Ink-jet printing apparatus

Information

  • Patent Grant
  • 6783224
  • Patent Number
    6,783,224
  • Date Filed
    Wednesday, April 2, 2003
    21 years ago
  • Date Issued
    Tuesday, August 31, 2004
    20 years ago
Abstract
At least two or more than two ink-jet recording heads provided with respective discharge ports for discharging ink are arranged in the direction of conveyance of recording medium. The inks filled in the respective ink-jet recording heads are made to show different surface tensions. With this arrangement, as inks are discharged onto the recording medium that is conveyed by a conveyor under the control of a drive section, the image formed by the inks discharged onto the recording medium shows an improved quality.
Description




CROSS-REFERENCE TO THE RELATED APPLICATIONS




This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2002-342668, filed Nov. 26, 2002, the entire contents of which are incorporated herein by reference.




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to an ink-jet printing apparatus that can stabilize the image quality.




2. Description of the Related Art




Ink-jet printing apparatus adapted to prevent feathering and blurring among different colors from taking place are known (see, inter alia, Jpn. Pat. Appln. KOKAI Publication No. 8-216392).




With known printing apparatus comprising a plurality of discharge units, UV inks or solvent inks that are regulated so as to show a constant level of surface tension are discharged from the discharge units to form an image. Then, the discharged inks are fixed to the medium by means of a UV-setting device or a drier in a subsequent step.




With known printing apparatus, the inks discharged from the respective discharge units produce ink dots with different diameters, which are then fixed to the medium. However, a high quality image cannot be formed by ink dots having different diameters. Particularly, the time spent for the ink droplet discharged from the leading discharge unit to get to the fixing unit and the time spent for the ink droplet discharged from the tail end discharge unit to get to the fixing unit show the largest difference. This difference results in a remarkable difference of dot diameters and a poor image quality.




If the surface tension is differentiated among inks to dissolve the above problem, adjacently located inks can give rise to bleeding, which by turn produces a poor image quality. Therefore, there is a difficult problem of tradeoff.




BRIEF SUMMARY OF THE INVENTION




An object of the present invention is to provide an ink-jet printing apparatus that can produce high quality images.




According to an aspect of the invention, there is provided an ink-jet printing apparatus comprising: at least two or more than two ink-jet heads provided with respective discharge ports for discharging ink and arranged in the direction of conveyance of recording medium; a conveyor for conveying a recording medium; and a drive section for driving the ink-jet heads so as to discharge inks toward the recording medium being conveyed by the conveyor;




the inks discharged form the respective ink-jet heads being made to show different surface tensions.




Additional objects and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objects and advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out hereinafter.











BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING




The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate presently preferred embodiments of the invention, and together with the general description given above and the detailed description of the preferred embodiments given below, serve to explain the principles of the invention.





FIG. 1

is a schematic view showing the configuration of an ink-jet printing apparatus according to the invention, which commonly illustrates the first and second embodiment of the invention;





FIG. 2

is a block diagram showing the configuration of the control system of the first and second embodiments;





FIG. 3

is a block diagram showing a principal part of the first embodiment of ink-jet printing apparatus according to the invention;





FIG. 4

is a graph illustrating the relationship between the elapsed time and the dot diameter of the first embodiment;





FIGS. 5A and 5B

schematically illustrate ink dots formed by using inks having different surface tensions; and





FIG. 6

is a block diagram showing a principal part of the second embodiment of ink-jet printing apparatus according to the invention.











DETAILED DESCRIPTION OF THE INVENTION




Now, the first embodiment of the present invention will be described with reference to the drawing.





FIG. 1

is a schematic view showing the mechanical configuration of an ink-jet printing apparatus according to the invention. In

FIG. 1

, reference symbol


11


denotes a main body case. A drum


12


is arranged in the main body case


11


and adapted to rotate at a constant peripheral speed in the direction indicated by an arrow in

FIG. 1. A

recording medium


15


, which may be a sheet of recording paper fed by way of a pair of paper feeding rollers


13


,


14


, is wound around the drum


12


.




