This application is the National Stage of International Application No. PCT/GB2019/053077, filed Oct. 30, 2019, which claims the benefit of GB application number 1818387.1, filed Nov. 12, 2018, the disclosures of which are incorporated herein by reference in their entirety.
The present invention relates to a method of marking indicia on tab stock used to provide tabs for use with can ends, and a tab press for producing tabs marked with the indicia. In particular, but not exclusively, it relates to tabs featuring debossed indicia for use with beverage cans.
End closures for cans, such as beverage cans, typically have a panel with a frangible score which may be broken by lifting a tab in order to push a section of the panel into the can and thereby form an opening in the panel.
Different approaches to marking tabs have been considered, including embossing, piercing, scoring, etching and colour printing. For example, US 2010/0193519 describes a tab marked with an embossed figure. The term embossing, as used in the present document, refers to forming a “raised” feature in a surface, such that the feature stands out from the surface.
Embossing typically does not allow complex designs to be applied to tabs for can ends because the minimum feature size that can be produced by embossing is relatively large in comparison to the area available on the tab. One difficulty is that the thickness of the tab material (generally around 0.25 mm) precludes the height of the embossed features above the surrounding surface from being too great, making the embossed features difficult to see clearly. Small gaps between features may also not be reproduced clearly, causing the features to merge into one another, which is a particular problem for lettering. More detailed designs can be produced by (for example) laser etching the surface of the tabs, but such techniques can be complicated to implement and time consuming (particularly when the designs are very detailed and therefore ill-suited to modern high-speed production methods.
There is therefore a need to provide a way of marking tabs which allows more detailed designs to be used and which can be easily integrated into existing manufacturing processes.
According to a first aspect of the invention there is provided a method of marking indicia on tab stock used to provide tabs for use with can ends. The method comprises providing the tab stock to a tab press comprising a punch and a die. The punch comprises a set of raised features and the die comprises a respective set of recessed features such that the features cooperate to deboss said indicia on regions of the tab stock within tab forming areas that face outwardly when the tabs are attached to a tab end. The features are such that, when the press is fully closed, the spacing between at least part of each of the raised features and at least part of each of the respective recessed features is less than the thickness of the tab stock in said regions within tab forming areas.
The term debossing is used in this document to refer to the process of impressing a design into a surface so that the design is transferred to the surface as an indentation from the side viewed by a consumer. The indicia may, for example, include one or more of the following: characters, shapes, numbers, logos, patterns and/or graphic images.
Each of the features may comprise surfaces that are inclined relative to a plane of the punch and the die, and the parts of the raised and recessed features that have a spacing that is less than the thickness of the tab stock in the regions within tab forming areas may be provided by the inclined surfaces.
Each of the raised features of the punch may comprise a flat outer surface substantially parallel to the plane, each flat outer surface having an angular junction with one of the inclined surfaces.
The inclined surfaces of the recessed features of the die may have an angular junction with an outer face of the die. The spacing that is less than the thickness of the tab stock in the regions within tab forming areas may be a spacing between angular junctions of the raised and recessed features.
The spacing may be less than 80%, or less than 60%, of the thickness of the tab stock in the regions within tab forming areas.
The spacing may be greater than 20%, or greater than 40%, of the thickness of the tab stock in the regions within tab forming areas.
The press may be configured to press the raised surfaces of the punch into said regions of the tab stock by less that 70%, or less than 50%, of the thickness of the tab stock in the regions within tab forming areas.
The method may be performed prior to steps of drawing and curling rims of the tab forming areas.
The method may be performed prior to a step of piercing peripheries of the tab forming areas to form rims.
The method may be performed concurrently with a step of drawing rims extending around horseshoe cut outs formed in the tab forming areas.
The method may be performed concurrently with a step of forming rivet cut outs in the tab forming areas.
The indicia may comprise one or discrete features, such as alphanumeric characters, with a debossed feature dimension in the plane of the tab of less than 0.25 mm, preferably less than 0.15 mm.
Two or more of the raised features of the punch may differ in their maximum heights.
According to a second aspect of the invention there is provided a tab press configured to accept tab stock having a thickness of between 0.24 mm and 0.26 mm. The tab press is further configured to produce tabs marked with indicia and comprises a punch comprising a set of raised features and a die comprising a respective set of recessed features, such that the features cooperate to deboss said indicia on regions of the tab stock within tab forming areas that face outwardly when the tabs are attached to a tab end. The features are such that, when the press is fully closed, the spacing between at least part of each of the raised features and at least part of each of the respective recessed features is less than the thickness of the tab stock the tab press is configured to accept.
