SYSTEM AND METHOD FOR PRODUCING A FACING FOR A BOARD PRODUCT WITH STRATEGICALLY PLACED SCORES
A system and method for producing a board product made from paper products that have a pre-scored facing in addition to a medium (sometimes called fluting). Conventional corrugated board may feature a cross-corrugated medium and one or more facing that have no score lines that are impressed (at least prior to assembly with the corrugated medium). Such a conventional board product may be inferior because any score lines that are impressed will damage the underlying corrugated medium in some manner. A breakdown in the strength of the underlying medium leads to poor precision when the eventual board product is scored, cut, and folded. A lack of precision in folding a board product leads to gap variation and fishtailing as any articulated portion of the board product may not maintain a precise plane of articulation when folded.
This application is a division of U.S. patent application Ser. No. 15/134,153, entitled SYSTEM AND METHOD FOR PRODUCING A FACING FOR A BOARD PRODUCT WITH STRATEGICALLY PLACED SCORES, filed 20 Apr. 2016. This application is also related to U.S. patent application Ser. No. 15/077,250, entitled SYSTEM AND METHOD FOR INDUCING FLUTING IN A PAPER PRODUCT BY EMBOSSING WITH RESPECT TO MACHINE DIRECTION, filed 22 Mar. 2016, and is related to U.S. patent application Ser. No. 15/088,999, entitled SYSTEM AND METHOD FOR PRODUCING MULTI-LAYERED BOARD HAVING A CORRUGATED MEDIUM AND AN EMBOSSED MEDIUM, filed 1 Apr. 2016; further, the present application is also related to U.S. patent application Ser. No. 15/134,106, entitled SYSTEM AND METHOD FOR PRODUCING A MULTI-LAYERED BOARD HAVING A MEDIUM WITH IMPROVED STRUCTURE filed 20 Apr. 2016; and is related to U.S. patent application Ser. No. 15/134,176 entitled SYSTEM AND METHOD FOR PRODUCING AN ARTICULATING BOARD PRODUCT HAVING A FACING WITH SCORE LINES IN REGISTER TO FLUTING filed 20 Apr. 2016; and is related to U.S. patent application Ser. No. 15/134,206, entitled SYSTEM AND METHOD FOR PRODUCING MULTI-LAYERED BOARD HAVING AT LEAST THREE MEDIUMS WITH AT LEAST TWO MEDIUMS BEING DIFFERENT filed 20 Apr. 2016, all of the foregoing applications are incorporated herein by reference in their entireties.
BACKGROUNDModern paper-making techniques use paper machines at paper mills to produce rolls of paper that, in turn, can be used by board makers to produce board products (i.e., corrugated board). As a result, rolls of paper may be produced from machines that operate continuously. Modern paper machines typically produce paper from a number of substances including wood pulp that comprise wood fibers (although other fibers may also be used). These fibers tend to be elongated and suitable to be aligned next to one another. The fiber starts as a slurry that can be fed onto a moving screen from a head box of the paper machine. In modern paper machines, the fibers tend to align with each other and align with a direction in which the screen is moving. This alignment direction of underlying fibers is called the major direction of the paper and is in line with the machine direction. Thus, the major direction is often simply called the machine direction (MD) and the paper that is produced has an associated MD value.
When paper is used to make a board product, portions or layers of the board product may be corrugated. Conventional corrugating machines will corrugate the underlying paper product in the cross direction (CD) of the paper thereby failing to take advantage of the natural strength bias of the paper in the machine direction. Further, the greater natural strength qualities of paper in the machine direction are left unharnessed by cross corrugation techniques in board making solutions. Further yet, conventional corrugated medium includes flutes that take on a sinusoidal shape because of the shape of the protrusions in a conventional pair of corrugating rolls. As a result, companies that produce conventional board products remain entrenched in old production processes that limit the strength of the board product.
Aspects and many of the attendant advantages of the claims will become more readily appreciated as the same become better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
The following discussion is presented to enable a person skilled in the art to make and use the subject matter disclosed herein. The general principles described herein may be applied to embodiments and applications other than those detailed herein without departing from the spirit and scope of the present detailed description. The present disclosure is not intended to be limited to the embodiments shown, but is to be accorded the widest scope consistent with the principles and features disclosed or suggested herein.
