CN102256078B - Page television based on three-color overlapped inkless printing paper - Google Patents

Abstract

The invention relates to a page television based on three-color overlapped inkless printing paper. The page television provided by the invention comprises a page display screen and a television receiving system, wherein the page display screen comprises a film surface light source backlight plate, a square three-primary-color amplitude modulation net printed on the film surface light source backlight plate, a row scanning line printed on the film surface light source backlight plate, a column scanning line printed on the film surface light source backlight plate and a column scanning lead printed on the film surface light source backlight plate. The images and characters of the page television provided by the invention are displayed on the page of the printing paper, thus the television has the advantages of small thickness and light weight and can be used as a picture to be hung in a room.

Description

Page television set based on three looks overlapping inkless printing paper

Affiliated technical field:

The present invention relates to a kind of television set, particularly a kind of page television set based on three looks overlapping inkless printing paper, the image of this television set and literal are presented on the printing paper page, so this television set thin thickness, the width of cloth that can be used as in light weight are drawn and to be hung in the room.

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 through 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, resistance, inductance and electric capacity; Dry goods is on the grounds such as PVC plastics, leather, along with the fast development of 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.

Development along with modern electronic technology; Television technologies is also in development fast; Liquid crystal TV set has been walked close to people's life; But people pursue high definition, step energy-conservation and ultra-thin television does not still stop, and people have proposed to utilize electric ink and microcapsules electrophoretic film to make the notion of various electronic papers in recent years, but utilize the price ten minutes costliness of the electronic paper of electric ink and the manufacturing of microcapsules electrophoretic film.

Summary of the invention:

In order to overcome existing television technologies 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 a kind of page television set based on three looks overlapping inkless printing paper has been proposed on this basis, the image of this television set and literal are presented on the printing paper page, so this television set thin thickness, the width of cloth that can be used as in light weight are drawn and to be hung in the room.

The technical solution adopted for the present invention to solve the technical problems is:

Page television set based on three looks overlapping inkless printing paper is made up of page display screen and TV receiving system,

Page display screen by pellicular front light source backlight, be printed on square three primary colors amplitude modulation site on the pellicular front light source backlight, be printed on horizontal scanning line on the pellicular front light source backlight, be printed on the column scan line on the pellicular front light source backlight and the column scan lead-in wire that is printed on the pellicular front light source backlight constitutes; Image on the pellicular front light source backlight and literal are made up of square three primary colors amplitude modulation site

Be printed on each square three primary colors amplitude modulation site on the pellicular front light source backlight 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 colors 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 colors amplitude modulation site is printed by red electrochromism printing ink and is formed; The green amplitude modulation site of each square three primary colors amplitude modulation site is printed by green electrochromism printing ink and is formed; The blue amplitude modulation site of each square three primary colors amplitude modulation site is printed by blue electrochromism printing ink and is formed; Horizontal scanning line on the pellicular front light source backlight is divided into the red primary horizontal scanning line; Green primary horizontal scanning line and blue primary horizontal scanning line; The red primary horizontal scanning line of pellicular front light source backlight; The green primary horizontal scanning line; The blue primary horizontal scanning line; Column scan line on the pellicular front light source backlight and column scan lead-in wire are printed by electrically conducting transparent printing ink and are formed

The horizontal scanning line that is printed on the pellicular front light source backlight has the 3N bar; The column scan line that is printed on the pellicular front light source backlight has the M bar; The column scan lead-in wire that is printed on the pellicular front light source backlight has the M bar; The square three primary colors amplitude modulation site that is printed on the pellicular front light source backlight is divided into the capable M row of N; Square three primary colors amplitude modulation site pellicular front light source backlight neat be arranged; Let i get 1 to N; Let j get 1 to M; Red amplitude modulation site, green amplitude modulation site and the blue amplitude modulation site basal surface of each square three primary colors amplitude modulation site of the j row on the j bar column scan line on the pellicular front light source backlight and the pellicular front light source backlight are electrically connected; The red amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar red primary horizontal scanning line on the pellicular front light source backlight and the i on the pellicular front light source backlight are capable is electrically connected; The green amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar green primary horizontal scanning line on the pellicular front light source backlight and the i on the pellicular front light source backlight are capable is electrically connected; The blue amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar blue primary horizontal scanning line on the pellicular front light source backlight and the i on the pellicular front light source backlight are capable is electrically connected, and the horizontal scanning line on column scan lead-in wire on the pellicular front light source backlight and the pellicular front light source backlight is parallel to each other, and the j bar column scan lead-in wire on the pellicular front light source backlight is vertical each other with the j bar column scan line on the pellicular front light source backlight; And the j bar column scan lead-in wire on the pellicular front light source backlight is electrically connected with the j bar column scan line on the pellicular front light source backlight; And be printed on transparent insulation printing ink between each the bar column scan line beyond j bar column scan lead-in wire on the pellicular front light source backlight and the j bar column scan line on the pellicular front light source backlight, column scan lead-in wire on the pellicular front light source backlight and horizontal scanning line are all guided to the edge of pellicular front light source backlight from the same side of pellicular front light source backlight

