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1. Field of the Invention
The present invention relates generally to printing systems and more particularly to high-speed printing systems that use a sense mark on a substrate to control the printing of images or data on the substrate.
2. Description of the Background of the Invention
High-speed printing systems typically print on a paper web by moving the paper web along a paper path using rollers or drums past printheads. A controller controls the printheads to print images on the paper web as the paper web moves under and/or over the printheads. In printing systems that include multiple imaging units, each imaging unit may include a plurality of printheads and each imaging unit may print a different color on the paper web. A first imaging unit prints a first color used for an image and a subsequent imaging unit prints a second color overlaid on the same image and so on with additional imaging units and colors. In order to align the printed images, it is important to track the position of the printed images with respect to the printheads included in each imaging unit.
In high-speed printing systems, the speed at which the paper web is moving along the paper path can be on the order of hundreds of feet/meters per second. In addition, the paper web dimensions may change due to moisture and other forces exerted on the paper web. These and other factors make it difficult to accurately track the position of the paper web and provide accurate control of the printheads.
Prior print systems and methods have included the printing of a sense mark on the substrate that indicates a top of the page. A sensor detects the sense mark and a controller tracks the position of the sense mark with respect to the printheads on each imaging unit. The controller instructs the printheads to print on the paper web in accordance with the detection of the sense mark. Prior print systems use a first printhead on a first imaging unit to print the sense mark on the paper web. Consequently, the sense mark is located along a side margin of the paper web, where subsequent images are not printed. This arrangement requires a larger paper web width to produce a printed image of a particular size because of the unused margin where the sense mark is printed. Further, these prior systems have not adequately addressed the issue of accurately detecting the sense mark and tracking the paper web.
Other prior art systems and methods track a lateral registration mark or a side edge of a substrate such as a paper web to detect problems such as shrinkage, expansion, drift, and/or skew of the paper web in a multi-color printing process. Such prior systems and methods use complex registration marks and algorithms to correct for such problems as shrinkage and expansion and do not adequately prevent or minimize such problems before they occur.
In one embodiment, a printing system includes a first imaging unit configured to print a first image and a single registration mark associated with the first image on a substrate contemporaneously during a production run, and a sensor configured to detect the registration mark at a point where the registration mark is within a second imaging unit. The printing system further includes a controller configured to calculate an offset along a width direction of the substrate based on the single registration mark and to instruct the second imaging unit to print the second image on the substrate. The second image is shifted in its entirety in accordance with the calculated offset and is printed on the same side of the substrate as the first image.
In another embodiment, a printing system includes means for instructing a first imaging unit to print a first image and a single registration mark associated with the first image on a substrate contemporaneously during a production run and means for detecting the registration mark at a point where the registration mark is within a second imaging unit. The printing system further includes means for calculating an offset along a width direction of the substrate based on the detected single registration mark; means for determining a position on the substrate where a second image is to be printed in accordance with the calculated offset, wherein the second image is shifted in its entirety and printed on the same side of the substrate as the first image; and means for instructing the second imaging unit to print the second image on the substrate in accordance with the determined position.
Other aspects and advantages of the present invention will become apparent upon consideration of the following detailed description.
Generally, the imaging units 12, 14 contain four printhead assemblies, two on each side of the imaging unit, wherein each printhead assembly includes a plurality of printheads. The printhead assemblies 30 are positioned to guarantee that the direction of travel of a drop of ink from each printhead is substantially perpendicular to the surface of the associated drum 34 (and hence the paper web 18).
In the embodiment of
The printing system in other embodiments includes a series of modular units that can be utilized as needed for the printing task to be undertaken. In other words, each imaging unit may include only two printhead assemblies (one on the left half of the imaging unit and another on the right half of the unit) and the same or different inks may be fed to each printhead assembly so that each assembly can print one side of a 12-inch (30.48 cm) page. As noted above, each imaging unit may further include two additional printhead assemblies. The additional assemblies are positioned to overprint the color(s) deposited by the first two printhead assemblies. In this configuration, each imaging unit can simultaneously print two simplex 12 inch (30.48 cm) pages in two different colors. Two such imaging units operating in series can produce two simplex 12 inch (30.48 cm) four-color pages and four imaging units can produce two duplex 12 inch (30.48 cm) four-color pages. In addition, as noted above, depending upon the number of imaging units that are used, one could alternatively produce 24-inch (60.96 cm) simplex or duplex pages in one to four colors.
As seen in
In
In
The sense mark printer 52 is located upstream from the imaging unit 54 to print a sense mark 64 (
The sense mark printer 52 prints a plurality of sense marks 64 on the paper web 18, wherein consecutive sense marks are separated by a predetermined distance depending on the size of the finished page. Any type of ink may be used to print the sense mark; however, generally an ink is chosen that is both relatively inexpensive and easily detected by the sensor 66. In addition, the separate printer 52 uses an inexpensive printhead to print the sense mark 64 on the paper web 18. The embodiment of
The sensor 66 associated with the imaging unit 54 detects the sense mark 64, and a sensor 68 associated with the drum 58 is used to track the speed and/or the position of the drum (and thus the paper web 18) as the drum rotates. In one embodiment, the sensor 68 associated with the drum 58 is a transducer located on the drum itself. In another embodiment, the sensor 66 that detects the sense mark 64 is a conventional optical sensor. For example, the optical sensor may include a light emitting diode (“LED”), a photodiode, and an amplifier, wherein the LED reflects light off of the substrate and the reflected light is detected by the photodiode to generate a sense signal when the light is reflected off of the sense mark. The sense signal is amplified and supplied to a control circuit 70, which controls the printheads in each printhead assembly 60a, 60b to print images onto the paper web 18.
