CN101329507A - Microparticle lens array holographic printing - Google Patents

Abstract

The invention discloses a particle mirror matrix holographical printing which can carry out automatic production. Partial or complete micro-mirror matrix is obtained by a direct particle printing, transfer printing or implantation way and combined on a holographical composite image synchronously to obtain the direct printing of a real color holographical image on a common printing material with no need of grating or mirror matrix printing material, thus realizing the one-step automatic production of printing equipment or digital printing equipment. The particle mirror matrix holographical printing can produce randomly non-repeated micro-mirror matrix structure, and can also be combined into an irreversible holographical forgery-proof printing technology by the combination of particles with different size and arbitrary shape, and heterogenous random material, film coating, photosensitiveness, hollowness, color, illumination caused by external factors, color deterioration caused by the external factors, failure caused by the external factors, DNA gene and magnetism, etc. which have different characteristics. The appearance of the holographical printing is an important breakthrough to the traditional printing technology existing for thousands of years. The invention also includes the steps for manufacturing a particle mirror matrix holographical image by a photosensitive material.

Description

Microparticle lens array holographic printing

Technical field

The present invention relates to the special type visible sensation effect image technical field, but the microparticle lens array holographic printing that specifically a kind of industrial automation is produced.

Background technology

The existing history more than thousand of planographic does not occur but still there is any technology that can directly carry out the stereosopic printing of gold trouble up to now.Laser holography (hologram) though can reproduce holographic three-dimensional image, also be after being confined to make a plate the compacting mode of manufacture and can not by the printing mode realize.The important defective of another of laser holography can not obtain realistic colour output.Grating printing technology (Lenticular Printing) is the stereosopic printing mode that occurs in recent years, and it need use special grating printing material to print but can not realize the purpose of holographic three-dimensional printing.Present holographic three-dimensional printing still belongs to blank.

Summary of the invention

The invention provides a kind of direct use prior printing equipment and can carry out the microparticle lens array holographic printing that industrial automation is produced, can on any material, carry out holographic three-dimensional printing output, use with change the conventional planar mode of printing and more meet the printing technology of new generation of human vision psychological need.

For solving the problems of the technologies described above, the invention provides a kind of microparticle lens array holographic printing, it may further comprise the steps: adopt the particulate reflect lens function as elementary cell, by direct printing, plant or the mode of transfer printing forms the particulate mirror battle array of local or complete and regular or random arrangement; Carry out combining synchronously to obtain local or complete particulate lens array holographic image output with described particulate mirror battle array with the holographic composograph of its synchronised; Wherein, the formation step of above-mentioned particulate mirror battle array and integrating step are for carrying out synchronously or successively carrying out.

First kind of direct mode of printing is, particulate camera lens distributed architecture figure according to expection selects the particulate of appropriate size and suitable reticulate texture, particulate and any interpolation material that comprises glue are formed mixed material, described interpolation material is used to keep particulate to have its settling position and focus point after curing, and reticulate texture is arranged on the described holographic composograph, utilize nip drum or scraper plate evenly to be laid on described mixed material on the reticulate texture then, make particulate fall into the particulate mirror battle array that forms the expection distributed architecture in the cancellated all or part of mesh, adhere to simultaneously and be fixed on the holographic composograph.When usability luminescent material medium, holographic composograph then can be made holographic composograph by Exposure mode in advance on photosensitive material, but also can after forming, particulate mirror battle array structure carry out the exposure of optical matrix displacement model again on photosensitive material, and so then can the perfect synchronous effect hologram image of easier acquisition.

