CN102290000A - Color-superposed tricolor inkless printing book page paper - Google Patents
Color-superposed tricolor inkless printing book page paper Download PDFInfo
- Publication number
- CN102290000A CN102290000A CN2011101862577A CN201110186257A CN102290000A CN 102290000 A CN102290000 A CN 102290000A CN 2011101862577 A CN2011101862577 A CN 2011101862577A CN 201110186257 A CN201110186257 A CN 201110186257A CN 102290000 A CN102290000 A CN 102290000A
- Authority
- CN
- China
- Prior art keywords
- page
- paper
- primary
- line
- amplitude modulation
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Color Printing (AREA)
Abstract
The invention discloses color-superposed tricolor inkless printing book page paper. The color-superposed tricolor inkless printing book page paper consists of book page paper, square tricolor amplitude modulation dots, row scanning lines which are printed on the book page paper, column scanning lines which are printed on the book page paper, column scanning guide lines which are printed on the book page paper, page scanning control lines which are printed on the book page paper, and tricolor thin-film bidirectional analog switches which are printed on the book page paper. Images and characters on the book page paper consist of the tricolor amplitude modulation dots and the contents of the book page paper can be quickly written and updated by electrifying to change colors of the square tricolor amplitude modulation dots on the book page paper and fade the square tricolor amplitude modulation dots, so that the book page paper can be printed quickly and reused for multiple times.
Description
Affiliated technical field:
The present invention relates to a kind of printing page paper, the inkless printing page of particularly a kind of look overlapping three primary colours paper based on printed electronics, the content on this page paper can write and upgrade fast, can realize page paper quick print and be repeatedly used.
Background technology:
Since the mankind have invented type printing, books, picture, newspaper etc. just become the important tool of the cultural log history of human record succession, be printed in the evolution of human history and play crucial effect, why human culture has today, also is to get off to pass to the offspring because can preserve culture.
Existing printing technology makes people printing word and pattern on paper become easier, but owing to the file or the data information that obtain by existing printing technology can not be changed, therefore need a large amount of trees of felling, produce a large amount of paper, not only destroyed environment but also caused a large amount of wastes.
In the last few years along with the fast development of printed electronics, can be printed on stationery to thin-film electronic element such as thin film transistor (TFT), resistance, inductance and electric capacity, dry goods, on the grounds such as PVC plastics, leather, fast development along with the printed electronics technology, the kind of printing ink is also in quick increase, heat discoloration printing ink, sensitization discoloration printing ink, wet sensitive ink, magnetic ink, electrically conductive ink, electrochromism printing ink etc. widespread usage at different print fields.
Along with the development of modern electronic technology, people have proposed to utilize electric ink and microcapsules electrophoretic film to make the notion of various electronic papers, but owing to cost an arm and a leg Electronic Paper mainly towards the demonstration field, they are used for newspaper or the books field is very difficult.
Summary of the invention:
In order to overcome existing printing technology shortcoming, the deficiency that the present invention is directed to the prior art existence is improved prior art, utilize electrically conductive ink and electrochromism printing ink to replace the employed common ink of existing printing technology, and the inkless printing page of a kind of look overlapping three primary colours paper proposed on this basis, the content of this page paper can write and upgrade fast, can realize page paper quick print and be repeatedly used.
