 such that they generally will not be cut off from the strip 10 and such that they provide a focal point for the consumer. In one nonlimiting example, more than about 75% or more than about 90% of the major design element is disposed in the central region 26 . In another nonlimiting example, the main portion 132 of a major design element is substantially disposed in the central region 26 . “Minor design elements” will generally be at least partially disposed in one of the edge regions 28 , 30 and can be cut off of the strip 10 without undermining the perceived symmetry and/or centering.
  • more than 25%, or more than 30%, or more than 50%, or more than 75%, or more than 90% of the minor design element may be cut off of the strip.
  • cut off it is meant that only a portion of the design element is visible on the strip.
  • the design element 13 may be terminated by the edge, rendering the design element 13 incomplete when viewing the strip 10 .
  • the minor design element may be partially disposed in the central region 26 and partially disposed in one of the edge regions 28 , 30 .
  • more than 50% of the minor design element may be disposed in one of the edge regions 28 , 30 and less than 50% of the minor design element may be disposed in the central region 26 .
  • the minor design element may comprise a main portion 132 and the main portion 132 may be substantially and/or partially disposed in one of the edge regions 28 , 30 .
  • major design elements can be larger than minor design elements.
  • minor design elements may be the same size as or larger than major design elements.
  • the first pattern 14 or second pattern 16 can comprise one or more filamentary design elements 13 g or 13 h .
  • Filamentary design elements can have the appearance of being thin, curvilinear line elements, even though, as shown, for example, in FIG. 3 (shown in this embodiment as a group of 3-4 individual filamentary design elements, but can be one or more), they can be comprised of closely spaced dots or short line elements to give the appearance of a linear element.
  • Filamentary design elements 13 g or 13 h can be fully disposed in the central region 26 .
  • filamentary design elements 13 g or 13 h are curvilinear elements that can each have a motif associated with it, and each can be bounded by boundaries 26 a and 26 b of the central region 26 .
  • Filamentary design elements can span one or more sheets of a fibrous structure such as bath tissue, and can span two, three, four, or more sheets to give an appearance of continuity from sheet to sheet.
  • the first pattern 14 can comprise one or more first major design elements 14 a , which are at least partially disposed in the central region 26 .
  • the first pattern 14 may also comprise one or more first minor design elements 14 b , which are at least partially disposed in either the first edge region 28 or the second edge region 30 .
  • one of the first minor design elements 14 b may be partially disposed in the central region 26 and partially disposed one of the edge regions 28 , 30 .
  • the majority of the first minor design element 14 b may be disposed in the edge region 28 , 30 .
  • a first minor design element 14 b is not present in the central region 26 . Further, the first minor design element 14 b may be cut off of the strip 10 .
  • the second pattern 16 can comprise one or more second major design elements 16 a , which are at least partially disposed in the central region 26 .
  • the second pattern 16 may also comprise one or more second minor design elements 16 b , which are at least partially disposed in either the first edge region 28 or the second edge region 30 .
  • a second minor design element 16 b may be partially disposed in the central region 26 and partially disposed one of the edge regions 28 , 30 .
  • the majority of the second minor design element 16 b may be disposed in the edge region 28 , 30 .
  • a second minor design element 16 b is not be present in the central region 26 .
  • the second minor design element 16 b may be cut off of the strip 10 . For clarity in the illustration, only a few major and minor elements are identified on FIG. 5 .
  • the interlocking motif 18 can further comprise a third design element 32 .
  • the third design element 32 may comprise any shape or design or any combination of shapes and/or designs.
  • the third design element 32 is in the shape of a brand insignia, such as a character representation associated with a brand.
  • the third design element 32 may comprise a paw which may be associated with brand insignia such as the CHARMIN® bath tissue bear, a trademark of The Procter & Gamble Company.
  • the third design element 32 may comprise a cloud, blanket, baby, man, and/or other indicia or symbols that can be associated with characteristics of sanitary tissue products 12 , such as strength and/or softness.
