CN203036552U - Three-dimensional color decoration lighting device - Google Patents

Abstract

The utility model relates to a three-dimensional color decorating lighting device which comprises a transparency sheet, a printing layer, a light source and a frame. One surface of the transparency sheet is provided with a protruded cylindrical lens structure, a concave cylindrical lens structure or a semi-spherical micro-lens array. The printing layer is located on the other surface of the transparency sheet. A layer of surface modification layer is added between the transparency sheet and the printing layer. The light source is selected from a light emitting diode (LED) module such as an organic LED light source, and the light source and the transparency sheet are combined by the frame. According to the three-dimensional color decoration lighting device, a principle of cylinder-shaped grating and three-dimensional moir and a digital printing technology are used, and three-dimensional artistic senses with high color saturation of the transparency sheet are enabled to appear, and the three-dimensional color decoration lighting device is formed by a plane which combines the LED such as the organic LED light source, a pliability light source module and the frame. The micro-lens array and the digital printing technology on the transparency sheet enable two-degree space images to present three-dimensional effects of a three-degree space. Effects of spotlights and distributing lights can be further achieved by the design of the lens structure on the transparency sheet.

Description

A kind of three-dimensional colored drawing lighting device

Technical field

The utility model relates to lighting device, particularly relates to a kind of three-dimensional colored drawing lighting device, along with the development of plane and soft flexible light source, in conjunction with presenting of illumination and artistic colour painting, can be the illumination design and adding unlimited possibility.The utility model mainly is to utilize digital printed on clear sheet, and the effect that the art of reaching presents is more utilized by transparent microlens array clear sheet, makes image present the stereoeffect of three-dimensional space (3D).

Background technology

Stereoscopic imaging technology can be divided into two big classes: (1) directly can observe stereoeffect with eyes; (2) aid (for example: wear special spectacles) must be worn and just stereoeffect can be observed.Wherein, the stereoscopic imaging technology of the first kind has: parallax barrier anaglyph (Parallax Barrier) claims black line anaglyph (Black Line Stereo), 3 D full-figure art (Holography), three-dimensional folded line method (Hologravure), raster pattern stereoscopic display method (Lenticular3D Display) again, piles up anaglyph technology such as (Integral Method).

Raster pattern stereoscopic display method is to utilize dome-type lens (Microlens) or lens pillar (lenticular lens) matrix, be positioned over before the 2D pattern, change along with the visual angle, the pattern that presents in each lens has a little difference, along with move at the visual angle, can make the audience produce stereo perception from the image of different lens.

The stereoscopic visual effect of three-dimensional folded line (Moire3D) is different from general original screen panel stereosopic printing technology, calculates folded line three-dimensional depth (can control foreground depth and background depth) with folded line mathematical formulae.At present three-dimensional folded escutcheon brush can be divided into the three-dimensional folded line of raster pattern also has a shortcoming to be with the three-dimensional line of folding of the three-dimensional folded line (round dot grating .) of microlens type, when some people sees eyes can feel under the weather (because of its vision apart from burnt different, compare the front), viewing distance zooms out a bit just relatively good.

Three-dimensional folded line has many restrictions and challenge in printing, the folded line of often seeing at present is adjusted to the master with monochrome, if want the folded line of printed color to have the problem of register trouble, tend to cause by the gross that printed matter produces serious aberration, generally folded line preferably adds four looks with special look (special look) and prints ideal together.

Original screen panel can be divided into according to material: PET PET (present the most frequently used material), polyvinylchloride (soft material), polypropylene PP (price is low but weak effect is unfit to do large scale), polystyrene and acryl etc., and wherein best with the light transmission of acryl.