The technical solution adopted for the present invention to solve the technical problems is:
The inkless printing page of a kind of look overlapping three primary colours paper by page or leaf paper, be printed on square three primary colours amplitude modulation site on page paper, be printed on horizontal scanning line on page paper, be printed on column scan line on page paper, be printed on column scan lead-in wire on page paper, be printed on the page scan control line on page paper and the three primary colours film bidirectional analog switch that is printed on page paper constitutes, image and literal on the page or leaf paper are made of square three primary colours amplitude modulation site
Each square three primary colours amplitude modulation site on the page or leaf paper is all by red, green, blue three the square amplitude modulation of homalographic sites divide the ply printing to form, and between every layer, be printed on transparent insulation printing ink, make the red of each square three primary colours amplitude modulation site, green, be state of insulation between blue three the square amplitude modulation of homalographic sites, the red amplitude modulation site of each square three primary colours amplitude modulation site is printed by red electrochromism printing ink and is formed, the green amplitude modulation site of each square three primary colours amplitude modulation site is printed by green electrochromism printing ink and is formed, the blue amplitude modulation site of each square three primary colours amplitude modulation site is printed by blue electrochromism printing ink and is formed, horizontal scanning line on the page or leaf paper is divided into the red primary horizontal scanning line, green primary horizontal scanning line and blue primary horizontal scanning line, red primary horizontal scanning line on the page or leaf paper, the green primary horizontal scanning line, the blue primary horizontal scanning line, column scan line on the page or leaf paper, column scan lead-in wire and page scan control line are printed by electrically conducting transparent printing ink and are formed
The horizontal scanning line that is printed on page paper has the 3N bar, the column scan line that is printed on page paper has the M bar, the column scan lead-in wire that is printed on page paper has the M bar, the square three primary colours amplitude modulation site that is printed on page paper is divided into the capable M row of N on paper, square three primary colours amplitude modulation site is the neat arranged that is on page or leaf paper paper, allow i get 1 to N, allow j get 1 to M, the red amplitude modulation site of each square three primary colours amplitude modulation site of the j row on j bar column scan line on the page or leaf paper and the page or leaf paper, green amplitude modulation site and blue amplitude modulation site basal surface are electrically connected, the red amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar red primary horizontal scanning line of page or leaf on the paper and i on page paper are capable is electrically connected, the green amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar green primary horizontal scanning line of page or leaf on the paper and i on page paper are capable is electrically connected, the blue amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar blue primary horizontal scanning line of page or leaf on the paper and i on page paper are capable is electrically connected, column scan lead-in wire on the page or leaf paper is parallel to each other with the horizontal scanning line on page paper, j bar column scan lead-in wire on the page or leaf paper is vertical mutually with the j bar column scan line on page paper, and the j bar column scan lead-in wire on the page or leaf paper is electrically connected with the j bar column scan line on page paper, and be printed on transparent insulation printing ink between the j bar column scan lead-in wire on the page or leaf paper and each the bar column scan line beyond the j bar column scan line on the page or leaf paper
Each three primary colours film bidirectional analog switch on the page or leaf paper is all by red primary line scanning film bidirectional analog switch, green primary line scanning film bidirectional analog switch and blue primary line scanning film bidirectional analog switch constitute, red primary line scanning film bidirectional analog switch on the page or leaf paper, green primary line scanning film bidirectional analog switch, blue primary line scanning film bidirectional analog switch all has two input/output terminals and an input and output break-make control end, three primary colours film bidirectional analog switch on the page or leaf paper all is printed on the same side of page paper, line scanning film bidirectional analog switch on the page or leaf paper is divided into three groups, red primary line scanning film bidirectional analog switch is first group, green primary line scanning film bidirectional analog switch is second group, blue primary line scanning film bidirectional analog switch is the 3rd group, first group i red primary line scanning film bidirectional analog switch is positioned at an end of the i bar red primary horizontal scanning line on page paper on the page or leaf paper, on the page or leaf paper on i bar red primary horizontal scanning line and page paper two input/output terminals of i red primary line scanning film bidirectional analog switch be electrically connected, i red primary line scanning film bidirectional analog switch series is connected on page paper on the i bar red primary horizontal scanning line on the page or leaf paper, second group i green primary line scanning film bidirectional analog switch is positioned at an end of the i bar green primary horizontal scanning line on page paper on the page or leaf paper, on the page or leaf paper on i bar green primary horizontal scanning line and page paper two input/output terminals of i green primary line scanning film bidirectional analog switch be electrically connected, i green primary line scanning film bidirectional analog switch series is connected on page paper on the i bar green primary horizontal scanning line on the page or leaf paper, the 3rd group i blue primary line scanning film bidirectional analog switch is positioned at an end of the i bar blue primary horizontal scanning line on page paper on the page or leaf paper, on the page or leaf paper on i bar blue primary horizontal scanning line and page paper two input/output terminals of i blue primary line scanning film bidirectional analog switch be electrically connected, i blue primary line scanning film bidirectional analog switch series is connected on page paper on the i bar blue primary horizontal scanning line on the page or leaf paper, the break-make control end of the three cluster film bidirectional analog switches of page or leaf on the paper all is electrically connected with page scan control line on the page or leaf paper, and the side that column scan lead-in wire on page paper and horizontal scanning line all are printed with three primary colours film bidirectional analog switch from page or leaf paper is guided to the edge of page paper.