  • the third design element 32 may be at least partially disposed on an adhesive area 34 .
  • the third design element 32 may be used to cover adhesive areas 34 , rendering adhesive areas 34 less consumer noticeable.
  • the third design element 32 may be disposed in the first edge region 28 , the second edge region 30 , and/or the central region 26 .
  • the third design element 32 may be a minor design element, having any of characteristics of minor design elements as discussed above.
  • the interlocking of the patterns 14 , 16 and the layout of their associated elements 14 a , 14 b , 16 a , 16 b provides the visual appearance of centering, regardless of whether either pattern 14 , 16 is actually centered on the strip 10 or symmetrical.
  • the interlocking the patterns 14 , 16 provides visual continuity between the two patterns. Further, the interlocking can make two or more different patterns 14 , 16 appear as one more complex design (i.e., the interlocking motif 18 ). This can be advantageous when designing templates for printers and emboss rolls; essentially, the designer can utilize fewer patterns while making more complex, visually appealing overall designs.
  • the strip 10 can comprise one or more lines of weakness 36 , such as a perforated line.
  • the line(s) of weakness 36 allow one or more sheets 38 to be separated from the sanitary tissue product 12 .
  • the line of weakness 36 may be substantially parallel to the cross-machine direction.
  • the line of weakness 36 may be substantially straight or curvilinear.
  • the interlocking motif 18 may extend in the machine direction such that it covers multiple sheets 38 . In one nonlimiting example, the interlocking motif 18 extends more than one sheet 38 , or about three sheets 38 , or about four sheets 38 , or more than about three sheets 4 , or from about three sheets 38 to about seven sheets 4 .
  • one or more of the patterns 14 , 16 may extend in the machine direction such that such pattern 14 , 16 extends more than one sheet 38 .
  • the extension of the interlocking motif 18 can depend on the number of patterns 14 , 16 utilized, the size of the design elements 13 , and/or the spacing between design elements 13 in a given pattern 14 , 16 .
  • extending the interlocking motif 18 (and/or one or more of the patterns 14 , 16 therein) across the lines of weakness 36 can cause the end-user to perceive each sheet 38 in a series of sheets 38 as comprising a unique design; however, the designer is only required to use a small number of patterns to create this perceived complexity.
  • the sheets 38 may be the same size or different sizes.
  • the interlocking of the patterns 14 , 16 in the CD and/or MD can further ensure that the design elements 13 are elementally balanced.
  • overlapping design elements 13 in the CD and/or MD can help to level the concentration of embossment impressions or printing throughout CD and/or MD respectively. In this way, the likelihood of imbalance during embossment or printing processes is decreased.
  • sheet height imbalance is unlikely to occur as the design elements 13 are dispersed in a more deliberate manner through the fibrous structure 11 .
  • design elements such that they are balanced across the strip 10 in the MD and/or CD also creates elemental balance.
  • One means of doing so is by arranging the elements 13 in a design template to achieve balance on the emboss apparatus or printing apparatus. While manual arrangement is time-consuming and undesirable, the present inventors have found that designing a couple of patterns 14 , 16 that are elementally balanced and then interlocking and repeating those patterns 14 , 16 minimizes the effort entailed in achieving elemental balance throughout a fibrous structure 11 . Moreover, the lock and step repetition discussed in detail below further reduces manual effort.
  • the interlocking motif 18 may include one or more concentrated design elements 40 .
  • the concentrated design elements 40 may be at least partially disposed in the central region 26 .
  • the concentrated design element 40 may constitute a major design element, having the characteristics of a major design element as discussed above.
  • the interlocking motif 18 may comprise at least one concentrated design element 40 and be elementally balanced.
  • the concentrated design element 40 may be placed in relation to one or more design elements 13 that are not concentrated, such that the aggregate emboss and print areas of the non-concentrated design elements 13 substantially equates to the emboss and print area of the concentrated design element 40 .
