CN104890376B

CN104890376B - Total ink limit measuring color card for porcelain inkjet printers

Info

Publication number: CN104890376B
Application number: CN201510300430.XA
Authority: CN
Inventors: 邓体俊; 付文亭; 郑新; 陈海生; 官燕燕
Original assignee: Zhongshan Torch Polytechnic
Current assignee: Zhongshan Torch Polytechnic
Priority date: 2015-06-04
Filing date: 2015-06-04
Publication date: 2017-01-18
Anticipated expiration: 2035-06-04
Also published as: CN104890376A

Abstract

The invention provides a total ink limit measuring color card for ceramic inkjet printers. The color card comprises a multi-row color block sequence. The color card is characterized in that the multi-row color block sequence is represented with preset multiple dot percentage sets, and specifically, uniform sampling is carried out in a sampling interval in the range from 100% to 500% at the interval of 10% according to ink increase of a main direction vector of a multi-channel color space based on the Glassman color law. Aiming at the characteristics of ceramic inkjet printing, the sampling dot percentage sets are designed, so that a printed color card can better help users to obtain the total ink limit of ceramic inkjet printing through analysis. Therefore, the total ink of ceramic inkjet printing can be well controlled, and the quality of ceramic inkjet printing is ensured.

Description

The always ink amount limit value measurement colour atla of ceramic ink jet printer

Technical field

The invention belongs to ink-jet printing technology field is and in particular to a kind of always ink amount limit value of ceramic ink jet printer measures Colour atla.

Background technology

The always ink amount of ceramic ink jet printer refers to the ink amount summation of equipment colors channels ink, fixed according to Lambert-Beer Rule, with the increase of ink film thickness, ink density can't ad infinitum increase, but start density from a certain ink amount and will reach Saturation.The printing fact also demonstrates that, ceramic ink jet printing maximum ink amount has the specific upper limit, when ink amount exceedes this upper limit, not only The scope that printing color reproduces will not improve, on the contrary can be too many because of ink amount, causes long-pending ink, ink to cover uneven, image layer Secondary and level, burning till rear ink is in cellular, the printing trouble such as pit, thus affecting ceramic ink jet printing quality.

The above-mentioned specific upper limit is exactly ink amount limit value, which determines effective during ceramic ink jet printer spray printing layout Maximum ink amount.Therefore, suitably ink amount method for limiting how is selected to limit in the reasonable scope by stamping ink amount, it is to avoid above-mentioned ink Amount overrun issues, are the important prerequisites that high-quality ink-jet Color Replication is achieved.

Content of the invention

For mentioned problem in background technology, the present invention is directed to ceramic ink jet printing characteristic, devises a kind of pottery The always ink amount limit value measurement colour atla of ink-jet printer, obtains ceramic ink jet printing always ink amount limit value using this colour atla, thus real Now to ceramic ink jet printing always ink amount good control it is ensured that ceramic ink jet printing quality.

The technical solution adopted in the present invention is as follows:

A kind of always ink amount limit value measurement colour atla of ceramic ink jet printer, described ceramic ink jet printer at least has c Passage, m passage, y passage, o passage and k passage, each passage maximum ink amount is expressed as 100%；This colour atla includes multirow color lump sequence Row, described multirow color lump sequence is represented by default multiple dot percentage set, specific as follows:

T1={ 100%c, 100%c+ (10%～100%) k, 100%c+100%k+ (3.3%～100%) m+ (3.3%～100%) y+ (3.3%～100%) o }；

T2={ 100%m, 100%m+ (10%～100%) k, 100%m+100%k+ (3.3%～100%) c+ (3.3%～100%) y+ (3.3%～100%) o }；

T3={ 100%y, 100%y+ (10%～100%) k, 100%y+100%k+ (3.3%～100%) c+ (3.3%～100%) m+ (3.3%～100%) o }；

T4={ 100%o, 100%o+ (10%～100%) k, 100%o+100%k+ (3.3%～100%) c+ (3.3%～100%) m+ (3.3%～100%) y }；

