Abstract:
An ink jet printer is provided with a transportation device, a first ink jet head, a second ink jet head, and a head moving device. The transportation device transports a print medium along a first direction within a predetermined plane. The first ink jet head has a first nozzle line. The first nozzle line has a plurality of nozzles for discharging ink. The nozzles of the first nozzle line are aligned along a direction that intersects with the first direction within the predetermined plane. The second ink jet head has a second nozzle line. The second nozzle line has a plurality of nozzles for discharging ink. The nozzles of the second nozzle line are aligned along a direction that intersects with the first direction within the predetermined plane. The head moving device moves the first ink jet head with respect to the second ink jet head along a direction that intersects with the first direction within the predetermined plane, between a first positional relationship and a second positional relationship. In the first positional relationship, the first nozzle line and the second nozzle line overlap each other along a second direction which is perpendicular to the first direction within the predetermined plane, and each of the nozzles of the first nozzle line and of the second nozzle line are mutually offset along the second direction. In the second positional relationship, the first nozzle line and the second nozzle line do not overlap each other along the second direction, in contrast to the first positional relationship.

Description:
CROSS-REFERENCE TO RELATED APPLICATION  
       [0001]     The present application claims priority based on Japanese Patent Application 2006-181780 filed on Jun. 30, 2006, the contents of which are hereby incorporated by reference within this application.  
       BACKGROUND OF THE INVENTION  
     Field of the Invention  
       [0002]     The present invention relates to an ink jet printer that discharges ink from an ink jet head to print an image on a print medium transported within a predetermined plane. Particularly, the present invention relates to an ink jet printer having a line-type ink jet head in which nozzles are aligned in a direction intersecting with a print medium transporting direction within the predetermined plane.  
         [0003]     In a line-type ink jet printer, the resolution of a printed image is determined by the pitch of the nozzles of the ink jet head. The resolution can be increased by narrowing the pitch of the nozzles. However, if the pitch of the nozzles is narrowed, both the productivity and yield of the ink jet head deteriorate. Thus, the amount by which resolution is increased by narrowing the pitches is limited.  
         [0004]     U.S. Pat. No. 6,749,279, for example, discloses an ink jet head that is tilted with respect to an axis that is perpendicular to a printing surface of a print medium as a center(see, for example, FIG. 4 of that document). In this case, the space between adjacent two nozzles along the widthwise direction of the print medium can be reduced. Accordingly, the print resolution can be increased.  
         [0005]     Also, Japanese Application Publication No. 6-15826, for example, discloses the following serial printer. In this serial printer, two ink jet heads are mounted in the carriage. The nozzle surface of one of the ink jet heads is tilted along the print medium transporting direction (see, for example, FIG. 7 of that document). In this case, a space between the ink droplets discharged by one of the ink jet heads can be filled with an ink droplet discharged by the other ink jet head. Accordingly, the resolution can be doubled.  
       SUMMARY OF THE INVENTION  
       [0006]     As described above, various technologies for realizing higher resolutions have been developed. On the other hand, the inventor of the present invention wishes to reduce the length of the line-type ink jet head (the length of the widthwise direction of a print medium) as much as possible. This is because as the length of the ink jet head increases, the yield of the ink jet head deteriorates. However, if the length of the ink jet head is reduced, printing on a wide print medium cannot be performed.  
         [0007]     The present specification provides a technology capable of realizing both high resolution printing and printing on a wide print medium by using a short ink jet head.  
         [0008]     The inventor of the present invention focuses on the high resolution that is required for a relatively small print medium (e.g., a photo and a postcard), and the low resolution high-speed printing that is required for a relatively large print medium. The technology disclosed by the present specification was invented with such printing requirements in mind.  
