CN106529031A - Color separation method suitable for ceramic ink jet printing - Google Patents
Color separation method suitable for ceramic ink jet printing Download PDFInfo
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- CN106529031A CN106529031A CN201610985685.9A CN201610985685A CN106529031A CN 106529031 A CN106529031 A CN 106529031A CN 201610985685 A CN201610985685 A CN 201610985685A CN 106529031 A CN106529031 A CN 106529031A
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- 239000000919 ceramic Substances 0.000 title claims abstract description 34
- 238000007641 inkjet printing Methods 0.000 title claims abstract description 34
- 238000000926 separation method Methods 0.000 title claims abstract description 30
- 238000007639 printing Methods 0.000 claims abstract description 13
- 238000013461 design Methods 0.000 claims abstract description 12
- 238000004088 simulation Methods 0.000 claims abstract description 5
- 238000010304 firing Methods 0.000 claims description 17
- 241000532370 Atla Species 0.000 claims description 15
- 230000009021 linear effect Effects 0.000 claims description 12
- 238000005070 sampling Methods 0.000 claims description 8
- 238000000034 method Methods 0.000 claims description 7
- 238000013507 mapping Methods 0.000 claims description 6
- 238000006243 chemical reaction Methods 0.000 claims description 4
- 238000007688 edging Methods 0.000 claims description 3
- 238000005259 measurement Methods 0.000 claims description 3
- 238000012360 testing method Methods 0.000 claims description 3
- 239000000976 ink Substances 0.000 claims 115
- 238000005516 engineering process Methods 0.000 abstract description 8
- 238000011161 development Methods 0.000 abstract description 6
- 239000003086 colorant Substances 0.000 abstract description 3
- 238000004519 manufacturing process Methods 0.000 abstract 1
- 238000005498 polishing Methods 0.000 description 2
- 239000004744 fabric Substances 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 238000010020 roller printing Methods 0.000 description 1
- 238000007650 screen-printing Methods 0.000 description 1
- 239000007921 spray Substances 0.000 description 1
- 239000000758 substrate Substances 0.000 description 1
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F30/00—Computer-aided design [CAD]
- G06F30/20—Design optimisation, verification or simulation
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F33/00—Indicating, counting, warning, control or safety devices
- B41F33/0036—Devices for scanning or checking the printed matter for quality control
- B41F33/0045—Devices for scanning or checking the printed matter for quality control for automatically regulating the ink supply
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/21—Ink jet for multi-colour printing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M5/00—Duplicating or marking methods; Sheet materials for use therein
- B41M5/0041—Digital printing on surfaces other than ordinary paper
- B41M5/007—Digital printing on surfaces other than ordinary paper on glass, ceramic, tiles, concrete, stones, etc.
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Theoretical Computer Science (AREA)
- Ceramic Engineering (AREA)
- Quality & Reliability (AREA)
- Computer Hardware Design (AREA)
- Evolutionary Computation (AREA)
- Geometry (AREA)
- General Engineering & Computer Science (AREA)
- General Physics & Mathematics (AREA)
- Ink Jet (AREA)
Abstract
The invention provides a color separation method suitable for ceramic ink jet printing, which is characterized in that an ICC color separation technology is utilized to manufacture an ICC profile which reflects the characteristics of ceramic ink jet printing equipment and the color development characteristics of ink, and a design draft in an RGB mode is converted into a suitable color separation file in Photoshop software. After the color separation file is printed and fired, the accurate simulation of the colors of the design file can be realized, and errors caused by the use of the traditional printing color separation are avoided.
Description
Technical field
The present invention relates to a kind of color separation method of ceramic ink jet printing.
Background technology
Application of the ink jet printing in ceramic industry comes from Europe, till now the existing history of more than 10 years, is after traditional
After screen printing and roller printing technology, the third technical revolution of ceramic industry.But until in recent years, Europe is just to me
State has opened the sale of machine and ink.After opening, in the case where numerous enterprises participates in, the success of digital ink-jet printed technology is in state
It is widely used and promotes in interior ceramic printing.And with the release of domestic ink-jet printer, domestic ink-jet ink grinds
Make, and Ceramics Enterprises are constantly brought forth new ideas to ink jet printable product, ink-jet printed technology has become the focus in industry, this skill
Art revolution success is fired in China and is in the gesture that grows in intensity.
Ceramic ink jet printing technology refers to layout Jing image processing softwares PhotoShop point of electronic computer storage
Color conversion multi-channel information (the black group of port number and ink jet printing is corresponding), under the control of printer control system, it is countless it is believed that
Number part shower nozzle do not work, have the part of data-signal by many nozzles by the corresponding position of ink spray printing to printable fabric surface
Put, form pattern on the substrate.
