EP3318411A1 - Printing apparatus and adjustment method for printing apparatus - Google Patents
Printing apparatus and adjustment method for printing apparatus Download PDFInfo
- Publication number
- EP3318411A1 EP3318411A1 EP17199592.1A EP17199592A EP3318411A1 EP 3318411 A1 EP3318411 A1 EP 3318411A1 EP 17199592 A EP17199592 A EP 17199592A EP 3318411 A1 EP3318411 A1 EP 3318411A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- transport
- transport belt
- printing
- fabric
- printing apparatus
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 238000007639 printing Methods 0.000 title claims abstract description 198
- 238000000034 method Methods 0.000 title claims description 34
- 238000006073 displacement reaction Methods 0.000 claims abstract description 160
- 238000012545 processing Methods 0.000 claims description 77
- 239000004744 fabric Substances 0.000 abstract description 127
- 230000032258 transport Effects 0.000 description 320
- 239000000976 ink Substances 0.000 description 43
- 238000012937 correction Methods 0.000 description 25
- 230000015556 catabolic process Effects 0.000 description 10
- 238000006731 degradation reaction Methods 0.000 description 10
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- 238000012423 maintenance Methods 0.000 description 6
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- 238000001035 drying Methods 0.000 description 4
- 230000005484 gravity Effects 0.000 description 4
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- 230000007246 mechanism Effects 0.000 description 3
- 230000008569 process Effects 0.000 description 3
- 239000003086 colorant Substances 0.000 description 2
- 230000006872 improvement Effects 0.000 description 2
- 229920000742 Cotton Polymers 0.000 description 1
- 230000008901 benefit Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 239000000470 constituent Substances 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
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- 238000003379 elimination reaction Methods 0.000 description 1
- 230000004886 head movement Effects 0.000 description 1
- 238000007641 inkjet printing Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 229920002994 synthetic fiber Polymers 0.000 description 1
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Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J15/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in continuous form, e.g. webs
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J15/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in continuous form, e.g. webs
- B41J15/04—Supporting, feeding, or guiding devices; Mountings for web rolls or spindles
- B41J15/048—Conveyor belts or like feeding devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/007—Conveyor belts or like feeding devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/008—Controlling printhead for accurately positioning print image on printing material, e.g. with the intention to control the width of margins
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H23/00—Registering, tensioning, smoothing or guiding webs
Definitions
- the present invention relates to a printing apparatus that performs printing on a printing medium transported by a belt, and to an adjustment method for the printing apparatus.
- an ink jet printer that, just like, for example, a fabric printing apparatus that performs printing on long-sized fabric, performs printing on a printing medium having been transported by a transport belt has been well known.
- a printing apparatus techniques for reducing the degradation of printing quality due to transport accuracy (error) in the transport of the printing medium by the transport belt have been considered.
- a printing apparatus image formation apparatus
- a transport belt configured to transport a printing medium (printing paper) in a transport direction (sub-scanning direction)
- a line head including nozzles extending along a main-scanning direction orthogonal to the transport direction
- a correction means configured to correct timing points of the discharge of ink droplets from the line head so as to allow the timing points to be associated with ink-droplet landing-position discrepancies that occur along with the revolving of the transport belt.
- JP-A-2015-187035 there is disclosed a printing apparatus including a meandering detection means configured to detect meandering of a printing medium (recording medium) in a state of being transported, and a control means configured to perform meandering elimination processing for eliminating the detected meandering.
- the occurrence of rucks can be reduced by detecting and eliminating the meandering of the printing medium, but there is a room for improvement in the correction of ink-droplet landing-position discrepancies in the main-scanning direction orthogonal to the transport direction (the sub-scanning direction) because of situations, such as a situation where it is difficult to achieve sufficient correction in the sizes of ink droplets and the accuracy in the pitch between ink droplets.
- An advantage of some aspects of the invention is that a printing apparatus and an adjustment method for the printing apparatus are provided that enable a correction relative to displacements of a transport belt that occur in a direction intersecting with a transport direction of the transport belt to be made with higher accuracy.
- the invention can be achieved as the following application examples and an embodiment described later.
- a printing apparatus includes a transport belt configured to transport a printing medium in a transport direction, a printing section configured to perform printing by imparting ink droplets onto the printing medium having been transported, and a control section configured to control positions for imparting the ink droplets, and based on displacement characteristic data indicating displacement amounts of the transport belt that arise in a direction intersecting with the transport direction along with movements of the transport belt in the transport direction, the control section corrects the positions for imparting the ink droplets, in the direction intersecting with the transport direction.
- the control section corrects positions for imparting ink droplets, in the direction intersecting with the transport direction, on the basis of the displacement characteristic data indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction. That is, the positions of the ink droplets imparted onto the printing medium which is transported by the transport belt and whose position is displaced along with the displacements of the transport belt are corrected on the basis of the displacement characteristic data, indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction.
- a correction relative to the displacements of the transport belt that occur in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality that occurs along with the displacements is further effectively minimized.
- control section determines a reference position for the printing in the direction intersecting with the transport direction based on the displacement characteristic data.
- control section determines a reference position for the printing in the direction intersecting with the transport direction on the basis of the displacement characteristic data indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction.
- the displacement characteristic data includes at least one cycle of data in which the displacement values vary, and, based on at least one displacement amount which is among the displacement amounts and each of which is associated with and obtained at a corresponding one of at least one circumferential position of the transport belt within the one cycle, the control section corrects positions for imparting the ink droplets, in the direction intersecting with the transport direction at each said at least one circumferential position.
- the displacement characteristic data indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction includes at least one cycle of data in which the displacement amounts vary. Further, based on at least one displacement amount which is among the displacement amounts and each of which is associated with and obtained at at least one corresponding circumferential position of the transport belt within the one cycle, the control section corrects positions for imparting the ink droplets, in the direction intersecting with the transport direction at each said at least one circumferential position.
- the positions of the ink droplets imparted onto the printing medium which is transported by the transport belt and whose position is displaced along with the displacements of the transport belt are corrected on the basis of the displacement characteristic data, that is, data indicating displacement values each associated with a corresponding one of movement positions of the transport belt in the transport direction.
- the correction with the displacements of the transport belt in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality is minimized.
- an image processing section configured to obtain the displacement characteristic data by recognizing an image of a predetermined pattern having been printed by the printing section, and performing image processing on the recognized image of the predetermined pattern is further included.
- the printing apparatus is configured to, in order to measure the displacement values that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction, include an image processing section configured to obtain the displacement characteristic data by recognizing an image of a predetermined pattern having been printed by the printing section, and performing image processing on the recognized image of the predetermined pattern.
- a user of the printing apparatus is able to update the displacement characteristic data so as to allow the displacement characteristic data to reflect the latest condition of the printing apparatus.
- the correction with the displacements of the transport belt in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality is minimized.
- An adjustment method for a printing apparatus is an adjustment method for a printing apparatus including a transport belt configured to transport a printing medium in a transport direction, and a printing section configured to perform printing by imparting ink droplets onto the printing medium having been transported, and includes a step of obtaining displacement characteristic data indicating displacement amounts of the transport belt that arise in a direction intersecting with the transport direction along with movements of the transport belt in the transport direction, and a step of determining, based on the displacement characteristic data, at least one circumferential position of the transport belt at which an adjustment of the printing apparatus is performed. Further, an adjustment of positions for imparting the ink droplets, in the direction intersecting with the transport direction, is performed at each of the at least one circumferential position having been determined.
- the adjustment method for the printing apparatus includes a step of obtaining displacement characteristic data indicating displacement values of the transport belt that arise in the direction intersecting with the transport direction along with movements of the transport belt in the transport direction, and a step of determining, based on the displacement characteristic data, at least one circumferential position of the transport belt at which the adjustment of the printing apparatus is performed. Further, at each said at least one circumferential position having been determined, the adjustment of ink-droplet imparting positions in the direction intersecting with the transport direction is performed.
- the adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction is performed at each said at least one circumferential position having been determined on the basis of the displacement characteristic data indicating the displacement values of the transport belt that arise along with the movements of the transport belt in the transport direction.
- This configuration therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of the transport belt in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately.
- a central value of a width within which the transport belt is displaced in the direction intersecting with the transport direction is obtained, and at least one circumferential position of the transport belt at each of which the transport belt is located at the central value is determined as at least one circumferential position of the transport belt at each of which the adjustment of the printing apparatus is performed.
- the adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction can be performed at the at least one circumferential position of the transport belt at which the transport belt is located at the central value of the width within which the transport belt is displaced in the direction intersecting with the transport direction.
- This configuration therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of the transport belt in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately.
- a most frequent position at which the transport belt is most frequently located in the direction intersecting with the transport direction is obtained, and a circumferential position of the transport belt at which the transport belt is located at the most frequent position is determined as a circumferential position of the transport belt at which the adjustment of the printing apparatus is performed.
- the adjustment of an ink-droplet imparting position in the direction intersecting with the transport direction can be performed at the most frequent position at which the transport belt is most frequently located in the direction intersecting with the transport direction, and thus, an effective adjustment that allows the ratio of a contribution of a period of time during which the adjustment result is reflected to be higher is achieved.
- a Z-axis direction indicates an upper-lower direction
- a +Z-axis direction indicates an upper direction
- an X-axis direction indicates a front-back direction
- a -X-axis direction indicates a front direction
- a Y-axis direction indicates a left-right direction
- a +Y-axis direction indicates a left direction
- an X-Y plane is a horizontal plane.
- Fig. 1 is a schematic diagram illustrating a fabric printing apparatus 100, that is, a fabric printing apparatus taken as an example of a printing apparatus according to this embodiment, and illustrates a front view of the fabric printing apparatus 100 installed on a floor surface 9.
- the fabric printing apparatus 100 is an ink jet printing apparatus that performs printing on fabric 1, that is, fabric taken as an example of a "printing medium", by discharging (imparting) ink droplets onto the fabric 1 to form an image thereon.
- fabric used as the fabric 1 include, but are not limited to, cotton, silk, wool, synthetic fabric, and blended fabric.
- the fabric printing apparatus 100 includes a fabric supplying section 10, a fabric transporting section 20, a fabric collecting section 30, a printing section 40, a maintenance section 50, a fabric pressing and adhering section 60, an apparatus controller 80, an image processing device 90, and any other component.
- the fabric supplying section 10 contains the fabric 1 before subjected to the imparting of inks, that is, in a state not subjected to formation of a desired image.
- the fabric supplying section 10 includes a shaft portion 11 and a shaft receiving portion 12.
- the shaft portion 11 supports the band-shaped fabric 1 in a state of being wounded in a roll shape so as to allow the fabric 1 to be rotatable in a circumferential direction.
- the shaft portion 11 is attached to the shaft receiving portion 12 so as to be attachable/detachable to/from the shaft receiving portion 12.
- the shaft receiving portion 12 includes a rotation driving portion (omitted from illustration) for driving the rotation of the shaft portion 11, and supports the shaft portion 11 so as to allow the shaft portion 11 to be rotatable.
- the rotation driving portion is controlled by the apparatus controller 80 so as to rotate the shaft portion 11 in a direction in which the fabric 1 is fed out in the case where the fabric 1 is stretch fabric. Further, in the case where the fabric 1 is fabric to which tension is required to be applied, control that allows a load to be applied so as not to rotate the shaft portion 11 is performed.
- the fabric transporting section 20 transports the fabric 1 using a transport path from the fabric supplying section 10 to the fabric collecting section 30 via the printing section 40.
- the fabric transport section 20 includes transport rollers 21, 26, and 28, a tension roller 22, a transport belt 23, a belt rotation roller 24, a belt driving roller 25, a drying unit 27, a belt guide 29, and any other constituent element.
- the transporting belt 23 is formed in an endless shape, and is hung on the belt roller 24 and the belt driving roller 25.
