The present disclosure relates to die-cut lid, a lidded container comprising such a die-cut lid and a method of forming a die-cut lid.
It is known to form lidded containers such as beverage capsules or containers, yogurt pots, pudding cups, beverage cups, gum or candy containers and food tubs from a container having a body with an open mouth and a lid which is sealed to the body so as to close the open mouth of the container. It is also known to form the lid by cutting a suitably-shaped piece of flexible material from a sheet, which may be formed from a single material or may be a composite sheet of material containing two or more layers. The lid may be die-cut from the sheet material. It is known for such lids to comprise a functional area bearing data intended to be read. For example, lids may be provided with a printed barcode that is to be machine-read, for instance at a point-of-sale.
On a typical packaging line, lids which have previously been cut from the sheet material may be held in a stack of lids in a lid magazine ready to be sealed to containers once the containers have been filled with the required contents. Each lid may be removed from the stack of lids and conveyed into engagement with a container by means of a suitable device, for example a vacuum cup device which is intended to pick off the leading lid from the stack of lids, remove it from the magazine and transfer the lid to the location of the container requiring sealing. After sealing, the lidded containers may be placed in further packaging and transported for onward use.
A problem that may occur with such die-cut lids during assembly and/or storage is that the functional area does not remain sufficiently flat for accurate and consistent reading of the data therefrom. This may particularly be the case where the data is machine-read by means of a non-contact sensor, for example a barcode reader, since no physical contact between the functional area and the non-contact sensor takes place which might assist in flattening the functional area. It has also been found that this is a particular problem where the lids are formed from a composite sheet material, since the differing materials in the different layers of the composite sheet material can lead to curling of the relatively thin lids and the functional area, for example due to different coefficients of thermal expansion of the materials.
Lack of flatness of the functional area can lead to unacceptable levels of misreads where the data is to be machine-read and can make the data more difficult to discern where the data is to be human-read.
In a first aspect the present disclosure provides a die-cut lid for closing a container, the lid being formed from a flexible composite sheet material;
the lid comprising a functional area bearing human-readable and/or machine-readable data;
the lid comprising one or more rigidifying indentations to promote flatness of the functional area in a resting state of the lid;
wherein the one or more rigidifying indentations are selected from the group of:
Advantageously, providing the lid with one or more rigidifying indentations that encircle and border the functional area and/or are planar indentations that encompass the functional area helps to stiffen the lid in at least the region of the functional area and helps to maintain the flatness of the functional area by reducing any curl of the lid. By preferably restricting the one or more rigidifying indentations to only the functional area and/or the area bordering the functional area the function of the remainder of the lid is unaffected. For example, the process of sealing the lid to a body of the container is unchanged.
The lid may comprise more than one functional area. For example, the lid may have a barcode panel and a date code panel; the lid may have a barcode panel and a best before panel; or the lid may have a first barcode panel and a second barcode panel. The lid may, in some examples have first, second and third barcode panels.
The data in the functional area may be written in any convenient manner. For example, the data may typically be printed onto a surface of the composite sheet material. Alternatively, the data may be etched, laser-marked, etc. in the functional area.
The functional area may bear one or more of a barcode, a date code or a best before indication.
The one or more rigidifying indentations may comprise a continuous encircling indentation that fully encircles the functional area. Alternatively, the one or more rigidifying indentations may comprise one or more discontinuous encircling indentations that partially or fully encircles the functional area.
In one example the one or more rigidifying indentations comprise a plurality of encircling indentations with at least a first encircling indentation bordering the functional area and a second encircling indentation located concentric to the first encircling indentation.
The planar indentation may comprises a flat, planar portion that is indented in relief relative to a remainder of the lid outside the functional area. Preferably the planar portion is raised relative to a remainder of the lid.
The functional area may comprise less than 70%, preferably less than 50%, more preferably less than 30%, more preferably less than 20% of the lid.
The lid may have a nominal dimension, being the largest dimension of the lid, and the height of the one or more rigidifying indentations measured perpendicular to the plane of the lid may be up to 3% of the nominal dimension.
The lid may have a size from 30 mm upwards.
In one example the one or more rigidifying indentations have a height measured perpendicular to the plane of the lid of from 400 to 3000 microns, preferably from 600 to 1000 microns, more preferably 700 microns.
The flexible composite sheet material prior to forming the lid may have a thickness of from 40 to 100 microns.
