EP2867149B1 - Core member for an absorbent sheet roll - Google Patents
Core member for an absorbent sheet roll Download PDFInfo
- Publication number
- EP2867149B1 EP2867149B1 EP12880277.4A EP12880277A EP2867149B1 EP 2867149 B1 EP2867149 B1 EP 2867149B1 EP 12880277 A EP12880277 A EP 12880277A EP 2867149 B1 EP2867149 B1 EP 2867149B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- core member
- recess
- shaft
- band
- roll
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Not-in-force
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H75/00—Storing webs, tapes, or filamentary material, e.g. on reels
- B65H75/02—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks
- B65H75/04—Kinds or types
- B65H75/08—Kinds or types of circular or polygonal cross-section
- B65H75/10—Kinds or types of circular or polygonal cross-section without flanges, e.g. cop tubes
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47K—SANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
- A47K10/00—Body-drying implements; Toilet paper; Holders therefor
- A47K10/16—Paper towels; Toilet paper; Holders therefor
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47K—SANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
- A47K10/00—Body-drying implements; Toilet paper; Holders therefor
- A47K10/24—Towel dispensers, e.g. for piled-up or folded textile towels; Toilet-paper dispensers; Dispensers for piled-up or folded textile towels provided or not with devices for taking-up soiled towels as far as not mechanically driven
- A47K10/32—Dispensers for paper towels or toilet-paper
- A47K10/34—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means
- A47K10/38—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means the web being rolled up with or without tearing edge
- A47K10/3836—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means the web being rolled up with or without tearing edge with roll spindles which are supported at one side
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H75/00—Storing webs, tapes, or filamentary material, e.g. on reels
- B65H75/02—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks
- B65H75/18—Constructional details
- B65H75/30—Arrangements to facilitate driving or braking
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47K—SANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
- A47K10/00—Body-drying implements; Toilet paper; Holders therefor
- A47K10/24—Towel dispensers, e.g. for piled-up or folded textile towels; Toilet-paper dispensers; Dispensers for piled-up or folded textile towels provided or not with devices for taking-up soiled towels as far as not mechanically driven
- A47K10/32—Dispensers for paper towels or toilet-paper
- A47K10/34—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means
- A47K10/38—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means the web being rolled up with or without tearing edge
- A47K2010/3863—Dispensers for paper towels or toilet-paper dispensing from a web, e.g. with mechanical dispensing means the web being rolled up with or without tearing edge with roll rotation braking devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/50—Storage means for webs, tapes, or filamentary material
- B65H2701/51—Cores or reels characterised by the material
- B65H2701/511—Cores or reels characterised by the material essentially made of sheet material
- B65H2701/5112—Paper or plastic sheet material
Definitions
- This invention relates to a hollow cylindrical core member suitable for supporting a roll of absorbent sheet material, wherein the core member comprising a central axis, an outer cylindrical surface, and an inner cylindrical surface.
- the invention also relates to a dispenser assembly comprising a dispenser carrying a roll with a hollow cylindrical core member.
- Dispenser with electrical feeding functions of the leading tail are known, and feeding of sheet material is for example initiated upon detection of a user by a proximity sensor, or a leading tail of the sheet material is automatically fed out of the dispenser after withdrawal of sheet material by a user.
- electrical energy normally is supplied by connection to an electrical supply network, or by electrical storage system including batteries. The connection to the electrical supply network is costly and limits the installation location, and batteries must be regularly replaced.
- An object of the present invention is to provide a hollow cylindrical core member for an absorbent sheet roll, which core member enables quick and simple replacement of the core member while still providing capability of rotational locking to the shaft of the dispenser.
- the core member should be suitable for supporting a roll of absorbent sheet material, and comprising a central axis, an outer cylindrical surface, and an inner cylindrical surface.
- the object of the present invention is achieved by providing the inner cylindrical surface with engagement means suitable for rotationally locking said core member.
- the engagement means comprising at least one elongated recess and/or at least one elongated projection, which at least one recess and/or projection extends helically along said inner cylindrical surface.
- This type of engagement means potentially provides automatic rotational locking of the roll including the core member to the shaft upon axial penetration of the shaft in the central hole of the roll. There is consequently no additional time consuming and complex manual locking step necessary upon mounting of the new roll.
- the engagement means according to the invention potentially prevents erroneous mounting of the roll.
- the elongated recess and/or projection intuitively guides the service personnel to perform the correct mounting.
- incorrect axial mounting of the roll during mounting is difficult or even impossible when the shaft of the dispenser is provided with corresponding engagement means.
- the engagement means are suitable for rotationally locking said core member with a shaft of a dispenser that is suitable for dispensing absorbent sheet material.
- Rotational locking of the core member to the shaft allows recuperation of energy by means of the shaft, as well as electrically actuated advancement of a leading tail of the absorbent sheet material of the roll arranged in the dispenser.
- the at least one recess or projection may extend continuously over at least 20% of the total axial length of said core member, specifically over at least 50%, and more specifically over the entire axial length of said core member.
- the corresponding engagement means of the shaft comprises discrete spring-loaded projections
- increased axial length of the recess or projection potentially results in increased rotational torque transfer capacity between core member and shaft due to the potentially increased engagement surface.
- engagement means extending over the entire axial length of the core member simplifies manufacturing of the core member.
- the radial depth of said at least one recess may be smaller than a wall thickness of said core member at a location without a recess. This corresponds to a recess that does not extend through the wall of the core member, i.e. a recess having a bottom. This increases the structural stability of the core member, which stability is important especially during the winding process where absorbent sheet material is being wound-up onto the core member.
- the at least one recess may extend completely through the cylindrical wall of said core member, such that a through hole is formed in said core member.
- This configuration may have advantages in terms of manufacturing, and generally leads to increased rotational torque transfer capacity between core member and shaft, because any projection of the shaft may also extend radially completely through the core member, thereby reducing the likelihood of relative slipping engagement.
- the core member may be formed from a helically wound first band having a width and forming a helical winding angle with respect to said central axis, wherein said helical winding angle and said width is selected such that a gap is formed between edges of consecutive windings of said first band, which gap at least partly forms said recess.
- This configuration of the core member allows cost-effective manufacturing of the core member because traditionally core member manufacturing equipment may be used to a large extent, varying mainly the manufacturing parameters, such as the width of said first band and its winding angle.
- At least the innermost layer, in case of a multiple layered core member, must be formed with the specific configuration to realise a continuous recess.
- the core member may comprise at least one additional material layer arranged on a circumferential outer surface of said helically wound first band wherein said at least one additional material layer covers said gap.
- This layout increases core member stability due to stabilisation of the gap distance, as well as the general increase in wall thickness.
- the core member stability may be enhanced through adhesive bonding to the absorbent sheet material that is wound on the core member.
- the width of said gap may be smaller than half the width of said first band in a direction perpendicular to the winding direction of said first band, and specifically smaller than 25% of the width of the first band.