By way of overview, the subject matter disclosed herein may be directed to a system and method for producing a board product made from paper products that have a pre-scored facing in addition to a medium (sometimes called fluting) such that precise articulation may be induced. A conventional board product may feature a cross-corrugated medium and one or more facings that have no score lines that are imprinted (at least prior to assembly with the corrugated medium). Such a conventional board product may be inferior because any score lines that are imprinted will damage the underlying corrugated medium in some manner. A breakdown in the strength of the underlying medium leads to poor precision when the eventual board product is scored, cut, and folded. A lack of precision in a folded container leads to gap variation and fishtailing, as any articulated portion of the board product may not maintain a precise plane of articulation when folded. Hence, the articulated portion “fishtails” out of alignment.
Having a pre-scored facing (sometimes called wall or liner) with strategically placed score lines (e.g., strategically placed with respect to an eventual articulation point and/or with respect to underlying flutes in an attached medium), eliminates problems with fishtailing. This is because the pre-score lines bias the facing to give way at the score lines when articulated. As a result, the fold line on the facing is precisely aligned along the pre-score line (making any fold aligned with a desired box corner pattern) as well as precisely placed with respect to any underlying flutes (making any fold also aligned with the flute pattern). The effects of pre-score lines in a facing may be enhanced when used in conjunction with an embossed medium that exhibit greater structural characteristics when compared to conventional cross-corrugated medium. These advantages and additional aspects of various embodiments of the subject matter disclosed herein are discussed below with respect to
When one wishes to articulate the board product 100, which is often the case when the board product is eventually used for containers and boxes, a machine may produce a score line (or sometimes, an indentation, an impression, or some other form of marking in order to induce a fold line) at a line intended for articulation (e.g., intended to be a corner or fold point without reference to underlying flutes). Thus, in looking at
When a machine makes an impression in the board product in production of a blank, a mechanical impression collar may be used to impress a crease line at a specific location. This location is in relation to an edge of the blank (e.g., 36 inches from the edge of the blank, as but one example); such a location, in conventional methods, is not in relation to underlying flutes of the medium. As a consequence, when the mechanical impression collar impresses a fold line, any underlying flutes that happen to be within the impression area are crushed. By crushing the interior flutes, a significant localized amount of board structure is compromised. Thus, the fold point 104 begins to flex inward and the exterior fold point begins to stretch out around the fold. The interior flutes around the fold begin to narrow as the two legs begin to come together.
When articulated in the manner, the knocked down container blank 105 may be in a folded condition to be fed into a machine for erecting a box or container from the blank. Such an articulation may be useful for packaging and shipping the resultant knocked-down container blank 105 prior to being erected into the box or container. These articulations, when performed on conventional board product, often lead to undesired variations as shown in
A first undesired variation is shown in
A second undesired variation is shown in
The problems shown in
Prior to discussing the various embodiments, a brief discussion about cross corrugating and linear embossing is presented. As has been briefly stated above, conventional board products include a conventionally produced corrugated medium (sometimes called a corrugated fluting), e.g., a cross-corrugated medium. A cross-corrugated medium has flutes formed perpendicular to most underlying fibers of the paper product. This results in flutes that are not aligned with the majority of underlying fibers and, therefore, do not take advantage of the natural strength of the MD value of the paper (when compared to the CD value). Such a failure to harness the MD value of the paper leads to loss of opportunity in the manufacturing of board products when specific board strength is to be realized. That is, it will necessarily take more paper (heavier paper, larger flutes, and the like) to realize the required board strength.
