CN102019778A - Method and relevant device for printing stereo photographs - Google Patents

Abstract

The invention provides a method for printing stereo photographs. The method comprises the following steps: making a grating structure on the surface of a protective layer area of an inked ribbon, wherein the inked ribbon includes a plurality of dye areas and the protective layer area; receiving a target image data; moving a printing medium; respectively performing the transfer printing of the plurality of dye areas of the inked ribbon to the printing medium according to the target image data during the process of moving the printing medium; and performing the transfer printing of the protective layer area of the inked ribbon to the printing medium after the plurality of dye areas of the inked ribbon are respectively transferred and printed to the printing medium.

Description

Print the method and the related printing apparatus thereof of stereoscopic photograph

Technical field

The present invention is about a kind of method and related printing apparatus thereof of photograph print, particularly a kind of optical grating construction is formed at the protective layer district of colour band, so as to printing the method and the related printing apparatus thereof of stereoscopic photograph.

Background technology

Stereoscopic photograph can change audience's visual angle over to three dimensions by two-dimensional space, so as to the degree of depth of scenery being restored on stereoscopic photograph to increase the sense of reality of picture, so the audience can identify the distance and the degree of depth of scenery in the space by watching stereoscopic photograph.The radian that the method that produces stereoscopic vision comprises the adjustment eyeball to be changing the eyeball focal length, and the visual angle of two of adjustment, and it all utilizes principle of parallax.Because audience's eyes can present different angles and distance respectively when observing stereoscopic photograph,, after these data are handled through brain, promptly can produce the stereoscopic vision of spatial distribution so the imaging meeting on eyes produces parallax.The stereopsis technology comprises holographic three-dimensional image, raster image and semicolumn lens image etc.Wherein, it is more or less freely with the technology that generates stereoscopic photograph to use lenticular lenses, so be the stereopsis treatment technology of extensive employing of quilt.In general, common stereoscopic photograph preparation method can roughly be divided into two kinds at present, and a kind of is direct print process, and meaning promptly directly will be printed in the back side of lenticular lenses through the image data that stereopsis is handled; Another kind then is that table is legal, and meaning is about to be printed in general print media through the image data that stereopsis is handled, and then by adhesive the optical grating construction table is closed on print media.But the process that lenticular lenses is engaged on the print media is quite complicated and consuming time, and shows a large amount of adhesive of legal needs, and so as to print media and lenticular lenses are pasted together securely, its print speed is slow and production cost is higher.But how event designs printing speed and the lower stereoscopic photograph of production cost is printed the machine-processed problem of the required effort of information industry now that just is.

Summary of the invention

The invention provides and a kind of optical grating construction is formed at the protective layer district of colour band, so as to printing the method and the related printing apparatus thereof of stereoscopic photograph, to solve the above problems.

The present invention discloses a kind of method of printing stereoscopic photograph; its surface that is included in a protective layer district of a colour band makes an optical grating construction; wherein this colour band comprises a plurality of dye areas and this protective layer district; receive target image data; move one and print media; in the process that moves this print media; according to these target image data these a plurality of dye areas of this colour band are transferred to this print media respectively; and after these a plurality of dye areas of this colour band are transferred to this print media respectively, this protective layer district of this colour band is transferred to this print media.

The present invention also discloses a kind of printing equipment that is used for printing stereoscopic photograph, and it comprises an actuating unit, and it is used for moving a printing media actuating unit; One colour band, it comprises a plurality of dye areas and a protective layer district, the surface in this protective layer district is formed with an optical grating construction; One thermal printer head, it is used for these a plurality of dye areas of this colour band and this protective layer district are transferred to this print media respectively; An and control module; it is coupled in this actuating unit and this thermal printer head; this control module is used for moving this print media according to this actuating unit of target image Data Control of being received, and controls this thermal printer head these a plurality of dye areas and this protective layer district of this colour band is transferred to this print media respectively.

Description of drawings

Fig. 1 is the schematic diagram of preferred embodiment of the present invention printing equipment.

