JP2011056867A - Printing apparatus, and method for controlling printing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printing apparatus etc. in which images of a higher image quality can be printed by using a dye ink and a pigment ink. <P>SOLUTION: The printing apparatus includes a first nozzle which delivers the dye ink, a second nozzle which delivers the pigment ink of the same color as that of the dye color, and a controller which controls delivery of the ink from the first nozzle and the second nozzle. The controller performs a first delivering operation in which the pigment ink is delivered from the second nozzle after the dye ink is delivered from the first nozzle for a predetermined position on a medium, and a second delivering operation in which the dye ink is delivered from the first nozzle after the pigment ink is delivered from the second nozzle for a position different from the predetermined position on the medium. A ratio of the dye ink to the pigment ink of an ink amount per unit area delivered in the first delivered operation is smaller than that of an ink amount per unit area delivered in the second delivering operation. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a printing apparatus including a nozzle that discharges dye ink and a nozzle that discharges pigment ink of the same color as the dye ink, and a control method of the printing apparatus.

  As a printing apparatus having a nozzle for ejecting dye ink and a nozzle for ejecting pigment ink of the same color as the dye ink, a black dye ink for printing a high-quality color image on special paper, especially characters, etc. 2. Related Art An ink jet recording apparatus that includes a nozzle that discharges black pigment ink for clearly printing on plain paper is known (see, for example, Patent Document 1). Such an ink jet recording apparatus has a head in which a nozzle row for ejecting dye ink and a nozzle row for ejecting pigment ink are arranged side by side in a crossing direction that intersects the conveyance direction of the medium. In some cases, printing is performed using dye ink and pigment ink at a predetermined position on the medium while moving.

JP 2000-225719 A

  However, even if the dye ink and the pigment ink used in the ink jet recording apparatus as described above are the same black, the hue may differ depending on the medium to be ejected. Further, when an image is formed by ejecting dye ink and pigment ink while reciprocating the head as described above in the crossing direction intersecting the medium transport direction, the order of the ink ejected to a predetermined position on the medium is changed. The head reverses in the forward and return directions. That is, for example, pigment ink is ejected on the dye ink ejected on the medium in the forward path, and dye ink is ejected on the pigment ink ejected on the medium in the return path. As described above, when the order of the ejected ink is reversed, the hue is different between the part printed in the forward path and the part printed in the backward path, and unevenness and a striped pattern are generated in the image and the image quality is deteriorated. There is a problem that it ends up.

  The present invention has been made in view of the above problems, and a purpose thereof is a printing apparatus capable of printing a higher quality image using dye ink and pigment ink, and control of the printing apparatus. It is to provide a method.

The present invention has been proposed to achieve the above object, and includes a first nozzle that ejects dye ink, a second nozzle that ejects pigment ink of the same color as the dye ink, the first nozzle, and the A controller for controlling the second nozzle,
A first ejection operation of ejecting the pigment ink from the second nozzle after ejecting the dye ink from the first nozzle to a predetermined position on the medium;
A second ejection operation for ejecting the dye ink from the first nozzle after ejecting the pigment ink from the second nozzle at a position different from the predetermined position on the medium;
The controller is configured so that a ratio of the dye ink to the pigment ink ejected in the first ejection operation is smaller than a ratio of the dye ink to the pigment ink ejected in the second ejection operation. A printing apparatus which discharges pigment ink and the dye ink.

  Other features of the present invention will become apparent from the description of the present specification and the accompanying drawings.

1 is an overall configuration block diagram of a printer according to an embodiment. It is a perspective view of a printer. It is sectional drawing of a printer. It is explanatory drawing which shows the arrangement | sequence of the nozzle in the lower surface of a head. It is a figure for demonstrating the drive signal produced | generated by a drive signal production | generation circuit. FIG. 6 is an image diagram of a correspondence data table between dot gradation values and drive pulses included in print data. It is a figure which shows the difference of the dot diameter of the dye K and the dot diameter of the pigment K. It is a figure for demonstrating control by the controller by the side of a printer.

=== Summary of disclosure ===
At least the following matters will become clear from the description of the present specification and the accompanying drawings.