A linearly-embossed medium is different from a cross-corrugated medium in that the induced flutes are aligned with the MD value of the paper product. This results in flutes that are aligned with the majority of underlying fibers and, therefore, take advantage of the natural strength of the MD value of the paper (when compared to the CD value). Harnessing the MD value of the paper leads to efficiencies in the manufacturing of board products when specific board strength is to be realized. That is, it will necessarily take less paper (lighter paper, smaller flutes, and the like) to realize the required board strength. Aspects of making, producing, and using linearly embossed mediums are discussed in greater detail in U.S. patent application Ser. No. 15/077,250 entitled “SYSTEM AND METHOD FOR INDUCING FLUTING IN A PAPER PRODUCT BY EMBOSSING WITH RESPECT TO MACHINE DIRECTION” and filed on Mar. 22, 2016, which is incorporated herein by reference in its entirety and for all purposes. Some aspects of a linearly embossed medium are discussed below with respect to
The embodiment of
In other embodiments not shown, the pre-score lines 115 may be less than consistent across a facing 110. For example, two score lines 115 may be grouped together at approximately five mm apart from each other and then spaced apart from another grouping of two of these five-mm-spaced score lines. In yet another example, only a single grouping of scores may be present on a facing or even a single score line. Although five mm intervals are given as an example, any width of interval may be possible and common intervals will match common flute profiles, such as C-Flute, B- Flute, R-Flute and the like. These groupings may correspond to anticipated articulation points for a specific box machine. However, for the purposes of efficient production of a consistent facing 110, score lines 115 may be impressed by a scoring machine at strategically selected intervals (e.g., every five mm) such that any portion of the pre-scored facing 110 may be combined with other layers of an eventual board product. The embossed medium 130 of
Further, as is shown in
Likewise, a second facing 140 may form a bottom-side outer wall (again, the top/bottom direction reference is arbitrary) that is coupled to an opposite side of the embossed medium 130. The coupling may be through an adhesive applied to the apex of each flute on the bottom-side of the embossed medium 130 such that the facing 140 is glued to the embossed medium 130 where adhesive is applied. In other embodiments, glue may be applied to the entirety of the facing 140 prior to being coupled to the embossed medium 130.
The score lines 115 are aligned in the direction of underlying flutes of the embossed medium. Both the score lines and the flutes are also aligned with the machine direction 122 of the underlying paper in the scored facing 110, the facing 140 and the medium 130. Further, in this embodiment, the score lines 115 of the scored facing 110 are aligned in a manner such that the score lines are placed equidistant from respective apex locations of the affixed embossed medium. For example, if the top-side apexes of the embossed medium 130 are spaced five mm apart from each other, then the score lines 115 are also spaced five mm apart from each other, but offset by 2.5 mm. That is, for every pair of top-side apexes that are five mm apart, the affixed facing 110 features a score line 115 half way between each pair of top-side apexes at approximately 2.5 mm from each one.
With precisely placed score lines in a facing that is affixed to a medium having linear flutes, precise articulation lines may be induced. That is, if one were to fold the board product 300, the scored facing would give way along one or more score lines in a precise manner. That is, the fold would precisely lie in a single plane that is normal to the score line being articulated. Such a fold may be precise and will serve to prevent the articulation direction from veering out of the normal to the plane of the score line. In other embodiments (not shown), the bottom-side facing 140 may also be pre-scored with a similar pattern of score lines precisely aligned with bottom-side apexes of the embossed medium 130. Further, the pre-scored lines in any facing may cover less than all of the area of the facing (e.g., only score lines in anticipated articulation points).
When all three layers are assembled and affixed, the resultant board product 300 is superior to conventional board product because of several factors. First, because the flutes of the embossed medium 130 are strategically aligned with respect to the score lines of the pre-scored facing 110, any articulation of the board product will be precise resulting in accuracy in the finished box container. Such precision prevents gap variation and fishtailing. Further, the linearly embossed medium 130 includes a flute profile that exhibits superior strength because of the leg structures of the triangular nature of each flute. Further yet, adhesive may be continuously and uniformly applied to each apex in a predictable manner with greater precision as portions of the adhesive will not spill over to the legs as may be the case with sinusoidal apexes having no flat receiving area. Lastly, a pre-scored facing 110 prevents having a scoring step after board assembly that leads to damage of underlying layers (e.g., the embossed medium 130) when conventional board scoring techniques are used.
In the next view of
In
Further, the fold points 603 and 604 fold all the way into a respective flute such that secondary flutes are formed to provide additional corner structure from liner 110. That is, at the first fold point 603, a first secondary fold flute 610 is formed from facing 110 inside of a first primary fold flute 605. Likewise, a second secondary fold flute 611 is formed from facing 110 inside of a second primary fold flute 606. Secondary flutes 610 and 611 provide additional corner strength in boxes and containers.
