JP2004009527A - Permutation of description of printing performance by selection of ink - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology for performing a different kind of printing with a different description of printing performance by changing the type of inks discharged from a group of nozzles on a printing head. <P>SOLUTION: A different printing with a different description of the printing performance is performed by exchanging a black-based ink for the first light-colored ink among a plurality of usable inks comprising at least one standard ink and the first light-colored ink having approximately the same hue as that for either one ink among the standard inks and a low density. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a printing technique for printing an image by discharging ink onto a print medium.
[0002]
[Prior art]
2. Description of the Related Art In recent years, a printing apparatus that forms an ink dot on a print medium by ejecting ink droplets to print an image (hereinafter, an inkjet printing apparatus) has been widely used as an image output apparatus. A plurality of nozzle groups are provided in a print head of an ink jet printing apparatus, and these nozzle groups respectively discharge different inks.
[0003]
[Problems to be solved by the invention]
In a conventional ink jet printing apparatus, the type of ink ejected from each nozzle group is predetermined, and it is considered that by changing the type of ink, another type of printing having different printing performance characteristics is performed. I didn't.
[0004]
The present invention has been made to solve the above-described problem in the related art, and by changing the type of ink ejected from a nozzle group of a print head, it is possible to perform another type of printing having different printing performance characteristics. The purpose is to provide technology to perform.
[0005]
[Means for Solving the Problems and Their Functions and Effects]
In order to solve at least a part of the above-described problems, the present invention includes a print head having a plurality of nozzle groups each including a plurality of nozzles that eject the same ink, and the print head and a print medium are relatively positioned. In addition to performing main scanning to move the image to the main scanning direction and sub-scanning to relatively move in the direction intersecting the direction of the main scanning, printing is performed by printing an image by ejecting ink from a nozzle onto a printing medium during the main scanning. An apparatus for discharging respective inks of a first ink set including at least one standard ink and a first light ink having a hue substantially equal to that of any of the standard inks and a low density. Print head having a plurality of nozzle groups available for use, and one or more having an ink tank for storing ink to be supplied to each of the nozzle groups. An ink cartridge mounting portion capable of mounting an ink cartridge of the first type, and by replacing the ink tank of the first light ink with an ink tank of a black ink, an ink set different from the first ink set was used. It is possible to print.
[0006]
According to this printing apparatus, it is possible to perform different types of printing having different printing performance characteristics such as image quality and printing speed using different ink sets.
[0007]
In the above printing apparatus, it is preferable that the standard inks include a plurality of basic color inks that can express an achromatic color when used in combination with each other.
[0008]
In this way, since each ink set includes the basic color ink, normal color printing, which is frequently used, and another type of printing can be performed without replacing the ink cartridge.
[0009]
In each of the above printing devices, it is preferable that the standard ink includes a black ink.
[0010]
In this way, since each ink set includes black ink, normal monochrome printing, which is frequently used, and another type of printing can be performed without replacing the ink cartridge.
[0011]
In each of the above printing apparatuses, the first light black ink tank includes the black ink and the first light black ink by replacing the first light ink ink tank with a first light black ink ink tank having a lower density than the black ink. It is preferable that printing using the second ink set can be performed.
[0012]
This makes it possible to perform high-quality printing using the black ink and the first light black ink.
[0013]
In each of the above printing devices, the first ink set further includes a second light ink having a hue substantially equal to any one of the standard inks and a low density, and the first light ink and the second light ink The ink tank of one of the inks is replaced with the ink tank of the first light black ink, and the ink tank of the other ink is replaced with the ink tank of the second light black ink having a lower density than the first light black ink. It is preferable that printing can be performed by using a third ink set including the black ink, the first light black ink, and the second light black ink by replacement.
[0014]
This makes it possible to perform high-quality printing using the black ink, the first light black ink, and the second light black ink.
[0015]
In each of the printing apparatuses, the first light ink tank is replaced with an ink tank of a first dark ink having a density substantially equal to that of any one of the standard inks and having the same hue. It is preferable that printing can be performed using a fourth ink set including the standard ink and the first dark ink.
[0016]
This makes it possible to perform high-quality printing using the standard ink and the first dark ink.
[0017]
In each of the above printing apparatuses, each nozzle of a nozzle group for discharging the first light ink is arranged at a position in a sub-scanning direction different from each nozzle of the nozzle group for discharging the black ink. By replacing the ink tank of one light ink with the ink tank of the same first black ink as the black ink, it is possible to perform printing using a fifth ink set including the black ink and the first black ink. Preferably it is possible.
[0018]
In this way, the nozzle group for discharging the first light ink and the nozzle group for discharging the black ink are different raster lines (main scanning lines that can be recorded by one main scanning). Can be simultaneously recorded, and by simultaneously using these nozzle groups, a wider area can be simultaneously recorded. Therefore, high-speed monochrome printing using a nozzle group for discharging the black ink and a nozzle group for discharging the first black ink can be performed.
[0019]
In each of the above printing apparatuses, the first ink set further includes a second light ink having a hue substantially equal to any one of the standard inks and a low density,
Each nozzle of the nozzle group for discharging the first light ink is arranged at a position in the sub-scanning direction different from each nozzle of the nozzle group for discharging the second light ink, and the fifth ink set is It is preferable that two ink tanks of the first light ink and the second light ink are replaced with the ink tanks of the first black ink, respectively.
[0020]
By doing so, the nozzle group for ejecting the first light ink and the nozzle group for ejecting the second light ink can simultaneously record different raster lines, respectively. By simultaneously using the nozzle groups, a wider area can be simultaneously recorded. Therefore, high-speed monochrome printing using the nozzle group for discharging the black ink and the two nozzle groups capable of discharging the first black ink can be performed.
[0021]
In each of the above printing apparatuses, the first ink set further includes a second light ink having a hue that is substantially the same as any one of the standard inks and a low density, and ejects the first light ink. The nozzles of the nozzle group for discharging the second light ink and the nozzles of the nozzle group for discharging the second light ink are arranged at positions different in the sub-scanning direction from the nozzles of the nozzle group for discharging the black ink. Replacing the ink tank of one of the first light ink and the second light ink with the ink tank of the first black ink, and replacing the ink tank of the other ink with the first light black ink By using a sixth ink set including the black ink, the first black ink, and the first light black ink It is preferably possible to perform.
[0022]
This makes it possible to perform high-speed monochrome printing using the nozzle group for discharging the black ink and the nozzle group capable of discharging the first black ink. Further, high-quality printing can be performed using a nozzle group for discharging the black ink and a nozzle group capable of discharging the first light black ink.
[0023]
In each of the above printing apparatuses, the first ink set further includes a second light ink having a hue that is substantially the same as any one of the standard inks and a low density, and ejects the first light ink. The nozzles of the nozzle group for discharging the second light ink and the nozzles of the nozzle group for discharging the second light ink are arranged at positions different in the sub-scanning direction from the nozzles of the nozzle group for discharging the black ink. Replacing the ink tank of one of the first light ink and the second light ink with the ink tank of the first black ink, and replacing the ink tank of the other ink with the ink tank of the first dark ink. By replacing with an ink tank, it is possible to perform printing using a seventh ink set including the black ink, the first black ink, and the first dark ink. The preferred there to have.
[0024]
This makes it possible to perform high-speed monochrome printing using the nozzle group for discharging the black ink and the nozzle group capable of discharging the first black ink. Further, high-quality printing using the standard ink and the first dark ink can be performed.
[0025]
In each of the above printing apparatuses, it is preferable that the ink cartridge mounting section can mount an independent ink cartridge for each ink.
[0026]
By doing so, it is possible to select and replace the ink cartridge that contains only the ink that needs to be replaced, so that each ink can be used without waste.
[0027]
In each of the above printing apparatuses, the print head can move independently of the ink cartridge mounting section, and is connected to an ink cartridge mounted on the ink cartridge mounting section via an ink supply path. Is preferred.
[0028]
By doing so, the mechanism for moving the print head can be simplified.
[0029]
It is preferable that each of the printing apparatuses includes a print mode selection unit that allows a user to select an ink color print mode to be used from a plurality of ink color print modes that use different inks.
[0030]
In this way, printing in a desired ink color print mode can be performed.