Wherein, (10%～100%) represents the multiple sampling networks measured by 10% ink amount, with 10% ink as increment Point, (3.3%～100%) expression measures the multiple sampling sites as increment by 3.3% ink amount, with 3.3% ink, thus Go out above-mentioned t1, t2, t3 and t4；

T5=50%m+50%y, (55%～100%) m+ (55%～100%) y, 100%m+100%y+ (10%～ 100%) k, 100%m+100%y+100%k+ (10%～100%) c }；

T6=50%c+50%y, (55%～100%) c+ (55%～100%) y, 100%c+100%y+ (10%～ 100%) k, 100%c+100%y+100%k+ (10%～100%) m }；

T7=50%c+50%m, (55%～100%) c+ (55%～100%) m, 100%c+100%m+ (10%～ 100%) k, 100%c+100%m+100%k+ (10%～100%) y }；

Wherein, (10%～100%) represents the multiple sampling networks measured by 10% ink amount, with 10% ink as increment Point, (55%～100%) represents the multiple sampling sites measured by 55% ink amount, with 5% ink as increment；Thus draw State t5, t6 and t7；

T8={ 100%o, 100%o+ (3.3%～100%) c+ (3.3%～100%) m+ (3.3%～100%) y }；

Wherein, (3.3%～100%) represents the multiple samplings measured by 3.3% ink amount, with 3.3% ink as increment Site；Thus draw above-mentioned t8；

T9={ (3.3%～100%) c+ (3.3%～100%) y+ (3.3%～100%) m, 100%c+100%m+ 100%y+ (10%～100%) k, 100%c+100%m+100%y+100%k+ (10%～100%) o }；

Wherein, (3.3%～100%) represents the multiple samplings measured by 3.3% ink amount, with 3.3% ink as increment Site, (10%～100%) expression measures the multiple sampling sites as increment by 10% ink amount, with 10% ink, thus Go out above-mentioned t9；

T10={ (20%～100%) c+ (20%～100%) m+ (20%～100%) y+ (20%～100%) o+ (20%～100%) k }；

Wherein, (20%～100%) expression measures the multiple sampling sites as increment by 20% ink amount, with 2% ink, Thus draw above-mentioned t10；

T11={ 100%k, 100%k+ (2.5%～100%) c+ (2.5%～100%) m+ (2.5%～100%) y+ (2.5%～100%) o }；

Wherein, (2.5%～100%) represents the multiple samplings measured by 2.5% ink amount, with 2.5% ink as increment Site is it follows that above-mentioned t11.

Compared with prior art, its advantageous exists the present invention: devises sampling for ceramic ink jet printing characteristic Dot percentage set, therefrom the colour atla of spray printing can preferably help customer analysis obtain ceramic ink jet printing always ink amount limit Value, thus realize to ceramic ink jet printing always ink amount good control it is ensured that ceramic ink jet printing quality.

Brief description

Fig. 1 is the schematic layout pattern of the always ink amount limit value measurement colour atla of the ceramic ink jet printer of the present invention.

Specific embodiment

Below in conjunction with accompanying drawing 1, application scheme is further described:

Taking common c, m, y, o, k Five-channel printing of ceramic ink jet printing as a example, described c passage corresponds to cyan passage, institute State m passage to pinkish red chrominance channel, described y passage corresponds to yellow channels, described o passage corresponds to orange passage, described k passage corresponds to Black channel, each passage maximum ink amount is expressed as 100%；

A kind of always ink amount limit value measurement colour atla of ceramic ink jet printer, this colour atla includes multirow color lump sequence, described Multirow color lump sequence is represented by default multiple dot percentage set, specific as follows:

T8={ 100%o, 100%o+ (3.3%～100%) c+ (3.3%～100%) m+ (3.3%～100%) y }；

Referring in particular to such as table 1 below (sampling dot percentage synopsis):

