CN101388164A - Structured surfaces that exhibit color by rotation - Google Patents

Abstract

A structured surfaces that exhibit color by rotation is disclosed, having a substrate with an array of pyramidal structures formed upon it or within it. The structures are preferably formed by printing pyramids with an optically variable color-shifting ink using an Intaglio-like printing process. Alternatively the structure can be formed by embossing a layer of ink with positive pyramids so as to yield an array of positive embossed pyramids. Each of the structures form a pyramidal-like having at least three slanted faces and wherein one or more than one color is seen when viewing the pyramids vary as substrate is rotated at least 30 degrees about an axis orthogonal to the substrate. In order to see a color shift the device is rotated around the surface normal of the substrate, while keeping the angle of incidence to the light source the same, and keeping the viewing angle the same. Various forms of pyramids may be used, however pyramids with planar faces are most suitable.

Description

Body structure surface by the rotary display color

Technical field

[01] the present invention relates generally to a kind of array of structures that in substrate, forms, wherein be rotated or when the observer changes around described substrate when described substrate, observation structure and the color felt changes.

Background technology

[02] the optically-variable discoloration coating is known by the public with color shifting ink, variable color paint and the form that deposits to suprabasil laminated coating, and described substrate has the optical coating that observable variable color is provided when incident angle of light or viewing angle change.

[03] camouflage paint and colorant have been used in numerous applications, scope from automotive paints to the anti-forgery ink that is used for classified document and currency.This pigment and colorant have been showed the characteristic according to the angle variation or the variable color when observer's viewing angle changes of incident light.Usually, in order to see change in color, the observer to change substrate with respect to the angle of light source to produce color changeable effect.

[04] the objective of the invention is to utilize known discoloration coating to make article by the rotary display different colours in the creationary mode of novelty.

Invention is summed up

[05] according to an aspect of the present invention, optically variable device comprise have thereon form and by the substrate of the array of structures that it supported, this substrate is printed with optically variable ink, each of wherein said structure formed pyramid structure and wherein each pyramid structure have at least three dip plane, and observe pyramid when substrate when spending and can see one or more change color perpendicular to the axle rotation at least 30 of described substrate.This structure can be by forming with the optically variable ink printing or by embossment optically variable ink layer.

[06] according to a preferred embodiment of the invention, the described face of described structure comes down to smooth.

[07] according to a main aspect of the present invention, provide and be printed on suprabasil array of structures, described herein structure has at least 3 walls of holding up, wherein each wall contact and terminate in and contact the adjacent position of holding up wall with it, and wherein said wall slopes inwardly the discoloration coating coating of showing change color along with the variation of viewing angle of wherein said wall from bottom or the described suprabasil bottom that described substrate forms.

[08] with reference to the accompanying drawings, the array of pyramid structure is provided in the substrate, and wherein said structure applies with same optically-variable variable color special-effect coating.This coating can be color shifting ink, paint or multi-layer colour-changing coating.Though the pyramid structure of standard has been shown in the example below, also can have used butt (frusto)-pyramid or stepped appearance pyramid or other similar pyramidal structure to realize new variable color by rotation.According to a preferred embodiment of the invention, in fact pyramid structure does not use ink coats, but is formed by the intaglio technology of describing later on by printing ink.This preferred aspect of the present invention is considered to make the more not expensive mode of variable color pyramid structure, wherein these color changing structures viscous oil ink print that comprises variable color particle or thin slice.

[09] the surprising aspect of one embodiment of the present of invention is, when the coating of identical uniform thickness is applied to all faces of pyramid structure symmetrically, when head-on observing pyramidal or outside surface, can see different colors with respect to observing the side.For example the color different with this pyramidal side showed in the front.When this pyramid rotated around the axle perpendicular to substrate, for example 30 spent, the color change of front and side, and when being further rotated, this side has seemed to present the color of front and vice versa, makes to see different colors.When the array of this structure was provided, this result was cheering especially, because this effect is repeated to produce by each pyramid, and vision is tended to the effect that is presented in the picture subsequently integrated.

