The present invention relates to innovations to devices for embossing web materials, and especially webs or sheets of paper, in particular tissue paper, to produce rolls of toilet paper, kitchen towels, paper napkins or similar products.
More specifically, the invention relates to improvements concerning the configuration of the embossing rollers and of the embossed product.
In the production of rolls of tissue paper, or crepe or absorbent paper to form rolls of toilet paper, kitchen towels and the like, one or more plies of paper are usually subjected to an embossing operation, with which the paper material is permanently deformed to form thereon protuberances of various shapes. Embossing, which also causes localized breakage of the cellulose fibers forming the paper web, has a technical-function object, consisting in increasing the softness and volume of the finished product, together with its absorption capacity. However, embossing is also used to define limited areas, at the level of which a glue is applied to join together two or more plies forming the finished multi-ply product.
Besides the aforesaid technical functions, and others known to experts in the field of paper converting, embossing also has the object of providing the product with a pleasing aesthetic appearance, and in some cases also of characterizing the product of a specific manufacturer.
The technical and aesthetic functions have different requirements, which are often incompatible. The embossing patterns currently used must in the first place be compatible with the technical and functional requirements of the product but also of the machine that converts the material. This poses serious limits to the type of decoration obtainable with embossing. For example, the embossing pattern must take account of the fact that the glue, which guarantees joining of the plies, is applied to the protuberances obtained by deforming the material. As the plies must also be joined reliably along the cutting edges, the embossed patterns cannot be centered with respect to the finished product, leaving the perimeter areas free. Rather, they must extend right to the edges.
The embossed surface must then be distributed uniformly to obtain homogenous and stable gluing. Moreover, embossing machines or embossing units cannot accept any type of embossing pattern, as this has considerable effects on dynamic stresses. In fact, embossing is generally obtained by pressing a pressure roller coated in an resiliently yielding material against an embossing roller, generally made of steel or another rigid material, provided with embossing protuberances, and by feeding the material to be embossed into the nip between the two rollers. The rollers rotate at high speed. In modern paper converting lines the feed speed of the plies of paper exceeds 300 m/min and is typically around 500-600 m/min for the production of absorbent paper, while it can exceed 1000 m/min for the production of toilet paper, with a constant tendency of machinery manufacturers to reach increasingly higher speeds.
The embossing protuberances on the embossing rollers generate strong vibrations. The embossing pattern, in particular the distribution and dimension of the protuberances, has a considerable influence on dynamic phenomena in machines, to the extent that some embossing patterns are totally incompatible with correct operation of the embossing unit and of the entire line at the production speeds compatible with the current needs for high productivity.
In particular, the most critical phenomenon determined by the embossing protuberances is represented by the generation of vibrations in the machine caused by sudden variation of the contact surface between embossing roller and pressure roller, due to the fact that this contact surface is defined by the embossing protuberances, and consequently varies cyclically as the rollers rotate. To prevent or reduce these problems, EP 0,370,972 describes a specific arrangement of the protuberances of the embossing roller, which guarantees high operational constancy while reducing vibrations to a minimum. EP 0,370,972 describes an embossing device in which the tips are aligned according to multi-start helices. In the case of complex embossing patterns especially, according to this method it is particularly critical to calculate the pitch and inclination of the helices so that these are completed on the diameter of the embossing roller.
In some embossing devices, more complex arrangements of protuberances are also used, with background protuberances of small dimensions and high density, e.g. frusto-pyramid or frusto-conical protuberances, arranged according to helical alignments, with which protuberances or groups of protuberances forming decorations of larger dimensions are combined. These decorations are again arranged in helical alignments, so that contact between the embossing roller and the pressure roller is always gradual and uniform.
The result of these technical-functional constraints on the embossing protuberances is that in the finished roll of paper the embossed patterns are always arranged according to alignments inclined with respect to the edges of the paper and are usually of small dimensions. On a single sheet of paper delimited by two consecutive tear-off lines on a roll there are usually several individual decorations, arranged according to inclined alignments, corresponding to the helical alignments of the protuberances on the embossing roller.
Examples of embossing units, embossing incisions and relative embossed products are described in EP-A-1,075,387; EP-A-0,765,215; EP-A-408,248; U.S. Pat. No. 4,320,162; U.S. Pat. No. 5,686,168; EP-A-1,054,764; U.S. Pat. No. 4,978,565; U.S. Pat. No. 3,694,300; FR-A-2,684,598.
Although to a lesser extent, problems of vibrations due to the presence of raised areas on the surface of the rollers are also found in printing devices or units.