The composite sheet material may be embossed over at least a major portion of the lid so as to have an embossed thickness of up to 200 microns.
The one or more rigidifying indentations are preferably formed to protrude convexly from an outer face of the lid, wherein the outer face of the lid is defined as the face of the lid facing away from an interior of a container after lidding.
The one or more encircling indentations may have a U- or V-shaped cross-sectional form.
The lid may have a nominal dimension, being the largest dimension of the lid, and the width of the one or more encircling indentations may be up to 5% of the nominal dimension. In one example, the width of the one or more encircling indentations is from 400 to 5000 microns, preferably from 1500 to 2500 microns.
The flexible composite sheet material may comprise an aluminium layer and/or a metallised layer. The flexible composite sheet material may comprise one or more polymer layers. The one or more polymer layers may be selected from the group of a polypropylene (PP) layer and a polyethylene terephthalate (PET) layer. In one example, the flexible composite sheet material comprises a polypropylene layer, an aluminium layer and a polyethylene terephthalate (PET) layer.
In a second aspect the present disclosure provides a lidded container comprising a body having an open mouth and a lid which is sealed to the body so as to close the open mouth of the body to define an interior of the lidded container, wherein the lid is a die-cut lid as described above.
The functional area may be located above the open mouth of the body. Advantageously, the presence of the one or more rigidifying indentations allows the flatness of the functional area to be better maintained even where the functional area is unsupported—i.e. relatively distant from a supporting part of the body.
The container may be a beverage capsule or container, a yogurt pot, a pudding cup, a beverage cup, a gum or candy container, a food tub, or other similar consumer-related food/non-food container.
In a third aspect the present disclosure provides a method of forming a die-cut lid, comprising the steps of:
a) providing a flexible composite sheet material;
b) printing human-readable and/or machine-readable data on the flexible composite sheet material;
c) forming one or more rigidifying indentations to promote flatness of a functional area encompassing said human-readable and/or machine-readable data, wherein the one or more rigidifying indentations are selected from the group of:
die-cutting the flexible composite sheet material to form the lid.
At least a portion of the lid may be additionally embossed, preferably prior to step c).
The one or more rigidifying indentations may be formed by stamping/pressing or rolling.
Embodiments of the present disclosure will now be described, by way of example only, with reference to the accompanying drawings, in which:
In the following description, the disclosure will be illustrated by way of example with reference to a lid and container for forming a lidded container in the form of a beverage cartridge (otherwise known as a beverage capsule), in particular, a beverage cartridge that is a sealed, machine-insertable cartridge that can be used with a beverage preparation system for dispensing one of a range of beverage types on demand, preferably in a domestic setting. However, it will be understood that the lids, containers and methods of the present disclosure may be used to form other types of lidded container, for example yogurt pots, pudding cups, beverage cups, gum containers, candy containers and food tubs of the type used for holding products such as margarine, fat-based spreads, cheese spreads, containers for other non-food consumer applications, etc.
In the following description, the lid is described as having a “nominal dimension”. The nominal dimension is defined as the longest dimension of the lid being any of the diameter, length or width of the lid. For example, for a circular lid the nominal dimension would be equal to the diameter of the lid. In the case of a square lid, the nominal dimension would be equal to the width of the lid. In the case of a rectangular lid, the nominal dimension of the lid would be the longest of the width or length of the lid.
The container 1 comprises a body 10 which may be cup-shaped so as to define an interior 15 of the container. The body 10 defines an open mouth 11 which is surrounded by a rim 16 and a flange 12 which extends radially outwards from the rim 16. In the illustrated example, the body 10 may further define an annular void space 14 between an interior wall 13 of the container and the flange 12. In this case, a free edge of the interior wall 13 may define the rim 16. In an alternative, non-illustrated, example there may be no interior wall 13 and the flange 12 may extend directly from the rim 16.
The container 1 may be generally circular in shape and in particular may comprise a generally disc-shaped section 17 as shown in
The container 1 may comprise an additional inner member if desired which extends from a base 19 of the body 10 towards the open mouth 11.
The body 10 of the container 1 may be formed from a variety of materials and using a variety of processes. The material may be, for example, high density polyethylene, polypropylene, polystyrene, polyester, or a laminate of two or more of these materials. The material may be opaque, transparent or translucent. The body 10 may be formed by, for example, injection moulding or thermoforming. The body 10 may be formed as a single unitary piece or from a plurality of pieces which are assembled together. Where an additional inner member is provided in the container 1 this may be formed unitarily with a remainder of the body 10 or may be joined to the remainder of the body 10, for example by adhesive or ultrasonic welding.
