Title of Invention	METHOD AND APPRATUS FOR MANUFECTRUINGCOMPOSITE SECURITY THREAD AND SECURITY PAPER CONSTRUCTED THEREBY
Abstract	A composite security thread, eg for a bank note, is produced by coating aluminium film onto a polyester film (11) and coating selected regions with magnetic material. Photo resist characters (14 to 18) are next printed on to the magnetic material, and a chemical applied to remove the aluminium coating except where protected by the resist. An obscuring silver coating (40) is then applied over the magnetic material, and a final transparent material applied as a barrier to reduce the risk of damage during subsequent processing.

Title of Invention

METHOD AND APPRATUS FOR MANUFECTRUINGCOMPOSITE SECURITY THREAD AND SECURITY PAPER CONSTRUCTED THEREBY

Abstract

A composite security thread, eg for a bank note, is produced by coating aluminium film onto a polyester film (11) and coating selected regions with magnetic material. Photo resist characters (14 to 18) are next printed on to the magnetic material, and a chemical applied to remove the aluminium coating except where protected by the resist. An obscuring silver coating (40) is then applied over the magnetic material, and a final transparent material applied as a barrier to reduce the risk of damage during subsequent processing.

Full Text	1A Field of invention This invention relates to method and apparatus for manufacturing composite security thread, and security thread/security paper constructed thereby, and concerns the production of paper or other sheet material for such security documents, and in particular the production of security thread such as described in UK Patent Specification 2227451, which is inserted into such paper/sheet material. Background to the Invention The insertion of a security thread into security document paper such as that used for printing bank notes is known. Such threads are typically in the form of elongate strip typically formed from a plastics film, one surface which is itself coated with a thin metallic film, and sandwiched between the metal film and the plastics film are regions of magnetic material which are spaced apart and are of such a length (measured in the length direction of the thread), that when moved relative to a suitable electromagnetic reading head, can induce electrical signals having characteristics which can be de-coded to determine the pattern of magnetic material in the security thread. It has also been proposed to incorporate symbols letters numerals or other visually decipherable or machine readable data along the length of the thread and to arrange that this visually and/or machine readable material can be identified at least on one side of the thread and can be inspected (visually or by machine reading) when the thread is incorporated in a security document or bank note. In particular the readable data may comprise a short description of the document within which the thread is 2 incorporated and in the case of a bank note may be the currency and denomination of the note. Security threads are described in European Patent Specifications 0400902, 0426801, 0498186, 0659587 and 0613786. It is an object of the present invention to supply method and apparatus for producing a preferred form of a composite security thread ie. one having a metallic film for electrical continuity, magnetic encoding to allow the thread to be read using a magnetic reader, and bearing visible data or markings which can be seen by the naked eye. Summary of the Invention According to one aspect of the present invention a method of manufacturing a composite security thread as aforesaid comprises the steps of:- 1. flash coating a polyester film with metal film, typically aluminium, 2. coating selected regions of the film with magnetic material so as to produce spaced apart groups of regions along the length of the film which can be detected by a magnetic reading head, to generate electrical readings for decoding, 3. in registry with selected groups of the magnetic material, printing characters which are to appear visible to the naked eye along a parallel region of the laminated film using a photo resistant material so as to protect the aluminium layer in those regions in which the characters are to appear in the final thread, 4. applying a chemical to the said parallel region to remove the aluminium flashing except where protected by the resist, 3 5. coating the region containing the groups of spaced apart magnetic material with an obscuring layer typically of silver, 6. coating the entire surface of the film containing the magnetic depositions and the visually readable characters with a transparent or semi-transparent material to provide a barrier to prevent chemical contamination and provide physical protection to the magnetic regions and the visually readable characters, to reduce the risk of damage to the film during the subsequent paper making and printing processes to which the film is subjected. In an alternative arrangement the aluminium is coated with resist except where the characters are to be formed, and the unprotected aluminium is removed by chemical treatment so that the letters are seen as transparent regions in the opaque reflective aluminium surface. The plastics film may be a polyester film typically that marketed under the Trade Mark MYLAR. The resist is preferably, applied by a printing process such as flexo printing, rotagravure or silk screening. Registration between lines of magnetically readable regions and visually readable characters is important for two reasons. On the one hand the resulting security thread is typically of the order of 3mm wide and it is important that the spaced apart magnetic regions occupy only that part of the width of the thread allocated to the magnetic readable material, and the visually readable characters only occupy the remaining part of the width of the thread. Additionally however it is desirable that at least one complete set of spaced apart magnetic regions is contained along the length of each region of the thread which will extend across a security document such as a bank note, after the latter has been guillotined from a larger sheet, and it may also be desirable that at least one complete 4 set of visually readable characters making up a message or notification will also appear in each said length of security thread as it extends across the guillotined document. If this last feature is to be attained, it is important that the magnetically readable regions register in a lengthwise sense with the visually readable characters, and that the length and frequency of repetition of both, along the length of the thread, is such that at least a complete set of visually readable characters and at least a complete set of magnetically readable region will be guaranteed to exist within the dimension of the document across which the thread extends after guillotining. One method of achieving this is to ensure that the lengthwise extent of the visually readable characters is preferably similar to the lengthwise extent of each group of encoded spaced apart magnetic regions and registers laterally therewith, and the spacing and repetition of the magnetically deposited regions is chosen so that the dimension of each guillotined security document, (such as a bank note), will be such as to contain at least two complete lengths of magnetically readable regions. In this way, however the regions register with the guillotining, there will always be at least one complete set of spaced magnetic regions along the length of the thread which extends across each guillotined document, and therefore likewise at least one complete set of visually readable characters. The protective