In the next view of
The paper from each roll may be unwound from each respective roll and fed toward a combiner 550 that is configured to combine the various layers of paper together to form a resultant board product. Prior to entering the combiner 550, at least some of the paper from the feed rolls may be passed through one or more stages for scoring the paper. Thus, the first facing feed roll 510 may feed paper into a scoring stage 590 that scores the paper with impressions in a precise manner. In other embodiments, the lines impressed upon the facing 110 may be perforations, intermittent cuts or some other form of localized weakening the facing 110 along a precise line. As the paper exits the scoring stage 590, it becomes the scored facing 110 as discussed above with respect to
Further, also prior to entering the combiner 550, at least some of the paper from the feed rolls may be passed through one or more stages for forming the paper into a medium. As used herein and in the industry, a medium may refer to a paper product that has been formed into paper having flutes. Thus, the embossed medium feed roll 530 may feed paper into first and second embossing rolls 531a and 531b that are aligned with respect to each other. As the paper exits the embossing stage (e.g., embossing rolls 531a and 531b), it becomes the embossed medium 130 as discussed above with respect to
Once passed through the embossing rolls 531a and 531b, the embossed medium 130 may be passed to an applicator 570 for applying adhesive to the newly formed apexes. The applicator may include a device for identifying the locations of each apex and then aligning a series of adhesive dispensers with the identified apexes. In other embodiments, adhesive may be transferred to the flute tips with a glue roll or rolls where the paper contacts a glue film and adheres to the flute tips. In this manner, adhesive may be applied with precision in a continuous and uniform manner. Then, the first facing 110, the embossed medium 130, and the second facing 140 are combined in the combiner 550 using various techniques such as adhesion, curing, wetting, drying, heating, and chemical treatment. The resultant board product 300 features at least one scored facing precisely aligned with at least one linearly-embossed medium 130 wherein the board product may be articulated with accuracy.
While the subject matter discussed herein is susceptible to various modifications and alternative constructions, certain illustrated embodiments thereof are shown in the drawings and have been described above in detail. It should be understood, however, that there is no intention to limit the claims to the specific forms disclosed, but on the contrary, the intention is to cover all modifications, alternative constructions, and equivalents falling within the spirit and scope of the claims.
Claims
1-17. (canceled)
18. A board-making machine, comprising:
- a scorer configured to impress at least one score line in a paper facing at first intervals;
- an embosser configured to emboss a paper product to include a plurality of flutes at second intervals; and
- a combiner configured to couple the paper facing to the embossed paper product such that the first intervals are aligned with respect to the second intervals.
19. The board-making machine of claim 18, further comprising a plurality of feed rolls configured to feed paper to the scorer and to the embosser.
20. The board-making machine of claim 18, wherein the combiner is further configured to align the at least one score line with one or more of plurality of flutes such that articulation of combined paper facing and embossed paper product is biased to a precise location with respect to the at least one score line.
21. The board-making machine of claim 18, wherein the scorer is further configured to impress the score lines in the paper facing in a machine direction.
22. The board-making machine of claim 18, wherein the scorer is further configured to impress each score line in the paper facing in equidistantly from each adjacent score line.
23. The board-making machine of claim 18, wherein the embosser is further configured to emboss the flutes in the paper product in a machine direction.
24. The board-making machine of claim 18, wherein the embosser is further configured to emboss a first set of apex structures facing a first orthogonal direction with respect to the paper product and second set of apex structures facing second orthogonal direction that is opposite the first orthogonal direction.
25. The board-making machine of claim 18, wherein the combiner further comprises a glue reservoir for supplying glue to facilitate the coupling of the paper facing with the paper product.
26. The board-making machine of claim 18, wherein the embosser comprises an embossing configured to emboss a C-flute profile in the paper product.
27. The board-making machine of claim 18, wherein the embosser comprises an embossing configured to emboss a E-flute profile in the paper product.
Type: Application
Filed: Aug 21, 2020
Publication Date: Dec 3, 2020
Inventor: Giles Greenfield (Renton, WA)
Application Number: 16/999,785