Printing comprising: a first nozzle that ejects dye ink; a second nozzle that ejects pigment ink of the same color as the dye ink; and a controller that controls ejection of ink from the first nozzle and the second nozzle. A device,
The controller, after discharging the dye ink from the first nozzle to a predetermined position on the medium, a first discharge operation of discharging the pigment ink from the second nozzle;
Performing a second discharge operation of discharging the dye ink from the first nozzle after discharging the pigment ink from the second nozzle to a position different from the predetermined position on the medium;
The ratio of the dye ink to the pigment ink in the amount of ink per unit area ejected in the first ejection operation is equal to the amount of ink per unit area ejected in the second ejection operation. It is a printing apparatus characterized by being smaller than the ratio of ink.

  Even if the pigment ink and the dye ink have the same color, the hues are different due to the difference in the order of ejection onto the medium when they are superimposed. For example, when the pigment ink is ejected after the dye ink is ejected, the hue is biased toward the dye ink side as compared with the case where the dye ink is ejected after the pigment ink is ejected. For this reason, in the printing apparatus, the ratio of the dye ink to the pigment ink in the amount of ink per unit area ejected in the first ejection operation is the pigment ink in the amount of ink per unit area ejected in the second ejection operation. The pigment ink and the dye ink are discharged so as to be smaller than the ratio of the dye ink to the ink. Thereby, the hue of the area printed in the first ejection operation approaches the pigment ink side. For this reason, since a hue difference becomes small between the areas printed by the first ejection operation and the second ejection operation, it is possible to print a higher quality image.

In this printing apparatus, by reducing the amount of the dye ink to be ejected in the first ejection operation, the ink amount per unit area ejected in the first ejection operation can be reduced with respect to the pigment ink. It is desirable that the ratio is smaller than the ratio of the dye ink to the pigment ink, which is the amount of ink per unit area that is ejected in the second ejection operation.
Method of making the ratio of dye ink to pigment ink of the ink amount per unit area ejected in the first ejection operation smaller than the ratio of dye ink to pigment ink of the ink amount per unit area ejected in the second ejection operation There are a method for reducing the amount of dye ink ejected in the first ejection operation and a method for increasing the amount of dye ink ejected in the second ejection operation. At this time, the ratio of the dye ink to the pigment ink of the ink amount per unit area to be ejected in the first ejection operation by the method of reducing the amount of the dye ink to be ejected in the first ejection operation as in the above-described printing apparatus. If the ink amount per unit area to be discharged in the second discharge operation is smaller than the ratio of the dye ink to the pigment ink, the first discharge operation is performed without increasing the number of ink discharges and without reducing the medium feed amount. It is possible to make the ratio of the dye ink to the pigment ink ejected in step 2 smaller than the ratio of the dye ink to the pigment ink ejected in the second ejection operation. That is, since the number of ink ejections is not increased and the amount of medium transport is not reduced, it is possible to print a higher quality image without reducing the printing speed.

In this printing apparatus, it is preferable that the dye ink and the pigment ink are black.
The dye ink has high transparency and color reproducibility, and the pigment ink has a feature that characters and the like can be printed more clearly. For this reason, the black dye ink and the pigment ink that are most frequently used for character printing are provided, and the ratio of the dye ink to the pigment ink discharged in the first discharge operation is discharged in the second discharge operation. By making the ratio smaller than the ratio of the dye ink to the pigment ink, it is possible to maintain the clear printing of the characters by the pigment ink and to suppress the occurrence of a hue difference in the printing using the dye ink and the pigment ink. Can be printed.

In such a printing apparatus, a transport mechanism that transports the medium in the transport direction;
A head in which the first nozzle and the second nozzle are arranged in an intersecting direction intersecting the transport direction;
A head moving mechanism for moving the head in both directions along the intersecting direction,
The first ejection operation may be executed by the movement of the head to one side of the bidirectional directions, and the second ejection operation may be executed by the movement of the bidirectional direction to the other side. desirable.
In such a printing apparatus, the head in which the first nozzle that discharges the dye ink and the second nozzle that discharges the pigment ink are arranged side by side in the intersecting direction intersecting the conveyance direction of the medium is bidirectional in the intersecting direction. When the ink is ejected while being moved, the order of the ejected ink is different between the movement to one side in both directions and the movement to the other side. For this reason, the first discharge operation is performed when the head is moved to one side, and the second discharge operation is performed when the head is moved to the other side, thereby suppressing the occurrence of a hue difference while moving the head in both directions. It is possible to print a higher quality image. For this reason, it is possible to print a higher quality image while printing at higher speed.