A sheet feeding cassette


6


is arranged at the bottom of the main body case


11


. A recording medium


15


arranged on table plate


17


of the sheet feeding cassette


6


are taken out one by one by a feed roller


18


and fed to the paper feeding rollers


13


,


14


. The recording medium


15


manually fed from a manual feed tray arranged at a lateral side of the main body


11


so as to be freely opened and closed may also be conveyed to the paper feeding rollers


13


,


14


by way of a feed roller


20


. The feed roller


18


and the feed roller


20


are selectively used for feeding a recording medium by means of a feed switching means


21


.




A charging roller


22


is arranged opposite to the drum


12


in order to cause the recording medium


15


fed from the paper feeding rollers


13


,


14


to be adsorbed by the drum surface. Additionally, four ink-jet recording heads


231


,


232


,


233


,


234


, each comprising a large number of linearly disposed recording elements are also arranged opposite to the drum


12


. The four ink-jet recording heads


231


,


232


,


233


,


234


may be referred to collectively as ink-jet recording head


23


hereinafter. The ink-jet recording heads


231


,


232


,


233


,


234


are incorporated in the printing mechanism


24


so as to be movable in the direction of the rotary shaft of the drum


12


in which the recording elements are disposed.




Thus, the recording medium


15


is conveyed by the revolving drum


12


in a direction substantially perpendicular to the direction in which the recording elements of the ink-jet recording heads


231


through


234


are disposed.




The ink-jet recording heads


231


through


234


are filled respectively with cyan, magenta, yellow and black UV (ultraviolet-set type) inks that are set by an electromagnetic wave.




More specifically, the recording head


231


discharges cyan (C) ink and the recording head


232


discharges magenta (M) ink, while the recording head


233


discharges yellow (Y) ink and the recording head


234


discharges black (B) ink. The recording head


231


, the recording head


232


, the recording head


233


and the recording head


234


are arranged in parallel with each other in the mentioned order from the upstream side of the conveyance route of the recording medium


15


that is wound around the drum


12


and conveyed. They are separated from each other with predetermined gaps.




Each of the ink-jet recording heads


231


through


234


is provided with a large number of ink discharge ports that are arranged at a predetermined pitch and adapted to operate as so many recording elements.




The printing mechanism


24


comprises a reciprocating mechanism


25


carrying the ink-jet recording heads


231


through


234


, a motor unit


26


including a reciprocating rod and a linear motor and an advancing/retreating means


27


. The ink-jet recording heads


231


through


234


are driven to advance forward or retreat from the peripheral surface of the drum


12


by the advancing/retreating means


27


. The reciprocating mechanism


25


is moved under control in the direction of the rotary shaft of the drum


12


by the motor unit


26


in order to reciprocate the ink-jet recording heads


231


through


234


in the direction of the rotary shaft, or the direction of the line of the recording medium


15


.




A UV (ultraviolet rays) setting unit


23




a


is arranged downstream relative to the ink-jet recording head


23


as viewed in the direction A of revolution of the drum and adapted to operate as ink fixing unit. The UV-setting unit


23




a


sets the inks discharged onto the recording medium


15


and fixes the inks to the recording medium


15


.




The drum


12


is provided with a peeling claw


28


that can be inserted between the peripheral surface of the drum


12


and the recording medium


15


. The recording medium


15


peeled by the peeling claw


28


is delivered to a recording medium discharge/delivery mechanism


29


. The recording medium discharge/delivery mechanism


29


comprises a belt conveyor


30


held in contact with the non-recording surface of the recording medium


15


and a push/press means


31


for pushing/pressing the recording medium


15


against the corresponding surface of the belt conveyer


30


.




A direction switcher


34


is arranged at the downstream end of the belt conveyor


30


and adapted to selectively deliver the recording medium


15


conveyed by the belt conveyor


30


either onto an upper delivery tray


32


arranged in an upper part of the main body case


11


or onto a delivery tray


33


removably fitted to a lateral side of the main body case


11


.