The utility model content

Along with light emitting diode (Light emitting diode, LED) with Organic Light Emitting Diode (Organic light emitting diode, OLED) development of light source, plane and soft flexible flexible light source have become inevitable trend, the opportunity that the designer of throwing light on especially develops new intention.Illumination is not in just illumination, and in conjunction with design and colored drawing, more indoor and outdoor whole art has added unlimited possibility.From design point of view, because sending uniform light in whole surface, be fit to very much the plane of interior decoration, as metope, floor, ceiling, the illumination possibility of table top and curtain and clothes.Also owing to the frivolous flexible characteristic of OLED, the design that bending of light can be innovated in the performance of limited space free flexibly effectively is on the interior trim as automobile, aircraft, luxurious passenger steamer and motor vehicle.

From illumination advantage low in calories, be fit to very much sign and the advertisement plate of the refrigerator display case of sensitive temperature control.

A kind of three-dimensional colored drawing lighting device that the utility model provides comprises a clear sheet, a printed layers, a light source and frame and combines; Wherein a surface of this clear sheet has convex lens pillar, matrix lens pillar or dome-type microlens array, and printed layers then at the another side of this clear sheet, increases layer of surface upgrading layer between clear sheet and printed layers; Wherein this light source is selected from the light-emitting diode (LED) module light source, by frame light source and clear sheet is combined, and described light-emitting diode (LED) module light source comprises: the Organic Light Emitting Diode light source.

Preferable, above-mentioned three-dimensional colored drawing lighting device, wherein to be positioned over the back side of printed layers be direct-light-type backlight to this light source, or be the sidelight source around clear sheet.

Preferable, above-mentioned three-dimensional colored drawing lighting device, wherein the per inch lens pillar line number of this convex lens pillar or matrix column lens array is between 5 to 100.

Preferable, above-mentioned three-dimensional colored drawing lighting device, wherein this Organic Light Emitting Diode light source is made with flexible substrate, and this frame also is flexual plastic cement or nesa coating, so the integral illumination device presents bendability characteristics.

Preferable, above-mentioned three-dimensional colored drawing lighting device, wherein this clear sheet is selected from plastic plate, glass or nesa coating.

Preferable, above-mentioned three-dimensional colored drawing lighting device, wherein the printing aspect of this clear sheet, surface at clear sheet, also have simultaneously the micro-structural on surface, then on the micro-structural face, wherein this micro-structural is water chestnut mirror structure, pyramid structure or dome-type microlens array to printed layers figure line.

Preferable, above-mentioned three-dimensional colored drawing lighting device, the printing aspect of this clear sheet wherein, surface at clear sheet, paste the hyaline membrane material that one deck has surface micro-structure earlier in addition, printed layers figure line is then at the micro-structural face, and wherein this micro-structural is water chestnut mirror structure, pyramid structure or dome-type microlens array.

Preferable, above-mentioned three-dimensional colored drawing lighting device, wherein another surperficial convex column lens arrangement of the water chestnut mirror structure on this clear sheet tool printed layers surface and clear sheet is arranged to be and is arranged in parallel or arranged vertical.

Preferable, above-mentioned three-dimensional colored drawing lighting device, wherein this frame is selected from metal, plastic cement, wooden frame or elastomeric material.

The utility model also provides a kind of three-dimensional colored drawing lighting device, comprises two clear sheet, respectively has printed layers, a light source and the frame of a phase diagram line to combine on it; Wherein a surface of this clear sheet has diamond pattern lens, convex lens pillar, matrix lens pillar or dome-type microlens array, and printed layers then on lens, increases layer of surface upgrading layer between lens and printed layers; Wherein this light source can be selected from light-emitting diode (LED) module; With two clear sheets with phase diagram line, with printing surface to light source, overlapping in the same way but 0.2 to 3 mm distance that staggers of two figure lines, again with frame with this two clear sheets and combination of light sources, described light-emitting diode (LED) module light source comprises: the Organic Light Emitting Diode light source.

The utility model mainly is to utilize cylindric grating (Lenticular) and three-dimensional principle of folding line, and digital printed technology, make clear sheet present the three-dimensional art sense of high color saturation, in conjunction with plane and pliability light source module and the framework of light emitting diode such as Organic Light Emitting Diode light source module, form the three-dimensional colored drawing lighting device.Wherein the microlens array on the clear sheet and digital printed technology make 2 degree space (2D) images present the stereoeffect of three-dimensional space (3D).Microstructure design on the clear sheet further reaches optically focused, equal effects of light.

