JP4538657B2 - Inkjet printer and printing method using the same - Google Patents

Description

  The present invention uses an inkjet printer for printing a picture or / and a character composed of an array of a plurality of ink dots having different diameters of two or more sizes on the surface of a print medium such as a sheet, and the printer. And a printing method.

As shown in FIG. 6, the lower surface of the inkjet head 30 that moves relative to the XY direction (the front-rear direction and the left-right direction in the drawing) above the substantially plate-shaped horizontally long platen 20 as shown in FIG. 6. Inkjet printers are known in which ink droplets are ejected from ink discharge ports (not shown) arranged in a row and landed in the form of dots on the surface of a print medium 10 such as a sheet mounted on the platen 20. is there. According to this printer, it is possible to print a picture or / and a character comprising an array of a plurality of ink dots on the surface of the print medium 10.
In the printer shown in FIG. 6, the inkjet head 30 is reciprocated repeatedly in the Y direction (left and right direction in the drawing) above the platen 20 with a certain movement stop time. On the other hand, the medium 10 is moved forward on the platen 20 in the forward X direction (the backward direction in the figure) with a predetermined distance. Then, the inkjet head 30 is moved relative to the XY direction above the medium 10.

In this inkjet printer, recently, in order to be able to print high-quality pictures or / and characters without fine gradation of color gradation, in addition to the basic four colors of yellow, cyan, magenta, and black, Printers of the type that eject ink droplets of six or more colors such as light cyan and light magenta of intermediate colors from inkjet heads have appeared and are in use.
According to this printer, in addition to the basic color ink droplets ejected from the ink jet head, the intermediate color ink droplets cause a high-quality picture map or / And can print characters.

On the other hand, even in a printer that ejects ink droplets of only four basic colors of yellow, cyan, magenta, and black from an inkjet head, the above intermediate colors are printed and expressed with high image quality without a fine and rough feeling. Methods are conventionally known. In this method, ink droplets are ejected from the ink jet head and landed on the surface of the print media, and the ink dot diameter size formed on the surface of the print media is used as an intermediate color. This is a method for changing the diameter of the figure or / and the character so as to have different diameters in two to three stages.
In this method, for example, dots of large diameter are densely arranged at a predetermined pitch at a portion where a dark color is desired to be printed, and the color density at the printed portion is increased. On the contrary, it is a method of reducing the density of the color at the print location by forming dots of small diameter ink sparsely arranged at a predetermined pitch at a location where a light color is desired to be printed.

  In a printer that changes the ink dot diameter in two to three levels at a location where the intermediate color is to be printed, the amount of ink droplets ejected from the inkjet head is to be formed on the surface of the print medium. The size is changed in two or three levels according to the size of the ink dot diameter.

On the other hand, when one ink dot is landed at a desired position on the surface of the print medium by being ejected from the inkjet head, one cycle of head drive time t for forming one ink dot on the surface of the print medium In the meantime, one or two or more ink droplets of different diameters, that is, one or two or more inks of different sizes are used from the inkjet head using a piezo element or the like. A droplet is ejected. One or more ink droplets having different diameters of one or more sizes are gathered to form one ink dot on the print medium surface.
FIG. 2 shows an example of a waveform of a pulse driving signal applied to an ink ejection piezo element or the like built in the ink jet head at that time, and t represents one ink dot formed on the surface of the print medium. T denotes a waiting time until one ink dot is formed on the surface of the print medium after one ink dot is formed on the surface of the print medium. The print speed is adjusted to a slow speed by adjusting the waiting time T to be longer or shorter.
In the waveform example shown in FIG. 2, a pulse drive signal having a plurality of peaks and valleys is applied to a piezo element or the like during one cycle (10.8 KHz = 1 dot / 720 dpi) t. For example, when one large dot of ink is to be formed on the surface of the print medium, a pulse drive signal of M1 + M2 is applied to the piezo element or the like. In order to form one medium-diameter ink dot on the print medium surface, a pulse drive signal of M1 or M2 is applied to the piezo element or the like. When one small-diameter ink dot is to be formed on the surface of the print medium, a pulse drive signal of only S is applied to the piezo element or the like. The amount of ink droplets ejected from the ink jet head is adjusted to the large, medium, and small diameters d of one ink dot on the surface of the print media formed by landing the droplets in three stages of large, medium, and small, respectively. It is divided. As described above, the dot diameter d of the ink formed on the surface of the medium is changed in two to three stages, large, medium and small, at the location where the intermediate color on the surface of the print medium is to be printed.
In this way, a complicated pulse drive signal is applied to the piezo element and the like, and the ink droplets are ejected from the ink jet head a plurality of times. This is for stably ejecting ink droplets. In addition, it is possible to accurately print a dark intermediate color in which dots of ink with a substantially uniform large diameter are densely arranged at a predetermined pitch on the surface of the print media, or conversely, a surface of the print media with a substantially uniform small diameter. For example, a thin intermediate color in which ink dots are sparsely arranged at a predetermined pitch can be printed accurately.
JP 2004-249612 A