At present, the ceramic ink jet printing color separation stage is still identical with traditional printing color separation, i.e., in PhotoShop softwares
In, the design original text of RGB patterns is converted to into CMYK patterns.However, different from papery ink jet printing, ceramics are needed after ink jet printing
High-temperature firing to be carried out, ink is Jing after high-temperature firing, it may occur that the huge change of colourity and brightness, industry are referred to as color development.Cause
This, the pattern that the ceramic pattern after color development is designed with designer differs greatly in terms of color, in order to be able to reproduce setting for designer
Meter is intended to, and before extremely experienced print is needed before ink jet printing, personnel are adjusted to color separation information for the color development situation of ink
It is whole.
The content of the invention
To solve the above problems, the present invention proposes a kind of color separation method of suitable ceramic ink jet printing, and the present invention is to utilize
ICC color separation technologies, make the ICC characteristic files of reflection ceramic ink jet printing equipment characteristic and ink color development characteristic,
In PhotoShop softwares, the design original text of RGB patterns is converted to into suitable color separation file.
The present invention proposes a kind of color separation method of suitable ceramic ink jet printing, comprises the following steps:
Step 1:Ceramic ink jet printing single channel linearization test;
(1) quantity of ink according to 5 ink color passages of ink-jet printer, makes linearisation file, preserves;Described 5
Ink color passage includes C-channel, M passages, Y passages, K channel and Z passages, and the Z passages are Spot Channel, can be according to concrete
Ceramic ink jet demand converts ink color;The maximum ink amount of each passage is expressed as 100%;
The quantity of ink value of 5 ink color passages is chosen by following dot percentage:
C-channel=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
M passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
Y passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
K channel=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
Z passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
(2) inkjet printing linearisation file, checks after firing that the tone level situation of each passage, record level occur
Percentage, the percentage that described and level occurs includes the percentage F of high light levelstartAnd the percentage of shadow level
Feffective;
(3) as ceramic ink jet printing equipment is, without linearized system, need to carry out linearisation adjustment, in PhotoShop
Each passage high light " is exported " value and is set to the F described in step 1 (2) by adjustment orderstart;Each passage shadow " is exported into " value
The F being set to described in step 1 (2)effective;
The process of the linearisation adjustment is referred to and for 5 ink color passage files to be converted into line according to Linear Mapping formula
The process of property file;
The Linear Mapping formula is:
K=Feffective-Fstart
Fi=Fstart+ K/99* (i-1) i=1,2 ... 100
(4) linear file after ink jet printing and firing are adjusted, checks linear effects;
Step 2:The sampling colour atla that printing firing ceramics ink jet printing ICC make;
(1) multichannel colour atla, colour atla totally 440 colors are generated in the measure tool instruments of ProfileMaker softwares
Block, each color lump are formed by stacking by the default dot area percentage of 5 passages, correspond to C-channel, M passages, Y passages, K channel and Z respectively
Passage, the default passage dot area percentage combination have following several:
First, single passage is incremented by from 10%~100% with 10% ink amount interval, and remaining each passage ink amount is 0%;
2nd, (25%~100%) C+ (25%~100%) M, from the beginning of representing that C-channel and M passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
3rd, (25%~100%) C+ (25%~100%) Y, from the beginning of representing that C-channel and Y passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
4th, (25%~100%) M+ (25%~100%) Y, from the beginning of representing that M passages and Y passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
5th, (20%~100%) C+17%K, represents that C-channel, from the beginning of 20% ink amount, is measured with 20% ink many as increment
Individual sampled point;
6th, (25%~100%) C+33%K, represents that C-channel, from the beginning of 25% ink amount, is measured with 25% ink many as increment
Individual sampled point;
7th, (25%~100%) C+50%K, represents that C-channel, from the beginning of 25% ink amount, is measured with 25% ink many as increment
Individual sampled point;
8th, (33%~100%) C+67%K, represents that C-channel, from the beginning of 33% ink amount, is measured with 33% ink many as increment
Individual sampled point;
9th, (50%~100%) C+84%K, represents that C-channel, from the beginning of 50% ink amount, is measured with 50% ink many as increment
Individual sampled point;
Tenth, 100%C+100%K;
11, (20%~100%) M+17%K, represents that M passages, from the beginning of 20% ink amount, are measured as increment with 20% ink
Multiple sampled points;
12, (25%~100%) M+33%K, represents that M passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
13, (25%~100%) M+50%K, represents that M passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
14, (33%~100%) M+67%K, represents that M passages, from the beginning of 33% ink amount, are measured as increment with 33% ink
Multiple sampled points;
15, (50%~100%) M+84%K, represents that M passages, from the beginning of 50% ink amount, are measured as increment with 50% ink