[0031]
In each of the above printing apparatuses, the ink cartridge includes a memory that stores information including the type of ink stored therein, the printing apparatus includes a reading unit that reads information stored in the memory, The mode selection unit displays an available ink color print mode based on the information read by the reading unit, and selects an ink color print mode to be used from the available ink color print modes. It is preferable to allow the user to do so.
[0032]
By doing so, it is possible to select an ink color print mode corresponding to the ink contained in the installed ink cartridge.
[0033]
In each of the above printing apparatuses, the print mode selection unit determines whether or not the installed ink set is a scheduled one based on the information read by the reading unit. If it is determined that there is no warning, it is preferable to output a warning.
[0034]
By doing so, it is possible to prevent printing with an unscheduled ink cartridge attached.
[0035]
In each of the printing apparatuses, the print mode selection unit determines whether all of the inks required by the selected ink color print mode are mounted based on the information read by the reading unit, If it is determined that at least a part of the required ink is not installed, the output of the installation and replacement of the ink cartridge necessary to use the selected ink color print mode is output. Is preferred.
[0036]
By doing so, it is possible to easily install and replace the ink necessary for performing printing in the desired ink color print mode.
[0037]
In each of the above printing devices, the first image data represented by the first color system is converted into the second image data represented by the second color system composed of ink usable in the printing device. And a plurality of look-up tables prepared corresponding to the plurality of ink color print modes, using a look-up table. It is preferable to select and use a look-up table corresponding to the ink color printing mode.
[0038]
By doing so, the process of converting the image data into the ink amount data can be quickly performed by referring to the lookup table. Further, since a lookup table corresponding to a plurality of ink color printing modes is provided and a lookup table corresponding to the selected ink color printing mode is selected and used, printing is performed in the selected ink color printing mode. be able to.
[0039]
The present invention can be realized in various forms. For example, a printing method and a printing apparatus, a printing control method and a printing control apparatus, a computer program for realizing the functions of these methods or apparatuses, The present invention can be realized in the form of a recording medium on which a computer program is recorded, a data signal including the computer program, and embodied in a carrier wave.
[0040]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of the present invention will be described in the following order based on examples.
A. Equipment configuration:
B. Example:
C. Modification:
[0041]
A. Equipment configuration:
FIG. 1 is a block diagram illustrating a configuration of a printing system as one embodiment of the present invention. This printing system includes a computer 90 as a print control device and a printer 20 as a printing unit. Note that a combination of the printer 20 and the computer 90 can be called a “printing device” in a broad sense.
[0042]
In the computer 90, an application program 95 operates under a predetermined operating system. A video driver 91 and a printer driver 96 are incorporated in the operating system, and print data PD to be transferred to the printer 20 is output from the application program 95 via these drivers. The application program 95 performs a desired process on the image to be processed, and displays the image on the CRT 21 via the video driver 91.
[0043]
When the application program 95 issues a print command, the printer driver 96 of the computer 90 receives image data from the application program 95 and converts the image data into print data PD to be supplied to the printer 20. In the example shown in FIG. 1, a resolution conversion module 97, a color conversion module 98 as a color conversion unit, a halftone module 99, a print data generation module 100, a print mode selection unit 101 and a plurality of look-up tables LUT. A plurality of lookup tables LUT are prepared corresponding to a plurality of ink color print modes selectable by the print mode selection unit 101. The look-up table LUT, the resolution conversion module 97, the color conversion module 98, the halftone module 99, and the print data generation module 100 function as a print data generation unit.
[0044]
The print mode selection unit 101 holds information on inks required by a plurality of available ink color print modes. In addition, by receiving the ink information signal from the printer 20, information on available ink can be used. The print mode selection unit 101 compares the information on these two inks to select an available ink color print mode, and to select an ink color print mode to be used from the available ink color print modes. Can be tolerated by the user. Further, it is determined whether or not the selected ink color print mode can be used, and when it is determined that the selected ink color print mode cannot be used, a guide for installing and replacing a necessary ink cartridge is provided. You can also go. Details of the print mode selection unit 101 and the ink information signal received by the print mode selection unit 101 will be described later.
[0045]
The resolution conversion module 97 plays a role of converting the resolution of the color image data handled by the application program 95 (that is, the number of pixels per unit length) into a resolution that can be handled by the printer driver 96. The image data whose resolution has been converted in this way is still image information of three colors of RGB. The color conversion module 98 selects RGB image data (first data) for each pixel while selecting and referencing a look-up table LUT corresponding to the selected ink color print mode from a plurality of look-up tables LUT. The image data) is converted into multi-tone data (second image data) of a plurality of ink colors that can be used by the printer 20.
[0046]
The color-converted multi-tone data has, for example, 256 tone values. The halftone module 99 executes a halftone process for expressing this gradation value in the printer 20 by dispersing and forming the ink dots. The halftone-processed image data is rearranged by the print data generation module 100 in the order of data to be transferred to the printer 20, and output as final print data PD. Note that the print data PD includes raster data indicating the dot recording state during each main scan, and data indicating the sub-scan feed amount.
[0047]
Note that the printer driver 96 corresponds to a program for realizing a function of generating the print data PD. A program for realizing the function of the printer driver 96 is supplied in a form recorded on a computer-readable recording medium. Examples of such a recording medium include a flexible disk, a CD-ROM, a magneto-optical disk, an IC card, a ROM cartridge, a punched card, a printed matter on which a code such as a bar code is printed, and a computer internal storage device (such as a RAM or ROM). Various computer readable media, such as memory and external storage, can be used.
[0048]
FIG. 2 is a schematic configuration diagram of the printer 20. The printer 20 includes a sub-scanning feed mechanism that conveys the printing paper P in the sub-scanning direction by the paper feed motor 22 and a main scanning feed mechanism that reciprocates the carriage 30 in the axial direction (main scanning direction) of the platen 26 by the carriage motor 24. A head drive mechanism for driving a print head unit 60 (also referred to as a “print head assembly”) mounted on the carriage 30 to control ink ejection and dot formation, and a paper feed motor 22 and a carriage motor 24 And a control circuit 40 for controlling the exchange of signals with the print head unit 60 and the operation panel 32. The control circuit 40 is connected to the computer 90 via the connector 56.
[0049]
The sub-scanning feed mechanism that transports the print paper P includes a gear train (not shown) that transmits the rotation of the paper feed motor 22 to the platen 26 and a paper transport roller (not shown). A main scanning feed mechanism for reciprocating the carriage 30 includes an endless drive belt 36 provided between the carriage motor 24 and a slide shaft 34 laid parallel to the axis of the platen 26 and slidably holding the carriage 30. And a position sensor 39 for detecting the origin position of the carriage 30.
[0050]
FIG. 3 is a block diagram illustrating the configuration of the printer 20 with the control circuit 40 at the center. The control circuit 40 is configured as an arithmetic logic operation circuit including a CPU 41, a programmable ROM (PROM) 43, a RAM 44, and a character generator (CG) 45 storing a dot matrix of characters. The control circuit 40 further includes an I / F dedicated circuit 50 dedicated to interface with an external motor or the like, and a head connected to the I / F dedicated circuit 50 to drive the print head unit 60 to eject ink. A drive circuit 52 and a motor drive circuit 54 for driving the paper feed motor 22 and the carriage motor 24 are provided. The head drive circuit 52 includes a data reading unit 53.
[0051]
The I / F dedicated circuit 50 has a built-in parallel interface circuit and can receive print data PD supplied from the computer 90 via the connector 56. The printer 20 performs printing according to the print data PD. The RAM 44 functions as a buffer memory for temporarily storing raster data.
[0052]
FIG. 4 is a perspective view of the print head unit 60. The print head unit 60 includes an ink cartridge mounting section 62 and the print head 28. As shown in FIG. 3, the ink cartridge mounting portion 62 includes a black ink cartridge 171K containing black ink K, a yellow ink cartridge 171Y containing yellow ink Y, and a cyan ink cartridge 171C containing cyan ink C. A light cyan ink cartridge 171LC containing a light cyan ink LC as a first light ink, a magenta ink cartridge 171M containing a magenta ink M, and a light magenta ink containing a light magenta ink LM as a second light ink And a cartridge 171LM. In this embodiment, three inks, yellow ink Y, cyan ink C, and magenta ink M, are used as basic color inks. Further, four inks of three basic color inks (Y, C, M) and black ink K are used as standard inks, and color printing and monochrome printing are performed by using these four standard inks. be able to.
