AU2014232272A1

AU2014232272A1 - Methods and apparatus for producing scored mediums, and articles and compositions resulting there from

Info

Publication number: AU2014232272A1
Application number: AU2014232272A
Authority: AU
Inventors: Giles Greenfield
Original assignee: Corrugated Synergies International LLC
Current assignee: Packaging Acquisitions I LLC
Priority date: 2013-03-15
Filing date: 2014-03-17
Publication date: 2015-10-15
Anticipated expiration: 2034-03-17
Also published as: CA2907431C; HK1212302A1; EP2969526A4; AP2015008799A0; AU2014232272B2; BR112015023678A2; CN109940940A; PH12015502380A1; WO2014146036A1; CA2907431A1; CL2015002782A1; EP2969526A1; JP6535320B2; KR20160008518A; MY179307A; MX2015013322A; CN105121148A; JP2016519008A; PE20151910A1; PH12015502380B1

Abstract

Methods and apparatus for making scored mediums, particularly but not exclusively for use in the corrugated board arts, and articles of manufacture and compositions made there with and made there by. When at least one scored medium is used in a layered or laminated article, and particularly when selectively used as a liner member and/or fluted member in a corrugated board, whether as part of a corrugated board article of manufacture or a laminate with at least one other member, the article will possess mechanical qualities superior to those that would otherwise exist if a non-scored medium was/were used. To achieve these desired qualities, a major axis of the scores formed in the scored medium runs askew, and preferably perpendicular, to the direction of beam strength in any article or article intermediate to which the scored medium is to be associated.