When light source was LED, this clear sheet can be the LGP of led module; When light source was OLED, this clear sheet can be the encapsulating material of OLED.Can certainly be outside LED or the OLED module, the transparent material that additionally adds.This material is generally glass, plastic film or nesa coating.Nesa coating is a hyaline membrane (being generally PET), be coated with thereon indium tin oxide (Indium Tin Oxide, ITO), the electrically conducting transparent layer pattern (pattern) of zinc oxide (ZnO), wire netting, CNT, Graphene, metal nanometer line and conducting polymer (US4959430) etc. etc.

The at present existing modular commodity of planar light source can be obtained, for example: the OLED (Lumiblade Panel) of the LED flat-plate light source of luxuriant woods company and Dong Bei company, Philip (PHILPS) and the OLED flat-plate light source (ORBEOS) of Ou Silang (OSRAM).Also there are many companies in pliability oled light source at present near commercialization, for example: Samsung (Samsung) and happy golden (LG) company.

The main problem to be overcome of the utility model for how to possess high color saturation, high brightness and have the high three-dimensional colored drawing illumination that contrasts presents, therefore select for use the material of single or double lens arrangement to print, and the combination of different lens arrangements, be key technology of the present utility model.

For the pattern that reaches the 3D solid presents, the use of lens arra is main means, comprising convex column lens arrangement, matrix lens pillar structure or dome-type microlens array.Above-mentioned surface texture more has the extraneous light of reduction function of reflecting except the effect of 3D is provided, and makes the contrast of printing figure line promote.

In order to reach high color saturation, the process for treating surface that the utility model utilization is suitable is to increase the adsorption capacity of printing ink on perspex, glass or electrically conducting transparent membrane material.In conjunction with digital printed technology, reach the figure line effect of high-res, be coated with the transparent ink protective layer 4 of last layer high rigidity then, to avoid printing figure line by scratch.Wherein can optionally adjust the refractive index of upgrading layer and printing ink protective layer, to reach whole high-penetration, the effect of low reflection.

In order further to increase the light emission rate of light source, the utility model adopts the compound lens sheet material, and one side provides the effect of 3D for the column lens pillar; It then is column, hemispherical or pyramid micro-structural that another side is to be printed, and this micro-structural is except having optically focused or spreading all effects of light, and its height rough surface also reaches ink adhesion preferably, with color saturation.At the Organic Light Emitting Diode light source, water chestnut mirror structure or pyramid structure help to extract oled light, and reach the effect of high brightness.

The mode of production of lens pillar or compound lens can be divided into: 1. with columnar mould roll extrusion mode.2. the mould of apparatus prismatic mirror shape is shaped with the plastic cement shoot mode.3. apparatus prismatic mirror shape roller is shaped with the UV glue laminated mode of closing.It is extremely important to have perfect flawless column structure, the continuity that can help 3D effect to present; As for micro-structural to be printed in the compound lens, then a little defective of tolerable has part to hide the effect of the flaw after the printing.

In printing many restrictions and challenge are arranged at the folded line of conventional stereo, and monochrome commonly used is adjusted to the problem of main and register trouble, the utility model is to adopt two complete identical printings, according to viewing and admiring distance, after finding out the folded figure of suitable dislocation distance, produce the effect of similar binocular parallax, and reach three-dimensional visual effect.So, can remove the problem of register trouble from, and the monotone of deriving restriction.

Frame in the utility model can be selected from metal, plastic cement, wooden frame or elastomeric material to cooperate pliability Organic Light Emitting Diode module.

By above stated specification as can be known, the utility model possesses following advantage:

1. plane or pliability lighting device can have aesthetic via printing, and the function of information is provided, and therefore start the new application of lighting device.

2. by in conjunction with column lens arrangement or dome-type lens arrangement, printing figure line presents stereoeffect, makes that will to transmit artistic image more lively, making illumination be used for advertising marketing, the more attention that can attract clients.