The present invention, when specifically used, has a following operating procedure:

Step 1, by ceramic printing machine by above-mentioned colour atla spray printing on ceramic dielectric, and complete print after operation；

Step 2, is analyzed to the colour atla of above-mentioned spray printing with Visual Observations Observations method or measurement method, judges the limit value of always ink amount, two is accurate The concrete criterion of method is:

1) described Visual Observations Observations method, the color lump color of Visual Observations Observations t1-t11 respectively, when color lump is after certain black value Visually almost do not see difference, this value is to be designated as ω i (i=1,2 ... ... 11), then always ink amount limit value is max for ink jet printing (ωi).

2) described measurement method refers to the color lump chromatic value by spectrophotometer measurement t1-t11, when measurement finds that color lump exists After certain black value, l* value in colourity parameter, a* value and b* value duplicate fluctuation, and this black value is to be designated as ω i (i =1,2 ... ... 11), then the always black limit value of measuring of ink jet printing is max (ω i).

Above-mentioned preferred implementation should be regarded as the illustration of application scheme embodiment, all and application scheme thunder Technology that is same, approximate or making based on this is deduced, replaces, improving etc., is regarded as the protection domain of this patent.

Claims

1. the always ink amount limit value measurement colour atla of a kind of ceramic ink jet printer, described ceramic ink jet printer at least has c and leads to Road, m passage, y passage, o passage and k passage, each passage maximum ink amount is expressed as 100%；This colour atla includes multirow color lump sequence, It is characterized in that, described multirow color lump sequence is represented by default multiple dot percentage set, specific as follows:

T1=100%c, 100%c+ (10%～100%) k, 100%c+100%k+ (3.3%～100%) m+ (3.3%～ 100%) y+ (3.3%～100%) o }；

T2=100%m, 100%m+ (10%～100%) k, 100%m+100%k+ (3.3%～100%) c+ (3.3%～ 100%) y+ (3.3%～100%) o }；

T3=100%y, 100%y+ (10%～100%) k, 100%y+100%k+ (3.3%～100%) c+ (3.3%～ 100%) m+ (3.3%～100%) o }；

T4=100%o, 100%o+ (10%～100%) k, 100%o+100%k+ (3.3%～100%) c+ (3.3%～ 100%) m+ (3.3%～100%) y }；

Wherein, (10%～100%) expression measures the multiple sampling sites as increment by 10% ink amount, with 10% ink, (3.3%～100%) represent measure multiple sampling sites as increment by 3.3% ink amount, with 3.3% ink it follows that Above-mentioned t1, t2, t3 and t4；

Wherein, (10%～100%) expression measures the multiple sampling sites as increment by 10% ink amount, with 10% ink, (55%～100%) the multiple sampling sites measured by 55% ink amount, with 5% ink as increment are represented；Thus draw above-mentioned T5, t6 and t7；

T8={ 100%o, 100%o+ (3.3%～100%) c+ (3.3%～100%) m+ (3.3%～100%) y }；

Wherein, (3.3%～100%) represents the multiple sampling sites measured by 3.3% ink amount, with 3.3% ink as increment； Thus draw above-mentioned t8；

T9={ (3.3%～100%) c+ (3.3%～100%) y+ (3.3%～100%) m, 100%c+100%m+100%y + (10%～100%) k, 100%c+100%m+100%y+100%k+ (10%～100%) o }；

Wherein, (3.3%～100%) expression measures the multiple sampling sites as increment by 3.3% ink amount, with 3.3% ink, (10%～100%) represent and measure multiple sampling sites as increment by 10% ink amount, with 10% ink it follows that above-mentioned t9；

T10=(20%～100%) c+ (20%～100%) m+ (20%～100%) y+ (20%～100%) o+ (20%～ 100%) k }；

Wherein, (2.5%～100%) expression measures the multiple sampling sites as increment by 2.5% ink amount, with 2.5% ink, Thus draw above-mentioned t11.