OBJECT OF THE INVENTION
[0001] The object of the present invention refers to a security or special paper that incorporates
high resistance synthetic elements (fibres, microspheres,...), Another object of the
invention refers to a security or special document manufactured with the above-mentioned
security or special paper.The invention also refers to a procedure for manufacturing
the above-mentioned security paper or special paper incorporating high resistance
synthetic elements.
[0002] These synthetic elements incorporated in the security paper or special paper are
usually provided different qualities such as been fluorescent, phosphorescent, luminescent,
with magnetic characteristics, etc, characteristics that are visible to the naked
eye all that can be observed under certain conditions, such as under ultraviolet light,
magnetic sensors, etc
[0003] The synthetic elements incorporated by the security paper or special paper proposed
by the invention provide that such characteristics conferred to these elements are
embedded within them, such that the loss of properties inherent to these elements
becomes more difficult as time goes by, resisting the harsh conditions that security
and special documents are subject to, such as bank notes or the like.
BACKGROUND OF THE INVENTION
[0004] The use of security documents incorporating fluorescent fibres and other synthetic
elements with different verification and detection responses that are introduced during
the paper manufacturing process such that some elements are embedded within the paper
as it is formed is known in the state of the art.
[0005] These elements, in the case of the fibre is, for example, are generally manufactured
in viscous or polyamide, substances that are related to water since they have hydrogen
free radicals. These are, therefore, substances that can be easily integrated in water
dispersions, which are the base of the paper manufacturing process, since the fibres
the paper is made of are introduced in the paper manufacturing machine as an aqueous
dispersion that will form the sheet of paper as the water is extracted.
[0006] The fibre manufacturing procedure is generally performed by obtaining extremely fine
filaments in an extrusion line that are cut to a certain length.
[0007] Certain pigments are added to this type of elements to confer them the desired characteristics
of fluorescence, phosphorescence, luminescence, magnetism etc, these pigments being
applied after manufacturing said fibres, such said fibres are superficially impregnated.
[0008] The pigments usually used can basically be of two types, inorganic-based pigments
are the main characteristic of which is offering good resistance to preserve the fluorescent,
phosphorescent, luminescent, magnetic, and other properties, although in contrast
they offer deficient response intensity.
[0009] The second type of pigments that can be used organic-based pigments and have bad
resistance, the effects lasting little, but however, offering good response intensity.
[0010] The synthetic element impregnation procedure provides introducing these inside pressure
tanks, until they are totally dyed by the pigments.
[0011] These elements, in order to be incorporated into the paper manufacturing process,
are prepared in the form of a water suspension provided to the paper manufacturing
process, thus being embedded inside the paper at different depths that are randomly
arranged.
[0012] It has been demonstrated that superficially arranged pigments lose their features
prematurely since light deteriorates their properties very easily, since there are
only protected by the possible fibres in the paper. Moreover, since these pigments
remain on the surface they can easily deteriorate by friction or the use given to
the security paper they are on.
[0013] It has thus been demonstrated that security papers integrating elements with fluorescence,
phosphorescence, luminescence, and other features lose such qualities with use, making
these authentication and recognition measures practically useless for such security
documents.
[0014] The U.S patent
US-3880706 discloses a security paper containing fused thermoplastic material.
DESCRIPTION OF THE INVENTION
[0015] The invention is defined in the attached independent claims 1 and 5.
[0016] It is the object of the invention to obtain a security paper or special paper which,
based on the previously mentioned technology, internally incorporates synthetic elements
that are provided with pigments, either fluorescent, phosphorescent, luminescent,
magnetic, etc., that confer them security features, that such pigments are highly
resistant to the detachment of their own synthetic elements and that they can be easily
integrated in the manufacturing process of a security paper or special paper used
to manufacture security documents or special documents such as banknotes, bills of
exchange, security labels, etc.
[0017] Another object of the invention refers to a security or special document manufactured
by printing on a security paper or special paper such as described in claim 1 and
manufactured by a procedure such as described in claims 5 to 6.
