Efficient tissue roll configurations

Abstract

Presented is a package of tissue rolls, the package including two package sides, a package bottom, a package back, and a package top; a package front in a generally vertical orientation, the package front spaced apart from and generally parallel to the package back, wherein the package front and the package back are coupled to and generally orthogonal to the package bottom, the package front including a primary package logo having a logo axis; and a plurality of tissue rolls, each tissue roll having a roll height, a roll diameter, and a longitudinal axis, wherein each of the longitudinal axes are generally horizontal when the logo axis is generally vertical.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other features and aspects of the present invention and the manner of attaining them will become more apparent, and the invention itself will be better understood by reference to the following description, appended claims and accompanying drawings, where:

FIG. 1 is a perspective view of a tissue roll of the present invention.

FIG. 2 is a perspective view of a package of the present invention including the tissue rolls of FIG. 1.

FIG. 3 is a perspective view of an alternate aspect of a package of the present invention including the tissue rolls of FIG. 1.

FIG. 4 is a perspective view of a case of the present invention including the packages of either FIG. 2 or FIG. 3.

FIG. 5 is a perspective view of a unit of the present invention including the case of FIG. 4.

FIG. 6 is a perspective view of a trailer of the present invention including the unit of FIG. 5.

Repeat use of reference characters in the present specification and drawings is intended to represent the same or analogous features or elements of the present invention. The drawings are representational and are not necessarily drawn to scale. Certain proportions thereof may be exaggerated, while others may be minimized.

DETAILED DESCRIPTION OF THE INVENTION

It is to be understood by one of ordinary skill in the art that the present discussion is a description of exemplary aspects of the present invention only, and is not intended as limiting the broader aspects of the present invention.

The invention relates to improved configurations for shipping and handling that reduce the time necessary for shipping and handling and also reduce the amount of packaging materials used, thus reducing the cost to put a product on a retail shelf.

As used herein and unless otherwise described, the term “width” generally refers to the longest horizontal dimension of a structure, the term “height” generally refers to the vertical dimension of a structure, and the term “depth” refers to the shortest horizontal dimension of a structure.

The consumer-oriented tissue rolls 10 of the present invention are illustrated in FIG. 1 and include paper towels and bath tissue, also known as toilet paper and by other names. Each tissue roll 10 is generally cylindrical in shape with a roll height 12 and a roll diameter 14. The tissue roll 10 has a central longitudinal axis 20 therethrough, and an outer surface 22 that is generally parallel to the longitudinal axis 20. The tissue roll 10 also has two opposing end surfaces 24 generally perpendicular to the outer surface 22 and the longitudinal axis 20. An exemplary tissue roll 10 of bath tissue has an as-packaged roll height 12 of approximately 4 5/16 inches and an as-packaged roll diameter 14 of approximately 3.9 inches. In various aspects of the present invention, the tissue roll dimensions may be of any suitable size. An exemplary tissue roll 10 of paper towels has an as-packaged roll height 12 of approximately 11 inches and an as-packaged roll diameter 14 of approximately 4.6-6.0 inches.

Each tissue roll 10 is formed by winding a continuous web of tissue 26 around the longitudinal axis 20 to form an empty central bore 30 centered on the longitudinal axis 20. The tissue 26 in the tissue roll 10 has an inner end 32 adjacent the central bore 30 and an outer end 34 at the outer surface 22 of the tissue roll 10. The tissue 26 may be wound around a tubular core 36, or the tissue roll 10 may be formed without a core 36. If the tissue roll 10 has a core 36, the inner end 32 of the tissue 26 may be attached to the core 36 using adhesive or other suitable means. The outer end 34 of the tissue 26 may be attached to the outer surface 22 of the tissue roll 10. The tissue 26 may include score lines 40 at regular intervals that define a sheet 42 between two successive score lines 40. In use, a tissue roll 10 is unwound by rotating the tissue roll 10 about its longitudinal axis 20 and drawing tissue 26 from the outer surface 22.