- the transporting belt 23 is kept in a state in which predetermined tension is applied to its portion hung across the belt rotation roller 24 and the belt driving roller 25 so as to allow the portion hung therebetween to be kept parallel to the floor surface 9.
- the transport belt 23 includes an adherence layer (omitted from illustration) provided on the surface thereof (i.e., on a support face 23a thereof) and causing the fabric 1 to adhere to the support face 23a.
- the transport belt 23 supports the fabric 1 using the support face 23a, on which the adherence layer is provided.
- the belt rotation roller 24 and the belt driving roller 25 support an inner circumference face 23b of the transport belt 23.
- a configuration that allows a support portion for supporting the transport belt 23 from the inner circumference face 23b to be provided between the belt rotation roller 24 and the belt driving roller 25 may be employed.
- the belt driving roller 25 is disposed at the downstream side of the belt rotation roller 24.
- the belt driving roller 25 allows its rotation to be controlled by the apparatus controller 80.
- the rotation of the belt driving roller 25 causes the transport belt 23 to rotate, and with the rotation of the transport belt 23, the belt rotation roller 24 rotates.
- the rotation of the transport belt 23 transports the fabric 1, which is supported by the transport belt 23 (using the support face 23a), in a transport direction. That is, a direction from the belt rotation roller 24 toward the belt driving roller 25 corresponds to the transport direction.
- the tension roller 22 is provided between the fabric supplying section 10 and the transport belt 23 in the transport path, and generates and applies predetermined tension to the fabric 1 between the transport belt 23 (the support face 23a adhered to the fabric 1) and the tension roller 22 itself.
- the transport roller 21 relays the fabric 1 between the fabric supplying section 10 and the tension roller 22.
- the transport roller 26 relays the fabric 1 having been transported by the transport belt 23.
- the drying unit 27 is provided between the transport roller 26 and the transport roller 28 to guide and dry the fabric 1 after being subjected to the imparting of inks.
- the transport roller 28 relays the fabric 1 having been guided by the drying unit 27 to the fabric collecting section 30.
- the belt guide 29 is a pair of flat-plate shaped guides that is provided so as to pinch the transport belt 23 from the both width-direction edge sides of the transport belt 23 in a region (a printing region) existing on the transport belt 23 and facing the printing section 40, and restrains the displacement of the transport belt 23 in a direction intersecting with the transport direction.
- the fabric collecting section 30 contains the fabric 1 having been subjected to the imparting and the drying of inks (that is, having been subjected to formation (printing) of a desired image).
- the fabric collecting section 30 includes a shaft portion 31 and a shaft receiving portion 32.
- the shaft portion 31 is provided so as to be rotatable in a circumferential direction to wind the fabric 1 in a roll shape and contain it.
- the shaft portion 31 is attached so as to be attachable/detachable to/from the shaft receiving portion 32.
- the shaft receiving portion 32 includes a rotation driving portion (omitted from illustration) for driving the rotation of the shaft portion 31, and supports the shaft portion 31 so as to allow the shaft portion 31 to be rotatable.
- the rotation driving portion is controlled by the apparatus controller 80 to rotate the shaft portion 31 in a direction in which the fabric 1 is wound.
- the printing section 40 is controlled by the apparatus controller 80, and discharges ink droplets to the fabric 1.
- the printing section 40 includes a head 41, a head moving section 42, and an ink supplying section (omitted from illustration).
- the head 41 includes a discharge face 41a, and from this discharge face 41a, inks supplied from the ink supplying section are discharged as ink droplets.
- a plurality of nozzles 43 are formed on the discharge face 41a, and the ink droplets are discharged through these nozzles 43.
- the discharge face 41a is provided so as to face the fabric 1 in a state of being transported by the transport belt 23.
- the head moving section 42 includes a carriage mounting the head 41 therein, a guide shaft provided in a direction intersecting with the transport direction of the fabric 1, a driving mechanism for moving the carriage along the guide shaft, and any other component (these components being omitted from illustration), and moves the head 41 in a width direction of the fabric 1 (the X-axis direction), that is, in a direction intersecting with the transport direction.
- Fig. 4 is a schematic diagram illustrating an example of the arrangement of the nozzles 43 that is seen from the bottom face side of the head 41.
- the head 41 allows the plurality of nozzles 43 arranged along the transport direction (the Y-axis direction) of the fabric 1 to form, for example, four nozzle rows, and is configured to discharge, for each of the nozzle rows, a corresponding one of mutually different colors (for example, cyan: C, magenta: M, yellow: Y, and black: K).
- each of the nozzle rows is constituted by 400 nozzles 43, that is, #1 to #400 nozzles 43.
- the maintenance section 50 (see Fig. 1 ) is controlled by the apparatus controller 80, and performs the maintenance of the transport belt 23.
- the maintenance section 50 includes a processing portion 51, a base portion 52, and any other component.
- the processing portion 51 includes mechanisms for performing various processes on the transport belt 23, such as a removal portion for removing foreign matters, such as dust and lint, adhered to the transport belt 23, an adherence layer repairing portion for repairing the adherence layer of the transport belt 23 when the adherence layer has been degraded (these mechanisms being omitted from illustration).
- the base portion 52 supports the processing portion 51 so as to enable the processing portion 51 to move up and down.
- the fabric pressing and adhering section 60 is disposed above the transport belt 23 at the upstream side of the printing section 40 in the transport path.
- the fabric pressing and adhering section 60 presses and adheres the fabric 1 onto the support face 23a, including the adherence layer, to prevent the fabric 1 from separating (floating) from the transport belt 23.
- Fig. 2 is a block diagram illustrating the functions of the apparatus controller 80 and the image processing device 90.
- the image processing device 90 includes an image control section 91, an input section 92, a display section 93, a storage section 94, and any other component, and performs processes, such as transmitting/receiving of data to/from external electronic devices connected to the image processing device 90 itself via networks or the like, job control of the printing performed by the fabric printing apparatus 100, and an image process in relation to the printing.
- the image processing device 90 is constituted using a personal computer as a suitable example.
- Software in accordance with which the image processing device 90 operates includes commonly-used image processing application software (hereinafter referred to as application) for dealing with image data on the basis of which printing is performed, and printer driver software (hereinafter referred to as a printer driver) for generating printing data needed for the execution of the printing by the fabric printing apparatus 100 based on the image data.
- application image processing application software
- printer driver software hereinafter referred to as a printer driver
- the image control section 91 includes a CPU (Central Processing Unit) 95, an ASIC (Application Specific Integrated Circuit) 96, a DSP (Digital Signal Processor) 97, a memory 98, an interface 99, and any other component.
- CPU Central Processing Unit
- ASIC Application Specific Integrated Circuit
- DSP Digital Signal Processor
- the input section 92 is an information inputting means serving as a human interface.
- the input means 92 corresponds to components, such as a key board and ports to which information input devices are connected.
- the display section 93 is an information display means (a display) serving as a human interface, and allows information input from the input section 92, an image to be printed, information in relation to the printing job, and any other information to be displayed on the display section 93 itself on the basis of the control of the image control section 91.
- a display serving as a human interface
- the storage section 94 is a rewritable storage medium, such as a hard disk drive (HDD) or a memory card, and allows software in accordance with which the image processing device 90 operates (i.e., programs operated in the image processing section 91), an image to be printed, information in relation to the printing job, and any other information to be stored in the storage section 94 itself.
- HDD hard disk drive
- the storage section 94 allows software in accordance with which the image processing device 90 operates (i.e., programs operated in the image processing section 91), an image to be printed, information in relation to the printing job, and any other information to be stored in the storage section 94 itself.
- the memory 98 is a storage medium for securing an area for storing therein programs in accordance with which the CPU 95 operates, a work area for use in the operation of the CPU 95, and any other area, and is constituted by storage elements, such as RAM and EEPROM.
- the device control section 80 includes an interface 81, a CPU 82, a memory 83, a driving control section 84, and any other component, and performs overall control of individual driving portions of the fabric printing apparatus 100. Specifically, the device control section 80 performs control of the printing section 40 (ink discharge control on the head 41 and head movement control on the head moving section 42), transport drive control on the fabric transporting section 20, and any other control.
- the device control section 80 performs control so as to allow two successive operations to be repeated: one being an operation of discharging ink droplets from the head 41 onto the fabric 1 having been supplied to the printing region by the fabric transporting section 20 in accordance with the printing data having been sent from the image processing device 90 while moving the carriage supporting the head 41 in a main-scanning direction (the X-axis direction) along the guide shaft; the other being an operation of causing the fabric transporting section 20 (the transport belt 23) to move the fabric 1 in the transport direction (the Y-axis direction) intersecting with the main-scanning direction. With the repetition of these two successive operations, a desired image is formed (printed) on the fabric 1.
- the interface 81 is connected to the image processing device 90 (the interface 99), and transmits/receives data to/from the image processing device 90.
- the CPU 82 is an arithmetic processing device for performing driving control of the whole of the fabric printing device 100.
- the memory 83 is a storage medium for ensuring an area for storing therein programs in accordance with which the CPU 82 operates, a work area for use in the operation of the CPU 82, and any other area, and is constituted by storage elements, such as RAM and EEPROM.
- the CPU 82 controls the fabric supplying section 10, the fabric transporting section 20, the fabric collecting section 30, the printing section 40, the maintenance section 50, and the fabric pressing and adhering section 60 via the driving control section 84 in accordance with the programs stored in the memory 83 and the printing data having been received from the image processing device 90.
- Fig. 3 is a diagram illustrating the fundamental functions of the printer driver.
- the printing on the fabric 1 is started at the time when the printer driver transmits printing data from the image processing device 90 to the apparatus controller 80.
- the printing data is generated by the printer driver.
- the printer driver Upon receipt of image data from application, the printer driver converts the image data into printing data having a format interpretable by the apparatus controller 80, and outputs the printing data to the apparatus controller 80.
- the printer driver When converting the image data from the application into the printing data, the printer driver performs resolution conversion processing, color conversion processing, halftone processing, rasterization processing, command addition processing, and any other processing.
- the resolution conversion processing is processing for converting the resolution of the image data having been output from the application into a resolution (printing resolution) for printing on the fabric 1.
- a resolution printing resolution
- the image data of a vector format having been received from the application is converted into image data of a bitmap format and a resolution of 720 x 720 dpi.
- Each piece of pixel data constituting the image data after the resolution conversion processing is constituted by pixels arranged in a matrix shape.
- Each of the pixels has a grayscale value among, for example, 256 grayscale values in an RGB color space. That is, each piece of pixel data after the resolution conversion processing indicates the grayscale values of a corresponding pixel.
- Pieces of pixel data corresponding to a row of pixels arranged in a predetermined direction among the pixels arranged in the matrix shape are called raster data.
- the predetermined direction in which the pixels corresponding to the raster data are arranged corresponds to the movement direction of the head 41 (i.e., the main-scanning direction) at the time of the execution of printing of an image.
- the color conversion processing is processing for converting RGB data into data in a CMYK color system space.
- the CMYK color corresponds to cyan (C), magenta (M), yellow (Y), and black (K), and the image data in the CMYK color system space is data corresponding to the colors of the inks provided in the fabric printing apparatus 100.
- the printer driver generates image data corresponding to ten dimensional spaces in the CMYK color system on the basis of the RGB data.
- the color conversion processing is performed on the basis of a table in which grayscale values of RGB data are associated with grayscale values of CMYK color system data (i.e., a color conversion lookup table LUT).
- pixel data after having been subjected to the color conversion processing is CMYK color system data represented by the CMYK color system spaces and corresponding to, for example, 256 grayscale levels.
- the halftone processing is processing for converting data having high grayscale levels (256 grayscale levels) into data having grayscale levels formable by the fabric printing apparatus 100.
- each piece of data representing one of 256 grayscale levels is converted into, for example, a piece of one-bit data representing one of two grayscale levels (i.e., a dot presence and a dot absence), or a piece of two-bit data representing one of four grayscale levels (i.e., a dot absence, a small size dot, a middle size dot, and a large size dot).