Description

WO 2014/146036 PCT/US2014/030909 METHODS AND APPARATUS FOR PRODUCING SCORED MEDIUMS, AND ARTICLES AND COMPOSITIONS RESULTING THERE FROM BACKGROUND OF THE INVENTION Corrugated board, also known as corrugated cardboard or colloquially as cardboard, represented a significant advancement in the container arts. Single wall corrugated board comprised a fluted paper medium bonded to and separating two flexible liners of paper to create an engineered article having exceptional stiffness or resistance to deflection in the in the strong axis or flute direction (i.e., parallel to the flutes) due to beam strength induced by the flutes, and good stiffness in the weak axis or orthogonal direction thereto (i.e., perpendicular to the flutes) due to one of the sheets resisting deflection through tensioned resistance between flute peaks and an opposing sheet resisting deflection through compressive resistance there between. To increase resistance to deflection and/or increase flexural stiffness of single and/or multiple wall corrugated board in general, and particularly in the weak axis, one may increase the basis weight of the liners and or fluted medium; increase the flute pitch; modify the pulp characteristics of the material used for the liners and/or fluted medium; control fiber orientation in the materials used for the liners and/or fluted medium; and/or augment the liners and/or flute medium by coating or other structural modifications. Additionally, increased resistance to deflection and/or increased flexural stiffness can be achieved by creating multiple wall corrugated boards, e.g., double and triple wall boards, by layering single faced corrugated board. A common theme to the aforementioned solutions for increasing resistance to deflection and/or increasing flexural stiffness of a single wall corrugated board is the requirement for modifying the the constitution of the paper itself, i.e., material properties such as basis weight, fiber orientation or material composition, or modifying the flute configuration, i.e., flute frequency (pitch) or amplitude (caliper). In each instance a change in the material constitution or article design must be made prior to formation of the corrugated board article, which may not be suitable for other applications. As a consequence, more stock materials must be stored for disparate purposes, production lines must be changed for different runs, etc. 1 WO 2014/146036 PCT/US2014/030909 Heretofore, corrugated board liners have been characterized as generally planar, the result of which has been single wall corrugate board having a generally smooth surface on both major sides thereof. If increased flexural stiffness was desired, a plethora of pre- and post formation manipulations have been employed: from the simple such as creating multiple faced corrugated board (e.g., double or triple faced board) to the more complex such as laminating multiple single wall corrugated board during article converting processes. SUMMARY OF THE INVENTION The invention is directed to methods and apparatus for making scored mediums, particularly but not exclusively for use in the corrugated board arts, and articles of manufacture and compositions made there with and made there by. When at least one scored medium is used in a layered or laminated article, and particularly when selectively used as a liner member and/or fluted member in a corrugated board, whether as part of a corrugated board article of manufacture or a laminate with at least one other member, the article will possess mechanical qualities superior to those that would otherwise exist if a non-scored medium was/were used. To achieve these desired qualities, a major axis of the scores formed in the scored medium runs askew, and preferably perpendicular, to the direction of beam strength in any article or article intermediate to which the scored medium is to be associated. For example, the direction of beam strength of a fluted member is parallel to its major axis (the flute direction, i.e., the direction of a continuous peak or valley); similarly, the direction of beam strength of a scored liner at a score is parallel to the score's major axis (the score direction, i.e., the direction of a continuous peak or valley). As a result of integration and/or substitution of scored mediums according to the invention with or in, for example, corrugated boards, performance characteristics associated with conventionally derived corrugated boards can be achieved even while using lower basis weight materials (liners/fluted members), lower quality materials (higher recycled content), and/or decreased caliper. Moreover, in selected embodiments, preferential failure of invention embodiments serve to localize deformations, thereby increasing overall end article performance due to uniformity and predictability of converting actions and in-use load distributions. 2 WO 2014/146036 PCT/US2014/030909 As used herein, a "medium" refers to a flexible, yet deformable, substantially planar material, which includes two major surfaces and a longitudinal direction, of which a "sheet" is a subset thereof. The medium may be formed from cellulose, plastic(s) or combination thereof, and may be highly elongate in nature, e.g., a web. The medium is preferably intended for, but is not restricted to, use as an element, member or component in corrugated boards, laminated boards and combinations thereof. The term "corrugated board" as used herein refers to single face, single wall or multiple wall engineered boards having at least one fluted element or component (an "element or component" is also referred to herein as a "member"), and at least one liner member attached thereto (the combination of a fluted member and a liner member is conventionally referred to as a single face corrugated board). The term "laminated board" as used herein refers to engineered boards having at least two sheets at least partially adhered to each other in overlapping fashion. Laminated boards may be used alone or as a member in a corrugated board. The term "score" as used in the singular sense herein refers to a type of surface feature characterized as an elongate, non-penetrating deformation formed in a medium wherein the deformation may be plastic, non-plastic or a combination thereof. Examples of plastic deformation include embossing, pressing and environmental modification (e.g., an elevated moisture and temperature environment); examples of non-plastic deformation include conventional roll forming (e.g., conventional scoring), bending, and folding. For many of the articles of manufacture and compositions comprising a scored medium that are disclosed herein, plastic deformation during score formation is preferred. The non-penetrating deformation or score is established in the medium after its initial formation, i.e., not as part of the medium's innate formation process such as would be the case during an extrusion formation process. As will be discussed in greater detail below, establishing scores after creation of the medium provides exceptional economies and flexibility in creating articles of