  • FIG. 8A comprises a first box 40 A and a second box 40 B. The first box 40 A illustrates that the concentrated element 40 is elementally balanced in the MD.
  • the concentrated element 40 is positioned between various non-concentrated elements 13 a - 13 g or portions of non-concentrated elements 13 a - 13 g that counterbalance the concentrated element 40 in the MD such that the potential for causing uneven roll wear is reduced.
  • the second box 40 B illustrates that the concentrated element 40 is elementally balanced in the CD.
  • the concentrated element 40 is positioned such that design elements 13 d , 13 g or portions of design elements 13 d , 13 g throughout the CD of the second box 40 B are counterbalanced. In this way, nip imbalance (stemming from uneven concentrations of elements 13 at the nip) is less likely to occur.
  • a nip may be disposed in the CD and be represented by the second box 40 B.
  • balancing elements 13 within the second box 40 B can reduce nip imbalance.
  • the design elements 13 or portions of design elements 13 disposed in the second box 40 B may be counterbalanced with design elements 13 located in a third box 40 C, which can represent a second instance of a nip interacting with the fibrous structure 11 .
  • fibrous structures 11 are often manufactured, printed and/or embossed in large sized parent rolls 100 or the like, wherein the MD and CD dimensions are longer than those of a strip 10 .
  • the interlocking motif 18 may be repeated throughout the CD as shown in FIG. 8B for example and discussed in detail later. Elemental balance may be achieved on the parent roll 100 sized fibrous structure 11 as shown in FIG. 8B utilizing the same principles as discussed with respect to the strip.
  • the fibrous structure 11 comprises a first concentrated design element 44 .
  • the first pattern 14 may comprise the first concentrated design element 44 .
  • the first concentrated design element 44 may be at least partially disposed in the central region 26 .
  • the first concentrated design element 44 is at least partially disposed on the main centerline line 24 .
  • the first concentrated design element 44 is a major design element.
  • the first pattern 14 comprises a first concentrated design element 44 and is elementally balanced.
  • the first concentrated design element 44 comprises brand information.
  • the first concentrated design element 44 comprises a brand name.
  • the first concentrated design element 44 can comprise brand information such as words that connote information about qualities or performance of a fibrous structure 11 , including but not limited to “soft”, “strong” and/or “absorbent.”
  • the first concentrated design element 44 may be partially disposed on the main centerline 24 such that a proximate end 44 a of the first concentrated element 44 is disposed on the main centerline 24 and the distal end 44 b is not disposed on the main centerline 24 .
  • the beginning of the brand name can be disposed on the main centerline 24 .
  • the end of the brand name is disposed on the main centerline 24 . Placing a brand name on the main centerline 24 allows the brand name to be a central focus of the end user.
  • the fibrous structure 11 may comprise a second concentrated design element 46 .
  • the second pattern 16 may comprise the second concentrated design 46 .
  • the second concentrated design element 46 may be at least partially disposed in the central region 26 .
  • the second concentrated design element 46 is at least partially disposed on the main centerline 24 .
  • a proximate end 46 a of the second concentrated design element 46 is disposed on the main centerline 24 and a distal end 46 b of the second concentrated design element 46 is not disposed on the main centerline 24 .
  • the second design element comprises brand information, including but not limited to a brand name.
  • the second concentrated design element 46 may be a major design element having any of the characteristics of a major design element as described above.
  • the second design 16 may comprise a second concentrated design element 46 and be elementally balanced.
  • the fibrous structure 11 comprises both a first concentrated design element 44 and a second concentrated design element 46 .
  • the first concentrated design element 44 is disposed on a first side 24 a of the main centerline 24
  • the second concentrated design element 46 is disposed on a second side 24 b of the main centerline 24 , where the second side 24 b is opposite the first side 24 a .
  • the disposition of the first concentrated design element 44 and the second concentrated design element 46 can attribute to elementally balancing an interlocking motif 18 .