[0053]
These ink cartridges are provided with memories 181K, 181Y, 181C, 181LC, 181M, and 181LM, respectively, as memories for ink information. These memories store ink information for specifying the type of ink contained in the ink cartridge. The ink information is read by the data reading unit 53 (FIG. 3) via the six memory reading units 82K, 82Y, 82C, 82LC, 82M, and 82LM provided in the ink cartridge mounting unit 62, and the I / F It is sent as an ink information signal to the computer 90 via the dedicated circuit 50 and the connector 56. The six memory reading units and the data reading unit 53 function as ink information reading units. Further, the ink cartridge mounting section 62 is provided with a label 64 for guiding the mounting location of the ink cartridge.
[0054]
In addition, an ink cartridge containing other inks other than the above-described six ink cartridges can be mounted on the ink cartridge mounting portion 62. Details will be described later.
[0055]
In the ink cartridge mounting section 62, six inlet pipes 72K, 72Y, 72C, 72LC, 72M, and 72LM that are inserted into each ink cartridge to form an ink flow path are provided upright. These introduction pipes are connected to the respective nozzle groups of the print head 28 provided below the print head unit 60. Details of the print head 28 will be described later.
[0056]
In the printer 20 having the above-described hardware configuration, the carriage 30 is reciprocated by the carriage motor 24 while the printing paper P is conveyed by the paper feed motor 22, and the print head 28 is simultaneously driven to eject the ink droplets of each color. To form an ink dot to form a multi-color and multi-tone image on the printing paper P.
[0057]
B. Example:
B1. Example 1
FIG. 5 is an explanatory diagram illustrating the nozzle arrangement on the lower surface of the print head 28 according to the first embodiment. On the lower surface of the print head 28, six nozzle groups N11 to N16 are provided. The plurality of nozzles Nz constituting each nozzle group are aligned along the sub-scanning direction SS. In the example of FIG. 5, the plurality of nozzles Nz of one nozzle group are arranged in a straight line along the sub-scanning direction SS, but may be arranged in a staggered manner.
[0058]
FIG. 6 is an explanatory diagram showing four types of ink sets IS11 to IS14 that can be used in the first embodiment, types of inks included in each of the ink sets, and nozzle groups used by each ink. Six inks (K, Y, C, LC, M, LM) can be used as the first ink set IS11. Each ink is ejected from each of the nozzle groups N11 to N16.
[0059]
The light cyan ink LC is an ink that has substantially the same hue as the cyan ink C and has high lightness (that is, low density). The light magenta ink LM is an ink that has substantially the same hue as the magenta ink M and has high lightness. By using these light inks in a relatively bright area, the number of ink dots can be increased, and the smaller the number of ink dots, the more noticeable graininess (image roughness) can be improved. Therefore, the print quality of a relatively bright area can be improved.
[0060]
The second ink set IS12 is obtained by replacing the light cyan ink LC of the first ink set IS11 with the first light black ink LK. That is, the light cyan ink cartridge 171LC is replaced with an ink cartridge containing the first light black ink LK. This ink cartridge also has the same memory as other ink cartridges, and can read ink information via a memory reading unit. When exchanging ink, the ink cartridge provided with the memory is exchanged.
[0061]
In the second ink set IS12, the ink corresponding to the nozzle group N16 is blank, which means that the nozzle group N16 is not used. As described above, when there is an unused nozzle group, printing is performed even if an ink cartridge of an arbitrary ink is installed or the ink cartridge is removed as an ink cartridge corresponding to the unused nozzle group. Preferably, the printer 20 is configured to be capable of performing such operations. In this way, printing can be performed by preparing the minimum necessary number of ink cartridges. The advantage of using each ink set will be described later.
[0062]
The third ink set IS13 is obtained by replacing the light cyan ink LC of the first ink set IS11 with a first light black ink LK, and replacing the light magenta ink LM with a second light black ink LLK.
[0063]
The first light black ink LK is an ink having a higher brightness than the black ink K. The second light black ink LLK is an ink having a higher lightness than the first light black ink LK. In a relatively bright region, the graininess can be improved by using a black ink having higher brightness. In a relatively dark area, the number of ink dots can be limited by using black ink with lower brightness. Therefore, it is possible to suppress banding (streak-like image quality deterioration) that is conspicuous when the number of ink dots is large. Further, since three types of black ink having different densities are used, monochrome printing with good gradation can be performed.
[0064]
The fourth ink set IS14 is obtained by replacing the light cyan ink LC of the first ink set IS11 with a dark yellow ink DY as a first dark ink.
[0065]
The dark yellow ink DY is an ink having substantially the same hue as the yellow ink Y and low brightness. When used in a relatively dark area, the amount of ink to be applied can be reduced, bleeding and banding can be suppressed, and the print quality of a color image can be improved.
[0066]
When the first ink set IS11 is changed to another ink set, the type of ink that replaces the light cyan ink LC and the type of ink that replaces the light magenta ink LM may be exchanged. Specifically, when configuring the second ink set IS12 and the fourth ink set IS14, instead of replacing the light cyan ink LC of the first ink set IS11 with the first light black ink LK or the dark yellow ink DY, The light magenta ink LM may be replaced with the first light black ink LK or the dark yellow ink DY. When configuring the third ink set IS13, the light cyan ink LC may be replaced with the second light black ink LLK, and the light magenta ink LM may be replaced with the first light black ink LK. Such exchange of the positions of the light cyan ink LC and the light magenta ink LM is similarly possible in other embodiments described later.
[0067]
FIG. 7 is an explanatory diagram showing a relationship between each of the ink sets IS11 to IS14 and available ink color print modes. In the present specification, the “ink color print mode” means a print mode in which a combination of inks actually used is different. The upper row of each table shows the type of ink that each ink set has, and the lower row shows the ink color print modes that can be used and the combinations of inks that each ink color print mode uses. I have.
[0068]
When the first ink set IS11 is used, as shown in FIG. 7A, a normal four-color print mode using four standard inks (K, Y, C, M), and six inks ( (K, Y, C, LC, M, LM). A monochrome print mode using only the black ink K can be used, but is not shown. This is the same for other ink sets.
[0069]
In the first type high quality color print mode, the graininess of a relatively bright area is improved by using four standard inks (K, Y, C, M), a light cyan ink LC, and a light magenta ink LM. Color printing can be performed.
[0070]
In the four-color printing mode, the columns corresponding to the light cyan ink LC and the light magenta ink LM are blank. This means that the light cyan ink LC and the light magenta ink LM are not used. ing. As described above, when there is an unused ink, even if the ink cartridge corresponding to the unused ink is removed or another ink cartridge is mounted instead of the ink cartridge corresponding to the unused ink. The printer 20 may be configured to perform printing. In this way, printing can be performed by preparing a minimum necessary amount of ink.
[0071]
When the second ink set IS12 is used, as shown in FIG. 7B, a four-color printing mode using four standard inks (K, Y, C, M), a black ink K and a first Type 1 high quality monochrome print mode using light black ink LK, type 2 high quality color printing using four standard inks (K, Y, C, M) and first light black ink LK Mode and can be used.
[0072]
In the first type high-quality monochrome print mode, the black ink K and the first light black ink LK are used to improve the granularity of a relatively bright area and reduce banding (streak-like image quality deterioration) of a relatively dark area. It is possible to perform suppressed monochrome printing.
[0073]
In the second type high quality color print mode, the graininess of a relatively bright area is improved using four standard inks (K, Y, C, M) and the first light black ink LK, and the color is relatively dark. Color printing in which banding of a region is suppressed can be performed.
[0074]
When the third ink set IS13 is used, as shown in FIG. 7C, three ink color printing modes (a four-color printing mode and a first-color printing mode) that can be used when the second ink set IS12 is used. In addition to the high-quality monochrome print mode and the second-type high-quality color print mode, a second-type high-quality monochrome print mode and a third-type high-quality color print mode can be used.
[0075]
In the second type high quality monochrome print mode, the granularity of a relatively bright area is improved by using the black ink K, the first light black ink LK, and the second light black ink LLK, and the relatively dark area is improved. Monochrome printing in which banding is suppressed can be performed. The second type high-quality monochrome print mode can use more black inks having different lightness than the first type high-quality monochrome print mode, so that the brightness gradation can be reproduced more smoothly. is there.