[0018] It is also a non-claimed object of the invention to achieve the security or special
document, either a banknote, bill of exchange, security label, etc that has as a substrate
this security paper or special paper integrating synthetic elements with the qualities
of being highly resistant to wear factors of the document itself without their characteristics
being altered.
[0019] Also the object of the invention is an improved procedure for incorporating said
synthetic elements in the paper forming process, preventing their caking and therefore
favouring their dispersion and integration in the paper pulp.
[0020] In order to carry out the object of the invention we propose using synthetic elements
with the pigments or products to be conferred singular characteristics, inside the
material of the element itself. The material of the element itself will protect said
pigment or product provided to the fibre and conferring it the appropriate security
characteristics.
[0021] The pigment introduced in the paste for forming the synthetic element will be protected
by the material of the element itself, preventing wear by friction and being protected
from attacks from physical and chemical agents that the security document may suffer
and from light, so that the features incorporated in the pigments are kept unchanged
with time.
[0022] The material of these synthetic elements that allows integrating the pigments in
the pulp without their deterioration in is not viscous or polyamide but polypropylene,
and has the difficulty of being a material without hydrogen free radicals and is therefore
a product that is not related to the water surrounding it, that is, it is not impregnated
in the water of the aqueous solution it is in, producing caking of the synthetic elements
and therefore not providing a homogeneous dispersion thereof in the water.
[0023] An aqueous solution has been achieved in which the synthetic elements are dispersed
without caking, with the addition of dispersing and/or penetrating and/or antifoaming
agents in the appropriate proportion. This allows them to be incorporated in the aqueous
paper forming solution, achieving the homogenous dispersion of such synthetic elements
inside the pulp of the paper that is being formed, preventing the caking of the synthetic
elements.
[0024] This homogeneous incorporation of the synthetic elements in the paper forming pulp
alarms though to be distributed inside the paper, which is compared to the effect
is achieved with the viscous or polyamide fibres but with a material that does not
present affinity towards water.
[0025] A procedure for incorporating the synthetic elements with this material is to achieve
a dispersion of water and synthetic elements that is continuously stirred. Dispersing
agents and/or penetrating agents and/or antifoaming agents are added to this dispersion
in appropriate proportions, thus preventing the caking of the synthetic elements.
The dispersion is prepared in several loading and homogenising deposits prior to it
being pumped to the paper production circuit in the machine.
[0026] Incorporation of these synthetic elements can be performed randomly in the entire
pulp of the paper being formed or it can be performed in a localised manner at specific
points of the paper pulp, thus obtaining longitudinal strips of synthetic elements
located at different levels on the thickness of the paper with such elements, which
increases the degree of security of the final document thus obtained.
DESCRIPTION OF THE DRAWINGS
[0027] In order to complete the description being made and to aid towards a better comprehension
of the features of the invention, according to our preferred practical embodiment
thereof, we incorporate as an integral part of said description a set of drawings
that are illustrative and not limiting in nature, and represent the following:
Figure 1 shows an enlarged section of paper incorporating this type of synthetic elements
in its pulp, such as that shown in the invention.
Figure 2 equally represents an enlarged section of the paper incorporating the synthetic
elements of the invention in strips.
Figure 3 represents a schematic diagram of the tanks for preparing the aqueous solution
of synthetic elements before being introduced in the paper manufacturing machine.
DETAILED DESCRIPTION OF THE DRAWINGS
[0028] Figure 1 shows an embodiment of a security paper or special paper (3) with the synthetic
elements integrated in its pulp, in this case in the shape of fibres (1) of the invention,
in the same manner as in a traditional embodiment of the state-of-the-art, achieving
that, despite these fibres being made in polypropylene, which does not present affinity
towards water, such fibres are not caked or superficially retained on the paper itself,
but randomly distributed inside the paper formed.
[0029] Figure 2 is a variant of the embodiment of a security paper or special paper (3)
wherein the synthetic elements of the invention, in this case again in the form of
fibres (1), can be integrated in strips (4) by means of controlled insertion techniques
for inserting such fibres inside the paper during their manufacture, controlling the
depth at which said fibre strips are introduced, so that they remained superficially
or embedded inside the paper thus formed.