         [0009]     An ink jet printer disclosed by the present specification has a transportation device, a first ink jet head, a second ink jet head, and a head moving device. The transportation device transports a print medium along a first direction within a predetermined plane. The first ink jet head has a first nozzle line. The first nozzle line has a plurality of nozzles for discharging ink. The nozzles of the first nozzle line are aligned along a direction intersecting with the first direction within the predetermined plane. The second ink jet head has a second nozzle line. The second nozzle line has a plurality of nozzles for discharging ink. The nozzles of the second nozzle line are aligned along a direction intersecting with the first direction within the predetermined plane. The head moving device moves the first ink jet head with respect to the second ink jet head along a direction intersecting with the first direction within the predetermined plane, between a first positional relationship and a second positional relationship. In the first positional relationship, the first nozzle line and the second nozzle line overlap each other along a second direction perpendicular to the first direction within the predetermined plane, and each of the nozzles of the first nozzle line and of the second nozzle line are mutually offset along the second direction. In the second positional relationship, the first nozzle line and the second nozzle line do not overlap each other along the second direction, in contrast to the first positional relationship.  
         [0010]     When the first ink jet head and the second ink jet head are in the first positional relationship, the first nozzle line and the second nozzle line overlap each other along the second direction (however, the nozzles of the first nozzle line and the nozzles of the second nozzle line are mutually offset along the second direction). In the area where the first nozzle line and the second nozzle line overlap each other, the space between the ink droplets discharged from the nozzles of one of the nozzle lines can be filled by an ink droplet discharged from a nozzle of the other nozzle line. As a result, high-resolution printing can be realized.  
         [0011]     When the first ink jet head and the second ink jet head are in the second positional relationship, the area in which the two nozzle lines overlap each other along the second direction is smaller than that in the first positional relationship. Specifically, the combined length of the two nozzle lines along the second direction is longer than that in the first positional relationship. Therefore, printing can be performed on a wide print medium.  
         [0012]     Even when using two relatively short ink jet heads, high-resolution printing can be performed on a relatively small print medium by disposing these ink jet heads in the first positional relationship. On the other hand, printing can be performed on a relatively large print medium by disposing the two ink jet heads in the second positional relationship. According to this technology, higher resolutions can be realized, and printing can be performed on a wide print medium by using short ink jet heads.  
         [0013]     It should be noted that in the second positional relationship the first nozzle line and the second nozzle line may overlap each other along the second direction, or may not overlap. In the first case, in the area where these nozzle lines overlap with each other, each nozzle of both the first nozzle line and the second nozzle line may or may not be mutually offset along the second direction. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0014]      FIG. 1  schematically shows the configuration of an ink jet printer.  
         [0015]      FIG. 2A  shows a lower surface of an ink jet head.  
         [0016]      FIG. 2B  shows nozzle lines formed in the lower surface of the ink jet head.  
         [0017]      FIG. 3A  shows ink jet heads located at a low-quality relationship.  
         [0018]      FIG. 3B  shows nozzles of the ink jet heads.  
         [0019]      FIG. 4A  shows the ink jet heads located at a high-quality relationship.  
         [0020]      FIG. 4B  shows the nozzles of the ink jet heads.  
         [0021]      FIG. 5  shows a control block diagram of the ink jet printer.  
         [0022]      FIG. 6A  schematically shows the configuration of a variant of the ink jet printer.  
         [0023]      FIG. 6B  schematically shows the configuration of a variant of the ink jet printer.  
         [0024]      FIG. 7A  schematically shows the configuration of a variant of the ink jet printer.  
         [0025]      FIG. 7B  schematically shows the configuration of a variant of the ink jet printer.  