[0076]
In the third type high quality color print mode, four standard inks (K, Y, C, M), a first light black ink LK, and a second light black ink LLK are used to form a relatively bright area. Color printing with improved graininess and suppressed banding in relatively dark areas can be performed.
[0077]
When the fourth ink set IS14 is used, as shown in FIG. 7D, a four-color printing mode using four standard inks (K, Y, C, M) and four standard inks (K , Y, C, M) and a fourth type high-quality color print mode using dark yellow ink DY.
[0078]
In the fourth type high quality color printing mode, color printing is performed using four standard inks (K, Y, C, M) and dark yellow ink DY to suppress banding in a relatively dark area. Can be.
[0079]
The four ink sets IS11 to IS14 described above are obtained by replacing the light cyan ink LC and the light magenta ink LM other than the four standard inks with other inks as needed based on the first ink set IS11. . That is, each of the four ink sets IS11 to IS14 includes four standard inks capable of performing normal four-color printing. Therefore, the normal four-color print mode, which is frequently used, and another type of ink color print mode can be used without replacing the ink cartridge.
[0080]
The combination of ink cartridges that can be installed is not limited to the above-described embodiment of the ink set (IS11 to IS14), and printing can be performed by installing only the ink cartridges necessary for the ink color print mode to be used. You may. For example, when it is desired to use the second type high quality monochrome print mode, only the ink cartridge for an ink set including three inks of black ink K, first light black ink LK, and second light black ink LLK is used. May be allowed to print.
[0081]
Generally, there are a plurality of ink color print modes which can be realized by a specific ink set mounted on the printer 20, and the user can select an ink color print mode to be actually used from the plurality of ink color print modes. FIG. 8 is an explanatory diagram showing a state in which the print mode selection unit 101 (FIG. 1) of the printer driver 96 is used to set the ink color print mode. FIG. 8A shows a case where ink cartridges for five inks (K, Y, C, LK, M) are mounted, and FIG. 8B shows six inks (K, Y, C, LK, M). C, LK, M, and LLK) are mounted. As shown, when the user opens the print mode selection screen of the printer driver 96, the print mode selection unit 101 displays a screen for selecting an ink color print mode on the CRT 21. The displayed screen has an ink type display unit 202 and a print mode display unit 204.
[0082]
In the ink type display section 202, six square frames indicating six ink cartridges that can be appropriately mounted on the ink cartridge mounting section 62 are displayed. At the upper part of each square frame, the same label 206 as the label 64 provided on the ink cartridge mounting portion 62 (FIG. 4) is shown for distinguishing the ink cartridge. In each of the six square frames, a symbol indicating the type of ink contained in each ink cartridge is displayed. The type of ink contained in the ink cartridge can be identified based on an ink information signal sent from the printer 20 to the print mode selection unit 101. A blank square frame means that the corresponding ink cartridge is not mounted.
[0083]
The print mode display unit 204 displays a list of ink color print modes that can be used using the attached ink. The print mode selection unit 101 holds information on a combination of a nozzle group and an ink type required by each of the plurality of ink color print modes, that is, information on a combination of an ink cartridge and an ink type. The print mode selection unit 101 can compare this information with the information obtained from the above-described ink information signal to determine whether each ink color print mode can be used. For example, to determine whether the first type high quality monochrome print mode is available, the ink cartridge mounted at the position indicated by 1 on the label 64 (FIG. 4) contains the black ink K It is sufficient to confirm that the ink cartridge mounted at the position indicated by 4 contains the first light black ink LK.
[0084]
Determine whether each ink color print mode is available by checking that the inks required by each ink color print mode are available without limiting the correspondence between each ink and the nozzle group May be performed. For example, in order to determine whether the first-class high-quality monochrome print mode is available, the necessary black ink K and first light black ink LK are contained in any one of the ink cartridges. You just need to make sure. In this case, the print data generation module 100 (FIG. 1) processes the print data (assigns raster data to the nozzle groups) so that the nozzle groups that can use the required ink are used for printing.
[0085]
In the print mode display unit 204, the selected ink color print mode is displayed, for example, with its color inverted. In addition, the ink type display unit 202 distinguishes the ink used in the selected ink color print mode from the unused ink by surrounding the ink used in the selected ink color print mode with a double line.
[0086]
FIG. 9 is an explanatory diagram showing another example of the ink color print mode setting screen. In this example, unlike the example of FIG. 8, the print mode display unit 204 displays a list of ink color print modes that can be used by the printer 20 irrespective of the installed ink cartridges. Displayed with. When one ink color print mode is selected by the user, the print mode selection unit 101 determines whether or not an ink cartridge required to use the selected ink color print mode is mounted. If it is determined that the necessary ink cartridge is not installed, the print mode selection unit 101 displays an ink cartridge replacement and installation guide on the ink type display unit 202. In the example of FIG. 9, the types of ink cartridges before and after replacement are indicated by arrows.
[0087]
FIG. 10 is an explanatory diagram showing still another example of the ink color print mode setting screen. In this example, the print mode selection unit 101 determines whether the ink set by the attached ink cartridge corresponds to one of a plurality of ink sets scheduled for the printer 20. If none of the scheduled ink sets is applicable, the print mode selection unit 101 does not display the ink color print mode on the print mode display unit 204 and displays a message 208 indicating that printing cannot be performed as a warning. I do.
[0088]
8 to 10 described above, all or part of the display may be displayed on the operation panel 32 of the printer 20 (FIG. 2). For example, by displaying the ink type display unit 202 on the operation panel 32, it is possible to perform an ink cartridge replacement operation while looking at the ink type display unit 202 displayed on the operation panel 32.
[0089]
It is preferable that the ink information is sent to the print mode selection unit 101 every time the ink cartridge is inserted or removed. By doing so, the print mode selection unit 101 can always display the latest information. Alternatively, the ink information may be sent to the print mode selection unit 101 whenever it is necessary to set the ink color print mode, such as when setting the ink color print mode or performing printing. By doing so, it is possible to reliably set the ink color print mode based on the type of the installed ink.
[0090]
Next, the lookup table LUT and the color conversion module 98 (FIG. 1) in this embodiment will be described. The look-up table LUT is a table that stores the gradation values of each ink amount for each gradation value of RGB, and a plurality of lookup tables are prepared corresponding to a plurality of ink color print modes that use different types of ink. For example, the lookup table LUT for the four-color printing mode stores the ink amount gradation values of the four inks (K, Y, C, M) for each of the gradation values of RGB. The color conversion module 98 selects and refers to a look-up table LUT corresponding to the ink color print mode selected by the print mode selecting unit 101 from the plurality of prepared look-up tables LUT, and outputs the RGB image data (first image). 1 image data) is converted into multi-tone data (second image data) corresponding to the amount of each ink. By performing data conversion with reference to the lookup table LUT in this manner, printing in a desired ink color print mode can be performed quickly. Here, each gradation value of RGB and the gradation value of the ink amount are subdivided into 256 steps, and take a value of 0 or more and 255 or less. The RGB tone values and the ink amount tone values are not limited to 256 levels. By setting the number of steps to be larger, for example, 512 steps, higher-quality printing can be performed. By setting the number of steps to be smaller, for example, 128 steps, the recording medium necessary for recording the look-up table can be obtained. The size can be reduced. Note that the first image data is not limited to image data composed of three color components of RGB, and image data of various color systems such as an L * a * b * color system and an XYZ color system. Can be used as the first image data.
[0091]
B2. Example 2:
The configuration of the printer 20 of the second embodiment is almost the same as that of the first embodiment, but the configuration of the print head 28 is different from that of the first embodiment. FIG. 11 is an explanatory diagram illustrating the nozzle arrangement on the lower surface of the print head 28a according to the second embodiment. Six nozzle groups N21 to N26 are provided on the lower surface of the print head 28a. The plurality of nozzles Nz constituting each nozzle group are aligned along the sub-scanning direction SS. Further, the positions of the nozzles forming the nozzle groups N21, N23, N25 in the sub-scanning direction SS and the positions of the nozzles forming the nozzle groups N22, N24, N26 in the sub-scanning direction SS are different from each other. Therefore, the raster lines recorded by the three nozzle groups N21, N23, N25 in one main scan are different from the raster lines recorded by the three nozzle groups N22, N24, N26 in the same main scan.