Multiple sampled points;
16,100%M+100%K;
17, (20%~100%) Y+17%K, represents that Y passages, from the beginning of 20% ink amount, are measured as increment with 20% ink
Multiple sampled points;
18, (25%~100%) Y+33%K, represents that Y passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
19, (25%~100%) Y+50%K, represents that Y passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
20, (33%~100%) Y+67%K, represents that Y passages, from the beginning of 33% ink amount, are measured as increment with 33% ink
Multiple sampled points;
21, (50%~100%) Y+84%K, represents Y passages from the beginning of 50% ink amount, with 50% ink amount as increment
Multiple sampled points;
22,100%Y+100%K;
23, (33%~100%) C+ (33%~100%) M+ (25%~50%) K, represents C-channel and M passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
24, (50%~100%) C+ (50%~100%) M+75%K, represents C-channel and M passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
25,100%C+100%M+100%K;
26, (33%~100%) C+ (33%~100%) Y+ (25%~50%) K, represents C-channel and Y passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
27, (50%~100%) C+ (50%~100%) Y+75%K, represents C-channel and Y passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
28,100%C+100%Y+100%K;
29, (33%~100%) M+ (33%~100%) Y+ (25%~50%) K, represents M passages and Y passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
30, (50%~100%) M+ (50%~100%) Y+75%K, represents that M passages and Y passages are black from 50% respectively
Amount starts, the multiple sampled points with 50% ink amount as increment;
31,100%M+100%Y+100%K;
32, (50%~100%) C+ (50%~100%) M+ (50%~100%) Y+50%K, represents C-channel, M
Passage and Y passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
33,100%C+100%M+100%Y+100%K;
34, (25%~100%) C+ (25%~100%) 0, represents that C-channel and 0 passage are opened from 25% ink amount respectively
Begin, the multiple sampled points with 25% ink amount as increment;
35, (25%~100%) M+ (25%~100%) Z, represents that M passages and Z passages are opened from 25% ink amount respectively
Begin, the multiple sampled points with 25% ink amount as increment;
36, (25%~100%) Y+ (25%~100%) Z, represents that Y passages and Z passages are opened from 25% ink amount respectively
Begin, the multiple sampled points with 25% ink amount as increment;
37, (50%~100%) C+ (50%~100%) Y+ (50%~100%) Z, represent C-channel, Y passages and
Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
38, (50%~100%) C+ (50%~100%) M+ (50%~100%) Z, represent C-channel, M passages and
Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
39, (50%~100%) M+ (50%~100%) Y+ (50%~100%) Z, represent M passages, Y passages and
Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
40, (20%~100%) Z+17%K, represents that Z passages, from the beginning of 20% ink amount, are measured as increment with 20% ink
Multiple sampled points;
41, (25%~100%) Z+33%K, represents Z passages from the beginning of 25% ink amount, with 25% ink amount as increment
Multiple sampled points;
42, (25%~100%) Z+50%K, represents Z passages from the beginning of 25% ink amount, with 25% ink amount as increment
Multiple sampled points;
43, (33%~100%) Z+67%K, represents Z passages from the beginning of 33% ink amount, with 33% ink amount as increment
Multiple sampled points;
44, (50%~100%) Z+84%K, represents Z passages from the beginning of 50% ink amount, with 50% ink amount as increment
Multiple sampled points;
45,100%Z+100%K;
46, (33%~100%) C+ (33%~100%) 0+ (25%~50%) K, represents C-channel and Z passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
47, (50%~100%) C+ (50%~100%) 0+75%K, represents C-channel and Z passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
48,100%C+100%Z+100%K;
49, (33%~100%) M+ (33%~100%) 0+ (25%~50%) K, represents M passages and Z passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
50, (50%~100%) M+ (50%~100%) 0+75%K, represents that M passages and Z passages are black from 50% respectively
Amount starts, the multiple sampled points with 50% ink amount as increment;
51,100%M+100%Z+100%K;
52, (33%~100%) Y+ (33%~100%) 0+ (25%~50%) K, represents Y passages and Z passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
53, (50%~100%) Y+ (50%~100%) 0+75%K, represents Y passages and Z passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
54,100%Y+100%Z+100%K;
55, (50%~100%) C+ (50%~100%) M+ (50%~100%) 0+50%K, represents C-channel, M
Passage and Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
56,100%C+100%M+100%Z+100%K;
57, (50%~100%) C+ (50%~100%) Y+ (50%~100%) 0+50%K, represents C-channel, Y
Passage and Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
58,100%C+100%Y+100%Z+100%K;
59, (50%~100%) M+ (50%~100%) Y+ (50%~100%) 0+50%K, represents M passages, Y
Passage and Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
60,100%M+100%Y+100%Z+100%K;
61, (50%~100%) C+ (50%~100%) M+ (50%~100%) Y+ (50%~100%) 0, table
Show the multiple sampled points of C-channel, M passages, Y passages and Z passages respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
62,25%C+25%M+25%Y+25%Z+50%K;
63,50%C+50%M+50%Y+50%Z+50%K;
64,75%C+75%M+75%Y+75%Z+50%K;
65,100%C+100%M+100%Y+100%Z+100%K;
(2) colour atla of collection is carried out into linearisation adjustment in Photoshop, the linearisation adjustment is to utilize
In PhotoShop, each passage high light " is exported " value and is set to the F described in step 1 (2) by adjustment orderstart;Will be each passage dark
" output " value is adjusted to be set to the F described in step 1 (2)effective, preserve;
(3) the collection colour atla after ink jet printing linearisation adjustment, and high-temperature firing is completed, chamfering, edging, a whole set of work of polishing
Skill.
