JP2005330095A - Printer and its paper carriage correcting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printer capable of easily correcting the carriage of printing paper. <P>SOLUTION: The printer 100 comprises a paper carrying means for carrying the printing paper, a pattern detecting sensor for detecting a test pattern printed on both sides of the printing paper carried by the paper carrying means in the direction perpendicular to the paper carrying direction, and a paper carriage correcting control means for correcting the carriage of the printing paper with the paper carrying means. The paper carriage correcting control means corrects the carriage of the printing paper with the paper carrying means in accordance with detection information for the test pattern of the printing paper detected by the pattern detecting sensor. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a sheet conveying unit that conveys a print sheet, a pattern detection sensor that detects a test pattern printed on the print sheet conveyed by the sheet conveying unit, and a sheet that corrects the conveyance of the print sheet by the sheet conveying unit. The present invention relates to a printer including a conveyance correction control unit and a paper conveyance correction method thereof.

  When printing paper is transported by a plurality of rollers in the printing paper transport mechanism of the printer, if the balance of these rollers is poor, the printing paper will be transported in an inclined manner, and the resulting print quality will be impaired. Become. Trial printing may be performed, and the roller adjustment may be performed by looking at the printing result. However, it is necessary to repeat the operation many times, which requires a lot of labor and time.

  In Patent Document 1, when a roll deviation correction motor and a lead screw connected thereto are attached to a sheet roll support base that supports a sheet roll, and a roll deviation detection sensor detects a deviation (skew) of a recording sheet. Discloses a technique for correcting skew feeding of a recording sheet by rotating a roll deviation correction motor in a predetermined direction and moving a sheet roll support base in the left-right direction as the lead screw rotates. According to this, it is described that the skew during feeding of the recording medium wound in a roll shape can be corrected.

Patent Document 2 discloses a test print for determining an inclination amount and a meandering amount of a photographic paper when the photographic paper passes a printing position in a printing unit arranged upstream of the exposure unit. A technique is disclosed that is formed on the back surface and based on test printing, determines whether the position of the inclination or meandering of the photographic paper is upstream of the printing position. According to this, it is described that the image forming apparatus can be adjusted quickly by specifying the tilt or meandering position of the image recording medium.
Japanese Patent Laid-Open No. 5-24292 JP 2003-29351 A

  An object of the present application is to provide a printer that can easily correct the conveyance of printing paper and a method for correcting the conveyance of the paper.

The printer of the present invention that achieves the above object provides:
Paper transport means for transporting print paper;
A pattern detection sensor for detecting the test pattern when the print paper printed on both sides in the direction perpendicular to the paper transport direction is transported by the paper transport means;
Paper conveyance correction control means for correcting conveyance of the print paper by the paper conveyance means;
With
The sheet conveyance correction control unit corrects the conveyance of the print sheet by the sheet conveyance unit based on the test pattern detection information detected by the pattern detection sensor.

  According to the above configuration, since the conveyance of the print paper is corrected based on the detection information of the test pattern printed on the print paper, it is not necessary to repeat trial printing many times as in the past, and the print paper can be easily The conveyance can be corrected.

  In the printer of the present invention, the pattern detection sensor has a gradation pattern in which the density is the same in the direction perpendicular to the paper transport direction and has the same density in the paper transport direction by the paper transport means as a test pattern perpendicular to the paper transport direction. When the print paper printed on both sides in a specific direction is transported, the density of each gradation pattern on both sides of the print paper is detected, and the paper transport correction control means detects the print detected by the pattern detection sensor. Based on the density of the gradation pattern on both sides of the sheet, the conveyance of the print sheet by the sheet conveyance unit may be corrected so that they have the same density in the direction perpendicular to the sheet conveyance direction.

  According to the above configuration, specifically, the conveyance of the print paper is corrected so that the gradation patterns on both sides of the print paper have the same density in the direction perpendicular to the paper conveyance direction. It can be corrected.

  In this case, the printer of the present invention may be provided with a plurality of pattern detection sensors so as to detect each of the gradation patterns on both sides of the print paper. It is preferable that the pattern detection sensor is constituted by a single sensor that scans in a direction perpendicular to the paper conveyance direction and detects both gradation patterns on both sides of the print paper.

  In the printer of the present invention, the pattern detection sensor may be used only for detecting the test pattern of the print paper, but from the viewpoint of effective use of the sensor, the pattern detection sensor is in a direction perpendicular to the paper transport direction. It may also serve as a paper transport position detection sensor for detecting the print paper transport position.

