The present invention relates to the field of rolls of tissue paper or other, similar, material such as nonwovens. It relates in particular to the field of products for sanitary and/or domestic use such as, for example, rolls of wiping paper, paper towelling or bathroom tissue.
The term “tissue paper” should be understood to mean a paper with characteristics as defined by the European standard EN 12625-1.
A roll is formed by winding a continuous sheet which consists of one or more plies of paper. The sheet is possibly pre-cut into consecutive segments in the winding direction, and is wound, preferably, about an axis or a spindle that may or may not support a core; the roll can thus comprise a central core or not
According to the applications, the roll is unwound, either from its outer surface in the direction of winding perpendicularly to its axis, in which case the unwinding is said to be tangential, or via the interior, from the center in its axial direction. In the latter case, the roll is said to be centrally unwound.
The present invention relates to rolls, that have a central hole, centrally unwound, and rolls with tangential unwinding.
When the roll is intended for an application of the type with central unwinding, it can include a core. The core is a cylinder of cardboard that extends over the width of the roll. It generally comprises a strip of cardboard wound in a helical spiral. In this case, it is essential to begin by extracting the latter when putting the roll to use. For example, the core can be designed so as to be able to be torn when pulled on its edge at one end of the helical spiral of cardboard of which it is formed. However, practice shows that this solution is not always satisfactory, because extracting the core can sometimes prove difficult if the rupture area or areas are malformed. Furthermore, the first sheets of the roll may be dragged out, making them difficult to use. The first turns of the sheet are more often than not glued to the core, so they are unfit for any use and constitute waste.
This type of core is costly to produce, since it generally consists of two or more layers of cardboard bonded by gluing and is associated with glue for “attaching” the first turn of the roll. It is also useless once removed, and therefore becomes waste.
To overcome this drawback, there have also been proposed, according to the prior art, rolls with central unwinding but coreless. These are a priori easier to implement by the user, because there is no longer a need to remove a core before putting them to use. To produce them, it is possible, during manufacture, to provide a provisional core forming a spindle onto which the sheet is wound. The spindle is then removed, before the rolls are packaged. This technique presents constraints on the industrial level, because a station for extracting the spindles must be added to the winding line.
According to a known method of manufacture without core, the sheet is cut in line in the running direction of the latter or longitudinally, before winding on the spindle, from a very wide mother sheet, into as many strips as there are individual rolls to be obtained.
According to another method of manufacture, the mother sheet is wound directly onto a spindle, also without the insertion of a core. The initial sheet which is very wide, is first wound in such a way as to form a single reel with the final diameter of the individual roll, called “log” in the field. When formed, the log is extracted from the spindle and it is cut into individual rolls
However, the sheet, whether it be of tissue, creped dry or wet, dry-laid paper or a nonwoven, has a certain elasticity. Because of the internal stresses of the roll, due, for example, to the clamping of the sheet onto the spindle during winding, and/or to the tension of the sheet generated by the machine unwinding/winding operation, it is normally not possible to avoid reduction of the diameter of the central hole by sagging or collapse at the center of the first turns after the spindle has been removed. This collapse is produced, for example, after extraction of the spindle or when the log is cut, by the pressure exerted by the saw or even in packaging and overpackaging operations.
A partial or total reduction of the central hole is observed during handling and transportation operations, because of the inevitable vibrations and pressures to which the rolls are subjected.
When the central hole is completely reduced, it is difficult to reform it by hand, and it is no longer easy to grasp the first turn. Waste is inevitably produced, in particular when the roll is put to use in a dispenser, because it is then necessary to grasp several turns at a time.
Also known are coreless rolls, the central hole of which remains formed after extraction of the spindle and/or after cutting by a saw. It is possible, for example, to use a spindle with a splined or polygonal-section profile to form a central hole, the walls of which are self-supporting. One exemplary embodiment is illustrated by patent FR 2 554 799.
If the central hole is of small diameter, the first turns remain difficult to access. The leader takes the form of a tight bundle, helical with small pitch, that does not lend itself to easy extraction.
If the diameter of the central hole is larger, the first turns must be joined together. For this, a bonding agent is applied that is deposited directly onto the sheet or indirectly via the spindle onto the winding cylinders, by an appropriate system, when the first turns are wound onto the spindle. Any other principle of joining the first turns together, by a mechanical method in particular, can be applied. These first turns are thus consolidated, and together they withstand the forces of the internal stresses.
However, once again, waste cannot be avoided when putting such a roll to use. Whether in the case of a direct use or in the case where this roll were to be used in a dispenser with central unwinding in which the end of the sheet must be inserted into a relatively narrow dispensing orifice, the first turns joined together must first be eliminated.
In the latter type of embodiment, it is impossible to avoid, for certain rolls, the sagging of the central hole, as in the cases mentioned above, because of impacts in transportation. To avoid this risk, provision is also made to preferably package the rolls in cardboard cases, unlike the rolls with core for which a flexible jacket of paper or plastic material is sufficient. The cost is thereby increased.
The benefit that could be obtained from these coreless rolls compared to the rolls with core is thus diminished.