  In a printer that ejects ink droplets of only four basic colors of yellow, cyan, magenta, and black from an inkjet head, as a method for printing the intermediate colors as described above with high image quality without a fine and rough feeling, In addition, there is also known a method of changing the amount of ink droplets that are landed on a print location by concentrating and ejecting a predetermined amount of ink droplets on a predetermined print location. As a result, there is also known a method of expressing an intermediate color at a print location by changing the dot density of the ink formed at the print location on the print medium to be larger or smaller and changing the color density at the print location. It has been.

By the way, when the amount of ink droplets ejected from the inkjet head is changed to large, medium, and small as described above, in particular, the ink ejected from the inkjet head 30 as shown in FIGS. When the amount of the droplet 100 is small and the diameter d of the droplet is small, the ink droplet 102 and the satellite are ejected before the ink droplet 100 is ejected from the inkjet head 30 and reaches the surface of the print medium 10. The liquid droplet 104 was separated. Then, the separated droplets are divided into two on the right and left sides in the direction of movement of the inkjet head 30 (in the direction of the arrow in the figure) moving relatively above the print medium 10 in the XY direction. 10 landed on the surface. As a result, the two small-diameter ink dots 202 and 204 are formed close to each other on the surface of the print medium 10 where the ink dot 200 is to be formed. The gradation at the place where I try to print is out of order. Specifically, as shown in FIG. 5, the number of gradations at the two separated positions deviates from the numerical value (1 dot) indicated by the solid line and is changed to the numerical value (2 dots) indicated by the broken line. It has increased. And the density of the intermediate color has become higher than the desired value. Roughness occurred at the location where the intermediate color was to be printed. Moreover, in the line drawing, the outline is blurred and unclear. Furthermore, in the case of a print image for a two-dimensional barcode that requires an accurate resolution, the print image is unclear and cannot be resolved.
In addition, the phenomenon that one ink droplet 100 ejected from the ink jet head 30 is separated into two left and right parts and landed on the surface of the print medium 10 is that the distance in the vertical direction between the ink jet head 30 and the surface of the print medium 10 is As the distance between the ink droplets 100 increased, the longer the flight distance of the ink droplet 100 increased, the more noticeably occurred.
Further, the phenomenon that the ink droplets 100 ejected from the ink jet head 30 are separated into two right and left parts and land on the surface of the print medium 10 is that the ink jet head 30 moves relatively in the XY direction above the print medium 10. The higher the moving speed V, the more noticeably occurred.
The reason is that the ink droplets 100 ejected from the inkjet head 30 are separated into the main ink droplets 102 and the satellite droplets 104, and are separated when landing on the left and right sides of the surface of the print medium 10 separately. The droplet separation distance L is defined as t, which is a difference in flight time when the main ink droplet 102 and the satellite droplet 104 fly between the inkjet head 30 and the surface of the print medium 10. This is because when the speed is V, L = tV.

  The present invention is a printer that ejects four basic colors, such as yellow, magenta, cyan, and black, from an inkjet head, which can solve such problems, and the ink is mainly used in a place where intermediate colors are to be printed. In a printer that changes the dot diameter in two or more stages, the ink droplets of large and small diameters ejected from the inkjet head do not separate the ink dots formed at the location where the intermediate color is printed into two left and right In addition, an ink jet printer capable of eliminating the occurrence of gradation deviation and roughness in a portion where the intermediate color is printed as one or almost one state, and a printing method using the printer are provided. The purpose is that.