         [0026]      FIG. 8  schematically shows the configuration of a variant of the ink jet printer. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
     First Embodiment  
       [0027]      FIG. 1  schematically shows the configuration of an ink jet printer  100  of the present embodiment. The ink jet printer  100  has two ink jet heads  1 ,  2  having substantially the same configuration as each other. A platen  3  for supporting paper  99  in a planar fashion is provided on the lower side of the ink jet heads  1 ,  2 . A lower surface of the ink jet head  1  is provided with a nozzle plate  1   a . The nozzle plate  1   a  has a plurality of nozzles  10  for discharging ink (see  FIG. 2A  and  FIG. 2B ). A lower surface of the ink jet head  2  is provided with a nozzle plate  2   a . As with the nozzle plate  1   a , the nozzle plate  2   a  has a plurality of nozzles  10  for discharging ink. It should be noted that paper  99  is used as a print medium in the present embodiment. However, any type of print medium may be used as long as an image, characters or the like can be printed or recorded by means of the ink jet heads. For example, a plate-like member, a cloth, a resin sheet, an optical recording disk or the like may be used.  
         [0028]     The printer  100  further has a pair of transportation rollers  4  and a pair of paper discharging rollers  5 . The pair of transportation rollers  4  is disposed on the upstream side of the platen  3  in a paper-transporting direction. The transportation rollers  4  hold the paper  99  therebetween and feed it onto the platen  3 . The pair of paper discharging rollers  5  is disposed on the downstream side of the platen  3  in the paper-transporting direction. The paper discharging rollers  5  sandwich the paper  99  fed onto the platen  3  and discharge the paper  99 . It should be noted that the upper roller of the pair of paper discharging rollers  5  (the roller abutting against the top surface of the paper  99  (the surface on which an image is printed as described hereinafter)) is a spur roller that has a small contact area with the paper  99 .  
         [0029]     A pump  7  supplies ink from an ink cartridge  9  via a tube  8  to each of the ink jet heads  1 ,  2 . Although  FIG. 1  only shows the structure for supplying one color of ink, the ink jet printer  100  has a structure for supplying four colors of ink. In the ink jet printer  100 , the pump  7 , tube  8  and ink cartridge  9  are provided for each of the colors: magenta, cyan, yellow and black. The ink jet printer  100  can print a color image on the paper  99 . The pump  7  and the ink cartridge  9  are shared by each of the ink jet heads  1 ,  2 .  
         [0030]     Next, a nozzle pattern formed in the ink jet head  1  is described. In the present embodiment, the nozzle pattern of the ink jet head  1  is identical to a nozzle pattern of the ink jet head  2 . Hereinafter, the nozzle pattern of the ink jet head  1  is mainly described.  
         [0031]     As shown in  FIG. 2A , the ink jet head  1  has a long configuration along the horizontal direction. Four nozzle lines  1   b  (called “first nozzle lines 1 b ” hereinafter) are formed on the lower surface of the ink jet head  1 . Each of the first nozzle lines  1   b  extends along a longitudinal direction of the ink jet head  1 . The four first nozzle lines  1   b  are aligned parallel to one another. Each of the first nozzle lines  1   b  corresponds to a different color, respectively. Each of the first nozzle lines  1   b  has the plurality of nozzles  10  for discharging the corresponding ink. For example, the first nozzle line  1   b  for discharging black ink has a plurality of nozzles 10Bk for discharging black ink. Moreover, the other first nozzle lines  1   b  also respectively have nozzles 10M, 10C and 10Y for discharging the corresponding ink (magenta, cyan and yellow). As with the ink jet head  1 , four nozzle lines  2   b  (called “second nozzle lines 2 b ” hereinafter) are formed on the lower surface of the ink jet head  2  (see  FIG. 3A ).  
         [0032]     As shown in  FIG. 2B , in each of the first nozzle lines  1   b , the plurality of nozzles  10  are aligned with equal spaces therebetween (space P) in the longitudinal direction of the ink jet head  1 . In the explanation hereinafter, suffixes of M (magenta), C (cyan), Y (yellow), and Bk (black) are attached to the respective nozzles  10 , if it is necessary to distinguish the nozzles  10  based on the ink colors. If it is not necessary to distinguish the nozzles  10  based on their corresponding ink colors, the suffixes are omitted.  