manufacture and 3 WO 2014/146036 PCT/US2014/030909 compositions comprising a scored medium such as a liner member for corrugated boards. Once established, the score is preferably permanent, meaning that evidence of the score will remain at least until, and preferably after, integration with other article elements - if the scored medium is a liner member, then substantially all scores exist after its attachment to a fluted member. Additionally, each score defines a major axis corresponding to its primary direction of elongation, and may define a greater than nominal minor axis. Scored mediums according the invention comprise a plurality of spaced apart scores wherein the major axes of at least some of the scores are preferably characterized as generally parallel to one another. Depending upon the embodiment, each score will have certain score attributes, namely, a cross sectional profile, a directional orientation relative to the medium, and a major axis quality, which includes a continuity quality. Each of these attributes both singularly and in combination affect the mechanical qualities of the medium and/or articles and compositions that include the medium. As will be described in more detail below, certain attributes may have substantial effects with regard to the resulting articles and compositions. With respect to a score's cross sectional profile, three principal types exist, namely, rectilinear (e.g., "V' or "_"), curvilinear (e.g., semicircular) and hybrid (e.g., "U"). Each of these profiles in turn has a directional orientation relative to the medium, i.e., positive (a protrusion or land) or negative (a recess or groove) when viewed from one side thereof. Because a land on one side of the medium usually constitutes a groove on the other, the nomenclature is inherently indefinite unless only one side of the medium is being considered. Therefore, when describing the directional orientation of score profiles, it is necessary to maintain reference to a single side of the medium. The major axis quality of a score considers the score's characteristics along its run length. Such characteristics include planar orientation, i.e., directional orientation relative to the medium's major axis (e.g., parallel or non-parallel), and/or deviation(s) 4 WO 2014/146036 PCT/US2014/030909 from the score's nominal major axis (e.g., sinusoidal, square or sawtooth geometry); and consistency or variability of score depth along its run length relative to the adjacent surface of the un-scored medium. The score depth may have constant or variable caliper and may include no depth, thereby creating non-scored portions or a segmented score. If in segmented form, the major axis quality of this characteristic may be characterized as patterned or random in segment length and/or pitch. As a corollary, a score need not extend a majority of a medium, although in many embodiment applications it does. Depending upon the embodiment, a plurality of scores will have certain group qualities or attributes that may be characterized in certain ways. With respect to score attributes, two adjacent scores having identical score attributes will be considered homogeneous scores; a plurality of adjacent scores having identical score attributes will be considered a homogeneous group of scores. The converse is then also true: two adjacent scores having non-identical score attributes will be considered heterogeneous scores; a plurality of adjacent scores having non-identical score attributes will be considered a heterogeneous group of scores (although a subset of scores within the plurality may have identical score attributes and therefore the subset would be considered homogeneous scores). With respect to score pitch, a plurality of adjacent scores having identical lateral spacing, preferably over each score's run length, will be considered to have a constant score pitch while a plurality of adjacent scores having non-identical lateral spacing will be considered to have a variable score pitch (although a subset of scores within such plurality may have constant spacing and therefore the subset would have a constant score pitch). The foregoing definitions presumed that the scores within a plurality were parallel to one another. However, such a geometric relationship is not necessary in order to fall within the scope of the invention. In such instances, the relative score pitch is variable along the run length of adjacent score, and is referenced herein as a skewed score pitch. Again, the degree of relative convergence/divergence over a run length may be constant between adjacent scores or may be variable. 5 WO 2014/146036 PCT/US2014/030909 Corrugated article embodiments of the invention comprise at least one scored member in combination with its counterpart member. In other words, if the scored member is a liner member, then the counterpart member is a fluted member; if the scored member is a fluted member, then the counterpart member is a liner member. In this basic form, the article is considered a scored single face corrugated board. When an additional liner member is attached to the fluted member, the resulting article is considered a scored single wall corrugated board. Corrugated article embodiments of the invention also include single wall corrugated board comprising two scored liner members, with or without incorporation of a scored fluted member. By extension, double wall corrugated boards can comprise one, two or three scored liner members (with or without incorporation of one or two scored fluted members), and triple wall corrugated board can comprise one, two, three or four scored liner members (with or without incorporation of one, two or three scored fluted members). Turning first to scored liner member embodiments of the invention, for maximum performance (e.g., stiffness) the overall score run direction/axes of a scored liner member is established perpendicular to the fluted member axis, thereby creating beam strength in the liner member that is parallel to the fluted member's weak axis. While the directional orientation of liner member scores can be positive and/or negative in reference to the exposed or outer (non-fluted) side of a single face corrugated board, the scores are preferably characterized as negative. In this manner, positive surface features extend towards and into the peaks of the fluted member. Since the exposed or outer side of the liner member only has negative surface features, the caliper of corrugated boards comprising such scored liner member(s) remains unaffected by the inclusion thereof. Moreover, when viewed from the inner surface of the liner member, the positive surface features presenting to the peaks of the fluted member function to mechanically interact therewith, which when combined with the use of adhesive increases the strength of the bond there between. Alternatively, if the directional orientation of the scores in the liner member are reversed, a glue pocket may be created at the interface between the flute peak of the fluted member and the negative features of the liner member's inner surface. If glue 6 WO 