coating may be a clear polyester, a semi-transparent polyester or a lacquer. The protective covering may be applied by a simple coating or printing process or may be applied as a film of polyester or like material which is laminated to the first mentioned film with the printed and coated surface of the first film sandwiched between it and the protective film. 5 According to another aspect of the invention, a method of manufacturing a security thread as aforesaid comprises 1. flash coating a thin metal film onto a thin plastics film, typically aluminium onto a polyester film, 2. coating the metallised surface with a resist material except in those regions corresponding to regions which are to form visually readable characters, 3. de-metallising the film by exposing it to a suitable chemical so as to remove the aluminium from those regions which are to form the visually readable characters, 4. removing surplus chemical by washing, 5. drying the film to remove all traces of chemical and wash, 6. printing onto the aluminium surface, parallel to the lines of visually readable characters, discrete and separated regions of magnetic material, the said regions being arranged in groups to assist in decoding, and the positions of the said groups being selected so as to be in correct registration with the groups of visually readable characters so that after guillotining, a security document containing a length of thread will always include along the guillotined length of thread at least one complete group of visually readable characters and at least one complete group of magnetically readable regions, 7. print coating the film so as to obscure the magnetic material, and 8. print coating or laminating a protective layer over the original plastics film so as to form a transparent protective coating thereover. Whichever method is used, the original or primary plastics film 6 is typically of MYLAR, in the range 6-15 microns thick. The flashed metal coating typically has a thickness of a few hundred Angstroms and the magnetic material is applied as rectangular patches approximately 12 microns thick and typically 2mm in length (ie parallel to the length direction of the thread) and having a width (perpendicularly the length direction of the thread) in the range 0.75 to 1.5 mm. A finished thread is typically of the order of 3mm wide and since the magnetic regions can occupy up to 1.5mm from one edge of the finished thread, a region of approximately 1.5mm width is available to contain the visually readable characters in the other half of the finished thread. Where the threads are formed by printing and coating onto rolls of polyester film, it will be seen that the latter is nominally 300mm wide, approximately 100 threads can be formed by slitting the 300mm wide film into adjacent 3mm widths. According to another aspect of the invention, apparatus for forming security threads comprises 1. means for supporting a roll of polyester film one, surface of which is flash coated with metal such as aluminium, 2. printing apparatus for negatively printing characters in lines equally spaced across width of the film, onto the metallised surface thereof, by coating the surface with a resist material except in the regions where characters are to appear in the finished product, 3. an etching bath containing a liquid chemical through which the film is passed so as to etch away the exposed metallisation, 4. a wash station through which the etched film is passed to remove surplus etching material, and if desired also the resist 7 material, 5. a drying station for evaporatively drying any liquid remaining on the film, 6. a printing apparatus for depositing the so called code blocks of magnetic material in lines parallel to the lines of etched characters and spaced therefrom, one line of code blocks being provided between each line of characters, 7. printing means for applying a coating of non-magnetic opaque material to the lines of magnetic code blocks to visually obscure the blocks, 8. lamination apparatus for laminating a second-polyester film to the first film with the etched characters and code blocks sandwiched between the two polyester films or coating apparatus for coating a lacquer or other plastics material onto the surface of the original film containing the characters and code block, so as to form a protective layer thereover, 9. slitting means for cutting the film into a large number of parallel equal width strips each containing a line of characters and a parallel line of magnetic code blocks, and 10. wind up means for separately receiving and winding up each of the threads formed by the slitting means. The material used for laminating or coating the original polyester film to form the protective layer thereon is preferably transparent so that the etched regions of the metallised film defining the characters can be seen therethrough. In order to better accommodate the thickness of the magnetic material, the basic polyester film may be indented using an indenting roller prior to the application of the magnetic 8 material and the application of the latter is controlled in strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material. If 12 micron film is employed and 6 micron indents are formed, and a magnetic material is printed onto the indents so as to be some 12 microns thick from the base of the indent, each magnetic region will extend approximately 6mm proud of the surface of the film. If a protective film of lacquer is applied and the composite film is squeezed so that the maximum thickness of lacquer and basic film is nominally 24 microns, there will be approximately 6 microns of lacquer above the surface of each magnetic region and 6 microns of polyester below each set magnetic region. If in preference, two layers of polyester film are laminated so as to form a composite thread, the second film is preferably similarly indented using an indenting roller in strict registration with the indents on the lower film and during lamination the indents in the second film are aligned with the magnetic regions on the lower polyester film so that the composite thread presents two parallel smooth polyester surfaces top and bottom and approximately 6 microns of polyester film exist above and below each magnetic region. In this way the overall thickness of the thread can be reduced to approximately 25 microns without any reduction in strength. The invention also lies in security thread material constructed in accordance with any of the aforementioned methods. The invention also lies in security paper containing security thread constructed in accordance with any of the aforementioned methods. In order to better accommodate the thickness of the magnetic material, the basic polyester film may be indented using an indenting roller prior to the application of the magnetic material and the application of the latter is controlled in 9 strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material. If 12 micron film is employed and 6 micron indents are formed, and a magnetic material is printed onto the indents so as to be some 12 microns thick from the base of the indent, each magnetic region will extend approximately 6mm proud of the surface of the film. If a prot€iCtive film of lacquer is applied and the composite film is squeezed so that the maximum thickness of lacquer and basic film is nominally 24 microns, there will be approximately 6 microns of lacquer above the surface of each magnetic region and 6 microns of polyester below each set magnetic region. If in preference, two layers of polyester film are laminated so as to form a composite thread, the second film-is preferably similarly indented using an indenting roller in strict registration