         [0033]     As shown in  FIG. 3A , the ink jet heads  1 ,  2  are aligned along the paper-transporting direction (the direction of the arrow shown in  FIG. 3A ). Specifically, the ink jet heads  1 ,  2  are offset along the paper-transporting direction. The ink jet heads  1 ,  2  are adjacent to each other along the paper-transporting direction. Furthermore, the ink jet head  1  and the ink jet head  2  are disposed at the same height. Specifically, the distance between the ink jet head  1  and the paper  99  is equal to the distance between the ink jet head  2  and the paper  99 . Moreover, the longitudinal direction (the horizontal direction in  FIG. 3A ) of the ink jet head  1  is identical to the direction perpendicular to the paper-transporting direction. The longitudinal direction (the horizontal direction in  FIG. 3A ; referred to as “widthwise direction” hereinafter) of the ink jet head  2  is identical to the direction perpendicular to the paper-transporting direction. The longitudinal direction of the ink jet head  1  and the longitudinal direction of the ink jet head  2  are identical to each other.  
         [0034]     A screw shaft  11  is engaged with the ink jet head  1  along the longitudinal direction. The chassis of the ink jet printer  100  (not shown) is provided with a head moving motor  13  that rotates the screw shaft  11  to move the ink jet head  1 . The ink jet head  1  can move between a low quality printing position shown in  FIG. 3A  and a high quality printing position shown in  FIG. 4A  by means of the rotation of the head moving motor  13 . The ink jet head  1  can move in the widthwise direction. Specifically, the ink jet head  1  can move while keeping the longitudinal direction thereof parallel to the longitudinal direction of the ink jet head  2 .  
         [0035]     As shown in  FIG. 3A  and  FIG. 3B , each of the first nozzle lines  1   b  and each of the second nozzle lines  2   b  do not overlap with each other in the widthwise direction in the low quality printing position. In this state, an image can be formed over the entire width of the paper  99  of a size JIS-A4 (portrait orientation) by the first nozzle lines  1   b  and the second nozzle lines  2   b . In this state, as shown in  FIG. 3B , the nozzles  10  of the ink jet heads  1 ,  2  are disposed with regular spaces P therebetween as mentioned above, over the entire width.  
         [0036]     As described above, in the low quality printing position of the present embodiment, each first nozzle line  1   b  of the ink jet head  1  and each second nozzle line  2   b  of the ink jet head  2  do not overlap with each other in the widthwise direction. However, in the low quality printing position, a part of the first nozzle lines  1   b  in the vicinity of the left end of the ink jet head  1  (an end portion on the left side in  FIG. 3A ) may overlap with, in the widthwise direction, a part of the second nozzle lines  2   b  in the vicinity of the right end of the ink jet head  2  (an end portion on the right side in  FIG. 3A ). In this case, each of the nozzles  10  of the first nozzle lines  1   b  and each of the nozzles  10  of the second nozzle lines  2   b  may be at the same positions along the widthwise direction within the overlapping area. Moreover, each of the nozzles  10  of the first nozzle lines  1   b  and each of the nozzles  10  of the second nozzle lines  2   b  may be offset in the widthwise direction in the overlapping area.  
         [0037]     In the high quality printing position shown in  FIG. 4A , substantially the entire ink jet head  1  and substantially the entire ink jet head  2  overlap with each other along the widthwise direction. In this case, as shown in  FIG. 4B , the ink jet heads  1 ,  2  overlap each other such that both ink jet heads  1 ,  2  are offset from each other in the widthwise direction by a distance equal to half the space P. Each of the first nozzle lines  1   b  and each of the second nozzle lines  2   b  overlap each other such that the both nozzle lines are offset from each other in the widthwise direction by P/2. Substantially the entire first nozzle lines  1   b  and substantially the entire second nozzle lines  2   b  overlap along the widthwise direction. In the case in which the paper  99  has the same width as an L-size picture or a postcard, both the first nozzle lines  1   b  and second nozzle lines  2   b  are disposed throughout the entire width of the paper  99 . In this case, the nozzles  10  of each first nozzle line  1   b  and the nozzles  10  of each second nozzle line  2   b  are disposed alternately along the widthwise direction. In this case, each space between nozzles  10  is equal to P/2 with respect to the widthwise direction. As a result, high-resolution printing can be performed on relatively small paper  99 .  