  • the two concentrated design elements 44 , 46 may be placed in relation to one another such that they counterbalance each other.
  • the first pattern 14 comprises a first concentrated design element 44 , a first pattern centerline 48 that extends longitudinally, and a third concentrated design element 50 .
  • the first concentrated design element 44 can be disposed on a first side 48 a of the first pattern centerline 48
  • the third concentrated design element 50 can be disposed on a second side 48 b of the pattern centerline 48 , where the second side 48 b is opposite the first side 48 a .
  • the disposition of the first concentrated design element 44 and the third concentrated design element 50 can attribute to elementally balancing the first pattern 14 .
  • the two concentrated design elements 44 , 50 may be placed in relation to one another such that the counterbalance each other within the pattern 14 .
  • the same principles can be applied to the second pattern (i.e., the second pattern 16 may comprise a second pattern centerline, and a fourth concentrated design element that is balanced with the second concentrated design element 46 (not shown)).
  • the placement of the concentrated design elements 40 on opposite sides of a centerline 24 contributes to visual balance as a pattern 14 , 16 or interlocking motif 18 appears more symmetrical and/or centered due to the alternating concentrated elements 40 .
  • Concentrated design elements 40 may form a focal point for the end user due to their respective emboss and print areas compared to other elements 13 as well as their disposition on or near the centerline 24 .
  • a pattern 14 , 16 , 140 or interlocking motif 18 may be non-diagonal and still visually balanced and/or elementally balanced.
  • the interlocking motif 18 is non-diagonal. Repeating designs that are imparted on existing sanitary tissue products tend to be imparted at an angle. This is in part due to skewing of a design template on a manufacturer's emboss roll 300 (or similar apparatus) in order to prevent roll wear and/or vibration.
  • an exemplary pattern 140 comprises a exemplary pattern centerline 480 (as shown in FIG. 11A ).
  • the exemplary pattern centerline 480 extends longitudinally throughout the fibrous structure 11 and can be substantially parallel to the MD.
  • the exemplary pattern centerline 480 may be coincident with the main centerline 24 or may be a distance apart from the main centerline 24 and parallel to the main centerline.
  • the interlocking motif 18 has an interlocking motif centerline 54 which extends longitudinally throughout the fibrous structure 11 and can be substantially parallel to the MD.
  • the interlocking motif centerline 54 may be coincident with the main centerline 24 or may be a distance apart from the main centerline 24 and parallel to the main centerline 24 .
  • FIG. 12A depicts an interlocking motif 18 with an interlocking motif centerline 54 substantially parallel to the MD on an emboss roll 300 .
  • the interlocking motif 18 may be wrapped about the roll 300 .
  • the interlocking motif may repeat about the roll 300 .
  • the interlocking motif 18 may be repeated in a lock and step manner.
  • FIG. 12B depicts a skewed pattern 160 as is known in the prior art. The skewed pattern 160 may be wrapped about the roll 300 and/or may repeat about the roll 300 .
  • the interlocking motif 18 (and/or each pattern therein) may be made to fit different sized embossment rolls by altering the space between design elements 13 , adding design elements 13 and/or subtracting design elements 13 .
  • the beginning 160 a and end 160 b of the pattern must align as shown in FIG. 12B .
  • the entire pattern has to be enlarged or stretched, or the skew angle must be adjusted, to ensure the beginning 160 a and end 160 b of the pattern 160 align and thus accomplish elemental balance.
  • skewing precludes non-diagonal orientation (such as vertical alignment or horizontal alignment).
  • the present inventors have developed a means to align the design elements 13 in a non-diagonal manner and fit the patterns 14 , 16 and/or interlocking motif 18 on different sized rolls without stretching.
  • the original design intent is better maintained. Indeed, changing the spacing between elements or adding or subtracting elements are less significant changes than elongating particular design elements 13 .
  • the ability to fit patterns on different sized rolls without stretching reduces manufacturing costs and resources.