2014/146036 PCT/US2014/030909 is applied to the liner member as opposed to the flute peaks, the inner surface negative features may receive additional glue and thereby enhanced structural properties after its cure. In addition, because the scored liner member in such embodiments will have positive surface features present on the outer surface thereof, the coefficient of friction for such liner member will be altered, which may have functional benefits in certain applications. Finally, a scored liner member can have a heterogeneous mix of score orientations, thereby potentially realizing benefits of both orientations described above. In such embodiments, at least some of the scores have a directional orientation substantially opposite to that of at least some other scores. The mix may present a pseudo-sinusoidal pattern (i.e., adjacent scores have opposite orientations), grouped patterns of orientations and/or random orientations. Corrugated boards comprising a scored medium also include embodiments wherein the fluted member comprises a plurality of scores. As was the case with scored liner member embodiments, the overall score run direction/axes is established perpendicular to the fluted member major axis, thereby creating beam strength in the fluted member that is parallel to the fluted member's weak axis. It should be appreciated that the minor axis width of such scores as well as their pitch will likely be larger and greater than of those for liner members. Although this preferred difference results from optimizing the formation of the fluted member, it is not necessary to the functioning of various invention embodiments. Because scored liner members according to the invention may be used for enhancing structural properties of single face corrugated boards, many embodiments of the invention will comprise a liner member having a plurality of constant pitch, homogeneous linear scores formed therein, wherein several factors are considered when determining the nature of the scored liner member, namely, score amplitude (i.e., relief or caliper), score pitch and score displacement. Preferably, these factors are also considered in light of the nature of the fluted member that forms part of the ultimate corrugated board. The parameters of score amplitude and pitch for any liner member depend upon a variety factors, which are highly application dependent. Nevertheless, 7 WO 2014/146036 PCT/US2014/030909 amplitude and pitch considerations include, but are not limited to, the amount of lateral take-up, the liner member basis weight or caliper, and the corrugating environment if the scored liner member forms one part of a single face corrugated board or similar board. In addition to score amplitude and pitch, score displacement relative to the major axis of the flutes formed in the fluted member is another important factor when discussing corrugated boards comprising at least one scored liner. Score displacement considers the relative angle between the predominant score major axis or run direction of the scored liner member and the flute direction (or, in the non corrugated arts, the predominant score major axis of a second scored sheet). Generally speaking, the score displacement will be 900 relative to the flute direction for maximum resistance to weak axis bending of the fluted member. However, there may be instances wherein predictable localization of stresses is more desired than maximum stiffness and resistance to shear. Thus, score displacement need not be 900 in order to be within the scope of the inventiml. It should be again understood that the scoring methods and resulting liner members disclosed herein can be used when forming any corrugated board, and need not nor should be limited to "first face" applications to form single face corrugated boards. Consequently, conventionally formed single face corrugated board can be used in conjunction with a scored second liner member to form a single wall corrugated board. Additionally, single face corrugated board comprising a scored liner member can be combined with another scored liner member to form a single wall corrugated board with two scored liner members. Moreover, a scored fluted member can be used in conjunction with any of the foregoing combinations. Thus, the scope of the invention extends to any medium making up part of a corrugated board. The term "flutes" as used herein refers to a manipulation (as opposed to a modification) of a medium to transform it from a generally planar geometry to a generally sinusoidal geometry, which may have constant pitch, i.e., period, and conventionally forms one part of a single face corrugated board. 8 WO 2014/146036 PCT/US2014/030909 As noted previously, scored mediums according to the invention need not be used as a liner member in conjunction with a fluted member, whether scored or not at least one scored medium can be associated with one or a plurality of non-scored members. However, optimal performance can be achieved when pairs of orthogonally oriented scored members are used in a laminated article of manufacture, or when a plurality of scored members are so used and the net score major axis is minimal or zero (for example, a 3 x 1200 displacement; a 5 x 720 displacement; a 6 x 600 displacement; etc.). Although a corrugated fluted member is not used, many, if not most, of the same characterizations apply as did with respect to embodiments comprising a corrugated fluted member. Moreover, in many respects, a scored member can be considered to have analogous performance qualities to that of a corrugated fluted member. By extension, certain articles of manufacture incorporating the invention comprise corrugated board having (a) laminated face(s) comprising at least one scored liner member in combination with one of a non-scored liner member or another scored liner member. These hybrid corrugated boards therefore have one or more liner members having enhanced caliper, and preferably, enhanced stiffness due to the presence of at least one scored liner member. While a web of scored medium may be created at the time of its manufacture, enhanced benefit of the invention can be realized through on-site formation of scored mediums from generic webs of the medium to meet the requirements of any given production run; by so doing, storage and setup of dedicated webs of scored mediums are thereby eliminated. In addition, roll density (run length) is greater for non-scored mediums than for scored mediums. Moreover, unintentional crushing of the surface features that characterize the scores is avoided if it is created just prior to incorporation with, for example, a fluted member. Perhaps the greatest advantage to concurrent score formation and corrugation occurs due to the environment in which the single face corrugating process preferably takes place. To properly condition the medium that ultimately forms the fluted member, the medium is exposed to elevated temperature and humidity in this preferred environment. These conditions permit the medium to more easily conform 9 WO 2014/146036 PCT/US2014/030909 to the corrugating rollers and