The paper conveyance correction method of the present invention is:
Paper transport means for transporting print paper;
A pattern detection sensor for detecting the test pattern when the print paper printed on both sides in the direction perpendicular to the paper transport direction is transported by the paper transport means;
A printer equipped with
Based on the detection information of the test pattern detected by the pattern detection sensor, the conveyance of the print sheet by the sheet conveyance unit is corrected.

  If it does in the above, as mentioned above, conveyance of print paper can be amended easily.

  The paper transport correction method of the present invention may correct the print paper transport based on the test pattern detection information at each of a plurality of positions in the paper transport direction.

  According to the above, test patterns are detected at a plurality of positions in the paper conveyance direction, and the conveyance is corrected based on the detection information. Therefore, it is possible to correct the conveyance of the print paper with higher accuracy. it can.

  As described above, according to the present invention, it is not necessary to repeat trial printing as many times as in the prior art, and the conveyance of the printing paper can be easily corrected.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

[overall structure]
FIG. 1 shows an ink jet printer 100 according to an embodiment of the present invention.

  The printer 100 obtains image data and order information, performs a necessary correction process, and prints image data transmitted from the acceptance block A via the communication cable 1 based on the order information. A printing block B that prints on the paper P is provided.

[Reception block]
The reception block A is provided at an intermediate position in the vertical direction of the frame 5, a reception device 6 provided at the top of the wagon frame 5, a liquid crystal display 8 whose display screen is constituted by the touch panel 7, and the frame 5. And a flatbed scanner FS. On the front surface of the accepting device 6, a semiconductor drive 9 for reading out image data stored in a recording medium Ms composed of a flash memory, and image data stored in a disk-type recording medium Md such as a CD-R or DVD. And a disk drive 10 for reading the data.

  The flat bed scanner FS includes a main body 11 having a scanning table 13 made of transparent glass and a scanning head 14 disposed on the lower side of the scanning table 13, and a platen cover 12 attached to the main body 11 so as to be freely opened and closed. And. The scanning head 14 includes a plurality of photoelectric conversion elements (for example, a CCD or the like) disposed in the main scanning direction and a light source, and is placed on the scanning table 13 by moving in the sub scanning direction orthogonal to the main scanning direction. The image of the scanned object is captured as image data that is color-separated into three primary colors of R (red), G (green), and B (blue).

[Print Block]
FIG. 2 shows the appearance of the print block B. FIG. 3 shows the paper transport system. FIG. 4 shows the print unit U2. FIG. 5 shows the print unit U2 and the ink supply system.

<Appearance configuration>
As shown in FIG. 2, the print block B is disposed on the print paper P, the case 15, the two magazine housing portions Ba and Ba arranged at the lower part of the case 15, and the upper part of the case 15. On the other hand, a printing unit Bb for recording image data and an ink storage unit Bc disposed on the side of the housing 15 are provided. On the upper surface of the housing 15, a sorting unit 17 that receives the small-size print paper P sent out by the lateral feed belt 16 and a rack plate 18 that receives the large-size print paper P are disposed.

  The magazine accommodating portion Ba includes a drawer 20 that slides as the front wall body 15A slides, and is configured to accommodate the roll-shaped print paper P held by the magazine 21 in the drawer 20. . The width of the print paper P stored in the lower magazine storage portion Ba is larger than that of the print paper P stored in the upper magazine storage portion Ba.

  The print unit Bb includes a print head H that is provided in the wall 15B and that forms an image by spraying ink onto the print paper P. The print head H is provided with an upstream nozzle and a downstream nozzle that are arranged in a sub-scanning direction (paper transport direction) Y, which will be described later.

  The ink reservoir Bc includes seven ink cartridges 23,... That are detachably accommodated in the wall 15C and have different hues. These ink cartridges 23,... Can be replaced with new ink cartridges 23 by being inserted and removed. Each of these ink cartridges 23,... Contains yellow (Y), magenta (M), cyan (C), black (K), red (R), violet (V) and transparent (CL) inks. ing. The wall body 15C is configured to be swingable and openable about an axis extending in the vertical direction.