According to a first aspect, the object of the present invention is to provide an embossed or printed sheet product, especially a roll of embossed or printed multi-ply tissue paper, or a folded napkin, which has high technical-functional characteristics, and which does not have the aesthetic limits mentioned above.
In substance, according to this first aspect, the invention provides for a roll of embossed or printed web material comprising at least two plies joined together by gluing or in another way, divided into a plurality of individual sheets separated by transverse perforation lines in which: each of said sheets has a principal decoration, such as a principal embossed or printed pattern, in a substantially intermediate position of said sheet; arranged along the longitudinal edges of said web material are secondary embossed or printed patterns of smaller dimensions, interrupted by the longitudinal edge lines; and further secondary embossed or printed patterns are produced overlapping the perforation lines.
Hereunder specific reference will be made to embossed materials, in which the patterns or decorations are obtained by embossing, but it must be understood that at least some of the advantages of the present invention can be applied also where the decorations or patterns are obtained by printing.
Moreover, in the various embodiments colored glues can be used to combine an embossing effect with a chromatic decorative effect.
The particular arrangement of the embossed or printed patterns according to the invention makes it possible to obtain a plurality of technical-functional and aesthetic effects of considerable emphasis. In fact, the secondary embossed patterns arranged along the longitudinal edges and along the transverse perforation lines have the function of allowing application of glue, if necessary also up to the edges of the web material of the roll and, if required, up to the level of the perforation lines. This can be important during production and use of the material, so that the final product is not subject to a flapping effect of the plies.
Moreover, from an aesthetic point of view, the secondary embossed patterns form a sort of frame surrounding a central decorative motif, which can also be large in size and formed by a plurality of protuberances combined with one another. This central decorative pattern does not require to be composed of repetitive decorative elements aligned in inclined directions with respect to the longitudinal edges of the web article.
With a distribution of embossed protuberances according to the invention, it is thereby possible, for example, to obtain a roll formed of sheets which can be torn off individually along perforation lines, in which each sheet comprises a large intermediate decoration, more or less centered on the sheet, surrounded by a frame which can be composed of geometrical elements or of patterns typically of substantially smaller dimensions with respect to the pattern forming the central decoration, in which the protuberances forming the decoration of the frame intersect the perforation lines and the longitudinal edge lines.
More generally, the invention relates to an embossed web material article (which can be a folded napkin, or a sheet of a roll of paper), comprising at least two plies of tissue paper joined together by gluing and forming at least a multi-ply sheet, characterized in that said sheet has a principal embossed or printed pattern, in a substantially intermediate position with respect to the surface of the article and secondary embossed or printed patterns of smaller dimensions arranged along the edge lines of the article and interrupted by said edge lines.
Advantageously, the two or more plies forming the article are glued together at protuberances forming the principal embossed pattern and the secondary embossed patterns along the longitudinal edges and preferably also at the protuberances forming the secondary embossed patterns along the perforation lines (when the article is in the form of a roll) or the transverse edges (when the article is in the form of a napkin).
Hereunder, specific reference will be made to characteristics and advantages of the embossed pattern according to the invention when applied to a product in a roll with perforation lines that divide it into individual tear-off sheets. Those skilled in the art will understand that at least some of these characteristics and relative advantages can also be applied In the case of articles composed of individual detached and folded sheets, such as napkins or the like.
According to an advantageous embodiment of the invention, the secondary embossed patterns and the principal embossed pattern are arranged and configured so that any straight line orthogonal to the longitudinal edges of the web material intersects at least one embossed protuberance of said principal embossed pattern and/or of said secondary embossed patterns.
In a possible embodiment of the invention, the secondary embossed patterns are arranged overlapping the perforation lines according to an alignment which is slightly inclined with respect to the respective perforation line, for example with an inclination between 0° and 30′ and 10° and preferably between 1° and 5° with respect to the direction of the perforation line.
The principal embossed patterns, which decorate each sheet into which the roll is divided by the perforation lines, can be the same as one another, or a sequence of different patterns, which are repeated along the extension of the roll, can be provided.
In an advantageous embodiment, the secondary embossed patterns arranged along the perforation lines are configured so that the position of the perforation line with respect to the secondary embossed pattern is not fixed. This allows a difference in phase between the secondary embossed patterns and the perforation line, without this having a negative influence on the overall aesthetic effect of the product. For example, the secondary embossed patterns can be composed of small rectilinear protuberances arranged according to short alignments variously inclined around and above the perforation line, so that the pattern is not characterized by a line of symmetry and the difference in phase between perforation line and embossed pattern is not perceivable by the person observing the product. This allows even significant differences in phase (the extent of which depends on the width of the secondary embossed pattern in a longitudinal direction) to be tolerated between the pattern and the perforation line.
