Abstract:
A printing device which, when printing a single or a plurality of elements of continuous printing data respectively using a first and a second printer, forms marks indicating a page of a printing medium or respective ones of a plurality of elements of printing data, lets a reading sensor in the second printer read the marks, allows the printing surfaces of the printing medium on which to print by the first and second printers to be collated with each other, and then prints printing data on the printing medium by means of the second printer, and which comprises an information retaining unit (30) for retaining in advance information correlating the size of a printing medium or respective sizes of a plurality of elements of information with the positions of marks, and a mark position setting unit (31) for setting mark positions movable according to the size of the printing medium or the respective sizes of a plurality of elements of printing data based on information retained in the information retaining unit (30).
Abstract:
PROBLEM TO BE SOLVED: To easily position an information formation position on the top surface of a form and an image formation position on the reverse surface of the form and to easily match page formation positions on the top and reverse surfaces of the form. SOLUTION: An image forming apparatus comprises an image forming means 70 for forming a reference image for positioning set for a top/reverse common reference position of a reference chart 10 on the top and reverse surfaces of the reference chart 10, an image read means 11 for reading the reference image in an image readable area while the parts of the top and reverse surfaces of the reference chart 10 are divided into a plurality of parts or the form is folded, and a control means 15 for performing image formation control to dispose the image formation position on the top surface of the reference chart 10 and the image formation position on the reverse surface according to read information of the reference image. Image formation position on the top and reverse surfaces of a form larger than the image readable area of the image reading means 11 read while the form is divided into a plurality or folded are corrected. COPYRIGHT: (C)2006,JPO&NCIPI
Abstract:
The present invention relates to a method for changing a calibration of a recording apparatus (10) to adjust for geometric distortion comprising: providing a media support (12) for receiving recording media (17); operating a recording head (16) comprising a plurality of individually addressable recording channels (23) to form at least one image feature on the recording media while the recording media is positioned with a first orientation (50A) on the media support; positioning the recording media with a second orientation (50B) on the media support, wherein the second orientation is different from the first orientation; detecting distortion in the at least one image feature while the recording media is positioned with the second orientation on the media support; and adjusting activation timing of a portion of the recording channels in accordance with the detected distortion.
Abstract:
The present invention relates to a method for changing a calibration of a recording apparatus (10) to adjust for geometric distortion, comprising: providing a media support (12) for receiving recording media (17); providing a carriage (18) adapted for moving along a path; providing a recording head (16) on the carriage; operating the recording head to form a pattern of image features on the recording media while the recording media is positioned with a first orientation (50A) on the media support; positioning the recording media with a second orientation (50B) on the media support, wherein the second orientation is different from the first orientation; detecting distortion in the pattern of image features while the recording media is positioned with the second orientation on the media support; and adjusting movement of the carriage in accordance with the detected distortion.
Abstract:
The present invention relates to a method for changing a calibration of a recording apparatus (10) to adjust for geometric distortion comprising: providing a media support (12) for receiving recording media (17); operating a recording head (16) comprising a plurality of individually addressable recording channels (23) to form at least one image feature on the recording media while the recording media is positioned with a first orientation (50A) on the media support; positioning the recording media with a second orientation (50B) on the media support, wherein the second orientation is different from the first orientation; detecting distortion in the at least one image feature while the recording media is positioned with the second orientation on the media support; and adjusting activation timing of a portion of the recording channels in accordance with the detected distortion.
Abstract:
The present invention relates to a method for changing a calibration of a recording apparatus (10) to adjust for geometric distortion, comprising: providing a media support (12) for receiving recording media (17); providing a carriage (18) adapted for moving along a path; providing a recording head (16) on the carriage; operating the recording head to form a pattern of image features on the recording media while the recording media is positioned with a first orientation (50A) on the media support; positioning the recording media with a second orientation (50B) on the media support, wherein the second orientation is different from the first orientation; detecting distortion in the pattern of image features while the recording media is positioned with the second orientation on the media support; and adjusting movement of the carriage in accordance with the detected distortion.
Abstract:
An image forming apparatus includes a plurality of image forming stations each having an image carrier and forming an image on the image carrier; a mark detecting unit for detecting a plurality of registration correction marks formed on a recording medium by the plurality of image forming stations; a correction mechanism for correcting a position difference between images formed by the plurality of image forming stations in accordance with a detection result by the mark detecting unit; and a controller for independently controlling an image forming operation of each of the plurality of the image forming stations so that the image density of each of the registration correction marks formed by the plurality of image forming units has a different predetermined image density.
Abstract:
An image forming apparatus includes a plurality of image forming stations each having an image carrier and forming an image on the image carrier; a mark detecting unit for detecting a plurality of registration correction marks formed on a recording medium by the plurality of image forming stations; a correction mechanism for correcting a position difference between images formed by the plurality of image forming stations in accordance with a detection result by the mark detecting unit; and a controller for independently controlling an image forming operation of each of the plurality of the image forming stations so that the image density of each of the registration correction marks formed by the plurality of image forming units has a different predetermined image density.
Abstract:
A circuit for detecting a phase error between a clock signal and a beam position includes a beam generator, a sensor, and a phase detector. The beam generator directs a beam toward a beam sweeper in response to the clock signal, and the sensor detects the beam as directed from the beam sweeper. The phase detector determines from the detected beam the error in the clock phase relative to the beam position. Such a circuit can automatically detect the phase error in the pixel clock and correct this error, thus eliminating the need for a manual phase-error corrector. The circuit may also be able to adjust the width and/or the height of a scan region, and thus may also be able to adjust the width and/or height of an image frame within the scan region.
Abstract:
A circuit for detecting a phase error between a clock signal and a beam position includes a beam generator, a sensor, and a phase detector. The beam generator directs a beam toward a beam sweeper in response to the clock signal, and the sensor detects the beam as directed from the beam sweeper. The phase detector determines from the detected beam the error in the clock phase relative to the beam position. Such a circuit can automatically detect the phase error in the pixel clock and correct this error, thus eliminating the need for a manual phase-error corrector. The circuit may also be able to adjust the width and/or the height of a scan region, and thus may also be able to adjust the width and/or height of an image frame within the scan region.