3. because the visual effect of 3D image, add slim light emitting diode such as Organic Light Emitting Diode light source, make lighting break away from traditional dull thinking, started beyond the illumination of space, show, attract unlimited new intention and application such as sight and caution in information.

The utility model gives traditional lighting not available usefulness, start art and information transmission effect that lighting device possesses attraction sight not seen before, the user can be in the place of needs illumination, take into account demand aesthstic and attraction sight, the real important document that possesses novelty, progress and industry utilization of the utility model.Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of specification, and for above-mentioned and other purpose, feature and advantage of the present utility model can be become apparent, below especially exemplified by preferred embodiment, and conjunction with figs., be described in detail as follows.

Description of drawings

For allowing above-mentioned and other purposes of the present utility model, feature, advantage and embodiment can become apparent appended graphic being described in detail as follows:

Fig. 1 is the schematic cross-section that illustrates a kind of three-dimensional colored drawing lighting device.

Fig. 2 is the schematic cross-section that illustrates another kind of three-dimensional colored drawing lighting device.

Fig. 3 (a) is the schematic cross-section that illustrates parallel and vertical compound lens sheet material with Fig. 3 (b).

Fig. 4 is the schematic cross-section that illustrates the three-dimensional colored drawing lighting device of parallel compound lens sheet material.

Fig. 5 is the schematic side view that illustrates the three-dimensional colored drawing lighting device of the folded line of rhombus lens material.

Fig. 6 is the schematic cross-section that illustrates the matrix lens pillar;

Fig. 7 is that printed layers is at the schematic diagram of lens face.

[main element symbol description]

1. lens pillar sheet material 2. surfaction layers

3. printed layers 4. printing ink protective layers

5. Organic Light Emitting Diode module 6. encapsulates materials

7. fluid sealant 8. conductor wires

9. plastic rubber substrate 10. nesa coatings

11. water chestnut mirror structure plate

The vertical compound lens of the parallel compound lens 12b of 12a

13. matrix lens pillar 14 dome-type microlens arrays

D. shift length

The specific embodiment

Relevant aforementioned and other technology contents, characteristics and effect of the present utility model can be known to present in the following detailed description that cooperates with reference to graphic preferred embodiment.Explanation by the specific embodiment, for reaching predetermined purpose, the technological means of taking and effect get more deeply and concrete understanding to the utility model, yet appended graphic only provide with reference to the usefulness of explanation, the utility model is limited.

In order to compare the stereoeffect of variety of way, therefore select for use identical light source, pattern to set with identical printing.

Embodiment one

As shown in Figure 1; select the lens pillar sheet material made from 10 centimeters * 10 centimeters acryl materials 1 for use; its specification is thickness 0.68mm; spacing is the lens pillar clear sheet of per inch 62 wire harness, coats surfaction layer 2 at its shiny surface, to improve the tack of printing ink; again in digital printed mode; stamp the printed layers 3 of desired figure line, be coated with the transparent ink protective layer 4 of last layer high rigidity then, to avoid printing figure line by scratch.Wherein can optionally adjust the refractive index of upgrading layer and printing ink protective layer, to reach whole high-penetration, the effect of low reflection.So just finish the lens pillar sheet material that has printed.

Select the ORBEOS Organic Light Emitting Diode module 5 of 9 centimeters * 9 centimeters Ou Silang (OSRAM) company for use, every watt of 14 lumens of luminous efficiency (Lm), briliancy 2800nits, below the colour temperature 2800K, color rendering index (Color Rendering Index, CRI) about 86.With PET (PET) serve as the encapsulation material 6, with fluid sealant 7 coating of Organic Light Emitting Diode light source is encapsulated on the above-mentioned lens pillar sheet material that has printed, the positive and negative electrode conductor wire 8 of light source is connected with the mains, assemble edge frame members, bonding jumper and the fastener of going up aluminium extruded type then and constitute, can obtain three-dimensional colored drawing lighting device of the present utility model.