In order to achieve such an object, a first ink jet printer of the present invention includes an ink jet head that moves relative to an upper direction of a print medium mounted on a platen in an XY direction substantially parallel to the print medium surface. An ink jet printer that prints a picture or / and a character consisting of an array of a plurality of ink dots on the surface of the print medium by ink droplets that are ejected and landed in dots in a desired position on the surface of the print medium,
One or more sizes for forming one ink dot from the inkjet head during a head drive time t of one cycle when forming one ink dot at a desired position on the print media surface In an inkjet printer that ejects a plurality of ink droplets of different diameters,
The moving speed of the ink-jet head that moves relative to the print medium in the X-Y direction is V, and the ink-jet head moves from the ink-jet head during the head drive time t of one cycle when forming the one ink dot. Ink dots formed on the surface of the print medium by the ink droplet of the smallest diameter among a plurality of ink droplets of different diameters that are ejected and landed on the surface of the print medium A first head moving means for moving the inkjet head relative to the upper part of the print medium in the XY direction so that a relationship of d / t ≧ V is satisfied when the radius is d ;
Landing position of the ink droplet on the media surface when the ink droplet ejected from the inkjet head is divided into a main ink droplet and a satellite droplet, and the media surface of the satellite droplet When the separation distance from the landing position on the
The vertical separation distance between the print media surface and the inkjet head is such that the separation distance L is equal to or less than tV, which is the product of the head driving time t and the moving speed V of the inkjet head. It is characterized by.

The first printing method of the present invention is a printing method using the first printer of the present invention, and is a head of one cycle when forming one ink dot at a desired position on the surface of the print medium. In a printing method in which a plurality of ink droplets having different diameters of one or more sizes are ejected from the inkjet head during a driving time t,
The moving speed of the ink-jet head that moves relative to the print medium in the X-Y direction is V, and the ink-jet head moves from the ink-jet head during the head drive time t of one cycle when forming the one ink dot. Ink dots formed on the surface of the print medium by the ink droplet of the smallest diameter among a plurality of ink droplets of different diameters that are ejected and landed on the surface of the print medium The first head moving means is used to move the inkjet head relatively in the XY direction using the first head moving means so that the relationship of d / t ≧ V is satisfied, where d is the radius of d. It is characterized by.

When the ink droplets ejected from the inkjet head land on the surface of the print medium below the ink droplet, the ink droplet and the satellite droplet fly in two parts. The moving speed v in the moving direction of the ink jet head of both droplets flying between the print medium surface and the moving speed V of the ink jet head are almost the same.
Accordingly, during the head driving time t of one cycle when forming one ink dot on the surface of the print medium, as described above, the ink is separated into two, and the ink jet head is moved at substantially the same speed V as the ink jet head. The separation distance L between the main ink droplet and the satellite droplet landing on the print media surface while flying in the same direction is maximally L = tV. More precisely, the difference T between the flight times of the main ink droplet and the satellite droplet from the time when the ink droplet is ejected from the inkjet head and reaches the surface of the print medium is added. That is, exactly L = (t + T) V.
Accordingly, the radius d of the ink dot of the smallest diameter among the ink dots formed side by side on the print media surface by the main ink droplet and the satellite droplet is landed on the print media surface. If the ink droplet and the satellite droplet are larger than the maximum separation distance L, that is, if d ≧ L, the main ink is flying in the same direction as the inkjet head at the same velocity V as the inkjet head. Nearly half or more of the main ink droplet and the satellite droplet, which are separated into two, such as a droplet and a satellite droplet, and land on the surface of the print medium overlap each other.
In the first printing method of the present invention using the first ink jet printer of the present invention, the head driving time of one cycle when forming one ink dot on the surface of the print medium is t, and the ink jet head is moved. One or two or more different diameters that are ejected from an inkjet head and land on the surface of a print medium during a head drive time t of one cycle when forming a single ink dot at a speed of V When the radius of the dot of the ink formed on the surface of the print medium by the ink droplet of the smallest diameter among the plurality of ink droplets is d, a relationship of d / t ≧ V is established. The first head moving means is used to move the inkjet head relative to the X-Y direction above the print medium.
Therefore, according to the printing method using the printer having such a configuration, as described above, the ink droplets ejected from the ink jet head are flying at substantially the same speed V as the ink jet head. And nearly two or more of the main ink droplets and the satellite droplets, which are separated into two, such as satellite droplets, and land on the print media surface, can be made to overlap each other.
As a result, it is possible to prevent the occurrence of roughness in the print representation of the intermediate color by finely adjusting the gradation of the picture or / and the character portion where the intermediate color is to be printed. Further, the outline of a line drawing can be sharpened. Furthermore, in the case of a two-dimensional barcode print image that requires an accurate resolution, it is possible to improve the resolution of the print image.