  • a fibrous structure 11 of the present invention can comprise a repeating interlocking motif 180 .
  • the repeating motif 180 may have a repeat width, RW, in the cross-machine direction and/or a repeat length, RL, in the machine direction.
  • the repeating interlocking motif 180 may comprise individual interlocking motifs 18 that repeat in a lock and step manner. In an embodiment depicted, for example, in FIG. 13 , the interlocking motifs 18 repeat in both the MD and CD.
  • the repeating motif 180 may repeat continuously throughout a fibrous structure 11 as shown in FIG. 13 or repeat throughout the fibrous structure 11 with areas of white space and/or other designs as shown in FIG. 14 . Elements 13 within one interlocking motif 18 a may overlap with elements 13 in an adjacent interlocking motif 18 b.
  • the repeating interlocking motif 180 forms columns of interlocking motifs 18 repeating in the MD.
  • columns have been labeled A, B, C, D, and E in FIGS. 13 and 14 .
  • the fibrous structure 11 may comprise a first column, A, and a second column, B, adjacent to the first column, A.
  • Corresponding points, P 1 , of adjacent interlocking motifs 18 a , 18 b in the first column, A, and second column, B can be offset by a fixed distance, D md , in the MD and a fixed distance, D cd , in the CD.
  • This offsetting can continue throughout the repeat width, RW.
  • the offsetting can continue through the repeat length, RL, as well.
  • repeating motif 180 could similarly form rows instead of columns of interlocking motifs 18 (not shown).
  • Corresponding points, P 1 , of interlocking motifs 18 in adjacent rows could be offset a fixed D cd , in the CD and a fixed distance, D md , in the MD as well. This offsetting could continue throughout the repeat width, RW. The offsetting could continue through the repeat length, RL, as well.
  • each interlocking motif 18 may comprise one or more patterns 14 , 16 that interlock, such as by overlapping.
  • the patterns 14 , 16 may interlock in any of the manners described above or in any way known in the art.
  • each interlocking motif 18 can be non-diagonal.
  • each interlocking motif 18 may comprise a width, W, in the cross machine direction and a length, L, in the machine direction. In one nonlimiting example, the width, W, of the interlocking motif 18 is substantially equal to the strip width, SW.
  • the fibrous structure 11 can be convolutely wound into a log 200 , such as a log 200 used in the manufacturing of sanitary tissue products 12 .
  • the repeating interlocking motif 180 may be helixed about the log 200 as shown in FIG. 15 .
  • the helixed repeating interlocking motif 180 may be non-diagonal. This helixing without imposing a diagonal orientation is possible through the lock and step repeat of the repeating interlocking motif 180 . Helixing or spiraling also occurs when skewing a pattern. However, skewing precludes vertical and/or horizontal alignment of a pattern. In other words, the patterns or motif are always at an angle (i.e., diagonal) when skewing is used.
  • the log 200 may have a log width, LW, in the CD of about 80 inches to about 120 inches, or about 98 inches to about 102 inches, or up to about 150 inches.
  • the repeat width, RW is substantially equivalent to the log length, LW.
  • the repeating motif 180 may be elementally balanced and/or visually balanced. This may be achieved through the use of individual items that are balanced such as balanced patterns 14 , 16 and/or balanced interlocking motifs 18 . Further, the repetition of balanced interlocking motifs 18 ensures substantial balance throughout the repeat length, RL, and repeat width, RW. Likewise, repeating in a lock and step manner permits the arrangement of design elements 13 such that balance is further ensured without having to skew or manually place elements 13 .
  • the fibrous structure may comprise a consumer-sized length, CL.
  • the consumer-sized length, CL is less than the length, L, of the interlocking motif 18 .
  • the end user may perceive a complex design, as the design on adjacent consumer-sized sheets 38 may differ. In other words, the consumer is less likely to perceive the repetition of the interlocking motifs 18 .