Fig. 2 is the schematic diagram of preferred embodiment of the present invention colour band.

Fig. 3 is the schematic diagram in preferred embodiment of the present invention protective layer district.

Fig. 4 prints the flow chart of stereoscopic photograph for the preferred embodiment of the present invention.

The main element symbol description

10 printing equipments, 12 actuating units

14 print media, 16 colour bands

18 dye areas, 20 protective layer districts

22 optical grating constructions, 24 thermal printer heads

26 control module Y weld districts

M magenta dye district C cyan dye district

K black dyes district

Step 100,102,104,106,108,110,112,114,116

The specific embodiment

See also Fig. 1, Fig. 1 is the schematic diagram of the preferred embodiment of the present invention one printing equipment 10.Printing equipment 10 can be a heat sublimation type printer, and it can be used to print stereoscopic photograph.Printing equipment 10 comprises an actuating unit 12, and it is used for moving one and prints media 14, and actuating unit 12 can comprise transmission mechanisms such as motor and roller; And a colour band 16, it comprises a plurality of dye areas 18 and a protective layer district 20.Protective layer district 20 is made up of tool high light transmittance material; and protective layer district 20 can be made up of waterproof, grease proofing or anti-ultraviolet protective material; so can be used to protect the dyestuff that prints can not touch moisture, moisture content and the oil stain that is brought because of staff; and flushing, fade and defiled, the surface in protective layer district 20 is formed with an optical grating construction 22.Printing equipment 10 also comprises a thermal printer head 24, and it is used for a plurality of dye areas 18 of colour band 16 and protective layer district 20 are transferred to respectively on the print media 14; An and control module 26; it is coupled in actuating unit 12 and thermal printer head 24; control module 26 is used for according to the target image data that received with control actuating unit 12 mobile print media 14, and control thermal printer head 24 is transferred to print media 14 respectively with a plurality of dye areas 18 and the protective layer district 20 of colour band 16.Wherein, the image data of these target image data for handling through stereopsis, and this target image data system can be a staggered image data.For instance, staggered image data can be by the several pictures captured from different visual angles to same scenery, and are recorded on the single print media 14 with striation and are formed.

See also Fig. 2, Fig. 2 is the schematic diagram of preferred embodiment of the present invention colour band 16.Colour band 16 comprises a plurality of dye areas 18 and protective layer district 20.Wherein, a plurality of dye areas 18 can comprise a yellow (Yellow) dye area Y, poinsettia look (Magenta) dye area M, a cyan (Cyan) dye area C; and black (Black) dye area K, dye area 18 repeatedly is arranged on the colour band 16 with protective layer district 20.A plurality of dye areas 18 can be selected from weld district Y, magenta dye district M, cyan dye district C, and with black dyes district K one of them or its any combination, it is described that it can be not limited to the foregoing description, look closely design requirement and decide.Protective layer district 20 can be made up of soft material, for example polyvinyl chloride (Polyvinyl Chloride, PVC) material or thermoplastic polyurethane (Thermoplastic Polyurethane, TPU) etc. material is formed; Protective layer district 20 also can be made up of the hard material, for example polyester (Polyester, PET) or polypropylene (Polypropylene, PP) etc. material is formed.The material in protective layer district 20 can be not limited to above-mentioned described, looks closely actual demand and decides.Wherein, a plurality of dye areas 18 of colour band 16 and protective layer district 20 can the heat sublimation mode be transferred on the print media 14.