Due to the structure of the tissue roll 10, the tissue roll 10 has greater compressive strength in a direction along the longitudinal axis 20 than it does in a direction perpendicular to the longitudinal axis 20. A force in a direction perpendicular to the longitudinal axis 20 tends to have a crushing effect on the tissue roll 10 and can cause the central bore 30 to collapse or become partially or completely flattened.

While tissue rolls 10 may be packaged and sold individually, the present invention relates to packaging a plurality of tissue rolls 10 in one package 50. In one aspect of the present invention, a package 50 for a plurality of tissue rolls 10 is generally rectilinear with a package front 52, a package back 54, two package sides 56, a package top 58, and a package bottom 60. The package front 52 includes a package front width 62 and a package front height 64. The package bottom 60 includes a package bottom depth 66. The package 50 may be constructed from a poly film or any other suitable material. Individual tissue rolls 10 or groups of tissue rolls 10 are typically packaged in smaller units prior to assembly into the package 50, yielding two layers of packaging material for each tissue roll 10. In one aspect of the present invention, the plurality of tissue rolls 10 are positioned in the package 50 without additional inner packaging materials.

In prior art practice, tissue rolls 10 are always stacked such that their longitudinal axes 20 are vertical because of the strength profile of a typical tissue roll 10 described above. To minimize the volume occupied by a given number of tissue rolls 10, tissue rolls 10 are usually stacked such that their longitudinal axes 20 are collinear. Tissue rolls 10, whether individually wrapped or multiply packed, are transported, stored, and displayed on a retail shelf with their longitudinal axes 20 in a vertical orientation.

Although the package 50 may hold any suitable number of tissue rolls 10, in one particular example the package 50 includes twenty-four tissue rolls 10 in an array of three tissue rolls 10 by four tissue rolls 10 by two tissues rolls 10. In the as-displayed orientation illustrated in FIG. 2, the package 50 generally has dimensions of three roll heights 12 wide, four roll diameters 14 high, and two roll diameters 14 deep. Using the tissue roll exemplary dimensions described above, an exemplary package 50 has the outer dimensions of 12.938 inches wide, 15.625 inches high, and 7.813 inches deep.

The package 50 also includes at least one primary package logo 70 or other identifying feature on the package front 52. The primary package logo 70 is properly oriented in an upright, readable orientation as illustrated in FIG. 2 when the package 50 is displayed on a retail shelf. The primary package logo 70 has a logo axis 74 that is vertical when the primary package logo 70 is properly oriented in an upright, readable orientation. The package 50 may also include a secondary package logo 78 or other identifying feature on another side of the package 50, such as on the package bottom 60 as illustrated in FIG. 2, to allow a retailer some flexibility in displaying the package 50 on a retail shelf. The package 50 may include additional logos and other information as desired by the manufacturer, distributor, retailer, or other interested party.

The package 50 illustrated in FIG. 2 is designed to be displayed on a retail shelf with the longitudinal axes 20 of the tissue rolls 10 in a horizontal orientation and parallel to a front edge of the retail shelf such that the package front 52 is visible to a consumer. The tissue rolls 10 are resistant to crushing while on the retail shelf because the maximum weight to be borne by a tissue roll 10, that of the three tissue rolls 10 above it, does not easily crush a tissue roll 10.

Another aspect of the present invention illustrated in FIG. 3 provides a response to the consumer behavior of purchasing by roll count and, to a lesser degree, roll size or diameter. Using prior packaging methods and then displaying the packages 50 on their sides provides such information to a consumer but eliminates the display of a logo and other information.

In this aspect, the primary package logo 70 is still displayed on the package front 52 but the tissue rolls 10 are oriented in the package 50 such that their longitudinal axes 20 are perpendicular to the package front 52 rather than parallel to the package front 52 in the previous aspect. When the package 50 in this aspect is displayed on the retail shelf with the longitudinal axes 20 of the tissue rolls 10 still horizontal but perpendicular to the front edge of the retail shelf, one end surface 24 of each tissue roll 10 can be visible to a consumer. In this orientation, the consumer may immediately evaluate the diameter of each tissue roll 10 in the package 50 and generally the number of rolls in the package 50 without removing the package 50 from the retail shelf.