[010] in addition, when the process oil ink print pyramid by similar intaglio forms variable color pyramid and described printing ink and comprises identical thin slice composition, for providing of describing below the example of pyramid array of even coating, similar color changeable effect is can be descried.

[011] according to an alternative aspect of the present invention, the optically-variable printing-ink or the intaglio optically-variable printing-ink of the ultra-violet curing of coated 50-100 micron thickness are subjected to embossment with the embossment instrument, described embossment instrument has the array of positive pyramid structure on its surface, between described positive embossment pyramid, provide spacing, after embossment, described positive embossment pyramid becomes the positive pyramid that has printed in curable optically variable ink.

[012], described aspect some at this Fig. 1 a to Figure 17 that is not mentioned in order more to be expressly understood the present invention.

Description of drawings

[013] with reference now to accompanying drawing the embodiment that gives an example of the present invention is described, wherein:

[014] Fig. 1 a is the axis side view such as grade of pyramid unit according to an aspect of the present invention.

[015] Fig. 1 b is the front elevation and the angular views of the grid framework model of pyramid unit; Unit model with discoloration coating; And the surperficial diagrammatic sketch of cell cube pyramid array.

[016] Fig. 2 is the picture of model #1, and this picture has shown 25 width of cloth images of different viewing angles, and each of described viewing angle is previous with it to differ 15 degree, and wherein can see change color when described model is rotated.

[017] Fig. 3 is the picture that shows the model #2 of example 1, and this picture has shown 25 width of cloth images of different viewing angles, and each of described viewing angle is previous with it to differ 15 degree, and wherein can see change color when described model is rotated.

[018] Fig. 4 is the picture that shows the model #2 of example 2, and this picture has shown 25 width of cloth images of different viewing angles, and each of described viewing angle is previous with it to differ 15 degree, and wherein can see change color when described model is rotated.

[019] Fig. 5 is the picture that shows the model #2 of example 3, and this picture has shown 25 width of cloth images of different viewing angles, and each of described viewing angle is previous with it to differ 15 degree, and wherein can see change color when described model is rotated.

[020] Fig. 6 a is the picture of the axle top view of display model #2 example 4.

[021] Fig. 6 b is the picture of the axle external view of display model #2 example 4.

[022] Fig. 7 is the picture that shows the model #2 of example 4, and this picture has shown 25 width of cloth images of different viewing angles, and each of described viewing angle is previous with it to differ 15 degree, and wherein can see change color when described model is rotated.

[023] Fig. 8 a is the picture of the axle top view of display model #2 example 5.

[024] Fig. 8 b is the picture of the axle external view of display model #2 example 5.

[025] Fig. 9 is the picture that shows the model #2 of example 5, and this picture has shown 25 width of cloth images of different viewing angles, and each of described viewing angle is previous with it to differ 15 degree, and wherein can see change color when described model is rotated.

[026] Figure 10 is that to illustrate with three different positions rotations and at the height/bottom ratio of three different viewing angles be the picture of 0.1 model #3.

[027] Figure 11 is that to illustrate with three different positions rotations and at the height/bottom ratio of three different viewing angles be the picture of 0.4 model #3.

[028] Figure 12 is that to illustrate with three different positions rotations and at the height/bottom ratio of three different viewing angles be the picture of 0.631 model #3.

[029] Figure 13 is that to illustrate with three different positions rotations and at the height/bottom ratio of three different viewing angles be the picture of 0.8 model #3.

[030] Figure 14 is that to illustrate with three different positions rotations and at the height/bottom ratio of three different viewing angles be the picture of 1.0 model #3.

[031] Figure 15 is the picture of planimetric map that shows the pyramid array of three sides, has flat grid between the wherein adjacent pyramid.

[032] Figure 16 is the picture similar to Figure 15, and the pyramid shown in it is upright, represents the pyramid of reversing with the pyramid of different colours.

[033] Figure 17 illustrates the have letter picture of model of " A ", and this letter " A " is not by having pyramid to be limited in the grid in this zone.

[034] Figure 18 is the picture with intaglio press of pyramid depression, and this intaglio press is used to print the pyramid structure that color shifting ink forms.