- the gap merely serves to interact with the engagement means of the shaft for mutual rotational locking, and the gap size, shape and dimension may be selected correspondingly. As a result, there is normally no reason to have a gap width that is significantly larger that the width of the shaft engagement means. Instead, the width of the gap may be selected relatively small. Large band width results in a good support surface for the absorbent sheet material wound up thereon, as well as good stability. Core member stability is important during manufacturing of the roll, when the core member is rotationally mounted in a machine and receiving sheet material that is wound up on the rotating core member.
- the core member may be formed of at least two layers of helically wound band, and both said layers of wound band being wound in the same winding direction. This configuration results in cost-effective manufacturing. Moreover, the outer layer of said two layers may form said at least one additional material layer.
- the recess may be formed by mechanically processing the inner surface of said core member, such as cutting and/or milling. This configuration allows a large degree of freedom with respect to form, location, size, etc, of the recess.
- the core member may be made of one or more layers of band shaped material wound to form the core member.
- the core member may be made of moulded pulp or plastic material.
- a core moulded in pulp or plastic is equally simply provided with one or more recess as one or more projections, or simply a combination of at least one recess and one projection.
- the recess and/or projection preferably extend continuously from at least one end of the core member for allowing simplified moulding equipment without an undercut.
- the core member may comprise a single material layer, or multiple material layers.
- the band shaped material may be selected from a paperboard material, cardboard material, fibrous ply, or similar.
- the core member may be formed by at least one hollow cylindrical plug element that is suitable to be inserted into a central hole of a coreless roll, wherein said engagement means is formed at an inner cylindrical surface of said plug element.
- This configuration is particularly adapted to be used with coreless rolls, i.e. rolls that are manufactured without a core member inside the roll.
- an intermediate member is required, namely the plug element.
- the core member may be formed by two hollow cylindrical plug elements, each of which being suitable to be inserted into a central hole of a coreless roll. Instead of a single plug element extending through more than half the length of the coreless roll, two relatively short plug elements may be used instead, thereby simplifying insertion of the plug elements centrally within the coreless roll.
- the height of said projection may be substantially larger than a wall thickness of said core member at a location without a projection. Thereby, the amount of engagement surface is potentially increased, such that the rotational locking torque is increased.
- the invention further includes a dispenser assembly comprising a dispenser suitable for dispensing absorbent sheet material from a roll, and a core member, wherein said dispenser assembly comprising: a dispenser body, a shaft on which said core member is arranged, wherein said shaft is rotatably coupled to said dispenser body, wherein each of said shaft and said core member comprising engagement means that are in cooperating mating position, such that said shaft is rotationally locked with said core member.
- the dispenser assembly may further comprise an electrical machine and an electrical storage system for storing electrical energy, wherein said electrical machine is rotatably coupled to said shaft, wherein externally caused rotation of said core member drives said electrical machine, thereby facilitating generation of electrical energy that is stored in said electrical storage system, and wherein said electrical machine is configured to be powered by electrical energy from said electrical storage system for temporarily rotating said core member.
- Figure 1 shows a first embodiment of the core member 17 according to the invention.
- the core member 17 is provided with engagement means in form of a helically extending recess 19 that extends over the complete axial length of the core member 17.
- An absorbent sheet material is wound on the outer cylindrical surface of the core member forming a roll 11 of sheet material.
- the roll with the core member is here illustrated disengaged from a shaft 15 of an opened dispenser 10, which is suitable for dispensing absorbent sheet material from the roll 11, when the roll 11 is arranged on the shaft within the closed dispenser 10.
- the dispenser comprises a dispenser body, which comprises a dispenser console 12, an outer hood 13 pivotally connected to said dispenser console 12, and an inner hood 14 also pivotally connected to said dispenser console 12.
- the dispenser 10 is here shown with both the outer and inner hood 13, 14 pivoted to an open position, representing an open state, in which the roll easily may be replaced.
- Fig. 2 illustrates the same dispenser as fig. 1 , but with the inner hood 14 in a closed position, i.e. in a semi-open state. In a completely closed state, both hoods 13, 14 are in a closed state.
- the shaft 15 is rotatably coupled to inner hood 14 and configured to penetrate at least part of the hollow core member 17 of the roll 11.
- the shaft 15 comprises corresponding engagement means that are suitable for rotationally locking the shaft 15 with the engagement means of the core member 17.
- the dispenser 10 may further comprise an electrical machine rotatably coupled to said shaft, and an electrical storage system for storing electrical energy electrically connected to the electrical machine.
- the user can grab a leading tail of the sheet material, which is wound on the core member 17 to form the roll 11.
- the leading tail preferably is arranged at least partly outside the dispenser 10, for example hanging down a certain length through a dispensing opening at the lower part of the dispenser 10.
- the roll 11 starts to rotate due to the pulling force actuated by the user, and sheet material is removed from the roll 11.
- the shaft 15 may be rotationally locked with the core member 17. The externally caused rotation of the roll 11 consequently causes the shaft 15 to rotate as well.
- the shaft 15 is rotationally connected to an electrical machine, which is configured to transform the pulling energy originating from the user into electrical energy that is supplied to an electrical storage system.
- the pulling and withdrawal of sheet material from the roll 11 thus drives the electrical machine, thereby enabling generation of electrical energy that is stored in the electrical storage system.
- the user When the user has withdrawn a desired amount of sheet material, he may tear the sheet material on a tearing segment arranged on the dispenser 10, or the like, to separate the withdrawn sheet material from the roll 11.
- the roll 11 begins to stop rotating due to lack of external pulling force and the rotational resistance caused mainly by the electrical machine operating as an electrical generator.
- the electrical machine may be controlled, for example by means of an electrical control unit, to operate as an electrical motor and rotationally drive the shaft 15 a certain time period. The driving of the shaft 15 causes the shaft 15 to rotate, and consequently to feed a certain length of sheet material from the roll 11.
- the certain length of sheet material being fed is selected to provide a graspable leading tail of the sheet material, such that the user can easily find, grasp and pull the leading tail next occasion sheet material is requested. Without the feeding of a certain length of sheet material after finished withdrawal by the user, the leading tail of the sheet material is likely difficult the find and difficult to grasp, because the leading tail of the sheet material likely will be positioned close to the tearing segment of the dispenser 10.
- the tearing segment may for example be formed by a tooth-shaped tearing rim on a lower end of a hood 13, 14.
- the engagement means of the core member 17 is formed as a helically extending groove 19, and the corresponding engagement means of the shaft 15 is formed by a helically extending projection 18 extending in a helical winding direction on the outer cylindrical surface 21 of the shaft 15.
- the service personnel handling the replacement of rolls 11 rotate the roll 11 and/or shaft 15 until the projection 18 and groove 19 coincides at the first mutual engagement location. Then, the roll 11 is simply pushed onto the shaft 15 whilst the roll 11 is rotated in the direction of the helical winding. Possibly, when inserting the roll 11 substantially vertically, gravity may give raise to sufficient down force to the roll 11 such that insertion of the roll 11 onto the shaft 15 does not require any additional force.
- the core member 17 of fig. 1 is shown more in detail in fig. 3a .
- the core member 17 is hollow and at least the external surface 20 thereof has a cylindrical shape.
- the core member 17 is suitable for supporting a roll of absorbent sheet material, and the core member 17 comprises a central axis 22, and an inner cylindrical surface 23.