  • the consumer-sized length, CL is about 3 inches to about 15 inches, including all 0.1 increments therebetween.
  • the consumer-sized length, CL can be substantially equivalent to the length of a sheet 38 defined by a line of weakness 36 .
  • the interlocking motif length, L is greater than one times the consumer-length, CL, or about three times greater, or about four times greater, or about three to about eight times greater, or about seven times greater than the consumer-sized length, CL.
  • the consumer-sized length, CL may be defined by a line of weakness 36 .
  • the fibrous structure 11 comprises a consumer-sized width, CW.
  • the consumer-sized width, CW may be about 3 to about 15 inches, including all 0.1 increments therebetween.
  • the consumer-sized width, CW is substantially equivalent to the strip width, SW.
  • the consumer-sized width, CW is less than or equal to the width, W, of the interlocking motif 18 . In this way, as discussed above, the end user may perceive a complex design, as the design on adjacent consumer-sized sheets 38 may differ.
  • the consumer-sized width, CW is less than the repeat width, RW.
  • the repeat width, RW may be greater than one times the consumer-sized width, or about three to about eight times, or about seven times greater than the consumer-sized width, CW.
  • the sheet 38 has the dimensions of a consumer-sized width, CW, and a consumer-sized length, CL.
  • the fibrous structure 11 comprises a continuing design 400 .
  • the continuing design 400 may comprise one or more patterns 14 , 16 , 140 and/or an interlocking motif 18 .
  • the continuing design 400 can have a continuing design length, DL, in the machine direction as shown in FIG. 17 .
  • the continuing design 400 may be disposed on the fibrous structure 11 in a repetitive manner to create a repeating continuing design 410 .
  • the continuing design 400 may be repeated in the machine direction, cross machine direction or combinations thereof. In one nonlimiting example, the continuing design 400 is repeated in a lock and step manner as shown in FIG. 18 and described above. Turning to FIGS.
  • the fibrous structure 11 may be convolutely wound into a log 200 having a circumference, C 1 .
  • the circumference, C 1 may be determined by measuring the diameter of the log 200 on the side 201 of the log 200 , to the nearest 0.01 inch and multiplying the diameter by ⁇ . Where the log 200 has a varying diameter, the largest diameter may be used for the calculation of the circumference.
  • the circumference, C 1 may be determined by measuring the Original Roll Diameter in accordance with the Percent Compressibility Test Method herein, and multiplying the Original Roll Diameter by ⁇ .
  • the circumference, C 1 may be from about 8 inches to about 25 inches, or from about 11 inches to about 18 inches, or from about 12 to about 14 inches, or from about 13 inches to about 21 inches, or from about 15 inches to about 17 inches, reciting, for each of the disclosed ranges, all 1 inch increments therebetween.
  • the log 200 will further comprise a terminal sheet 38 a , which is the last sheet 38 (i.e., the outermost sheet 38 ) on the log 200 and an underlying sheet 38 b , which comprises the next outmost layer of the log 200 .
  • the terminal sheet 38 a comprises a terminal end 39 a , which lands on the underlying sheet 38 b at a landing position 39 b on the underlying sheet 38 b .
  • a covered portion 38 d of the underlying sheet 38 b will be disposed underneath the terminal sheet 38 a and another portion 38 c of the underlying sheet 38 b , the visible portion 38 c , will be adjacent to the terminal end 39 a of the terminal sheet 38 a .
  • the terminal end 39 a may be substantially straight or curvilinear and may generally extend in the cross machine direction.
  • the continuing design 400 will visually continue from the terminal end 39 a of the terminal sheet 38 a to the visible portion 38 c on the underlying sheet 38 b.
  • a first segment 401 of the continuing design 400 that is disposed on the visible portion 38 c of the underlying sheet 38 b will be visually uninterrupted with a second segment 402 of the continuing design 400 that is disposed on the terminal sheet 38 a , such that the two segments 401 , 402 will appear as a whole design 400 even though those particular segments 401 , 402 were not initially printed and/or embossed together to form the whole 400 .