[0092]
FIG. 12 is an explanatory diagram showing seven types of ink sets IS21 to IS27 that can be used in the second embodiment, types of inks included in each of the ink sets, and nozzle groups used by each ink. The first four ink sets IS21 to IS24 are the same as the ink sets IS11 to IS14 of the first embodiment shown in FIG. In the second embodiment, in addition to these four ink sets IS21 to IS24, it is possible to use a fifth ink set IS25, a sixth ink set IS26, and a seventh ink set IS27.
[0093]
The fifth ink set IS25 is obtained by replacing the light cyan ink LC of the first ink set IS21 with the first black ink K1.
[0094]
The first black ink K1 is the same ink as the black ink K. Since the nozzle group N21 and the nozzle group N24 that eject the same black ink have different positions in the sub-scanning direction of the nozzles, they can be used simultaneously to simultaneously record black dots on different raster lines. It is. Therefore, by simultaneously using the nozzle group N21 and the nozzle group N24, it is possible to perform high-speed monochrome printing with a substantially high printing speed.
[0095]
The sixth ink set IS26 is obtained by replacing the light cyan ink LC of the first ink set IS21 with the first black ink K1, and replacing the light magenta ink LM with the first light black ink LK. Similar to the fifth ink set IS25, high-speed monochrome printing using two black inks (K, K1) simultaneously can be performed. Further, by using at least one of the two black inks (K, K1) and the first light black ink LK, printing is performed in which the graininess of a relatively bright area is improved and banding of a relatively dark area is suppressed. be able to.
[0096]
The seventh ink set IS27 is obtained by replacing the light cyan ink LC of the first ink set IS21 with the first black ink K1, and replacing the light magenta ink LM with the dark yellow ink DY as the first dark ink. Similar to the fifth ink set IS25, high-speed monochrome printing using two black inks (K, K1) simultaneously can be performed. Also, by using the four standard inks (K, Y, C, and M) and the dark yellow ink DY, it is possible to perform color printing while suppressing banding in a relatively dark area.
[0097]
FIG. 13 is an explanatory diagram showing the relationship between the three ink sets IS25 to IS27 and the available ink color print modes. The upper row of each table shows the type of ink that each ink set has, and the lower row shows the ink color print modes that can be used and the combinations of inks that each ink color print mode uses. I have. The first to fourth ink sets IS21 to IS24 are the same as the first to fourth ink sets IS11 to IS14 in FIG.
[0098]
When the fifth ink set IS25 is used, as shown in FIG. 13A, a normal four-color printing mode using four standard inks (K, Y, C, M) and two black inks are used. The first type high-speed monochrome print mode using (K, K1) can be used.
[0099]
When the sixth ink set IS26 is used, as shown in FIG. 13B, a normal four-color printing mode using four standard inks (K, Y, C, M) and two black inks are used. A first type high-speed monochrome print mode using (K, K1), a first type high-quality monochrome print mode using black ink K and first light black ink LK, and four standard inks (K, Y, C, M) and the second high-quality color print mode using the first light black ink LK.
[0100]
When the seventh ink set IS27 is used, as shown in FIG. 13C, a normal four-color printing mode using four standard inks (K, Y, C, M) and two black inks are used. A first type high-speed monochrome print mode using (K, K1) and a fourth type high-quality color print mode using four standard inks (K, Y, C, M) and dark yellow ink DY. Can be used.
[0101]
The same print mode selection unit 101 (FIG. 1) as that of the first embodiment can be used. Here, when the first type high-speed monochrome print mode is selected, the print data generation module 100 uses the dot data formed by the halftone module 99 for printing the nozzle group N21 and the nozzle group N24. (Assignment of raster data to nozzle groups) as described above. The configurations of the color conversion module 98 and the look-up table LUT can be the same as those in the first embodiment.
[0102]
B3. Example 3
The configuration of the printer 20 according to the third embodiment is almost the same as that of the second embodiment, but the configuration of the print head 28 is different from that of the second embodiment. FIG. 14 is an explanatory diagram illustrating the nozzle arrangement on the lower surface of the print head 28b according to the third embodiment. Six nozzle groups N31 to N36 are provided on the lower surface of the print head 28b. The plurality of nozzles Nz constituting each nozzle group are aligned along the sub-scanning direction SS. Further, the nozzles of the three nozzle groups N31 to N33 are arranged at positions offset from each other in the sub-scanning direction SS. The same applies to the other three nozzle groups N34 to N36. Further, the first and fourth nozzle groups N31 and N34 are arranged at the same sub-scanning position. Similarly, the second and fifth nozzle groups N32 and N35 are arranged at the same sub-scanning position, and the third and sixth nozzle groups N33 and N36 are arranged at the same sub-scanning position.
[0103]
FIG. 15 is an explanatory diagram showing seven types of ink sets IS31 to IS37 that can be used in the third embodiment, types of inks included in each of the ink sets, and a nozzle group used by each ink. The ink sets IS31 to IS34, IS36, and IS37 other than the fifth ink set IS35 are the same as the ink sets IS21 to IS24, IS26, and IS27 of the second embodiment, respectively. However, the assignment of each ink to the nozzle group is different from the second embodiment. The fifth ink set IS35 of the third embodiment is obtained by replacing the light cyan ink LC and the light magenta ink LM of the first ink set IS31 with the first black ink K1, respectively.
[0104]
The first black ink K1 is the same ink as the black ink K. The nozzle group N31, the nozzle group N35, and the nozzle group N36 that eject the same black ink have different nozzle positions in the sub-scanning direction. Therefore, by using them simultaneously, it is possible to simultaneously print different raster lines. It is. Therefore, by simultaneously using the nozzle group N31, the nozzle group N35, and the nozzle group N36, high-speed monochrome printing with a high printing speed can be performed.
[0105]
FIG. 16 is an explanatory diagram showing an ink color print mode that can be realized by the ink set IS35. The ink sets other than the fifth ink set IS35 are the same as those in FIGS.
[0106]
In the case of using the fifth ink set IS35, as shown in FIG. 16, a normal four-color printing mode using four standard inks (K, Y, C, M) and two black inks (K, A first type high-speed monochrome print mode using K1) and a second type high-speed monochrome print mode using three black inks (K, K1, K1) can be used.
[0107]
The second-type high-speed monochrome print mode uses a larger number of nozzle groups than the first-type high-speed monochrome print mode, so that printing can be performed at a higher speed.
[0108]
The same print mode selection unit 101 (FIG. 1) as that of the first embodiment can be used. Here, when the second type high-speed monochrome print mode is selected, the print data generation module 100 transmits the dot data formed by the halftone module 99 to the nozzle group N31, the nozzle group N35, and the nozzle group N36. Processing (assignment of raster data to nozzle groups) so as to be used for printing. The configurations of the color conversion module 98 and the look-up table LUT can be the same as those in the first embodiment.
[0109]
B4. Example 4:
FIG. 17 is an explanatory diagram illustrating another configuration example of the print head and the ink cartridge mounting unit. The print head 28c connected to the drive belt 36 and the ink cartridge mounting section 62c are connected by ink supply paths 661 to 666. In this embodiment, six nozzle groups (not shown) of the print head 28c are connected to six inlet pipes 721 to 726 provided in the ink cartridge, respectively.
[0110]
In the middle of the six ink supply paths 661 to 666, damper sections 681 to 686 for temporarily storing ink are provided, respectively. As the ink supply path becomes longer, the maximum value of the ink supply speed tends to decrease.However, by supplying ink to the print head via a damper section provided in the ink supply path, ink consumption is reduced. Even when the amount temporarily increases, stable ink supply can be performed. If the ink supply speed is sufficiently higher than the ink consumption speed, the damper unit may be omitted.
[0111]
The ink supply path connecting the print head 28c and the damper units 681 to 686 is formed of a tube using an elastic body such as rubber or silicon so that the print head 28c can freely move within the movement range. , Have a sufficient length. When the damper units 681 to 686 are integrally formed with the print head 28c (described later), the ink supply path connecting the damper units 681 to 686 and the ink cartridge mounting unit 62c corresponds to the movement range of the print head 28c. It is configured to be able to move freely inside. By doing so, the print head can be moved independently of the ink cartridge mounting section, so that the mechanism for moving the print head can be simplified.