<Paper transport system>
As shown in FIG. 3, the paper transport system includes a supply unit U1, a print unit U2, a loop forming unit U3, a cutter unit U4, a reversing unit U5, and a discharge unit U6. In the paper transport system, when an image is printed on the print paper P, the print paper P stored in one of the two magazine storage portions Ba and Ba is supplied to the print unit Bb by the supply unit U1. On the other hand, an image is printed on the basis of the image data by the print head H while the supplied printing paper P is conveyed symmetrically with respect to the direction perpendicular to the conveying direction by the print unit U2, and then the image is printed. After the print paper P on which the image is printed is sent from the loop forming unit U3 to the cutter unit U4 and cut into a predetermined size, it is sent out to the lateral feed belt 16 or the rack plate 18 by the reversing unit U5 and the discharge unit U6.

  More specifically, the supply unit U1 includes a support roller 25 that applies a rotational force to the print paper P accommodated in the magazine 21, and a pressure supply roller for conveying the print paper P from the magazine 21 to the print unit U2. 26 and a guide member (not shown) for guiding the print paper P conveyed by the supply roller 26. The support roller 25 and the supply roller 26 are driven by an electric motor for supply and conveyance.

  As shown in FIGS. 4 and 5, the print unit U2 includes a guide rail 28 that guides the print head H in the main scanning direction (direction perpendicular to the paper transport direction) X, and a pulley 29 that is wound around the pulley 29 and guides the printer head H. 28, a drive belt 30 for reciprocating along the paper 28, a paper holding part D for sucking and holding the print paper P at a position where the printer 100 head H can print, an upstream side of the paper holding part D, and A pair of pressure-conveying type print transport rollers (paper transport means) 31 and 31 arranged in parallel in the main scanning direction X is provided on each downstream side. The paper holding part D has a plurality of holes formed in the thickness direction, and a print base 32 formed symmetrically with respect to the main scanning direction X, and a print base 32 provided in the housing 33 and with respect to the print paper P. And a fan 34 for applying a negative pressure through the holes. A density sensor (pattern detection sensor) 35 is provided on the downstream side surface of the print head H in the paper conveyance direction, and the density on the print table 32 is increased as the print head H moves in the main scanning direction X. , Thereby detecting the shading of the image printed on the printing paper P and the both side edges of the printing table 32, the both side edges of the printing paper P, and the printing paper P. In other words, the density detection sensor 35 is not only an image density detection sensor, but also a table symmetry position detection sensor for detecting the symmetrical center position of the print table 32 and a transport position of the print paper P. It also serves as a sensor for detecting the paper transport position. In the print unit U2 (print unit Bb), as shown in FIG. 6, when an image is printed on the print paper P, the image is printed in the areas G,. And a cut mark m is formed in the region of the interval d. Note that the print unit U2 conveys the print paper P symmetrically with respect to the main scanning direction X. This is not limited to the case where a single thick print paper P is conveyed as shown in FIG. The case where a narrow print paper P ′ is conveyed is also included.

  The loop forming unit U3 includes a guide plate 36 disposed on the downstream side of the downstream print transport roller 31 and a pressure-bonding intermediate roller 37 for transporting the print paper P guided by the guide plate 36. ing. The guide plate 36 is configured to be switchable between a horizontal posture extending substantially in the horizontal direction (two-dot chain line in FIG. 3) and an open posture extending in the vertical direction (solid line in FIG. 3). In the loop forming unit U3, when printing a long print paper P, the front end portion of the print paper P is transferred to the intermediate roller 37 via the guide plate 36 in a horizontal posture, and then printed by the intermediate roller 37. The conveyance of the paper P is stopped, and then the guide plate 36 is switched from the horizontal posture to the open posture, and the print paper P is suspended to form a loop.

  The cutter unit U4 includes a fixed blade 39, a movable blade 40, a cut position sensor 41 having a reflective sensor, and a pressure-feeding type feed roller 42 for feeding the print paper P. Then, in the cutter unit U4, as shown in FIG. 6, when cutting, an area is formed so that the interval is slightly wider than the interval d based on the cutting mark m based on the detection result of the cut position sensor 41. If it can be removed, the cutting operation is performed so that no margin is left around the image even in borderless printing.