- the inner cylindrical surface 23 comprising engagement means suitable for rotationally locking the core member 17 with the shaft 15 of the dispenser 10.
- the engagement means may have various configurations, shape, size, but the engagement means must be suitable for enabling safe and efficient rotational locking to the shaft 15.
- the recess 19 extends helically along the inner cylindrical surface 23, thereby forming an elongated recess 19.
- the recess 19 preferably extends continuously along the entire core member 17 along the direction of the central axis 22, but the recess may alternatively extend continuously over only a part of the core member 17, such as over at least 20% of the total axial length of said core member 17, or over at least 50%.
- the radial depth d of the recess 19 is smaller than the wall thickness of the core member 17 at a location without a recess 19, i.e. the recess 19 has a bottom wall that limits the recess in a radial outward direction, such that the recess 19 does not form a through hole in the wall of the core member 17.
- the cylindrical wall of the core member 17 is formed by two separate layers 24a, 24b, as illustrated in conjunction with fig. 3b .
- the inner layer 24a is formed from a helically wound first band 27 having a width W 1 and forming a helical winding angle ⁇ with respect to the central axis 22, wherein said helical winding angle ⁇ and said width w are selected such that a gap 25 is formed between edges 26a, 26b of consecutive windings of the first band 27.
- the outer layer 24b is formed from a helically wound second band 28, which is wound in the same winding direction as the first band 27.
- the second band 28 has a width w 2 and forming a helical winding angle ⁇ with respect to the central axis 22.
- the helical winding angle ⁇ is identical to winding angle ⁇ , and the width w 2 and positioning of the second band 28 are selected such that the second band 28 at least covers the gap 25 formed by the first band 27.
- a certain overlapping area of the first and second band 27, 28 in a direction perpendicular to the helical winding angle, on both sides of the gap 25 is necessary along the gap extension to give the core member 17 the desired strength and stability.
- the thickness of the inner layer 24a is easily adapted by the thickness of the first band, which may consist of one or more layers.
- the first band which may consist of one or more layers.
- several layers of first band are overlappingly wound to form the desired thickness of the inner layer 24a, and consequently the desired depth d of the recess 19.
- the outer layer 24b is optional.
- the width w 2 and helical winding angle ⁇ are set such that consecutive windings of the outer band 28 partly overlaps with the previous winding for further increased strength and stability of the core member 17.
- the inner and outer layers 24a, 24b, as well as overlapping portions of consecutive windings of the outer layer 24b, are preferably mutually attached, for example by means of adhesive at selected regions.
- the width of the gap 25 is preferably less than half the width w 1 of the first band 27 in a direction perpendicular to the winding direction of the first band 27. Specifically, the width of the gap 25 may even be less than 25% of the width w 1 of the first band 27. Moreover, the width of the gap 25 is preferably larger than 3 mm, more specifically at least 5 mm. In all, the width of the gap 25 is preferably in the range of 3 mm - 15 mm, specifically, in the range of 3 mm - 10 mm. The width of the gap 25 is preferably adapted to the size, shape and form of the corresponding engagement means of the shaft 15 of the dispenser 10.
- the width of the gap 25 can thus normally not be too small due to the difficulties in providing a sufficiently strong mutual rotational locking, and for allowing certain manufacturing tolerances.
- the corresponding engagement means of the shaft 15 interact with different side walls 26a, 26b of the recess 19 during charging of the electrical storage system and driving of the core member 17 by means of the electrical machine, it is considered advantageous to have a width of the gap 25 that corresponds to the width of the corresponding engagement means, in order to reduce rotational play between the engagement means of the core member 17 and the corresponding engagement means of the shaft 15.
- the outer layer 24b may for example be assembled with zero winding angle, further layers may be provided in addition to the inner and outer layer 24a, 24b, or the outer layer 24b may be completely omitted, such that the gap 25 forms a through hole on the cylindrical wall of the core member 17, as illustrated in fig. 4 .
- the gap 25, which forms the recess 19, is formed by the edges 26a, 26b of consecutive windings of the first band 27, and the recess lacks a radially outwardly limiting wall. According to still a further embodiment as shown in fig.
- the core member 17 is formed from two helically wound bands, each having a width w 3 and forming a helical winding angle ⁇ with respect to the central axis 22.
- the width w 3 of the bands, the helical winding angle ⁇ , and their mutual axial offset, are selected such that two helically extending gaps are formed in a shape of a double helix, wherein each gap being formed between neighbouring edges of said bands.
- this configuration may of course be provided with one or more additional outer layers for increased strength and stability.
- Still a further embodiment of the invention is illustrated in fig. 6 , in which the engagement means of the inner cylindrical surface 23 comprising an elongated projection 29 extending helically along the inner cylindrical surface 23.
- the height h of the projection 29 and wall thickness t are here only schematically shown and not to scale.
- the height h of the projection 29 may be substantially larger than the wall thickness t of said core member at a location without a projection, for example 2 - 5 times the wall thickness.
- the elongated projection 29 extends linearly in an axial direction of the core member 17.
- the radial height h of the projection 29 be substantially larger than a wall thickness t of said core member 17 at a location without a projection 29. As already mentioned above, this embodiment does not fall within the scope of the present invention.
- the core member 17 is preferably made of one or more helically wound bands 27, 18, as shown in fig. 3a and 3b because of the cost effective and proven design.
- the core member 17 may alternatively be made of moulded pulp material or plastic material, in particular if the engagement means is not realised by a helically extending recess 19, because a helically extending recess 19 is particularly easy to realise when forming the core member 17 by a helically wound band 27, 28.
- the recess may be formed by mechanically processing the inner surface 23 of a single or multi layered core member 17, such as cutting and/or milling the inner surface 23.
- a projection 29 on the inner cylindrical surface 23 is preferably realised by moulding the core member 17 in a single piece.
- Fig. 8 illustrates still a further embodiment of the core member 17 according to the invention, in which the core member 17 is formed by two plug elements that are arranged to at least partly penetrate the centre hole of a coreless sheet material roll (not showed) on opposite sides thereof.
- a coreless sheet material roll is a roll that is manufactured, packed, and transported to customer without a central core member 17 onto which the sheet material is wound. Instead, different manufacturing techniques are used to form the sheet material roll without a centrally arranged core member 17.
- one, or preferably two plug elements are inserted into the central hole on opposite sides of the roll, which plug elements form attachment means for engagement with a rotational shaft 15 of the dispenser 10.
- one plug element having an abutment collar 31 for abutting the axial side of the coreless roll upon insertion of the plug element into the central hole of the coreless roll.
- the plug element further comprises a sleeve 32 for penetrating the axial hole, as well as a helically extending recess 19 formed on an inner cylindrical surface 23 of the sleeve 32 and collar 31.
- the plug element may be moulded in pulp or plastic material.
- the roll 11 and core member 17 assembly Upon mounting of a core member 17 having a longitudinally extending projection 29, the roll 11 and core member 17 assembly is simply pushed axially onto the shaft 15 of the dispenser 10.