  In the first ink jet printer of the present invention, the first head moving means moves the ink jet head above the print medium so that the relationship of d / t ≧ V is established above a desired selected position on the surface of the print medium. It is preferable to have a first selection means for moving the upper part relatively in the XY direction.

In such a case, using the first selection means, the first head moving means moves the inkjet head relatively in the XY direction so that the relationship d / t ≧ V is satisfied. The upper portion of the portion can be limited to only the upper portion of the desired surface of the print medium on which a picture or / and a character to be expressed with a smooth and smooth gradation of intermediate colors is desired. When the inkjet head is moved relatively in the X and Y directions on the surface of the print medium on which a picture or / and character printed based on other basic colors is printed, the moving speed V of the inkjet head is determined. Can be accelerated as usual.
As a result, it is possible to reduce the time taken from the start of printing the picture or / and the character having the intermediate color on the print medium surface to the end of printing. This reduction in time is effective when creating large-scale media such as posters.

The second ink jet printer of the present invention has one or two or more magnitudes from the ink jet head during the head driving time t of one cycle when forming one ink dot at a desired position on the surface of the print medium. In the first inkjet printer of the present invention that ejects a plurality of ink droplets having different diameters,
Instead of the first head moving means, the moving speed of the inkjet head that moves relative to the XY direction relative to the print medium is V, and one cycle of head driving when forming one ink dot Among the plurality of ink droplets of one or more different sizes that are ejected from the inkjet head and land on the surface of the print medium during time t, When the radius of the ink dot formed on the surface of the print medium is d, the inkjet head is moved relatively in the XY direction above the print medium so that the relationship 3d / t ≧ V is satisfied. A two-head moving means is provided.

In the second printing method of the present invention using the second ink jet printer of the present invention, the head driving time t of one cycle when forming one ink dot at a desired position on the surface of the print medium is as follows. In the printing method of ejecting a plurality of ink droplets having different diameters of one or more sizes from the inkjet head,
The moving speed of the ink-jet head that moves relative to the print medium in the X-Y direction is V, and the ink-jet head moves from the ink-jet head during the head drive time t of one cycle when forming the one ink dot. Ink dots formed on the surface of the print medium by the ink droplet having the maximum diameter among one or more ink droplets having different diameters that are ejected and landed on the surface of the print medium The second head moving means is used to move the inkjet head relative to the X-Y direction above the print medium so that the relationship of 3d / t ≧ V is established, where d is the radius of the ink. It is characterized by.