[0112]
The ink cartridge mounting section 62c can be provided at an arbitrary position independently of the print head 28c. For example, a configuration in which an ink cartridge is mounted may appear outside the printing apparatus. This makes it possible to easily replace the ink cartridge without operating the inside of the printing apparatus. Further, a configuration in which a large-capacity ink cartridge can be mounted can also be adopted. By doing so, the frequency of replacing the ink cartridge can be reduced.
[0113]
The dampers 681 to 686 can also be provided at arbitrary positions independently of the print head 28c, but are configured such that the liquid head difference between the liquid level in the damper and the nozzle group is the same regardless of the nozzle group. Is preferred. By doing so, there is no need to prepare nozzle groups having different ejection performances in order to cope with differences in ease of ink ejection due to differences in water head differences, and it is possible to configure a print head using nozzle groups having the same ejection performance. Can be. Further, the damper units 681 to 686 may be configured integrally with the print head 28c. By doing so, the operation for connecting the print head 28c and the dampers 681 to 686 can be omitted.
[0114]
When replacing the ink cartridge, it is preferable to perform cleaning for discharging or sucking out the ink stored in the ink supply path and the damper portion. For example, a configuration may be used in which cleaning is performed by sucking the accumulated ink using a mechanism that forcibly sucks ink from the nozzle group, and cleaning is performed by discharging the accumulated ink after replacing the ink cartridge. Is also good. Further, when replacing the ink cartridge, a cleaning ink cartridge containing a cleaning liquid may be attached to perform suction cleaning or cleaning to discharge accumulated ink. By doing so, cleaning can be performed without mixing two types of ink.
[0115]
C. Modification:
The present invention is not limited to the above-described examples and embodiments, but can be implemented in various modes without departing from the gist of the invention, and for example, the following modifications are possible.
[0116]
C1. Modification 1
In the various embodiments described above, the print head unit is configured so that an independent ink cartridge can be mounted on the print head unit 60 for each ink. However, an ink cartridge having a plurality of ink tanks can be mounted. It may be configured as follows. For example, all the ink tanks may be housed in one ink cartridge, and one ink cartridge may be appropriately mounted to perform printing. By doing so, it is possible to easily mount an ink cartridge suitable for a desired ink color print mode. In general, the ink cartridge mounting section used in the present invention only needs to be capable of mounting a plurality of ink tanks for respectively storing a plurality of types of ink.
[0117]
In addition, as can be understood from this description, in the present specification, the “ink tank” means a container for storing one type of ink. In addition, the ink cartridge means a container that is integrally formed and has at least one ink tank.
[0118]
C2. Modified example 2:
The control circuit 40 may be configured to include a MIB (Management Information Base) that is a database that holds the operating environment of the printer 20. The data read by the data reading unit 53 is temporarily stored in the MIB. The computer 90 can obtain information on the operating environment of the printer 20 by accessing the MIB. The operating environment includes information on the mounted cartridge.
[0119]
C3. Modification 3:
In the various embodiments described above (FIGS. 6, 12, and 15), one or both of the light cyan ink LC as the first light ink and the light magenta ink LM as the second light ink are used as the black ink (K1, LK, LLK, etc.), it is possible to replace only one of the light cyan ink LC and the light magenta ink LM with the black ink instead. In other words, in the present invention, it is sufficient that at least one light ink is replaceable with the black ink. As a result, it is possible to realize both high-quality color printing using light ink and high-quality or high-speed monochrome printing using the replaced black ink with the same printer 20, especially after replacement. When the black ink includes a light black ink (LK or LLK), high quality monochrome printing can be performed. Further, when the black ink after replacement includes the dark ink (K, K1), high-speed monochrome printing can be performed.
[0120]
C4. Modification 4:
In the various embodiments described above (FIGS. 6, 12, and 15), the black ink K and the three basic color inks (Y, C, and M) are used as the standard inks. May be available as a standard ink. For example, by using four inks (K, Y, C, M) and red ink as standard inks, it is possible to perform high-quality color printing in which the hue of a reddish area is finely adjusted using red ink. It can be carried out. Further, by using light red ink having a hue almost the same as that of the red ink and a low density, it is possible to perform high-quality color printing with improved gradation in a reddish area. Further, by replacing the light red ink with the black ink as the first light ink, high-quality or high-speed monochrome printing can be performed.
[0121]
C5. Modification 5:
In the various embodiments described above (FIGS. 6, 12, and 15), three inks of the cyan ink C, the magenta ink M, and the yellow ink Y are used as the basic color inks. In addition to ink, a plurality of inks that can express an achromatic color when used in combination with each other can be used as the basic color ink. For example, a configuration may be used in which olive ink, orange ink, violet ink, and cyan ink are used as basic color inks. The first and second light inks and the first dark ink can be determined in consideration of the image quality of the printed image, the characteristics of the ink, and the like. And the dark orange ink may be used as the first dark ink.
[0122]
C6. Modification 6:
Even if a configuration using a standard ink that does not include the basic color ink is used, another type of printing having different printing performance characteristics can be performed using a different ink set. For example, a configuration using three standard inks of a black ink K, a cyan ink C, and a light cyan ink LC can be used. By using these inks, it is possible to perform monochrome printing using black ink, high-quality grayscale using blackish gray, cyan ink C, and light cyan ink LC to express gradation using blueish gray. Monotone printing can be performed. Further, by replacing the light cyan ink LC with the black ink as the first light ink, high-quality or high-speed monochrome printing can be performed.
[0123]
C7. Modification 7:
Even if a configuration using a standard ink that does not include a black ink is used, another type of printing having different printing performance characteristics can be performed using a different ink set. For example, a configuration using a standard ink including two inks of a magenta ink M and a light magenta ink LM can be used. By using these inks, high-quality reddish monochrome printing can be performed. Also, by replacing the light magenta ink LM with a black ink as the first light ink, monochrome printing using the black ink and reddish gray using the black ink and the magenta ink M can be performed. Monotone printing for expressing gradation can be performed. Further, a configuration using the basic color ink as the standard ink can also be used. For example, color printing can be performed by using three basic color inks (Y, C, M) as standard inks. Further, by using the light cyan ink LC and the light magenta ink LM, high-quality color printing can be performed. Further, by replacing the light cyan ink LC and the light magenta ink with black ink as the first light ink and the second light ink, respectively, normal monochrome printing and high quality or high speed monochrome printing can be performed. .
[0124]
C8. Modification 8:
In the various embodiments described above (FIGS. 6, 12, and 15), the hues of the plurality of light inks included in the first ink set are different from each other, but a plurality of light inks having substantially the same hue are used. Can also be used. For example, four inks of a black ink K, a yellow ink Y, a cyan ink C, and a magenta ink M are used as standard inks. A configuration may be used in which a second light cyan ink having substantially the same hue as the ink and the first light cyan ink and a lower density is used. By using three types of cyan inks having different densities, it is possible to perform printing with improved gradation in a bluish area. Further, by replacing the first light cyan ink and the second light cyan ink with the black ink as the first light ink and the second light ink, respectively, high-quality or high-speed monochrome printing can be performed.
[0125]
C9. Modification 9:
The ink information can be configured to include information for specifying the expiration date of the ink and the remaining amount of the ink. By doing so, it is possible to guide the replacement of the ink when the expiration date of the required ink has passed or when the required remaining amount of the ink is almost zero.
[0126]
C10. Modification 10:
The memory reading unit provided in the ink cartridge mounting unit 62 can be configured to correspond only to the ink cartridge to be replaced. In the above embodiment, when only two ink cartridges mounted at the positions indicated by 4 and 6 by the label 64 (FIG. 4) are to be replaced, two memory reading units (82LC, 82LM) are used. By providing only the ink cartridge mounting section 62, an appropriate ink color printing mode can be selected. Note that the memory and the memory reading unit may be configured to read information by contacting each other, or may be configured to read information without contacting each other.
[0127]
C11. Modification 11:
The number of nozzle groups included in the print head 28 is not limited to six, and can be set as appropriate according to the types of inks of the available ink set. For example, by providing a nozzle group N7 for using more ink and making dark yellow ink DY available, high-quality color printing using seven inks of the first ink set and dark yellow ink DY is provided. It can be performed.