To add further value to this aspect of the present invention, at least a portion of the package front 52 is translucent such that at least a portion of an end surface 24 of at least one tissue roll 10 is visible through the package front 52. In another aspect of the present invention, all of an end surface 24 of one tissue roll 10 is visible through the package front 52. In another aspect of the present invention, at least a portion of an end surface 24 of a plurality of tissue rolls 10 is visible through the package front 52. In another aspect of the present invention, all of an end surface 24 of a plurality of tissue rolls 10 is visible through the package front 52. In another aspect of the present invention, at least a portion of an end surface 24 of each tissue roll 10 is visible through the package front 52. In another aspect, an end surface 24 of each tissue roll 10 is visible through the package front 52, although the primary package logo 70 may occlude a portion of the view of the end surfaces 24.

As used herein, the term “translucent” generally refers to permitting the passage of light, both in the sense of being transparent, in which objects may be seen clearly therethrough, and in the sense that light may be transmitted and diffused such that objects are not seen clearly therethrough.

Unlike prior products, the package 50 of the present invention is not transported and stored in the same orientation as it is displayed on a retail shelf, as will be described further below. In the as-transported orientation illustrated in FIG. 4, the package 50 generally has dimensions of four roll diameters 14 wide, three roll heights 12 high, and two roll diameters 14 deep. This aspect of the present invention allows the tissue rolls 10 to be transported and stored with their longitudinal axes 20 in a vertical orientation, but displayed on a retail shelf with their longitudinal axes 20 in a horizontal orientation.

While packages 50 of tissue rolls 10 may be cased and sold individually, the present invention relates to casing a plurality of packages 50 of tissue rolls 10 in one case 80. In one aspect of the present invention, a case 80 for a plurality of packages 50 is generally rectilinear with two case long faces 82, two case short faces 84, a case top 85, and a case bottom 86. The case 80 also includes a case width 87, a case height 88, and a case depth 89. The case 80 may be constructed from corrugated board or any other suitable material. The case 80 provides structural strength to protect the tissue rolls 10 from damage as well as a covering to protect the tissue rolls 10 and packages 50 from dust and dirt during storage, handling, and shipment.

Packages 50 of tissue rolls 10 are always stacked such that the longitudinal axes 20 of the tissue rolls 10 are vertical because of the strength profile of a typical tissue roll 10 described above. To minimize the volume occupied by a given number of tissue rolls 10, tissue rolls 10 are usually stacked such that their longitudinal axes 20 are collinear. Tissue rolls 10 are therefore transported and stored with their longitudinal axes 20 in a vertical orientation.

Although the case 80 may hold any suitable number of packages 50 of tissue rolls 10, in one particular example the case 80 includes six packages 50 of twenty-four tissue rolls 10 each in an array of three packages 50 by two packages 50. In this example, the case 80 includes six packages 50 in a two-by-three array such that six package tops 58 are in a face-to-face arrangement with one case long face 82, two package fronts 52 are in a face-to-face arrangement with one case short face 84, and two package backs 54 are in a face-to-face arrangement with the other case short face 84. In the arrangement illustrated in FIG. 4, the case 80 generally has dimensions of three package bottom depths 66 wide, two package front widths 62 high, and one package front height 64 deep. This translates to an array of tissue rolls 10 that, absent packaging, is six roll diameters 14 wide by six roll heights 12 high by four roll diameters 14 deep for a total of 144 tissue rolls 10 in the case 80. Using the tissue roll and package exemplary dimensions described above, such an exemplary case 80 has the outer dimensions of 23.375 inches wide, 26.625 inches high, and 15.563 inches deep.

The case 80 may include at least one primary case logo (not shown) or other identifying feature on at least one of the case long faces 82, case short faces 84, case top 85, and case bottom 86. The case 80 may also include a secondary case logo (not shown) or other identifying feature on at least one of the case long faces 82, case short faces 84, case top 85, and case bottom 86. The case 80 may include additional logos and other information as desired by the manufacturer, distributor, retailer, or other interested party.