  • the first segment 401 was initially printed and/or embossed together with a third segment 403 to form the whole design 400 , the third segment 403 being disposed on the covered portion 38 d of the underlying sheet 38 b once the fibrous structure 11 is wound.
  • segments of an interrupted design would appear offset, misaligned, discontinuous or otherwise noticeably different from the original design.
  • a portion 38 e of the terminal sheet 38 a may be removed, defining a new terminal end 39 a (see FIGS. 19A and 20 ).
  • the continuing design 400 may visually continue between the remaining portion 38 f of the terminal sheet 38 a and the adjacent, visible portion of underlying sheet 38 c , regardless of the dimensions of the removed portion 38 e .
  • the fibrous structure comprises one or more lines of weakness 36 , such as a perforation, as depicted in FIGS. 19A , 19 B and 20 . As illustrated in FIG.
  • the line of weakness 36 may be coincident with the terminal end 39 a and the continuing design 400 may continue between the terminal sheet 38 a and the underlying sheet 38 b such that the continuing design 400 is visually uninterrupted over the line of weakness 36 .
  • lines of weakness 36 and terminal ends 39 a themselves do not constitute visual interruptions of the continuing design 400 .
  • the interlocking motif 18 , the repeating interlocking motif 180 , continuing design 400 and/or repeating continuing design 410 of the present invention may be imparted onto the fibrous structure 11 by any suitable means including printing and/or embossing.
  • the interlocking motif 18 or continuing design 400 is imparted by an imparting apparatus 350 .
  • the imparting apparatus 350 may comprise an apparatus suitable for embossing.
  • the interlocking motif 18 or continuing design 400 can be disposed on an embossment roll 300 as shown in FIG. 12A .
  • the imparting apparatus 350 may comprise an apparatus suitable for printing.
  • the interlocking motif 18 or continuing design 400 can be disposed on a printing apparatus such as a gravure roll or otherwise programmed into a printer.
  • the imparting apparatus 350 may be used in conjunction with a backing surface 360 , such as a backing roll as shown in FIGS. 21 and 22 .
  • the fibrous structure 11 may be driven over the backing surface 360 .
  • the backing surface 360 and imparting apparatus 350 may be positioned at a distance away from each other. In such case, the distance between the backing surface 360 and imparting apparatus 350 may be substantially equal to or smaller than the caliper of the fibrous structure 11 .
  • FIG. 21 the distance between the backing surface 360 and imparting apparatus 350 may be substantially equal to or smaller than the caliper of the fibrous structure 11 .
  • the imparting apparatus 350 may form a nip 370 with the backing surface 360 .
  • the fibrous structure 11 may contact the imparting apparatus 350 at the nip 370 .
  • the backing surface 360 may be made of any material suitable for providing a surface for the fibrous structure 11 and/or providing pressure to facilitate embossing or printing, such as providing compression and/or pressure at the nip 370 .
  • the imparting apparatus 350 may be suitable for both printing and embossing—such as a system comprising a printer and an emboss roll 300 .
  • the interlocking motif 18 or continuing design 400 imparted to the fibrous structure substantially mirrors the interlocking motif structure or continuing design structure disposed on the imparting apparatus, such that the visual appearance of the design imparted to the fibrous structure is effectively a one-to-one replication, of the design of the imparting structure.
  • interlocking motif 18 and/or patterns 14 , 16 , 140 comprising the interlocking motif 18 are visually balanced and/or elementally balanced in accordance with the teachings herein. Further in one embodiment, interlocking motif 18 is elementally balanced before imparting the interlocking motif 18 onto the fibrous structure 11 . In one nonlimiting example, the interlocking motif 18 may be elementally balanced and/or visually balanced as it is being imparted onto the imparting apparatus 350 .