retain the sinusoidal shape after release there from. Similarly, by exposing the medium that ultimately forms the single face liner member to such an environment prior to scoring, the medium will be more compliant and the impressed scores will better retain their shape during subsequent handling and processing. Similarly, creation of scores in the material that ultimately becomes the fluted member will be concurrent with the corrugation process, again benefiting from the elevated temperature and humidity environment in this preferred environment. The container arts frequently manipulate single, double and triple wall corrugated board into variously shaped containers. This manipulation requires converting the planar corrugated board (i.e., blank) into multiple sided containers or boxes. The converting process relies upon, inter a/ia, establishing scores that serve to localize a crease that results when forming container edges/corners through bending or folding of the corrugated board. The resulting crease is the manifestation of an intentional failure of the corrugated board: compression of the putative inner liner of the container or box is biased at or towards the score. As those persons skilled in the art appreciate, there is balance between creating a sufficiently effective score (high relief) and not breaching or penetrating the scored liner. Too little compression by a scoring wheel and the score's effectiveness is marginalized; too much compression by the scoring wheel and the liner can be penetrated, thereby materially weakening the resulting edge or corner joint. Because integrated scored liner members according to the invention enhance the stiffness of a corrugated board article by creating beam strength in the scored liner preferably in opposition to the weak axis of the board, it follows that mechanically destroying the structure associated with the induced beam strength will localize stresses imparted upon the board at or proximate to such locations. In many corrugated board embodiments of the invention, the predominant major axes of the scores (run length) in at least one scored liner member are oriented perpendicular to the fluted member major axis, as has been previously described. Because blank scoring predominately occurs parallel to the fluted member major axis (which is perpendicular to its weak axis), such blank scores will necessary run perpendicular to the liner member score run lengths (major axes). 10 WO 2014/146036 PCT/US2014/030909 Consequently, any re-scoring of the scored liner member (particularly, but not exclusively, on the positive surface feature side of the liner member) will compromise the integrity of the liner member scores, thereby directing stress induced failures (such as resulting from compressive converting actions) to the locations where the re-scoring has occurred. In this manner and particularly with respect to the re scoring of positive feature side scores, it is only necessary to defeat the initial scoring rather than to mechanically deform the base liner member and/or fluted member through relatively high compression scoring in order to facilitate formation of a corrugated board fold/corner. An additional advantage of this ability is realized through the use of lower basis weight inner liners: since it is only necessary to defeat the scoring that results in beam formation, which itself was a result of material deformation, less consideration need be given to concerns regarding over compression and medium penetration. As touched upon above and to enhance the likelihood of failure in such instances and minimize unintended destruction of the scored liner in one series of embodiments, a scored liner of a blank, which forms an inner surface of a corner or fold, preferably comprises positive surface feature scores on the exposed side of a corrugated board blank inner surface (the side opposite the fluted member). By so doing, when such inner liner member is subjected to compressive force through re scoring, the previous score-induced beams are intentionally destroyed, beneficially with minimal mechanical consequences to the virgin (non-previously scored) portions of the inner liner member. While the foregoing embodiments are presently preferred, in another series of embodiments the scored inner liner member presents its positive surface features to the fluted member side of the corrugated board blank. While greater scoring pressure is needed in such embodiments, certain advantages over the first series embodiments exist: In both series of embodiments, the subsequent re-scoring biases compressive failure of the inner liner member towards the outer liner member, thereby increasing the density of material within the fold/joint structure during the bending process, however, in the second series of embodiments, the reliability of such directional failure is considered more robust. 11 WO 2014/146036 PCT/US2014/030909 It should be noted that blank scoring may be optional during the blank converting process: in situations wherein the scored liner member of a corrugated board (for simplification, a single wall board is presumed) forms an inner surface of the converted form, simple bending of the board induces a compression load to all scores at the common axis of the hinge moment, which results in the scores generally uniformly failing at their mid points between flute peaks; these points are the most susceptible to compression failure. The resulting uniform "failure" of the scores at this common location along a fluted member, which corresponds to a flute valley, permits the inner liner member to displace into the valley, thereby creating a clean bend or fold or edge. Moreover, because the valley corresponds to a peak on the opposite side of the corrugated board, there is only minimal or nominal tension induced into the outer liner member at the bend/fold/edge location. As a consequence of this optimal arrangement, the inner surface of the bend/fold/edge remains cleans and consistent along the length of the flute valley while the outer surface thereof retains most if not all original structural integrity. This optimization also permits a materially higher article reuse value: the hinge created by this arrangement is much less susceptible to material degradation over many cycles. And while an inner side scored liner member is preferred, similar functionality can also be achieved through use of an outer side scored liner member, although the results may not be as consistent or optimized. For purposes of this patent, the terms "area", "boundary", "part", "portion", "surface", "zone", and their synonyms, equivalents and plural forms, as may be used herein and by way of example, are intended to provide descriptive references or landmarks with respect to the article and/or process being described. These and similar or equivalent terms are not intended, nor should be inferred, to delimit or define per se elements of the referenced article and/or process, unless specifically stated as such or facially clear from the several drawings and/or the context in which the term(s) is/are used. 12