Step 3:Using ProfileMaker softwares " multichannel multicolor modules ", couple Eyeone spectrophotometers
Ceramic color lump chrominance information after measurement firing, generates ICC multichannel characteristic files;
Step 4:The multichannel characteristic file of generation is stored in into computer " C:/Windows/System32/Spool/
In drivers/color " files;
Step 5:When carrying out color separation to RGB design documents, in the software of Photoshop CS4 above versions, select " to compile
Collect-be converted to configuration file-senior setting " in panel, in multichannel drop-down menu select the ICC stored in step 4 many
Channel characteristic file, clicks on conversion, you can so that RGB files are converted into suitable color separation file, and color separation file Jing printings are burnt
After system, the accurate simulation to design document color can be realized.
Compared with prior art, its advantageous exists the present invention:Using ICC color separation technologies, reflection ceramic ink jet is made
The ICC characteristic files of printing equipment characteristic and ink color development characteristic, in PhotoShop softwares, the design original text of RGB patterns are changed
For suitable color separation file, the color separation file can realize the accurate simulation to design document color, it is to avoid make Jing after printing is fired
The error caused with traditional printing color separation.
Specific embodiment
As follows application scheme is further described:
A kind of color separation method of suitable ceramic ink jet printing, comprises the following steps:
Step 1:Ceramic ink jet printing single channel linearization test;
(1) quantity of ink according to 5 ink color passages of ink-jet printer, makes linearisation file, preserves;Described 5
Ink color passage includes C-channel, M passages, Y passages, K channel and Z passages, and the Z passages are Spot Channel, can be according to concrete
Ceramic ink jet demand converts ink color;The maximum ink amount of each passage is expressed as 100%;
The quantity of ink value of 5 ink color passages is chosen by following dot percentage:
C-channel=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
M passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
Y passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
K channel=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
Z passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%,
90%th, 95%, 98%, 100% };
(2) inkjet printing linearisation file, checks after firing that the tone level situation of each passage, record level occur
Percentage, the percentage that described and level occurs includes the percentage F of high light levelstartAnd the percentage of shadow level
Feffective;
(3) as ceramic ink jet printing equipment is, without linearized system, need to carry out linearisation adjustment, in PhotoShop
Each passage high light " is exported " value and is set to the F described in step 1 (2) by adjustment orderstart;Each passage shadow " is exported into " value
The F being set to described in step 1 (2)effective;
The process of the linearisation adjustment is referred to and for 5 ink color passage files to be converted into line according to Linear Mapping formula
The process of property file;
The Linear Mapping formula is:
K=Feffective-Fstart
Fi=Fstart+ K/99* (i-1) i=1,2 ... 100
(5) linear file after ink jet printing and firing are adjusted, checks linear effects;
Step 2:The sampling colour atla that printing firing ceramics ink jet printing ICC make;
(1) multichannel colour atla, colour atla totally 440 colors are generated in the measure tool instruments of ProfileMaker softwares
Block, each color lump are formed by stacking by the default dot area percentage of 5 passages, correspond to C-channel, M passages, Y passages, K channel and Z respectively
Passage, the default passage dot area percentage combination have following several:
First, single passage is incremented by from 10%~100% with 10% ink amount interval, and remaining each passage ink amount is 0%;
2nd, (25%~100%) C+ (25%~100%) M, from the beginning of representing that C-channel and M passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
3rd, (25%~100%) C+ (25%~100%) Y, from the beginning of representing that C-channel and Y passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
4th, (25%~100%) M+ (25%~100%) Y, from the beginning of representing that M passages and Y passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
5th, (20%~100%) C+17%K, represents that C-channel, from the beginning of 20% ink amount, is measured with 20% ink many as increment
Individual sampled point;
6th, (25%~100%) C+33%K, represents that C-channel, from the beginning of 25% ink amount, is measured with 25% ink many as increment
Individual sampled point;
7th, (25%~100%) C+50%K, represents that C-channel, from the beginning of 25% ink amount, is measured with 25% ink many as increment
Individual sampled point;
8th, (33%~100%) C+67%K, represents that C-channel, from the beginning of 33% ink amount, is measured with 33% ink many as increment
Individual sampled point;
9th, (50%~100%) C+84%K, represents that C-channel, from the beginning of 50% ink amount, is measured with 50% ink many as increment
Individual sampled point;
Tenth, 100%C+100%K;
11, (20%~100%) M+17%K, represents that M passages, from the beginning of 20% ink amount, are measured as increment with 20% ink
Multiple sampled points;
12, (25%~100%) M+33%K, represents that M passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
13, (25%~100%) M+50%K, represents that M passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
14, (33%~100%) M+67%K, represents that M passages, from the beginning of 33% ink amount, are measured as increment with 33% ink
Multiple sampled points;
15, (50%~100%) M+84%K, represents that M passages, from the beginning of 50% ink amount, are measured as increment with 50% ink
Multiple sampled points;
16,100%M+100%K;
17, (20%~100%) Y+17%K, represents that Y passages, from the beginning of 20% ink amount, are measured as increment with 20% ink