Second kind of direct mode of printing is, particulate camera lens distributed architecture figure according to expection selects the particulate of appropriate size and suitable reticulate texture, one hyaline layer with adhesion is set on described holographic composograph earlier, and reticulate texture is arranged on this hyaline layer, utilize nip drum or scraper plate evenly to be laid on described particulate on the reticulate texture then, make particulate fall into the particulate mirror battle array that forms the expection distributed architecture in the cancellated all or part of mesh, adhere to simultaneously and be fixed on the hyaline layer of holographic composograph.When usability luminescent material medium, holographic composograph then can be made holographic composograph by Exposure mode in advance on photosensitive material, but also can after forming, particulate mirror battle array structure carry out the exposure of optical matrix displacement model again on photosensitive material, and so then can the perfect synchronous effect hologram image of easier acquisition.

The third direct mode of printing is, select particulate any specification or same size and make it form the particulate mirror battle array of random arrangement, this particulate mirror battle array is sampled by the optical scanning instrument and handle to obtain the camera lens distributed architecture figure of this particulate mirror battle array, adopt Computer Design to go out to be synchronized with the holographic composograph of this camera lens distributed architecture figure, then described particulate mirror battle array is synchronously combined with holographic composograph.

Employing face planting system forms in the method for particulate mirror battle array, at first make and have a plurality of particulate mirror battle array moulding substrates that are used to locate the concave surface of particulate camera lens, these suprabasil a plurality of concave surfaces are arranged according to the particulate camera lens distributed architecture figure of expection, each concave bottom has the through hole that is connected to the vacuum draw passage, utilize vacuum suction apparatus that the vacuum draw passage is aspirated, particulate is adsorbed in all or part of concave surface; One hyaline layer with adhesion is set on holographic composograph, the particulate mirror battle array that forms in the substrate contacted with hyaline layer and adhere to be fixed on this hyaline layer, the operation vacuum suction apparatus makes particulate mirror battle array moulding substrate separate with particulate mirror battle array, thus particulate mirror battle array is combined synchronously with holographic composograph and obtain the part or complete particulate lens array holographic image export.When usability luminescent material medium, holographic composograph then can be made holographic composograph by Exposure mode in advance on photosensitive material, but also can after forming, particulate mirror battle array structure carry out the exposure of optical matrix displacement model again on photosensitive material, and so then can the perfect synchronous effect hologram image of easier acquisition.

The employing point is planted or the row planting system forms in the method for particulate mirror battle array, one hyaline layer with adhesion is set on holographic composograph or its camera lens extended layer, utilizing the particulate implanted device successively particulate to be implanted adjacently and adhered to according to the camera lens distributed architecture figure of expection is fixed on the described hyaline layer with adhesion, wherein each particulate of implanting can be for one or more, thereby the particulate mirror battle array that is formed on the hyaline layer with adhesion is combined synchronously with holographic composograph and obtain the particulate lens array holographic image part or complete and export.When usability luminescent material medium, holographic composograph then can be made holographic composograph by Exposure mode in advance on photosensitive material, but also can after forming, particulate mirror battle array structure carry out the exposure of optical matrix displacement model again on photosensitive material, and so then can the perfect synchronous effect hologram image of easier acquisition.

Described particulate has arbitrary shapes such as comprising sphere, ellipse or cylindricality and size, any materials, plated film, photonasty, hollow, color, other factor photoluminescence, other factor and causes one or more characteristics that variable color, other factor cause inefficacy, DNA gene, magnetic etc.

Described hologram image is meant the various non-directional special type visible sensation effect image that comprises the holographic three-dimensional image of 180 degree prospects, or comprise raster stereoscopic picture various the directivity special type visible sensation effect image arranged; Described hologram image has comprised the combination of the figure and the image of arbitrary patterns, but and the real-world object of reproducing recorded and true environment.

Described particulate mirror battle array is the mixed-resolution particulate mirror battle array of compatible depth perception and sharpness simultaneously, adopt the particulate of different size to form this local particulate mirror battle array respectively for each part with different resolution, maybe need then to express with the highest resolution of original output device for its non-three-dimensional part by no camera lens zone with the part that high definition is expressed, and limited by lens parameters, thereby form the particulate mirror battle array of mixed-resolution and the hologram image that exportable demonstration has mixed-resolution on the whole.