In such a printing apparatus, the head includes a first nozzle row including a plurality of the first nozzles arranged at a predetermined pitch along the transport direction;
A second nozzle array composed of a plurality of the second nozzles arranged at the predetermined pitch along the transport direction,
Each nozzle of the first nozzle row is preferably arranged at a position shifted from the nozzles of the second nozzle row by half of the predetermined pitch in the transport direction.
According to such a printing apparatus, the positions of the nozzles of the first nozzle row and the nozzles of the second nozzle row that discharge ink of the same color are shifted by a half distance from the pitch of the nozzle rows in the transport direction. Between the dots formed by the first nozzle in the transport direction, the dots formed by the second nozzle, or the dots formed by the second nozzle, formed by the first nozzle. It is possible to arrange the dots. For this reason, it is possible to print a higher quality image in a shorter time than a printing apparatus having only the first nozzle row or the second nozzle row.

A first nozzle that ejects dye ink; a second nozzle that ejects pigment ink of the same color as the dye ink; and a controller that controls ejection of ink from the first nozzle and the second nozzle. A control method for a printing apparatus,
Performing a first discharge operation of discharging the pigment ink from the second nozzle after discharging the dye ink from the first nozzle to a predetermined position on the medium;
From the second nozzle, the ink amount per unit area to be ejected in the first ejection operation at a position different from the predetermined position on the medium is larger than the ratio of the dye ink to the pigment ink. Performing a second ejection operation of ejecting the dye ink from the first nozzle after ejecting the pigment ink;
A control method for a printing apparatus, comprising:

  Even if the pigment ink and the dye ink have the same color, the hues are different due to the difference in the order of ejection onto the medium when they are superimposed. For example, when the pigment ink is ejected after the dye ink is ejected, the hue is biased toward the dye ink side as compared with the case where the dye ink is ejected after the pigment ink is ejected. Therefore, in the printing apparatus, after the pigment ink is ejected from the second nozzle so that the amount of ink per unit area ejected in the first ejection operation is larger than the ratio of the dye ink to the pigment ink, the first ink is ejected. A second ejection operation for ejecting dye ink from the nozzle is performed. As a result, the hue of the area printed in the first ejection operation approaches the pigment ink side, and thus the hue difference between the areas printed in the first ejection operation and the second ejection operation becomes smaller. It is possible to print an image of image quality.

  The best mode for carrying out the present invention will be described below with reference to the accompanying drawings. In the embodiments described below, various limitations are made as preferred specific examples of the present invention. However, the scope of the present invention is not limited to the following description unless otherwise specified. However, the present invention is not limited to these embodiments. In the following, an ink jet printer (hereinafter referred to as a printer) will be described as an example of the printing apparatus of the present invention.

=== Printer configuration ===
FIG. 1 is a block diagram of the overall configuration of the printer 1 according to the present embodiment. FIG. 2 is a perspective view of the printer 1, and FIG. 3 is a cross-sectional view of the printer 1. The printer 1 that has received the print data from the computer 60 that is an external device controls each unit (conveyance unit 20, carriage unit 30, head unit 40) by the controller 10, and forms an image on the paper S (medium). Further, the detector group 50 monitors the situation in the printer 1, and the controller 10 controls each unit based on the detection result.

  The controller 10 is a control unit for controlling the printer 1. The interface unit 11 is for transmitting and receiving data between the computer 60 as an external device and the printer 1. The memory 13 is for securing an area for storing a program of the CPU 12, a work area, and the like. The CPU 12 controls each control target unit in accordance with a computer program (firmware or the like) stored in the memory 13. For example, the CPU 12 controls the transport unit 20 and the carriage unit 30. Further, the CPU 12 transmits a head control signal for controlling the operation of the head 41 to the head controller HC, and transmits a control signal for generating the drive signal COM to the drive signal generation circuit 14.