TV receiving system is accepted antenna, frequency synthesis high-frequency tuner, visual audio frequency separation and intermediate frequency amplifier, audio frequency demodulating and decoding device, semitone power amplifier follower, loudspeaker, video signal digital decoder, column scan address follower, column scan driver, the digital follower of R G B, R G B data latches, the image digital driver of demonstration and pellicular front light source backlight driver by TV and is constituted

Audio frequency demodulating and decoding device, semitone power amplifier follower and loudspeaker have constituted television set semitone output system,

Video signal digital decoder, column scan address follower and column scan driver have constituted television set column scan output system, and the j bar column scan lead-in wire that is printed on the pellicular front light source backlight is electrically connected with the j bar column scan drive wire of column scan driver,

Video signal digital decoder, the digital follower of RGB, RGB data latches and image show that digital driver has constituted television image video data output system; The i bar red primary horizontal scanning line that is printed on the pellicular front light source backlight shows that with image the i bar red primary line data drive wire of digital driver is electrically connected; The i bar green primary horizontal scanning line that is printed on the pellicular front light source backlight shows that with image the i bar green primary line data drive wire of digital driver is electrically connected; The i bar blue primary horizontal scanning line that is printed on the pellicular front light source backlight shows that with image the i bar blue primary line data drive wire of digital driver is electrically connected

When page television boot-strap gets into receive status; At first pellicular front light source backlight driver is powered up; Make pellicular front light source backlight luminous; The column scan driver of television set is changed to high level successively with go between M bar column scan lead-in wire of the 1st column scan on the pellicular front light source backlight, makes the 1st column scan line on the pellicular front light source backlight be changed to high level successively to M bar column scan line

When the 1st column scan line on the pellicular front light source backlight is changed to high level; The digital driver of image demonstration is imported the red display information that the 1st row on the pellicular front light source backlight will write from the 1st to the line scanning of N bar red primary; The green demonstration information that the 1st row on the pellicular front light source backlight will write is imported from the 1st to the line scanning of N bar green primary; The blueness demonstration information that the 1st row on the pellicular front light source backlight 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 the pellicular front light source backlight add electrochromics by the red, green, blue demonstration information that the 1st row write; Ablation process to other row on the page television set is identical with above-mentioned the 1st row

One page image on page display screen writes and finishes, and by television image video data output system page display screen is powered up cls,

The invention has the beneficial effects as follows: proposed a kind of page television set based on three looks overlapping inkless printing paper, the image of this page television set and literal are presented on the printing paper page, so this television set thin thickness, the width of cloth that can be used as in light weight are drawn and to be hung in the room.

Description of drawings

Below in conjunction with accompanying drawing the present invention is further specified.

Fig. 1 is the front view that the present invention is based on the page television set of three looks overlapping inkless printing paper.

Fig. 2 is the end view that the present invention is based on the page television set of three looks overlapping inkless printing paper.

Fig. 3 is the structure chart of page display screen of the present invention.

The A-A cutaway view of the square three primary colors amplitude modulation of Fig. 4 site.

Fig. 5 is the structure chart of TV receiving system of the present invention.