Described holographic composograph is that output device or printing equipment directly are printed on common undertake the printing of carrier or the transparent material carrier before utilizing computing machine, seal, or directly exposure forms holographic composograph being arranged on the photosensitive material of carrier.

Direct printing or the implantation mode of microparticle lens array holographic printing of the present invention by the microballon camera lens obtains local or complete micromirror matrix, as it being combined in synchronously the special type visible sensation effect image effect such as holographic three-dimensional that just can realize more meeting human visual psychology on the holographic composograph and have realistic colour.It can carry out the direct printing of 180 degree prospect hologram images and need not special-purpose grating or mirror battle array printing material on common printed carrier or transparent material carrier, realized step property (Single Pass) automated production of printing equipment or digital printing equipment.Because microparticle lens array holographic printing can produce unduplicated at random micromirror matrix structure, so also be a kind of irreversible holographic false proof printing technology that never repeats.The appearance of holographic printing art is the important breakthrough to traditional printing technology over thousands of years.

Description of drawings

Fig. 1 can be directly used in traditional silk screen matrix synoptic diagram of making particulate mirror battle array;

Fig. 2 is the matrix masterplate synoptic diagram that is used to make particulate mirror battle array;

Fig. 3 is the dislocation battle array masterplate synoptic diagram that is used to make particulate mirror battle array;

Fig. 4 is used to illustrate the masterplate synoptic diagram of making mixed resolution hologram image;

Fig. 5 is the stochastic matrix masterplate synoptic diagram that is used to make particulate mirror battle array;

Fig. 6 is the synoptic diagram that adopts hybrid particulate mirror size and random pattern;

Fig. 7 is the synoptic diagram of local particulate mirror battle array printing;

Fig. 8 is the paper carrier structure synoptic diagram of microparticle lens array holographic printing of the present invention;

Fig. 9 is the transparent carrier structural representation of microparticle lens array holographic printing of the present invention;

Figure 10 is the sensitization printing paper carrier structure synoptic diagram of microparticle lens array holographic printing of the present invention;

Figure 11 is the sensitive film carrier structure synoptic diagram of microparticle lens array holographic printing of the present invention;

Figure 12 microparticle lens array holographic printing part steps of the present invention and material are explained

The step explanation of the local particulate mirror of Figure 13 battle array printing

Figure 14 to 18 adopts hybrid particulate mirror size and random pattern example of making

Figure 19 shifts method and the step that production method forms particulate mirror battle array to the absorption of Figure 22 microparticle lens array holographic printing particulate of the present invention mirror;

Figure 23 is used to introduce to Figure 24 microparticle lens array holographic printing of the present invention and adopts point to plant or the row planting system forms the method and the step of particulate mirror battle array.

Embodiment

Fig. 1 shows employed a kind of reticulate texture in the middle of the present invention, and the screen net structure that uses in it and the prior art is similar substantially, can weave shape according to it and carry out the microballon battle array of different structure and print.Other structure can repeat no more here with reference to the stencil structure introduction of following different materials.

Figure 2 shows that central employed another stencil structure of the present invention, it be adopt have arbitrarily can be processed into masterplate material such as sheet metals such as corrosion resistant plates, square, circular or other shape that forms on described steel plate by commonly used means such as burn into laser engraving, punching press and mode is suitable for the masterplate that the microballon battle array is produced, and can be suitable for the microballon matrix printing shown in this figure.

Figure 3 shows that in the middle of the present invention employed be adopt have arbitrarily can be processed into masterplate material such as sheet metals such as corrosion resistant plates, square, circular or other shape that forms on described steel plate by commonly used means such as burn into laser engraving, punching press and mode is suitable for the masterplate that the microballon battle array is produced, and can be suitable for the printing of dislocation type microballon battle array shown in this figure.