with the indents on the lower film and during lamination the indents in the second film are aligned with the magnetic regions on the lower polyester film so that the composite thread presents two parallel smooth polyester surfaces top and bottom and approximately 6 microns of polyester film exist above and below each magnetic region. In this way the overall thickness of the thread can be reduced to approximately 25 microns without any reduction in strength. The invention also lies in bank notes containing security thread constructed in accordance with any of the aforementioned methods. In order to provide proper protection and good support strength, the basic plastics film needs to be somewhere in the range of 6 to 15 microns and the protective layer or second laminated film needs to be of a similar thickness. In order to be effective it has been found that some 12 to 13 microns of magnetic material must be deposited. Any lesser thickness of such material means that its magnetic properties are 10 insufficient for reliable magnetic reading. This means that the overall thickness of the thread tends to be governed by the thickness of the magnetic material as much as anything else, since it can account for 50% of the thickness of the overall sandwich if 6 micron thick film is employed above and below the magnetic material. In order to better accommodate the thickness of the magnetic material, the basic polyester film may be indented using an indenting roller prior to the application of the magnetic material and the application of the latter is controlled in strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material. If 12 micron film is employed and 6 micron indents are formed, and a magnetic material is printed onto the indents so as to be some 12 microns thick from the base cf the indent, each magnetic region will extend approximately 6mm proud of the surface of the film. If a protective film of lacquer is applied and the composite film is squeezed so that the maximum thickness of lacquer and basic film is nominally 24 microns, there will be approximately 6 microns of lacquer above the surface of each magnetic region and 6 microns of polyester below each set magnetic region. If in preference, two layers of polyester film are laminated so as to form a composite thread, the second film is preferably similarly indented using an indenting roller in strict registration with the indents on the lower film and during lamination the indents in the second film are aligned with the magnetic regions on the lower polyester film so that the composite thread presents two parallel smooth polyester surfaces top and bottom and approximately 6 microns of polyester film exist above and below each magnetic region. In this way the overall thickness of the thread can be reduced to approximately 25 microns without any reduction in strength. 11 The invention will now be described by way of example, with reference to the accompanying drawings, in which: Figure 1 is a schematic drawing of a printing and processing line for producing thread in accordance with one aspect of the invention; Figures 1A and IB illustrate two alternative ways of printing the magnetic patches; Figures 2 to 6 illustrate the different steps of the printing and processing method of Figure 1; Figure 7 shows in section the end product if the patches are printed so as to be proud of the substrate surface; and Figure 8 shows in section the end product if the patches are impressed into the substrate. In Figure 1 a roll of aluminised Mylar (Trade Mark) 10 supplies film 11 in the range 6-15 microns thick (typically 8 microns), to a printing press 12 for gravure printing of letters in negative, along the length of the film as at 14, 16, 18 in Figure 1A. The finished thread is only 3 mm wide, and to facilitate handling and speed-up production, 100 such threads are formed across a 300mm wide film of Nylon. The roll 10 is thus 300mm wide and will typically be some hundreds of metres long. For simplicity, all 100 spaced apart lines of letters such as 14, 16 18 are printed across the width of the film 11 simultaneously, by the printing stage 12. The printing stage 12 uses a resist ink, so that after passing through an etching bath 20, the aluminium is removed to form "stencil" letters such as A, B, C in Figure 1A. After washing in 2 2 and drying in 24, the aluminised film is again printed 12 in printing stage 26 so as to deposit in parallel to the lines of characters 14, 16, 18, lines of' "patches" such as 28, 30, 32 (see Figure 1A) of magnetic ink. The patches are printed onto the aluminium coated surface 3 4 of the film 11. The Mylar substrate is identified by reference numeral 36. Typically the aluminium flashing is a few hundred Angstroms thick, and in order to provide sufficient magnetic material in each patch, the latter are typically 12-13 microns thick and typically 2mm long by approximately 1mm wide. In the same way as the lines of letters, the 100 spaced apart lines of patches are also printed simultaneously across the width of the film 11. The black patches 28, 30, 32 etc are obscured by printing a continuous ribbon of silver or silver coloured ink 40 over each line of patches, by printing stage 42. A protective coating of plastics material is applied by a coater (or laminator) 44, so as to wholly encapsulate the printing between the Mylar substrate 36 and a film applied by the coater 44. The 300mm wide sheet is then slit lengthwise by a slitter 46, into 100 parallel threads, which can be wound up on separate bobbins, at 48. In order to reduce the overall thickness, and also produce a smooth upper surface, the printing of the patches 28 etc may be such as to impress the magnetic ink into the thickness of the Mylar substrate 16 (or the printing may be preceded by an embosser or indenter (not shown) which may be incorporated in the printer 26), and the magnetic ink may be applied so as to fill up the indents. This is shown in Figure IB - in which for clarity the indented regions which are to be filled with magnetic ink, are shown empty at 50, 52 and 54. Figure 2 shows a 3mm wide strip of Mylar 56 having a thin 13 flashed coating of Aluminium on the upper surface. In practice this 3mm strip would be part of a wider sheet (typically 300mm wide), and only after all the printing and processing would it be slit into the narrow 3mm widths shown in Figure 2 . After negative letter printing with resist, etching, washing and drying, a line of lettering such as ABC etc at 58, 60, appears along each 3mm strip the letters being formed by the etching away of the aluminium. Figure 4 shows the next step namely the addition of parallel lines of spaced apart patches of black magnetic ink one of which is shown at 62, 64, 66 etc, spaced from an adjacent line of letters 58, 60; and also from what will be the edge of the thread 68, after the sheet has been slit. Figure 5 shows how the black patches are obscured by printing along end line of patches a Silver or Silver coloured ink line 70. Figure 6 shov/s the application of a final protective coating of clear plastics material. This may be coated in liquid form or applied as a film and laminated under heat and pressure. This is designated by the left to right hatching 72 in Figure 6. Figure 7 shows the end product in cross-section where the magnetic ink patches have been applied to a flat aluminised Mylar surface, without sufficient pressure to cause the patches to become embedded in the thickness of the Mylar substrate. Figure 8 shows the more advantageous result if the magnetic ink occupies wells formed in the Mylar by embossing/indenting the Mylar before, or during, or after, printing in 26 in Figure 1. Here the upper surface of 7 2 is equally as flat as the underside 74 of the substrate 36. 