[035] Figure 19 is the cross-sectional view of printed panel, and shown the mesh portions that printing ink arranged leave described plate.

Specific embodiment

[036] with reference now to Fig. 1 a, the pyramid cell cube with 4 upright dip plane of numbering 1 to 4 has been displayed on the bottom of a described cell cube of support.Described cell cube can be hollow maybe can be solid.This cell cube is the basic structure of describing according to the present invention.But the variant of this cell cube also can be described and comprise embodiments of the invention.

The model of the body structure surface by the rotary display color

[037] visual model of the body structure surface of the variable color types of coatings design of one of imitation with optically-variable and use 3 D rendering (3-Drendering) software package to simulate, this software package has the lighting model of the routine of using optical coating design software program.Employed this lighting model supposition is the lighting condition of diffusion fully, and therefore only the angle between normal face (facet normals) and position of camera need be considered to the observed approaching color by the observer of this model.

[038] aforesaid model is used to study the key design parameter of showing the body structure surface of certain color by rotation effect.

[039] this model constitutionally concentrates on the small surface of being made up of simple pyramid structure of duplicating.Although more complicated geometrical construction is possible and also can shows color by rotation effect.This model is used to discern from the design parameter of the important key of substrate and coated designs angle.

Coated designs

[040] coated designs that is used to simulate the performance of this structure is the Optical stack that comprises reflecting body, dielectric and absorber with the performance of the discoloration coating that imitates described structural optically-variable.

[041] optical design of being considered is as follows:

(1) aluminium (100nm)/magnesium fluoride (variable thickness)/chromium (6nm)

(2) aluminium (100nm)/zinc sulphide (variable thickness)/chromium (6nm)

Cell cube

[042] as shown in Figure 1a, use the four sides pyramid structure that simply has square bottom to finish modeling, the measured value of this square bottom on each limit is a unit.The summit of this pyramid structure is directly over bottom centre, and the height that exceeds described bottom that it had is as design variable.

[043] basic unit body as shown in Figure 1a has the face that is numbered (1) and (2), and these two faces are towards the opposite side of this pyramid structure, and will be defined as machine direction.Therefore, described machine direction is meant the direction that grid moves.In most of existing models, these faces will be assumed to be to have than the face that is in non-machine direction (3) and (4) thicker coating thickness usually.

[044] the relevant coating thickness on each pyramid face is the complicated function of source (source) and coating geometric configuration.But, will will consider best related coatings thickness to realize the overall visual appearance in the required product form.

[045] model #1 has introduced the model of showing color by rotation effect, and wherein pyramidal or outside surface have the identical dielectric layer of thickness on each face.If therefore each face is when identical angle is observed, the color of the coating on each face is identical.When the thickness of the dielectric coating on each face of this structure does not have difference, on pyramid structure, can observe color by rotation effect.

[046] in this example, magnesium fluoride (MgF2) layer is used as the dielectric spacer with 360 nano coating thickness, and it is equivalent to green/blue light and learns variable pigments (OVP) coated designs.

[047] when observing any in the normal observation place, can see the color of OVP face, when illegal line position is observed, can see the angle color simultaneously.In this case, pyramidal each face equates with the substrate angulation, and all masks have equal dielectric coating thickness.Model #1 shows that the difference of the dielectric thickness between the face of this pyramid structure is unnecessary for reach certain color by rotation effect for.In brief, all face can be with the coating of same thickness coated with reach required color effects by rotation.

[048] Fig. 1 b has shown " front elevation " (" Face View ") and " angular views " of pyramid unit used in the grid framework model.In same figure is the view that has " unit model " of discoloration coating, and wherein front elevation has shown the color of face, green, and angular views has shown the sapphirine that comes from same coated elements.Last column cell of Fig. 1 b has shown " surface view of cell cube pyramid array ".This pyramid array corresponding to front elevation has shown green pyramid and the array shown in the angular views has shown the pyramid of sapphirine.

[049] Fig. 2 shows since the initial front elevation of 0 degree, with the increments rotation of 15 degree by different angles up to the change color of rising of revolving three-sixth turn from the different angles of the model #1 of 0 degree (being front elevation).