See also Fig. 3, Fig. 3 is the schematic diagram in preferred embodiment of the present invention protective layer district 20.The surface in protective layer district 20 is formed with optical grating construction 22, and it is used for refracted ray to present different patterns in different visual angles.Optical grating construction 22 can be in a side and is formed with a plurality of half-cylindrical lines and opposite side is the high light transmittance material on complete plane.The spacing of a plurality of half-cylindrical lines of optical grating construction 22 is for equating, so as to the reflection ray of stereopsis picture on the transmission print media equably 14.Optical grating construction 22 can be a narrow angle (narrow angle) optical grating construction or a wide angle (wide angle) optical grating construction, in general, stereoscopic photograph with depth of field is fit to use narrow angle grating structure, its visual angle is about 15 degree between 44 degree, and two change figure photos are fit to use wide angle optical grating construction, its visual angle to be about 44 degree between 65 degree.And that the selection of optical grating construction 22 and structure can be not limited to the foregoing description is described, looks closely design requirement and decides.

See also Fig. 4, Fig. 4 prints the flow chart of stereoscopic photograph for the preferred embodiment of the present invention.This method comprises the following steps:

Step 100: the surface in protective layer district 20 makes optical grating construction 22;

Step 102: will have the protective layer district 20 of optical grating construction 22 and the colour band 16 of a plurality of dye area 18 and be assembled in the printing equipment 10;

Step 104: printing equipment 10 receiving target image datas, wherein the target image data can be the staggered image data of handling through stereopsis;

Step 106: control module 26 is according to a plurality of dye areas 18 of target image data setting colour band 16 and the corresponding association of print media 14;

Step 108: control module 26 is according to the protective layer district 20 of target image data setting colour band 16 and the corresponding association of print media 14;

Step 110: control module 26 control actuating units 12 are with mobile print media 14;

Step 112: in the process of mobile print media 14, control module 26 control thermal printer heads 24 are transferred to respectively on the print media 14 according to a plurality of dye areas 18 of target image data with colour band 16;

Step 114: after control module 26 control thermal printer heads 24 were transferred to print media 14 respectively with a plurality of dye areas 18 of colour band 16, control module 26 control thermal printer heads 24 were transferred on the print media 14 according to the protective layer district 20 of target image data with colour band 16;

Step 116: finish.

At this above-mentioned steps being done one describes in detail.At first; before printing stereoscopic photograph; surface in protective layer district 20 makes optical grating construction 22; because protective layer district 20 is designed to a high light-transmitting materials with uvioresistant and waterproof and anti-wet goods function; so the surface in protective layer district 20 makes optical grating construction 22, can produce the colour band 16 that has defencive function and grating function simultaneously, so that the user can pass through general printing equipment 10; for example the heat sublimation type printer prints stereoscopic photograph fast and simply.The material of optical grating construction 22 and visual angle are selected can be according to the user to the demand of stereoscopic photograph and design voluntarily.Next, after the colour band 16 that the user will have the protective layer district 20 of optical grating construction 22 and an a plurality of dye area 18 is installed on printing equipment 10, can begin to carry out the printing of stereoscopic photograph.At first; the control module 26 of printing equipment 10 can receive the target image data of handling through stereopsis, and sets a plurality of dye areas 18 and the protective layer district 20 of print media 14 and colour band 16 and the corresponding association of print media 14 of colour band 16 respectively according to the target image data.Afterwards, control module 26 control actuating units 12 are with a set rate mobile print media 14, and according to the previous corresponding association control thermal printer head of setting 24 with different temperatures with the opposite position that weld district Y, magenta dye district M, cyan dye district C and the black dyes district K of a plurality of dye areas 18 is transferred to the print media 14 that moves with set rate respectively, draw so as to forming a stereopsis.Yet this moment, the audience also can't directly produce the image frame of tool stereoeffect by watching stereopsis to draw in brain.Therefore; control module 26 can be used to protective layer district 20 is transferred on the opposite position of the print media 14 that has the stereopsis picture according to the previous corresponding association of setting with control thermal printer head 24 at last; meaning is that the covering protection stereopsis is drawn; can protect the stereopsis that prints not draw thus first and can touch the moisture that is brought because of staff; moisture content and oil stain; and flushing; fade; and defiled; second can make the audience view and admire stereopsis and draw, and produce the image frame of tool stereoeffect simultaneously in brain via protective layer district 20 with optical grating construction 22.