- one or more corresponding engagement means of the shaft 15 are retracted to a depressed position, in which they do not interact with the core member 17, such as spring loaded or mechanically actuated retractable engagement means provided on the shaft 15, these may possibly require manual actuation, unless they are configured to automatically retract upon penetration of the shaft 15.
- retractable corresponding engagement means on the shaft 15 may allow the roll 11 to be inserted on the shaft 15 at all angular positions, and rotational locking of the core member 17 and the shaft 15 is then realised first upon internal relative rotation of the core member 17 and shaft 15.
- the retractable corresponding engagement means may be actuated, manually or automatically, to engage with the engagement means of the core member 17 to rotationally interlock said parts 15, 17.
- the engagement means of the core member 17 are fixed, i.e. not retractable, and extends in the axial direction, the roll 11 is mounted on the shaft 15 without simultaneous internal relative rotation, but when the engagement means of the core member 17 is fixed and extends helically, the roll 11 is mounted on the shaft 15 with simultaneous internal relative rotation.
- the core member 17 according to the invention may be equally applied to dispensers having shafts without corresponding engagement means, such that no rotational locking between the core member 17 and shaft 15 is realised, in particular if the engagement means are formed by a recess 19.
- the core member 17 is preferably configured to be more or less freely rotatable on a shaft 15 having no corresponding engagement means.
- the pulp that may be used for moulding the core member 17 may be a lignocellulosic fibrous material prepared by chemically or mechanically separating cellulose fibres from wood, fibre crops or waste paper.
- the core member 17 may be formed of plastic material by moulding or similar production method.
- the term "elongated” herein refers to an elongated recess 19 and/or projection 29 that extends at least two times longer in a first direction than a second direction that is perpendicular to the first direction, and specifically at least five times longer, and more specifically at least ten times longer.
- the first direction corresponds here to the extension direction of the engagement means.
- the recess 19 as such may have a rectangular cross-sectional form as seen in a radial plane, to provide distinct and reliable engagement surfaces 26a, 26b for the rotational locking.
- the recess 19 has a radial depth d of at least 1.0 mm, wherein the radial depth d is the minimum radial distance between the recess 19 and a cylinder defined by the internal cylindrical surface 23.
- the projection 29 as such may have a rectangular cross-sectional form as seen in a radial plane, to provide distinct and reliable engagement surfaces for the rotational locking.
- the projection 29 has a radial height h of at least 1.0, and more specifically at least 2.0 mm, wherein the radial height h is the minimum radial distance between the projection and a cylinder defined by the internal cylindrical surface 23.
- the term "helical winding angle" herein refers to the angle between a tangent of the helix curve and a central axis of the core member.
- the helical winding angle is > 0 degrees and ⁇ 90 degrees.
- the helical angle is preferably ⁇ 60 degrees centigrade to simplify mounting of core member onto the shaft of the dispenser.
- the core member may comprise one or more recesses and/or one or more projections.
- the core member may be formed by a single layer or multiple layers, and each of the first and second bands described above may be formed by one or more layers.
- the phrase "rotatably coupled” used herein means that the shaft is a separate part from the dispenser body, and that the shaft has been mounted on the dispenser such that shaft may be rotated while the dispenser body is stationary.
- the phrase “rotationally locking” used herein means that the roll and the shaft are separate parts, and that they may be interlocked with each other rotationally around a common rotational axis, such that the roll may not be rotated without causing rotation also of the shaft, and vice versa.
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Description
- This invention relates to a hollow cylindrical core member suitable for supporting a roll of absorbent sheet material, wherein the core member comprising a central axis, an outer cylindrical surface, and an inner cylindrical surface. The invention also relates to a dispenser assembly comprising a dispenser carrying a roll with a hollow cylindrical core member.
- One problem frequently occurring during use of an absorbent sheet material dispenser is lack of an easily visible leading tail of the sheet material. The user must then search for the leading tail and subsequently pull the sheet material from the roll and out of the dispenser. Dispenser with electrical feeding functions of the leading tail are known, and feeding of sheet material is for example initiated upon detection of a user by a proximity sensor, or a leading tail of the sheet material is automatically fed out of the dispenser after withdrawal of sheet material by a user. However, such dispensers require electrical energy, which normally is supplied by connection to an electrical supply network, or by electrical storage system including batteries. The connection to the electrical supply network is costly and limits the installation location, and batteries must be regularly replaced.
- Document
US2010/0051737A1 , which discloses a rolled material dispenser with energy harvesting, solves these problems. By recuperation of energy from the user that pulls the sheet material, feeding of the leading tail of the sheet material is possible without connection to an external electrical supply network or batteries that must be regularly replaced. - Document
WO2011/092590 discloses a hollow cylindrical core member according to the preamble of claim 1. - An object of the present invention is to provide a hollow cylindrical core member for an absorbent sheet roll, which core member enables quick and simple replacement of the core member while still providing capability of rotational locking to the shaft of the dispenser. The core member should be suitable for supporting a roll of absorbent sheet material, and comprising a central axis, an outer cylindrical surface, and an inner cylindrical surface. The object of the present invention is achieved by providing the inner cylindrical surface with engagement means suitable for rotationally locking said core member. The engagement means comprising at least one elongated recess and/or at least one elongated projection, which at least one recess and/or projection extends helically along said inner cylindrical surface.
- This type of engagement means potentially provides automatic rotational locking of the roll including the core member to the shaft upon axial penetration of the shaft in the central hole of the roll. There is consequently no additional time consuming and complex manual locking step necessary upon mounting of the new roll. Moreover, the engagement means according to the invention potentially prevents erroneous mounting of the roll. For example, the elongated recess and/or projection intuitively guides the service personnel to perform the correct mounting. Also, incorrect axial mounting of the roll during mounting is difficult or even impossible when the shaft of the dispenser is provided with corresponding engagement means. There appears to be no explicit disclosure in the above mentioned prior art concerning the arrangement of the roll on the shaft, except that the roll is mounted on the shaft. Consequently, the inventive solution exhibits many advantageous aspects over the prior art.
Further advantages are achieved by implementing one or several of the features of the dependent claims. - The engagement means are suitable for rotationally locking said core member with a shaft of a dispenser that is suitable for dispensing absorbent sheet material. Rotational locking of the core member to the shaft allows recuperation of energy by means of the shaft, as well as electrically actuated advancement of a leading tail of the absorbent sheet material of the roll arranged in the dispenser.
- The at least one recess or projection may extend continuously over at least 20% of the total axial length of said core member, specifically over at least 50%, and more specifically over the entire axial length of said core member. When the corresponding engagement means of the shaft comprises discrete spring-loaded projections, it is advantageous to have a recess that extends at least 20% of the total axial length of said core member to increase the likelihood of automatic mutual locking merely upon relative rotation of the core member and shaft, because less accuracy of the axial relative positioning of the core member and shaft is required for the recess to coincide with the projection. Furthermore, increased axial length of the recess or projection potentially results in increased rotational torque transfer capacity between core member and shaft due to the potentially increased engagement surface. Finally, engagement means extending over the entire axial length of the core member simplifies manufacturing of the core member.