Multiple sampled points;
18, (25%~100%) Y+33%K, represents that Y passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
19, (25%~100%) Y+50%K, represents that Y passages, from the beginning of 25% ink amount, are measured as increment with 25% ink
Multiple sampled points;
20, (33%~100%) Y+67%K, represents that Y passages, from the beginning of 33% ink amount, are measured as increment with 33% ink
Multiple sampled points;
21, (50%~100%) Y+84%K, represents Y passages from the beginning of 50% ink amount, with 50% ink amount as increment
Multiple sampled points;
22,100%Y+100%K;
23, (33%~100%) C+ (33%~100%) M+ (25%~50%) K, represents C-channel and M passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
24, (50%~100%) C+ (50%~100%) M+75%K, represents C-channel and M passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
25,100%C+100%M+100%K;
26, (33%~100%) C+ (33%~100%) Y+ (25%~50%) K, represents C-channel and Y passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
27, (50%~100%) C+ (50%~100%) Y+75%K, represents C-channel and Y passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
28,100%C+100%Y+100%K;
29, (33%~100%) M+ (33%~100%) Y+ (25%~50%) K, represents M passages and Y passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
30, (50%~100%) M+ (50%~100%) Y+75%K, represents that M passages and Y passages are black from 50% respectively
Amount starts, the multiple sampled points with 50% ink amount as increment;
31,100%M+100%Y+100%K;
32, (50%~100%) C+ (50%~100%) M+ (50%~100%) Y+50%K, represents C-channel, M
Passage and Y passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
33,100%C+100%M+100%Y+100%K;
34, (25%~100%) C+ (25%~100%) 0, represents that C-channel and 0 passage are opened from 25% ink amount respectively
Begin, the multiple sampled points with 25% ink amount as increment;
35, (25%~100%) M+ (25%~100%) Z, represents that M passages and Z passages are opened from 25% ink amount respectively
Begin, the multiple sampled points with 25% ink amount as increment;
36, (25%~100%) Y+ (25%~100%) Z, represents that Y passages and Z passages are opened from 25% ink amount respectively
Begin, the multiple sampled points with 25% ink amount as increment;
37, (50%~100%) C+ (50%~100%) Y+ (50%~100%) Z, represent C-channel, Y passages and
Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
38, (50%~100%) C+ (50%~100%) M+ (50%~100%) Z, represent C-channel, M passages and
Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
39, (50%~100%) M+ (50%~100%) Y+ (50%~100%) Z, represent M passages, Y passages and
Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
40, (20%~100%) Z+17%K, represents that Z passages, from the beginning of 20% ink amount, are measured as increment with 20% ink
Multiple sampled points;
41, (25%~100%) Z+33%K, represents Z passages from the beginning of 25% ink amount, with 25% ink amount as increment
Multiple sampled points;
42, (25%~100%) Z+50%K, represents Z passages from the beginning of 25% ink amount, with 25% ink amount as increment
Multiple sampled points;
43, (33%~100%) Z+67%K, represents Z passages from the beginning of 33% ink amount, with 33% ink amount as increment
Multiple sampled points;
44, (50%~100%) Z+84%K, represents Z passages from the beginning of 50% ink amount, with 50% ink amount as increment
Multiple sampled points;
45,100%Z+100%K;
46, (33%~100%) C+ (33%~100%) 0+ (25%~50%) K, represents C-channel and Z passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
47, (50%~100%) C+ (50%~100%) 0+75%K, represents C-channel and Z passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
48,100%C+100%Z+100%K;
49, (33%~100%) M+ (33%~100%) 0+ (25%~50%) K, represents M passages and Z passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
50, (50%~100%) M+ (50%~100%) 0+75%K, represents that M passages and Z passages are black from 50% respectively
Amount starts, the multiple sampled points with 50% ink amount as increment;
51,100%M+100%Z+100%K;
52, (33%~100%) Y+ (33%~100%) 0+ (25%~50%) K, represents Y passages and Z passages point
Not from the beginning of 33% ink amount, the multiple sampled points with 33% ink amount as increment, gained sampled point are combined with K channel again respectively, and K leads to
Road is started with 25% ink amount, the multiple sampled points with 25% ink amount as increment;
53, (50%~100%) Y+ (50%~100%) 0+75%K, represents Y passages and Z passages respectively from 50%
Ink amount starts, the multiple sampled points with 50% ink amount as increment;
54,100%Y+100%Z+100%K;
55, (50%~100%) C+ (50%~100%) M+ (50%~100%) 0+50%K, represents C-channel, M
Passage and Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
56,100%C+100%M+100%Z+100%K;
57, (50%~100%) C+ (50%~100%) Y+ (50%~100%) 0+50%K, represents C-channel, Y
Passage and Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
58,100%C+100%Y+100%Z+100%K;
59, (50%~100%) M+ (50%~100%) Y+ (50%~100%) 0+50%K, represents M passages, Y
Passage and Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
60,100%M+100%Y+100%Z+100%K;
61, (50%~100%) C+ (50%~100%) M+ (50%~100%) Y+ (50%~100%) 0, table
Show the multiple sampled points of C-channel, M passages, Y passages and Z passages respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
62,25%C+25%M+25%Y+25%Z+50%K;
63,50%C+50%M+50%Y+50%Z+50%K;
64,75%C+75%M+75%Y+75%Z+50%K;
65,100%C+100%M+100%Y+100%Z+100%K;
Specifically each color lump corresponding default passage dot area percentage combination such as following table:
(2) colour atla of collection is carried out into linearisation adjustment in Photoshop, the linearisation adjustment is to utilize
In PhotoShop, each passage high light " is exported " value and is set to the F described in step 1 (2) by adjustment orderstart;Will be each passage dark
" output " value is adjusted to be set to the F described in step 1 (2)effective, preserve;
(3) the collection colour atla after ink jet printing linearisation adjustment, and high-temperature firing is completed, chamfering, edging, a whole set of work of polishing
Skill.