Embodiment two

As shown in Figure 2; adopt and produce the lens pillar sheet material that has printed as the materials and methods of embodiment one; then in transparent ink protective layer 4 sides of its printing surface; adding last layer is that plastic rubber substrate 9 plates indium tin oxide (Indium Tin Oxide with PET; ITO), again with the nesa coating 10 of etching pattern-making (pattern).Select the Organic Light Emitting Diode module 5 as embodiment one for use, the positive and negative electrode conductor wire 8 of light source is connected on the electrode of nesa coating 10.Be encapsulation material 6 at last with PET, with fluid sealant 7 coating of Organic Light Emitting Diode light source be encapsulated on the nesa coating 10, so namely obtain three-dimensional colored drawing lighting device of the present utility model.

Embodiment three

At the shiny surface of lens pillar sheet material 1, with the pressure-sensing glue water chestnut mirror structure plate 11 of fitting, can form as the compound lens sheet material among Fig. 3 (a) and Fig. 3 (b).When the direction of fitting is lens pillar and water chestnut mirror parallelism structural, then be parallel compound lens 12a; Opposite, when the direction of fitting is lens pillar when vertical with water chestnut mirror structure, then be vertical compound lens 12b.The compound lens sheet material also can be the combination of column and column, hemispherical and pyramid lens except being the combination of lens pillar and water chestnut mirror.

This embodiment is that employing water chestnut mirror spacing is the water chestnut mirror structure plate 11 of per inch 80 wire harness, earlier at its water chestnut mirror structural plane, coats surfaction layer 2, digital printed layer 3 and printing ink protective layer 4, forms the water chestnut mirror structure plate 11 that has printed.And then its shiny surface sticked transparent acryl pressure-sensing glue, and be joined in parallel with lens pillar sheet material 1 among the embodiment one, form the parallel compound lens 12a that has printed.Assemble light source as embodiment one mode and become Fig. 4.

Embodiment four

Make the water chestnut mirror structure plate 11 that has printed as the mode of embodiment three, but be vertical engagement with lens pillar sheet material 1, form the vertical compound lens 12b that has printed.Assembling mode embodiment one.

Embodiment five

This embodiment adopts 2 millimeters of thickness, and spacing is the water chestnut mirror structure plate 11 of per inch 80 line numbers, earlier at its water chestnut mirror structural plane, coats surfaction layer 2, digital printed layer 3 and printing ink protective layer 4, forms the water chestnut mirror structure plate 11 that has printed.As shown in Figure 5, two groups of identical water chestnut mirror structure plates 11 that printed, with printing surface to light source, after piling up in a parallel manner, translation one shift length d again, shift length is 1 millimeter in this example, folded line stereoeffect when producing with great visual angle, 1 meter view and admire under the distance, face no 3D effect, but 3D effect is fine with great visual angle.Lighting device generally is contained in the height of 2-3 rice, views and admires under this distance, and general visual angle is in 45 degree, and therefore increasing shift length is that printing figure line presents good stereoeffect to about 2 millimeters.Printed water chestnut mirror structure plate with two and assembled 2 millimeters apart, assembled with Organic Light Emitting Diode module 5 and framework.

Fold the line stereoeffect as the aforementioned, wherein this water chestnut mirror structure plate 11 can be used convex lens pillar, matrix lens pillar 13, as shown in Figure 6 or dome-type microlens array 14 replace, printed layers can increase layer of surface upgrading layer then at lens face (as Fig. 7) between clear sheet and printed layers; Wherein this light source can be selected from light-emitting diode (LED) module such as Organic Light Emitting Diode light source; The clear sheet of these two identical printed layers, overlapping in the same way but 0.2 to 3 mm distance that staggers of two figure lines, again with frame with these two clear sheets that printed and 5 combinations of Organic Light Emitting Diode module.

Control group

As embodiment one, replace lens pillar sheet material 1 with 10 centimeters * 10 centimeters acryl plate materials (thickness 0.68mm), print relative program, and make up with frame with identical light source module.