- The radial depth of said at least one recess may be smaller than a wall thickness of said core member at a location without a recess. This corresponds to a recess that does not extend through the wall of the core member, i.e. a recess having a bottom. This increases the structural stability of the core member, which stability is important especially during the winding process where absorbent sheet material is being wound-up onto the core member.
- The at least one recess may extend completely through the cylindrical wall of said core member, such that a through hole is formed in said core member. This configuration may have advantages in terms of manufacturing, and generally leads to increased rotational torque transfer capacity between core member and shaft, because any projection of the shaft may also extend radially completely through the core member, thereby reducing the likelihood of relative slipping engagement.
- The core member may be formed from a helically wound first band having a width and forming a helical winding angle with respect to said central axis, wherein said helical winding angle and said width is selected such that a gap is formed between edges of consecutive windings of said first band, which gap at least partly forms said recess. This configuration of the core member allows cost-effective manufacturing of the core member because traditionally core member manufacturing equipment may be used to a large extent, varying mainly the manufacturing parameters, such as the width of said first band and its winding angle. At least the innermost layer, in case of a multiple layered core member, must be formed with the specific configuration to realise a continuous recess.
- The core member may comprise at least one additional material layer arranged on a circumferential outer surface of said helically wound first band wherein said at least one additional material layer covers said gap. This layout increases core member stability due to stabilisation of the gap distance, as well as the general increase in wall thickness. Alternatively or in addition, the core member stability may be enhanced through adhesive bonding to the absorbent sheet material that is wound on the core member.
- The width of said gap may be smaller than half the width of said first band in a direction perpendicular to the winding direction of said first band, and specifically smaller than 25% of the width of the first band. The gap merely serves to interact with the engagement means of the shaft for mutual rotational locking, and the gap size, shape and dimension may be selected correspondingly. As a result, there is normally no reason to have a gap width that is significantly larger that the width of the shaft engagement means. Instead, the width of the gap may be selected relatively small. Large band width results in a good support surface for the absorbent sheet material wound up thereon, as well as good stability. Core member stability is important during manufacturing of the roll, when the core member is rotationally mounted in a machine and receiving sheet material that is wound up on the rotating core member.
- The core member may be formed of at least two layers of helically wound band, and both said layers of wound band being wound in the same winding direction. This configuration results in cost-effective manufacturing. Moreover, the outer layer of said two layers may form said at least one additional material layer.
- The recess may be formed by mechanically processing the inner surface of said core member, such as cutting and/or milling. This configuration allows a large degree of freedom with respect to form, location, size, etc, of the recess.
- The core member may be made of one or more layers of band shaped material wound to form the core member. Alternatively, the core member may be made of moulded pulp or plastic material. A core moulded in pulp or plastic is equally simply provided with one or more recess as one or more projections, or simply a combination of at least one recess and one projection. The recess and/or projection preferably extend continuously from at least one end of the core member for allowing simplified moulding equipment without an undercut.
- The core member may comprise a single material layer, or multiple material layers. The band shaped material may be selected from a paperboard material, cardboard material, fibrous ply, or similar.
- The core member may be formed by at least one hollow cylindrical plug element that is suitable to be inserted into a central hole of a coreless roll, wherein said engagement means is formed at an inner cylindrical surface of said plug element. This configuration is particularly adapted to be used with coreless rolls, i.e. rolls that are manufactured without a core member inside the roll. To allow the required rotational locking between the roll and shaft, an intermediate member is required, namely the plug element.
The core member may be formed by two hollow cylindrical plug elements, each of which being suitable to be inserted into a central hole of a coreless roll. Instead of a single plug element extending through more than half the length of the coreless roll, two relatively short plug elements may be used instead, thereby simplifying insertion of the plug elements centrally within the coreless roll. - The height of said projection may be substantially larger than a wall thickness of said core member at a location without a projection. Thereby, the amount of engagement surface is potentially increased, such that the rotational locking torque is increased.
- The invention further includes a dispenser assembly comprising a dispenser suitable for dispensing absorbent sheet material from a roll, and a core member, wherein said dispenser assembly comprising: a dispenser body, a shaft on which said core member is arranged, wherein said shaft is rotatably coupled to said dispenser body, wherein each of said shaft and said core member comprising engagement means that are in cooperating mating position, such that said shaft is rotationally locked with said core member. The dispenser assembly may further comprise an electrical machine and an electrical storage system for storing electrical energy, wherein said electrical machine is rotatably coupled to said shaft, wherein externally caused rotation of said core member drives said electrical machine, thereby facilitating generation of electrical energy that is stored in said electrical storage system, and wherein said electrical machine is configured to be powered by electrical energy from said electrical storage system for temporarily rotating said core member.
- In the detailed description of the invention given below reference is made to the following figures, in which:
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Figure 1 shows a dispenser in a semi-opened state; -
Figure 2 shows the dispenser offig. 1 in an opened state; -
Figure 3a shows the core member formed by two overlapping helically wound bands; -
Figure 3b shows the structural composition of the core member offig. 3a ; -
Figure 4 shows the core member formed by a helically wound band; -
Figure 5 shows the core member formed by two non-overlapping helically wound bands; -
Figure 6 shows the core member having a helically extending projection; -
Figure 7 shows the core member having an axially extending projection, this embodiment not falling within the scope of the present invention; -
Figure 8 shows a plug element having a helically extending recess. - Various aspects of the invention will hereinafter be described in conjunction with the appended drawings to illustrate and not to limit the invention, wherein like designations denote like elements, and variations of the inventive aspects are not restricted to the specifically shown embodiments, but are applicable on other variations of the invention.