14 WE CLAIM: 1. A method of manufacturing a composite security thread comprising the steps of:- a) coating a polyester film with metal film, typically aluminium; b) coaling selected regions of the film with magnetic material so as to produce spaced apart groups of regions along the length of the film which can be detected by a magnetic reading head, to generate electrical readings for decoding; c) in registry with selected groups of the magnetic material, printing characters which are to appear visible to the naked eye along a parallel region of the laminated film using a photo resist material so as to protect the aluminium layer in those regions in which the characters are to appear in the final thread; d) applying a chemical to the said parallel region to remove the metal coating except where protected by the resist material; c) coating the region containing the groups of spaced apart magnetic material with an obscuring layer; and f) coating the entire surface of the film containing the magnetic depositions and the visually readable characters with a transparent or semi-transparent material to provide a barrier to prevent chemical contamination and provide physical protection to the magnetic regions and the visually readable characters, to reduce the risk of damage to the film during the subsequent paper making and printing processes to winch the film is subjected. 15 2. A method according to claim 1 in which in place of step c) the aluminium is coated with resist except where the characters are to be formed, and the unprotected aluminium is removed by chemical treatment so that the letters are seen as transparent regions in the opaque reflective aluminium surface. 3. A method according to claim 1 or claim 2 in which the plastics film is a polyester film typically that marketed under the Trade Mark MYLAR. 4. A method according to any one preceding claim in which the resist is applied by a printing process such as flexo printing, rotagravure or silk screening. 5. A method according to any one preceding claim in which the lengthwise extent of the visually readable characters is similar to the lengthwise extent of each group of encoded spaced apart magnetic regions and registers laterally therewith, and the spacing and repetition of the magnetically deposited regions is chosen so that the dimension of each guillotined security document, (such as a bank note), will be such as to contain at least two complete lengths of magnetically readable regions. 6. A method according to any one preceding claim in which the final protective coating is a clear polyester, a semi-transparent polyester or a lacquer. 7. A method according to claim 6 in which the protective coating is applied by a simple coating or printing process or applied as a film of polyester or like material which is laminated to the first mentioned film with the printed and coated surface of the first film sandwiched between it and the protective film. 8. A method of manufacturing a security thread comprising the steps of:- a) coating a thin metal film onto a thin plastics film, typically aluminium onto a polyester film: b) coating the metallised surface with a resist material except in those regions 16 corresponding to regions which are to form visually readable characters; c) de-metallising the film by exposing it to a suitable chemical so as to remove the aluminium from those regions which are to form the visually readable characters; d) removing surplus chemical by washing; e) drying the film to remove all traces of chemical and wash; f) printing onto the aluminium surface, parallel to the lines of visually readable characters, discrete and separated regions of magnetic material, the said regions being arranged in groups to assist in decoding, and the positions of the said groups being selected so as to be in correct registration with the groups of visually readable characters, so that after guillotining a security document containing a length of thread will always include along the guillotined length of thread at least one complete group of visually readable characters and at least one complete group of magnetically readable regions; g) print coaling the film so as to obscure the magnetic material; and h) print coating or laminating a protective layer over the original plastics film so as to form a transparent protective coating thereover. 9. Apparalus for forming security threads comprising:- a) means for supporting a roll of polyester film one. surface of which is coaled with metal such as aluminium; b) printing apparatus for negatively printing characters in lines equally spaced across width of the film, onto the metallised surface thereof, by coating the 17 surface with a resist materia] except in the regions where characters are to appear in the finished product; c) an etching bath containing a liquid chemical through which the film is passed so as to etch away the exposed metallisation; d) a wash station through which the etched film is passed to remove surplus etching material, and if desired also the resist material; e) a drying station for evaporativcly drying any liquid remaining on the film; f) a printing apparatus for depositing the so called code blocks of magnetic material in lines parallel to the lines of etched characters and spaced therefrom, one line of code blocks being provided between each line of characters; g) printing means for applying a coating of non-magnetic opaque material to the lines of magnetic code blocks to visually obscure the blocks; h) lamination apparatus for laminating a second polyester film to the first film with the etched characters and code blocks sandwiched between the two polyester films or coating apparatus for coating a lacquer or other plastics material onto the surface of the original film containing the characters and code block, so as to form a protective layer thereover: i) slitting means for cutting the film into a large number of parallel equal width strips each containing a line of characters and a parallel line of magnetic code blocks; and j) wind up means for separately receiving and winding up each of the threads formed by the slitting means. 18 10. Apparatus according to claim 9 in which the first polyester film is indented using an indenting roller prior to the application of the magnetic material, and in which the application of the latter is controlled in strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material. 11. A security thread material constructed in accordance with the method as claimed in any one of claims 1 to 8. 12. Security paper containing security thread constructed in accordance with the method as claimed in any of claims 1 to 8. 13. Bank notes containing security thread constructed in accordance with the method as claimed in any one of claims 1 to 8. 14. A method of manufacturing a composite security thread, substantially as herein described, particularly with reference to,and as illustrated in the accompanying drawings. 15. Apparatus for forming security threads, substantially as herein described, particularly with reference to, and as illustrated in the accompanying drawings. A composite security thread, eg for a bank note, is produced by coating aluminium film onto a polyester film (11) and coating selected regions with magnetic material. Photo resist characters (14 to 18) are next printed on to the magnetic material, and a chemical applied to remove the aluminium coating except where protected by the resist. An obscuring silver coating (40) is then applied over the magnetic material, and a final transparent material applied as a barrier to reduce the risk of damage during subsequent processing.