Fig. 4 is used to the masterplate synoptic diagram of making mixed resolution hologram image is described that it can make the mode of particulate mirror battle array by Fig. 1 or Fig. 2, by repeatedly different masterplates or screen printing mode obtain.Its center black part is divided into non-printing zone in order to embodying the high precision image of original printing, generally in order to display text or no special type visible sensation effect image.Black part small size particulate mirror battle array exceptionally then can be in order to embody the special type visible sensation effect image of high-resolution, generally in order to show theme special type visible sensation effect image more clearly.Peripheral large scale particulate mirror battle array then can in order to embody resolution minimum but what gain then is high depth effect special type visible sensation effect image, generally in order to show fuzzy background special type visible sensation effect image.

Fig. 5 is the stochastic matrix masterplate synoptic diagram that is used to make particulate mirror battle array; Be depicted as in the middle of the present invention employed be adopt have arbitrarily can be processed into masterplate material such as sheet metals such as corrosion resistant plates, be suitable for the masterplate that the microballon battle array is produced by what commonly used means such as burn into laser engraving, punching press and mode formed on described steel plate, can be suitable for the printing of the holographic composograph that forms after the scanning of random mode microballon battle array shown in this figure.Also be suitable for the photosensitive material medium and after particulate mirror battle array structure forms, carry out the exposure of optical matrix displacement model again on photosensitive material, so then can the perfect synchronous effect hologram image of easier acquisition.The output of random mode microballon array holographic has high false proof effect.

Fig. 6 adopts to mix the synoptic diagram that shows particulate mirror size and random pattern; It can be by the particulate mirror of the particulate mirror of same size or assorted size and particulate mirror printing ink that transparent printing-ink carrier mixes by the direct another kind of random mode microballon battle array that forms of printing of printing equipment.Be suitable for the printing of the holographic composograph that forms after the scanning of random mode microballon battle array.Also be suitable for the photosensitive material medium and after particulate mirror battle array structure forms, carry out the exposure of optical matrix displacement model again on photosensitive material, so then can the perfect synchronous effect hologram image of easier acquisition.The output of random mode microballon array holographic has high false proof effect.

Fig. 7 is that microparticle lens array holographic printing of the present invention is the synoptic diagram that can carry out local particulate mirror battle array printing, and this part will repeatedly be resolved in the introduction below.

Fig. 8 is the paper carrier structure synoptic diagram of microparticle lens array holographic printing of the present invention; 01 for micro mirror grain 02 is that particulate mirror and any interpolation material that comprises glue are formed mixed material, and described interpolation material is used to keep particulate to have its settling position and focus point after curing.03 has two important effects: one for particulate mirror battle array focuses on extra play in order to adjust particulate mirror battle array focus point, and 03 can need not to use when any interpolation material formation mixed material 02 can satisfy particulate mirror battle array focused condition.The 2nd, micro mirror seed lac bearing bed can fix and be carried out the focus-compensating effect of precision to the particulate mirror after exerting pressure when adopting planting system to produce.04 is holographic composograph layer.05 is the paper carrier.

Fig. 9 is the transparent carrier structural representation of microparticle lens array holographic printing of the present invention; 06 for micro mirror grain 07 is that particulate mirror and any interpolation material that comprises glue are formed mixed material, and described interpolation material is used to keep particulate to have its settling position and focus point after curing.08 for the transparent material carrier can be in order to adjust particulate mirror battle array focus point and print holographic composograph layer 09.