- dot generation ratios for example, dot generation ratios each associated with a corresponding one of the dot absence, small size dot, middle size dot, and large size dot in the case of the four grayscale levels
- image data is generated so as to allow dots to be formed in a distributed state by means of a dither method, an error diffusion method, or the like.
- the rasterization processing is processing for rearranging pixel data arranged in a matrix shape (for example, the one-bit data or the two-bit data, such as described above) in accordance with order in which dots are formed at the time of the execution of printing.
- the rasterization processing includes allocation processing for allocating image data constituted by the pixel data having been subjected to the halftone processing to individual pass operations through which ink droplets are discharged from the head 41 (the nozzle rows) being allowed to move and scan.
- the pixel data arranged in a matrix shape is allocated to actual nozzles forming individual raster lines constituting an image to be printed.
- the command addition processing is processing for adding command data in accordance with a printing method to the data having been subjected to the rasterize processing.
- Examples of the command data include, but are not limited to, transport data in relation to a transport specification (for example, a movement amount, a speed, and the like in the transport direction) with respect to a printing medium (the fabric 1).
- printer driver These kinds of processing by the printer driver are performed by the ASIC 96 and the DSP 97 (see Fig. 2 ) under the control of the CPU 95, and the generated printing data is transmitted to the apparatus controller 80 via the interface 99 by printing data transmission processing.
- the fabric printing apparatus 100 having the aforementioned fundamental configuration, a situation where, in the printing region, when the transport belt 23 is displaced by a slight distance in the width direction of the fabric 1 (the X-axis direction) intersecting with the transport direction (the Y-axis direction), the position of the fabric 1 in the X-axis direction is displaced along with the displacement of the transport belt 23, and the displacement of the position of the fabric 1 in the X-axis direction causes the discrepancies of the landing positions of the ink droplets discharged onto the fabric 1 (i.e., the positions of dots formed by the ink droplets), thereby causing the degradation of the quality of printing (the quality of an image) constituted by the plurality of dots has sometimes occurred.
- the belt guides 29 guide the transport belt 23 so as to come into contact with the width-direction edge portions of the transport belt 23, the displacements of the transport belt 23 in the width direction of the fabric 1 (the X-axis direction), intersecting with the transport direction (the Y-axis direction), are prevented from causing large meandering.
- the transport belt 23 may be slightly displaced along with the revolving of the transport belt 23 due to the stress from the belt guides 29 with which the transport belt 23 is in sliding contact.
- the transport belt 23 may be slightly displaced.
- the fabric printing apparatus 100 is configured to preliminarily obtain and evaluate displacement characteristic data in relation to the fabric printing apparatus 100, that is, data indicating the amounts of displacements of the transport belt 23 that occur in the direction intersecting with the transport direction of the transport belt 23 along with the movements of the transport belt 23 in the transport direction, and the apparatus controller 80 is configured to be capable of correcting ink-droplet imparting positions in the direction intersecting with the transport direction on the basis of the displacement characteristic data.
- An adjustment method for the fabric printing apparatus 100 includes a step of obtaining the displacement characteristic data.
- the displacement amounts that is, the amounts of displacements of the transport belt 23 in the direction intersecting with the transport direction, are obtained by printing a predetermined pattern on a printing medium (the fabric 1 or printing paper mounted (supported) on the transport belt 23 and having been transported to the printing region, and analyzing the predetermined pattern having been printed thereon.
- Fig. 5 is a diagram illustrating an example of the predetermined pattern used for obtaining the displacement amounts.
- the predetermined pattern is constituted by a landing pattern (a dot row K shown in Fig. 5 ) formed by ink droplets discharged through a specific nozzle row provided in the head 41.
- the specific nozzle row corresponds to any nozzle row among the nozzle rows constituted by the plurality of nozzles 43, which are arranged along the transport direction (see Fig. 4 ), and corresponds to, for example, a nozzle row through which the black ink (K) is discharged.
- the dot row K formed as the specific pattern and shown in Fig. 5 is illustrated as a ruled line composed of dot rows.
- the transport belt 23 is caused to stop at the position of a starting point in a transport system, and then, the head 41 is caused to stop at a predetermined position in the main-scanning direction (the X-axis direction) (this predetermined position being located at, for example, an approximately central position of the width of the transport belt 23) to allow a one-shot ink droplet to be discharged through each of the nozzles 43 in the nozzle row K so as to allow a dot row K1 to be formed.
- the printing medium moved in the transport direction (the +Y direction) by a length D, that is, a length equal to that of the nozzle row, to allow one-shot ink droplets to be discharged again through all the nozzles in the nozzle row so as to allow a dot row K2 to be formed.
- the movement of the printing medium and the discharge of ink droplets are repeated in a similar manner, and as a result, the dot row K formed as the specific pattern and composed of dot rows K1 to Kn is printed.
- the position of the starting point in the transport system is a predetermined given position from which circumferential positions of the transport belt 23 constituting the fabric transporting section 20, and rotation positions of the individual transport rollers are specified, and any repeatable position may be employed as the position of the starting point.
- Information in relation to the circumferential positions of the transport belt 23 and the rotation positions of the individual transport rollers are obtained through components, such as encoders, provided at individual portions.
- the printing medium on which the predetermined pattern (the dot row K) has been printed is removed from the fabric printing apparatus 100, and displacement amounts of the respective dot rows K1 to Kn in the main-scanning direction (the X-axis direction) are measured.
- a method of measuring the displacement amounts is not particularly limited, but, for example, the image of the predetermined pattern (the dot row K) is read in as image data using a CCD (Charge Coupled Device) image sensor or the like, and image processing is performed on the image data to obtain the displacement amounts.
- the predetermined pattern (the dot row K) is read into the image processing device 90 as image data, and the displacement amounts can be obtained by allowing the image control section 91 to perform image processing on the image data.
- the image processing device 90 includes the function as an "image processing section” configured to obtain the displacement characteristic data by recognizing the image of the predetermined pattern having been printed by the printing section 40 for the purpose of the measurement of the displacement amounts, and performing image processing on the recognized image of the predetermined pattern.
- the fabric printing apparatus 100 may be configured to include an image obtaining section, such as a CCD image sensor.
- the image obtaining section is disposed at a position at which the image of the printed predetermined pattern (the dot row K) can be obtained, that is, at the downstream side of the head 41 in the transport path for the fabric 1.
- the image data having been obtained by the image obtaining section is preferably configured so as to be transmitted to the image processing device 90.
- the image processing device 90 exerts the function as the "image processing section" including the image obtaining section.
- a straight line serving as a reference line (i.e., a reference line extending in the transport direction) on a printing medium on which the predetermined pattern (the dot row K) is to be printed is preferably provided in advance.
- the displacement amounts can be obtained as relative values relative to the reference line in the X-axis direction.
- Examples of a method of obtaining the displacement amounts from the image data corresponding to the predetermined pattern (the dot row K) using image processing include a method of obtaining the positions of gravity points P (in other words, the centre) of the respective dot rows K1 to Kn (in Fig. 5 , the gravity point of the dot row K3 being shown as P), and then obtaining the displacement amounts thereof in the X-axis direction.
- the displacement characteristic data is obtained as the values of the differences of the positions of the gravity points P (X values) of the respective dot rows Kn relative to a reference position, that is, the position of the gravity point P of the dot row K1 (an X value).
- Fig. 6 is a graph illustrating an example of plotted pieces of displacement characteristic data related to the transport belt 23 and having been obtained from image data corresponding to the predetermined pattern (the dot row K) shown in Fig. 5 .
- the printed position of the dot row K2 is out of alignment in the +X-axis direction relative to a reference position, that is, the position of the dot row K1, and this means that the printing medium (the transport belt 23) is displaced in the -X-axis direction, and thus, the X-axis polarity represented by each of the plots of the graph shown in Fig. 6 is reverse to the polarity of the X-axis direction discrepancy of a corresponding one of the dot rows shown in Fig. 5 .
- the predetermined pattern is not limited to the aforementioned pattern. Any pattern that enables the displacement amounts of the transport belt 23 in the direction intersecting with the transport direction to be obtained as the displacement characteristic data using positions in the transport system (the fabric transporting section 20) (for example, the positions being circumferential positions of the transport belt 23) may be employed. For example, a pattern obtained by forming a row of consecutive dots in a way that allows an ink droplet to be sequentially discharged at a constant interval through a specific nozzle 43 having been moved at an approximately central position of the width of the transport belt 23 while allowing the transport belt 23 to revolve at a constant speed from the position of the starting point in the transport system may be employed.
- the cycle of the displacement characteristic data corresponds to the cycle of the revolving of the transport belt 23, but in the case where any other factor is involved, the cycle of the displacement characteristic data may be longer.
- Fig. 7 is a graph illustrating an example of two cycles of plotted pieces of displacement characteristic data having been obtained through a measurement.
- a cycle T of the displacement characteristic data becomes longer than the cycle of the revolving of the transport belt 23.
- the degradation of printing quality is minimized by correcting ink-droplet imparting positions in the direction intersecting with the transport direction in accordance with transport amounts from the position of the starting point in the transport system on the basis of the displacement characteristic data. Further, the degradation of the printing quality is minimized by adjusting the fabric printing apparatus 100 on the basis of the size of the displacements of the transport belt 23 in the direction intersecting with the transport direction (width direction) and the distribution of displacement positions.
- One of the contents of the adjustment of the fabric printing apparatus 100 is the adjustment of ink-droplet landing positions in the main-scanning direction (the X-axis direction).
- This adjustment involves the correction of ink-droplet landing-position discrepancies that occur along with the scanning movement of the head 41.
- ink-droplet landing positions in an outward path of the scanning movement are determined as target points, and next, ink-droplet landing positions in a return path of the scanning movement are adjusted so as to correspond to the respective ink-droplet landing positions in the outward path (that is, the correction of position discrepancies is made).
- the target points are points for determining the position of a printing region in the main-scanning direction (the X-axis direction), and with this determination of the target points, with respect to the aforementioned pieces of image data corresponding to a printed image and arranged in a matrix shape, their X-axis positions relative to the fabric 1 are determined.
- the ink-droplet landing positions in the return path are caused to move in the X-axis direction, as a result, the position of a corresponding printing region is also shifted by the amount of the movement in the X-axis direction.
- the adjustment method for the fabric printing apparatus 100 includes a step of determining circumferential positions of the transport belt 23 at which the adjustment of the fabric printing apparatus 100 is performed. Specifically, circumferential positions of the transport belt 23 at each of which the aforementioned target points are determined is determined on the basis of the displacement characteristic data. More specifically, the central value of the width within which the transport belt 23 is displaced in the direction intersecting with the transport direction is obtained on the basis of the displacement characteristic data, and circumferential positions of the transport belt 23 at each of which the transport belt 23 is located at the central value are determined as the circumferential positions of the transport belt 23 at each of which the target points are determined. For example, in an example shown in Fig.
- positions y1, y2, and y3 are circumferential positions of the transport belt 23 at which the transport belt 23 is located at a central value (x3) of a width (x1 to x2) within which the transport belt 23 is displaced in the direction intersecting with the transport direction, and thus, at any one of these points, the adjustment of the fabric printing apparatus 100 (i.e., the determination of the target points and the correction of the ink-droplet landing position discrepancies) is performed.
- the center of the image in the width direction is aligned with the center of the belt at these circumferential positions.
- the ink-droplet landing positions at subsequent circumferential positions may be corrected relative to the landing positions at circumferential positions of the transport belt 23 at which the transport belt 23 is located at a central value.
- the positions y1, y2, and y3 can be simply and easily obtained as positions at each of which the central value x3 is given, by referring to the displacement characteristic data.