The case 80 also includes a perforated display feature in the form of a removable panel 94 of the case 80. The removable panel 94 is defined by lines 96 of perforations or other frangible features in one case long face 82 and one case short face 84. As a result, the removable panel 94 includes part of that case long face 82 and part of that case short face 84. Removal of the removable panel 94 exposes packages 50; once the removable panel 94 is removed and the case 80 is positioned on a retail shelf as described above, two packages 50 are immediately viewable and in their proper orientation, with four more packages 50 behind them.

The case 80 illustrated in FIG. 4 is designed to be positioned on a retail shelf with the case top 85 to the left of a viewing consumer, the case bottom 86 to the right of a viewing consumer, a case short face 84 in a vertical orientation facing the consumer, and a case long face 82 in horizontal orientation above the packages 50 of tissue rolls 10. In this orientation, longitudinal axes 20 of the tissue rolls 10 are in a horizontal orientation and parallel to a front edge of the retail shelf such that package fronts 52 are visible to a consumer.

The removable panel 94 allows for a quick transition from storeroom to shelf; a stocker simply removes the removable panel 94 by hand or using tools and places the case 80 on the retail shelf in the proper orientation. Packages 50 of tissue rolls 10 are then immediately viewable and obtainable by a consumer. The display on the shelf is six roll heights 12 wide and four roll diameters 14 high, with a depth of six roll diameters 14 while the case 80 is still full. The resulting presentation or display allows for two package facings and provides for a substantially larger package graphics billboard than on comparative configurations and/or display strategies.

Another aspect of the present invention uses the packages 50 illustrated in FIG. 3 in which the primary package logo 70 is still displayed on the package front 52 but the tissue rolls 10 are oriented in the package 50 such that their longitudinal axes 20 are perpendicular to the package front 52 rather than parallel to the package front 52. In this example, the case 80 includes six packages 50 still in a two-by-three array such that six package tops 58 are in a face-to-face arrangement with one case long face 82, two package fronts 52 are in a face-to-face arrangement with one case short face 84, and two package backs 54 are in a face-to-face arrangement with the other case short face 84. Similarly to the arrangement illustrated in FIG. 4, the case 80 generally has dimensions of three package bottom depths 66 wide, two package front widths 62 high, and one package front height 64 deep. This translates to an array of tissue rolls 10 that, absent packaging, is six roll heights 12 wide by six roll diameters 14 high by four roll diameters 14 deep for a total of 144 tissue rolls 10 in the case 80.

Similarly to that described above for FIG. 4, the case 80 in this aspect is designed to be positioned on a retail shelf with the case top 85 to the left of a viewing consumer, the case bottom 86 to the right of a viewing consumer, a case short face 84 in a vertical orientation facing the consumer, and a case long face 82 in horizontal orientation above the packages 50 of tissue rolls 10. In this orientation, longitudinal axes 20 of the tissue rolls 10 are in a horizontal orientation and perpendicular to a front edge of the retail shelf such that package fronts 52 and at least one roll end surface 24 are visible to a consumer upon removal of the removable panel 94. Once the removable panel 94 is removed and the case 80 is positioned on a retail shelf as described above, two packages 50 are immediately viewable and in their proper orientation, with four more packages 50 behind them. Packages 50 of tissue rolls 10 are immediately viewable and obtainable by a consumer. The display on the shelf in this aspect will be six roll diameters 14 wide and four roll diameters 14 high, with a depth of six roll heights 12 while the case 80 is still full.

While cases 80 of packages 50 may be shipped and sold individually, the present invention relates to assembling a plurality of cases 80 in one unit 100. In one aspect of the present invention, a unit 100 is the primary arrangement for shipping purposes, and is generally rectilinear with two unit wide faces 102, two unit narrow faces 104, a unit bottom 105, and a unit top 106. The unit 100 also includes a unit width 107, a unit height 108, and a unit depth 109. The unit 100 is typically an assembly and not constructed from packaging materials, although the unit 100 may be wrapped with poly film, corrugated board, or any other suitable material to protect the unit 100 from damage or disassembly during shipping.