The spacing may be less than 0.20 mm, or less than 0.15 mm.
The tab press may comprise tooling for drawing and curling rims of tab forming areas of the tab stock and the tab press may be configured to deboss the indicia on the tab stock prior to drawing and curling the rims.
The tab press may comprise tooling for piercing peripheries of tab forming areas of the tab stock to form rims and the tab press may be configured to deboss the indicia on the tab stock prior to forming the rims.
The tab press may comprise tooling for drawing rims extending around horseshoe cut outs formed in tab forming areas of the tab stock and the tab press may be configured to deboss the indicia on the tab stock concurrently with forming the rims extending around the horseshoe cut outs.
The tab press may comprise tooling for forming rivet cut outs in the tab forming areas and the tab press may be configured to deboss the indicia on the tab stock concurrently with forming the rivet cut outs.
According to a third aspect of the invention, there is there is provided a can end having affixed thereto a tab comprising one or more debossed indicia which face outwardly from the can end such that they are visible to a consumer prior to opening.
The minimum debossed feature depth may be at least 0.05 mm or at least 0.10 mm. The tab may be formed from material which has a thickness of 0.24 to 0.26 mm.
The minimum debossed feature dimension in the plane of the tab may be less than 0.25 mm or less than 0.15 mm.
The indicia may comprise features debossed to different depths.
This third aspect may be entirely independent of the other aspects of the invention. For example, the tabs may not be formed using the method of marking indicia on tab stock described herein and may instead be formed using another method. Similarly, the tabs may be produced without using the tab press described herein and may instead be formed using another apparatus.
According to a fourth aspect of the invention, there is provided a tab for a can end. The tab comprises one or more debossed indicia, provided on a side of the tab which faces outwardly when the tab is attached to a can end.
The minimum debossed feature depth may be at least 0.05 mm or at least 0.10 mm. The tab may be formed from material which has a thickness of 0.24 to 0.26 mm.
The minimum debossed feature dimension in the plane of the tab may be less than 0.25 mm or less than 0.15 mm.
The indicia may comprise features debossed to different depths.
This fourth aspect may be entirely independent of the other aspects of the invention. For example, the tabs may not be formed using the method of marking indicia on tab stock described herein and may instead be formed using another method. Similarly, the tabs may be produced without using the tab press described herein and may instead be formed using another apparatus.
The embodiments that will now be described aim to address the above-mentioned problems by using a debossing process which is able to transfer indicia comprising a small minimum feature size on to a tab. The debossing process thereby allows tabs to be produced which feature detailed lettering, patterns or imagery. For example, using this debossing process it is possible to mark 0.25 mm thick tabs with lettering which has a minimum height of around 1 mm and which comprises letters with a characteristic line width of around 0.1 mm. Surprisingly, this level of detail can be achieved without damaging the material from which the tab is made. In particular, the method allows a “crisp” profile to be produced with only a small forming depth, thereby avoiding the tab material from being subjected to excessive strain during debossing.
The tabs are made using a tab press which acts on tab stock to form the various features of the tabs. The tab stock output from the tab press is fed directly into a conversion press where tabs are pressed out of the tab stock and riveted to can ends, which are then subsequently seamed on to can bodies.
The surface of the punch 304 facing the metal sheet 302 is generally flat but has flat-topped ridges 308 projecting from it which defines the shapes of an indicia or markings, such as letters or symbols, which are to be impressed into the metal sheet 302. The indicia have a cross-section which is an isosceles trapezoid, with a base edge of the trapezoid defining the flat ridge 308, as can be more easily seen in the close up view shown in
The die 306 has a generally flat surface with channels or recesses 312 which are aligned with the flat ridges 308 and have a complementary shape and profile to them, such that the punch 304 and die 306 cooperate with one another in a male-female relationship. In this example, the recesses are also trapezoidal in cross-section such that they are wider at the top than the bottom. The punch 304 and die 306 are made from hardened and coated tool steel or carbide, although other suitably hard wearing materials can also be used. It will be appreciated that all side surfaces of the raised and recessed features may have a similar inclination with respect to the planes of the die and punch.