Step 3:Using ProfileMaker softwares " multichannel multicolor modules ", couple Eyeone spectrophotometers
Ceramic color lump chrominance information after measurement firing, generates ICC multichannel characteristic files;
Step 4:The multichannel characteristic file of generation is stored in into computer " C:/Windows/System32/Spool/
In drivers/color " files;
Step 5:When carrying out color separation to RGB design documents, in the software of Photoshop CS4 above versions, select " to compile
Collect-be converted to configuration file-senior setting " in panel, in multichannel drop-down menu select the ICC stored in step 4 many
Channel characteristic file, clicks on conversion, you can so that RGB files are converted into suitable color separation file, and color separation file Jing printings are burnt
After system, the accurate simulation to design document color can be realized.
Claims (1)
1. the color separation method that a kind of suitable ceramic ink jet prints, it is characterised in that comprise the following steps:
Step 1:Ceramic ink jet printing single channel linearization test;
(1) quantity of ink according to 5 ink color passages of ink-jet printer, makes linearisation file, preserves;5 inks
Color Channel includes C-channel, M passages, Y passages, K channel and Z passages, and the Z passages are Spot Channel, can be according to concrete ceramics
Ink-jet demand converts ink color;The maximum ink amount of each passage is expressed as 100%;
The quantity of ink value of 5 ink color passages is chosen by following dot percentage:
C-channel=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%,
95%th, 98%, 100% };
M passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%,
95%th, 98%, 100% };
Y passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%,
95%th, 98%, 100% };
K channel=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%,
95%th, 98%, 100% };
Z passages=3%, 5%, 7%, 10%, 15%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%,
95%th, 98%, 100% };
(2) inkjet printing linearisation file, checks the hundred of the tone level situation of each passage, record level appearance after firing
Ratio, the percentage that described and level occurs is divided to include the percentage F of high light levelstartAnd the percentage F of shadow leveleffective;
(3) as ceramic ink jet printing equipment is, without linearized system, need to carry out linearisation adjustment, adjust in PhotoShop
Each passage high light " is exported " value and is set to the F described in step 1 (2) by orderstart;Each passage shadow " is exported into " value setting
For the F described in step 1 (2)effective;
The process of the linearisation adjustment is referred to and for 5 ink color passage files to be converted into linearisation according to Linear Mapping formula
The process of file;
The Linear Mapping formula is:
K=Feffective-Fstart
Fi=Fstart+ K/99* (i-1) i=1,2 ... 100
(4) linear file after ink jet printing and firing are adjusted, checks linear effects;
Step 2:The sampling colour atla that printing firing ceramics ink jet printing ICC make;
(1) generate multichannel colour atla in the measure tool instruments of ProfileMaker softwares, colour atla totally 440 color lumps,
Each color lump is formed by stacking by the default dot area percentage of 5 passages, is corresponded to C-channel, M passages, Y passages, K channel and Z respectively and is led to
Road, the default dot area percentage combination of the passage have following several:
First, single passage is incremented by from 10%~100% with 10% ink amount interval, and remaining each passage ink amount is 0%;
2nd, (25%~100%) C+ (25%~100%) M, from the beginning of representing that C-channel and M passages are measured from 25% ink respectively, with
Multiple sampled points of the 25% ink amount for increment;
3rd, (25%~100%) C+ (25%~100%) Y, from the beginning of representing that C-channel and Y passages are measured from 25% ink respectively, with
Multiple sampled points of the 25% ink amount for increment;
4th, (25%~100%) M+ (25%~100%) Y, from the beginning of representing that M passages and Y passages are measured from 25% ink respectively, with
Multiple sampled points of the 25% ink amount for increment;
5th, (20%~100%) C+17%K, is represented C-channel from the beginning of 20% ink amount, is adopted with 20% ink multiple as increment of amount
Sampling point;
6th, (25%~100%) C+33%K, is represented C-channel from the beginning of 25% ink amount, is adopted with 25% ink multiple as increment of amount
Sampling point;
7th, (25%~100%) C+50%K, is represented C-channel from the beginning of 25% ink amount, is adopted with 25% ink multiple as increment of amount
Sampling point;
8th, (33%~100%) C+67%K, is represented C-channel from the beginning of 33% ink amount, is adopted with 33% ink multiple as increment of amount