Similarly, the secondary embossed patterns arranged along the longitudinal edges of the web material can also have, for the same purposes, a configuration in which the position of the edge line with respect to the secondary embossed pattern is not fixed.
According to a different aspect, the object of the present invention is to produce an embossing roller, which allows embossed products of high quality and aesthetic prestige to be obtained, without difficulties in the production phase.
According to this different aspect, the invention relates to a roller, for example a printing roller or preferably an embossing roller to print or emboss plies of web material, especially plies of paper such as tissue paper, comprising protuberances or raised areas defining embossing or printing patterns on the cylindrical surface of the roller, characterized by: a series of circumferential i.e. annular bands spaced apart by constant pitches, inside which a first secondary pattern is produced; a series of longitudinal bands, extending longitudinally along said roller, spaced apart by constant pitches, inside which a second secondary pattern is produced, said circumferential and annular bands defining squares inside each of which an intermediate principal pattern is produced.
With an arrangement of this type it is possible to emboss a ply (single or multiple) of tissue paper or the like, with a series of decorations placed side by side according to the transverse direction to subsequently produce, by cutting, a series of rolls each of which has an embossed pattern of the type defined above, with a principal intermediate pattern on each sheet surrounded by a frame pattern.
The arrangement of annular and longitudinal bands in combination with the principal intermediate embossed pattern in each square defined by the intersection of the annular and longitudinal bands allows the embossing protuberances to be arranged so as to obtain substantially continuous and uniform contact between the embossing roller and the pressure roller. This principle of distribution of the embossing patterns in fact allows a noteworthy number of protuberances along any generatrix of the roller, so as to reduce the generation of vibrations caused by variation of the contact surface of the embossing roller with a corresponding pressure roller.
Considering a generic generatrix of the cylindrical surface of the embossing roller (i.e. a straight line parallel to the axis and belonging to the ideal geometrical surface on which the front surfaces of the protuberances of the roller lie) said generatrix intersects a specific quantity of protuberances. Considering the sum of the lengths of the segments defined by each of these protuberances on the generatrix, particularly regular operation of the embossing unit incorporating a roller of this type is obtained when this sum fluctuates by less than 40%.
In a possible configuration, the longitudinal bands are parallel to the axis of the roller. Regularity of the contact between embossing roller and pressure roller is in any case guaranteed by the presence of the protuberances along the annular bands and of the protuberances defining the principal pattern. However, according to a modified embodiment, the longitudinal bands can advantageously be inclined with respect to the axis of the roller. In this case it is advantageous for the principal embossing patterns to be offset from one another, i.e. for the patterns arranged along an annular alignment to be offset with respect to those of the adjacent alignment. The inclination can be small, i.e. between 0° and 30′ and 10° and preferably between 1° and 5° with respect to the axis of the roller, i.e. with respect to a generatrix of the roller. The longitudinal bands are preferably inclined with a single or multiple V-shape. This arrangement has a guiding effect on the ply and can also have a widening effect.
The invention also relates to an embossing unit comprising an embossing roller of the aforesaid type and a paper converting line for producing rolls of toilet tissue, kitchen towels or the like, with an embossing unit equipped with an embossing roller of the aforesaid type.
Further advantageous characteristics and embodiments of the invention are indicated in the appended claims and will be described in greater detail hereunder with reference to examples of embodiment of the invention.
The invention will be better understood following the description and accompanying drawing, which shows non-limiting practical embodiments of the invention. More specifically, in the drawing:
The description below refers specifically to embossing rollers and patterns, but as mentioned above, at least some of the advantages attained by the invention are also useful in the printing field, especially to print multi-ply tissue paper products.
Arranged along the feed path of the plies V1 and V2 are respective auxiliary embossing units 3 and 5, each of which can, for example, have a steel embossing roller and a pressure roller cooperating therewith. The auxiliary embossing units 3 and 5 can be designed conventionally and provided to impress background embossing on the two plies V1 and V2, for example micro-embossing composed of a fine geometrical pattern formed of truncated-pyramid shaped protuberances or the like. A pattern of this type can have a density of at least 10 protuberances/cm2 or preferably of at least 15 protuberances/cm2 and preferably between 30 and 90 protuberances/cm2.
Each reel B1, B2 and therefore each ply V1 and V2 can in turn be composed of one, two or more layers. The reels B1 and B2 can also be replaced by a single two-ply reel.