[050] opposite, model #2 has showed by being rotated in the color of the coating that thickness does not wait on the adjacent face.In the embodiment that this is given an example, on different adjacent faces, provide different dielectric thickness.Therefore, face or outside surface (1) apply with the identical coating of thickness with (2), and face (3) applies with the identical coating material of different thickness with (4).Though model #2 is the simulation of representing actual coating, the such coating with these design parameters can apply in the vacuum drum coating machine with suitable source and mask geometric configuration (propersource and masking geometry).In this embodiment, machine direction face (1,2) has equal dielectric thickness, but not machine direction face (3,4) is owing to the coating angle in the machine medium dip has less dielectric.

[051] in this embodiment, because adjacent pyramid mask has visibly different dielectric thickness, whenever revolve to turn 90 degrees and just can observe maximum change color, rather than the situation of the model #1 that all equates as all dielectric thickness is spent in every rotation 45.Example 1 and example 2 two different situations as an example of model #2 are provided, wherein in each, have used different coatings.In model #2 example 1, the ratio that provides is meant the relative quantity that the coating that deposits on each face is compared with magnesium fluoride (MgF2) rated designs thickness.For example, for the situation of model #2 example 1, basic design is Al/MgF2 (360 nanometer)/Cr (6 nanometer).Therefore in this case, the ratio of face 1 and face 2 is 1, the coated designs below using: Al/MgF2 (360 nanometer)/Cr (6 nanometer).For ratio is 0.8 the face 3 and the situation of face 4, the coated designs below using: Al/MgF2 (288 nanometer)/Cr (6 nanometer).This ratio is relevant with the different thickness of magnesium fluoride (MgF2) dielectric spacer.

Table 2A

[052] ratio of first example of model #2 use 0.8 is used for the face of non-machine direction.Example 2 has shown the similar structure of using 0.9 multiplier to be used for the face of non-machine direction.

Table 2B

[053] ratio of the face of non-machine direction is reduced to 0.7 color rather than the blueness that causes becoming light red magenta in 90 degree and 270 angles of spending.

Table 2C

The visual report of model #2

[054] when described substrate being rotated to these surfaces when occupying the position in the absolute visual field, revising the outer face (3) of axle and the dielectric thickness of face (4) can have tremendous influence to viewed color.When facing to face (1) and face (2) observation, because these faces tilt, there is small cross section, and owing to the viewing optics coated designs of high angle has been lost dyeability, (90 ° and 270 ° the anglec of rotation) revise the outer face (3) of axle and the dielectric thickness of face (4) can have less influence to color.

[055] when because dielectric thickness changes, when described thickness ratio changed, the outer change color on face (3) and the face (4) was violent.

[056] on the axle of observing in the identical visual field and the other important results of the outer face of axle when being face on observing axle, the viewed color of facing outside the axle has been made important contribution.The combination of some dielectric thickness and the ratio of the axle outside with more attracting outward appearance is arranged, because one or two following condition may occur:

(1) when observing on axle, the observed variable color of the face outside axle matches with the surface color of axle inner face very much, and wherein said color has similar hue angle;

(2) when observing outside axle, the observed variable color of face from axle matches with a surface color of outside very much.

[057] following Example has illustrated above-mentioned condition;

[058] in model 2 examples 4, it is the cell cube of 480 nanometers that use has basic magnesium fluoride (MgF2) thickness equally, and it is with pinkish red corresponding to green OVP design.As in example 1,0.80 ratio is used to the coating thickness on the outside surface.In this special case, condition 1 and 2 all meets.This is displayed among Fig. 6 a and Fig. 6 b.

Table 2D

[059] in this example, the view on the axle has shown and the magenta design of coordinating from the blue variable colour of the outer face of axle.In the axle external view, the color of green face is coordinated mutually with the green variable color from the magenta face.

[060] generally speaking, model 2 examples 4 have shown very strong color by rotation effect because on axle and two outer observations of axle caused observing on the axle coordination color of enhancing each other at two.