When needs write on content on page paper, at first the page scan control line on the page or leaf paper is changed to high level, make all the three primary colours film bidirectional analog switch conductions on page paper, page paper is changed to writes enable state,
When page or leaf paper be changed to write enable state after, the lead-in wire of the 1st column scan on the page or leaf paper and the column scan of M bar gone between is changed to high level successively, makes the 1st column scan line and M bar column scan line on page paper be changed to high level successively,
When the 1st column scan line on the page or leaf paper is changed to high level, the red display information that the 1st row on the page or leaf paper will write is imported from the 1st to the line scanning of N bar red primary, the green display message that the 1st row on the page or leaf paper will write is imported from the 1st to the line scanning of N bar green primary, the blue display message that the 1st row on the page or leaf paper will write is imported from the 1st to the line scanning of N bar blue primary, make each the square three primary colours amplitude modulation site that links to each other with the 1st row column scan line on page paper be listed as write red by the 1st, green, blue display message adds electrochromics
Can repeat above-mentioned ablation process to other row on the page or leaf paper, and utilize the Memorability of electrochromism printing ink, can make the content on page paper preserve the long period,
The invention has the beneficial effects as follows: proposed the inkless printing page of a kind of reusable look overlapping three primary colours paper, the content of this page paper can write and upgrade fast, can realize page paper quick print and be repeatedly used.
Description of drawings
The present invention is further described below in conjunction with accompanying drawing.
Fig. 1 is the structural drawing of the inkless printing page of the overlapping three primary colours of look of the present invention paper.
The A-A cut-open view of the circular three primary colours amplitude modulation of Fig. 2 site.
The structural drawing of Fig. 3 three primary colours film bidirectional analog switch.
The structural drawing of Fig. 4 line scanning film bidirectional analog switch.
In Fig. 1, the inkless printing page of look overlapping three primary colours paper is by page or leaf paper 9-1, be printed on square three primary colours amplitude modulation site 8-1 on page paper to 8-96, be printed on horizontal scanning line 3-1 on page paper to 3-12, be printed on horizontal scanning line 4-1 on page paper to 4-12, be printed on horizontal scanning line 5-1 on page paper to 5-12, be printed on column scan line 1-1 on page paper to 1-8, the column scan that is printed on page paper goes between 2-1 to 2-8, the three primary colours film bidirectional analog switch 6-1 that is printed on the page scan control line 7-1 on page paper and is printed on page paper constitutes to 6-12, image and literal on the page or leaf paper are made of to 8-96 square three primary colours amplitude modulation site 8-1
Each square three primary colours amplitude modulation site on the page or leaf paper 9-1 all divides the ply printing to form by three the square amplitude modulation of homalographic of red, green, blue site, and between every layer, be printed on transparent insulation printing ink, make between three the square amplitude modulation of homalographic of the red, green, blue site of each square three primary colours amplitude modulation site and be state of insulation
In Fig. 1 and Fig. 2, be printed on square three primary colours amplitude modulation site 8-1 on page paper 9-1 by red amplitude modulation site 8-1-1, green amplitude modulation site 8-1-2, blue amplitude modulation site 8-1-3 constitutes, between red amplitude modulation site 8-1-1 and green amplitude modulation site 8-1-2, be printed on transparent insulation printing ink 10-1, between green amplitude modulation site 8-1-2 and blue amplitude modulation site 8-1-3, be printed on transparent insulation printing ink 10-2, column scan line 1-8 is by above-listed sweep trace 1-8-1, middle column scan line 1-8-2, following sweep trace 1-8-3 is electrically connected and forms, following sweep trace 1-8-3 is electrically connected with the basal surface of red amplitude modulation site 8-1-1, middle column scan line 1-8-2 is electrically connected with the basal surface of green amplitude modulation site 8-1-2, following sweep trace 1-8-1 is electrically connected with the basal surface of blue amplitude modulation site 8-1-3, red primary horizontal scanning line 3-1 is electrically connected with the upper surface of red amplitude modulation site 8-1-1, green primary horizontal scanning line 4-1 is electrically connected with the upper surface of green amplitude modulation site 8-1-2, blue primary horizontal scanning line 5-1 is electrically connected with the upper surface of blue amplitude modulation site 8-1-3