The applicant has developed a coreless roll, said to be with central unwinding, comprising an unwinding leader that is central in relation to its axis, designed to facilitate the grasping of the innermost turns of the roll. This technique is described in the patent applications FR 2 869 891 and EP 1 636 123. It is a specific solution to the problem of collapse of the central hole of coreless rolls.
The present invention provides a different and inventive solution to this same problem and is applicable not only to rolls said to be with central unwinding, but also to rolls with tangential unwinding.
An embodiment of the present invention relates to a roll of paper, in particular of tissue paper, comprising a central hole along its winding axis with a cylindrical reinforcing element on which the paper is wound, wherein said reinforcing element comprises at least one ring attached to the innermost turn of the roll, the ring being of a width less than the width of the roll and provided with a means of extracting the ring by pulling substantially along the axis of the roll.
The rings provide a support for the hole from its manufacture and through to final use, with little additional material compared to a coreless roll and without particular reinforcement.
According to one embodiment the ring includes at least one slot that makes it possible, from the outer edge of the ring, to fold the material forming the ring towards the axis of the roll and so provide a tab forming said extraction means
More particularly, the slot follows the curvature of the ring and is in particular in arc-of-circle form. The slot is preferably perpendicular to the axis of the ring. The extraction means is formed from the portion in arc-of-circle form folded back inwards which extends from the axial edge of the ring.
According to a variant, the slot is axial. Preferably the slot extends from an edge of the ring over a part of the width of the ring. The extraction means is formed from the part of the ring that is folded back towards the axis of the roll.
Advantageously, the roll comprises two or more slots making it possible to increase the number of grasping means forming the extraction means
The ring is preferably made of cardboard, flush with one end of the roll or close to said end.
According to another variant, the ring comprises at least two layers with an outer layer in contact with the sheet of paper and an inner layer towards the axis of the roll, with a means of extracting the inner layer. This embodiment makes it possible to begin more easily to extract the ring when the sheet is clamped onto the ring and exerts a great pressure, the inner layer being subjected to a lesser pressure than the layer directly in contact with the sheet.
According to an embodiment of this variant, the ring is advantageously made of corrugated cardboard with a corrugated layer between two non-corrugated layers or even formed by folds of different basis weights, notably of higher basis weight for the radially internal folds.
According to another embodiment of this variant, the outer layer and the inner layer are glued to one another, a part of the inner layer in contact with the outer layer not being glued to the outer layer and forming the means of extracting the inner layer.
More particularly, the ring comprises at least two layers with an outer layer in contact with the sheet of paper and an inner layer towards the axis of the roll, the two layers being formed by helical turns, the turns of the inner layer partially overlapping and not being linked in the overlap zone. According to a preferred embodiment, the turns of the outer layer and the turns of the inner layer are wound at one and the same winding angle and the turns of the inner layer have a width greater than that of the turns of the outer layer so as to create said overlap. Notably, the turns of the outer layer are adjoining or substantially adjoining; they may not be perfectly adjoining.
According to another variant, the ring has an area deformed by displacement towards the axis of the roll so as to form a lug.
According to another characteristic, the ring is secured by gluing to at least said innermost turn of the roll.
According to a variant, the ring is secured by mechanical bonding to at least said innermost turn of the roll
According to another characteristic, the ring presents a width less than half the width of the roll, preferably less than a third of the width of the roll, and more particularly less than a quarter of the width of the roll. The width is preferably at least equal to a seventh of the width.
This dimension reduces the cost of the material compared to a solution with core over the entire width of the roll, while being sufficient to prevent the collapse of the central hole.
Advantageously, at least the ring has a thickness between 0.1 and 4 mm. Depending on the material used, the thickness of the ring wall will be determined to ensure a sufficient resistance to crushing.
When necessary in order to secure the hole, a second ring is placed in the central hole close to the other edge. It can be secured without gluing in the hole in as much as it is not involved in the extraction of the sheet. It can also, in the case of a use with tangential unwinding, form a support bearing on a shaft of the dispenser on which the roll is installed.
The invention also relates to the use of a roll in a paper dispensing system with central unwinding.
One method of manufacturing a roll according to the invention comprises the fitting on a spindle of hoops arranged to, after transverse cutting forming two of said rings, provide an extraction means on each of said rings, the winding of a wide sheet onto the spindle, the extraction of the spindle and the cutting of the log obtained through said hoops so as to obtain rolls with said rings. As appropriate, the hoops are temporarily fixed in rotation and in translation on the spindle, for the time needed to wind the sheet without slipping. Preferably, the hoops are temporarily fixed onto the spindle by a mechanical means, notably by clamping. Another manufacturing method comprises fitting one or more rings in the central hole provided in the roll after the latter has been wound.
For an embodiment with tangential unwinding, the reinforcing element can comprise a first and a second ring, each glued to at least said innermost turn of the roll and each being designed to serve as a rotating support for the roll.