The lid 20 may be a generally thin, planar element formed from a sheet material 30. The lid 20 may be die-cut from the sheet material 30. The lid 20 is bounded by a peripheral edge 37.
The lid 20, as shown in
In an alternative arrangement, for example where the lid 20 may be intended to be peelable, in use, off the body 10, a section of the lid 20 may overhang the flange 12 of the body 10 and function as a finger-grip location to facilitate peeling of the lid 20 from the container 1.
In the illustrated example of
An outer face 25 of the lid is defined as the face of the lid 20 intended in use to face away from the interior 15 of the container 1 after lidding. Conversely, the inner face 26 of the lid 20 is defined as the face of the lid 20 intended in use to face into the interior 15 of the container 1 after lidding.
The sheet material 30 is preferably formed from a flexible composite sheet material having two or more layers. The layers of the composite sheet material 30 may be permanently or semi-permanently attached together. The composite sheet material 30 may be formed by a suitable process such as co-extrusion or lamination.
The composite sheet material 30 may comprise an aluminium layer and/or a metallised layer. The composite sheet material 30 may comprise a paper-containing layer. The composite sheet material 30 may comprise one or more polymer layers, for example a polypropylene layer and/or a polyethylene terephthalate (PET) layer.
The sheet material may have an initial thickness t1 from 40 to 100 microns.
One example of a suitable composite sheet material 30 is shown in
Another suitable composite sheet material 30 is illustrated in
In both examples, preferably the heat seal layer formed by the polypropylene layer 32 defines the inner face 26 of the lid 20.
In both examples, the composite sheet material 30 may further comprise one or more primer layers, one or more lacquer layers, one or more adhesive layers and printing as desired.
The lid 20 may be subjected (before or after being cut from the sheet material 30) to a general embossing treatment in order to enhance the stiffness of the sheet material 30 to a certain degree. The embossing may be carried out by mechanical means such as passing the sheet material between counteracting rollers.
The embossing of the sheet material 30 may extend across the full area of the lid 20. Alternatively, one or more portions of the lid 20 may not be embossed.
The embossing treatment may increase the initial thickness t1 of the sheet material 30 by up to four times compared to the thickness t1 of the original sheet material 30, such that the lid 20 has a general thickness t2 as shown in
As shown in
As well as, or instead of, the general embossing of the lid 20, the lid 20 is also provided with one or more rigidifying indentations 50 to help maintain flatness of the functional area 70. In the example of
The one or more rigidifying indentations 50, as shown in
In an alternative example the rigidifying indentation 50 may have a V-shaped cross-sectional form, wherein the radius of curvature of the apex at the base of the ‘V’ (equivalent to apex 51 in
In the illustrated example of
The rigidifying indentation 50 may be formed by a stamping process (otherwise known as pressing) or for example rolling. Preferably the stamping process does not result in loss of material from the lid 20 in the region of the rigidifying indentation 50.
The stamping of the rigidifying indentation 50 may be carried out before or after the general embossing of the lid 20. The stamping of the rigidifying indentation 50 may be carried out before or after the cutting of the lid 20 from the sheet material 30. In one example process, a continuous web of the sheet material 30 is first generally embossed at a first station by being passed through counteracting rollers and then conveyed to a second station. At the second station the rigidifying indentation 50 is first formed at the required location in the sheet material 30 using a stamping tool. Finally the lid 20 is die-cut from the sheet material 30 using a die-cutting press. Preferably a plurality of rigidifying indentations 50 are formed in the sheet material 30 during each stroke of the stamping tool and likewise, preferably a plurality of lids 20 are die-cut from the sheet material on each stroke of the die-cutting press.
The height h of the rigidifying indentation 50, as shown in
The rigidifying indentation 50 may have a height h from 400 to 3000 microns, preferably 600 to 1000 microns. In the illustrated example of
The width w of the rigidifying indentation 50, as shown in
The rigidifying indentation 50 may have a width w up to 5% of the nominal dimension 36 of the lid 20. In one example the width w is from 400 to 5000 microns, preferably from 1500 to 2500 microns. In the illustrated example of
The encircling indentation 72 helps to maintain the flatness of the barcode 71 by stiffening the lid 20 in the region of the functional area 70.