[061] satisfying the required key parameter of these needs is to axle outer dielectric thickness and cell cube design on dielectric refractive index, dielectric thickness, the axle.The dielectric that preferably has low-refraction (just being lower than about 1.6) such as MgF2, because they have shown stronger change color, needs this change color to go up the coordination color that obtains to have similar hue angle with the outer direction of axle to be implemented in axle.The material that also can use high index of refraction with realize by rotation having function but the result is not very lively color.

[062] 2 examples 5 of the model shown in Fig. 8 a, 8b and Fig. 9 have shown the example of another kind of situation, do not realize coordinating color at this, promptly be that this is in a color of the similar tone of last direction and does not appear in face of the observer, and viewed color neither be very lively.In the case, direction still exists the coordination color to cause the gold of observing reinforcement outside axle outside axle.

Table 2E

Model #3: the optimization of pyramid height and viewing angle

[063] this model investigation shown in Figure 10,11,12,13 and 14 pyramidal height and viewing angle potential impact to product appearance.One of parameter that must be determined is the object height of surface structure.In this model, four pyramid height and three viewing angles have been simulated with the influence of research to the entire product outward appearance.

Table 3

The conclusion of viewing angle

[064] in a preferred embodiment of the invention, the ratio (height to baseratio) of most of desirable cell cube height and bottom has been proved to be to have " gold pyramid " ratio of 0.636 height and bottom ratio.In the ratio that uses in our simulation, this ratio has shown the outward appearance tonal variation of the minimum that the typical range of substrate viewing angle is interior, and the scope of described substrate viewing angle on described base plane spent to 65 degree from 25.The height of discovery 0.8 and the ratio of bottom also are acceptable.

[065] causes big tonal variation such as the ratio of lower height with situation of 0.4 and bottom as the function of viewing angle of observing from base plane.The outer observation of axle in this embodiment is enhanced as the flavescence of the extreme of viewing angle.The bigger height such as 1.0 and the ratio of bottom have also begun to show the significant tonal variation as the function of viewing angle of observing from base plane.

[066], we have found that the best height and the ratio of bottom seem in 0.6 to 0.8 scope by simulating.In this case, suppose that the outer face of axle always accepts 80% of coating that the face in the axle accepts.This may be infeasible, because because the restriction of coating geometric configuration, height has diminished with the ratio of bottom.But, can be clear that the height of cell cube an of the best and the ratio of bottom are arranged, it has produced the visible change of minimum when the visual angle change of observing from base plane.

[067] as the result of this model, we draw such conclusion:

1) in order to realize certain color by rotation effect on the pyramid structure, the difference of the magnesium fluoride on the face (MgF2) thickness is not essential.Even use identical coating thickness also can see through the rotation color.In this case, Zui Da change color will appear at 45 degree axles.

2) for unequal the thickness of going up magnesium fluoride (MgF2), can observe stronger color change, it has change color maximum on the turning axle of 90 degree.

3) will observe stronger color by having position that color that similar hue angle makes face strengthens each other by rotation effect.

4) when observing described substrate at different angles of inclination, model 3 provides the information relevant with the ratio of the height of the best and bottom so that best change color to be provided.

[068] this pyramidal array can form in the deformable substrate that comes from suitable mainboard (master) flexible by embossment or rigidity.This mainboard can make by dimond cutting or other suitable micro mechanical technology such as beamwriter lithography, ion etching or other little reproduction technology.We believe that these technology can be used to make mainboard, and this mainboard can be used in the embossed technology.In one embodiment, the screen roller that use has jagged pyramid in the press of being used in and other shape is made nickelous mainboard (positive nickel master) as the method that template is used for the chemical nickel plating by having releasing layer, then grow up to nickel daughter image from the nickel mainboard, it is used to conversely, and the embossment ultra-violet curing coats with lacquer to form positive Pyramid on reticulate pattern.Found about the common network address below of the information of anilox roll:

http://www.harperimage.com/anilox-specify.asp?and

http://www.appliedlaser.co.uk/anilox.htm。

[069] among all embodiment of former description, preferred pyramidal size is the resolution that is lower than about 100 microns eyes.Therefore pyramidal height preferably is lower than 100 microns.This is important from the angle of safety, because will can not be conspicuous about why change in color taking place for the observer.