- the displacement characteristic data is obtained as, for example, a function f (m, n, l), these m, n, and l being factors
- a method that allows the central value x3 to be obtained from a minimum value x1 and a maximum value x2, and allows a position in the transport system (the fabric transporting section 20) to be derived as a position at which the factors m, n, and l give the central value x3 may be employed.
- the displacement characteristic data having been obtained in the image processing device 90 is stored in the memory 83 included in the apparatus controller 80.
- the apparatus controller 80 determines a reference position for the printing in the direction intersecting with the transport direction on the basis of the displacement characteristic data having been stored in the memory 83. Specifically, first, the apparatus controller 80 derives a position used for determining the target points and included in the transport system (the fabric transporting section 20) (the position being, for example, a circumferential position of the transport belt 23) on the basis of the displacement characteristic data, and drives the transport system (the fabric transporting section 20) to allow relative movement of the head 41 to the derived position. Next, the apparatus controller 80 derives target points (ink-droplet landing positions in the outward path of the scanning movement) on the basis of the displacement characteristic data, and drives the head moving section 41 to allow the head 41 to move to the target points.
- target points in the outward path of the scanning movement
- the fabric printing apparatus 100 can perform the adjustment of the ink-droplet landing positions in the return path of the scanning movement (i.e., the correction of position discrepancies) so as to allow the ink-droplet landing positions in the return path to correspond to the target points.
- the target points are points for determining a printing region in the main-scanning direction (the X-axis direction), and the determination of the target points is, namely, equivalent to the determination of the reference position for the printing in the direction intersecting with the transport direction.
- the target points are points for determining a printing region in the main-scanning direction (the X-axis direction), and thus, the determination of the target points based on the displacement characteristic data is, in other words, equivalent to the correction of the ink-droplet imparting positions in the direction intersecting with the transport direction. Correction of Ink Discharging Positions
- the apparatus controller 80 corrects ink-droplet imparting position in the direction intersecting with the transport direction at each of the circumferential positions.
- the apparatus controller 80 can allow the discontinuous straight lines to be printed as straight lines more similar to one straight line by correction-controlling the timing of the discharge of ink droplets so as to allow the timing to be associated with the position of each of the passes (that is, each of the circumferential positions of the transport belt 23).
- the apparatus controller 80 includes a data table in which each of ink-droplet discharge timing correction values is associated with a corresponding one of correction values in the X-axis direction. Allowing the driving control section 84 (see Fig. 2 ) to correct the timing of driving the head 41 at each pass by a correction value associated with each pass enables the position of a straight line to be printed to be corrected to an appropriated position.
- the correction value of the timing of the discharge of ink droplets can be simply and easily calculated from the movement speed of the carriage, and thus, a real-time correction that allows the movement speed of the carriage to be constantly detected and allows the ink discharge to be performed at timing at which an integrated value of the movement speed of the carriage coincides with a target correction value in the X-axis direction may be made.
- the apparatus controller 80 corrects ink-droplet imparting positions in the direction intersecting with the transport direction on the basis of the displacement characteristic data indicating the displacement amounts of the transport belt 23 that arise in the direction intersecting with the transport direction along with the movements of the transport belt 23 in the transport direction. That is, the positions of the ink droplets imparted onto the fabric 1 which is transported by the transport belt 23 and whose position is displaced along with the displacements of the transport belt 23 are corrected on the basis of the displacement characteristic data indicating the displacement amounts of the transport belt 23 that arise in the direction intersecting with the transport direction along with the movements of the transport belt 23 in the transport direction.
- the correction relative to the displacements of the transport belt 23 in the direction intersecting with the transport direction is made with high accuracy, and the degradation of printing quality that occurs along with the displacements is further effectively reduced.
- the apparatus controller 80 determines a reference position for the printing in the direction intersecting with the transport direction on the basis of the displacement characteristic data indicating the displacement amounts of the transport belt 23 that arise in the direction intersecting with the transport direction along with the movements of the transport belt 23 in the transport direction. As a result, printing on the fabric 1 which is transported by the transport belt 23 and whose position is displaced along with the displacements of the transport belt 23 is performed at further appropriated positions.
- the apparatus controller 80 corrects ink-droplet imparting positions in the direction intersecting with the transport direction at each of the circumferential positions.
- the ink-droplet imparting positions on the fabric 1 which is transported by the transport belt 23 and whose position is displaced along with the displacements of the transport belt 23 are corrected on the basis of the displacement characteristic data, that is, data indicating displacement values each associated with a corresponding one of movement positions of the transport belt 23 in the transport direction.
- the correction with the displacements of the transport belt 23 in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality is minimized.
- the fabric printing apparatus 100 is configured to, in order to measure the displacement values of the transport belt 23 that arise in the direction intersecting with the transport direction along with the movements of the transport belt 23 in the transport direction, include the image processing device 90 serving as an image processing section that obtains the displacement characteristic data by recognizing the image of the predetermined pattern having been printed by the printing section 40, and performing image processing on the recognized image of the predetermined pattern.
- the image processing device 90 serving as an image processing section that obtains the displacement characteristic data by recognizing the image of the predetermined pattern having been printed by the printing section 40, and performing image processing on the recognized image of the predetermined pattern.
- a user of the fabric printing apparatus 100 is able to update the displacement characteristic data so as to allow the displacement characteristic data to reflect the latest condition of the fabric printing apparatus 100.
- the correction with the displacements of the transport belt 23 in the direction intersecting with the transport direction is made with high accuracy, and the degradation of printing quality is minimized.
- the adjustment method for the fabric printing apparatus 100 includes a step of obtaining displacement characteristic data indicating displacement values of the transport belt 23 that arise in the direction intersecting with the transport direction along with the movements of the transport belt 23 in the transport direction, and a step of determining circumferential positions of the transport belt 23 at which the adjustment of the fabric printing apparatus 100 is performed on the basis of the obtained displacement characteristic data. Moreover, at each of the circumferential positions having been determined in the above step, the adjustment of ink-droplet imparting positions in the direction intersecting with the transport direction is performed.
- the adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction is performed at each of the circumferential positions having been determined on the basis of the displacement characteristic data indicating the displacement values of the transport belt 23 that arise along with the movements of the transport belt 23 in the transport direction.
- This configuration therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of the transport belt 23 in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately.
- the adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction can be performed at circumferential positions of the transport belt 23 at each of which the transport belt 23 is located at the central value of the width within which the transport belt 23 is displaced in the direction intersecting with the transport direction.
- This configuration therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of the transport belt 23 in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately.
- a method of obtaining the most frequent position at which the transport belt 23 is most frequently located in the direction intersecting with the transport direction, and determining a circumferential position of the transport belt 23 at which the transport belt 23 is located at the most frequent position or positions, as a circumferential position of the transport belt 23 at which the adjustment of the fabric printing apparatus 100 is performed may be employed. According to this method, the adjustment of an ink-droplet imparting position in the direction intersecting with the transport direction is performed at the most frequent position at which the transport belt 23 is most frequently located in the direction intersecting with the transport direction, and thus, an effective adjustment that allows the ratio of a contribution of a period of time during which the adjustment result is reflected to be higher is achieved. A position to the side or the edge could also be used instead of or as well as the central position. Modification Example 2
- the image processing device 90 includes the function of an "image processing section" configured to obtain the displacement characteristic data by recognizing the image of the predetermined pattern having been printed by the printing section 40, and performing image processing on the recognized image of the predetermined pattern has been described, but the fabric printing apparatus 100 need not include the "image processing section".
- a configuration that allows a manufacturer that manufactures the fabric printing apparatuses 100 to obtain, for each of the fabric printing apparatuses 100, displacement characteristic data in relation to the transport belt 23, and allows the manufacture to provide a user with the fabric printing apparatus 100 including the displacement characteristic data stored in the memory 83 or the storage section 94 may be employed.
- the same adjustment and correction as those in the aforementioned embodiment can be performed by allowing the apparatus controller 80 to obtain the displacement characteristic data stored in the memory 83 or the storage section 94.
- a method that allows the displacement characteristic data to be generated using a means other than the image processing device 90 by, at the execution of maintenance of the fabric printing apparatus 100, printing the predetermined pattern used for obtaining the displacement characteristic data and having been described in the aforementioned embodiment, and analyzing the result of the printing may be employed.
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- Accessory Devices And Overall Control Thereof (AREA)
Abstract
Description
- The present invention relates to a printing apparatus that performs printing on a printing medium transported by a belt, and to an adjustment method for the printing apparatus.
- Heretofore, as a printing apparatus, an ink jet printer that, just like, for example, a fabric printing apparatus that performs printing on long-sized fabric, performs printing on a printing medium having been transported by a transport belt has been well known. In such a printing apparatus, techniques for reducing the degradation of printing quality due to transport accuracy (error) in the transport of the printing medium by the transport belt have been considered. For example, in
JP-A-2014-69322 JP-A-2015-187035 - In the printing apparatus disclosed in
JP-A-2014-69322 - Further, in the printing apparatus disclosed in
JP-A-2015-187035 - An advantage of some aspects of the invention is that a printing apparatus and an adjustment method for the printing apparatus are provided that enable a correction relative to displacements of a transport belt that occur in a direction intersecting with a transport direction of the transport belt to be made with higher accuracy. The invention can be achieved as the following application examples and an embodiment described later.
- A printing apparatus according to this application example includes a transport belt configured to transport a printing medium in a transport direction, a printing section configured to perform printing by imparting ink droplets onto the printing medium having been transported, and a control section configured to control positions for imparting the ink droplets, and based on displacement characteristic data indicating displacement amounts of the transport belt that arise in a direction intersecting with the transport direction along with movements of the transport belt in the transport direction, the control section corrects the positions for imparting the ink droplets, in the direction intersecting with the transport direction.
- According to this application example, the control section corrects positions for imparting ink droplets, in the direction intersecting with the transport direction, on the basis of the displacement characteristic data indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction. That is, the positions of the ink droplets imparted onto the printing medium which is transported by the transport belt and whose position is displaced along with the displacements of the transport belt are corrected on the basis of the displacement characteristic data, indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction. As a result, a correction relative to the displacements of the transport belt that occur in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality that occurs along with the displacements is further effectively minimized.
- In the printing apparatus according to the above application example, the control section determines a reference position for the printing in the direction intersecting with the transport direction based on the displacement characteristic data.
- According to this application example, the control section determines a reference position for the printing in the direction intersecting with the transport direction on the basis of the displacement characteristic data indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction. As a result, printing on the printing medium which is transported by the transport belt and whose position is displaced along with the displacements of the transport belt is performed at further appropriate positions.
- In the printing apparatus according to the above application example, the displacement characteristic data includes at least one cycle of data in which the displacement values vary, and, based on at least one displacement amount which is among the displacement amounts and each of which is associated with and obtained at a corresponding one of at least one circumferential position of the transport belt within the one cycle, the control section corrects positions for imparting the ink droplets, in the direction intersecting with the transport direction at each said at least one circumferential position.
- According to this application example, the displacement characteristic data indicating the displacement amounts of the transport belt that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction includes at least one cycle of data in which the displacement amounts vary. Further, based on at least one displacement amount which is among the displacement amounts and each of which is associated with and obtained at at least one corresponding circumferential position of the transport belt within the one cycle, the control section corrects positions for imparting the ink droplets, in the direction intersecting with the transport direction at each said at least one circumferential position. That is, the positions of the ink droplets imparted onto the printing medium which is transported by the transport belt and whose position is displaced along with the displacements of the transport belt are corrected on the basis of the displacement characteristic data, that is, data indicating displacement values each associated with a corresponding one of movement positions of the transport belt in the transport direction. As a result, the correction with the displacements of the transport belt in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality is minimized.
- In the printing apparatus according to the above application example, in order to measure the displacement values, an image processing section configured to obtain the displacement characteristic data by recognizing an image of a predetermined pattern having been printed by the printing section, and performing image processing on the recognized image of the predetermined pattern is further included.