The main body case


11


contains in the inside thereof a main motor


35


for driving various parts to rotate, an ink cassette


36


for supplying inks, an ink buffer


37


for temporarily storing the inks supplied from the ink cassette


36


and an ink supply tube


38


for supplying inks from the ink buffer


37


to the respective ink-jet recording heads


231


through


234


.




With the embodiment of color ink-jet recording apparatus having the above described configuration, a recording medium


15


is typically taken out from the sheet feeding cassette


6


by means of the feed roller


18


and sent to the paper feeding rollers


13


,


14


for a recording operation. The paper feeding rollers


13


,


14


feed the recording medium


15


to the revolving the revolving drum


12


. Then, the recording medium


15


is adsorbed by and wound around the surface of the charging roller


22


.




As the drum


12


revolves, the recording medium


1


is driven to move in the direction of arrangement of the ink-jet recording heads


231


through


234


. Then, inks of different colors are selectively discharged from the ink discharge ports of the ink-jet recording heads


231


through


234


at predetermined timings according to the image signal and fixed by the UV-setting unit


23




a


imaging recording.





FIG. 2

is a block diagram showing the configuration of the control system of the first embodiment. Referring to

FIG. 2

, host computer


41


and the color ink-jet recording apparatus


42


are connected by a cable


43


so that color image signals are transmitted from the host computer


41


to the color ink-jet recording apparatus


42


.




The color ink-jet recording apparatus


42


comprises a CPU (central processing unit)


421


that is the main body of the control section of the apparatus. A RAM (random access memory)


422


that includes a work memory to be used by the CPU


421


for processing operations and a temporary storage memory for temporarily storing an image signal. A ROM (read-only memory)


423


for storing program data to be used by the CPU


421


for controlling various components. An interface


424


to be used for transmitting data to and receiving data from the host computer


41


. An I/O port


426


connected to the printing mechanism section


425


.




The printing mechanism section


425


includes a recording head section


427


having the ink-jet recording heads


231


through


234


and a head drive section


428


for driving the ink-jet recording heads


231


through


234


of the recording head section


427


. It may be needless to say that the printing mechanism section


425


also includes the above described printing mechanism


24


.




The CPU


421


controls the printing mechanism section


425


for printing operations. More specifically, as the CPU


421


takes in a color image signal from the host computer


41


, it stores the image signal in the RAM


422


and then performs an image processing operation on the signal, which is subsequently supplied to the printing mechanism section


425


to cause the section


425


to operate for color image recording.




Now, the present invention will be described with reference to

FIG. 3

that illustrates essential components of the embodiment as extracted from FIG.


1


.




The applicant of the present invention looked into the printing quality by filling the ink-jet recording heads


231


through


234


with black inks


1


through


4


showing different surface tensions.




More specifically, inks


1


through


4


showing different surface tensions were prepared by adding a surface tension regulating agent to a black pigment, an acryl monomer, a photo-polymerization initiator and an organic polymer disperser. The surface tensions of inks


1


through


4


were differentiated so as to fall in the descending order by adding the surface tension regulating agent to different respective ratios.




Then, inks


1


through


4


were discharged respectively from the ink-jet recording heads


231


through


234


to the recording medium


15


for printing. Subsequently, the dots formed by the inks discharged from the ink-jet recording heads


231


through


234


were observed for bleeding and evaluated. Table 1 summarily shows the outcome of evaluation.




In Table 1, bleeding was evaluated by the difference between the maximum value and the minimum value of surface tension. It was rated as good (o) when the difference is not greater than 2, as slightly bad (Δ) when the difference is 3 and as bad (x) when the difference is not smaller than 4.















TABLE 1











Difference of ink








surface tension (mN/m)




Bleeding













0












2












3




Δ







4




x















In

FIG. 4

, the time periods from the time when inks are discharged from the ink-jet recording heads


231


through


234


to the time when they get to the UV-setting unit


23




a


are expressed respectively by T


4


through T


1


(T


4


>T


3


>T


2


>T


1


). In order to make the ink dots getting to the UW-setting unit


23




a


to show the same and identical diameter of R


1


, the surface tensions of inks


1


through


4


needs to be such as those indicated by curves


1


through


4


. The surface tensions of inks


1


through


4


falls in the mentioned order.