  The transport unit 20 is for transporting the paper S by a predetermined transport amount in the transport direction during printing after the paper S is sent to a printable position, and includes a paper feed roller 21, a transport motor 22, a transport A roller 23, a platen 24, and a paper discharge roller 25 are included. The paper feed roller 21 is rotated, and the paper S to be printed is sent to the transport roller 23. When the paper detection sensor 51 detects the position of the leading edge of the paper S sent from the paper supply roller 21, the controller 10 rotates the transport roller 23 to position the paper S at the print start position. When the paper S is positioned at the print start position, at least some of the nozzles of the head 41 face the paper S. Here, the transport unit 20 corresponds to a transport mechanism.

  The carriage unit 30 is for moving the head 41 in an intersecting direction (hereinafter referred to as a moving direction) intersecting the transport direction. The printer 1 can discharge ink from each nozzle when moving in both directions in the moving direction. Here, the carriage unit 30 corresponds to a head moving mechanism.

  The head unit 40 has a head 41 for ejecting ink onto the paper S. A plurality of nozzles, which are ink ejection portions, are provided on the lower surface of the head 41. Each nozzle has an ink chamber (not shown) containing ink and a drive for ejecting ink by changing the capacity of the ink chamber. An element (piezo element) is provided.

  FIG. 4 is an explanatory diagram showing the arrangement of nozzles on the lower surface (nozzle surface) of the head 41. From the nozzles of the head 41 of the printer 1 of the present embodiment, black pigment ink, black dye ink, and color (cyan, magenta, yellow) dye ink are ejected, respectively. Therefore, on the lower surface of the head 41, a black ink nozzle row Kd of dye as a first nozzle row, a black ink nozzle row Kp of pigment as a second nozzle row, a cyan ink nozzle row Cd of dye, A magenta ink nozzle row Md and a dye yellow ink nozzle row Yd are formed. Here, the nozzles constituting the dye black ink nozzle row Kd correspond to the first nozzle, and the nozzles constituting the pigment black ink nozzle row Kp correspond to the second nozzle.

  Each nozzle row includes 180 nozzles, and the lower nozzles are assigned with lower numbers (# i = # 1 to # 180). The nozzles in each nozzle row are aligned at a constant interval (pitch) D (for example, 180 dpi) along the transport direction (corresponding to a predetermined direction). In addition, the nozzles of the four nozzle rows of the pigment black ink nozzle row Kp, the dye cyan ink nozzle row Cd, the dye magenta ink nozzle row Md, and the dye yellow ink nozzle row Yd provided on the lower surface of the head 41 are as follows. The nozzles of the same number are arranged in the movement direction, and each nozzle of the dye black ink nozzle row Kd is half the nozzle pitch D in the transport direction than the nozzles of the other four nozzle rows. It is arranged downstream.

  In such a serial printer 1, a dot forming process for forming dots on the paper S by intermittently ejecting ink from the head 41 moving along the moving direction, and a transport for transporting the paper S in the transport direction. Processing is repeated alternately. By doing so, dots are formed at positions different from the dots formed at the predetermined positions by the previous dot formation processing, and the image is completed.

  The drive signal generation circuit 14 generates a drive signal COM based on the DAC data. The DAC data is data that defines a change pattern of the potential of the generated drive signal COM, is stored in the memory 13, is read when the drive signal COM is generated, and is output to the drive signal generation circuit 14. The head controller HC selects a necessary portion of the drive signal COM generated by the drive signal generation circuit 14 based on the head control signal and applies it to the piezo element.

  The drive signal COM generated by the drive signal generation circuit 14 is, for example, as shown in FIG. In FIG. 5, the horizontal axis represents time, and the vertical axis represents the signal potential. This drive signal COM is repeatedly generated every repetition period T. The repetition period T can be divided into four periods corresponding to the generated drive pulses. That is, the fine vibration pulse VP is generated in the first period T1, and the medium dot pulse PS1 is generated in the second period T2. Further, the small dot pulse PS2 is generated in the third period T3, and the large dot pulse PS3 is generated in the fourth period T4. Note that these periods are defined by a latch pulse included in the latch signal LAT and a change pulse included in the change signal CH.