  The reversing unit U5 includes a pressure-reversal reversing roller 43 for pressure-bonding the print paper P, a conveyance drive mechanism (not shown) for rotating the reversing roller 43 forward and backward, and the reversing roller 42 about 90 degrees around its axis. And a reversing mechanism for rotating. Then, in the reversing unit U5, the print paper P fed from the front end side by the cutter unit U4 is conveyed by the reversing roller 43 so that the rear end portion reaches the position of the reversing roller 43, and then as indicated by the arrow in FIG. Then, the reversing unit U5 is rotated 90 degrees around the axis, and then the reversing roller 43 is rotated in the reverse direction to feed the print paper P from its rear end to the discharge unit U6.

  The discharge unit U6 includes a plurality of pressure-bonding type discharge rollers 44 for conveying the print paper P, and the print paper P conveyed by the carry-out rollers 44,. A path switching mechanism (not shown) for sending out to one side is provided.

<Ink supply system>
As shown in FIG. 5, the ink supply system supplies the ink in the ink cartridge 23 to the sub tank 52 via the electromagnetic valve 50V and the supply pipe 51, and the ink in the sub tank 52 passes through the flexible pipe 53 to the print header. It is configured to send out to H. Thus, in the ink supply system, the ink of the ink cartridge 23 is stored in the sub tank 52, so that the ink cartridge 23 can be replaced without interrupting printing. Although only one ink supply system is shown in FIG. 5, in reality, seven ink supply systems are formed corresponding to seven types of inks having different hues.

  The ink cartridge 23 is configured by storing an ink tank 23T formed in a bag shape using a flexible material and a bag-shaped airbag 23B that is inflated when air is supplied in a resin case. . The ink cartridge 23 further includes an air pressurization unit 56 that supplies pressurized air to the airbag 23B via the air supply path 55, and a pressure adjustment valve 57 that adjusts the air pressure supplied to the airbag 23B. ing. The sub tank 52 is formed in a bag shape using a flexible material such as a resin sheet. In the vicinity of the subtank 52, an electric switch type subtank sensor S for obtaining the ink remaining amount based on the expansion amount of the subtank 52 is provided. The ink reservoir Bc is provided with a detachable sensor 58 that determines whether or not the ink cartridge 23 is present in the ink reservoir Bc.

[Control system]
FIG. 7 shows the configuration of the control system.

  In the control system of the printer 100, the receiving device 6 of the receiving block A includes a microprocessor (hereinafter referred to as a CPU) and a touch panel 7, a display 8, and a semiconductor drive that transmit and receive information to and from the CPU via a data bus. 9, disk drive 10, semiconductor memory RAM / ROM, hard disk HD, and communication interface 61 and other hardware. The accepting device 6 further includes software such as an operation system 62, an image processing system 63, and a printer driver 64 for realizing the processing of the CPU. Further, the accepting device 6 constitutes an input / output system for transmitting / receiving information to / from the flatbed scanner FS, and also constitutes a signal system for transmitting / receiving information to / from the print block B via the communication interface 61. doing.

  The print block B includes a microprocessor (hereinafter referred to as a CPU), a conveyance control unit 66, a head control unit 67, a semiconductor memory RAM / ROM, a sub tank sensor S, a cut position connected to the CPU via a data bus. It includes hardware such as the sensor 41, the attachment / detachment sensor 58, the concentration sensor 35, and the communication interface 68. The print block B includes a print control unit 69 for realizing the processing of the CPU, a print table symmetry center calculation unit 70, a print position adjustment control unit 71, a paper transport position adjustment control unit 72, a paper transport correction control unit 73, and the like. With software.

  The transport controller 66 controls the operation of each of the units U1, U2, U3, U4, U5, U6 of the paper transport system. The head controller 67 controls the operation of the print head H.

  The print control unit 69 performs control when printing an image on the printing paper P based on the image data sent from the receiving block A. The print table symmetry center calculation means 70 calculates the symmetry center position in the main scanning direction X based on the detection signals from the density sensors 35 at both ends of the print table 32. The print position adjustment control unit 71 calculates the center position of the image in the main scanning direction X based on the image data to be printed, and performs control to adjust the print position in the main scanning direction X of the image. The paper transport position adjustment control means 72 calculates the symmetrical center position in the main scanning direction X based on the detection signals from the density sensors 35 on both sides of the print paper P transported on the print table 32, Control for adjusting the transport position of the print paper P in the main scanning direction X is performed. The paper conveyance correction control means 73 performs control for correcting the inclined conveyance of the print paper P based on the detection signal from the density sensor 35 for the gradation pattern printed on the print paper P.