Cases 80 of packages 50 are always stacked such that the longitudinal axes 20 of the tissue rolls 10 are vertical because of the strength profile of a typical tissue roll 10 described above. Tissue rolls 10 are therefore transported and stored with their longitudinal axes 20 in a vertical orientation.

Although the unit 100 may hold any suitable number of cases 80, in one particular example illustrated in FIG. 5 the unit 100 includes twenty cases 80 of six packages 50 each in an array of four tiers 110 with five cases 80 in each tier 110. In this example, each tier 110 of five cases 80 has three cases 80 in case long face 82 to case long face 82 alignment. Two cases 80 are added such that the additional cases 80 are in case short face 84 to case short face 84 orientation with each other, and in an orientation of case long face 82 of the additional cases 80 to case short face 84 of the original three cases 80. Adjacent tiers 110 may have alternating arrangements with respect to which side of a given tier 110 the first three cases 80 in case long face 82 to case long face 82 alignment are positioned.

In the arrangement illustrated in FIG. 5, the unit 100 generally has dimensions of three case depths 89 or two case widths 87 wide, four case heights 88 high, and one case width 87 plus one case depth 89 deep. This translates to an array of tissue rolls 10 that, absent packaging, is twelve roll diameters 14 wide by twenty-four roll heights 12 high by ten roll diameters 14 deep for a total of 2880 tissue rolls 10 in the unit 100. Using the tissue roll, package, and case exemplary dimensions described above, such an exemplary unit 100 has the outer dimensions of 46.75 inches wide, 106.5 inches high, and 38.94 inches deep.

This arrangement of the unit 100 yields a volume efficiency of 94.4 percent. 100 percent volume utilization or efficiency for a unit is defined as a volume that is 48 inches wide, 107 inches high, and 40 inches deep for a total of 205,440 cubic inches or 118.88 cubic feet. The closer to the standard of 48 inches by 107 inches by 40 inches a shippable unit is, the more economical it is to store, handle, and transport it. Typical previous tissue unit volume efficiencies are 83 to 90 percent.

The unit 100 may also include one or more logos or other identifying features and other information as desired by the manufacturer, distributor, retailer, or other interested party.

Another aspect of the present invention uses the packages 50 illustrated in FIG. 3 in which the primary package logo 70 is still displayed on the package front 52 but the tissue rolls 10 are oriented in the package 50 such that their longitudinal axes 20 are perpendicular to the package front 52 rather than parallel to the package front 52. In this example, the unit 100 still includes twenty cases 80 of six packages 50 each in an array of four tiers 110 with five cases 80 in each tier 110. Similarly to the arrangement illustrated in FIG. 5, the unit 100 generally has dimensions of three case depths 89 or two case widths 87 wide, four case heights 88 high, and one case width 87 plus one case depth 89 deep. This translates to an array of tissue rolls 10 that, absent packaging, is twelve roll heights 12 wide by twenty-four roll diameters 14 high by six roll heights 12 plus four roll diameters 14 deep for a total of 2880 tissue rolls 10 in the unit 100.

While units 100 of cases 80 may be shipped and sold individually, the present invention includes assembling a plurality of units 100 in one trailer 120. In one aspect of the present invention, a trailer 120 is the primary arrangement for shipping purposes, and is generally rectilinear.

Although the trailer 120 may hold any suitable number of units 100, in one particular example illustrated in FIG. 6 the trailer 120 includes thirty-two units 100 of twenty cases 80 each in an array of two rows of sixteen units 100 each, where the units 100 within a row are in unit wide face 102 to unit wide face 102 orientation, and wherein the units 100 between rows are in a unit narrow face 104 to unit narrow face 104 orientation.