Arranged downstream of the auxiliary embossing units 3 and 5 is an embossing and laminating unit 7, the configuration of which is shown in greater detail in
The rewinding machine 9 produces logs L of a diameter equivalent to the diameter of the finished rolls and a length equal to a multiple of the axial length of the rolls. The logs are accumulated in an intermediate storage unit or store 11 and from here are sent to one or more cutting machines 13 that divide the logs L into rolls R. The structure of the cutting machine is also known per se and will not be described herein. Other machines, not shown, such as one or more machines to glue the free tail end of the logs L, unless this gluing is perform directly inside the rewinding machine 9, can be arranged between the rewinding machine 9 and the cutting machine 13.
The embossing and laminating unit 7 includes an embossing roller 21 provided on the cylindrical surface thereof with protuberances, indicated here generically with P, the arrangement of which forms a specific object of the present invention and will be described in greater detail hereunder.
Cooperating with the embossing roller 21 is a pressure roller 23, the outer surface of which is defined by a layer 23A of resiliently yielding material, such as rubber. The pressure roller 23 and the embossing roller 21 are pressed against each other at high pressure, so that the protuberances P of the embossing roller 21 penetrate the smooth surface of the coating 23A of the roller 23 to deform it. The ply V1 is fed around the pressure roller 23 and into the embossing nip defined between the pressure roller 23 and the embossing roller 21, so as to be embossed with a pattern corresponding to the arrangement of the protuberances P. Some possible embossing patterns are described in greater detail hereunder with reference to the subsequent figures.
Arranged downstream of the embossing nip along the embossing roller 21 is a glue dispensing unit 25, with an applicator cylinder 25A, which applies a glue to the raised surfaces of the embossed ply V1, at the level of all or of some of the protuberances of the roller 21.
The ply V1 remains engaged with the cylindrical surface of the embossing roller 21 until it is downstream of a lamination nip defined by the embossing roller 21 and a lamination roller 27, which can be coated with a resiliently yielding material, preferably of greater hardness than the coating of the roller 23. The ply V2 is also fed into the lamination nip and is glued to the ply V1 at the level of the areas wet with glue. The web material N formed of the two plies joined together is delivered downstream of the lamination nip.
A longitudinal band 21L is also represented on the cylindrical surface 21S of the embossing roller 21. In actual fact, several longitudinal bands 21L are provided along the circular extension of the roller 21, all having substantially the same development and not visible in the axonometric view in
On the web material N the generatrix G coincides with a perforation line generated on said material.
The bands 21C and 21L define on the cylindrical surface 21S of the embossing roller 21 a series of squares Q, with more or less the same dimensions, inside each of which a raised pattern, generically indicated with D and hereinafter referred to as principal embossing pattern, is produced.
In practice, the longitudinal and inclined bands 21L can be formed by portions of band parallel to the axis A-A of the roller 21, at the level of each square Q, with the portions of subsequent squares offset from one another to obtain an overall V-shaped arrangement as described above. In this way, portions of band 21L parallel to the generatrix of the roller are obtained between two annular bands 21C. This arrangement is indicated schematically in
Each principal embossed pattern D is formed by a series of protuberances varying in shape and dimension, arranged to form the decorative motif forming the pattern D. The various patterns D of the squares Q can be the same as or different from one another. As will be described with reference to specific embodiments, in each annular row of squares Q defined between two consecutive annular bands 21C, the patterns can be all the same, all different, or of two or three types alternated with one another along the extension of the annular alignment of squares Q. Moreover, some squares can be devoid of decoration D. The alignments of squares Q defined between adjacent annular or circumferential bands 21C can have the same or different patterns, with the same sequence in phase or with the same sequence but out of phase, as will be apparent hereunder.
By embossing the ply V1 between the embossing roller 21 and the pressure roller 23 and subsequently joining it by lamination with the ply V2 in the lamination nip, a web product N is obtained with a width equal to a multiple of the axial length of the rolls R to be produced.
With reference to
The bands F1-F4 are separated from one another by longitudinal secondary embossed patterns indicated with V, formed by the protuberances of the annular or circumferential bands 21C on the surface of the roller 21. Represented inside the longitudinal secondary embossed patterns are straight cutting lines L1, at the level of which the cutting machine 13 will cut the web material N after it has been wound in logs. The lines L1 therefore represent the edges of the material that will form the individual rolls into which the material N will be cut by the cutting machine 13. The width of the longitudinal secondary embossed patterns, corresponding to the width of the circumferential bands 21C of the roller 21, is such that the cutting line L1 falls inside the band even in the case of an error in positioning the logs L during cutting in the cutting machine 13. The configuration of the longitudinal secondary embossed pattern is such that the final user of the product does not perceive any slight offset between the line L1 and the band of the longitudinal embossed pattern, as the longitudinal secondary embossed pattern has no median line of symmetry or, in any case, a symmetry to be complied with.