  • interlocking motif 18 may be imparted on the fibrous structure 11 such that the interlocking motif centerline 54 is substantially parallel to the machine direction.
  • a pattern 140 forming a part of the interlocking motif 18 may be imparted to the fibrous structure 11 such that the pattern centerline 480 is substantially parallel to the machine direction.
  • the interlocking motif 18 may include any of the features described above, including but not limited to any of types of design elements 13 and/or patterns 14 , 16 , 140 described herein. Further, the interlocking motif 18 (and/or patterns 14 , 16 comprising the interlocking motif 18 ) may be non-diagonal. Likewise, the continuing design 400 may include any of the features described above, including but not limited to the design length, DL. The continuing design may comprise an interlocking motif 18 or a pattern 14 , 16 , 140 .
  • the interlocking motif 18 or continuing design 400 may be imparted onto the fibrous structure 11 repeatedly to form a repeating interlocking motif 180 or repeating continuing design 410 respectively; the interlocking motif 18 or continuing design 400 may be repeated in the CD and/or in the MD.
  • the interlocking motif 18 or continuing design 400 is imparted onto the fibrous structure 11 in a lock and step repeating manner as discussed above.
  • the interlocking motif 18 or continuing design 400 is helixed about the imparting apparatus 350 .
  • the method can further include winding the fibrous structure into a convolutely wound log 200 .
  • the method may include dividing the fibrous structure into a consumer-sized length, CL, and/or a consumer-sized width, CW, in accordance with the description above related to said dimensions.
  • the method can further include winding the fibrous structure 11 into a log 200 having a circumference, C 1 , wherein the circumference, C 1 , is substantially equivalent to the length of the continuing design, DL, as described above.
  • Percent Roll Compressibility is determined using the Roll Diameter Tester 1000 as shown in FIG. 23 . It is comprised of a support stand made of two aluminum plates, a base plate 1001 and a vertical plate 1002 mounted perpendicular to the base, a sample shaft 1003 to mount the test roll, and a bar 1004 used to suspend a precision diameter tape 1005 that wraps around the circumference of the test roll. Two different weights 1006 and 1007 are suspended from the diameter tape to apply a confining force during the uncompressed and compressed measurement. All testing is performed in a conditioned room maintained at about 23° C. ⁇ 2 C.® and about 50% ⁇ 2% relative humidity.
  • the diameter of the test roll is measured directly using a Pi® tape or equivalent precision diameter tape (e.g. an Executive Diameter tape available from Apex Tool Group, LLC, Apex, N.C., Model No. W606PD) which converts the circumferential distance into a diameter measurement so the roll diameter is directly read from the scale.
  • the diameter tape is graduated to 0.01 inch increments with accuracy certified to 0.001 inch and traceable to NIST.
  • the tape is 0.25 in wide and is made of flexible metal that conforms to the curvature of the test roll but is not elongated under the 1100 g loading used for this test.
  • the diameter tape is shortened from its original length to a length that allows both of the attached weights to hang freely during the test, yet is still long enough to wrap completely around the test roll being measured.
  • the cut end of the tape is modified to allow for hanging of a weight (e.g. a loop). All weights used are calibrated, Class F hooked weights, traceable to NIST.
  • the aluminum support stand is approximately 600 mm tall and stable enough to support the test roll horizontally throughout the test.
  • the sample shaft 1003 is a smooth aluminum cylinder that is mounted perpendicularly to the vertical plate 1002 approximately 485 mm from the base.
  • the shaft has a diameter that is at least 90% of the inner diameter of the roll and longer than the width of the roll.
  • a small steal bar 1004 approximately 6.3 mm diameter is mounted perpendicular to the vertical plate 1002 approximately 570 mm from the base and vertically aligned with the sample shaft.
  • the diameter tape is suspended from a point along the length of the bar corresponding to the midpoint of a mounted test roll. The height of the tape is adjusted such that the zero mark is vertically aligned with the horizontal midline of the sample shaft when a test roll is not present.

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