         [0038]     Although not shown in the figure, a pair of guides is provided on a paper tray that stores the paper  99  transferred onto the platen  3  by the transportation rollers  4 . A fixed guide is provided at a position corresponding to the left side of the paper tray in  FIG. 3A  and  FIG. 4A . A movable guide is provided at a position corresponding to the right side of the paper tray in  FIG. 3A  and  FIG. 4A . Any paper  99  can be excellently guided to the position shown in  FIG. 3A  or  FIG. 4A .  
         [0039]     Next, the configuration of the control system of the ink jet printer  100  is explained.  FIG. 5  is a block diagram showing the configuration of the control system of the ink jet printer  100 . As shown in  FIG. 5 , the ink jet printer  100  has a control part  30  for controlling the operation of the entire ink jet printer  100 . This control part  30  is constituted as a microcomputer having a CPU  31 , a ROM  33  and a RAM  35  as the principal parts. Not only the abovementioned ink jet heads  1 ,  2 , pump  7  and head moving motor  13  are connected to the control part  30 , but a print medium feeding motor  41 , for driving the transportation rollers  4  and paper discharging rollers  5 , is also connected to the control part  30  via a drive circuit, which is not shown. An operation panel  45 , which is subjected to various settings by a user, is connected to the control part  30  via an interface, which is not shown. Moreover, an input interface (input I/F)  47  to which various data are input from a personal computer (not shown) is connected to the control part  30 , the personal computer being a host device for the ink jet printer.  
         [0040]     Once the image data is input to the input interface  47 , a control part  30  that has the abovementioned configuration drives the pump  7  and ink jet heads  1 ,  2  and discharges the ink from each nozzle  10  while transporting the paper  99  by driving the print medium feeding motor  41 . Accordingly, an image corresponding to the image data is printed on the paper  99 .  
         [0041]     Furthermore, in the case in which the input data of the input interface  47  contains data for specifying image quality, or in the case in which desired image quality is specified through the operation panel  45 , the control part  30  executes the following operations. Specifically, the control part  30  drives the head moving motor  13  in order to move the ink jet head  1  to the abovementioned high quality printing position or the abovementioned low quality printing position in response to the specified quality. It should be noted that when paper  99  that has the same width as an L-size picture or a postcard is specified as the type of paper, the control part  30  may move the ink jet head  1  to the high quality printing position. When paper  99  that has a wider width is specified, the control part  30  may move the ink jet head  1  to the low quality printing position.  
         [0042]     The drive signal to be input to each of the ink jet heads  1 ,  2  (i.e., a drive signal for a known actuator, which is not shown, is provided so as to correspond to each nozzle  10 ) may vary depending on whether or not the ink jet head  1  is disposed at the high quality printing position or the low quality printing position.  
         [0043]     When the ink jet head  1  is disposed at the high quality printing position, the discharge of the ink droplets from the nozzles  10  may be controlled so as to produce smaller ink droplets than when the ink jet head  1  is disposed at the low quality printing position.  
         [0044]     In the ink jet printer  100  of the present embodiment, if the ink jet heads  1 ,  2  are disposed at the high quality printing position, the first nozzle lines  1   b  of the ink jet head  1  and the second nozzle lines  2   b  of the ink jet head  2  overlap. The nozzles  10  of each of the ink jet heads  1 ,  2  are disposed alternately in the overlapping area. As a result, the space between the nozzles  10  along the widthwise direction is equal to half the space P between the nozzles  10  in each nozzle line along the widthwise direction. Therefore, if the ink jet heads  1 ,  2  are disposed at the high quality printing position, the resolution will be twice the resolution obtained when the ink jet heads are disposed at the low quality printing position, whereby a high-quality image can be printed.  