In operation, the punch 304 and die 306 are forced together to a fully closed position (where “fully” closed indicates the maximum extent of closure of the press) to deform the metal sheet 302 such that the markings or indicia defined by the ridges 308 are debossed into the upper surface of the metal sheet. A bulge or protrusion 402 is produced on the lower surface of the metal sheet which is accommodated in the recess 312. The width across the opening (i.e. top) of the recess 312 is larger than the width of the corresponding flat ridge 308 in order to provide clearance for the protrusion 402.
Returning to
This process is similar to the initial stages of incising, in which a score tool is pressed into the one side of the material whilst the other side is supported by a flat anvil. However, in the debossing process described here, the die does not fully support the underside of the material, allowing it to deform into the recess, and the material is not fully sheared as the feature depth (i.e. the penetration depth of the punch 304 into the metal sheet) is only 0.1 mm. The debossing process employed here might be considered to involve a partial “coining” as a plastic flow is induced in the material in the horizontal gap between the punch and the die. It should be noted that process of marking indicia onto a tab using a fully coining process would be unsuitable as it is likely to damage coatings on the metal surface.
It has also been found that the debossing process absorbs slack material from the panel and thus improves the flatness of the tabs. This is important because the tabs are fixed to can ends which are stacked prior to being fed into a seamer (for sealing the end to a can body) and “wavy” tabs may lead to handling problems which disrupt the production line, for example the feeding of the ends into the seamer. Tabs with debossed features may also be preferred (over embossed features, for example) because forming the features as indentations in the upper tab surface reduces the risk of “scuffing” when can ends are stacked in sleeves for distribution. Additionally, as the debossing process does not require a change in colour of the tab material it is well suited to both coloured and plain tab materials and is more robust against rough handling. Any scuffing would remove the coating from the edges of the embossed features.
The raised surfaces 308 of the punch 304 may extend to different heights above the surface of the punch 304 so that features of differing depth may be created. This allows more detailed “three dimensional” images to be created even within the small area available on the tab, particularly as the debossing process allows even small features to be accurately reproduced.
In general, the tab press comprises a “production line” of tooling through which the tab stock is advanced in a stepwise fashion in order to progressively build up the features of the tab. As the tooling is applied to adjacent regions of the tab stock simultaneously, the different manufacturing stages are carried out in parallel with one another. The tooling is also typically replicated so that there are multiple, parallel rows of tabs being produced concurrently, which further allows the production rate to be increased. For example, a tab press may typically have 3-4 lanes, allowing around 750 tabs to be produced every minute. The dwell time between the tooling stages is typically around 50 ms.
This process does not produce tabs with a flat panel because a recess is cut out of the tab stock in the first stage (a). However, when forming tabs which do have a flat panel, the tooling for cutting out the recess can be omitted, which provides space within the tab press tooling which can be used to accommodate the die and punch. This means that tab presses which are used for producing tabs which have a finger hole can be easily adapted to produce “flat panel” type tabs with embossed or debossed features.
To illustrate the method of marking indicia during tab production,
The debossed features can be enhanced using a laser process such as laser etching. For example, the general features of a design (e.g. an image of a face) may be debossed in the surface of the tab and fine details (e.g. details relating to the mouth and eyes) can be added by etching away material by laser ablation. As the laser etching is only used to provide the fine details, it is not necessary to have long process times which might otherwise limit the rate at which the tab production line operates. Laser etching is preferably performed during the dwell time of the tab stock as the tab stock exits the tab press and before it enters the conversion press.
It will be understood by the person of skill in the art that various modifications may be made to the above described embodiments without departing from the scope of the present invention. For example, the debossing technique could also be applied to transfer indicia to other parts of a can end or can body. Additionally, the die and press could be incorporated into or between any of the stages in the tab press or the tab stock could be marked with the indicia prior to entering the tab press.
Number | Date | Country | Kind |
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1818387 | Nov 2018 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2019/053077 | 10/30/2019 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/099827 | 5/22/2020 | WO | A |
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20100193519 | Forrest et al. | Aug 2010 | A1 |
20180148219 | Hundeloh | May 2018 | A1 |
Number | Date | Country |
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2915920 | Nov 2008 | FR |
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S53-149865 | Dec 1978 | JP |
S57-75875 | May 1982 | JP |
2010100119 | Sep 2010 | WO |
WO 2012164007 | Dec 2012 | WO |
Entry |
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International Search Report and Written Opinion issued in PCT/GB2019/053077, dated Jan. 30, 2020. |
International Preliminary Report on Patentability issued in PCT/GB2019/053077, dated Mar. 3, 2021. |
Number | Date | Country | |
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20210362537 A1 | Nov 2021 | US |