  The fine vibration pulse VP is applied to the piezo element when ink droplets are not ejected. When this fine vibration pulse VP is applied, the piezo element slightly expands and contracts, and gives the ink in the pressure chamber a weak pressure change that does not eject ink. Due to this pressure change, the meniscus (the free surface of the ink exposed by the nozzle) vibrates slightly in the nozzle, and the thickening of the ink in the vicinity of the nozzle is suppressed. The medium dot pulse PS1 is applied to the piezo element when forming a medium dot on the paper. Similarly, the small dot pulse PS2 is applied to the piezo element when the small dot is formed, and the large dot pulse PS3 is applied to the piezo element when the large dot is formed.

  As shown in FIG. 6, in the printer 1, a driving pulse (fine vibration pulse VP to large dot pulse PS <b> 3) is selected according to the dot gradation value included in the print data and applied to the piezo element. That is, the fine vibration pulse VP is applied to the piezo element according to the dot gradation value [00] indicating no dot, and the small dot pulse PS2 is applied to the piezo element according to the dot gradation value [01] indicating the formation of a small dot. To be applied. Then, the medium dot pulse PS1 is applied to the piezo element 431 according to the dot gradation value [10] indicating the formation of the medium dot, and the large dot pulse PS3 according to the dot gradation value [11] indicating the formation of the large dot. Is applied to the piezo element.

  The printer 1 of the present embodiment ejects pigment ink and dye ink for black. Pigment inks are less likely to bleed than dye inks, and are excellent in water resistance and weather resistance. However, the pigment component, which is a color material, remains on the paper, and the surface is uneven, making it difficult to obtain a glossy feeling. On the other hand, dye ink soaks into paper because it soaks into paper as compared with pigment ink, but it easily permeates and is inferior in water resistance and weather resistance. Further, even if the dye ink and the pigment ink are the same black, the hue is different depending on the type of the image to be printed and the medium associated with the image. In this printer 1, the dye ink is cyan. The pigment ink has a hue biased toward the magenta side.

  Also, the black pigment ink (hereinafter referred to as pigment K) can express a higher density of black than the black dye ink (hereinafter referred to as dye K). Therefore, for example, when a monochrome text document is printed with “Pigment K”, the image quality of black characters can be improved. On the other hand, when a color photographic image is printed with “Dye YMCK”, a glossy image is obtained.

  FIG. 7 is a diagram showing the difference between the dot diameter of dye K and the dot diameter of pigment K. FIG. When the same ink amount (Ypl) is ejected from the nozzle, the dot diameter (d1) of the dye K is larger than the dot diameter (d2) of the pigment K, as shown in FIG. This is presumably because the dye K spreads on the surface of the paper S while permeating the paper S.

  By the way, in the printer 1, as described above, the pigment K nozzle row Kp in which the nozzles for discharging the pigment K are arranged in the carrying direction and the dye K nozzle in which the nozzles for discharging the dye K are arranged in the carrying direction are arranged. The rows Kd are arranged at intervals in the movement direction of the carriage 31. For this reason, when printing an image using the pigment K and the dye K while moving the carriage 31 in both directions in the moving direction, the order of the ink ejected when moving in one direction in both directions is determined. However, the order of the ink ejected when moving to the other side is reversed.

  Specifically, in the first discharge operation (hereinafter referred to as the forward operation) in which the carriage 31 is moved from the dye K nozzle row Kd side in FIG. The second discharge operation (hereinafter referred to as “the second discharge operation”), in which the pigment K is discharged after the dye K is discharged first, and the carriage 31 moves with the yellow ink nozzle row Yd as the head, while discharging the ink to a predetermined position on the paper S. In the case of a return path operation), the dye K is discharged after the pigment K is discharged first.