Other characteristics, details and advantages of the invention will become apparent from the following description, given by way of illustrative wholly nonlimiting example with reference to the appended drawings in which:
The rolled sheet is an absorbent paper for sanitary or domestic use. It is a paper obtained by wet-laid process, creped or not, preferably a tissue paper. It can also be dry-laid paper or even a nonwoven. The embodiment of
The roll 1 comprises a central void (or hole) 2, cylindrical or substantially cylindrical, generally created on formation of the turns. In the central void 2 there are two rings 31, 32, each close to a flat end 4 of the roll 1 or flush with the latter. The rings 31, 32 are put in place either simultaneously, or after the formation of the roll.
In the embodiments of
According to this embodiment, the two rings 31, 32 are used as rotational support to the fixed element (shaft) about which the roll can rotate, reduce the friction between these parts, so enhancing the rotation of the roll on its support and therefore the unwinding of the paper from the roll 1. Each of the rings 31, 32 is bonded by gluing its outer surface to the innermost turn of the roll. Two lines of glue 5, 6 are provided on two circumferences of each ring. The bond can also, for example, be produced with spots of glue and/or studs, protuberances that extend beyond outer surface of the ring 31, 32 and attach the first turn or turns. The bond can also be chemical or mechanical.
The width of each ring 31, 32 is in this case substantially the same, in order to best distribute the external forces on each ring. The ring width is less than half the width of the roll, preferably less than a third or even a fifth of that of the roll. For example, it is between 10 mm and 50 mm and more preferably between 15 mm and 25 mm.
Moreover, depending on the nature of the ring material, its thickness is between 0.1 mm and 4 mm.
The two rings 31, 32 are linked to the innermost turns of the roll and serve as support bearing on the fixed element or elements (shafts) that support the roll, ensuring perfect rotation.
According to
The user grasps the ring 32 (not linked to the first turns), and pulls it axially outward from the roll. This ring 32 is designed to prevent the collapse of the void 2, either when manufacturing the roll or when using it. Then the user grasps the ring 31 and pulls axially outward from the roll, so beginning the first turns and the central unwinding of the roll 1.
An appropriate marking (visual or other) can be provided in order to differentiate the two rings, indicating, for example, that an extraction must be performed on the first ring 31
Whatever the embodiments, the ring or rings 31, 32 consist of a material which is sufficiently resistant not to collapse under the effect of the internal pressure of the roll. A controlled deformation can, however, be exploited to facilitate its extraction as explained hereinbelow. They are preferably made of recyclable material such as cardboard.
According to an embodiment of the present invention, at least one ring is provided with a means to assist with extraction from the central hole when the roll is put to use.
An extraction means 42 is formed from a part of the ring, delimited by a slot 41 in arc-of-circle form, in particular parallel to the side 14. The length of the arc-of-circle is less than a half-circumference. The extraction means is freed by deforming this ring part toward the axis of the roll. As can be seen on a roll in the figure, two extraction means 42 have been provided. To extract the ring, the fingers are slipped into the hole and the two means 42 are gripped. An outward pulling force is then exerted, dragging out the ring. If the ring is linked to the innermost sheet of the roll, it is also dragged out. The slot can have any shape along the curved surface of the ring provided it allows a part to be folded toward the center to form a grip for the fingers
As can be seen in
The two slots provide between them a tab 52.
To extract the ring from the central hole, the tab 52 is folded back toward the axis of the roll to release it. This tab is then pulled outward to extract the ring. As in the preceding case, if the sheet is linked to the ring, it is dragged with it.
These solutions are advantageous when it comes to the production of the rolls because they do not involve substantial modifications.
The hoops are temporarily fixed onto the spindle preferably by a mechanical means, in particular by clamping. The rolls are obtained by sawing the log through the double rings. In
The detachment of the radially inner layer 82 makes it possible to have the radially outer layer 81 yield by pressure and to release the ring completely. When the latter is extracted, the first sheet of tissue paper glued to the layer 81 is dragged with it.
In
The invention is not limited to the embodiments described, it encompasses all the variants within the scope of those skilled in the art.
Number | Date | Country | Kind |
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08 00581 | Feb 2008 | FR | national |
08 06423 | Nov 2008 | FR | national |
This application is a division of U.S. application Ser. No. 12/866,142, filed on Aug. 4, 2010, the entire content of which is incorporated herein by reference. U.S. application Ser. No. 12/866,142 is a section 371 Application of International Application No. PCT/FR2009/000119, filed on Feb. 3, 2009, which claims the benefit of French Application No. 0800581, filed on Feb. 4, 2008 and French Application No. 0806423, filed on Nov. 17, 2008.
Number | Name | Date | Kind |
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20030122008 | Abba et al. | Jul 2003 | A1 |
Number | Date | Country |
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19946272 | Mar 2001 | DE |
2390357 | Jan 2004 | GB |
2000177894 | Jun 2000 | JP |
WO-2005005295 | Jan 2005 | WO |
Entry |
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France Search Report for French Patent Application No. 0800581; file date Feb. 4, 2008, 2 pages. |
PCT International Search Report and Written Opinion for PCT International Application No. PCT/FR2009/000119; PCT International Filing Date: Feb. 3, 2009; 18 pages. |
Number | Date | Country | |
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20130341450 A1 | Dec 2013 | US |
Number | Date | Country | |
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Parent | 12866142 | US | |
Child | 14012215 | US |