In the arrangement illustrated in FIG. 6, the trailer 120 generally has dimensions of sixteen unit depths 109 wide, one unit height 108 high, and two unit widths 107 deep. This translates to an array of tissue rolls 10 that, absent packaging, is 160 roll diameters 14 wide by twenty-four roll heights 12 high by twenty-four roll diameters 14 deep for a total of 92,160 tissue rolls 10 in the trailer 120. Using the tissue roll, package, case, and unit exemplary dimensions described above, such an exemplary trailer 120 has the outer dimensions of 623.0 inches wide, 106.5 inches high, and 93.5 inches deep.

This arrangement of the trailer 120 yields a volume efficiency increase of 22 percent to a volume efficiency of 92 percent. The trailer fill efficiency of the present invention allows for an increase in capacity use in a standard 53-foot dry goods trailer that nominally measures 53 feet long (wide in the present description) by 98 inches wide (deep in the present description) by 110 inches tall. The accepted capacity of a standard dry goods trailer in the United States is 3300 cubic feet. The present invention allows for thirty-two units to be placed within that space, which is an almost perfect trailer fill situation. Previous attempts typically allow fewer tissue rolls per case 80 and unit 100, and only thirty units 100 per trailer 120.

Another aspect of the present invention uses the packages 50 illustrated in FIG. 3 in which the primary package logo 70 is still displayed on the package front 52 but the tissue rolls 10 are oriented in the package 50 such that their longitudinal axes 20 are perpendicular to the package front 52 rather than parallel to the package front 52. In this example, the trailer 120 still includes thirty-two units 100 of twenty cases 80 each in an array of two rows of sixteen units 100 each. Similarly to the arrangement illustrated in FIG. 6, the trailer 120 generally has dimensions of sixteen unit depths 109 wide, one unit height 108 high, and two unit widths 107 deep. This translates to an array of tissue rolls 10 that, absent packaging, is ninety-six roll heights 12 plus sixty-four roll diameters 14 wide by twenty-four roll diameters 14 high by twenty-four roll heights 12 deep for a total of 92,160 tissue rolls 10 in the trailer 120.

The present invention provides the advantages of a unique manufacturing and merchandising solution. The unique case count, configuration, orientation, and presentation provide an entire at-retail-shelf solution. A case count of six packages 50 of twenty-four tissue rolls 10 each provides a unique quantity over the typical case of four twenty-four-packs for shipment and retail shelf pack-out. Pack-out, or stocking retail shelves, using cases 80 of six packages 50 each and wherein the cases 80 have removable panels 94 provides efficiency for retailers to stock shelves and leads to fewer out-of-stock situations. The case configurations and orientations of the present invention allow for a unique display of the packages 50. Due to the solution provided by the present invention, each case 80 will be oriented on its side during retail shelf presentation. In addition, environmental sustainability is improved due in part to the elimination of individually-wrapped packages. Environmental sustainability is also improved due in part to the case quantity of six twenty-four-packs instead of four or fewer twenty-four-packs in a case. The present invention accomplishes at least an 11 percent reduction in packaging materials. Finally, the case quantity, configuration, and orientation improvements allow for increased efficiency in distribution strategy.

These and other modifications and variations to the present invention may be practiced by those of ordinary skill in the art, without departing from the spirit and scope of the present invention, which is more particularly set forth in the appended claims. In addition, it should be understood that aspects of the various aspects of the present invention may be interchanged either in whole or in part. Furthermore, those of ordinary skill in the art will appreciate that the foregoing description is by way of example only, and is not intended to limit the invention so further described in such appended claims.

Claims

1. A package of tissue rolls, the package comprising: two package sides, a package bottom, a package back, and a package top;a package front in a generally vertical orientation, the package front spaced apart from and generally parallel to the package back, wherein the package front and the package back are coupled to and generally orthogonal to the package bottom, the package front including a primary package logo having a logo axis; anda plurality of tissue rolls, each tissue roll having a roll height, a roll diameter, and a longitudinal axis, wherein each of the longitudinal axes are generally horizontal when the logo axis is generally vertical.

2. The package of claim 1, wherein the longitudinal axes are generally parallel to both the package front and the package bottom.