According to the experimental results, for example, as shown in FIG. 1 to be described later, when printing a picture or / and a character comprising an array of a plurality of ink dots having a large diameter of about 70 μm on the print medium surface, an inkjet The radius d of the ink dot that is ejected from the head and landed on the surface of the print medium is the same as described above during the head drive time t of one cycle when forming one ink dot on the surface of the print medium. In this way, the ink droplets and the satellite droplets, which land on the print media surface while flying in the same direction as the inkjet head at approximately the same velocity V as the inkjet head, Even if 3d = L, which is three times as much as the separation distance L (L = tV), it is landed on the print media surface. It has been confirmed that the ink dots are not separated into left and right, but are almost combined.
The reason for this is that if the dot diameter of the ink that lands on the print media surface is large, the ink dot of a large diameter spreads around the landed spot of the media and spreads and fuses with the surrounding ink dots. It is estimated that.
In the second printing method of the present invention using the second ink jet printer of the present invention, the moving speed of the ink jet head is set to V, and the head driving time t for one cycle when forming one ink dot. In addition, one or more ink droplets having different diameters ejected from an inkjet head and landed on the surface of the print media are formed on the surface of the print media by the ink droplets having the maximum diameter. When the radius of the dot of the ink to be used is d, the second head moving unit is used to move the inkjet head above the print medium relative to the XY direction so that the relationship 3d / t ≧ V is satisfied. It is moved.
Therefore, according to the second printing method using the second printer having such a configuration, as shown in the experimental result, a large-diameter ink droplet of about 70 μm is ejected from the inkjet head, and the ink is When ink droplets of a large diameter are landed and formed on the surface of the print medium by the liquid droplets, the large diameter ink droplets ejected from the ink jet head are in the same direction as the ink jet head at substantially the same speed V as the ink jet head. During the flight, even if the ink droplet and the satellite droplet are separated into two parts such as the ink droplet and landed on the surface of the print medium, the ink droplet and the satellite droplet are apparently separated from each other. It can be set to almost one state.
As a result, it is possible to prevent the occurrence of roughness in the printed representation of the intermediate color by finely adjusting the gradation of the picture or / and the character portion where the intermediate color consisting of an array of a plurality of ink dots having a large diameter is desired to be printed. Can do. Further, the outline of a line drawing can be sharpened. Furthermore, in the case of a two-dimensional barcode print image that requires an accurate resolution, it is possible to improve the resolution of the print image.

  In the second ink jet printer of the present invention, the second head moving means moves the ink jet head above the print medium so that the relationship of 3d / t ≧ V is established above a desired selected position on the surface of the print medium. It is preferable to have a second selection means for moving the upper part relatively in the XY direction.

In such a case, by using the second selection means, the second head moving means moves the inkjet head relatively in the XY direction so that the relationship 3d / t ≧ V is satisfied. The upper part can be limited only to the upper part of the surface of the desired print medium where it is desired to print an intermediate color picture or / and character consisting of an array of a plurality of ink dots having a large diameter of about 70 μm, etc. When the inkjet head is moved relatively in the X and Y directions on the surface of the print medium on which a picture or / and character printed based on other basic colors is printed, the moving speed V of the inkjet head is determined. Can be accelerated as usual.
As a result, it is possible to shorten the time taken from the start of printing the picture or / and the character having the intermediate color composed of an array of a plurality of large-diameter ink dots of about 70 μm or the like on the surface of the print medium. . This reduction in time is effective when creating large-scale media such as posters.

  In the ink jet printer of the present invention, the adjusting means for adjusting the vertical separation distance between the surface of the print medium mounted on the platen and the ink jet head that moves the print medium relative to the X-Y direction relatively. It is preferable to have a provided structure.

If the vertical distance between the surface of the print medium and the inkjet head that moves relative to the print medium in the X and Y directions is large, the relationship of d / t ≧ V is established as described above. In addition, the first head moving means is used to move the inkjet head relative to the XY direction above the print medium, or the second head moving means so that the relationship of 3d / t ≧ V is established. Even if the inkjet head is moved relative to the X-Y direction above the print medium, the ink droplets ejected from the inkjet head are not removed from the ink droplets and the satellite droplets during the flight. The ink dots that are landed on the surface of the print media by both droplets after being separated into It will be in a separated state. The reason for this is that, as described above, the ink is separated into two during the head driving time t of one cycle when forming one ink dot on the surface of the print medium, and the inkjet is performed at substantially the same speed V as the inkjet head. The separation distance L between the main ink droplet and the satellite droplet that land on the surface of the print medium while flying in the same direction as the head is at most L = tV, and more precisely, the inkjet head Ink droplets are ejected from the ink droplets, and the ink droplets are divided into main ink droplets and satellite droplets to reach the surface of the print medium, corresponding to the difference T in the flight time of both droplets. TV is added. That is, the sum of the maximum separation distance L between the main ink droplet landing on the surface of the print medium and the satellite droplet is L = (t + T) V.
Therefore, in order to avoid the phenomenon that the ink droplets ejected from the ink jet head are separated into the main ink droplets and the satellite droplets and land on the print media surface, the print media surface and the ink jet head The vertical distance H is preferably as short as possible.
On the other hand, if the separation distance H from the print media surface to the inkjet head is too short, the print media will come into contact with the inkjet head, and the pictures or / and characters printed on the print media surface will be rubbed with the inkjet head. Ink droplets that have landed on the surface of the medium jump to the ink jet head side and cause clogging of the ink discharge ports of the ink jet head. Therefore, in general, it is sufficient to leave about 1 to 2 mm, but when there is a waved portion on the print media, it is necessary to open it to about 3 mm.
Therefore, adjusting the separation distance H from the print medium surface to the ink jet head in accordance with the print medium is one of the important points for improving the print image quality.