In Fig. 1 and Fig. 2, constitute by page display screen 10-1 and TV receiving system 10-2 based on the page television set of three looks overlapping inkless printing paper,

In Fig. 3; Page display screen 10-1 is by pellicular front light source backlight 9-1; Be printed on square three primary colors amplitude modulation site 8-1 on the pellicular front light source backlight to 8-96; Be printed on horizontal scanning line 3-1 on the pellicular front light source backlight to 3-12; Be printed on horizontal scanning line 4-1 on the pellicular front light source backlight to 4-12; Be printed on horizontal scanning line 5-1 on the pellicular front light source backlight to 5-12; The column scan line 1-1 that is printed on the pellicular front light source backlight constitutes to 2-8 to 1-8 and the column scan lead-in wire 2-1 that is printed on the pellicular front light source backlight; Image on the pellicular front light source backlight and literal are made up of to 8-96 square three primary colors amplitude modulation site 8-1

In Fig. 3; Each the square three primary colors amplitude modulation site that is printed on the pellicular front light source backlight 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 colors amplitude modulation site and be state of insulation; The red amplitude modulation site of each square three primary colors amplitude modulation site is printed by red electrochromism printing ink and is formed; The green amplitude modulation site of each square three primary colors amplitude modulation site is printed by green electrochromism printing ink and is formed; The blue amplitude modulation site of each square three primary colors amplitude modulation site is printed by blue electrochromism printing ink and is formed; Horizontal scanning line on the pellicular front light source backlight 9-1 be 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, the red primary horizontal scanning line 3-1 on the pellicular front light source backlight 9-1 is formed by the printing of electrically conducting transparent printing ink to 2-8 to 1-8 and column scan lead-in wire 2-1 to 5-12, column scan line 1-1 to 4-12 and blue primary horizontal scanning line 5-1 to 3-12, green primary horizontal scanning line 4-1

In Fig. 3; The horizontal scanning line that is printed on the pellicular front light source backlight 9-1 has the 3*12 bar; The column scan line that is printed on the pellicular front light source backlight 9-1 has 8; The column scan lead-in wire that is printed on the pellicular front light source backlight 9-1 has 8; The square three primary colors amplitude modulation site 8-1 that is printed on the pellicular front light source backlight 9-1 is divided into 12 row, 8 row to 8-96 on pellicular front light source backlight 9-1; Square three primary colors amplitude modulation site 8-1 is to 8-96 neat arranged that is on the paper of pellicular front light source backlight 9-1; Let i get 1 to 12; Let j get 1 to 8; Red amplitude modulation site, green amplitude modulation site and the blue amplitude modulation site basal surface of each square three primary colors amplitude modulation site of the j row on the j bar column scan line on the pellicular front light source backlight 9-1 and the pellicular front light source backlight 9-1 are electrically connected; The red amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar red primary horizontal scanning line on the pellicular front light source backlight 9-1 and i on the pellicular front light source backlight 9-1 are capable is electrically connected; The green amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar green primary horizontal scanning line on the pellicular front light source backlight 9-1 and i on the pellicular front light source backlight 9-1 are capable is electrically connected; The blue amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar blue primary horizontal scanning line on the pellicular front light source backlight 9-1 and i on the pellicular front light source backlight 9-1 are capable is electrically connected; Horizontal scanning line on column scan lead-in wire on the pellicular front light source backlight 9-1 and the pellicular front light source backlight 9-1 is parallel to each other; J bar column scan lead-in wire on the pellicular front light source backlight 9-1 is vertical each other with j bar column scan line on the pellicular front light source backlight 9-1, and the j bar column scan lead-in wire on the pellicular front light source backlight 9-1 is electrically connected with j bar column scan line on the pellicular front light source backlight 9-1, and is printed on transparent insulation printing ink between each the bar column scan line beyond j bar column scan lead-in wire on the pellicular front light source backlight 9-1 and the j bar column scan line on the pellicular front light source backlight 9-1; Column scan lead-in wire 2-1 on the pellicular front light source backlight 9-1 guides to the edge of pellicular front light source backlight 9-1 from the same side of pellicular front light source backlight 9-1 to 5-12 to 4-12 and horizontal scanning line 5-1 to 3-12, horizontal scanning line 4-1 to 2-8, horizontal scanning line 3-1

In Fig. 4; The square three primary colors amplitude modulation site 8-1 that is printed on the pellicular front light source backlight 9-1 is made up of red amplitude modulation site 8-1-1, green amplitude modulation site 8-1-2, blue amplitude modulation site 8-1-3; 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 electrically connected and is formed by above-listed scan line 1-8-1, middle column scan line 1-8-2, following scan line 1-8-3; Following scan line 1-8-3 is electrically connected with the basal surface of red amplitude modulation site 8-1-1, and middle column scan line 1-8-2 is electrically connected with the basal surface of green amplitude modulation site 8-1-2, and above-listed scan line 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, and blue primary horizontal scanning line 5-1 is electrically connected with the upper surface of blue amplitude modulation site 8-1-3