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Figure 1 shows a first embodiment of thecore member 17 according to the invention. Thecore member 17 is provided with engagement means in form of a helically extendingrecess 19 that extends over the complete axial length of thecore member 17. An absorbent sheet material is wound on the outer cylindrical surface of the core member forming aroll 11 of sheet material. The roll with the core member is here illustrated disengaged from ashaft 15 of an openeddispenser 10, which is suitable for dispensing absorbent sheet material from theroll 11, when theroll 11 is arranged on the shaft within theclosed dispenser 10. - The dispenser comprises a dispenser body, which comprises a
dispenser console 12, anouter hood 13 pivotally connected to saiddispenser console 12, and aninner hood 14 also pivotally connected to saiddispenser console 12. Thedispenser 10 is here shown with both the outer andinner hood Fig. 2 illustrates the same dispenser asfig. 1 , but with theinner hood 14 in a closed position, i.e. in a semi-open state. In a completely closed state, bothhoods - The
shaft 15 is rotatably coupled toinner hood 14 and configured to penetrate at least part of thehollow core member 17 of theroll 11. Theshaft 15 comprises corresponding engagement means that are suitable for rotationally locking theshaft 15 with the engagement means of thecore member 17. Although not illustrated infig. 1 or 2 , thedispenser 10 may further comprise an electrical machine rotatably coupled to said shaft, and an electrical storage system for storing electrical energy electrically connected to the electrical machine. - When a user wants a piece of absorbent sheet material, the user can grab a leading tail of the sheet material, which is wound on the
core member 17 to form theroll 11. The leading tail preferably is arranged at least partly outside thedispenser 10, for example hanging down a certain length through a dispensing opening at the lower part of thedispenser 10. Upon pulling the leading tail, theroll 11 starts to rotate due to the pulling force actuated by the user, and sheet material is removed from theroll 11. Due to the engagement means of thecore member 17 and the corresponding engagement means on theshaft 15, theshaft 15 may be rotationally locked with thecore member 17. The externally caused rotation of theroll 11 consequently causes theshaft 15 to rotate as well. Theshaft 15 is rotationally connected to an electrical machine, which is configured to transform the pulling energy originating from the user into electrical energy that is supplied to an electrical storage system. The pulling and withdrawal of sheet material from theroll 11 thus drives the electrical machine, thereby enabling generation of electrical energy that is stored in the electrical storage system. - When the user has withdrawn a desired amount of sheet material, he may tear the sheet material on a tearing segment arranged on the
dispenser 10, or the like, to separate the withdrawn sheet material from theroll 11. As a result, theroll 11 begins to stop rotating due to lack of external pulling force and the rotational resistance caused mainly by the electrical machine operating as an electrical generator. After a certain delay, the electrical machine may be controlled, for example by means of an electrical control unit, to operate as an electrical motor and rotationally drive the shaft 15 a certain time period. The driving of theshaft 15 causes theshaft 15 to rotate, and consequently to feed a certain length of sheet material from theroll 11. The certain length of sheet material being fed is selected to provide a graspable leading tail of the sheet material, such that the user can easily find, grasp and pull the leading tail next occasion sheet material is requested. Without the feeding of a certain length of sheet material after finished withdrawal by the user, the leading tail of the sheet material is likely difficult the find and difficult to grasp, because the leading tail of the sheet material likely will be positioned close to the tearing segment of thedispenser 10. The tearing segment may for example be formed by a tooth-shaped tearing rim on a lower end of ahood - In
fig. 1 , the engagement means of thecore member 17 is formed as a helically extendinggroove 19, and the corresponding engagement means of theshaft 15 is formed by ahelically extending projection 18 extending in a helical winding direction on the outercylindrical surface 21 of theshaft 15. During mounting of theroll 11, the service personnel handling the replacement ofrolls 11 rotate theroll 11 and/orshaft 15 until theprojection 18 andgroove 19 coincides at the first mutual engagement location. Then, theroll 11 is simply pushed onto theshaft 15 whilst theroll 11 is rotated in the direction of the helical winding. Possibly, when inserting theroll 11 substantially vertically, gravity may give raise to sufficient down force to theroll 11 such that insertion of theroll 11 onto theshaft 15 does not require any additional force.
Thecore member 17 offig. 1 is shown more in detail infig. 3a . Thecore member 17 is hollow and at least theexternal surface 20 thereof has a cylindrical shape. Thecore member 17 is suitable for supporting a roll of absorbent sheet material, and thecore member 17 comprises acentral axis 22, and an innercylindrical surface 23. The innercylindrical surface 23 comprising engagement means suitable for rotationally locking thecore member 17 with theshaft 15 of thedispenser 10. The engagement means may have various configurations, shape, size, but the engagement means must be suitable for enabling safe and efficient rotational locking to theshaft 15. Therecess 19 extends helically along the innercylindrical surface 23, thereby forming anelongated recess 19. Therecess 19 preferably extends continuously along theentire core member 17 along the direction of thecentral axis 22, but the recess may alternatively extend continuously over only a part of thecore member 17, such as over at least 20% of the total axial length of saidcore member 17, or over at least 50%. - In the core member embodiment of
fig. 3b , the radial depth d of therecess 19
is smaller than the wall thickness of thecore member 17 at a location without arecess 19, i.e. therecess 19 has a bottom wall that limits the recess in a radial outward direction, such that therecess 19 does not form a through hole in the wall of thecore member 17. Furthermore, the cylindrical wall of thecore member 17 is formed by twoseparate layers fig. 3b . Theinner layer 24a is formed from a helically wound first band 27 having a width W1 and forming a helical winding angle α with respect to thecentral axis 22, wherein said helical winding angle α and said width w are selected such that agap 25 is formed betweenedges gap 25, and more precisely theedges recess 19. Theouter layer 24b is formed from a helically woundsecond band 28, which is wound in the same winding direction as the first band 27. Thesecond band 28 has a width w2 and forming a helical winding angle β with respect to thecentral axis 22. The helical winding angle β is identical to winding angle α, and the width w2 and positioning of thesecond band 28 are selected such that thesecond band 28 at least covers thegap 25 formed by the first band 27. A certain overlapping area of the first andsecond band 27, 28 in a direction perpendicular to the helical winding angle, on both sides of thegap 25 is necessary along the gap extension to give thecore member 17 the desired strength and stability. - Obviously, the thickness of the
inner layer 24a is easily adapted by the thickness of the first band, which may consist of one or more layers. Optionally or in addition, several layers of first band are overlappingly wound to form the desired thickness of theinner layer 24a, and consequently the desired depth d of therecess 19. Theouter layer 24b is optional. - In the
core member 17 shown infig. 3a , the width w2 and helical winding angle β are set such that consecutive windings of theouter band 28 partly overlaps with the previous winding for further increased strength and stability of thecore member 17. The inner andouter layers outer layer 24b, are preferably mutually attached, for example by means of adhesive at selected regions. - The width of the
gap 25 is preferably less than half the width w1 of the first band 27 in a direction perpendicular to the winding direction of the first band 27. Specifically, the width of thegap 25 may even be less than 25% of the width w1 of the first band 27. Moreover, the width of thegap 25 is preferably larger than 3 mm, more specifically at least 5 mm. In all, the width of thegap 25 is preferably in the range of 3 mm - 15 mm, specifically, in the range of 3 mm - 10 mm. The width of thegap 25 is preferably adapted to the size, shape and form of the corresponding engagement means of theshaft 15 of thedispenser 10. The width of thegap 25 can thus normally not be too small due to the difficulties in providing a sufficiently strong mutual rotational locking, and for allowing certain manufacturing tolerances. However, considering that the corresponding engagement means of theshaft 15 interact withdifferent side walls recess 19 during charging of the electrical storage system and driving of thecore member 17 by means of the electrical machine, it is considered advantageous to have a width of thegap 25 that corresponds to the width of the corresponding engagement means, in order to reduce rotational play between the engagement means of thecore member 17 and the corresponding engagement means of theshaft 15. - Many alternative configurations of the
core member 17 are of course possible within the scope of the appended claims. Theouter layer 24b may for example be assembled with zero winding angle, further layers may be provided in addition to the inner andouter layer outer layer 24b may be completely omitted, such that thegap 25 forms a through hole on the cylindrical wall of thecore member 17, as illustrated infig. 4 . Thegap 25, which forms therecess 19, is formed by theedges fig. 5 , thecore member 17 is formed from two helically wound bands, each having a width w3 and forming a helical winding angle α with respect to thecentral axis 22. The width w3 of the bands, the helical winding angle α, and their mutual axial offset, are selected such that two helically extending gaps are formed in a shape of a double helix, wherein each gap being formed between neighbouring edges of said bands. Also this configuration may of course be provided with one or more additional outer layers for increased strength and stability.