Claims

1. A corrugated or laminated board comprising a first medium and a second medium, each of which includes two major surfaces and a longitudinal direction, wherein the first and the second mediums are attached to each other by an adhesive, characterized in that the first medium comprises a plurality of scores having a major axis direction and a score pitch, and the second medium comprises one of a plurality of scores having a major axis direction and a score pitch, or a plurality of flutes having a major axis direction and a flute pitch, wherein the major axis direction of the first medium's scores is not congruent with one of the major axis direction of the second medium's scores or flutes.

2. The board of claim 1 wherein at least some of the first medium's scores extend towards the second medium when the two mediums are attached to each other.

3. The board of claim 1 wherein at least some of the first medium's scores extend away from the second medium when the two mediums are attached to each other.

4. The board of claim 1 wherein the major axis quality of at least some of the first medium's scores is characterized as continuous.

5. The board of claim 1 wherein the major axis quality of at least some of the first medium's scores is characterized as discontinuous.

6. The board of claim 1 wherein the major axis quality of at least some of the first medium's scores is characterized as linear and congruent with the major axis direction thereof.

7. The board of claim 1 wherein the major axis quality of at least some of the first medium's scores is characterized as one of a curvilinear or a rectilinear repeating pattern.

8. The board of claim 1 wherein the major axis quality of at least some of the first medium's scores is characterized as having a generally constant caliper. 13 WO 2014/146036 PCT/US2014/030909

9. The board of claim 1 wherein the major axis quality of at least some of the first medium's scores is characterized as having a generally variable caliper.

10. The board of claim 1 wherein at least some of the first medium's scores have a constant pitch.

11. The board of claim 1 wherein at least some of the first medium's scores have a variable pitch.

12. The board of claim 1 wherein at least some of the first medium's scores have a skewed pitch.

13. The board of any claim 1-12 wherein at least some of the first medium's scores are substantially homogeneous when compared to other first medium scores.

14. The board of any claim 1-12 wherein at least some of the first medium's scores are substantially heterogeneous when compared to other first medium scores.

15. The board of any prior claim wherein the major axis direction of the first medium's scores is perpendicular with one of the major axis direction of the second medium's scores or flutes.

16. The board of any claim 1-14 further comprising a third medium that includes a plurality of scores having a major axis direction and a score pitch.

17. The board of claim 16 wherein the major axis of the first medium's scores is congruent with the major axis of the third medium's scores.

18. The board of claim 16 wherein the net displacement of all major axes is substantially zero.

19. The board of any claim 1-17 wherein the second medium comprises a plurality of scores having a major axis direction and a score pitch, and a plurality of flutes having a major axis direction and a flute pitch, wherein the major axis direction of the second medium's scores is not congruent with the major axis direction of the second medium's flutes.

20. The board of any prior claim further comprising a single face corrugated board having a fluted member and a single liner face wherein the fluted member is selectively adhered to the first medium or the single liner face is selectively adhered to the second medium. 14