[070] except providing the safety coatings of visual attraction, embodiments of the invention are used for according to employed modulation angle to produce readable " bar code " effect dominance or hidden by changing the form that the pyramid height uses uniform enconding with linear precedence.Dominance image, symbol, word can be written into pattern by the variation of cell cube geometric configuration.The transformation of the angle of the height of unit, direction, cell size, face can be used to coded message.Figure 17 shows the mark of letter " A " form, and this mark provides by the substrate that exposes in this zone.

[071] in embodiments of the invention not shown in figures, visible sign forms by the pyramidal specific region that is used to form sign in the angle orientation that becomes 45 degree with other pyramid, described other pyramid is as the contrast background in the safety feature, and applies all pyramids with same discoloration coating.So, forming the pyramid that indicates has presented and other first color of the pyramidal color phase region of background.When this device of rotation, color changes, and in specific angle, exchange appears in the color in two zones.

[072] it is contemplated that various other embodiment, wherein the mark of sign or textual form can be encoded in the pyramid array or between the pyramid.The pyramid zone is compared with other zones can have different geometric configurations, therefore provides visual difference to limit sign and text.In a certain embodiments, the safety line (security thread) in most of zone on the net has identical pyramid geometric configuration but some pyramids in the specific region have different face angles.This will make and image can occur when described device is rotated.Alternately, the butt pyramid (frusto-pyramids) that can in certain zone, provide some to have flat-top, thus define and other other sign of conventional shape pyramid phase region or mark.Say that in essence needed among all these embodiment is a zone in bigger pyramid regional extent, this bigger pyramid zone visually can be distinguished by this way to limit mark.

[073] up to now, described pyramid, but had one or more pyramids, the additional effect of described variable color also will be provided with face of the diffractive grooves that forms therein with flat surface.For example, pyramid can be provided apicad, and also step-like pyramid can be provided with the surface groove that extends from the bottom.This step-like pyramid can have the step of little diffraction width, also can have bigger step.When described face is mobile in rotary manner, particularly on this face, have reflectance coating, these pyramids will provide noticeable color/extinction effect.

[074] even this pyramid also can provide interesting effect with the mirror coating of for example aluminium.Provide the pyramid of handling with aluminium that is dispersed in the pattern of specially selecting in the optically-variable coating pyramid, to form other sign of pyramid phase region or the mark that applies with variable color.

[075] can provide the pyramid of various packed structures.For example Figure 15 has shown an embodiment, and wherein the smooth space of substrate is displayed between the upright pyramid, and in Figure 16, has shown upright and pyramid reversing side by side.

[076] also can provide with respect to the machine direction shown in the figure is the pyramid that tilts.

[077] the preferred embodiments of the present invention relate to the pyramid with the color shifting ink printing.Intaglio (intaglio) printing is a kind of printing process of knowing, and the printed panel with depression is used in the intaglio printing, is formed on print image zone with respect to the described depression of non-print image zone.After whole intaglio printed panel has been filled the printing ink of high viscosity, wipe the printing ink on the non-print image zone, make printing ink only stay print image zone.After this for example the net of the scraps of paper or substrate directly are pressed onto on the printed panel under weight with the ink transfer that will be retained in print image zone to paper.The printing of groove intaglio is normally used for printing security documents, and for example check, and use has the printing cylinder of groove therein, and described intaglio printing-ink is deposited in the groove.The starchy intaglio printing ink of the described high viscosity of using in this printing is very different with using the printing ink in other printing form of for example intaglio printing, hectographic printing and ink jet printing in essence.Optically-variable printed article for other secure file and currency is printed in individual intaglio printing usually.This printing process relate to from the printed panel transfer of ink to the huge pressure (ton/square inch) of paper, high print speed printing speed (200-500 feet per minute), the super viscous characteristics of printing ink and the fast dynamic process of skin drying.