Sampling point;
9th, (50%~100%) C+84%K, is represented C-channel from the beginning of 50% ink amount, is adopted with 50% ink multiple as increment of amount
Sampling point;
Tenth, 100%C+100%K;
11, (20%~100%) M+17%K, represents that M passages, from the beginning of 20% ink amount, are measured with 20% ink multiple as increment
Sampled point;
12, (25%~100%) M+33%K, represents that M passages, from the beginning of 25% ink amount, are measured with 25% ink multiple as increment
Sampled point;
13, (25%~100%) M+50%K, represents that M passages, from the beginning of 25% ink amount, are measured with 25% ink multiple as increment
Sampled point;
14, (33%~100%) M+67%K, represents that M passages, from the beginning of 33% ink amount, are measured with 33% ink multiple as increment
Sampled point;
15, (50%~100%) M+84%K, represents that M passages, from the beginning of 50% ink amount, are measured with 50% ink multiple as increment
Sampled point;
16,100%M+100%K;
17, (20%~100%) Y+17%K, represents that Y passages, from the beginning of 20% ink amount, are measured with 20% ink multiple as increment
Sampled point;
18, (25%~100%) Y+33%K, represents that Y passages, from the beginning of 25% ink amount, are measured with 25% ink multiple as increment
Sampled point;
19, (25%~100%) Y+50%K, represents that Y passages, from the beginning of 25% ink amount, are measured with 25% ink multiple as increment
Sampled point;
20, (33%~100%) Y+67%K, represents that Y passages, from the beginning of 33% ink amount, are measured with 33% ink multiple as increment
Sampled point;
21, (50%~100%) Y+84%K, represents that Y passages, from the beginning of 50% ink amount, are measured with 50% ink many as increment
Individual sampled point;
22,100%Y+100%K;
23, (33%~100%) C+ (33%~100%) M+ (25%~50%) K, represent C-channel and M passages respectively from
33% ink amount starts, and with 33% ink multiple sampled points of the amount as increment, gained sampled point is combined with K channel again respectively, K channel with
25% ink amount starts, the multiple sampled points with 25% ink amount as increment;
24, (50%~100%) C+ (50%~100%) M+75%K, represents C-channel and M passages respectively from 50% ink amount
Start, the multiple sampled points with 50% ink amount as increment;
25,100%C+100%M+100%K;
26, (33%~100%) C+ (33%~100%) Y+ (25%~50%) K, represent C-channel and Y passages respectively from
33% ink amount starts, and with 33% ink multiple sampled points of the amount as increment, gained sampled point is combined with K channel again respectively, K channel with
25% ink amount starts, the multiple sampled points with 25% ink amount as increment;
27, (50%~100%) C+ (50%~100%) Y+75%K, represents C-channel and Y passages respectively from 50% ink amount
Start, the multiple sampled points with 50% ink amount as increment;
28,100%C+100%Y+100%K;
29, (33%~100%) M+ (33%~100%) Y+ (25%~50%) K, represent M passages and Y passages respectively from
33% ink amount starts, and with 33% ink multiple sampled points of the amount as increment, gained sampled point is combined with K channel again respectively, K channel with
25% ink amount starts, the multiple sampled points with 25% ink amount as increment;
30, (50%~100%) M+ (50%~100%) Y+75%K, represents that M passages and Y passages are opened from 50% ink amount respectively
Begin, the multiple sampled points with 50% ink amount as increment;
31,100%M+100%Y+100%K;
32, (50%~100%) C+ (50%~100%) M+ (50%~100%) Y+50%K, represents C-channel, M passages
With Y passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
33,100%C+100%M+100%Y+100%K;
34, (25%~100%) C+ (25%~100%) 0, from the beginning of representing that C-channel and 0 passage are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
35, (25%~100%) M+ (25%~100%) Z, from the beginning of representing that M passages and Z passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
36, (25%~100%) Y+ (25%~100%) Z, from the beginning of representing that Y passages and Z passages are measured from 25% ink respectively,
Multiple sampled points with 25% ink amount as increment;
37, (50%~100%) C+ (50%~100%) Y+ (50%~100%) Z, represents that C-channel, Y passages and Z are logical
Road multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
38, (50%~100%) C+ (50%~100%) M+ (50%~100%) Z, represents that C-channel, M passages and Z are logical
Road multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
39, (50%~100%) M+ (50%~100%) Y+ (50%~100%) Z, represents that M passages, Y passages and Z are logical
Road multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
40, (20%~100%) Z+17%K, represents that Z passages, from the beginning of 20% ink amount, are measured with 20% ink multiple as increment
Sampled point;