In Fig. 5; TV receiving system is accepted antenna 12-1, frequency synthesis high-frequency tuner, visual audio frequency separation and intermediate frequency amplifier, audio frequency demodulating and decoding device, semitone power amplifier follower, loudspeaker 12-2, video signal digital decoder, column scan address follower, column scan driver, the digital follower of R G B, R G B data latches, the image digital driver of demonstration and pellicular front light source backlight driver by TV and is constituted

Audio frequency demodulating and decoding device, semitone power amplifier follower and loudspeaker 12-2 have constituted television set semitone output system,

Video signal digital decoder, column scan address follower and column scan driver have constituted television set column scan output system; The j bar column scan lead-in wire that is printed on the pellicular front light source backlight 9-1 is electrically connected with the j bar column scan drive wire of column scan driver

Video signal digital decoder, the digital follower of RGB, RGB data latches and image show that digital driver has constituted television image video data output system; The i bar red primary horizontal scanning line that is printed on the pellicular front light source backlight 9-1 shows that with image the i bar red primary line data drive wire of digital driver is electrically connected; The i bar green primary horizontal scanning line that is printed on the pellicular front light source backlight 9-1 shows that with image the i bar green primary line data drive wire of digital driver is electrically connected; The i bar blue primary horizontal scanning line that is printed on the pellicular front light source backlight 9-1 shows that with image the i bar blue primary line data drive wire of digital driver is electrically connected

When page television boot-strap gets into receive status; At first pellicular front light source backlight driver is powered up; Make pellicular front light source backlight 9-1 luminous; The column scan driver of television set is changed to high level successively with the 8th column scan lead-in wire that goes between of the 1st column scan on the pellicular front light source backlight 9-1, makes the 8 column scan lines of the 1st column scan line to the on the pellicular front light source backlight 9-1 be changed to high level successively

When the 1st column scan line on the pellicular front light source backlight 9-1 is changed to high level; Image shows red display information red primary line scanning input from the 1st to the 12nd that digital driver will write last the 1st row of pellicular front light source backlight 9-1; The green that last the 1st row of pellicular front light source backlight 9-1 will be write shows information green primary line scanning input from the 1st to the 12nd; The blueness that last the 1st row of pellicular front light source backlight 9-1 will be write shows information blue primary line scanning input from the 1st to the 12nd; Each square three primary colours amplitude modulation site that pellicular front light source backlight 9-1 is upward linked to each other with the 1st row column scan line adds electrochromics by the red, green, blue demonstration information that the 1st row write; Ablation process to other row on the page television set is identical with above-mentioned the 1st row

One page image on page display screen 10-1 writes and finishes, and by television image video data output system page display screen 10-1 is powered up cls.

Claims (1)

1. page television set based on three looks overlapping inkless printing paper; By page display screen; TV receiving system constitutes; It is characterized in that: page display screen is by pellicular front light source backlight; Be printed on the square three primary colors amplitude modulation site on the pellicular front light source backlight; Be printed on the horizontal scanning line on the pellicular front light source backlight; The column scan line that is printed on the pellicular front light source backlight constitutes with the column scan lead-in wire that is printed on the pellicular front light source backlight; Image on the pellicular front light source backlight and literal are made up of square three primary colors amplitude modulation site

Be printed on each square three primary colors amplitude modulation site on the pellicular front light source backlight 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 colors 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 colors amplitude modulation site is printed by red electrochromism printing ink and is formed; The green amplitude modulation site of each square three primary colors amplitude modulation site is printed by green electrochromism printing ink and is formed; The blue amplitude modulation site of each square three primary colors amplitude modulation site is printed by blue electrochromism printing ink and is formed; Horizontal scanning line on the pellicular front light source backlight is divided into the red primary horizontal scanning line; Green primary horizontal scanning line and blue primary horizontal scanning line; The red primary horizontal scanning line of pellicular front light source backlight; The green primary horizontal scanning line; The blue primary horizontal scanning line; Column scan line on the pellicular front light source backlight and column scan lead-in wire are printed by electrically conducting transparent printing ink and are formed