Full Text

1A Field of invention
This invention relates to method and apparatus for manufacturing composite security thread,
and security thread/security paper constructed thereby, and
concerns the production of paper or other sheet
material for such security documents, and in particular the production of security thread such as described in UK Patent Specification 2227451, which is inserted into such paper/sheet material.
Background to the Invention
The insertion of a security thread into security document paper such as that used for printing bank notes is known. Such threads are typically in the form of elongate strip typically formed from a plastics film, one surface which is itself coated with a thin metallic film, and sandwiched between the metal film and the plastics film are regions of magnetic material which are spaced apart and are of such a length (measured in the length direction of the thread), that when moved relative to a suitable electromagnetic reading head, can induce electrical signals having characteristics which can be de-coded to determine the pattern of magnetic material in the security thread.
It has also been proposed to incorporate symbols letters numerals or other visually decipherable or machine readable data along the length of the thread and to arrange that this visually and/or machine readable material can be identified at least on one side of the thread and can be inspected (visually or by machine reading) when the thread is incorporated in a security document or bank note.
In particular the readable data may comprise a short description of the document within which the thread is

2
incorporated and in the case of a bank note may be the currency and denomination of the note.
Security threads are described in European Patent Specifications 0400902, 0426801, 0498186, 0659587 and 0613786.
It is an object of the present invention to supply method and apparatus for producing a preferred form of a composite security thread ie. one having a metallic film for electrical continuity, magnetic encoding to allow the thread to be read using a magnetic reader, and bearing visible data or markings which can be seen by the naked eye.
Summary of the Invention
According to one aspect of the present invention a method of manufacturing a composite security thread as aforesaid comprises the steps of:-
1. flash coating a polyester film with metal film, typically
aluminium,
2. coating selected regions of the film with magnetic material
so as to produce spaced apart groups of regions along the
length of the film which can be detected by a magnetic reading
head, to generate electrical readings for decoding,
3. in registry with selected groups of the magnetic material, printing characters which are to appear visible to the naked eye along a parallel region of the laminated film using a photo resistant material so as to protect the aluminium layer in those regions in which the characters are to appear in the final thread,
4. applying a chemical to the said parallel region to remove the aluminium flashing except where protected by the resist,

3
5. coating the region containing the groups of spaced apart
magnetic material with an obscuring layer typically of silver,
6. coating the entire surface of the film containing the
magnetic depositions and the visually readable characters with
a transparent or semi-transparent material to provide a barrier
to prevent chemical contamination and provide physical
protection to the magnetic regions and the visually readable
characters, to reduce the risk of damage to the film during the
subsequent paper making and printing processes to which the
film is subjected.
In an alternative arrangement the aluminium is coated with resist except where the characters are to be formed, and the unprotected aluminium is removed by chemical treatment so that the letters are seen as transparent regions in the opaque reflective aluminium surface.
The plastics film may be a polyester film typically that marketed under the Trade Mark MYLAR.
The resist is preferably, applied by a printing process such as flexo printing, rotagravure or silk screening.
Registration between lines of magnetically readable regions and visually readable characters is important for two reasons. On the one hand the resulting security thread is typically of the order of 3mm wide and it is important that the spaced apart magnetic regions occupy only that part of the width of the thread allocated to the magnetic readable material, and the visually readable characters only occupy the remaining part of the width of the thread. Additionally however it is desirable that at least one complete set of spaced apart magnetic regions is contained along the length of each region of the thread which will extend across a security document such as a bank note, after the latter has been guillotined from a larger sheet, and it may also be desirable that at least one complete

4
set of visually readable characters making up a message or notification will also appear in each said length of security thread as it extends across the guillotined document.
If this last feature is to be attained, it is important that the magnetically readable regions register in a lengthwise sense with the visually readable characters, and that the length and frequency of repetition of both, along the length of the thread, is such that at least a complete set of visually readable characters and at least a complete set of magnetically readable region will be guaranteed to exist within the dimension of the document across which the thread extends after guillotining.
One method of achieving this is to ensure that the lengthwise extent of the visually readable characters is preferably similar to the lengthwise extent of each group of encoded spaced apart magnetic regions and registers laterally therewith, and the spacing and repetition of the magnetically deposited regions is chosen so that the dimension of each guillotined security document, (such as a bank note), will be such as to contain at least two complete lengths of magnetically readable regions. In this way, however the regions register with the guillotining, there will always be at least one complete set of spaced magnetic regions along the length of the thread which extends across each guillotined document, and therefore likewise at least one complete set of visually readable characters.
The protective coating may be a clear polyester, a semi-transparent polyester or a lacquer.
The protective covering may be applied by a simple coating or printing process or may be applied as a film of polyester or like material which is laminated to the first mentioned film with the printed and coated surface of the first film sandwiched between it and the protective film.

5
According to another aspect of the invention, a method of manufacturing a security thread as aforesaid comprises
1. flash coating a thin metal film onto a thin plastics film,
typically aluminium onto a polyester film,
2. coating the metallised surface with a resist material except in those regions corresponding to regions which are to form visually readable characters,
3. de-metallising the film by exposing it to a suitable chemical so as to remove the aluminium from those regions which are to form the visually readable characters,

4. removing surplus chemical by washing,
5. drying the film to remove all traces of chemical and wash,
6. printing onto the aluminium surface, parallel to the lines of visually readable characters, discrete and separated regions of magnetic material, the said regions being arranged in groups to assist in decoding, and the positions of the said groups being selected so as to be in correct registration with the groups of visually readable characters so that after guillotining, a security document containing a length of thread will always include along the guillotined length of thread at least one complete group of visually readable characters and at least one complete group of magnetically readable regions,
7. print coating the film so as to obscure the magnetic
material, and
8. print coating or laminating a protective layer over the
original plastics film so as to form a transparent protective
coating thereover.
Whichever method is used, the original or primary plastics film