  As described above, the portion where the pigment K is discharged after the dye K is discharged first and the portion where the dye K is discharged after the pigment K is discharged first are printed even though the same black is printed. , The hue will be different. Specifically, the portion where the pigment K is discharged after the dye K is discharged first has a hue biased toward the dye K, and the portion where the dye K is discharged after the pigment K is discharged first is the hue. Is biased toward the pigment K side. For example, in the printer 1, since the hue of the dye K is set to be biased to cyan and the hue of the pigment K is set to be biased to magenta according to the type of paper, the dye K is discharged first. The portion where the pigment K is discharged later is printed with cyan biased black, and the portion where the dye K is discharged after the pigment K is discharged first is printed with magenta biased black. This is because when the pigment K is first ejected onto the paper S, the pigment K stays in that position, whereas when the dye K is ejected first, the pigment K soaks into the paper S together with the dye K. The ratio of the colorant appearing on the surface by being diffused together with the dye is considered to be higher in the pigment K and the hue is biased toward the dye K side.

  Therefore, in the printer 1, when printing is performed using the dye K and the pigment K while the carriage 31 moves in both directions in the moving direction, the ratio of the dye K to the pigment K ejected in the forward operation is the return path. The pigment K and the dye K are discharged so as to be smaller than the ratio of the dye K to the pigment K discharged by the operation. In other words, when printing is performed using the dye K and the pigment K while the carriage 31 moves in both directions in the moving direction, the ratio of the dye K to the pigment K ejected in the backward operation is the forward operation. The pigment K and the dye K are discharged so as to be larger than the ratio of the dye K to the discharged pigment K.

  An operation when printing is performed using the dye K and the pigment K while the carriage 31 moves in both directions in the moving direction will be described. Here, a print command for printing a black image from the computer 60, that is, a so-called solid image, at high speed by forming raster lines (lines formed by dots continuous in the moving direction) at a pitch half the nozzle pitch D. An example in which the printer 1 receives a signal together with image data will be described.

  Here, the printer 1 can print an image using only the pigment K or only the dye K, but when printing an image using only the pigment K or only the dye K, the nozzle array That is, the so-called pseudo band printing is performed in which the printing for the length of the ink and the conveyance for the half distance in the nozzle pitch D in the conveyance direction are repeated. In addition, when printing a solid image in which the entire surface is filled with black dots as described above, ink is ejected to form large dots.

  However, in the printer 1, the nozzle row Kd of the dye K and the nozzle row Kp of the pigment K are arranged at positions shifted in the transport direction by half the nozzle pitch D. Therefore, by printing using the dye K and the pigment K, by so-called band printing in which only the conveyance for the length of the nozzle row is repeated without carrying the half distance in the nozzle pitch D, Printing can be performed so that raster lines are formed at a pitch that is half the nozzle pitch.

  For this reason, the print command signal and image data received by the printer 1 from the computer 60 are used to print a black solid image by bidirectional printing using the dye K and the pigment K by the printer driver of the computer 60. A print command signal and image data.

  Then, based on the received print command signal and image data, the controller 10 of the printer 1 determines that the carriage 31 moves in the direction in which the carriage 31 moves starting from the dye K nozzle row Kd side in FIG. In the case where the ink is ejected to form all large dots with the dye K and the pigment K, and the carriage 31 moves starting from the yellow ink nozzle row Yd side in FIG. A signal for generating a drive signal COM such that ink is ejected to form the ink and ink is ejected to form all large dots with the pigment K is sent to the drive signal generation circuit 14.

  That is, when the controller 10 receives the print command signal for executing bidirectional printing using the dye K and the pigment K, the controller 10 specifies the moving direction of the carriage 31 based on the received command signal as shown in FIG. . At this time, when it is determined that it is a forward operation, that is, a printing operation in which the pigment K is discharged after the dye K is discharged to a predetermined position of the paper S (S1), the dye K nozzle row Kd has a medium. A drive signal COM corresponding to the dot gradation value [10] indicating dot formation is generated, and a drive signal COM corresponding to the dot gradation value [11] indicating large dot formation is generated in the pigment K nozzle row Kp. A signal is sent to the drive signal generation circuit 14 (S2). On the other hand, when it is determined that the return operation is a printing operation in which the dye K is discharged after the pigment K is discharged to a predetermined position of the paper S (S1), the dye K nozzle row Kd and the pigment K nozzle In each column Kp, a signal is sent to the drive signal generation circuit 14 to generate a drive signal COM corresponding to the dot gradation value [11] indicating the formation of a large dot (S3).