- According to this application example, the printing apparatus is configured to, in order to measure the displacement values that arise in the direction intersecting with the transport direction along with the movements of the transport belt in the transport direction, include an image processing section configured to obtain the displacement characteristic data by recognizing an image of a predetermined pattern having been printed by the printing section, and performing image processing on the recognized image of the predetermined pattern. Thus, for example, a user of the printing apparatus is able to update the displacement characteristic data so as to allow the displacement characteristic data to reflect the latest condition of the printing apparatus. As a result, the correction with the displacements of the transport belt in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality is minimized.
- An adjustment method for a printing apparatus, according to this application example, is an adjustment method for a printing apparatus including a transport belt configured to transport a printing medium in a transport direction, and a printing section configured to perform printing by imparting ink droplets onto the printing medium having been transported, and includes a step of obtaining displacement characteristic data indicating displacement amounts of the transport belt that arise in a direction intersecting with the transport direction along with movements of the transport belt in the transport direction, and a step of determining, based on the displacement characteristic data, at least one circumferential position of the transport belt at which an adjustment of the printing apparatus is performed. Further, an adjustment of positions for imparting the ink droplets, in the direction intersecting with the transport direction, is performed at each of the at least one circumferential position having been determined.
- The adjustment method for the printing apparatus, according to this application example, includes a step of obtaining displacement characteristic data indicating displacement values of the transport belt that arise in the direction intersecting with the transport direction along with movements of the transport belt in the transport direction, and a step of determining, based on the displacement characteristic data, at least one circumferential position of the transport belt at which the adjustment of the printing apparatus is performed. Further, at each said at least one circumferential position having been determined, the adjustment of ink-droplet imparting positions in the direction intersecting with the transport direction is performed. That is, the adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction is performed at each said at least one circumferential position having been determined on the basis of the displacement characteristic data indicating the displacement values of the transport belt that arise along with the movements of the transport belt in the transport direction. This configuration, therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of the transport belt in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately.
- In the adjustment method for the printing apparatus, according to the above application example, based on the displacement characteristic data, a central value of a width within which the transport belt is displaced in the direction intersecting with the transport direction is obtained, and at least one circumferential position of the transport belt at each of which the transport belt is located at the central value is determined as at least one circumferential position of the transport belt at each of which the adjustment of the printing apparatus is performed.
- According to this application example, the adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction can be performed at the at least one circumferential position of the transport belt at which the transport belt is located at the central value of the width within which the transport belt is displaced in the direction intersecting with the transport direction. This configuration, therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of the transport belt in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately.
- In the adjustment method for the printing apparatus, according to the above application example, based on the displacement characteristic data, a most frequent position at which the transport belt is most frequently located in the direction intersecting with the transport direction is obtained, and a circumferential position of the transport belt at which the transport belt is located at the most frequent position is determined as a circumferential position of the transport belt at which the adjustment of the printing apparatus is performed.
- According to this application example, the adjustment of an ink-droplet imparting position in the direction intersecting with the transport direction can be performed at the most frequent position at which the transport belt is most frequently located in the direction intersecting with the transport direction, and thus, an effective adjustment that allows the ratio of a contribution of a period of time during which the adjustment result is reflected to be higher is achieved.
- Embodiments of the invention will now be described by way of example only with reference to the accompanying drawings, wherein like numbers reference like elements.
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Fig. 1 is a schematic diagram illustrating a fabric printing apparatus taken as an example of a "printing apparatus" according to an embodiment of the invention. -
Fig. 2 is a block diagram illustrating the functions of an apparatus controller and an image processing device. -
Fig. 3 is a diagram illustrating the fundamental functions of a printer driver. -
Fig. 4 is a schematic diagram illustrating an example of the arrangement of nozzles that is seen from the bottom face side of a head. -
Fig. 5 is a diagram illustrating an example of a predetermined pattern used for obtaining displacement amounts. -
Fig. 6 is a graph illustrating an example of plotted pieces of displacement characteristic data in relation to a transport belt. -
Fig. 7 is a graph illustrating an example of two cycles of plotted pieces of displacement characteristic data having been obtained through a measurement. - Hereinafter, an embodiment obtained by embodying the invention will be described with reference to the drawings. Description below is just an embodiment of the invention, and does not limit the invention. Note that individual figures referred to below may be drawn in scales different from actual scales for easy understanding of the description below. Further, in a coordinate system appended in each of figures referred to below, a Z-axis direction indicates an upper-lower direction; a +Z-axis direction indicates an upper direction; an X-axis direction indicates a front-back direction; a -X-axis direction indicates a front direction; a Y-axis direction indicates a left-right direction; a +Y-axis direction indicates a left direction; and an X-Y plane is a horizontal plane.
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Fig. 1 is a schematic diagram illustrating afabric printing apparatus 100, that is, a fabric printing apparatus taken as an example of a printing apparatus according to this embodiment, and illustrates a front view of thefabric printing apparatus 100 installed on afloor surface 9. - The
fabric printing apparatus 100 is an ink jet printing apparatus that performs printing onfabric 1, that is, fabric taken as an example of a "printing medium", by discharging (imparting) ink droplets onto thefabric 1 to form an image thereon. Examples of fabric used as thefabric 1 include, but are not limited to, cotton, silk, wool, synthetic fabric, and blended fabric. - The
fabric printing apparatus 100 includes afabric supplying section 10, afabric transporting section 20, afabric collecting section 30, aprinting section 40, amaintenance section 50, a fabric pressing and adheringsection 60, anapparatus controller 80, animage processing device 90, and any other component. - The
fabric supplying section 10 contains thefabric 1 before subjected to the imparting of inks, that is, in a state not subjected to formation of a desired image. Thefabric supplying section 10 includes ashaft portion 11 and ashaft receiving portion 12. - The
shaft portion 11 supports the band-shapedfabric 1 in a state of being wounded in a roll shape so as to allow thefabric 1 to be rotatable in a circumferential direction. Theshaft portion 11 is attached to theshaft receiving portion 12 so as to be attachable/detachable to/from theshaft receiving portion 12. - The
shaft receiving portion 12 includes a rotation driving portion (omitted from illustration) for driving the rotation of theshaft portion 11, and supports theshaft portion 11 so as to allow theshaft portion 11 to be rotatable. The rotation driving portion is controlled by theapparatus controller 80 so as to rotate theshaft portion 11 in a direction in which thefabric 1 is fed out in the case where thefabric 1 is stretch fabric. Further, in the case where thefabric 1 is fabric to which tension is required to be applied, control that allows a load to be applied so as not to rotate theshaft portion 11 is performed. - The
fabric transporting section 20 transports thefabric 1 using a transport path from thefabric supplying section 10 to thefabric collecting section 30 via theprinting section 40. Thefabric transport section 20 includestransport rollers tension roller 22, atransport belt 23, abelt rotation roller 24, abelt driving roller 25, a dryingunit 27, abelt guide 29, and any other constituent element. - The transporting
belt 23 is formed in an endless shape, and is hung on thebelt roller 24 and thebelt driving roller 25. The transportingbelt 23 is kept in a state in which predetermined tension is applied to its portion hung across thebelt rotation roller 24 and thebelt driving roller 25 so as to allow the portion hung therebetween to be kept parallel to thefloor surface 9. Thetransport belt 23 includes an adherence layer (omitted from illustration) provided on the surface thereof (i.e., on asupport face 23a thereof) and causing thefabric 1 to adhere to thesupport face 23a. Thetransport belt 23 supports thefabric 1 using thesupport face 23a, on which the adherence layer is provided. - The
belt rotation roller 24 and thebelt driving roller 25 support aninner circumference face 23b of thetransport belt 23. Here, a configuration that allows a support portion for supporting thetransport belt 23 from theinner circumference face 23b to be provided between thebelt rotation roller 24 and thebelt driving roller 25 may be employed. - In the transport path, the
belt driving roller 25 is disposed at the downstream side of thebelt rotation roller 24. Thebelt driving roller 25 allows its rotation to be controlled by theapparatus controller 80. The rotation of thebelt driving roller 25 causes thetransport belt 23 to rotate, and with the rotation of thetransport belt 23, thebelt rotation roller 24 rotates. The rotation of thetransport belt 23 transports thefabric 1, which is supported by the transport belt 23 (using thesupport face 23a), in a transport direction. That is, a direction from thebelt rotation roller 24 toward thebelt driving roller 25 corresponds to the transport direction. - The
tension roller 22 is provided between thefabric supplying section 10 and thetransport belt 23 in the transport path, and generates and applies predetermined tension to thefabric 1 between the transport belt 23 (thesupport face 23a adhered to the fabric 1) and thetension roller 22 itself. - The
transport roller 21 relays thefabric 1 between thefabric supplying section 10 and thetension roller 22. - The
transport roller 26 relays thefabric 1 having been transported by thetransport belt 23. - The drying
unit 27 is provided between thetransport roller 26 and thetransport roller 28 to guide and dry thefabric 1 after being subjected to the imparting of inks. Thetransport roller 28 relays thefabric 1 having been guided by the dryingunit 27 to thefabric collecting section 30. - The
belt guide 29 is a pair of flat-plate shaped guides that is provided so as to pinch thetransport belt 23 from the both width-direction edge sides of thetransport belt 23 in a region (a printing region) existing on thetransport belt 23 and facing theprinting section 40, and restrains the displacement of thetransport belt 23 in a direction intersecting with the transport direction. - The
fabric collecting section 30 contains thefabric 1 having been subjected to the imparting and the drying of inks (that is, having been subjected to formation (printing) of a desired image). Thefabric collecting section 30 includes ashaft portion 31 and ashaft receiving portion 32. - The
shaft portion 31 is provided so as to be rotatable in a circumferential direction to wind thefabric 1 in a roll shape and contain it. Theshaft portion 31 is attached so as to be attachable/detachable to/from theshaft receiving portion 32. - The
shaft receiving portion 32 includes a rotation driving portion (omitted from illustration) for driving the rotation of theshaft portion 31, and supports theshaft portion 31 so as to allow theshaft portion 31 to be rotatable. The rotation driving portion is controlled by theapparatus controller 80 to rotate theshaft portion 31 in a direction in which thefabric 1 is wound. - The
printing section 40 is controlled by theapparatus controller 80, and discharges ink droplets to thefabric 1. Theprinting section 40 includes ahead 41, ahead moving section 42, and an ink supplying section (omitted from illustration). Thehead 41 includes adischarge face 41a, and from thisdischarge face 41a, inks supplied from the ink supplying section are discharged as ink droplets. A plurality ofnozzles 43 are formed on thedischarge face 41a, and the ink droplets are discharged through thesenozzles 43. In the printing region, thedischarge face 41a is provided so as to face thefabric 1 in a state of being transported by thetransport belt 23. - The
head moving section 42 includes a carriage mounting thehead 41 therein, a guide shaft provided in a direction intersecting with the transport direction of thefabric 1, a driving mechanism for moving the carriage along the guide shaft, and any other component (these components being omitted from illustration), and moves thehead 41 in a width direction of the fabric 1 (the X-axis direction), that is, in a direction intersecting with the transport direction. -
Fig. 4 is a schematic diagram illustrating an example of the arrangement of thenozzles 43 that is seen from the bottom face side of thehead 41. - The