The lines L2 represent the perforation lines, orthogonal to the lines L1. These perforation lines L2 are generated by the perforator 8 on the web material N and are in phase with the bands of a transverse secondary embossed pattern, generated by the bands of longitudinal protuberances 21L. The secondary embossed pattern along the lines L2, indicated with U, is only partly shown for simplicity of the drawing, but it must be understood that this pattern is produced along all the perforation lines L2.
The configuration of the protuberances P21, P11 which form the embossings of the transverse secondary embossed patterns is such that reciprocal offset between the embossed bands and the perforation line L2 is not perceived by the person observing the pattern of the finished product, the width of which is equal to the width of only one of the bands F1-F4.
The object of the overall inclination of the longitudinal bands 21L is to increase uniformity of contact between the embossing roller 21 and the pressure roller 23.
The principal embossed patterns D are formed, as mentioned, by protuberances of various shape and dimension, compatible with the requirements of correct bonding and correct deformation of the cellulose material. The dimension of the individual principal embossed patterns is such that the pattern substantially occupies the entire square, coming close to the edge areas.
With a configuration of this type the following result is obtained. By tracing a generic straight line LL (
The ideal straight line (geometrical line) LL which runs on the final web product N represents the ideal contact line between the rollers 21 and 23 during rotation thereof. Consequently, along this contact line there are always a large number of protuberances of the embossing roller 21 which penetrate the coating of the pressure roller 23, deforming it. This effect is obtained without a helical pattern being produced on the embossing roller 21, and without a repetitive motif with a helical trend being visible on the finished product.
On the contrary: it is understood,that the rolls obtained by longitudinal cutting along the lines L1 are characterized by individual sheets, each defined by two transverse perforation lines L2; each of which is decorated with a single wide principal embossed pattern D surrounded by a frame formed of longitudinal and transverse secondary embossed patterns.
In the example illustrated hereinbefore, geometrical embossed patterns have been produced along the perforation lines L2 and along the cutting lines L1, composed of a “disorderly” distribution of elongated and pointed protuberances. However, this is not the only solution to obtain the effects of the invention. In fact, it is possible to produce secondary embossed patterns representing a real subject, while maintaining the technical advantages and results illustrated above.
An example of an embossed pattern of this type is shown in
Secondary longitudinal embossed patterns represented by stylized flying birds, indicated with V and each formed of two elongated and undulated protuberances and one intermediate pointed protuberance, are produced along longitudinal bands containing the cutting lines L1. The protuberances defining these patterns intersect the lines L1 variably and not complying, for example, with a line of symmetry. Therefore, the line L1 can also be slightly offset with respect to the ideal position represented in the drawing. It remains within the band defined by the patterns V, intersecting them. The user of the finished product, composed of a single sequence of squares Q with alternation of the various decorations D will not perceive any offset between the secondary embossed patterns V and the longitudinal edge line of the product, represented by the cut performed along the line L1. All in all, therefore, the stylized birds formed by the protuberances along the lines L1 forming the motifs produced by the annular or circumferential bands of protuberances 21C form a first part of a frame which does not require to be perfectly centered (thereby guaranteeing a tolerance on the precision of the position to cut the log into rolls) and which, as in the stylized patterns of the example in
Transverse secondary embossed patterns formed by sequences of protuberances representing stylized shells are produced along the perforation lines L2. Also in this case, as in the example in
As in the example in the previous
Produced over the entire extension of the web material are embossed lines, forming a more or less square grid or mesh motif. As can be seen in
Produced in the central area of the sheet defined by the edges B1-B4 is a decoration D, formed by embossed protuberances that form an ornamental or decorative motif, schematized in this case by a watermelon divided into two parts, with a slice detached from the rest of the pattern. The decoration D forms a complete motif formed by the two parts of a pattern, which complete one another. When the article formed by the sheet defined by the edge lines B1-B4 is folded in four, only one of the two portions forming the decoration D is visible on one of the exposed faces of said article, as shown in
Extending along the edges indicated with B1, B2, B3 and B4 of the finished product are the secondary embossed patterns, having the functions already described, and namely to glue the plies forming the napkin up to the edges, and make contact between the embossing roller and the pressure roller continuous during production.
The concept used to produce the patterns in
It is understood that the drawing only shows possible embodiments of the invention, which may vary in forms and arrangements, without however departing from the scope of the concept on which the invention is based.
Number | Date | Country | Kind |
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FI2005A0000033 | Mar 2005 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IT06/00112 | 2/27/2006 | WO | 00 | 8/31/2007 |