41, (25%~100%) Z+33%K, represents that Z passages, from the beginning of 25% ink amount, are measured with 25% ink many as increment
Individual sampled point;
42, (25%~100%) Z+50%K, represents that Z passages, from the beginning of 25% ink amount, are measured with 25% ink many as increment
Individual sampled point;
43, (33%~100%) Z+67%K, represents that Z passages, from the beginning of 33% ink amount, are measured with 33% ink many as increment
Individual sampled point;
44, (50%~100%) Z+84%K, represents that Z passages, from the beginning of 50% ink amount, are measured with 50% ink many as increment
Individual sampled point;
45,100%Z+100%K;
46, (33%~100%) C+ (33%~100%) 0+ (25%~50%) K, represent C-channel and Z passages respectively from
33% ink amount starts, and with 33% ink multiple sampled points of the amount as increment, gained sampled point is combined with K channel again respectively, K channel with
25% ink amount starts, the multiple sampled points with 25% ink amount as increment;
47, (50%~100%) C+ (50%~100%) 0+75%K, represents C-channel and Z passages respectively from 50% ink amount
Start, the multiple sampled points with 50% ink amount as increment;
48,100%C+100%Z+100%K;
49, (33%~100%) M+ (33%~100%) 0+ (25%~50%) K, represent M passages and Z passages respectively from
33% ink amount starts, and with 33% ink multiple sampled points of the amount as increment, gained sampled point is combined with K channel again respectively, K channel with
25% ink amount starts, the multiple sampled points with 25% ink amount as increment;
50, (50%~100%) M+ (50%~100%) 0+75%K, represents that M passages and Z passages are opened from 50% ink amount respectively
Begin, the multiple sampled points with 50% ink amount as increment;
51,100%M+100%Z+100%K;
52, (33%~100%) Y+ (33%~100%) 0+ (25%~50%) K, represent Y passages and Z passages respectively from
33% ink amount starts, and with 33% ink multiple sampled points of the amount as increment, gained sampled point is combined with K channel again respectively, K channel with
25% ink amount starts, the multiple sampled points with 25% ink amount as increment;
53, (50%~100%) Y+ (50%~100%) 0+75%K, represents Y passages and Z passages respectively from 50% ink amount
Start, the multiple sampled points with 50% ink amount as increment;
54,100%Y+100%Z+100%K;
55, (50%~100%) C+ (50%~100%) M+ (50%~100%) 0+50%K, represents C-channel, M passages
With Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
56,100%C+100%M+100%Z+100%K;
57, (50%~100%) C+ (50%~100%) Y+ (50%~100%) 0+50%K, represents C-channel, Y passages
With Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
58,100%C+100%Y+100%Z+100%K;
59, (50%~100%) M+ (50%~100%) Y+ (50%~100%) 0+50%K, represents M passages, Y passages
With Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
60,100%M+100%Y+100%Z+100%K;
61, (50%~100%) C+ (50%~100%) M+ (50%~100%) Y+ (50%~100%) 0, represents C
Passage, M passages, Y passages and Z passages multiple sampled points respectively from the beginning of 50% ink amount, with 50% ink amount as increment;
62,25%C+25%M+25%Y+25%Z+50%K;
63,50%C+50%M+50%Y+50%Z+50%K;
64,75%C+75%M+75%Y+75%Z+50%K;
65,100%C+100%M+100%Y+100%Z+100%K;
(2) colour atla of collection is carried out into linearisation adjustment in Photoshop, the linearisation adjustment is to utilize PhotoShop
Each passage high light " is exported " value and is set to the F described in step 1 (2) by middle adjustment orderstart;By each passage shadow " output "
Value is set to the F described in step 1 (2)effective, preserve;
(3) the collection colour atla after ink jet printing linearisation adjustment, and high-temperature firing is completed, chamfering, edging polish whole set process.
Step 3:Using ProfileMaker softwares " multichannel multicolor modules ", couple Eyeone spectrophotometer measurements
Ceramic color lump chrominance information after firing, generates ICC multichannel characteristic files;
Step 4:The multichannel characteristic file of generation is stored in into computer " C:/Windows/System32/Spool/drivers/
In color " files;
Step 5:When carrying out color separation to RGB design documents, in the software of Photoshop CS4 above versions, select " editor-
Be converted to configuration file-senior setting " in panel, the ICC multichannels stored in step 4 are selected in multichannel drop-down menu
Characteristic file, click on conversion, you can so that RGB files are converted into suitable color separation file, the color separation file Jing printing fire after,
The accurate simulation to design document color can be realized.
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CN107738512A (en) * | 2017-07-19 | 2018-02-27 | 中山火炬职业技术学院 | The improvement ceramic tile inkjet printing color edited based on ICC is to quadrat method |
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