  As described above, according to the first and second ink jet printers of the present invention and the first and second printing methods using the printer, the ink dots are printed at the location where the intermediate color or the like is to be printed. In a printer that changes the diameter to two or more floors, the ink droplets of large and small diameters that are ejected from the ink jet head in two or more stages are used to move the ink dots that are formed at the location where the intermediate color is printed. Without being separated into two, one or nearly one can be achieved. Then, the gradation at the place where the intermediate color picture or / and the character or the like is printed can be made smooth. Further, the outline of a line drawing can be sharpened. Furthermore, in the case of a print image for a two-dimensional barcode that requires an accurate resolution, the print image can be made clear and can be accurately resolved.

  FIG. 1 shows the use of the first inkjet printer of the present invention, the large, medium and small ink dots formed on the surface of the print medium by the first and second printing methods of the present invention, and the conventional inkjet printer. It is explanatory drawing of the comparative experiment example of the dot of the large / medium / small ink formed on the print media surface by the conventional printing method. Below, this comparative experimental example is demonstrated.

In FIG. 1, “Large” in the column indicates that the radius d of the ink dot is about 70 μm, and “Middle” indicates that the radius d of the ink dot is about 62 μm, Small indicates that the radius d of the ink dot is about 43 μm.
On the other hand, the high speed in the horizontal column indicates that the inkjet head is 762 m / sec. The moving speed V of the print medium is shown above. The standard speed is 381 m / sec. The moving speed V of the print medium is indicated by a moving speed V of 191 m / sec. The case where the print medium is moved at the moving speed V is shown.
In FIG. 1, a large and high-speed one in the upper left column is one ink dot formed on the surface of a print medium by the second printing method of the present invention using the second inkjet printer of the present invention. The state is enlarged and displayed, and the width in the left-right direction is about 105 μm. From this dot shape, if the second ink-jet printer of the present invention is used to form an ink dot having a large diameter of about 70 μm on the surface of the print medium by the second printing method of the present invention, the ink dot is It can be seen that a single dot can be formed.
Also, Large in the upper center column is high speed, Large in the upper right column is low speed, Middle in the middle column is normal speed, Middle in the middle right column is slow, Small in the lower right column is small, and low speed is in Small. Each of these is an enlarged display of the dot state of one ink formed on the surface of a print medium by the first printing method of the present invention using the first inkjet printer of the present invention. From this dot shape, if ink dots of different sizes are formed on the surface of the print medium by the first printing method of the present invention using the first ink jet printer of the present invention, the ink dots are changed to 1 It can be seen that two dots can be formed.
On the other hand, the middle left column, Middle, high speed, the lower left column, Small, high speed, and the lower middle column, Small, standard speed, all use conventional ink jet printers and the conventional printing method. FIG. 4 is an enlarged display of the dot state of one ink formed on the surface of a print medium. From this dot shape, it can be seen that if ink dots are formed on the surface of a print medium by a conventional printing method using a conventional ink jet printer, the ink dots are separated into two.
From these comparative experimental examples, the first and second ink jet printers of the present invention are used to print a picture or / and a neutral color or the like on the print media surface by the first and second printing methods of the present invention. For example, it can be seen that each of a plurality of ink dots constituting a portion where the intermediate color or the like is printed can be combined into one or almost one without being separated left and right.
As a result, by using the first and second ink jet printers of the present invention and printing the pictures or / and characters on the print media surface by the first and second printing methods of the present invention, the intermediate color or the like is printed. It can be seen that the gradation in the portion to be expressed can be made smooth. It can also be seen that the outline of a line drawing can be sharpened. Furthermore, in the case of a print image for a two-dimensional barcode that requires an accurate resolution, it can be seen that the print image can be sharpened so as to be accurately resolved.