Figure 10 is the sensitization printing paper carrier structure synoptic diagram of microparticle lens array holographic printing of the present invention; 11 for micro mirror grain 12 is that particulate mirror and any interpolation material that comprises glue are formed mixed material, and described interpolation material is used to keep particulate to have its settling position and focus point after curing.13 have two important effects: one for particulate mirror battle array focuses on extra play in order to adjust particulate mirror battle array focus point, and 13 can need not to use when any interpolation material formation mixed material 12 can satisfy particulate mirror battle array focused condition.The 2nd, micro mirror seed lac bearing bed can fix and be carried out the focus-compensating effect of precision to the particulate mirror after exerting pressure when adopting planting system to produce.14 is holographic composograph photographic layer.15 is micropore phase paper carrier, can still can carry out chemical treatment to 14 holographic composograph photographic layers after exposure.When using printing paper photosensitive material medium, holographic composograph can be made holographic composograph by Exposure mode in advance on photosensitive material, but also can after forming, particulate mirror battle array structure carry out the exposure of optical matrix displacement model on photographic layer 14 in particulate mirror direction again, and so then can the perfect self-adaptation synchronous effect of easier acquisition hologram image.

Figure 11 is the sensitive film carrier structure synoptic diagram of microparticle lens array holographic printing of the present invention; 16 for micro mirror grain 17 is that particulate mirror and any interpolation material that comprises glue are formed mixed material, and described interpolation material is used to keep particulate to have its settling position and focus point after curing.18 for the transparent material carrier can be in order to adjust particulate mirror battle array focus point.19 is holographic composograph photographic layer, can carry out chemical treatment after exposure.When using transparent feel luminescent material medium, holographic composograph can be made holographic composograph by Exposure mode in advance on photosensitive material, but also can after forming, particulate mirror battle array structure carry out the exposure of optical matrix displacement model on photographic layer 19 in particulate mirror direction again, and so then can the perfect self-adaptation synchronous effect of easier acquisition hologram image.

Figure 12 is that employed reticulate texture prints a kind of mode in order to explanation particulate lens array holographic in the microparticle lens array holographic printing of the present invention, it can use and silk screen processing mode of the prior art, can select the silk screen of appropriate size mesh to carry out the printing of particulate lens array holographic according to bead size.Also can adopt such as metal thin type sheet materials such as corrosion resistant plates the many mesh 25 that on described steel plate, form selvage 20 as shown in figure 12 and press arranged by commonly used means such as burn into laser engraving, punching press and mode.Particulate camera lens distributed architecture figure according to expection selects the particulate of appropriate size and suitable reticulate texture, particulate 22 and any interpolation material that comprises glue are formed mixed material 23, described interpolation material is used to keep particulate to have its settling position and focus point after curing, and with netted or arbitrary shape structural arrangement on described holographic composograph, utilize external force means pressure roller or scraper plate 24 evenly to be laid on described mixed material netted then or the arbitrary shape structure on, make particulate fall in the hole of structure the 21 particulate mirror battle arrays that form the expection distributed architectures.This kind particulate lens array holographic mode of printing also is suitable for not using any interpolation material that comprises glue to form mixed material 23, and the step that only single use particulate mirror powder is directly handled.Can select the particulate of appropriate size and suitable netted or arbitrary shape structure according to the particulate camera lens distributed architecture figure of expection, one hyaline layer with adhesion is set on described holographic composograph earlier, and with netted or arbitrary shape structural arrangement on this hyaline layer, utilize external force that described particulate evenly is laid on the reticulate texture then, make particulate fall into the particulate mirror battle array that forms the expection distributed architecture in the reticulate texture.This dual mode also can mix and carries out.This kind particulate lens array holographic mode of printing both had been suitable for Fig. 1 Fig. 2 matrix-style, was suitable for Fig. 3 misplace mode and random fashion particulate mirror battle array printing shown in Figure 5 too.After superposeing synchronously, particulate mirror battle array that it produces and holographic composograph just can produce hologram image or raster image effect.Also be suitable for simultaneously the photosensitive material medium and after particulate mirror battle array structure forms, carry out the exposure of optical matrix displacement model again on photosensitive material, so then can the perfect synchronous effect hologram image of easier acquisition.

The step of the local particulate mirror of Figure 13 battle array printing can need not the local particulate mirror battle array printing that again centre partly illustrated after the processing that special type visible sensation effect partly carries out the area of isolation layer with it with reference to Figure 12.