Thus, when the surface tensions of inks discharged respectively from the ink-jet recording heads


231


through


234


are differentiated so as to fall in the mentioned order and the difference between the maximum value and the minimum value of the surface tension of the ink is made not greater than 3 mN/m, preferably not greater than 2 mN/m, the dots of the fixed inks can be made substantially equal to each other if the time periods from the time when inks are discharged from the ink-jet recording heads


231


through


234


to the time when they get to the UV-setting unit


23




a


fall in the mentioned order. Additionally, the adjacently located ink dots do not show any bleeding so that the image quality of the produced image is stabilized.




In other words, when the surface tension of dot A is X and that of dot B located adjacent to dot A is X+2, the difference of surface tension is not greater than 2 mN/m so that the dots A and B can be made to show the same diameter.




However, when the surface tension of dot A is X and that of dot B located adjacent to dot A is X+4, the difference of surface tension is greater than 3 mN/m so that the diameter of the dot A becomes greater than that of the dot B and bleeding takes place at the overlapping area C.




The ink-jet recording heads


231


through


234


were filled with black inks showing different surface tensions that fell in the descending order in the above described experiment. When the ink-jet recording heads


231


through


234


are filled respectively with cyan, magenta yellow, and black inks, the surface tensions of the inks should be differentiated so as to fall in the descending order.




It is not necessary to discriminate the colors of inks that are filled respectively into the ink-jet recording heads


231


through


234


when the surface tensions of inks are low.




Now, the second embodiment of the invention will be described with reference to FIG.


6


.

FIG. 6

also illustrates essential components of the embodiment as extracted from FIG.


1


. The second embodiment comprises eight ink-jet recording heads


231


through


238


, which may also be referred to collectively as ink-jet recording head


23


.




The ink-jet recording heads


231


through


238


are arranged in the direction of conveyance of the recording medium


15


at regular intervals in the mentioned order.




The applicant of the present invention looked into the printing quality by filling the ink-jet recording heads


231


through


234


with black inks


1


through


4


showing different surface tensions and the ink-jet recording heads


235


through


238


with yellow inks


5


through


8


showing different surface tensions.




More specifically, in an experiment, inks


1


through


4


showing different surface tensions were prepared by adding a surface tension regulating agent to a black pigment, an acryl monomer, a photo-polymerization initiator and an organic polymer disperser.




Additionally, inks


5


through


8


showing different surface tensions were prepared by adding a surface tension regulating agent to a yellow pigment, an acryl monomer, a photo-polymerization initiator and an organic polymer disperser. The surface tensions of inks


1


through


8


were differentiated so as to fall in the descending order by adding the surface tension regulating agent to different respective ratios.




Then, inks


1


through


8


were discharged respectively from the ink-jet recording heads


231


through


238


for printing. Subsequently, the dots formed by the inks discharged from the ink-jet recording heads


231


through


238


were observed for bleeding between the different colors and evaluated. Table 2 summarily shows the outcome of evaluation. In Table 2, bleeding was evaluated by the difference between the maximum value and the minimum value of surface tension. It was rated as good (o) when the difference is not greater than 2, as slightly bad (Δ) when the difference is 3 and as bad (x) when the difference is not smaller than 4.















TABLE 2











Difference of ink








surface tension (mN/m)




Bleeding













0












2












3




Δ







4




x















Thus, the ink-jet printing apparatus according to the invention produced high quality images by using inks showing surface tensions as described above.




Therefore, when the surface tensions of inks discharged respectively from the ink-jet recording heads


231


through


238


are differentiated so as to fall in the mentioned order and the difference between the maximum value and the minimum value of surface tension of ink is made not greater than 3 mN/m, preferably not greater than 2 mN/m, the dots of the fixed inks can be made substantially equal to each other if the time periods from the time when inks are discharged from the ink-jet recording heads


231


through


238


to the time when they get to the UV-setting unit


23




a


fall in the mentioned order. Additionally, the adjacently located ink dots do not show any bleeding so that the image quality is stabilized.