  Here, when the printer 100 is initially set, when the apparatus is started up, or when the magazine is changed and the type of the print paper P is changed, the adjustment of the print position of the image, the adjustment of the transport position of the print paper P, and the print The correction of the inclined conveyance of the paper P will be described.

  FIG. 8 shows the flowchart.

  First, in step S1 after the start, a magazine is selected, that is, the print paper P on which an image is to be printed is selected from the two types of set print paper P, and the print paper P is conveyed, and the process proceeds to the subsequent step S2. .

  In step S2, sensitivity calibration of the density sensor 35 is performed, and the process proceeds to subsequent step S3.

  In step S3, it is determined whether or not the sensitivity calibration of the density sensor 35 has been normally completed. If YES, the process proceeds to the following step S4. If NO, the process proceeds to step S13 to issue an alarm and then end. move on.

  In step S4, as shown in FIG. 9, a pair of gradation patterns having the same density in the main scanning direction X on both sides of the print paper P and having the same density in the main scanning direction X are used as test patterns in the main scanning direction X. Printing is performed at intervals, the print head H is scanned, and the density sensor 35 detects the outer edges of both gradation patterns.

  Here, as shown in FIG. 10, the gradation pattern to be printed on the printing paper P is printed by overlapping and drawing line patterns having different pitches at the upstream nozzle and the downstream nozzle, respectively. That is, the portion where the overlapping portion between the one drawn with the upstream nozzle and the one drawn with the downstream nozzle is small becomes dark, and the portion where the overlapping portion is large becomes thin and the gradation is printed. In addition, while drawing a line pattern with a constant pitch with the upstream nozzle, adjusting the transport amount of the print paper P and superimposing it on the line pattern, a line pattern shifted by a predetermined amount from that is drawn with the downstream nozzle. The gradation pattern may be printed by changing the carrying amount of P continuously.

  In step S5, it is determined whether printing of the gradation pattern and detection by the density sensor 35 have been completed. If YES, the process proceeds to the following step S6, and if NO, the process returns to step S5.

  In step S6, it is determined whether or not both side edges of the gradation pattern detected by the density sensor 35 coincide with the positions where printing should have been performed. If YES, the process proceeds to the following step S7. If NO, step S7 is performed. Proceed to S13, issue an alarm, and then proceed to the end.

  In step S7, the deviation of the density sensor 35 is corrected, and the process proceeds to subsequent step S8.

  In step S8, the print head H is scanned with the maximum width, and it is determined whether the density sensor 35 has detected the positions of both side edges of the print table 32. If YES, the process proceeds to the subsequent step S9. In step S13, an alarm is issued and then the process proceeds to the end.

  In step S9, the symmetrical center position of the print table 32 in the main scanning direction X is calculated from the positions on both sides of the print table 32, registered as a print reference, and the center of the image to be printed in the main scanning direction X. The print position is set and registered so that the position coincides with the symmetrical center position of the print table 32, and the process proceeds to the subsequent step 10.

  At this time, in step S8 and step S9, specifically, the print head symmetry center calculating means 70 is executed, so that the head control unit scans the printer head H with the maximum width, and at that time, the density sensor 35 performs printing. The positions of both side edges of the table 32 are detected, the symmetrical center position of the print table 32 in the main scanning direction X is calculated from the positions of both side edges of the print table 32, and the information is recorded in the memory. By executing the print position adjustment control means 71, the center position of the image in the main scanning direction X is calculated from the image data, and the print position is set so that the center position matches the symmetrical center position of the print table 32. Set and record the information in memory.

  In step S10, the print head H is scanned and it is determined whether the density sensor 35 has detected the positions of both side edges of the print paper P on the print table 32. If YES, the process proceeds to the subsequent step S11, and NO. In this case, the process proceeds to step S13, issues an alarm, and then proceeds to the end.

  In step S11, the symmetry center position of the print sheet P conveyed on the print table 32 is made coincident with the symmetry center position of the print table 32, and the center position of the image in the main scanning direction X is set as the symmetry center position of the print sheet P. Then, the print position is reset and registered so as to match, and the process proceeds to step 12.