head 41 allows the plurality ofnozzles 43 arranged along the transport direction (the Y-axis direction) of thefabric 1 to form, for example, four nozzle rows, and is configured to discharge, for each of the nozzle rows, a corresponding one of mutually different colors (for example, cyan: C, magenta: M, yellow: Y, and black: K). In the example shown inFig. 4 , each of the nozzle rows is constituted by 400nozzles 43, that is, #1 to #400nozzles 43. - The maintenance section 50 (see
Fig. 1 ) is controlled by theapparatus controller 80, and performs the maintenance of thetransport belt 23. Themaintenance section 50 includes aprocessing portion 51, abase portion 52, and any other component. Theprocessing portion 51 includes mechanisms for performing various processes on thetransport belt 23, such as a removal portion for removing foreign matters, such as dust and lint, adhered to thetransport belt 23, an adherence layer repairing portion for repairing the adherence layer of thetransport belt 23 when the adherence layer has been degraded (these mechanisms being omitted from illustration). Thebase portion 52 supports theprocessing portion 51 so as to enable theprocessing portion 51 to move up and down. - The fabric pressing and adhering
section 60 is disposed above thetransport belt 23 at the upstream side of theprinting section 40 in the transport path. The fabric pressing and adheringsection 60 presses and adheres thefabric 1 onto thesupport face 23a, including the adherence layer, to prevent thefabric 1 from separating (floating) from thetransport belt 23. -
Fig. 2 is a block diagram illustrating the functions of theapparatus controller 80 and theimage processing device 90. - The
image processing device 90 includes animage control section 91, aninput section 92, adisplay section 93, astorage section 94, and any other component, and performs processes, such as transmitting/receiving of data to/from external electronic devices connected to theimage processing device 90 itself via networks or the like, job control of the printing performed by thefabric printing apparatus 100, and an image process in relation to the printing. Theimage processing device 90 is constituted using a personal computer as a suitable example. - Software in accordance with which the
image processing device 90 operates includes commonly-used image processing application software (hereinafter referred to as application) for dealing with image data on the basis of which printing is performed, and printer driver software (hereinafter referred to as a printer driver) for generating printing data needed for the execution of the printing by thefabric printing apparatus 100 based on the image data. - The
image control section 91 includes a CPU (Central Processing Unit) 95, an ASIC (Application Specific Integrated Circuit) 96, a DSP (Digital Signal Processor) 97, amemory 98, aninterface 99, and any other component. - The
input section 92 is an information inputting means serving as a human interface. Specifically, the input means 92 corresponds to components, such as a key board and ports to which information input devices are connected. - The
display section 93 is an information display means (a display) serving as a human interface, and allows information input from theinput section 92, an image to be printed, information in relation to the printing job, and any other information to be displayed on thedisplay section 93 itself on the basis of the control of theimage control section 91. - The
storage section 94 is a rewritable storage medium, such as a hard disk drive (HDD) or a memory card, and allows software in accordance with which theimage processing device 90 operates (i.e., programs operated in the image processing section 91), an image to be printed, information in relation to the printing job, and any other information to be stored in thestorage section 94 itself. - The
memory 98 is a storage medium for securing an area for storing therein programs in accordance with which theCPU 95 operates, a work area for use in the operation of theCPU 95, and any other area, and is constituted by storage elements, such as RAM and EEPROM. - The
device control section 80 includes aninterface 81, aCPU 82, amemory 83, a drivingcontrol section 84, and any other component, and performs overall control of individual driving portions of thefabric printing apparatus 100. Specifically, thedevice control section 80 performs control of the printing section 40 (ink discharge control on thehead 41 and head movement control on the head moving section 42), transport drive control on thefabric transporting section 20, and any other control. - At the time of the execution of printing, the
device control section 80 performs control so as to allow two successive operations to be repeated: one being an operation of discharging ink droplets from thehead 41 onto thefabric 1 having been supplied to the printing region by thefabric transporting section 20 in accordance with the printing data having been sent from theimage processing device 90 while moving the carriage supporting thehead 41 in a main-scanning direction (the X-axis direction) along the guide shaft; the other being an operation of causing the fabric transporting section 20 (the transport belt 23) to move thefabric 1 in the transport direction (the Y-axis direction) intersecting with the main-scanning direction. With the repetition of these two successive operations, a desired image is formed (printed) on thefabric 1. - The
interface 81 is connected to the image processing device 90 (the interface 99), and transmits/receives data to/from theimage processing device 90. - The
CPU 82 is an arithmetic processing device for performing driving control of the whole of thefabric printing device 100. - The
memory 83 is a storage medium for ensuring an area for storing therein programs in accordance with which theCPU 82 operates, a work area for use in the operation of theCPU 82, and any other area, and is constituted by storage elements, such as RAM and EEPROM. - The
CPU 82 controls thefabric supplying section 10, thefabric transporting section 20, thefabric collecting section 30, theprinting section 40, themaintenance section 50, and the fabric pressing and adheringsection 60 via the drivingcontrol section 84 in accordance with the programs stored in thememory 83 and the printing data having been received from theimage processing device 90. -
Fig. 3 is a diagram illustrating the fundamental functions of the printer driver. - The printing on the
fabric 1 is started at the time when the printer driver transmits printing data from theimage processing device 90 to theapparatus controller 80. The printing data is generated by the printer driver. - Hereinafter, processing for generating the printing data will be described referring to
Fig. 3 . - Upon receipt of image data from application, the printer driver converts the image data into printing data having a format interpretable by the
apparatus controller 80, and outputs the printing data to theapparatus controller 80. When converting the image data from the application into the printing data, the printer driver performs resolution conversion processing, color conversion processing, halftone processing, rasterization processing, command addition processing, and any other processing. - The resolution conversion processing is processing for converting the resolution of the image data having been output from the application into a resolution (printing resolution) for printing on the
fabric 1. For example, when the printing resolution is designated to be 720 x 720 dpi, the image data of a vector format having been received from the application is converted into image data of a bitmap format and a resolution of 720 x 720 dpi. Each piece of pixel data constituting the image data after the resolution conversion processing is constituted by pixels arranged in a matrix shape. Each of the pixels has a grayscale value among, for example, 256 grayscale values in an RGB color space. That is, each piece of pixel data after the resolution conversion processing indicates the grayscale values of a corresponding pixel. - Pieces of pixel data corresponding to a row of pixels arranged in a predetermined direction among the pixels arranged in the matrix shape are called raster data. Note that the predetermined direction in which the pixels corresponding to the raster data are arranged corresponds to the movement direction of the head 41 (i.e., the main-scanning direction) at the time of the execution of printing of an image.
- The color conversion processing is processing for converting RGB data into data in a CMYK color system space. The CMYK color corresponds to cyan (C), magenta (M), yellow (Y), and black (K), and the image data in the CMYK color system space is data corresponding to the colors of the inks provided in the
fabric printing apparatus 100. Thus, in the case where thefabric printing apparatus 100 uses ten kinds of inks in the CMYK color system, the printer driver generates image data corresponding to ten dimensional spaces in the CMYK color system on the basis of the RGB data. - The color conversion processing is performed on the basis of a table in which grayscale values of RGB data are associated with grayscale values of CMYK color system data (i.e., a color conversion lookup table LUT). Here, pixel data after having been subjected to the color conversion processing is CMYK color system data represented by the CMYK color system spaces and corresponding to, for example, 256 grayscale levels.
- The halftone processing is processing for converting data having high grayscale levels (256 grayscale levels) into data having grayscale levels formable by the
fabric printing apparatus 100. Through this halftone processing, each piece of data representing one of 256 grayscale levels is converted into, for example, a piece of one-bit data representing one of two grayscale levels (i.e., a dot presence and a dot absence), or a piece of two-bit data representing one of four grayscale levels (i.e., a dot absence, a small size dot, a middle size dot, and a large size dot). Specifically, based on a dot generation table in which each of grayscale values (0 to 255) is associated with one of dot generation ratios), dot generation ratios (for example, dot generation ratios each associated with a corresponding one of the dot absence, small size dot, middle size dot, and large size dot in the case of the four grayscale levels) are obtained, and using the obtained generation ratios, image data is generated so as to allow dots to be formed in a distributed state by means of a dither method, an error diffusion method, or the like. - The rasterization processing is processing for rearranging pixel data arranged in a matrix shape (for example, the one-bit data or the two-bit data, such as described above) in accordance with order in which dots are formed at the time of the execution of printing. The rasterization processing includes allocation processing for allocating image data constituted by the pixel data having been subjected to the halftone processing to individual pass operations through which ink droplets are discharged from the head 41 (the nozzle rows) being allowed to move and scan. Upon completion of the allocation processing, the pixel data arranged in a matrix shape is allocated to actual nozzles forming individual raster lines constituting an image to be printed.
- The command addition processing is processing for adding command data in accordance with a printing method to the data having been subjected to the rasterize processing. Examples of the command data include, but are not limited to, transport data in relation to a transport specification (for example, a movement amount, a speed, and the like in the transport direction) with respect to a printing medium (the fabric 1).
- These kinds of processing by the printer driver are performed by the
ASIC 96 and the DSP 97 (seeFig. 2 ) under the control of theCPU 95, and the generated printing data is transmitted to theapparatus controller 80 via theinterface 99 by printing data transmission processing. - In the
fabric printing apparatus 100 having the aforementioned fundamental configuration, a situation where, in the printing region, when thetransport belt 23 is displaced by a slight distance in the width direction of the fabric 1 (the X-axis direction) intersecting with the transport direction (the Y-axis direction), the position of thefabric 1 in the X-axis direction is displaced along with the displacement of thetransport belt 23, and the displacement of the position of thefabric 1 in the X-axis direction causes the discrepancies of the landing positions of the ink droplets discharged onto the fabric 1 (i.e., the positions of dots formed by the ink droplets), thereby causing the degradation of the quality of printing (the quality of an image) constituted by the plurality of dots has sometimes occurred. - Since the belt guides 29 guide the
transport belt 23 so as to come into contact with the width-direction edge portions of thetransport belt 23, the displacements of thetransport belt 23 in the width direction of the fabric 1 (the X-axis direction), intersecting with the transport direction (the Y-axis direction), are prevented from causing large meandering. In the case where, however, for example, there is a variation in (the length of) the width of thetransport belt 23 and/or in the case where there are concavo-convex portions that occur in the width-direction edge portions in accordance with the degree of treatment processing on thetransport belt 23, thetransport belt 23 may be slightly displaced along with the revolving of thetransport belt 23 due to the stress from the belt guides 29 with which thetransport belt 23 is in sliding contact. Further, in addition to the above factors, due to factors such as the eccentricity of each of thetransport rollers tension roller 22, thetransport belt 23, thebelt rotation roller 24, thebelt driving roller 25, and the like, and the variation in assembling accuracy, thetransport belt 23 may be slightly displaced. - Thus, the
fabric printing apparatus 100 according to the present embodiment is configured to preliminarily obtain and evaluate displacement characteristic data in relation to thefabric printing apparatus 100, that is, data indicating the amounts of displacements of thetransport belt 23 that occur in the direction intersecting with the transport direction of thetransport belt 23 along with the movements of thetransport belt 23 in the transport direction, and theapparatus controller 80 is configured to be capable of correcting ink-droplet imparting positions in the direction intersecting with the transport direction on the basis of the displacement characteristic data. - Hereinafter, this configuration will be specifically described.