The red amplitude modulation site of each square three primary colours amplitude modulation site is printed by red electrochromism printing ink and is formed, the green amplitude modulation site of each square three primary colours amplitude modulation site is printed by green electrochromism printing ink and is formed, the blue amplitude modulation site of each square three primary colours amplitude modulation site is printed by blue electrochromism printing ink and is formed, horizontal scanning line on the page or leaf paper 9-1 is divided into red primary horizontal scanning line 3-1 to 3-12, green primary horizontal scanning line 4-1 to 4-12 and blue primary horizontal scanning line 5-1 to 5-12, red primary horizontal scanning line 3-1 on the page or leaf paper 9-1 is to 3-12, green primary horizontal scanning line 4-1 to 4-12 and blue primary horizontal scanning line 5-1 to 5-12, column scan line 1-1 is to 1-8, column scan lead-in wire 2-1 is formed by the printing of electrically conducting transparent printing ink to 2-8 and page scan control line 7-1
The horizontal scanning line that is printed on page paper 9-1 has the 3N bar, the column scan line that is printed on page paper 9-1 has the M bar, the column scan lead-in wire that is printed on page paper 9-1 has the M bar, the square three primary colours amplitude modulation site 8-1 that is printed on page paper 9-1 is divided into the capable M row of N to 8-96 on page or leaf paper 9-1, square three primary colours amplitude modulation site 8-1 is to 8-96 neat arranged that is on the paper of page or leaf paper 9-1, allow i get 1 to N, allow j get 1 to M, the red amplitude modulation site of each square three primary colours amplitude modulation site of the j row on j bar column scan line on the page or leaf paper 9-1 and the page or leaf paper 9-1, green amplitude modulation site and blue amplitude modulation site basal surface are electrically connected, the red amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar red primary horizontal scanning line on the page or leaf paper 9-1 and i on page paper 9-1 are capable is electrically connected, the green amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar green primary horizontal scanning line on the page or leaf paper 9-1 and i on page paper 9-1 are capable is electrically connected, the blue amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar blue primary horizontal scanning line on the page or leaf paper 9-1 and i on page paper 9-1 are capable is electrically connected, horizontal scanning line on column scan lead-in wire on the page or leaf paper 9-1 and the page or leaf paper 9-1 is parallel to each other, j bar column scan lead-in wire on the page or leaf paper 9-1 is vertical mutually with j bar column scan line on page paper 9-1, and the j bar column scan lead-in wire on the page or leaf paper 9-1 is electrically connected with j bar column scan line on page paper 9-1, and be printed on transparent insulation printing ink between each the bar column scan line beyond the j bar column scan line on j bar column scan lead-in wire on the page or leaf paper 9-1 and the page or leaf paper 9-1
In Fig. 3, three primary colours film bidirectional analog switch 6-1 is made of red primary line scanning film bidirectional analog switch 6-1-1, green primary line scanning film bidirectional analog switch 6-1-2 and blue primary line scanning film bidirectional analog switch 6-1-3,
In Fig. 4, each line scanning film bidirectional analog switch all has two input/output terminal I/O1 and I/O2, an input and output break-make control end IN1,
As three primary colours film bidirectional analog switch 6-1, each three primary colours film bidirectional analog switch on the page or leaf paper 9-1 is all by red primary line scanning film bidirectional analog switch, green primary line scanning film bidirectional analog switch and blue primary line scanning film bidirectional analog switch constitute, three primary colours film bidirectional analog switch on the page or leaf paper 9-1 all is printed on page the same side of paper 9-1, line scanning film bidirectional analog switch on the page or leaf paper 9-1 is divided into three groups, red primary line scanning film bidirectional analog switch is first group, green primary line scanning film bidirectional analog switch is second group, blue primary line scanning film bidirectional analog switch is the 3rd group, i last first group red primary line scanning film bidirectional analog switch of page or leaf paper 9-1 is positioned at an end of the i bar red primary horizontal scanning line on page paper 9-1, the last i bar of page or leaf paper 9-1 red primary horizontal scanning line is electrically connected