[0030] Figure 3 represents a schematic diagram for the procedure of preparing an aqueous
solution of the synthetic elements, wherein these are initially conditioned inside
an aqueous dispersion in a tank (5), wherein an amount of dispersing and/or penetrating
and/or antifoaming agents is conditioned in an adequate amount, as well as the synthetic
elements and the aqueous base for the suspension thereof, said suspension being stirred.
[0031] The dispersion thus prepared then goes through a homogenising step (6) and is then
dosed by means of appropriate pumps (7) towards the entry in the paper manufacturing
machine (8) for said synthetic elements to be integrated en masse or in a controlled
manner.
PRACTICAL EMBODIMENT OF THE INVENTION
[0032] Examples of dispersing products would be POLISAL ® by BASF or AMP-90 ® by ANGUS.
POLISAL ® is an aqueous solution of a yellowish sodium polyacrylate with an approximate
density of 1.3 gr/cm3, which is a very active product for dispersion and refinement
of the pigments used in the paper industry, especially for coating pigments.
[0033] The dispersing agent AMP-90 ® is an aqueous solution of 2-amino-2-methyl-1-propanol.
This disposing agent is colourless, with a relatively low viscosity and remains liquid
at pretty low temperatures, such as -37°C, which allows easy and adequate handling
in industrial plants. This product is a very efficient dispersing agent for pigments
in plastic paints and, as a fatty acid salt, emulsifier in non-mixing water-liquid
systems. It also provides pH stability, low odour and anticorrosive properties, and
would even increase the acceptance of universal colorants. This product's density
is of 0.949 gr/cm3 at 25°C.
[0034] As a penetrating product we can mention NOPCOWET LO ®, which is a synergic mixture
of surface-active humectants and detergents such as Alkyl phosphate and potassium
salt, which in the alkaline bleaching process facilitate the uniform impregnation
of bleach in the entire pulp to be treated, facilitating the elimination of waxy compounds
coating the fibres. Due to its detergent effect it carries away the dirt on the fibres
[0035] As an antifoaming product we can mention AFRANIL MG ® by BASF, which is a mixture
of aliphatic hydroxide compounds in an aqueous emulsion. It has a density of approximately
0.960 gr/cm3 and a pH of approximately 9. This product has a good deaeration effect
for the mixtures it is inserted into, with the advantage that water-repellent impurities
do not accumulate, that is, it has a dispersing effect.
[0036] Security paper manufacturing tests have been performed, in which the synthetic elements
of the invention have been inserted en masse in the form of fibres with a fluorescent
feature, comparing it with the security paper with viscous or polyamide fibres as
performed in the known state of the art. These security papers have been subjected
to several tests in order to verify the stability of the fluorescence characteristics
of the fibres with spectacular results. These tests are basically of three types:
the first are subjecting these security papers to acids, the second subjecting them
to the action of detergents and the third subjecting them to extreme heat and light
situations.
[0037] As an example we enclose a comparative table of fibres with fluorescent response.
TEST PERFORMED WITH FLUORESCENT FIBRES
[0038] The results are clearly in favour of the paper of invention.
|
% OF FLUORESCENCE REMAINING |
|
Security paper according to the state of the art |
Security paper of the invention |
Acetic acid |
45-93 |
79-100 |
Hydrochloric acid |
7-92 |
94-100 |
Sulphuric acid |
11-100 |
96-100 |
Soapy solution at 95° |
7-87 |
95-100 |
Synthetic sweat |
94 |
94-100 |
Heat |
82-90 |
85-100 |
Light |
3-25 |
25-96 |
[0039] The differences may vary according to pigment colour or the type of response expected
but always with an improvement upon the current state of the art.
1. A security paper or special paper (3) incorporating synthetic elements, wherein the
synthetic elements are visible to the naked eye or under ultraviolet light or detectable
by magnetic sensors suitable for detecting said synthetic elements, characterised in that the synthetic elements are made of polypropylene, and wherein security pigments are
included in a paste of the synthetic elements itself, so that the security pigments
confer the synthetic elements security features, and so that the synthetic elements
protect the pigments from attack of physical and chemical agents and from damaging
effects, the pigments having therefore long continuance in time, and wherein the security
pigments are either fluorescent, phosphorescent, luminescent or magnetic.