6
is typically of MYLAR, in the range 6-15 microns thick. The flashed metal coating typically has a thickness of a few hundred Angstroms and the magnetic material is applied as rectangular patches approximately 12 microns thick and typically 2mm in length (ie parallel to the length direction of the thread) and having a width (perpendicularly the length direction of the thread) in the range 0.75 to 1.5 mm.
A finished thread is typically of the order of 3mm wide and since the magnetic regions can occupy up to 1.5mm from one edge of the finished thread, a region of approximately 1.5mm width is available to contain the visually readable characters in the other half of the finished thread.
Where the threads are formed by printing and coating onto rolls of polyester film, it will be seen that the latter is nominally 300mm wide, approximately 100 threads can be formed by slitting the 300mm wide film into adjacent 3mm widths.
According to another aspect of the invention, apparatus for forming security threads comprises
1. means for supporting a roll of polyester film one, surface
of which is flash coated with metal such as aluminium,
2. printing apparatus for negatively printing characters in
lines equally spaced across width of the film, onto the
metallised surface thereof, by coating the surface with a
resist material except in the regions where characters are to
appear in the finished product,
3. an etching bath containing a liquid chemical through which the film is passed so as to etch away the exposed metallisation,
4. a wash station through which the etched film is passed to remove surplus etching material, and if desired also the resist

7 material,
5. a drying station for evaporatively drying any liquid
remaining on the film,
6. a printing apparatus for depositing the so called code blocks of magnetic material in lines parallel to the lines of etched characters and spaced therefrom, one line of code blocks being provided between each line of characters,
7. printing means for applying a coating of non-magnetic opaque material to the lines of magnetic code blocks to visually obscure the blocks,

8. lamination apparatus for laminating a second-polyester film to the first film with the etched characters and code blocks sandwiched between the two polyester films or coating apparatus for coating a lacquer or other plastics material onto the surface of the original film containing the characters and code block, so as to form a protective layer thereover,
9. slitting means for cutting the film into a large number of parallel equal width strips each containing a line of characters and a parallel line of magnetic code blocks, and
10. wind up means for separately receiving and winding up each
of the threads formed by the slitting means.
The material used for laminating or coating the original polyester film to form the protective layer thereon is preferably transparent so that the etched regions of the metallised film defining the characters can be seen therethrough.
In order to better accommodate the thickness of the magnetic material, the basic polyester film may be indented using an indenting roller prior to the application of the magnetic

8
material and the application of the latter is controlled in strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material. If 12 micron film is employed and 6 micron indents are formed, and a magnetic material is printed onto the indents so as to be some 12 microns thick from the base of the indent, each magnetic region will extend approximately 6mm proud of the surface of the film. If a protective film of lacquer is applied and the composite film is squeezed so that the maximum thickness of lacquer and basic film is nominally 24 microns, there will be approximately 6 microns of lacquer above the surface of each magnetic region and 6 microns of polyester below each set magnetic region.
If in preference, two layers of polyester film are laminated so as to form a composite thread, the second film is preferably similarly indented using an indenting roller in strict registration with the indents on the lower film and during lamination the indents in the second film are aligned with the magnetic regions on the lower polyester film so that the composite thread presents two parallel smooth polyester surfaces top and bottom and approximately 6 microns of polyester film exist above and below each magnetic region.
In this way the overall thickness of the thread can be reduced to approximately 25 microns without any reduction in strength.
The invention also lies in security thread material constructed in accordance with any of the aforementioned methods.
The invention also lies in security paper containing security
thread constructed in accordance with any of the aforementioned
methods.
In order to better accommodate the thickness of the magnetic
material, the basic polyester film may be indented using an
indenting roller prior to the application of the magnetic
material and the application of the latter is controlled in

9
strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material. If 12 micron film is employed and 6 micron indents are formed, and a magnetic material is printed onto the indents so as to be some 12 microns thick from the base of the indent, each magnetic region will extend approximately 6mm proud of the surface of the film. If a prot€iCtive film of lacquer is applied and the composite film is squeezed so that the maximum thickness of lacquer and basic film is nominally 24 microns, there will be approximately 6 microns of lacquer above the surface of each magnetic region and 6 microns of polyester below each set magnetic region.
If in preference, two layers of polyester film are laminated so as to form a composite thread, the second film-is preferably similarly indented using an indenting roller in strict registration with the indents on the lower film and during lamination the indents in the second film are aligned with the magnetic regions on the lower polyester film so that the composite thread presents two parallel smooth polyester surfaces top and bottom and approximately 6 microns of polyester film exist above and below each magnetic region.
In this way the overall thickness of the thread can be reduced to approximately 25 microns without any reduction in strength.
The invention also lies in bank notes containing security thread constructed in accordance with any of the aforementioned methods.
In order to provide proper protection and good support strength, the basic plastics film needs to be somewhere in the range of 6 to 15 microns and the protective layer or second laminated film needs to be of a similar thickness. In order to be effective it has been found that some 12 to 13 microns of magnetic material must be deposited. Any lesser thickness of such material means that its magnetic properties are

10 insufficient for reliable magnetic reading.
This means that the overall thickness of the thread tends to be governed by the thickness of the magnetic material as much as anything else, since it can account for 50% of the thickness of the overall sandwich if 6 micron thick film is employed above and below the magnetic material.
In order to better accommodate the thickness of the magnetic material, the basic polyester film may be indented using an indenting roller prior to the application of the magnetic material and the application of the latter is controlled in strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material. If 12 micron film is employed and 6 micron indents are formed, and a magnetic material is printed onto the indents so as to be some 12 microns thick from the base cf the indent, each magnetic region will extend approximately 6mm proud of the surface of the film. If a protective film of lacquer is applied and the composite film is squeezed so that the maximum thickness of lacquer and basic film is nominally 24 microns, there will be approximately 6 microns of lacquer above the surface of each magnetic region and 6 microns of polyester below each set magnetic region.
If in preference, two layers of polyester film are laminated so as to form a composite thread, the second film is preferably similarly indented using an indenting roller in strict registration with the indents on the lower film and during lamination the indents in the second film are aligned with the magnetic regions on the lower polyester film so that the composite thread presents two parallel smooth polyester surfaces top and bottom and approximately 6 microns of polyester film exist above and below each magnetic region.
In this way the overall thickness of the thread can be reduced to approximately 25 microns without any reduction in strength.