[0128]
C12. Modification 12:
In each of the embodiments described above, printing is performed using a look-up table. However, the present invention can be applied to a printing method or a printing apparatus that does not use such a look-up table.
[0129]
C13. Modification 13:
The present invention can be applied to a drum printer. Such printing apparatuses include, for example, a facsimile apparatus and a copying apparatus. In the drum printer, the drum rotation direction is the main scanning direction, and the carriage traveling direction is the sub scanning direction. INDUSTRIAL APPLICABILITY The present invention can be applied not only to an ink jet printer but also to a dot recording apparatus that generally performs recording on the surface of a print medium using a recording head having a plurality of nozzle rows.
[0130]
C14. Modification 14:
In the above embodiment, a part of the configuration realized by hardware may be replaced with software, and conversely, a part of the configuration realized by software may be replaced with hardware. For example, some or all of the functions of the printer driver 96 shown in FIG. 1 may be executed by the control circuit 40 in the printer 20. In this case, some or all of the functions of the computer 90 as a print control device that creates print data are realized by the control circuit 40 of the printer 20.
[0131]
C15. Modification 15:
When some or all of the functions of the present invention are implemented by software, the software (computer program) can be provided in a form stored in a computer-readable recording medium. In the present invention, the "computer-readable recording medium" is not limited to a portable recording medium such as a flexible disk or a CD-ROM, but may be an internal storage device in a computer such as various RAMs or ROMs, a hard disk or the like. And an external storage device fixed to the computer.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating a configuration of a printing system as one embodiment of the present invention.
FIG. 2 is an explanatory diagram illustrating a configuration of a printer.
FIG. 3 is an explanatory diagram showing a configuration of a control circuit 40 in the printer 20.
FIG. 4 is a perspective view of a print head unit 60.
FIG. 5 is an explanatory diagram illustrating a nozzle arrangement on a lower surface of a print head according to the first embodiment.
FIG. 6 is an explanatory diagram showing a relationship among available ink sets, types of ink, and nozzle groups to be used in the first embodiment.
FIG. 7 is an explanatory diagram illustrating a relationship between an ink set and an ink color print mode in the first embodiment.
FIG. 8 is an explanatory diagram showing how to set an ink color print mode.
FIG. 9 is an explanatory diagram showing how to set an ink color print mode.
FIG. 10 is an explanatory diagram showing how to set an ink color print mode.
FIG. 11 is an explanatory diagram illustrating a nozzle arrangement on a lower surface of a print head according to the second embodiment.
FIG. 12 is an explanatory diagram showing a relationship among available ink sets, types of ink, and nozzle groups to be used in a second embodiment.
FIG. 13 is an explanatory diagram illustrating a relationship between an ink set and an ink color print mode in the second embodiment.
FIG. 14 is an explanatory diagram illustrating a nozzle arrangement on a lower surface of a print head according to a third embodiment.
FIG. 15 is an explanatory diagram showing a relationship among available ink sets, types of ink, and nozzle groups to be used in a third embodiment.
FIG. 16 is an explanatory diagram illustrating a relationship between an ink set and an ink color print mode in a third embodiment.
FIG. 17 is an explanatory diagram illustrating a configuration of a print head and an ink cartridge mounting unit according to a fourth embodiment.
[Explanation of symbols]
20 ... Printer
21 ... CRT
22 ... Paper feed motor
24 ... Carriage motor
26 ... Platen
28 ... Print head
28a ... print head
28b ... print head
28c ... Print head
30 ... carriage
32 Operation panel
34 ... Sliding shaft
36 ... Drive belt
38 ... Pulley
39… Position sensor
40 ... Control circuit
41 ... CPU
43 ... P-ROM
44 ... RAM
45 ... CG
50 ... I / F dedicated circuit
52 ... Head drive circuit
53: Data reading unit
54 ... Motor drive circuit
56… Connector
60 print head unit
62 ... Ink cartridge mounting section
62c: ink cartridge mounting section
64 ... Label
72K… Introduction pipe
72Y ... Introduction pipe
72C… Introduction pipe
72LC… Introduction pipe
72M… Introduction pipe
72LM ... Introduction pipe
82: Memory reading unit
82K: Memory reading unit
82Y: Memory reading unit
82C: Memory reading unit
82LC: Memory reading unit
82M: Memory reading unit
82LM: Memory reading unit
90 ... Computer
91 Video driver
95 ... Application program
96 ... Printer driver
97 ... Resolution conversion module
98 ... Color conversion module
99 ... Halftone module
100 print data generation module
101 print mode selection section
171 ... Ink cartridge
171K: Black ink cartridge
171Y: Yellow ink cartridge
171C ... Cyan ink cartridge
171LC… Light cyan ink cartridge
171M: Magenta ink cartridge
171LM ... Light magenta ink cartridge
181K… Memory
181Y ... Memory
181C… Memory
181LC… Memory
181M… Memory
181LM ... Memory
202: Ink type display section
204: print mode display section
206 ... Label
208 ... Message
MS: Main scanning direction
SS: Sub-scanning direction
IS11: 1st ink set
IS12: 2nd ink set
IS13: Third ink set
IS14: 4th ink set
IS21: 1st ink set
IS22: 2nd ink set
IS23: Third ink set
IS24: 4th ink set
IS25: 5th ink set
IS26: 6th ink set
IS27: 7th ink set
IS31: 1st ink set
IS32: 2nd ink set
IS33: Third ink set
IS34: 4th ink set
IS35: 5th ink set
IS36: 6th ink set
IS37: 7th ink set
K: Black ink
Y ... Yellow ink
C: Cyan ink
LC: Light cyan ink
M: Magenta ink
LM: light magenta ink
K1: First black ink
LK: 1st light black ink
LLK: 2nd light black ink
DY: Dark yellow ink
LUT… Lookup table
N11 ... Nozzle group
N12: Nozzle group
N13 ... Nozzle group
N14 ... Nozzle group
N15 ... Nozzle group
N16: Nozzle group
N21 ... Nozzle group
N22: Nozzle group
N23 ... Nozzle group
N24 ... Nozzle group
N25 ... Nozzle group
N26 ... Nozzle group
N31 ... Nozzle group
N32: Nozzle group
N33: Nozzle group
N34: Nozzle group
N35: Nozzle group
N36 ... Nozzle group
Nz ... Nozzle
P… Printing paper
PD… Print data

Claims (22)

A print head having a plurality of nozzle groups each including a plurality of nozzles that eject the same ink, and a main scan that relatively moves the print head and a print medium; and a main scan that moves in a direction that intersects the main scan direction. A printing apparatus that prints an image by performing sub-scanning to move the image and discharging ink from a nozzle onto a print medium during main scanning.
Available for ejecting respective inks of a first ink set including at least one standard ink and a first light ink having the same hue as the one of the standard inks and a low density. A print head having a plurality of nozzle groups,
An ink cartridge mounting unit to which one or a plurality of ink cartridges each having an ink tank for storing ink to be supplied to each of the nozzle groups can be mounted,
With
A printing apparatus capable of performing printing using an ink set different from the first ink set by replacing the first light ink tank with a black ink tank. The printing device according to claim 1,
A printing apparatus, wherein the standard inks include a plurality of basic color inks that can express an achromatic color when used in combination with each other. The printing device according to claim 1 or 2, wherein:
The printing device, wherein the standard ink includes a black ink. The printing device according to claim 3, wherein
The second ink set including the black ink and the first light black ink is used by replacing the ink tank of the first light ink with an ink tank of the first light black ink having a lower concentration than the black ink. A printing device capable of performing customized printing. The printing device according to claim 3 or 4, wherein:
The first ink set further includes a second light ink having a hue that is substantially the same as that of any of the standard inks and a low density.