Still a further embodiment of the invention is illustrated infig. 6 , in which the engagement means of the innercylindrical surface 23 comprising anelongated projection 29 extending helically along the innercylindrical surface 23. The height h of theprojection 29 and wall thickness t are here only schematically shown and not to scale. The height h of theprojection 29 may be substantially larger than the wall thickness t of said core member at a location without a projection, for example 2 - 5 times the wall thickness.
In the embodiment offig. 7 , theelongated projection 29 extends linearly in an axial direction of thecore member 17. Also here may the radial height h of theprojection 29 be substantially larger than a wall thickness t of saidcore member 17 at a location without aprojection 29. As already mentioned above, this embodiment does not fall within the scope of the present invention. - The
core member 17 is preferably made of one or morehelically wound bands 27, 18, as shown infig. 3a and 3b because of the cost effective and proven design. However, thecore member 17 may alternatively be made of moulded pulp material or plastic material, in particular if the engagement means is not realised by a helically extendingrecess 19, because a helically extendingrecess 19 is particularly easy to realise when forming thecore member 17 by ahelically wound band 27, 28. Alternatively, the recess may be formed by mechanically processing theinner surface 23 of a single or multilayered core member 17, such as cutting and/or milling theinner surface 23. Aprojection 29 on the innercylindrical surface 23 is preferably realised by moulding thecore member 17 in a single piece. -
Fig. 8 illustrates still a further embodiment of thecore member 17 according to the invention, in which thecore member 17 is formed by two plug elements that are arranged to at least partly penetrate the centre hole of a coreless sheet material roll (not showed) on opposite sides thereof. A coreless sheet material roll is a roll that is manufactured, packed, and transported to customer without acentral core member 17 onto which the sheet material is wound. Instead, different manufacturing techniques are used to form the sheet material roll without a centrally arrangedcore member 17. In order to rotatably arrange a coreless roll in a dispenser, one, or preferably two plug elements are inserted into the central hole on opposite sides of the roll, which plug elements form attachment means for engagement with arotational shaft 15 of thedispenser 10. - In
fig. 8 , one plug element is disclosed having anabutment collar 31 for abutting the axial side of the coreless roll upon insertion of the plug element into the central hole of the coreless roll. The plug element further comprises asleeve 32 for penetrating the axial hole, as well as a helically extendingrecess 19 formed on an innercylindrical surface 23 of thesleeve 32 andcollar 31. The plug element may be moulded in pulp or plastic material. - Upon mounting of a
core member 17 having alongitudinally extending projection 29, theroll 11 andcore member 17 assembly is simply pushed axially onto theshaft 15 of thedispenser 10. In case one or more corresponding engagement means of theshaft 15 are retracted to a depressed position, in which they do not interact with thecore member 17, such as spring loaded or mechanically actuated retractable engagement means provided on theshaft 15, these may possibly require manual actuation, unless they are configured to automatically retract upon penetration of theshaft 15. Moreover, retractable corresponding engagement means on theshaft 15 may allow theroll 11 to be inserted on theshaft 15 at all angular positions, and rotational locking of thecore member 17 and theshaft 15 is then realised first upon internal relative rotation of thecore member 17 andshaft 15. Upon arrival at the correct internal angular position, the retractable corresponding engagement means may be actuated, manually or automatically, to engage with the engagement means of thecore member 17 to rotationally interlock saidparts core member 17 are fixed, i.e. not retractable, and extends in the axial direction, theroll 11 is mounted on theshaft 15 without simultaneous internal relative rotation, but when the engagement means of thecore member 17 is fixed and extends helically, theroll 11 is mounted on theshaft 15 with simultaneous internal relative rotation. - The
core member 17 according to the invention may be equally applied to dispensers having shafts without corresponding engagement means, such that no rotational locking between thecore member 17 andshaft 15 is realised, in particular if the engagement means are formed by arecess 19. Thecore member 17 is preferably configured to be more or less freely rotatable on ashaft 15 having no corresponding engagement means. - The pulp that may be used for moulding the
core member 17 may be a lignocellulosic fibrous material prepared by chemically or mechanically separating cellulose fibres from wood, fibre crops or waste paper. Alternatively, thecore member 17 may be formed of plastic material by moulding or similar production method. - The term "elongated" herein refers to an
elongated recess 19 and/orprojection 29 that extends at least two times longer in a first direction than a second direction that is perpendicular to the first direction, and specifically at least five times longer, and more specifically at least ten times longer. The first direction corresponds here to the extension direction of the engagement means. Therecess 19 as such may have a rectangular cross-sectional form as seen in a radial plane, to provide distinct andreliable engagement surfaces recess 19 has a radial depth d of at least 1.0 mm, wherein the radial depth d is the minimum radial distance between therecess 19 and a cylinder defined by the internalcylindrical surface 23. Correspondingly, theprojection 29 as such may have a rectangular cross-sectional form as seen in a radial plane, to provide distinct and reliable engagement surfaces for the rotational locking. Theprojection 29 has a radial height h of at least 1.0, and more specifically at least 2.0 mm, wherein the radial height h is the minimum radial distance between the projection and a cylinder defined by the internalcylindrical surface 23.
The term "helical winding angle" herein refers to the angle between a tangent of the helix curve and a central axis of the core member. The helical winding angle is > 0 degrees and < 90 degrees. Moreover, the helical angle is preferably < 60 degrees centigrade to simplify mounting of core member onto the shaft of the dispenser.
In all of the described embodiments, the core member may comprise one or more recesses and/or one or more projections. The core member may be formed by a single layer or multiple layers, and each of the first and second bands described above may be formed by one or more layers.
The phrase "rotatably coupled" used herein means that the shaft is a separate part from the dispenser body, and that the shaft has been mounted on the dispenser such that shaft may be rotated while the dispenser body is stationary. Furthermore, the phrase "rotationally locking" used herein means that the roll and the shaft are separate parts, and that they may be interlocked with each other rotationally around a common rotational axis, such that the roll may not be rotated without causing rotation also of the shaft, and vice versa. - Reference signs mentioned in the claims should not be seen as limiting the extent of the matter protected by the claims, and their sole function is to make claims easier to understand.
- As will be realised, the invention is capable of modification in various obvious respects, all without departing from the scope of the appended claims. Accordingly, the drawings and the description thereto are to be regarded as illustrative in nature, and not restrictive.
Claims (16)
- A hollow cylindrical core member (17) suitable for supporting a roll (11) of absorbent sheet material, said core member (17) comprising a central axis (22), an outer cylindrical surface (20), and an inner cylindrical surface (23), characterised in that said inner cylindrical surface (23) comprises engagement means suitable for rotationally locking of said roll including said core member (17) with a shaft (15) of a dispenser (10) that is suitable for dispensing absorbent sheet material, wherein said engagement means comprising:at least one elongated recess (19) and/or projection (29) extending helically along said inner cylindrical surface (23),wherein the recess (19) has a radial depth d of at least 1.0 mm, wherein the radial depth d is the minimum radial distance between the recess (19) and a cylinder defined by the internal cylindrical surface (23),wherein the projection (29) has a radial height h of at least 1.0 mm, wherein the radial height h is the minimum radial distance between the projection (29) and a cylinder defined by the internal cylindrical surface (23).