  At this time, in step S10 and step S11, specifically, the paper transport position adjustment control means 72 is executed to cause the head control unit to scan the printer head H. And detecting the positions of both side edges of the print paper P conveyed to the center, calculating the symmetrical center position of the print paper P with respect to the main scanning direction X from the positions of both side edges of the print paper P, and a transport controller 66, the conveyance position is adjusted so that the symmetry center position of the print paper P coincides with the symmetry center position of the print table 32, and the print position adjustment control means 71 is executed, so that the main scanning direction X of the image is obtained. The print position is set so that the center position of the image coincides with the symmetrical center position of the print paper P, and the print recorded in step S9 It rewrites the configuration information of the location. Here, a fixing member (not shown) for engaging and fixing the magazine 21 is provided in the magazine housing portion Ba. The fixing member is movably provided in the main scanning direction X by adjusting the mounting screw, and the print paper P is moved in the main scanning direction X together with the magazine 21 in accordance with the movement in the main scanning direction X. ing. Accordingly, the position adjustment of the print paper P in the main scanning direction X is performed by controlling the rotation of the fixing screw of the fixing member of the magazine 21 by the execution of the paper transport position adjustment control means 72.

  In step S12, the print paper P is conveyed, the print head H is scanned at a plurality of positions, and the density of the pair of gradation patterns printed on both sides of the print paper P is detected by the density sensor 35. The conveyance of the print paper P by the print conveyance roller 31 is corrected so that the density of the gradation pattern in the main scanning direction X is the same.

  At this time, in step S12, specifically, by executing the paper conveyance correction control means 73, the head control unit scans the printer head H, and at that time, the density sensor 35 prints on both sides of the print paper P. The density of each of the paired gradation patterns is detected and the information is recorded in the memory, and the operation of slightly transporting the print paper P and changing the density detection position by the transport control unit 66 is repeated a plurality of times. Then, from the density information detected at all density detection positions, an inclination correction amount for making the densities in the main scanning direction X of the pair of gradation patterns the same is calculated, and the inclination correction amount is realized so as to realize the inclination correction amount. The balance of the pair of print transport rollers 31 arranged in parallel with X is adjusted. For example, if one lightest part of a pair of gradation patterns is detected later than the other lightest part, the resolution of either one or both of the pair of print transport rollers 31 is corrected so as to correct the delay. To do. The finer the change amount of the gradation pattern, the higher the correction accuracy can be achieved by adopting interpolation data.

  According to the printer 100 as described above, since the print position is adjusted based on the symmetrical center position of the stationary print stand 32, the adjustment is performed as in the case where the print position is adjusted based on the transported print paper P. However, the print position can be adjusted with high accuracy without depending on the conveyance accuracy of the print paper P.

  In addition, since the transport position of the print paper P is adjusted so that the symmetrical center position of the print paper P transported on the print table 32 coincides with the symmetrical center position of the print base 32, a plurality of types of print paper having different widths are provided. Even when P is used properly, proper conveyance is performed for each type of print paper P, so that the apparatus characteristics are maximized and high print quality can be obtained. In addition, since the print position is finally readjusted based on the symmetrical center position of the print paper P, even when using different types of print paper P with different widths, or when using different transport patterns, A highly accurate position adjustment of the print position with respect to the print paper P can be performed according to the type of the print paper P or the transport pattern.

  According to the printer 100 as described above, since the conveyance of the print paper P is corrected so that the pair of gradation patterns have the same density in the main scanning direction X, it is not necessary to repeat trial printing many times as in the past. The inclined conveyance of the print paper P can be easily corrected.

  In the above embodiment, the ink jet printer 100 is used. However, the present invention is not particularly limited to this, and a laser type printer may be used.

  In the above-described embodiment, the density sensor 35 is a sensor for detecting the symmetrical position of the print base 32, a sensor for detecting the transport position of the print paper P, a sensor for detecting the transport position of the print paper P, and However, the present invention is not particularly limited to this, and a configuration in which separate sensors are provided may be used. However, from the viewpoint of effective use of the sensor and simplification of the device configuration, the configuration as in the above embodiment is preferable.

  In the above embodiment, the single density sensor 35 is scanned in the main scanning direction X to detect both densities of the pair of gradation patterns. However, the present invention is not particularly limited to this. A configuration in which two sensors for individually detecting the densities of the gradation patterns are provided. However, from the viewpoint of simplifying the device configuration, the configuration as in the above embodiment is preferable.