More than illustrational embodiment all be equal and opposite in direction and regularly arranged particulate mirror battle array, in addition, the particulate mirror battle array that can also adopt different sizes and random alignment to form realizes the output of holographic special type visible sensation effect image, as Figure 14 to the manufacturing process of introducing the particulate lens array holographic image of a random alignment formation in detail shown in Figure 180.The hologram image material of Figure 14 for needing to make.At first use particulate mirror printing ink on carrier arbitrarily, to print out the particulate mirror battle array 31 of random alignment as shown in figure 15, and microballon is not of uniform size, has jelly between each microballon so that the mutual alignment between the microballon is fixed by printing equipment.The manufacturing process of the particulate lens array holographic image that forms because of random alignment needs one group of standard setting point, 32 and 33 localization criterias in handling as process.

As shown in figure 16, the particulate mirror battle array 36 of above-mentioned formation is scanned by light source on 35 and optical scanner 37, finish the microballon local distribution structural drawing that obtains after the collection of view data and the conversion as shown in figure 17.

Then according to the microballon distributed architecture figure of the above-mentioned particulate mirror battle array that obtains, employing " 3D4U special type visible sensation effect design software " image synthesizing softwares such as (3D4U VISUAL EFFECT IMAGE DESIGN) is produced the holographic composograph based on Figure 14 picture material corresponding to this microballon distributed architecture figure, at last particulate mirror battle array is combined just exportable demonstration holographic special type visible sensation effect image as shown in figure 18 with holographic composograph.

Figure 19 shifts method and the step that production method forms particulate mirror battle array to Figure 22 for microparticle lens array holographic printing particulate mirror absorption of the present invention; Be used to introduce the method that employing face planting system forms particulate mirror battle array.At first make a plurality of particulate mirror battle array moulding substrates 64 that are used to locate the concave surface 61 of particulate camera lens that have as shown in figure 19, a plurality of concave surfaces 61 in this substrate 64 are arranged according to the particulate camera lens distributed architecture figure of expection, an aperture 60 that leads to the vacuum draw road are arranged below the concave surface 61 of particulate camera lens.62 demonstrate out the part that needs printing to form particulate mirror battle array in the black surround.

Figure 20 be on the A axis of Figure 19 B to the side cutaway view between the C, each concave surface 66 bottom has the through hole 70 that is connected to vacuum draw passage 68, utilize vacuum suction apparatus that vacuum draw passage 68 is aspirated, particulate camera lens 67 is adsorbed in all or part of concave surface 66, and the concave surface that need not the adsorbent particles camera lens adopts restraining barrier or analog 65 to block.Handle holographic composograph layer 73 as Figure 21 on paper wood, sheet or other any carrier 74, processing mode described here has comprised printing or has formed in the photosensitive material exposure.One hyaline layer 72 with adhesion is set on holographic composograph layer 73, the particulate mirror battle array that forms in the substrate 71 contacted with hyaline layer 72 and adhere to be fixed on this hyaline layer 72, the operation vacuum suction apparatus makes particulate mirror battle array moulding substrate 71 separate with particulate mirror battle array, exports as Figure 22 thereby make particulate mirror battle array combine and obtain local or complete particulate lens array holographic image synchronously with holographic composograph layer 73.

Figure 23 is used to introduce and adopts point to plant or the row planting system forms the method for particulate mirror battle array.Handle holographic composograph layer on paper wood, sheet or other any carrier, processing mode described here has comprised printing or has formed in the photosensitive material exposure.At holographic composograph or layer one hyaline layer 83 with adhesion is set on 84, utilizing particulate implanted device 81 successively particulate 82 to be implanted according to the camera lens distributed architecture figure of expection and adhered to is fixed on the described hyaline layer 83 with adhesion, wherein each particulate of implanting can be for one or more, every next planted for point, and be each a plurality of and form one and classify as and plant.