2. A paper incorporating synthetic elements according to claim 1 wherein the synthetic
elements are incorporated randomly in the entire paper.
3. A paper incorporating synthetic elements according to claim 1 wherein the synthetic
elements have been incorporated in the paper pulp in a localized manner at specific
zones of the paper pulp as to form longitudinal strips.
4. A paper incorporating synthetic elements according to claim 1 wherein the synthetic
elements have the shape of fibers (1).
5. A procedure for manufacturing a security paper or special paper incorporating high
resistance synthetic elements provided with characteristics that are visible to the
naked eye or by ultraviolet light or detectable by magnetic sensors suitable for detecting
said synthetic elements defined in claim 1, characterised in that the synthetic elements are made of polypropylene and are prepared prior to their
introduction in the paper manufacturing procedure by means of an aqueous dispersion
thereof in the presence of dispersing and/or penetrating and/or antifoaming agents,
and wherein security pigments are introduced in a paste of the synthetic elements
itself, so that the synthetic elements protect the pigments.
6. A procedure for manufacturing security paper or special paper according to claim 5,
characterised in that the dispersion of synthetic elements is incorporated homogenously in the paper pulp
during its formation process.
7. A procedure for manufacturing security paper or special paper according to claim 5,
characterised in that the dispersion of synthetic elements is incorporated to the paper pulp in a controlled
manner, forming strips or bands where such synthetic elements accumulate.
8. A security or special document manufactured by printing on a security paper or special
paper such as described in claim 1 and manufactured by a procedure such as described
in claims 5 to 6.
1. Sicherheitspapier oder Spezialpapier (3), umfassend synthetische Elemente, wobei die
synthetischen Elemente für das bloße Auge oder unter ultraviolettem Licht sichtbar
sind oder durch Magnetsensoren, welche zum Nachweisen der synthetischen Elemente geeignet
sind, nachweisbar sind, dadurch gekennzeichnet, dass die synthetischen Elemente aus Polypropylen bestehen, und wobei Sicherheitspigmente
in einer Paste der synthetischen Elemente enthalten sind, sodass die Sicherheitspigmente
den synthetischen Elementen Sicherheitsmerkmale verleihen und die synthetischen Elemente
die Pigmente vor einem Angriff mit physikalischen Kräften oder chemischen Substanzen
und vor schädlichen Einwirkungen schützen, wodurch die Pigmente eine lange Lebensdauer
haben, und wobei die Sicherheitspigmente entweder fluoreszierend, phosphoreszierend,
lumineszierend oder magnetisch sind.
2. Papier umfassend synthetische Elemente nach Anspruch 1, wobei die synthetischen Elemente
beliebig verteilt in das gesamte Papier eingearbeitet sind.
3. Papier umfassend synthetische Elemente nach Anspruch 1, wobei die synthetischen Elemente
in den Papierzellstoff ortsgebunden in spezifischen Bereichen des Papierzellstoffes
eingearbeitet sind und längliche Streifen bilden.
4. Papier umfassend synthetische Elemente nach Anspruch 1, wobei die synthetischen Elemente
die Form von Fasern (1) aufweisen.
5. Verfahren zum Herstellen eines Sicherheitspapiers oder Spezialpapiers umfassend hochbeständige
synthetische Elemente, die mit Eigenschaften versehen sind, welche für das bloße Auge
oder durch ultraviolettes Licht sichtbar sind oder durch Magnetsensoren, welche zum
Nachweisen der in Anspruch 1 definierten synthetischen Elemente geeignet sind, nachweisbar
sind, dadurch gekennzeichnet, dass die synthetischen Elemente aus Polypropylen bestehen und vor ihrem Einbringen in
dem Papierherstellungsverfahren mit Hilfe von wässriger Dispersion daraus in Gegenwart
von Dispergier- und/oder Penetrier- und/oder Antischaummitteln vorbereitet werden,
und wobei Sicherheitspigmente in eine Paste der synthetischen Elemente eingebracht
werden, sodass die synthetischen Elemente die Pigmente schützen.