- First, the displacement characteristic data and a method of obtaining it will be described. An adjustment method for the
fabric printing apparatus 100, according to the present embodiment of the invention, includes a step of obtaining the displacement characteristic data. - The displacement amounts, that is, the amounts of displacements of the
transport belt 23 in the direction intersecting with the transport direction, are obtained by printing a predetermined pattern on a printing medium (thefabric 1 or printing paper mounted (supported) on thetransport belt 23 and having been transported to the printing region, and analyzing the predetermined pattern having been printed thereon. -
Fig. 5 is a diagram illustrating an example of the predetermined pattern used for obtaining the displacement amounts. - The predetermined pattern is constituted by a landing pattern (a dot row K shown in
Fig. 5 ) formed by ink droplets discharged through a specific nozzle row provided in thehead 41. The specific nozzle row corresponds to any nozzle row among the nozzle rows constituted by the plurality ofnozzles 43, which are arranged along the transport direction (seeFig. 4 ), and corresponds to, for example, a nozzle row through which the black ink (K) is discharged. Here, the dot row K formed as the specific pattern and shown inFig. 5 is illustrated as a ruled line composed of dot rows. - First, the
transport belt 23 is caused to stop at the position of a starting point in a transport system, and then, thehead 41 is caused to stop at a predetermined position in the main-scanning direction (the X-axis direction) (this predetermined position being located at, for example, an approximately central position of the width of the transport belt 23) to allow a one-shot ink droplet to be discharged through each of thenozzles 43 in the nozzle row K so as to allow a dot row K1 to be formed. Next, the printing medium moved in the transport direction (the +Y direction) by a length D, that is, a length equal to that of the nozzle row, to allow one-shot ink droplets to be discharged again through all the nozzles in the nozzle row so as to allow a dot row K2 to be formed. Subsequently, the movement of the printing medium and the discharge of ink droplets are repeated in a similar manner, and as a result, the dot row K formed as the specific pattern and composed of dot rows K1 to Kn is printed. - Here, the position of the starting point in the transport system is a predetermined given position from which circumferential positions of the
transport belt 23 constituting thefabric transporting section 20, and rotation positions of the individual transport rollers are specified, and any repeatable position may be employed as the position of the starting point. Information in relation to the circumferential positions of thetransport belt 23 and the rotation positions of the individual transport rollers are obtained through components, such as encoders, provided at individual portions. - Next, the printing medium on which the predetermined pattern (the dot row K) has been printed is removed from the
fabric printing apparatus 100, and displacement amounts of the respective dot rows K1 to Kn in the main-scanning direction (the X-axis direction) are measured. A method of measuring the displacement amounts is not particularly limited, but, for example, the image of the predetermined pattern (the dot row K) is read in as image data using a CCD (Charge Coupled Device) image sensor or the like, and image processing is performed on the image data to obtain the displacement amounts. In the present embodiment, the predetermined pattern (the dot row K) is read into theimage processing device 90 as image data, and the displacement amounts can be obtained by allowing theimage control section 91 to perform image processing on the image data. That is, theimage processing device 90 includes the function as an "image processing section" configured to obtain the displacement characteristic data by recognizing the image of the predetermined pattern having been printed by theprinting section 40 for the purpose of the measurement of the displacement amounts, and performing image processing on the recognized image of the predetermined pattern. - Herein, in order to make it possible to measure the displacement amounts without removing the printing medium, on which the predetermined pattern (the dot row K) has been printed, from the
fabric printing apparatus 100, thefabric printing apparatus 100 may be configured to include an image obtaining section, such as a CCD image sensor. In this case, the image obtaining section is disposed at a position at which the image of the printed predetermined pattern (the dot row K) can be obtained, that is, at the downstream side of thehead 41 in the transport path for thefabric 1. Further, the image data having been obtained by the image obtaining section is preferably configured so as to be transmitted to theimage processing device 90. In this case, theimage processing device 90 exerts the function as the "image processing section" including the image obtaining section. - In this configuration, in order not to be affected by the displacements of the
transport belt 23 in the direction intersecting with the transport direction when the image of the predetermined pattern (the dot row K) is obtained, for example, a straight line serving as a reference line (i.e., a reference line extending in the transport direction) on a printing medium on which the predetermined pattern (the dot row K) is to be printed is preferably provided in advance. In this manner, the displacement amounts can be obtained as relative values relative to the reference line in the X-axis direction. - Examples of a method of obtaining the displacement amounts from the image data corresponding to the predetermined pattern (the dot row K) using image processing include a method of obtaining the positions of gravity points P (in other words, the centre) of the respective dot rows K1 to Kn (in
Fig. 5 , the gravity point of the dot row K3 being shown as P), and then obtaining the displacement amounts thereof in the X-axis direction. The displacement characteristic data is obtained as the values of the differences of the positions of the gravity points P (X values) of the respective dot rows Kn relative to a reference position, that is, the position of the gravity point P of the dot row K1 (an X value). -
Fig. 6 is a graph illustrating an example of plotted pieces of displacement characteristic data related to thetransport belt 23 and having been obtained from image data corresponding to the predetermined pattern (the dot row K) shown inFig. 5 . InFig. 5 , for example, the printed position of the dot row K2 is out of alignment in the +X-axis direction relative to a reference position, that is, the position of the dot row K1, and this means that the printing medium (the transport belt 23) is displaced in the -X-axis direction, and thus, the X-axis polarity represented by each of the plots of the graph shown inFig. 6 is reverse to the polarity of the X-axis direction discrepancy of a corresponding one of the dot rows shown inFig. 5 . - Note that the predetermined pattern is not limited to the aforementioned pattern. Any pattern that enables the displacement amounts of the
transport belt 23 in the direction intersecting with the transport direction to be obtained as the displacement characteristic data using positions in the transport system (the fabric transporting section 20) (for example, the positions being circumferential positions of the transport belt 23) may be employed. For example, a pattern obtained by forming a row of consecutive dots in a way that allows an ink droplet to be sequentially discharged at a constant interval through aspecific nozzle 43 having been moved at an approximately central position of the width of thetransport belt 23 while allowing thetransport belt 23 to revolve at a constant speed from the position of the starting point in the transport system may be employed. - In the case where displacements of the
transport belt 23 that occur in the direction intersecting with the transport direction along with the movement of thetransport belt 23 in the transport direction are due to concavo-convex portions in the width-direction edge portions of thetransport belt 23, the cycle of the displacement characteristic data corresponds to the cycle of the revolving of thetransport belt 23, but in the case where any other factor is involved, the cycle of the displacement characteristic data may be longer. -
Fig. 7 is a graph illustrating an example of two cycles of plotted pieces of displacement characteristic data having been obtained through a measurement. In the case where a plurality of main factors exist in the displacements of thetransport belt 23 in the direction intersecting with the transport direction, a cycle T of the displacement characteristic data becomes longer than the cycle of the revolving of thetransport belt 23. - In the case where displacement characteristic data is obtained as characteristics having periodicity, regardless of the factors of the displacements, the degradation of printing quality is minimized by correcting ink-droplet imparting positions in the direction intersecting with the transport direction in accordance with transport amounts from the position of the starting point in the transport system on the basis of the displacement characteristic data. Further, the degradation of the printing quality is minimized by adjusting the
fabric printing apparatus 100 on the basis of the size of the displacements of thetransport belt 23 in the direction intersecting with the transport direction (width direction) and the distribution of displacement positions. - Hereinafter, the adjustment method and the correction method will be specifically described.
- One of the contents of the adjustment of the
fabric printing apparatus 100 is the adjustment of ink-droplet landing positions in the main-scanning direction (the X-axis direction). This adjustment involves the correction of ink-droplet landing-position discrepancies that occur along with the scanning movement of thehead 41. In this adjustment, first, ink-droplet landing positions in an outward path of the scanning movement are determined as target points, and next, ink-droplet landing positions in a return path of the scanning movement are adjusted so as to correspond to the respective ink-droplet landing positions in the outward path (that is, the correction of position discrepancies is made). - The target points are points for determining the position of a printing region in the main-scanning direction (the X-axis direction), and with this determination of the target points, with respect to the aforementioned pieces of image data corresponding to a printed image and arranged in a matrix shape, their X-axis positions relative to the
fabric 1 are determined. That is, in the case where, in order to correct the discrepancies between the ink-droplet landing positions in an outward path of the scanning movement and the ink-droplet landing positions in a return path of the scanning movement, the ink-droplet landing positions in the return path are caused to move in the X-axis direction, as a result, the position of a corresponding printing region is also shifted by the amount of the movement in the X-axis direction. - The adjustment method for the
fabric printing apparatus 100, according to the present embodiment, includes a step of determining circumferential positions of thetransport belt 23 at which the adjustment of thefabric printing apparatus 100 is performed. Specifically, circumferential positions of thetransport belt 23 at each of which the aforementioned target points are determined is determined on the basis of the displacement characteristic data. More specifically, the central value of the width within which thetransport belt 23 is displaced in the direction intersecting with the transport direction is obtained on the basis of the displacement characteristic data, and circumferential positions of thetransport belt 23 at each of which thetransport belt 23 is located at the central value are determined as the circumferential positions of thetransport belt 23 at each of which the target points are determined. For example, in an example shown inFig. 7 , as circumferential positions of thetransport belt 23 within the cycle T, positions y1, y2, and y3 are circumferential positions of thetransport belt 23 at which thetransport belt 23 is located at a central value (x3) of a width (x1 to x2) within which thetransport belt 23 is displaced in the direction intersecting with the transport direction, and thus, at any one of these points, the adjustment of the fabric printing apparatus 100 (i.e., the determination of the target points and the correction of the ink-droplet landing position discrepancies) is performed. In other words, the center of the image in the width direction is aligned with the center of the belt at these circumferential positions. In addition to adjusting thefabric printing apparatus 100 in this way when thetransport belt 23 is located at the central value, the ink-droplet landing positions at subsequent circumferential positions may be corrected relative to the landing positions at circumferential positions of thetransport belt 23 at which thetransport belt 23 is located at a central value. - In the case where the periodicity is recognized in the displacement characteristic data, that is, in the case where displacement amounts of the
transport belt 23 in the direction intersecting with the transport direction can be repeated using the positions in the transport system (the fabric transporting section 20), the positions y1, y2, and y3 can be simply and easily obtained as positions at each of which the central value x3 is given, by referring to the displacement characteristic data. - Further, in the case where the displacement characteristic data is obtained as, for example, a function f (m, n, l), these m, n, and l being factors, a method that allows the central value x3 to be obtained from a minimum value x1 and a maximum value x2, and allows a position in the transport system (the fabric transporting section 20) to be derived as a position at which the factors m, n, and l give the central value x3 may be employed.
- In the present embodiment, the displacement characteristic data having been obtained in the
image processing device 90 is stored in thememory 83 included in theapparatus controller 80. Theapparatus controller 80 determines a reference position for the printing in the direction intersecting with the transport direction on the basis of the displacement characteristic data having been stored in thememory 83. Specifically, first, theapparatus controller 80 derives a position used for determining the target points and included in the transport system (the fabric transporting section 20) (the position being, for example, a circumferential position of the transport belt 23) on the basis of the displacement characteristic data, and drives the transport system (the fabric transporting section 20) to allow relative movement of thehead 41 to the derived position. Next, theapparatus controller 80 derives target points (ink-droplet landing positions in the outward path of the scanning movement) on the basis of the displacement characteristic data, and drives thehead moving section 41 to allow thehead 41 to move to the target points. - The
fabric printing apparatus 100 can perform the adjustment of the ink-droplet landing positions in the return path of the scanning movement (i.e., the correction of position discrepancies) so as to allow the ink-droplet landing positions in the return path to correspond to the target points. - As described above, the target points are points for determining a printing region in the main-scanning direction (the X-axis direction), and the determination of the target points is, namely, equivalent to the determination of the reference position for the printing in the direction intersecting with the transport direction.