The horizontal scanning line that is printed on the pellicular front light source backlight has the 3N bar; The column scan line that is printed on the pellicular front light source backlight has the M bar; The column scan lead-in wire that is printed on the pellicular front light source backlight has the M bar; The square three primary colors amplitude modulation site that is printed on the pellicular front light source backlight is divided into the capable M row of N on paper; Square three primary colors amplitude modulation site is the neat arranged that is on pellicular front light source backlight paper; Let i get 1 to N; Let j get 1 to M; Red amplitude modulation site, green amplitude modulation site and the blue amplitude modulation site basal surface of each square three primary colors amplitude modulation site of the j row on the j bar column scan line on the pellicular front light source backlight and the pellicular front light source backlight are electrically connected; The red amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar red primary horizontal scanning line on the pellicular front light source backlight and the i on the pellicular front light source backlight are capable is electrically connected; The green amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar green primary horizontal scanning line on the pellicular front light source backlight and the i on the pellicular front light source backlight are capable is electrically connected; The blue amplitude modulation site upper surface of each square three primary colors amplitude modulation site that the i bar blue primary horizontal scanning line on the pellicular front light source backlight and the i on the pellicular front light source backlight are capable is electrically connected, and the horizontal scanning line on column scan lead-in wire on the pellicular front light source backlight and the pellicular front light source backlight is parallel to each other, and the j bar column scan lead-in wire on the pellicular front light source backlight is vertical each other with the j bar column scan line on the pellicular front light source backlight; And the j bar column scan lead-in wire on the pellicular front light source backlight is electrically connected with the j bar column scan line on the pellicular front light source backlight; And be printed on transparent insulation printing ink between each the bar column scan line beyond j bar column scan lead-in wire on the pellicular front light source backlight and the j bar column scan line on the pellicular front light source backlight, column scan lead-in wire on the pellicular front light source backlight and horizontal scanning line are all guided to the edge of pellicular front light source backlight from the same side of pellicular front light source backlight

TV receiving system is accepted antenna, frequency synthesis high-frequency tuner, visual audio frequency separation and intermediate frequency amplifier, audio frequency demodulating and decoding device, semitone power amplifier follower, loudspeaker, video signal digital decoder, column scan address follower, column scan driver, the digital follower of RGB, RGB data latches, the image digital driver of demonstration and pellicular front light source backlight driver by TV and is constituted

Audio frequency demodulating and decoding device, semitone power amplifier follower and loudspeaker have constituted television set semitone output system,

Video signal digital decoder, column scan address follower and column scan driver have constituted television set column scan output system, and the j bar column scan lead-in wire that is printed on the pellicular front light source backlight is electrically connected with the j bar column scan drive wire of column scan driver,

Video signal digital decoder, the digital follower of RGB, RGB data latches and image show that digital driver has constituted television image video data output system; The i bar red primary horizontal scanning line that is printed on the pellicular front light source backlight shows that with image the i bar red primary line data drive wire of digital driver is electrically connected; The i bar green primary horizontal scanning line that is printed on the pellicular front light source backlight shows that with image the i bar green primary line data drive wire of digital driver is electrically connected; The i bar blue primary horizontal scanning line that is printed on the pellicular front light source backlight shows that with image the i bar blue primary line data drive wire of digital driver is electrically connected

When page television boot-strap gets into receive status; At first pellicular front light source backlight driver is powered up; Make pellicular front light source backlight luminous; The column scan driver of television set is changed to high level successively with go between M bar column scan lead-in wire of the 1st column scan on the pellicular front light source backlight, makes the 1st column scan line on the pellicular front light source backlight be changed to high level successively to M bar column scan line

When the 1st column scan line on the pellicular front light source backlight is changed to high level; The digital driver of image demonstration is imported the red display information that the 1st row on the pellicular front light source backlight will write from the 1st to the line scanning of N bar red primary; The green display message that the 1st row on the pellicular front light source backlight 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 pellicular front light source backlight will write is imported from the 1st to the line scanning of N bar blue primary; Make each the square three primary colors amplitude modulation site that links to each other with the 1st row column scan line on the pellicular front light source backlight add electrochromics by the red, green, blue display message that the 1st row write, identical to the ablation process of other row on the page television set with above-mentioned the 1st row.

Images