- The core member according to any of the preceding claims, characterised in that said at least one recess (19) and/or projection (29) extends continuously over at least 20% of the total axial length of said core member (17), specifically over at least 50%, and more specifically over the entire axial length of said core member (17).
- The core member according to any of the preceding claims, characterised in that the radial depth (d) of said at least one recess (19) is smaller than the wall thickness (t) of said core member (17) at a location without a recess (19).
- The core member according to any of claims 1-2, characterised in that said at least one recess (19) extends completely through the cylindrical wall of said core member (17), such that a through hole is formed in said core member (17).
- The core member according to any of the preceding claims, characterised in that said core member (17) is formed from a helically wound first band (27) having a width (w1) and forming a helical winding angle (α) with respect to said central axis (22), wherein said helical winding angle (α) and said width (w1) is selected such that a gap (25) is formed between edges (26a, 26b) of consecutive windings of said first band (27), which gap (25) at least partly forms said recess (19).
- The core member according to claims 1-3, characterised in that said core member (17) is formed from a helically wound first band (27) having a width (w1) and forming a helical winding angle (α) with respect to said central axis (22), wherein said helical winding angle (α) and said width (w1) is selected such that a gap (25) is formed between edges (26a, 26b) of consecutive windings of said first band (27), which gap (25) at least partly forms said recess (19), and said core member (17) comprises at least one additional material layer (24b) being arranged on a circumferential outer surface of said helically wound first band (27), wherein said at least one additional material layer (24b) covers said gap (25).
- The core member according to any of claims 5 or 6, characterised in that a width of said gap (25) is smaller than half the width (w1) of said first band (27) in a direction perpendicular to the helical winding direction of said band, and specifically smaller than 25% of the width (w1) of the first band (27).
- The core member according to any of the preceding claims, characterised in that said core member is formed of at least two layers (24a, 24b) of helically wound band (27, 28), and both said layers (24a, 24b) of wound band (27, 28) being wound in the same winding direction.
- The core member according to any of the preceding claims 1 - 4, characterised in that said recess (19) is formed by mechanically processing the inner surface (23) of said core member (17), such as cutting and/or milling.
- The core member according to any of the preceding claims 1 - 4 or 9, characterised in that said core member (17) is made of moulded pulp or plastic material.
- The core member according to any of the claims 1-5, characterised in that said core member (17) comprises a single material layer (24a), or multiple material layers (24a, 24b).
- The core member according to any of the preceding claims 1 - 4, 9 or 10, characterised in that said core member (17) is formed by at least one hollow cylindrical plug element that is suitable to be inserted into a central hole of a coreless roll, wherein said engagement means is formed at an inner cylindrical surface (23) of said plug element.
- The core member according to claim 12, characterised in that said core member (17) is formed by two hollow cylindrical plug elements, each of which being suitable to be inserted into a central hole of a coreless roll.
- The core member according to any of the preceding claims, characterised in that a height of said projection (29) is substantially larger than a wall thickness (t) of said core member (17) at a location without a projection (29).
- Dispenser assembly comprising a dispenser (10) suitable for dispensing absorbent sheet material from a roll (11), and a core member (17) according to any of claim 1 - 14, wherein said dispenser assembly comprising: a dispenser body, a shaft (15) on which said core member (17) is arranged, wherein said shaft (15) is rotatably coupled to said dispenser body, wherein each of said shaft (15) and said core member (17) comprising engagement means that are in cooperating mating position, such that said shaft (15) is rotationally locked with said core member (17).
- Dispenser assembly according claim 15, wherein said dispenser assembly further comprising: an electrical machine and an electrical storage system for storing electrical energy, wherein said electrical machine is rotatably coupled to said shaft (15), wherein externally caused rotation of said core member (17) drives said electrical machine, thereby facilitating generation of electrical energy that is stored in said electrical storage system, and wherein said electrical machine is configured to be powered by electrical energy from said electrical storage system for temporarily rotating said core member (17).
Applications Claiming Priority (1)
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PCT/SE2012/050760 WO2014007690A1 (en) | 2012-07-02 | 2012-07-02 | Core member for an absorbent sheet roll |
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EP2867149A1 EP2867149A1 (en) | 2015-05-06 |
EP2867149A4 EP2867149A4 (en) | 2016-02-10 |
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EP12880277.4A Not-in-force EP2867149B8 (en) | 2012-07-02 | 2012-07-02 | Core member for an absorbent sheet roll |
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EP (1) | EP2867149B8 (en) |
CN (1) | CN104428230B (en) |
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US11278167B2 (en) * | 2016-12-30 | 2022-03-22 | Kimberly-Clark Worldwide, Inc. | Paper product dispenser |
CN109842222A (en) * | 2017-11-24 | 2019-06-04 | 南宁市远才教育咨询有限公司 | A kind of chart drum that can be used as mobile phone emergency power supply and use |
US11825993B2 (en) | 2018-07-09 | 2023-11-28 | Gpcp Ip Holdings Llc | Spindle and cover components for sheet product dispensers and dispenser systems including such components |
US10743723B2 (en) | 2018-09-28 | 2020-08-18 | Gpcp Ip Holdings Llc | Spindle assembly for sheet product dispensers |
US10952570B2 (en) | 2018-09-28 | 2021-03-23 | Gpcp Ip Holdings Llc | Spindles and dispensers for sheet product |
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2012
- 2012-07-02 US US14/412,274 patent/US20150136894A1/en not_active Abandoned
- 2012-07-02 WO PCT/SE2012/050760 patent/WO2014007690A1/en active Application Filing
- 2012-07-02 MX MX2014015489A patent/MX2014015489A/en unknown
- 2012-07-02 CN CN201280074444.9A patent/CN104428230B/en not_active Expired - Fee Related
- 2012-07-02 AU AU2012384596A patent/AU2012384596B2/en not_active Ceased
- 2012-07-02 EP EP12880277.4A patent/EP2867149B8/en not_active Not-in-force
- 2012-07-02 RU RU2015103133/13A patent/RU2590810C1/en not_active IP Right Cessation
-
2013
- 2013-06-27 AR ARP130102279 patent/AR091588A1/en unknown
Non-Patent Citations (1)
Title |
---|
None * |
Also Published As
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CN104428230A (en) | 2015-03-18 |
EP2867149B8 (en) | 2017-11-22 |
RU2590810C1 (en) | 2016-07-10 |
US20150136894A1 (en) | 2015-05-21 |
EP2867149A4 (en) | 2016-02-10 |
AU2012384596A1 (en) | 2015-01-22 |
CN104428230B (en) | 2016-08-24 |
EP2867149A1 (en) | 2015-05-06 |
AR091588A1 (en) | 2015-02-11 |
MX2014015489A (en) | 2015-03-06 |
AU2012384596B2 (en) | 2015-03-12 |
WO2014007690A1 (en) | 2014-01-09 |
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