11
The invention will now be described by way of example, with reference to the accompanying drawings, in which:
Figure 1 is a schematic drawing of a printing and processing line for producing thread in accordance with one aspect of the invention;
Figures 1A and IB illustrate two alternative ways of printing the magnetic patches;
Figures 2 to 6 illustrate the different steps of the printing and processing method of Figure 1;
Figure 7 shows in section the end product if the patches are printed so as to be proud of the substrate surface; and
Figure 8 shows in section the end product if the patches are impressed into the substrate.
In Figure 1 a roll of aluminised Mylar (Trade Mark) 10 supplies film 11 in the range 6-15 microns thick (typically 8 microns), to a printing press 12 for gravure printing of letters in negative, along the length of the film as at 14, 16, 18 in Figure 1A.
The finished thread is only 3 mm wide, and to facilitate handling and speed-up production, 100 such threads are formed across a 300mm wide film of Nylon. The roll 10 is thus 300mm wide and will typically be some hundreds of metres long. For simplicity, all 100 spaced apart lines of letters such as 14, 16 18 are printed across the width of the film 11 simultaneously, by the printing stage 12.
The printing stage 12 uses a resist ink, so that after passing through an etching bath 20, the aluminium is removed to form "stencil" letters such as A, B, C in Figure 1A. After washing in 2 2 and drying in 24, the aluminised film is again printed

12
in printing stage 26 so as to deposit in parallel to the lines of characters 14, 16, 18, lines of' "patches" such as 28, 30, 32 (see Figure 1A) of magnetic ink.
The patches are printed onto the aluminium coated surface 3 4 of the film 11. The Mylar substrate is identified by reference numeral 36. Typically the aluminium flashing is a few hundred Angstroms thick, and in order to provide sufficient magnetic material in each patch, the latter are typically 12-13 microns thick and typically 2mm long by approximately 1mm wide.
In the same way as the lines of letters, the 100 spaced apart lines of patches are also printed simultaneously across the width of the film 11.
The black patches 28, 30, 32 etc are obscured by printing a continuous ribbon of silver or silver coloured ink 40 over each line of patches, by printing stage 42.
A protective coating of plastics material is applied by a coater (or laminator) 44, so as to wholly encapsulate the printing between the Mylar substrate 36 and a film applied by the coater 44. The 300mm wide sheet is then slit lengthwise by a slitter 46, into 100 parallel threads, which can be wound up on separate bobbins, at 48.
In order to reduce the overall thickness, and also produce a smooth upper surface, the printing of the patches 28 etc may be such as to impress the magnetic ink into the thickness of the Mylar substrate 16 (or the printing may be preceded by an embosser or indenter (not shown) which may be incorporated in the printer 26), and the magnetic ink may be applied so as to fill up the indents. This is shown in Figure IB - in which for clarity the indented regions which are to be filled with magnetic ink, are shown empty at 50, 52 and 54.
Figure 2 shows a 3mm wide strip of Mylar 56 having a thin

13
flashed coating of Aluminium on the upper surface. In practice this 3mm strip would be part of a wider sheet (typically 300mm wide), and only after all the printing and processing would it be slit into the narrow 3mm widths shown in Figure 2 .
After negative letter printing with resist, etching, washing and drying, a line of lettering such as ABC etc at 58, 60, appears along each 3mm strip the letters being formed by the etching away of the aluminium.
Figure 4 shows the next step namely the addition of parallel lines of spaced apart patches of black magnetic ink one of which is shown at 62, 64, 66 etc, spaced from an adjacent line of letters 58, 60; and also from what will be the edge of the thread 68, after the sheet has been slit.
Figure 5 shows how the black patches are obscured by printing along end line of patches a Silver or Silver coloured ink line 70.
Figure 6 shov/s the application of a final protective coating of clear plastics material. This may be coated in liquid form or applied as a film and laminated under heat and pressure. This is designated by the left to right hatching 72 in Figure 6.
Figure 7 shows the end product in cross-section where the magnetic ink patches have been applied to a flat aluminised Mylar surface, without sufficient pressure to cause the patches to become embedded in the thickness of the Mylar substrate.
Figure 8 shows the more advantageous result if the magnetic ink occupies wells formed in the Mylar by embossing/indenting the Mylar before, or during, or after, printing in 26 in Figure 1. Here the upper surface of 7 2 is equally as flat as the underside 74 of the substrate 36.

14 WE CLAIM:
1. A method of manufacturing a composite security thread comprising the steps of:-
a) coating a polyester film with metal film, typically aluminium;
b) coaling selected regions of the film with magnetic material so as to produce spaced apart groups of regions along the length of the film which can be detected by a magnetic reading head, to generate electrical readings for decoding;
c) in registry with selected groups of the magnetic material, printing characters which are to appear visible to the naked eye along a parallel region of the laminated film using a photo resist material so as to protect the aluminium layer in those regions in which the characters are to appear in the final thread;
d) applying a chemical to the said parallel region to remove the metal coating except where protected by the resist material;
c) coating the region containing the groups of spaced apart magnetic material
with an obscuring layer; and
f) coating the entire surface of the film containing the magnetic depositions
and the visually readable characters with a transparent or semi-transparent material to provide a barrier to prevent chemical contamination and provide physical protection to the magnetic regions and the visually readable characters, to reduce the risk of damage to the film during the subsequent paper making and printing processes to winch the film is subjected.