Compare with prior art, printing equipment of the present invention can use general printing equipment to print stereoscopic photograph, and does not need additionally to be provided with gluing mechanism so that print media and optical grating construction are pasted together.Printing equipment of the present invention directly is made in optical grating construction in the protective layer district of traditional colour band; the protective layer district that will have optical grating construction again is transferred on the print media, so the present invention can shorten the time-write interval effectively, save the printing cost and promote operation ease.

The above only is the preferred embodiments of the present invention, and is all according to equalization variation and modification that the present invention did, all should belong to covering scope of the present invention.

Claims (24)

1. method of printing stereoscopic photograph, it comprises:

Surface in a protective layer district of a colour band makes an optical grating construction, and wherein this colour band comprises a plurality of dye areas and this protective layer district;

Receive target image data;

Move one and print media;

In moving the process of this print media, these a plurality of dye areas of this colour band are transferred to this print media respectively according to these target image data; And

After these a plurality of dye areas of this colour band are transferred to this print media respectively, this protective layer district of this colour band is transferred to this print media.

2. method according to claim 1, it also comprises:

According to these target image data, set these a plurality of dye areas of this colour band and the corresponding association of this print media.

3. method according to claim 1, it also comprises:

According to these target image data, set this protective layer district of this colour band and the corresponding association of this print media.

4. method according to claim 1 wherein receives these target image data and comprises reception one staggered image data.

5. method according to claim 1, wherein these a plurality of dye areas comprise a weld district, poinsettia look dye area, a cyan dye district, and a black dyes district.

6. method according to claim 1, wherein this optical grating construction is a narrow angle grating structure.

7. method according to claim 1, wherein this optical grating construction is a wide angle optical grating construction.

8. method according to claim 1, wherein this protective layer district is made up of soft material.

9. method according to claim 8, wherein this protective layer district is made up of the polyvinyl chloride material.

10. method according to claim 8, wherein this protective layer district is made up of the thermoplastic polyurethane material.

11. method according to claim 1, wherein this protective layer district is made up of the hard material.

12. method according to claim 1, wherein a plurality of dye areas of this of this colour band and this protective layer district are transferred to this print media in the heat sublimation mode.

13. a printing equipment that is used for printing stereoscopic photograph, it comprises:

One actuating unit, it is used for moving a printing media actuating unit;

One colour band, it comprises a plurality of dye areas and a protective layer district, the surface in this protective layer district is formed with an optical grating construction;

One thermal printer head, it is used for these a plurality of dye areas of this colour band and this protective layer district are transferred to this print media respectively; And

One control module; it is coupled in this actuating unit and this thermal printer head; this control module is used for moving this print media according to this actuating unit of target image Data Control of being received, and controls this thermal printer head these a plurality of dye areas and this protective layer district of this colour band is transferred to this print media respectively.

14. printing equipment according to claim 13, wherein this control module is used for according to these target image data with these a plurality of dye areas of setting this colour band corresponding association with this print media.

15. printing equipment according to claim 13, wherein this control module is used for according to these target image data with this protective layer district of setting this colour band corresponding association with this print media.

16. printing equipment according to claim 13, wherein these target image data are a staggered image data.

17. printing equipment according to claim 13, wherein these a plurality of dye areas comprise a weld district, poinsettia look dye area, a cyan dye district, and a black dyes district.

18. printing equipment according to claim 13, wherein this optical grating construction is a narrow angle grating structure.

19. printing equipment according to claim 13, wherein this optical grating construction is a wide angle optical grating construction.

20. printing equipment according to claim 13, wherein this protective layer district is made up of soft material.

21. printing equipment according to claim 20, wherein this protective layer district is made up of the polyvinyl chloride material.

22. printing equipment according to claim 20, wherein this protective layer district is made up of the thermoplastic polyurethane material.

23. printing equipment according to claim 13, wherein this protective layer district is made up of the hard material.

24. printing equipment according to claim 13, it is a heat sublimation type printer.

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