- Further, the target points are points for determining a printing region in the main-scanning direction (the X-axis direction), and thus, the determination of the target points based on the displacement characteristic data is, in other words, equivalent to the correction of the ink-droplet imparting positions in the direction intersecting with the transport direction. Correction of Ink Discharging Positions
- In the present embodiment, in the case where the displacement characteristic data is obtained as characteristic data having periodicity, that is, in the case where the displacement characteristic data includes at least one cycle of data in which the displacement values vary, based on displacement values each associated with and obtained at a corresponding one of circumferential positions of the
transport belt 23 within one cycle, theapparatus controller 80 corrects ink-droplet imparting position in the direction intersecting with the transport direction at each of the circumferential positions. - Specifically, when one straight line extending in the transport direction (the Y-axis direction) is attempted to be printed without correction from a reference position in such a way that, for example, only a nozzle row through which the black ink is discharged is used, and the printing is performed through n passes at intervals of a pitch D, that is, a feed pitch in the transport direction (the Y-axis direction), in the case where the
transport belt 23 is displaced in accordance with the displacement characteristic data shown inFig. 6 , the straight line to be printed results in discontinuous straight lines shown inFig. 5 . Since the displacement amount corresponding to each of circumferential positions of thetransport belt 23 is already known from the displacement characteristic data, theapparatus controller 80 can allow the discontinuous straight lines to be printed as straight lines more similar to one straight line by correction-controlling the timing of the discharge of ink droplets so as to allow the timing to be associated with the position of each of the passes (that is, each of the circumferential positions of the transport belt 23). - More specifically, the
apparatus controller 80 includes a data table in which each of ink-droplet discharge timing correction values is associated with a corresponding one of correction values in the X-axis direction. Allowing the driving control section 84 (seeFig. 2 ) to correct the timing of driving thehead 41 at each pass by a correction value associated with each pass enables the position of a straight line to be printed to be corrected to an appropriated position. - Note that the correction value of the timing of the discharge of ink droplets can be simply and easily calculated from the movement speed of the carriage, and thus, a real-time correction that allows the movement speed of the carriage to be constantly detected and allows the ink discharge to be performed at timing at which an integrated value of the movement speed of the carriage coincides with a target correction value in the X-axis direction may be made.
- As described above, according to the printing apparatus and the adjustment method for the printing apparatus, according to the present embodiment, the following advantageous effects are brought about.
- The
apparatus controller 80 corrects ink-droplet imparting positions in the direction intersecting with the transport direction on the basis of the displacement characteristic data indicating the displacement amounts of thetransport belt 23 that arise in the direction intersecting with the transport direction along with the movements of thetransport belt 23 in the transport direction. That is, the positions of the ink droplets imparted onto thefabric 1 which is transported by thetransport belt 23 and whose position is displaced along with the displacements of thetransport belt 23 are corrected on the basis of the displacement characteristic data indicating the displacement amounts of thetransport belt 23 that arise in the direction intersecting with the transport direction along with the movements of thetransport belt 23 in the transport direction. As a result, the correction relative to the displacements of thetransport belt 23 in the direction intersecting with the transport direction is made with high accuracy, and the degradation of printing quality that occurs along with the displacements is further effectively reduced. - Further, the
apparatus controller 80 determines a reference position for the printing in the direction intersecting with the transport direction on the basis of the displacement characteristic data indicating the displacement amounts of thetransport belt 23 that arise in the direction intersecting with the transport direction along with the movements of thetransport belt 23 in the transport direction. As a result, printing on thefabric 1 which is transported by thetransport belt 23 and whose position is displaced along with the displacements of thetransport belt 23 is performed at further appropriated positions. - Further, in the case where the displacement characteristic data indicating the displacement amounts of the
transport belt 23 that arise in the direction intersecting with the transport direction along with the movements of thetransport belt 23 in the transport direction is obtained as characteristic data having periodicity, that is, in the case where the displacement characteristic data includes at least one cycle of data in which the displacement amounts vary, based on displacement values each associated with and obtained at a corresponding one of circumferential positions of thetransport belt 23 within the one cycle, theapparatus controller 80 corrects ink-droplet imparting positions in the direction intersecting with the transport direction at each of the circumferential positions. That is, the ink-droplet imparting positions on thefabric 1 which is transported by thetransport belt 23 and whose position is displaced along with the displacements of thetransport belt 23 are corrected on the basis of the displacement characteristic data, that is, data indicating displacement values each associated with a corresponding one of movement positions of thetransport belt 23 in the transport direction. As a result, the correction with the displacements of thetransport belt 23 in the direction intersecting with the transport direction is made with higher accuracy, and the degradation of printing quality is minimized. - Further, the
fabric printing apparatus 100 is configured to, in order to measure the displacement values of thetransport belt 23 that arise in the direction intersecting with the transport direction along with the movements of thetransport belt 23 in the transport direction, include theimage processing device 90 serving as an image processing section that obtains the displacement characteristic data by recognizing the image of the predetermined pattern having been printed by theprinting section 40, and performing image processing on the recognized image of the predetermined pattern. Thus, for example, a user of thefabric printing apparatus 100 is able to update the displacement characteristic data so as to allow the displacement characteristic data to reflect the latest condition of thefabric printing apparatus 100. As a result, the correction with the displacements of thetransport belt 23 in the direction intersecting with the transport direction is made with high accuracy, and the degradation of printing quality is minimized. - Further, the adjustment method for the
fabric printing apparatus 100, according to the present embodiment, includes a step of obtaining displacement characteristic data indicating displacement values of thetransport belt 23 that arise in the direction intersecting with the transport direction along with the movements of thetransport belt 23 in the transport direction, and a step of determining circumferential positions of thetransport belt 23 at which the adjustment of thefabric printing apparatus 100 is performed on the basis of the obtained displacement characteristic data. Moreover, at each of the circumferential positions having been determined in the above step, the adjustment of ink-droplet imparting positions in the direction intersecting with the transport direction is performed. That is, the adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction is performed at each of the circumferential positions having been determined on the basis of the displacement characteristic data indicating the displacement values of thetransport belt 23 that arise along with the movements of thetransport belt 23 in the transport direction. This configuration, therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of thetransport belt 23 in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately. - The adjustment of the ink-droplet imparting positions in the direction intersecting with the transport direction can be performed at circumferential positions of the
transport belt 23 at each of which thetransport belt 23 is located at the central value of the width within which thetransport belt 23 is displaced in the direction intersecting with the transport direction. This configuration, therefore, enables the adjustment of the ink-droplet imparting positions to be performed at positions where the displacements of thetransport belt 23 in the direction intersecting with the transport direction are further stable, and as a result, this configuration enables the adjustment to be performed further appropriately. - It should be noted that the invention is not limited to the aforementioned embodiment, and various modifications, improvements, and the like can be performed on the aforementioned embodiment. Some modification examples will be described below. Here, the same constitutional elements as constitutional elements of the aforementioned embodiment will be denoted by the same reference signs as those of the constitutional elements of the aforementioned embodiment, and will be omitted from duplicated description.
- In the aforementioned embodiment, a method has been described that determines circumferential positions of the
transport belt 23 at which thetransport belt 23 is located at the central value of the width within which thetransport belt 23 is displaced in the direction intersecting with the transport direction to establish the target points in the adjustment of thefabric printing apparatus 100. However, the invention is not limited to this method. - A method of obtaining the most frequent position at which the
transport belt 23 is most frequently located in the direction intersecting with the transport direction, and determining a circumferential position of thetransport belt 23 at which thetransport belt 23 is located at the most frequent position or positions, as a circumferential position of thetransport belt 23 at which the adjustment of thefabric printing apparatus 100 is performed may be employed. According to this method, the adjustment of an ink-droplet imparting position in the direction intersecting with the transport direction is performed at the most frequent position at which thetransport belt 23 is most frequently located in the direction intersecting with the transport direction, and thus, an effective adjustment that allows the ratio of a contribution of a period of time during which the adjustment result is reflected to be higher is achieved. A position to the side or the edge could also be used instead of or as well as the central position. Modification Example 2 - In the aforementioned embodiment, an example in which, in order to measure the displacement values of the
transport belt 23 that arise in the direction intersecting with the transport direction along with the movements of thetransport belt 23 in the transport direction, theimage processing device 90 includes the function of an "image processing section" configured to obtain the displacement characteristic data by recognizing the image of the predetermined pattern having been printed by theprinting section 40, and performing image processing on the recognized image of the predetermined pattern has been described, but thefabric printing apparatus 100 need not include the "image processing section". - For example, a configuration that allows a manufacturer that manufactures the
fabric printing apparatuses 100 to obtain, for each of thefabric printing apparatuses 100, displacement characteristic data in relation to thetransport belt 23, and allows the manufacture to provide a user with thefabric printing apparatus 100 including the displacement characteristic data stored in thememory 83 or thestorage section 94 may be employed. At the stage of a user's usage, the same adjustment and correction as those in the aforementioned embodiment can be performed by allowing theapparatus controller 80 to obtain the displacement characteristic data stored in thememory 83 or thestorage section 94. - Alternatively, a method that allows the displacement characteristic data to be generated using a means other than the
image processing device 90 by, at the execution of maintenance of thefabric printing apparatus 100, printing the predetermined pattern used for obtaining the displacement characteristic data and having been described in the aforementioned embodiment, and analyzing the result of the printing may be employed.
Claims (7)
- A printing apparatus (100) comprising:a transport belt (23) configured to transport a printing medium (1) in a transport direction (Y);a printing section (40) configured to perform printing by imparting ink droplets onto the printing medium having been transported; anda control section (80) configured to control positions for imparting the ink droplets,wherein, based on displacement characteristic data indicating displacement amounts of the transport belt that arise in a direction intersecting with the transport direction along with movements of the transport belt in the transport direction, the control section is configured to correct the positions for imparting the ink droplets, in the direction intersecting with the transport direction.
- The printing apparatus according to Claim 1, wherein the control section is configured to determine a reference position for the printing in the direction intersecting with the transport direction based on the displacement characteristic data.
- The printing apparatus according to Claim 1 or Claim 2,
wherein the displacement characteristic data includes at least one cycle (T) of data in which the displacement values vary, and
wherein, based on at least one displacement amount which is among the displacement amounts and which is associated with and obtained at a corresponding one of at least one circumferential position of the transport belt within the one cycle, the control section is configured to correct positions for imparting the ink droplets, in the direction intersecting with the transport direction at each of the at least one circumferential position. - The printing apparatus according to any one of the preceding claims, further comprising, in order to measure the displacement values, an image processing section (90) configured to obtain the displacement characteristic data by recognizing an image of a predetermined pattern having been printed by the printing section, and performing image processing on the recognized image of the predetermined pattern.
- An adjustment method for a printing apparatus (100) including a transport belt (23) configured to transport a printing medium (1) in a transport direction (Y), and a printing section (40) configured to perform printing by imparting ink droplets onto the printing medium having been transported, the adjustment method comprising:obtaining displacement characteristic data indicating displacement amounts of the transport belt that arise in a direction intersecting with the transport direction along with movements of the transport belt in the transport direction; anddetermining, based on the displacement characteristic data, at least one circumferential position of the transport belt at which an adjustment of the printing apparatus is performed,wherein an adjustment of positions for imparting the ink droplets, in the direction intersecting with the transport direction, is performed at each of said least one circumferential position having been determined.
- The adjustment method according to Claim 5, wherein, based on the displacement characteristic data, a central value of a width within which the transport belt is displaced in the direction intersecting with the transport direction is obtained, and at least one circumferential position of the transport belt at which the transport belt is located at the central value is determined as said at least one circumferential position of the transport belt at which the adjustment of the printing apparatus is performed.
- The adjustment method according to Claim 5 or Claim 6, wherein, based on the displacement characteristic data, a most frequent position at which the transport belt is most frequently located in the direction intersecting with the transport direction is obtained, and a circumferential position of the transport belt at which the transport belt is located at the most frequent position is determined as a circumferential position of the transport belt at which the adjustment of the printing apparatus is performed.
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JP2016214917A JP6836134B2 (en) | 2016-11-02 | 2016-11-02 | Printing device and adjustment method of printing device |
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CN111936707A (en) | 2018-03-30 | 2020-11-13 | 住友建机株式会社 | Excavator |
JP7163730B2 (en) * | 2018-11-12 | 2022-11-01 | コニカミノルタ株式会社 | Deformation correction device, recording medium conveying device and inkjet image forming device |
JP7272048B2 (en) * | 2019-03-27 | 2023-05-12 | 京セラドキュメントソリューションズ株式会社 | image forming device |
JP7413705B2 (en) * | 2019-10-08 | 2024-01-16 | セイコーエプソン株式会社 | Printing device, printing device control method, and control program |
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JP6836134B2 (en) | 2021-02-24 |
EP3318411B1 (en) | 2020-09-02 |
CN108016149A (en) | 2018-05-11 |
JP2018069663A (en) | 2018-05-10 |
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