with two input/output terminals of last i the red primary line scanning film bidirectional analog switch of page or leaf paper 9-1, i last second group green primary line scanning film bidirectional analog switch of page or leaf paper 9-1 is positioned at an end of the i bar green primary horizontal scanning line on page paper 9-1, the last i bar of page or leaf paper 9-1 green primary horizontal scanning line is electrically connected with two input/output terminals of last i the green primary line scanning film bidirectional analog switch of page or leaf paper 9-1, i last the 3rd group blue primary line scanning film bidirectional analog switch of page or leaf paper 9-1 is positioned at an end of the i bar blue primary horizontal scanning line on page paper 9-1, the last i bar of page or leaf paper 9-1 blue primary horizontal scanning line is electrically connected with two input/output terminals of last i the blue primary line scanning film bidirectional analog switch of page or leaf paper 9-1, the break-make control end of three cluster film bidirectional analog switches on the page or leaf paper 9-1 all is electrically connected with page scan control line 7-1 on the page or leaf paper 9-1, column scan lead-in wire on the page or leaf paper 9-1 and horizontal scanning line are all guided to page edge of paper 9-1 from the side that page or leaf paper 9-1 is printed with three primary colours film bidirectional analog switch
When needs write on content page paper 9-1 and go up, at first the page scan control line 7-1 on the page or leaf paper 9-1 is changed to high level, make three primary colours film bidirectional analog switch 6-1 on page paper 9-1 to the 6-12 conducting, a page paper 9-1 is changed to writes enable state,
When page or leaf paper 9-1 be changed to write enable state after, the column scan on page or leaf paper 9-1 lead-in wire 2-1 is changed to high level successively to 2-8, make the column scan line 1-1 on page paper 9-1 be changed to high level successively to 1-8,
When the 1st column scan line on the page or leaf paper 9-1 is changed to high level, the red display information that last the 1st row of page or leaf paper 9-1 will write is imported to 3-12 from red primary line scanning 3-1, the green display message that last the 1st row of page or leaf paper 9-1 will write is imported to 4-12 from green primary line scanning 4-1, the blue display message that last the 1st row of page or leaf paper 9-1 will write is imported to 5-12 from blue primary line scanning 5-1, each square three primary colours amplitude modulation site that page paper 9-1 is upward linked to each other with the 1st row column scan line is listed as write red by the 1st, green, blue display message adds electrochromics
Can repeat above-mentioned ablation process to other row on the page or leaf paper 9-1, and utilize the Memorability of electrochromism printing ink, can make the content on page paper 9-1 preserve the long period.
Claims (1)
1. the inkless printing page of a look overlapping three primary colours paper is made of page or leaf paper, three primary colours amplitude modulation site, horizontal scanning line, column scan line, column scan lead-in wire, page scan control line and three primary colours film bidirectional analog switch,
It is characterized in that:The inkless printing page of look overlapping three primary colours paper by page or leaf paper, be printed on square three primary colours amplitude modulation site on page paper, be printed on horizontal scanning line on page paper, be printed on column scan line on page paper, be printed on column scan lead-in wire on page paper, be printed on the page scan control line on page paper and the three primary colours film bidirectional analog switch that is printed on page paper constitutes, image and literal on the page or leaf paper are made of square three primary colours amplitude modulation site
Each square three primary colours amplitude modulation site on the page or leaf paper is all by red, green, blue three the square amplitude modulation of homalographic sites divide the ply printing to form, and between every layer, be printed on transparent insulation printing ink, make the red of each square three primary colours amplitude modulation site, green, be state of insulation between blue three the square amplitude modulation of homalographic sites, the red amplitude modulation site of each square three primary colours amplitude modulation site is printed by red electrochromism printing ink and is formed, the green amplitude modulation site of each square three primary colours amplitude modulation site is printed by green electrochromism printing ink and is formed, the blue amplitude modulation site of each square three primary colours amplitude modulation site is printed by blue electrochromism printing ink and is formed, horizontal scanning line on the page or leaf paper is divided into the red primary horizontal scanning line, green primary horizontal scanning line and blue primary horizontal scanning line, red primary horizontal scanning line on the page or leaf paper, the green primary horizontal scanning line, the blue primary horizontal scanning line, column scan line on the page or leaf paper, column scan lead-in wire and page scan control line are printed by electrically conducting transparent printing ink and are formed