         [0045]     For this reason, when each of the ink jet heads  1 ,  2  corresponds to a resolution of, for example, 600 dpi, an image can be printed at a resolution of 1200 dpi. Although it is possible to technically produce a 1200-dpi class ink jet head, the yield thereof is deteriorated. In the present embodiment, a 1200-dpi image can be printed using ink jet heads  1 ,  2  with a resolution of 600 dpi, with these ink jet heads being easily produced and having a good yield. As a result, the yield of the ink jet heads can be improved and production costs can be reduced.  
         [0046]     In the ink jet printer  100  of the present embodiment, it is not necessary to tilt the ink jet heads in order to perform high-resolution printing, as is the case for the conventional ink jet printer technologies described. For example, in the case of U.S. Pat. No. 6,749,279, the ink jet head needs to be disposed at an inclination angle of 60° in order to double the resolution. In this case, the length of the ink jet head is significantly increased in the paper-transporting direction. The size of the device increases. Moreover, in the case of, for example, Japanese Application Publication No. 6-15826, across tilted ink jet head the height of the nozzles varies. The distance between a nozzle disposed at a high position and the paper increases. When the distance between the nozzle and the paper is large, sometimes printing is not performed well. In the present embodiment, since the ink jet heads  1 ,  2  do not have to be disposed on a tilt; an image can be stably formed on the paper  99 . In the present embodiment, it is preferable not to dispose the ink jet heads on a tilt as an image can be stably formed, however the technology of the present embodiment can be applied to a printer in which an ink jet head is disposed on a tilt.  
         [0047]     Moreover, except for the presence of a screw hole with which the screw shaft  11  is engaged, the ink jet heads  1 ,  2  have the same configuration as each other. Therefore, two acceptable ink jet heads can be selected from a number of ink jet heads already produced. A screw hole may be formed on one of the ink jet heads to obtain the ink jet head  1 , and the other ink jet head may be taken as the ink jet head  2 . Therefore, in the present embodiment, the yield of the ink jet heads can be improved and production costs can be reduced.  
         [0048]     In the ink jet printer  100 , if the ink jet heads  1 ,  2  are disposed in the low quality printing position, each of the first nozzle lines  1   b  and each of the second nozzle lines  2   b  do not overlap each other. Specifically, the nozzles  10  of each first nozzle line  1   b  and the nozzles  10  of each second nozzle line  2   b  do not overlap in the widthwise direction. Accordingly, an image can be printed on wide paper  99 . In a line printer type ink jet head, the longer the ink jet head, the worse the yield. In the ink jet printer  100  of the present embodiment, relatively short ink jet heads  1 ,  2  are used so that an image can be printed on wide paper  99  equivalent to JIS-A4 size paper (portrait orientation). Therefore, the yield of the ink jet heads can be further improved and the production costs can be further reduced.  
         [0049]     There is a relatively small number of requests for printing an image on wide paper  99  at high resolution. High-resolution color printing is performed mainly on small paper  99  such as photo type paper. In the ink jet printer  100  of the present embodiment, the ink jet head  1  is moved as described above, whereby the operation of printing an image on the relatively large sheet of paper  99  at normal resolution (e.g., 600 dpi) and the operation of printing an image on the relatively small paper  99  at high resolution (e.g., 1200 dpi) can be selectively executed.  
         [0050]     Furthermore, the ink jet head  1  is moved by rotating the screw shaft  11 , thus the ink jet head  1  can be accurately disposed at the abovementioned high quality printing position or the abovementioned low quality printing position. Also, the configuration of the movement mechanism of the ink jet head  1  can be simplified by using the screw shaft  11 .  