  In the above embodiment, according to the flowchart shown in FIG. 8, the paper transport position adjustment control means 72 is executed to automatically adjust the transport position of the print paper P, and the print position adjustment control means 71 is executed to Although the print position is automatically adjusted and the paper conveyance correction control means 73 is executed to automatically correct the inclined conveyance of the print paper P, the present invention is not limited to this, and the paper conveyance position adjustment control means 72 is not particularly limited thereto. The paper conveyance position adjustment amount calculated by executing the print position adjustment amount, the print position adjustment amount calculated by executing the print position adjustment control means 71, and the print paper calculated by executing the paper conveyance correction control means 73. Each information of the correction amount of P conveyance is recorded on a memory or a hard disk for each type of print paper P. The information may be automatically or manually adjusted or modified configuration using.

  In the above embodiment, the gradation pattern is separately printed on both sides of the print paper P. However, the present invention is not limited to this, and the gradation pattern may be printed on the entire print paper P. Good.

  In the above embodiment, the density of the gradation pattern printed as a test pattern on both sides of the print paper P is detected by the density sensor 35, and the print paper P is inclined so that the densities thereof are the same in the main scanning direction X. Although it is configured to correct the conveyance, it is not particularly limited to this. Other test patterns are used, and the patterns are detected by a high resolution sensor such as a CCD camera, and printed based on the detected information. It may be configured to correct the inclined conveyance of the paper P.

  The present invention relates to a sheet conveying unit that conveys a print sheet, a pattern detection sensor that detects a test pattern printed on the print sheet conveyed by the sheet conveying unit, and a sheet that corrects the conveyance of the print sheet by the sheet conveying unit. The present invention is useful for a printer including a conveyance correction control unit and a paper conveyance correction method thereof.

1 is a perspective view of a printer according to an embodiment of the present invention. It is a perspective view of a print block. It is a figure which shows the structure of the paper conveyance system of a print block. FIG. 3 is a diagram illustrating a configuration of a print unit. It is a figure which shows a print unit and an ink supply system. It is a figure which shows the image printed on the printing paper, and a cutting | disconnection mark. It is a block diagram which shows the structure of a control system. 6 is a flowchart illustrating an operation process of adjusting an image printing position, adjusting a printing paper conveyance position, and correcting inclination of printing paper. It is a figure which shows the gradation pattern printed on the printing paper. It is explanatory drawing which shows the method of drawing a gradation pattern.

Explanation of symbols

P Print paper 31 Print paper transport roller (paper transport means)
35 Density sensor (pattern detection sensor, paper transport position detection sensor)
73 Paper conveyance correction control means 100 Printer

Claims (6)

Paper transport means for transporting print paper;
A pattern detection sensor for detecting the test pattern when the print paper printed on both sides in the direction perpendicular to the paper transport direction is transported by the paper transport means;
Paper conveyance correction control means for correcting conveyance of the print paper by the paper conveyance means;
A printer comprising:
The paper conveyance correction control unit corrects the conveyance of the print paper by the paper conveyance unit based on the test pattern detection information detected by the pattern detection sensor. The printer according to claim 1, wherein
The pattern detection sensor has a gradation pattern having a density in the paper transport direction and the same density in a direction perpendicular to the paper transport direction by the paper transport means as a test pattern on both sides in a direction perpendicular to the paper transport direction. When the printed paper is transported, it detects the density of each gradation pattern on both sides of the printed paper,
The paper transport correction control means is based on the density of gradation patterns on both sides of the print paper detected by the pattern detection sensor so that they have the same density in the direction perpendicular to the paper transport direction. A printer that corrects the transport of print media. The printer according to claim 2, wherein
The said pattern detection sensor is a printer comprised by the single sensor which scans in a direction perpendicular | vertical to a paper conveyance direction, and detects both the gradation patterns of both sides of a printing paper. In the printer as described in any one of Claims 1-3,
The printer, wherein the pattern detection sensor also serves as a paper transport position detection sensor for detecting a print paper transport position in a direction perpendicular to the paper transport direction. Paper transport means for transporting print paper;
A pattern detection sensor for detecting the test pattern when the print paper printed on both sides in the direction perpendicular to the paper transport direction is transported by the paper transport means;
A paper conveyance correction method for a printer comprising:
A paper conveyance correction method for correcting conveyance of a print sheet by a sheet conveyance unit based on test pattern detection information detected by a pattern detection sensor. In the paper conveyance correction method according to claim 5,
A paper transport correction method for correcting transport of print paper based on test pattern detection information at each of a plurality of positions in the paper transport direction.

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