6. Verfahren zum Herstellen von Sicherheitspapier oder Spezialpapier nach Anspruch 5,
dadurch gekennzeichnet, dass die Dispersion von synthetischen Elementen in den Papierzellstoff während seines
Entstehungsvorgangs gleichmäßig eingearbeitet wird.
7. Verfahren zum Herstellen von Sicherheitspapier oder Spezialpapier nach Anspruch 5,
dadurch gekennzeichnet, dass die Dispersion von synthetischen Elementen kontrolliert in den Papierzellstoff eingearbeitet
wird, wodurch Streifen oder Bänder gebildet werden, dort wo sich die synthetischen
Elemente ansammeln.
8. Sicherheits- oder Spezialdokument, das durch Drucken auf ein Sicherheitspapier oder
Spezialpapier wie in Anspruch 1 beschrieben hergestellt ist und durch ein Verfahren
wie in den Ansprüchen 5 bis 6 beschrieben hergestellt ist.
1. Un papier de sécurité ou papier spécial (3) incorporant des éléments synthétiques
dans lequel les éléments synthétiques sont visibles à l'oeil nu ou sous lumière ultra-violette
ou sont détectables par des capteurs magnétiques susceptibles de détecter ces éléments
synthétiques, caractérisé en ce que les éléments synthétiques sont formés de polypropylène et en ce que des pigments de sécurité sont inclus dans la pâte même des éléments synthétiques
de sorte que ces pigments de sécurité conférent les caractéristiques aux éléments
synthétiques et que les éléments synthétiques protègent les pigments de l'attaque
des agents physiques et chimiques et de leurs effets dommageables, les pigments se
voyant ainsi conféré une longue période de vie et dans lequel les pigments de sécurité
sont soit fluorescents, phosphorescents, luminescents ou magnétiques.
2. Un papier incorporant des éléments synthétiques selon la revendication 1, dans lequel
les éléments synthétiques sont incorporés aléatoirement dans l'ensemble du papier
3. Un papier incorporant des éléments synthétiques selon la revendication 1, dans lequel
les éléments synthétiques ont été incorporés dans la pâte à papier de manière localisée
dans des zones spécifiques de la pâte de façon à former des bandes longitudinales.
4. Un papier incorporant des éléments synthétiques selon la revendication 1, dans lequel
les éléments synthétiques ont la forme de fibres (1).
5. Un procédé de fabrication de papier de sécurité ou de papier spécial incorporant des
éléments synthétiques à haute résistance présentant des caractéristiques qui sont
visibles à l'oeil nu ou sous lumière ultra-violette ou qui sont détectables par des
capteurs magnétiques susceptibles de détecter ces éléments synthétiques, ce papier
étant tel que défini dans la revendication 1 et étant caractérisé en ce que les éléments synthétiques sont formés de polypropylène et sont préparés préalablement
à leur introduction dans le procédé de fabrication du papier par dispersion aqueuse
de ces éléments synthétiques en présence d'agents dispersants et / ou pénétrants et
/ ou antimousse, et dans lequel les pigments de sécurité sont introduits dans une
pâte des éléments synthétiques eux-mêmes de sorte que ces pigments de sécurité protègent
les pigments.
6. Un procédé de fabrication de papier de sécurité ou de papier spécial selon la revendication
5, caractérisé en ce que la dispersion d'éléments de sécurité est incorporée de façon homogène à la pâte de
papier pendant son processus de formation.
7. Un procédé de fabrication de papier de sécurité ou de papier spécial selon la revendication
5, caractérisé en ce que la dispersion d'éléments de sécurité est incorporée à la pâte de papier de manière
contrôlée, en formant des bandes ou rubans où ces éléments synthétiques s'accumulent.
8. Un document de sécurité ou spécial fabriqué par impression sur un papier de sécurité
ou un papier spécial tel que décrit dans la revendication 1 et fabriqué par un procédé
tel que décrit dans les revendications 5 ou 6.