Use particulate mirror battle array printing ink directly to carry out the particulate implantation and directly adhere to being fixed on paper wood, sheet or other any carrier at particulate implanted device 86 as shown in figure 24, wherein each particulate of implanting can be for one or more, every next planted for point, and be each a plurality of and form one and classify as and plant.This mode also can be carried out large-area injecting type at random simultaneously and be planted.

Above-described only is the embodiment that optimizes among the present invention, should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, and these all belong to protection scope of the present invention.

Related term definition and explanation that the present invention is mentioned:

The mentioned hologram image of the present invention is meant the image by three-dimensional or other special type visible sensation effect with prospect holography (or claiming that 180 spend holography) that is produced after the particulate mirror battle array of the particulate mirror formation one-tenth of the particulate mirror battle array of matrix form micro lens formation, dislocation type micro lens, the formation of random mode micro lens and the combination synchronously of holographic composograph.

The mentioned raster image of the present invention is meant that the particulate mirror battle array that forms by the matrix form micro lens combines the back solid that can have that is produced or the image of other special type visible sensation effect synchronously with the grating composograph on single direction.

The mentioned special type visible sensation effect image of the present invention is meant the general name of the various visible sensation effect images beyond the conventional planar image.

The particulate mirror battle array printing ink that the present invention carried is meant and can directly carries out the particulate mirror mixed material that the printing of particulate mirror battle array is used with what but particulate mirror powder and printing transparent printing ink or similar substance mixed.

Holographic composograph of vision involved in the present invention and grating composograph etc. are made processing mode, normal operation in " 3D4U special type visible sensation effect design software " (3D4U VISUAL EFFECT IMAGE DESIGN) platinum version software.Specific implementation method or will in many different patents of invention, disclose.

The holographic composograph of the image optical matrix displacement model that is suitable for the photosensitive material medium involved in the present invention is made processing mode, normal operation in " 3D4U special type visible sensation effect design software " (3D4U VISUALEFFECT IMAGE DESIGN) platinum version software.Specific implementation method or will in many different patents of invention, disclose.

Claims (10)

1. microparticle lens array holographic printing, it may further comprise the steps: adopt the particulate that reflects lens function as elementary cell, by direct printing, plant, particulate mirror battle array that mode such as transfer printing forms local or complete and regular or random arrangement; Carry out combining synchronously to obtain the very color hologram image output of local or complete particulate mirror battle array with described particulate mirror battle array with the holographic composograph of its synchronised; The formation step of above-mentioned particulate mirror battle array and integrating step are for carrying out synchronously or successively carrying out.

2. microparticle lens array holographic printing according to claim 1, it is characterized in that: the particulate camera lens distributed architecture figure according to expection selects the particulate of appropriate size and suitable reticulate texture, particulate and any interpolation material that comprises glue are formed mixed material, described interpolation material is used to keep particulate to have its settling position and focus point after curing, and with netted or arbitrary shape structural arrangement on described holographic composograph, utilize external force evenly to be laid on described mixed material netted then or the arbitrary shape structure on, make particulate fall into the particulate mirror battle array that forms the expection distributed architecture in all or part of hole of structure, adhere to simultaneously and be fixed on the holographic composograph.Then keep the holographic composograph right of elder generation or aftertreatment during photosensitive material.

3. microparticle lens array holographic printing according to claim 1, it is characterized in that: the particulate camera lens distributed architecture figure according to expection selects the particulate of appropriate size and suitable netted or arbitrary shape structure, one hyaline layer with adhesion is set on described holographic composograph earlier, and with netted or arbitrary shape structural arrangement on this hyaline layer, utilize external force evenly to be laid on described particulate on the reticulate texture then, make particulate fall in the cancellated all or part of hole particulate mirror battle array that forms the expection distributed architecture, adhere to simultaneously and be fixed on the hyaline layer of holographic composograph.Then keep the holographic composograph right of elder generation or aftertreatment during photosensitive material.