The formed lids 20 may be stored and/or transferred in a stack of similar lids 20. The lids 2 may be held in a magazine. The one or more rigidifying indentations 50 may also act as a nesting feature to promote better stacking of the lids 20.
The lidding process involves the steps of transferring the lid 20 into engagement with the container 1 and sealing the lid 20 to the container 1 so as to close the open mouth 11. The conveyancing may be by means of a vacuum cup device.
In the example of
The functional area 70 and the one or more rigidifying indentations 50 may be located on the lid 20, and the lid 20 may be engaged with the container 1 such that the functional area 70 and the one or more rigidifying indentations 50 are located above the open mouth 11 of the container 1.
The lid 20 may be sealed to the container 1 by a heat-seal tool. The heat-seal tool may act to both press the lid 20 into engagement with the flange 12 and heat the heat-seal layer of the composite sheet material 30 sufficiently to create the required bond between the composite sheet material 30 and the flange 12 of the container 1.
The basic form of the lid 20, in terms of its overall size, materials, composition, and optional general embossing are as described in the above examples. However, in the following examples the rigidifying indentation 50 is located, not bordering the functional area of the lid 20, but rather in a peripheral region 38 of the lid 20.
The peripheral region 38 of the lid 20 is defined as that part of the lid 20 which is no more than 10% of the nominal dimension 36 of the lid 20 away from the peripheral edge 37 of the lid 20. In the illustrated example the rigidifying indentation follows the shape of the peripheral edge 37 in that the distance from the peripheral edge 37 to the rigidifying indentation 50 is constant around the full path length of the rigidifying indentation. For the illustrated lid 20 of
The rigidifying indentation 50 may have the same geometry in cross-section as described above, for example as shown in
In the illustrated example of
The rigidifying indentation 50 may have a height h from 400 to 3000 microns, preferably 600 to 1000 microns. In the illustrated example the height h is 700 microns.
The rigidifying indentation 50 may have a width w up to 5% of the nominal dimension 36 of the lid 20. In one example the width w is from 400 to 5000 microns, preferably from 1500 to 2500 microns. In the illustrated example the width w is 1900 microns.
In the lid 20 of
Once formed, the lids 20 may be handled more easily as the lids 20 are more resistant to curling and are more likely to remain flat or substantially flat in a resting state.
The formed lids 20 may be stored and/or transferred in a stack of similar lids 20. The lids 2 may be held in a magazine. The rigidifying indentation 50 may also act as a nesting feature to promote better stacking of the lids 20. The increased rigidity of each lid 20 allows for easier removal of each lid 20 from the stack of lids 20, for example using a vacuum cup device since it is more likely that the outer face 25 (or inner face 26 depending on orientation of the lids 20) presented to the vacuum cup will be flat enough for the vacuum cup create a sufficient seal. In addition, the form of the rigidifying indentation 50 does not increase the force required to pick each lid 20 from the stack.
The lidding process involves the steps of transferring the lid 20 into engagement with the container 1 and sealing the lid 20 to the container 1 so as to close the open mouth 11 as described above.
Preferably the rigidifying indentation 50 is located on the lid 20 and the lid 20 is engaged with the container 1 such that the rigidifying indentation 50 is aligned above the flange 12 of the container 1, as shown in
The lid 20 may be sealed to the container 1 by a heat-seal tool. The heat-seal tool may act to both press the lid 20 into engagement with the flange 12 and heat the heat-seal layer of the composite sheet material 30 sufficiently to create the required bond between the composite sheet material 30 and the flange 12 of the container 1.
Preferably, the heat-seal tool also flattens the rigidifying indentation 50 during the sealing step. The flattening of the rigidifying indentation 50 may be partial but it is preferred that the rigidifying indentation is fully flattened, as shown in
Number | Date | Country | Kind |
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1412635 | Jul 2014 | GB | national |
This application is a divisional of U.S. application Ser. No. 14/745,035, filed Jun. 19, 2015, which claims the benefit of Great Britain Application No. 1412635.3, filed Jul. 16, 2014, which are each hereby incorporated herein by reference in their entirety.
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Number | Date | Country | |
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20180312311 A1 | Nov 2018 | US |
Number | Date | Country | |
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Parent | 14745035 | Jun 2015 | US |
Child | 16029425 | US |