15
2. A method according to claim 1 in which in place of step c) the aluminium is coated
with resist except where the characters are to be formed, and the unprotected aluminium
is removed by chemical treatment so that the letters are seen as transparent regions in the
opaque reflective aluminium surface.
3. A method according to claim 1 or claim 2 in which the plastics film is a polyester film typically that marketed under the Trade Mark MYLAR.
4. A method according to any one preceding claim in which the resist is applied by a printing process such as flexo printing, rotagravure or silk screening.
5. A method according to any one preceding claim in which the lengthwise extent of the visually readable characters is similar to the lengthwise extent of each group of encoded spaced apart magnetic regions and registers laterally therewith, and the spacing and repetition of the magnetically deposited regions is chosen so that the dimension of each guillotined security document, (such as a bank note), will be such as to contain at least two complete lengths of magnetically readable regions.
6. A method according to any one preceding claim in which the final protective coating is a clear polyester, a semi-transparent polyester or a lacquer.
7. A method according to claim 6 in which the protective coating is applied by a simple coating or printing process or applied as a film of polyester or like material which is laminated to the first mentioned film with the printed and coated surface of the first film sandwiched between it and the protective film.
8. A method of manufacturing a security thread comprising the steps of:-

a) coating a thin metal film onto a thin plastics film, typically aluminium onto a polyester film:
b) coating the metallised surface with a resist material except in those regions

16 corresponding to regions which are to form visually readable characters;
c) de-metallising the film by exposing it to a suitable chemical so as to remove the aluminium from those regions which are to form the visually readable characters;
d) removing surplus chemical by washing;
e) drying the film to remove all traces of chemical and wash;
f) printing onto the aluminium surface, parallel to the lines of visually readable characters, discrete and separated regions of magnetic material, the said regions being arranged in groups to assist in decoding, and the positions of the said groups being selected so as to be in correct registration with the groups of visually readable characters, so that after guillotining a security document containing a length of thread will always include along the guillotined length of thread at least one complete group of visually readable characters and at least one complete group of magnetically readable regions;
g) print coaling the film so as to obscure the magnetic material; and
h) print coating or laminating a protective layer over the original plastics film
so as to form a transparent protective coating thereover.
9. Apparalus for forming security threads comprising:-
a) means for supporting a roll of polyester film one. surface of which is coaled with metal such as aluminium;
b) printing apparatus for negatively printing characters in lines equally spaced across width of the film, onto the metallised surface thereof, by coating the

17
surface with a resist materia] except in the regions where characters are to appear in the finished product;
c) an etching bath containing a liquid chemical through which the film is passed so as to etch away the exposed metallisation;
d) a wash station through which the etched film is passed to remove surplus etching material, and if desired also the resist material;
e) a drying station for evaporativcly drying any liquid remaining on the film;
f) a printing apparatus for depositing the so called code blocks of magnetic material in lines parallel to the lines of etched characters and spaced therefrom, one line of code blocks being provided between each line of characters;
g) printing means for applying a coating of non-magnetic opaque material to the lines of magnetic code blocks to visually obscure the blocks;
h) lamination apparatus for laminating a second polyester film to the first film
with the etched characters and code blocks sandwiched between the two polyester films or coating apparatus for coating a lacquer or other plastics material onto the surface of the original film containing the characters and code block, so as to form a protective layer thereover:
i) slitting means for cutting the film into a large number of parallel equal
width strips each containing a line of characters and a parallel line of magnetic code blocks; and
j) wind up means for separately receiving and winding up each of the threads
formed by the slitting means.

18
10. Apparatus according to claim 9 in which the first polyester film is indented using an indenting roller prior to the application of the magnetic material, and in which the application of the latter is controlled in strict registry with the indentations so that the magnetic material is applied to the indentations rather than the surrounding surface of the material.
11. A security thread material constructed in accordance with the method as claimed in
any one of claims 1 to 8.
12. Security paper containing security thread constructed in accordance with the method as claimed in any of claims 1 to 8.
13. Bank notes containing security thread constructed in accordance with the method as claimed in any one of claims 1 to 8.

14. A method of manufacturing a composite security thread, substantially as herein described, particularly with reference to,and as illustrated in the accompanying drawings.
15. Apparatus for forming security threads, substantially as herein described, particularly with reference to, and as illustrated in the accompanying drawings.
A composite security thread, eg for a bank note, is produced by coating aluminium film onto a polyester film (11) and coating selected regions with magnetic material. Photo resist characters (14 to 18) are next printed on to the magnetic material, and a chemical applied to remove the aluminium coating except where protected by the resist. An obscuring silver coating (40) is then applied over the magnetic material, and a final transparent material applied as a barrier to reduce the risk of damage during subsequent processing.

Documents:

02088-cal-1997-abstract.pdf

02088-cal-1997-claims.pdf

02088-cal-1997-correspondence.pdf

02088-cal-1997-description(complete).pdf

02088-cal-1997-drawings.pdf

02088-cal-1997-form-1.pdf

02088-cal-1997-form-2.pdf

02088-cal-1997-form-3.pdf

02088-cal-1997-form-5.pdf

02088-cal-1997-letters patent.pdf

02088-cal-1997-p.a.pdf

02088-cal-1997-priority document.pdf

2088-CAL-1997-CORRESPONDENCE.pdf

2088-CAL-1997-FORM 27.pdf

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Patent Number

201122

Indian Patent Application Number

2088/CAL/1997

PG Journal Number

N/A

Publication Date

26-Jan-2007

Grant Date

25-Jan-2007

Date of Filing

05-Nov-1997

Name of Patentee

THE GOVENOR & COMPANY OF THE BANK OF ENGLAND

Applicant Address

THREADNEEDLE STREET,LONDON EC2R 8AH,

Inventors:

#	Inventor's Name	Inventor's Address
1	BRAIN CHOLEY	17 WETBURY LAND,BUCKHURST HALL,ESSEX IG9 5NF,

PCT International Classification Number

D02G 3/00

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	9623202.0	1996-11-07	U.K.