4. microparticle lens array holographic printing according to claim 1, it is characterized in that: select the particulate of any specification or same specification and make it form the particulate mirror battle array of random arrangement, this particulate mirror battle array is sampled by the optical scanning instrument and handle to obtain the camera lens distributed architecture figure of this particulate mirror battle array, adopt Computer Design to go out to be synchronized with the holographic composograph of this camera lens distributed architecture figure, then described particulate mirror battle array is synchronously combined with holographic composograph.This right also comprised with the same manner and being coated on the photosensitive material, by matrix displacement exposure and directly obtain the synchronous hologram image of self-adaptation.

5. microparticle lens array holographic printing according to claim 1, it is characterized in that: make and to have a plurality of particulate mirror battle array moulding substrates that are used to locate the concave surface of particulate camera lens, these suprabasil a plurality of concave surfaces are arranged according to the particulate camera lens distributed architecture figure of expection, each concave bottom has the through hole that is connected to the vacuum draw passage, utilize vacuum suction apparatus that the vacuum draw passage is aspirated, particulate is adsorbed in all or part of concave surface; One hyaline layer with adhesion is set on holographic composograph, the particulate mirror battle array that forms in the substrate contacted with hyaline layer and adhere to be fixed on this hyaline layer, the operation vacuum suction apparatus makes particulate mirror battle array moulding substrate separate with particulate mirror battle array, thus particulate mirror battle array is combined synchronously with holographic composograph and obtain the part or complete particulate lens array holographic image export.

6. microparticle lens array holographic printing according to claim 1, it is characterized in that: a hyaline layer with adhesion is set on holographic composograph or its camera lens extended layer, utilize the particulate implanted device according to the camera lens distributed architecture figure of expection or be about to particulate with spray, pressure carries mode such as plant and adheres to and be fixed on the described hyaline layer with adhesion, wherein each particulate of implanting can be for one or more.This right has also comprised non-use adhesion hyaline layer, but directly presses on the particulate mirror battle array that forms on the holographic composograph by particulate is formed mixed material with any interpolation material that comprises glue.

7. according to the arbitrary described microparticle lens array holographic printing of claim 1 to 6, it is characterized in that: described particulate has arbitrary shapes such as comprising sphere, ellipse or cylindricality and size, any materials, plated film, photonasty, hollow, color, other factor photoluminescence, other factor and causes the characteristic that one or more combinations that variable color, other factor cause inefficacy, DNA gene, magnetic etc. are produced.

8. according to the arbitrary described microparticle lens array holographic printing of claim 1 to 6, it is characterized in that: described hologram image is meant the various non-directional special type visible sensation effect image that comprises the holographic three-dimensional image of 180 degree prospects, or comprise raster stereoscopic picture various the directivity special type visible sensation effect image arranged; Described hologram image has comprised the combination of the figure and the image of arbitrary patterns, but and the real-world object of reproducing recorded and true environment.

9. according to the arbitrary described microparticle lens array holographic printing of claim 1 to 6, it is characterized in that: described particulate mirror battle array is the mixed-resolution particulate mirror battle array of compatible depth perception and sharpness simultaneously, adopt the particulate of different size to form this local particulate mirror battle array respectively for each part with different resolution, maybe need then to express with the highest resolution of original output device for its non-three-dimensional part by no camera lens zone with the part that high definition is expressed, and limited by lens parameters, thereby form the particulate mirror battle array of mixed-resolution and the hologram image that exportable demonstration has mixed-resolution on the whole.

10. according to the arbitrary described microparticle lens array holographic printing of claim 1 to 6, it is characterized in that: described holographic composograph is that output device or printing equipment directly are printed on common undertake the printing of carrier or the transparent material carrier before utilizing computing machine, seal, or directly exposure on the photosensitive material carrier that carried out after particulate mirror battle array is handled and form holographic composograph.

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