3. The package of claim 1, wherein the longitudinal axes are generally parallel to the package bottom and generally perpendicular to the package front.

4. The package of claim 1, wherein the package includes a package front width, a package front height, and a package bottom depth, and wherein the plurality of tissue rolls are oriented in an array such that the package front width is equivalent to three roll heights, the package front height is equivalent to four roll diameters, and the package bottom depth is equivalent to two roll diameters.

5. The package of claim 1, wherein at least a portion of the package front is translucent.

6. A package of tissue rolls, the package comprising: two package sides, a package bottom, a package back, and a package top;a package front in a generally vertical orientation, the package front spaced apart from and generally parallel to the package back, wherein the package front and the package back are coupled to and generally orthogonal to the package bottom, the package front including a primary package logo having a logo axis; anda plurality of tissue rolls, each tissue roll having a longitudinal axis and a roll end surface perpendicular to the longitudinal axis, wherein each of the longitudinal axes are generally horizontal and perpendicular to the package front when the logo axis is generally vertical, and wherein at least a portion of the package front is translucent such that at least a portion of one roll end surface is visible through the package front.

7. The package of claim 6, wherein at least a portion of a roll end surface of each tissue roll is visible through the package front.

8. A case of tissue rolls, the case comprising: two case long faces in parallel orientation, two case short faces connecting and perpendicular to the two case long faces, a case bottom, and a case top;a removable panel including a portion of one of the case long faces and a portion of one of the case short faces, at least a portion of the removable panel bordered by a frangible line;a package including a plurality of tissue rolls,two package sides, a package bottom, a package back, and a package top;a package front in a generally vertical orientation, the package front spaced apart from and generally parallel to the package back, wherein the package front and the package back are coupled to and generally orthogonal to the package bottom, the package front including a primary package logo having a logo axis, wherein the package is oriented in the case such that the logo axis is parallel to the case short faces and perpendicular to the case long faces.

9. The case of claim 8, wherein each tissue roll of the plurality of tissue rolls has a longitudinal axis, and wherein each of the longitudinal axes are generally vertical.

10. The case of claim 8, wherein the case includes six packages in a two-by-three array such that six package tops are in a face-to-face arrangement with one case long face, two package fronts are in a face-to-face arrangement with one case short face, and two package backs are in a face-to-face arrangement with the other case short face.

11. A method for providing tissue rolls, the method comprising: packaging a plurality of tissue rolls in a package including a package front defining a package front plane, a package bottom defining a package bottom plane, and a primary logo having a logo axis, wherein each tissue roll has a longitudinal axis, and wherein the tissue rolls are oriented in the package such that each longitudinal axis is parallel to the package bottom plane; andshipping the tissue rolls such that each longitudinal axis is generally vertical.

12. The method of claim 11, further comprising displaying the package such that the logo axis is vertical and each longitudinal axis is horizontal.

13. The method of claim 11, wherein the logo axis is parallel to the package front plane and perpendicular to the package bottom plane.

14. The method of claim 11, wherein each longitudinal axis is parallel to the package front plane.

15. The method of claim 11, wherein each longitudinal axis is perpendicular to the package front plane.

16. A method for improving the volume efficiency for shipping rolls of tissue, the method comprising: packaging a plurality of tissue rolls in a plurality of packages each including a package front defining a package front plane, a package bottom defining a package bottom plane, and a primary logo having a logo axis, wherein each tissue roll has a longitudinal axis, and wherein the tissue rolls are oriented in the plurality of packages such that each longitudinal axis is parallel to the package bottom plane; andassembling the plurality of packages in a case.

17. The method of claim 16, wherein the plurality of tissue rolls in a package is twenty-four, and wherein the plurality of packages in a case is six.

18. The method of claim 16, wherein assembling the plurality of packages in a case includes orienting the plurality of packages such that each longitudinal axis is generally vertical.

19. The method of claim 16, wherein each longitudinal axis is parallel to the package front plane.

20. The method of claim 16, wherein each longitudinal axis is perpendicular to the package front plane.