         [0051]     In the above-described embodiment, the ink jet head  2  is fixed, while the ink jet head I is moved. However, the ink jet head  1  may be fixed, and the ink jet head  2  may be moved. As schematically shown in  FIG. 6A , both the ink jet head  1  and the ink jet head  2  may be moved. This movement mechanism is not limited to the above embodiment where the screw shaft  11  is used. For example, a mechanism using a spur gear and a rack may be used. Also, for example, a mechanism using an air cylinder, solenoid or the like may be adopted.  
         [0052]     In the above-described embodiment, the ink jet heads  1 ,  2  have the same configuration as each other. However, as schematically shown in  FIG. 6B , for example, the length of an ink jet head  101  may be configured so that it has a shorter length than the length of an ink jet head  102 . In this case as well, a high-quality image can be printed at high resolution in the section where the ink jet heads  101 ,  102  overlap with each other along the widthwise direction. In this case, the lengths of the ink jet heads  101 ,  102  are appropriately set, and the shorter ink jet head  101  is moved so that the ink jet heads  101 ,  102  can overlap with each other at substantially the center of the maximum span of the ink jet heads  101 ,  102  across the widthwise direction. In this case, the embodiment is suitable to a so-called center-registration type ink jet printer in which the pair of guides provided on a paper tray move symmetrically toward the center in the widthwise direction. Moreover, when a shorter ink jet head  101  is moved, less energy is required for moving the ink jet head  101 , thus the movement mechanism thereof can be simplified and production costs can be reduced.  
         [0053]     Furthermore, in the above-described embodiment, two ink jet heads  1 ,  2  (or  101 ,  102 ) are used. However, three or more ink jet heads may be used. For example, as schematically shown in  FIG. 7A , four ink jet heads  201 ,  202 ,  203  and  204  may be used. In this case, each of the ink jet heads  201 ,  202 ,  203  and  204  may be offset in the paper-transporting direction. In this case, the ink jet heads  201  and  204  at both ends may be moved. The lengths of each of the ink jet heads  201  through  204  can be further reduced. As a result, the yield obtained when producing the ink jet heads can be improved.  
         [0054]     As schematically shown in  FIG. 7B , three ink jet heads  301 ,  302  and  303  that have the same configuration as one another may be used. In this case, the three ink jet heads  301 ,  302  and  303  may overlap in the widthwise direction. In this case, the resolution can be tripled.  
         [0055]     As described above, the technology of the present embodiment can also be applied to a printer in which ink jet heads  401  and  402  are disposed on a tilt, as shown in  FIG. 8 .  
         [0056]     The ink jet heads  401 ,  402  are tilted with respect to an axis perpendicular to the printing surface of the paper  99  as a center. A screw shaft  411  is engaged with the ink jet head  401  along the longitudinal direction. The chassis of the ink jet printer (not shown) is provided with a head moving motor  413  that rotates the screw shaft  411  to move the ink jet head  401 . The ink jet head  401  can move in the longitudinal direction thereof by rotating the head moving motor  413 .  
         [0057]     In the state shown in  FIG. 8 , the ink jet heads  401 ,  402  are disposed in the low quality printing position. In order to dispose the ink jet heads  401 ,  402  in the high quality printing position, the ink jet head  401  is moved in the longitudinal direction by means of the head moving motor  413 . The state in which the ink jet head  401  overlaps with the ink jet head  402  along a direction perpendicular to the paper-transporting direction is the same as a state in which the ink jet heads  401 ,  402  are disposed in the high quality printing position.  
         [0058]     Specific examples of the present invention are described above in detail, but these examples are merely illustrative and place no limitation on the scope of the patent claims. The technology described in the patent claims also encompasses various changes and modifications to the specific examples described above.  
         [0059]     Furthermore, the technical elements explained in the present specification and drawings provide technical value and utility either independently or through various combinations. The present invention is not limited to the combinations described at the time the claims are filed. In addition, the purpose of the examples illustrated by the present specification and drawings is to satisfy multiple objectives simultaneously, and satisfying any one of those objectives gives technical value and utility to the present invention.