The horizontal scanning line that is printed on page paper has the 3N bar, the column scan line that is printed on page paper has the M bar, the column scan lead-in wire that is printed on page paper has the M bar, the square three primary colours amplitude modulation site that is printed on page paper is divided into the capable M row of N on paper, square three primary colours amplitude modulation site is the neat arranged that is on page or leaf paper paper, allow i get 1 to N, allow j get 1 to M, the red amplitude modulation site of each square three primary colours amplitude modulation site of the j row on j bar column scan line on the page or leaf paper and the page or leaf paper, green amplitude modulation site and blue amplitude modulation site basal surface are electrically connected, the red amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar red primary horizontal scanning line of page or leaf on the paper and i on page paper are capable is electrically connected, the green amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar green primary horizontal scanning line of page or leaf on the paper and i on page paper are capable is electrically connected, the blue amplitude modulation site upper surface of each square three primary colours amplitude modulation site that the i bar blue primary horizontal scanning line of page or leaf on the paper and i on page paper are capable is electrically connected, column scan lead-in wire on the page or leaf paper is parallel to each other with the horizontal scanning line on page paper, j bar column scan lead-in wire on the page or leaf paper is vertical mutually with the j bar column scan line on page paper, and the j bar column scan lead-in wire on the page or leaf paper is electrically connected with the j bar column scan line on page paper, and be printed on transparent insulation printing ink between the j bar column scan lead-in wire on the page or leaf paper and each the bar column scan line beyond the j bar column scan line on the page or leaf paper
Each three primary colours film bidirectional analog switch on the page or leaf paper is all by red primary line scanning film bidirectional analog switch, green primary line scanning film bidirectional analog switch and blue primary line scanning film bidirectional analog switch constitute, red primary line scanning film bidirectional analog switch on the page or leaf paper, green primary line scanning film bidirectional analog switch, blue primary line scanning film bidirectional analog switch all has two input/output terminals and an input and output break-make control end, three primary colours film bidirectional analog switch on the page or leaf paper all is printed on the same side of page paper, line scanning film bidirectional analog switch on the page or leaf paper is divided into three groups, red primary line scanning film bidirectional analog switch is first group, green primary line scanning film bidirectional analog switch is second group, blue primary line scanning film bidirectional analog switch is the 3rd group, first group i red primary line scanning film bidirectional analog switch is positioned at an end of the i bar red primary horizontal scanning line on page paper on the page or leaf paper, on the page or leaf paper on i bar red primary horizontal scanning line and page paper two input/output terminals of i red primary line scanning film bidirectional analog switch be electrically connected, i red primary line scanning film bidirectional analog switch series is connected on page paper on the i bar red primary horizontal scanning line on the page or leaf paper, second group i green primary line scanning film bidirectional analog switch is positioned at an end of the i bar green primary horizontal scanning line on page paper on the page or leaf paper, on the page or leaf paper on i bar green primary horizontal scanning line and page paper two input/output terminals of i green primary line scanning film bidirectional analog switch be electrically connected, i green primary line scanning film bidirectional analog switch series is connected on page paper on the i bar green primary horizontal scanning line on the page or leaf paper, the 3rd group i blue primary line scanning film bidirectional analog switch is positioned at an end of the i bar blue primary horizontal scanning line on page paper on the page or leaf paper, on the page or