While the ink-jet recording heads


231


through


234


were filled with black inks showing different surface tensions that fell in the descending order in the above described experiment, the ink-jet recording heads


231


through


234


may be filled with inks of different colors so long as the surface tensions of the inks are differentiated so as to fall in the descending order.




It is not necessary to discriminate the colors of inks that are filled respectively into the ink-jet recording heads


231


through


238


when the surface tensions of inks are low.




While UV inks were used in the above description of the embodiments, aqueous inks, oil inks or solvent inks may alternatively be used.




While the first embodiment comprises four ink-jet recording heads as ink-jet discharge units and the second embodiment comprises eight ink-jet recording heads as ink-jet discharge units, any number n (n=integer) of ink-jet recording heads may be used for an ink-jet printing apparatus if the number is not smaller than 2. The surface tensions of inks discharged from the 1st through n-th ink-jet recording heads are differentiated so as to fall in the mentioned order and the difference between the maximum value and the minimum value of surface tension of ink is made not greater than 3 mN/m, preferably not greater than 2 mN/m. With this arrangement, the dots of the fixed inks can be made substantially equal to each other if the time periods from the time when inks are discharged from the 1st through n-th ink-jet recording heads to the time when they get to the UV-setting unit fall in the mentioned order. Additionally, the adjacently located ink dots do not show any bleeding so that the image quality of the produced image is stabilized.




Additional advantages and modifications will readily occur to those skilled in the art. Therefore, the invention in its broader aspects is not limited to the specific details and representative embodiments shown and described herein. Accordingly, various modifications may be made without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents.



Claims
  • 1. An ink-jet printing apparatus comprising:at least two ore more than two ink-jet recording heads provided with respective discharge ports for discharging ink and arranged in the direction of conveyance of a recording medium; conveying means for conveying a recording medium; and a drive section which drives the ink-jet recording heads so as to discharge inks toward the recording medium being conveyed by the conveying means, wherein the inks discharged from the respective ink-jet recording heads are of a same type, and surface tensions of the inks discharged respectively from the two or more than two ink-jet recording heads decrease in an order of arrangement of the ink-jet recording heads in a direction of conveyance of the recording medium.
  • 2. The apparatus according to claim 1, wherein a difference between a maximum value and a minimum value of the surface tension of the ink discharged from each of the ink-jet recording heads is not greater than 3 mN/m.
  • 3. The apparatus according to claim 1, wherein a difference between a maximum value and a minimum value of the surface tension of the ink discharged from each of the ink-jet recording heads is not greater than 2 mN/m.
  • 4. The apparatus according to claim 1, wherein the inks are set by an electromagnetic wave.
  • 5. The apparatus according to claim 4, wherein the inks that are set by an electromagnetic wave are ultraviolet-setting type inks.
  • 6. The apparatus according to claim 1, wherein the inks discharged from the respective ink-jet recording heads have different colors.
  • 7. The apparatus according to claim 6, wherein a difference between a maximum value and a minimum value of the surface tension of the ink discharged from each of the ink-jet recording heads is not greater than 3 mN/m.
  • 8. The apparatus according to claim 6, wherein a difference between a maximum value and a minimum value of the surface tension of the ink discharged from each of the ink-jet recording heads is not greater than 2 mN/m.
  • 9. The apparatus according to claim 6, wherein the inks are set by an electromagnetic wave.
  • 10. The apparatus according to claim 9, wherein the inks that are set by an electromagnetic wave are ultraviolet-setting type inks.
Priority Claims (1)
Number Date Country Kind
2002-342668 Nov 2002 JP
US Referenced Citations (5)
Number Name Date Kind
5570118 Rezanka et al. Oct 1996 A
5963230 Higashino et al. Oct 1999 A
6084610 Ozaki et al. Jul 2000 A
6342095 Takizawa et al. Jan 2002 B1
6508552 Steinfield et al. Jan 2003 B1
Foreign Referenced Citations (2)
Number Date Country
06143795 May 1994 JP
8-216392 Aug 1996 JP
Non-Patent Literature Citations (1)
Entry
Patent Abstracts of Japan, JP 06-143795, May 24, 1994.