[078], shows the texturing printed panel 180 that is used to print pyramid structure with reference now to Figure 18.This plate 180 is the intaglio templates of carving pyramid breach 182 shown in having, and is used for using at the array that forms the variable color pyramid structure.The printing ink that uses in the printing comprises optically variable pigments, and camouflage paint preferably.

[079] array of the printing of color shifting ink formation has produced the image that color is provided by rotation.This is an interchangeable embodiment, for those described above by in the PET substrate, deposit organic layer, and the pyramid embossment that subsequently all had an identical face angle to wherein, then the color through rotation that the design of vacuum moulding machine organic vapor phase deposition (OVD) film interference can obtain on these pyramids obtains color by rotation in this embodiment.

[080] although be considered to simpler and more economical effective implementation with color shifting ink printing pyramid structure, and it can only obtain these colors by making intaglio plate with pyramid array by rotation effect in current intaglio printing.Above shown in image be applicable to pattern and the color changeable effect that shows by the needs that obtain with camouflage paint printing pyramid structure.

[081] preferably, the pyramid that the respective substrates size is arranged that has printed according to the present invention have the high size of 20-100 micron or different size make the ratio of height and substrate at 1:5 between the 5:1, preferably at 1:2 between the 2:1, and more preferably at 0.5:1 between the 1:0.5, make in the unit reduced size, described height can change to 1.0 from 0.5, and described substrate can change to 0.5 from 1.0, and people will obtain color by rotation.

[082] adjusts pigment size to adapt to pyramidal size, make the magnitude that less optically variable pigments or other pigment can 5 microns use 20 microns pyramid, and for example the pigment of 10 or 20 microns sizes is applicable to 100 microns pyramid.

[083] in by intaglio printing applied pressure, the cementitious compositions that flow in the pyramid cavity will tend to according to the directed described particle of described pyramidal surface plane plane.Some particles may be fragmented into less sheet makes these small pieces still be parallel to the described plane on described pyramidal surface.Even described small pieces are not parallel to described pyramidal surface, when other color itself will exist, the color through rotation will appear also.

[084] in one embodiment, having three pyramid color shifting ink printings of three different inclined surfaces, is to obtain three kinds of different colors when the people rotates the image that has printed.Obtaining three kinds or how different colors is high expectations.

[085] described pigment can comprise other its pigment of alternative optically variable pigments (OVP), for example have some color shift angles interference mica, variable color liquid crystal pigment or or even magnetic colour-changing OVP, and except camouflage paint, also can have and comprise and interfering and the nondiscolouring pigment of non-coated interference pigment.

[086] Figure 19 be shown the sawtooth with staggered pyramid 192 forms printed panel 190 diagram and with the substrate of enclosing 194 of pyramid 196 printing, wherein shown described substrate 194 is just removed from described plate 190.

[087] in described carrier, the concentration range of thin slice is the 5-50% of total ink by weight, for intaglio paper wipe China ink ( Intaglio paper Wipe ink), preferred 20-40%, and be more preferably 30%, for ultraviolet silk-screen ink 20-40% and be more preferably 20% preferably, and for ultraviolet flexographic ink 20-40% and be more preferably 25% preferably.This concentration and composition be shown in the WO2007/131833 that is transferred to SICPA Holding, and by with reference to by all combinations.

[088] in an interchangeable embodiment of the present invention, different with previously described intaglio type printing, by embossment, this embossment instrument has positive pyramid structure array in its surface with the embossment instrument for the uv curing ink of coated 50-100 micron thickness or intaglio ink.Behind embossment, the space between the pyramid of described positive embossment becomes the positive pyramid that prints in cured printing ink.Particularly, can appear on the moist high viscosity film at the pyramid embossment between 5 to 45 microns with having height, as what find in intaglio ink (ultra-violet curing), the thickness of the film that it is moist is 50 microns.

[089] described a lot of embodiment of the present invention, and all these embodiment has similar color changeable effect; By the rotation variable color, wherein when described substrate was rotated around the axle perpendicular to described substrate, change had taken place in the visible color of described pyramid array.This feature can be used as file or want security feature on the protected article, maybe can be used as the decorative characteristics on the article.