  Then, based on the drive signal COM sent from the drive signal generation circuit 14, the large dot pulse PS3 or the medium dot pulse PS1 is applied to the piezo element.

  In the printer 1 of the present embodiment, a head 41 in which a nozzle that discharges a dye K and a nozzle that discharges a pigment K are arranged in an intersecting direction that intersects the transport direction of the paper S moves in both directions along the intersecting direction. When ink is ejected while being moved, the order of ink ejected is different between when moving to one side in both directions and when moving to the other side. Further, in the printer 1, when the same amount of the pigment K is ejected after the dye K is ejected, the hue is more biased toward the dye K than when the same amount of the dye K is ejected after the pigment K is ejected. .

  For this reason, in the printer 1, the ratio of the dye K to the pigment K in the ink amount per unit area ejected in the forward operation is the ratio of the dye K to the pigment K in the ink amount per unit area ejected in the backward operation. The pigment K and the dye K are discharged so as to be smaller. As a result, the hue of the area printed in the forward operation approaches the pigment K side. For this reason, the hue difference is reduced between the areas printed in the forward path operation and the backward path operation, so that a higher quality image can be printed. Then, by performing the forward operation when the head 41 moves to one side and the return operation when moving the head 41 to the other side, the head 41 is moved in both directions while suppressing the occurrence of a hue difference. It is possible to print high-quality images. For this reason, it is possible to print a higher quality image while printing at higher speed.

  Here, as a method of making the ratio of the dye K to the pigment K in the ink amount per unit area ejected in the forward path operation smaller than the ratio of the dye K to the pigment K in the ink amount per unit area ejected in the backward path operation. There are a method of reducing the amount of dye K to be discharged in the forward operation and a method of increasing the amount of dye K to be discharged in the backward operation. At this time, the ratio of the dye K to the pigment K of the ink amount per unit area ejected in the forward operation is determined by the method of reducing the amount of the dye K ejected in the forward operation as in the printer 1. If the amount of ink per unit area ejected at the time is smaller than the ratio of the dye K to the pigment K, the amount per unit area to be ejected in the forward operation without increasing the number of ink ejections and without decreasing the feed amount of the paper S It is possible to make the ratio of the dye K to the pigment K of the ink amount smaller than the ratio of the dye K to the pigment K of the ink amount per unit area ejected in the return path operation. That is, since the number of ink ejections is not increased and the amount of paper S fed is not reduced, a higher quality image can be printed without reducing the printing speed.

  In addition, dye ink has high transparency and color reproducibility, and pigment ink has a feature that characters and the like can be printed more clearly. For this reason, the black dye K and the pigment K that are most frequently used for character printing are provided, and the ratio of the dye K to the pigment K in the ink amount per unit area to be ejected in the forward path operation is ejected in the return path operation. By making the ink amount per unit area smaller than the ratio of the dye K to the pigment K, it is possible to maintain the clear printing of the characters by the pigment K and to generate a hue difference in the printing using the dye K and the pigment K. It is possible to suppress and print a higher quality image.

  In each case, each nozzle of the dye K nozzle row Kd that discharges black ink and each nozzle of the pigment K nozzle row Kp are arranged at positions shifted by a half distance from the pitch D of each nozzle row in the transport direction. Therefore, the dots formed by the pigment K nozzle between the dots formed by the dye K nozzle in the transport direction, or the dots formed by the dye K nozzle between the dots formed by the pigment K nozzle. It is possible to arrange the dots. Therefore, it is possible to print a higher quality image in a shorter time than a printer having only the dye K nozzle row Kd or the pigment K nozzle row Kp.