leaf paper on i bar blue primary horizontal scanning line and page paper two input/output terminals of i blue primary line scanning film bidirectional analog switch be electrically connected, i blue primary line scanning film bidirectional analog switch series is connected on page paper on the i bar blue primary horizontal scanning line on the page or leaf paper, the break-make control end of the three cluster film bidirectional analog switches of page or leaf on the paper all is electrically connected with page scan control line on the page or leaf paper, and the side that column scan lead-in wire on page paper and horizontal scanning line all are printed with three primary colours film bidirectional analog switch from page or leaf paper is guided to the edge of page paper.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201110186257 CN102290000B (en) | 2011-07-05 | 2011-07-05 | Color-superposed tricolor inkless printing book page paper |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201110186257 CN102290000B (en) | 2011-07-05 | 2011-07-05 | Color-superposed tricolor inkless printing book page paper |
Publications (2)
Publication Number | Publication Date |
---|---|
CN102290000A true CN102290000A (en) | 2011-12-21 |
CN102290000B CN102290000B (en) | 2012-12-26 |
Family
ID=45336374
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 201110186257 Expired - Fee Related CN102290000B (en) | 2011-07-05 | 2011-07-05 | Color-superposed tricolor inkless printing book page paper |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN102290000B (en) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2004017134A1 (en) * | 2002-08-15 | 2004-02-26 | Koninklijke Philips Electronics N.V. | Full-color electrochromic display with stacked in cell monochromic electrochromes |
CN1949070A (en) * | 2006-11-09 | 2007-04-18 | 西南大学 | Reflecting type whole solid paper loading electrochromism device and preparation method thereof |
CN101290447A (en) * | 2008-06-03 | 2008-10-22 | 武汉大学 | Flexible electric shock window type electronic paper preparation method |
CN202110744U (en) * | 2011-07-05 | 2012-01-11 | 北京印刷学院 | Color-overlapping inkless printing page paper with three primary colors |
-
2011
- 2011-07-05 CN CN 201110186257 patent/CN102290000B/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2004017134A1 (en) * | 2002-08-15 | 2004-02-26 | Koninklijke Philips Electronics N.V. | Full-color electrochromic display with stacked in cell monochromic electrochromes |
CN1949070A (en) * | 2006-11-09 | 2007-04-18 | 西南大学 | Reflecting type whole solid paper loading electrochromism device and preparation method thereof |
CN101290447A (en) * | 2008-06-03 | 2008-10-22 | 武汉大学 | Flexible electric shock window type electronic paper preparation method |
CN202110744U (en) * | 2011-07-05 | 2012-01-11 | 北京印刷学院 | Color-overlapping inkless printing page paper with three primary colors |
Also Published As
Publication number | Publication date |
---|---|
CN102290000B (en) | 2012-12-26 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102298876B (en) | Three-color overlapping ink-free printing paper | |
CN202106702U (en) | Non-ink printing paper | |
CN102831835A (en) | Inkless printing book paper | |
CN202110744U (en) | Color-overlapping inkless printing page paper with three primary colors | |
CN202106701U (en) | Inkless-printed book | |
CN202120526U (en) | Equal-area color division three-base-color inkless printing page paper | |
CN202110743U (en) | Three-primary color inkless printing book page paper with delta color separation | |
CN102290000B (en) | Color-superposed tricolor inkless printing book page paper | |
CN102346990B (en) | Homalographic color-separation inkless printing book paper with three primary colors | |
CN202106703U (en) | Three-color overlapping inkless printing paper | |
CN202110740U (en) | Inkless printing paper with three primary colors and same areas | |
CN202110741U (en) | Three-color overlapped page paper | |
CN202110739U (en) | Inkless printing paper with three primary colors | |
CN202110742U (en) | Three-primary color book page paper with equal-area color separation | |
CN202126807U (en) | Chinese character pin color-separation three-primary-color page paper | |
CN202110738U (en) | Equiareal three-primary color printing paper | |
CN102314807A (en) | Tricolor overlapped-printing paper | |
CN202110736U (en) | Overlapping printing paper with three primary colors | |
CN202126763U (en) | Inkless-printed book page paper | |
CN102831832B (en) | Inkless printed electronic pictorial | |
CN202110737U (en) | Three-primary color printing paper | |
CN202106700U (en) | Inkless printed electronic pictorial | |
CN102831831B (en) | Inkless printing newspaper volume | |
CN102831834B (en) | Inkless printing wall calendar | |
CN202106698U (en) | Inkless printed hanging calendar |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121226 Termination date: 20130705 |