Claims (24)

1. optically variable device, comprise have thereon form and by the substrate of the array of structures that it supported, described structure forms with optically variable ink, wherein said structure be pyramid structure and wherein each pyramid structure have at least three dip plane, and when substrate when spending perpendicular to the axle rotation at least 30 of described substrate, observe the described array of the pyramid structure that has printed and can see one or more change color.

2. optically variable device according to claim 1 is characterized in that, described structure is the structure of printing.

3. optically variable device according to claim 2 is characterized in that described optically variable ink is included in the carrier that wherein has the variable color thin slice.

4. optically variable device according to claim 3, it is characterized in that, described variable color thin slice is a composite wafer, and the average largest dimension of wherein said thin slice is less than half of the height of pyramid structure, and described thin slice forms the part of described pyramid structure.

5. optically variable device according to claim 3 is characterized in that the height of each described pyramid structure is less than 150 microns.

6. optically variable device according to claim 1, it is characterized in that, between the structure in described array of structures, provide in the gap between the described structure or be different from gap between the structure of described array of structures, forming witness marking, and wherein saidly be marked at that its size is recognizable under the situation that not have amplification.

7. optically variable device according to claim 2 is characterized in that, has the visible mark that is different from described pyramid structure array.

8. optically variable device according to claim 3 is characterized in that, the height of at least 50% described pyramid structure and the ratio of bottom are in 0.6 to 0.8 scope.

9. optically variable device according to claim 3, it is characterized in that, more than first described pyramid structure is directed with the first predetermined direction, and wherein described pyramid structure more than second is positioned with the second different direction, makes described more than first structure present the different color with described more than second structure.

10. optically variable device according to claim 1 is characterized in that, the pyramid structure of first group of vicinity is different with the pyramid structure of second group of vicinity, and wherein said first group and second group has formed visually diacritic mark.

11. optically variable device according to claim 1 is characterized in that, described of each of described pyramid structure has formed different angles with described substrate.

12. optically variable device according to claim 1 is characterized in that, described of each of the pyramid structure in described array of structures has formed identical angle with described substrate.

13. optically variable device according to claim 1 is characterized in that, described optically variable ink comprises thin slice, and wherein at least some described thin slices have formed single-cavity Fabry-Perot structure.

14. optically variable device according to claim 1 is characterized in that, described optically variable ink comprises thin slice, and wherein at least some described each self-formings of thin slice multi-cavity Fabry-Perot structure.

15. optically variable device according to claim 2 is characterized in that, a plurality of described pyramid structures are a kind of in tetrahedroid pyramid, square pyramid, pentagon pyramid and the butt pyramid that has flat-top at least.

16. optically variable device according to claim 1 is characterized in that, described optically variable ink comprises that at least some have the thin slice of the diffraction grating that forms therein.

17. optically variable device according to claim 3 is characterized in that, described optically-variable thin slice is a magnetic flakes.

18. optically variable device according to claim 2 is characterized in that, described optically variable ink comprises polymerizable mesogenic pigment.

19. the method for the device of the visible change color of rotary display is passed through in a manufacturing, comprising:

A) provide a substrate;

B) form the pyramid structure array with the viscosity printing ink with optically-variable characteristic on described substrate, wherein the pyramid structure in described array is little, and each can not be distinguished by human eye under the situation that does not have amplification; And,

C) with described viscosity ink solidification.

20. method according to claim 19 is characterized in that, described formation step comprises printing.

21. method according to claim 19 is characterized in that, described formation step comprises embossment.

22. method according to claim 19 is characterized in that, described pyramid structure has the surface of at least 3 substantial planar, and wherein said printing ink comprises adhesive carrier and variable color thin slice.

23. method according to claim 20 is characterized in that, described printing realizes with the intaglio printing process and wherein said printing ink comprises the optically-variable thin slice.

24. method according to claim 20, it is characterized in that, described optically-variable thin slice is the variable color thin slice, and the plate that wherein is used to print described pyramidion shape structure has the depression that forms therein, and wherein said depression has the pyramid of reversing.

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