  In the above embodiment, the example in which the change in the ratio of the discharge amount of the pigment K and the dye K is realized by changing the dot size from the large dot to the medium dot has been described. The size of the dots formed by the ink ejected from the nozzles may be small dots. Moreover, although the example of changing the ratio in the discharge amount of the pigment K and the dye K by changing the dot size has been described, the present invention is not limited to this. For example, the pulse applied to the piezo element may be changed. That is, the area printed when the dye K is discharged after the pigment K is discharged first, and the discharge amount of the pigment K are printed when the pigment K is discharged after the dye K is discharged first. The ratio of the dye K to the pigment K discharged in the operation of discharging the pigment K after discharging the dye K so that the hue difference in the applied region becomes small is the operation of discharging the dye K after discharging the pigment K The pigment K and the dye K may be ejected so as to be smaller than the ratio of the dye K to the pigment K ejected in step S2.

  The present invention is not limited to a printer as long as it can print using dye ink and pigment ink, and can be applied to various ink jet recording apparatuses such as plotters, facsimile machines, and copiers. it can.

1 Printer, 10 Controller, 11 Interface section,
12 CPU, 13 memory, 14 drive signal generation circuit, 20 transport unit,
21 paper feed roller, 23 transport roller, 24 platen, 25 paper discharge roller,
30 carriage unit, 31 carriage, 40 head unit,
41 heads, 50 detector groups, 51 paper detection sensors, 60 computers,
Cd dye cyan ink nozzle row, Kd dye black ink nozzle row,
Kp pigment black ink nozzle row, Md dye magenta ink nozzle row,
Yd yellow ink nozzle row, COM drive signal, HD head controller

Claims (6)

Printing comprising: a first nozzle that ejects dye ink; a second nozzle that ejects pigment ink of the same color as the dye ink; and a controller that controls ejection of ink from the first nozzle and the second nozzle. A device,
The controller, after discharging the dye ink from the first nozzle to a predetermined position on the medium, a first discharge operation of discharging the pigment ink from the second nozzle;
Performing a second discharge operation of discharging the dye ink from the first nozzle after discharging the pigment ink from the second nozzle to a position different from the predetermined position on the medium;
The dye ink with respect to the pigment ink in which the ratio of the dye ink to the pigment ink in the amount of ink discharged per unit area in the first discharge operation is the amount of ink per unit area discharged in the second discharge operation A printing apparatus characterized by being smaller than The printing apparatus according to claim 1,
By reducing the amount of the dye ink ejected in the first ejection operation, the ratio of the dye ink to the pigment ink in the ink amount per unit area ejected in the first ejection operation is set as the second ejection. A printing apparatus characterized in that the amount of ink per unit area ejected in operation is smaller than the ratio of the dye ink to the pigment ink. The printing apparatus according to claim 1 or 2, wherein
The printing apparatus, wherein the dye ink and the pigment ink are black. The printing apparatus according to any one of claims 1 to 3,
A transport mechanism for transporting the medium in the transport direction;
A head in which the first nozzle and the second nozzle are arranged in an intersecting direction intersecting the transport direction;
A head moving mechanism for moving the head in both directions along the intersecting direction,
The first ejection operation is performed by the head moving to one side of the bidirectional directions, and the second ejection operation is performed by the movement of the bidirectional direction to the other side. Characteristic printing device. The printing apparatus according to any one of claims 1 to 4,
The head includes a first nozzle row including a plurality of the first nozzles arranged at a predetermined pitch along the transport direction;
A second nozzle array composed of a plurality of the second nozzles arranged at the predetermined pitch along the transport direction,
Each of the nozzles of the first nozzle row is arranged at a position shifted from the nozzles of the second nozzle row by a half of the predetermined pitch in the transport direction. Printing comprising: a first nozzle that ejects dye ink; a second nozzle that ejects pigment ink of the same color as the dye ink; and a controller that controls ejection of ink from the first nozzle and the second nozzle. An apparatus control method comprising:
Performing a first discharge operation of discharging the pigment ink from the second nozzle after discharging the dye ink from the first nozzle to a predetermined position on the medium;
From the second nozzle, the ink amount per unit area to be ejected in the first ejection operation at a position different from the predetermined position on the medium is larger than the ratio of the dye ink to the pigment ink. Performing a second ejection operation of ejecting the dye ink from the first nozzle after ejecting the pigment ink;
A control method for a printing apparatus, comprising:

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