The ink tank of one of the first light ink and the second light ink is replaced with the ink tank of the first light black ink, and the ink tank of the other ink has a lower density than the first light black ink. By replacing the ink tank with the second light black ink, it is possible to perform printing using a third ink set including the black ink, the first light black ink, and the second light black ink. , Printing equipment. A printing device according to any one of claims 3 to 5, wherein
By replacing the ink tank of the first light ink with an ink tank of a first dark ink having substantially the same hue as that of any of the standard inks and having a higher density,
A printing apparatus capable of performing printing using a fourth ink set including the standard ink and the first dark ink. A printing device according to any one of claims 3 to 6, wherein
Each nozzle of the nozzle group for discharging the first light ink is arranged at a different sub-scanning direction position from each nozzle of the nozzle group for discharging the black ink,
By replacing the ink tank of the first light ink with the ink tank of the first black ink that is the same as the black ink,
A printing apparatus capable of performing printing using a fifth ink set including the black ink and the first black ink. The printing device according to claim 7, wherein
The first ink set further includes a second light ink having a hue that is substantially the same as that of any of the standard inks and a low density.
Each nozzle of the nozzle group for discharging the first light ink is disposed at a position in the sub-scanning direction different from each nozzle of the nozzle group for discharging the second light ink,
The printing apparatus according to claim 5, wherein the fifth ink set replaces two ink tanks of the first light ink and the second light ink with ink tanks of the first black ink, respectively. A printing device according to any one of claims 3 to 8, wherein
The first ink set further includes a second light ink having a hue that is substantially the same as that of any of the standard inks and a low density.
Each nozzle of the nozzle group for discharging the first light ink and each nozzle of the nozzle group for discharging the second light ink are different from each nozzle of the nozzle group for discharging the black ink. It is arranged at the position in the sub scanning direction,
The ink tank of one of the first light ink and the second light ink is replaced with the ink tank of the first black ink, and the ink tank of the other ink is replaced with the ink tank of the first light black ink. By replacing the ink tank,
A printing apparatus capable of performing printing using a sixth ink set including the black ink, the first black ink, and the first light black ink. A printing device according to any one of claims 3 to 9, wherein
The first ink set further includes a second light ink having a hue that is substantially the same as that of any of the standard inks and a low density.
Each nozzle of the nozzle group for discharging the first light ink and each nozzle of the nozzle group for discharging the second light ink are different from each nozzle of the nozzle group for discharging the black ink. It is arranged at the position in the sub scanning direction,
The ink tank of one of the first light ink and the second light ink is replaced with the ink tank of the first black ink, and the ink tank of the other ink is replaced with the ink of the first dark ink. By replacing it with a tank,
A printing apparatus capable of performing printing using a seventh ink set including the black ink, the first black ink, and the first dark ink. The printing device according to claim 1, wherein:
The printing apparatus, wherein the ink cartridge mounting section can mount an independent ink cartridge for each ink. The printing apparatus according to any one of claims 1 to 11, wherein the print head is movable independently of the ink cartridge mounting section, and is mounted on the ink cartridge mounting section. A printing device connected to the ink cartridge via an ink supply path. The printing device according to claim 1, wherein:
A printing apparatus comprising: a print mode selection unit that allows a user to select an ink color print mode to use from a plurality of ink color print modes that use different inks. The printing device according to claim 13, wherein
The ink cartridge includes a memory that stores information including the type of ink stored therein,
The printing apparatus includes a reading unit that reads information stored in the memory,
The print mode selection unit,
Based on the information read by the reading unit, an available ink color print mode is displayed, and the user is prompted to select an available ink color print mode from the available ink color print modes. Acceptable, printing device. The printing device according to claim 14, wherein
The print mode selection unit,
Based on the information read by the reading unit, determine whether the mounted ink set is the intended one,
A printing device that outputs a warning when it is determined that the set is not a scheduled ink set. The printing device according to claim 14 or claim 15,
The print mode selection unit,
Based on the information read by the reading unit, determine whether all of the inks required by the selected ink color print mode is mounted,
If it is determined that at least some of the required inks have not been installed, a guide for installing and replacing the ink cartridges required to use the selected ink color print mode is output. Printing device. A printing device according to any one of claims 13 to 16, wherein
The conversion from the first image data represented by the first color system to the second image data represented by the second color system composed of ink usable in the printing apparatus is performed by a look-up method. A color conversion unit using an up table;
A plurality of look-up tables prepared corresponding to the plurality of ink color print modes,
With
The color conversion unit selects and uses a lookup table corresponding to the selected ink color print mode,
Printing device. A print head having a plurality of nozzle groups each including a plurality of nozzles that eject the same ink, and a main scan that relatively moves the print head and a print medium; A print control device for generating print data to be supplied to a printing unit that prints an image by performing sub-scanning for moving the image and ejecting ink from a nozzle onto a print medium during main scanning. ,
The printing unit,
Available for ejecting respective inks of a first ink set including at least one standard ink and a first light ink having the same hue as the one of the standard inks and a low density. A print head having a plurality of nozzle groups,
An ink cartridge mounting unit to which one or a plurality of ink cartridges each having an ink tank for storing ink to be supplied to each of the nozzle groups can be mounted,
With
By replacing the ink tank of the first light ink with the ink tank of the black ink, it is possible to perform printing using an ink set different from the first ink set,
The print control device includes:
A print mode selection unit that allows the user to select an ink color print mode to be used from among a plurality of ink color print modes in which different inks are used;
A print data generation unit that generates print data corresponding to the ink color print mode selected by the print mode selection unit,
A print control device, comprising: The print control device according to claim 18, wherein
The ink cartridge includes a memory that stores information including the type of ink stored therein,
The printing unit includes a reading unit that reads information stored in the memory,
The print mode selection unit,
A print control device that determines an available ink color print mode using information read by the reading unit. A print head having a plurality of nozzle groups each including a plurality of nozzles that eject the same ink, and a main scan that relatively moves the print head and a print medium; and a main scan that moves in a direction that intersects the main scan direction. A printing method for performing printing by using a printing apparatus that prints an image by performing sub-scanning to move the image and discharging ink from a nozzle onto a print medium during main scanning,
(A) In order to eject each ink of a first ink set including at least one standard ink and a first light ink having the same hue as that of any of the standard inks and a low density, Providing a print head having a plurality of nozzle groups available;
(B) preparing an ink cartridge mounting portion capable of mounting one or more ink cartridges having an ink tank for accommodating ink to be supplied to each of the nozzle groups;
(C) performing printing using an ink set different from the first ink set by replacing the first light ink tank with a black ink tank;
A printing method comprising: A print head having a plurality of nozzle groups each including a plurality of nozzles that eject the same ink, and a main scan that relatively moves the print head and a print medium; A print control method for generating print data to be supplied to a printing unit that prints an image by performing sub-scanning for moving the image and discharging ink from a nozzle onto a print medium during main scanning. ,
The printing unit,
Available for ejecting respective inks of a first ink set including at least one standard ink and a first light ink having the same hue as the one of the standard inks and a low density. A print head having a plurality of nozzle groups,
An ink cartridge mounting unit to which one or a plurality of ink cartridges each having an ink tank for storing ink to be supplied to each of the nozzle groups can be mounted,
With
Further, by replacing the ink tank of the first light ink with the ink tank of the black ink, it is possible to perform printing using an ink set different from the first ink set,
The print control method includes:
(A) a step of allowing a user to select an ink color print mode to be used from a plurality of ink color print modes using different inks;
(B) generating print data corresponding to the ink color print mode selected in the step (a);
A print control method, comprising: A print head having a plurality of nozzle groups each including a plurality of nozzles that eject the same ink, and a main scan that relatively moves the print head and a print medium; and a main scan that moves in a direction that intersects the main scan direction. The computer performs a process for generating print data to be supplied to a printing unit that prints an image by performing sub-scanning for moving the image and discharging ink from a nozzle onto a print medium during main scanning. A computer program to be executed,
The printing unit,
Available for ejecting respective inks of a first ink set including at least one standard ink and a first light ink having the same hue as the one of the standard inks and a low density. A print head having a plurality of nozzle groups,
An ink cartridge mounting unit to which one or a plurality of ink cartridges each having an ink tank for storing ink to be supplied to each of the nozzle groups can be mounted,
With
Further, by replacing the ink tank of the first light ink with the ink tank of the black ink, it is possible to perform printing using an ink set different from the first ink set,
The computer program comprises:
(A) a function of allowing a user to select an ink color print mode to be used from a plurality of ink color print modes using different inks;
(B) a function of generating print data corresponding to the ink color print mode selected in the function (a);
A computer program that causes the computer to realize the following.

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