  The first and second printing methods of the present invention using the first and second ink jet printers of the present invention are used for printing a picture or / and a character having a portion where a neutral color is printed on the surface of a print medium. Widely available. In line drawing, it is effective to sharpen the outline. Furthermore, it is effective to make a print image for a two-dimensional barcode requiring a precise resolution clear so that it can be accurately resolved.

It is explanatory drawing of the comparative experiment example of the dot of the ink formed by this invention and the conventional printing method using this invention and the conventional inkjet printer. It is explanatory drawing of the pulse drive signal provided to the piezo element etc. of an inkjet head. It is explanatory drawing of the state which the ink droplet ejected from the inkjet head isolate | separates into this ink droplet and a satellite droplet. FIG. 4 is an explanatory diagram showing a state where ink droplets ejected from an inkjet head are separated into main ink droplets and satellite droplets and land on the surface of a print medium. It is a correlation diagram between the number of gradations and density. It is a schematic block diagram of an inkjet printer.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Print media 20 Platen 30 Inkjet head 100 Ink droplet 102 Main ink droplet 104 Satellite droplet

Claims (4)

By ink droplets that are ejected from an inkjet head that moves relative to the XY direction substantially parallel to the print medium surface above the print medium mounted on the platen and landed in a dot shape at a desired position on the print medium surface An inkjet printer for printing a picture or / and a character comprising an array of dots of ink on the surface of the print medium,
One or more sizes for forming one ink dot from the inkjet head during a head drive time t of one cycle when forming one ink dot at a desired position on the print media surface In an inkjet printer that ejects a plurality of ink droplets of different diameters,
The moving speed of the ink-jet head that moves relative to the print medium in the X-Y direction is V, and the ink-jet head moves from the ink-jet head during the head drive time t of one cycle when forming the one ink dot. Ink dots formed on the surface of the print medium by the ink droplet of the smallest diameter among a plurality of ink droplets of different diameters that are ejected and landed on the surface of the print medium radius when the d of, as the relationship of d / t ≧ V holds, the first head moving means for relatively moving the ink jet head printing media upwards onto the X-Y direction is provided,
Landing position of the ink droplet on the media surface when the ink droplet ejected from the inkjet head is divided into a main ink droplet and a satellite droplet, and the media surface of the satellite droplet When the separation distance from the landing position on the
The vertical separation distance between the print media surface and the inkjet head is such that the separation distance L is equal to or less than tV, which is the product of the head driving time t and the moving speed V of the inkjet head. Inkjet printer characterized by. A printing method using the inkjet printer according to claim 1,
A plurality of ink liquids having one or more different diameters from the inkjet head during a head driving time t of one cycle when forming one ink dot at a desired position on the surface of the print medium In a printing method for ejecting drops,
The moving speed of the ink-jet head that moves relative to the print medium in the X-Y direction is V, and the ink-jet head moves from the ink-jet head during the head drive time t of one cycle when forming the one ink dot. Ink dots formed on the surface of the print medium by the ink droplet of the smallest diameter among a plurality of ink droplets of different diameters that are ejected and landed on the surface of the print medium The first head moving means is used to move the inkjet head relatively in the XY direction using the first head moving means so that the relationship of d / t ≧ V is satisfied, where d is the radius of d. A printing method characterized by the above.   The first head moving means relatively moves the inkjet head above the print medium in the XY direction above the desired selected position on the surface of the print medium so that the relationship d / t ≧ V is satisfied. The inkjet printer according to claim 1, further comprising a first selection unit that performs the selection. An adjusting means is provided for adjusting a vertical separation distance between a surface of the print medium mounted on the platen and an inkjet head that moves relative to the print medium in the X and Y directions. The ink jet printer according to claim 1 .