Result such as the following table of comprehensive above embodiment:

Annotate: but still X is bad for zero good

By last table result as can be known, general performance the best of embodiment four, vertical compound lens 12b sheet material provides best brightness, definition, contrast and third dimension.Generally speaking, the rhombus lens of compound lens sheet material after printing, is close to the OLED exiting surface, suitably adjusts the coupling of the refractive index of printing ink protection 4 and surfaction layer 2, further assists the light of extraction OLED, reaches the effect of high brightness.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, though the utility model discloses as above with preferred embodiment, yet be not in order to limit the utility model, any those skilled in the art, in not breaking away from the technical solutions of the utility model scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, any simple modification that foundation technical spirit of the present utility model is done above embodiment, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (10)

1. a three-dimensional colored drawing lighting device is characterized in that comprising a clear sheet, a printed layers, a light source and frame and combines; Wherein a surface of this clear sheet has convex lens pillar, matrix lens pillar or dome-type microlens array, and printed layers then at the another side of this clear sheet, increases layer of surface upgrading layer between clear sheet and printed layers; Wherein this light source is selected from the light-emitting diode (LED) module light source, by frame light source and clear sheet is combined, and described light-emitting diode (LED) module light source comprises: the Organic Light Emitting Diode light source.

2. a kind of three-dimensional colored drawing lighting device as claimed in claim 1 is characterized in that the back side that this light source wherein is positioned over printed layers is direct-light-type backlight, or is the sidelight source around clear sheet.

3. a kind of three-dimensional colored drawing lighting device as claimed in claim 1 is characterized in that the per inch lens pillar line number of this convex lens pillar wherein or matrix column lens array is between 5 to 100.

4. a kind of three-dimensional colored drawing lighting device as claimed in claim 1 is characterized in that wherein this Organic Light Emitting Diode light source is made with flexible substrate, and this frame also is flexual plastic cement or nesa coating, so the integral illumination device presents bendability characteristics.

5. a kind of three-dimensional colored drawing lighting device as claimed in claim 1 is characterized in that wherein this clear sheet is selected from plastic plate, glass or nesa coating.

6. a kind of three-dimensional colored drawing lighting device as claimed in claim 1, it is characterized in that the surface that clear sheet wherein has a printed layers has micro-structural, then on micro-structural, wherein this micro-structural is water chestnut mirror structure, pyramid structure or dome-type microlens array to the figure line of printed layers.

7. a kind of three-dimensional colored drawing lighting device as claimed in claim 1, it is characterized in that the surface that clear sheet wherein has a printed layers pastes the hyaline membrane material that layer of surface has micro-structural in addition, then on micro-structural, wherein this micro-structural is water chestnut mirror structure, pyramid structure or dome-type microlens array to the figure line of printed layers.

8. as claim 6 or 7 described a kind of three-dimensional colored drawing lighting devices, it is characterized in that described convex column lens arrangement that clear sheet has this water chestnut mirror structure on surface of printed layers and another surface of clear sheet is to be arranged in parallel or arranged vertical.

9. a kind of three-dimensional colored drawing lighting device as claimed in claim 1 is characterized in that wherein this frame is selected from metal, plastic cement, wooden frame or elastomeric material.

10. a three-dimensional colored drawing lighting device is characterized in that comprising two clear sheet, respectively has printed layers, a light source and the frame of a phase diagram line to combine on it; Wherein a surface of this clear sheet has diamond pattern lens, convex lens pillar, matrix lens pillar or dome-type lens arra, and printed layers then on lens, increases layer of surface upgrading layer between lens and printed layers; Wherein this light source can be selected from the light-emitting diode (LED) module light source; With two clear sheets with phase diagram line, with printed layers towards light source, overlapping in the same way but 0.2 to 3 mm distance that staggers of two figure lines, again with frame with this two clear sheets and combination of light sources, described light-emitting diode (LED) module light source comprises: the Organic Light Emitting Diode light source.

Images