In other embodiments, the sense mark printer 52 prints a plurality of sense marks 64 on the paper web using infrared inks that absorb infrared light or invisible inks that reflect ultraviolet light. In these embodiments, the sensor 66 will be adapted to detect the infrared or invisible inks.
The size of the sensor 66 and the size of the sense mark 64 can be adjusted so that the sensor can easily detect the sense mark. For example, the length and/or the width of the sense mark 64 can be matched to the dimensions of the sensor 66. In one embodiment, the sense mark 64 is about ⅛ of an inch (0.3175 cm) in the direction that the paper web 18 is traveling and ¼ to ⅜ of an inch (0.635-0.9525 cm) across the width of the paper web.
In
The controller 70 associated with each printhead assembly 60a, 60b controls the printheads thereof so that the color components of the images are printed substantially in synchronism with the sense marks 64 and the registration or alignment of the color components of the images is accurately controlled. That is, the controller 70 receives a signal from the sensor 66 that the sense mark 64 has been detected and uses the speed and/or position of the drum 58, and hence the speed and/or position of the paper web 18, to control the respective printheads to print a raster line at a particular position of the paper web. The controller 68 then distributes segments of a raster line among the printheads in accordance with the position of each inkjet printhead. Each printhead has local circuitry (not shown) to translate the digital raster line data into analog signals that generate drops of ink deposited onto the paper web 18.
In another embodiment, the controller 70 electronically compensates for inherent delays in the sensor 66 and other electrical components. The controller 70 builds in an electronic delay before sending instructions to the printheads to print raster lines on the paper web 18. The electronic delay will vary depending on the speed of the paper web 18. For example, at full speed a shorter delay may be built in than at a slower speed. Consequently, the controller 70 instructs the printheads to begin printing on the paper web 18 at consistent distances from the sense mark 64.
The controller 70 stores and tracks the positions of a plurality of consecutive sense marks 64 to control the printing of each page moving past the printhead assemblies 60a, 60b. In one example, consecutive sense marks are separated by a short distance and the finished page size is small so that multiple pages are being printed by a single printhead assembly at the same time. The paper web 18 contacts the drum and the sensor 66 detects a first sense mark 64. The sensor 66 sends a detect signal to the controller 70, which stores the timing of the detect signal and tracks the position of the sense mark. At the appropriate time, the controller 70 instructs the printheads of the left printhead assembly 60a to begin printing the first page. While the first page is being printed, the drum 58 continues to rotate and the sensor 66 detects and the controller 70 tracks a second sense mark 64. The controller 70 instructs the printheads to begin printing the second page as the first page is being printed by the same left printhead assembly 60a. The drum 66 continues to drive the paper web 18 and consecutive sense marks are detected and tracked to control the printing of each page. After the left printhead assembly 60a has printed an image on the first page, the controller 70 continues to track the position of the first sense mark so that the right printhead assembly 60b can be controlled to print an image that is aligned with the image printed by the first printhead assembly. Likewise, the positions of consecutive sense marks are tracked to control the alignment of images printed by the left and right printhead assemblies 60a, 60b. Consequently, printed images can be aligned with the sense marks and with other images.
Referring to
In the duplex printing system of
A further embodiment of a duplex printing system is similar to the previously described embodiments and includes the sense mark printer 52 upstream from first and second imaging units, wherein the sense mark printer only prints a sense mark on the front side of the paper web 18. The first imaging unit detects the sense mark as described above. The second imaging unit is similar to
The previously described embodiments have included a separate printer to print a sense mark on a paper web and a sensor that detects the mark, wherein the detection of the mark is used to control printheads that print images on the paper web. It will be apparent to one of skill in the art upon reading this document that other systems and methods of using a sense mark to control printing on a substrate are contemplated and fall within the scope of the disclosure.
The imaging system 150 also includes a sense mark printer 156 that prints a sense mark 158 (shown in
In the present embodiment, the controller 168 instructs the left printhead array 60a of the first imaging unit 152 to print alignment or registration indicia on the paper web 18. Referring to
As discussed above, the sense marks 158 are printed before the first and second imaging units 152, 154 print images on the paper web 18 and the sense marks 158 are used to register images printed by the first and second imaging units 152, 154 along the length of the paper web 18 in the direction of travel 178. In the present embodiment, the registration marks 172 are used to register images printed by the printhead arrays 60 of the first and second imaging units 152, 154 along a lateral direction, e.g., along the width of the paper web 18. Referring to
When the paper web 18 separates from the drum 58 of the first imaging unit 152, the stable surface interface between the paper web and the drum no longer prevents or counteracts the deformation of the paper web due to the moisture from the ink applied thereto. In addition, during the delivery of the paper web 18 to the second imaging unit 154, the lateral position of the paper web may shift or drift. Consequently, the position of the paper web 18 relative to the printhead arrays 60 of the second imaging unit 154 may be different than the position of the paper web 18 relative to the printhead arrays 60 of the first imaging unit 152 when the first imaging unit was printing images 182 on the paper web. Such differences must be corrected to ensure that the images 182 printed by the second imaging unit 154 are in registration with the images printed by the first imaging unit 152.
The printing system 150 of the present embodiment utilizes the registration marks 172 to correct for deformation and lateral shifts of the paper web 18 at the second imaging unit 154. Specifically, the paper web 18 is delivered to the second imaging unit 154 and driven past the printhead arrays 60 by the rotation of the drum 58. The second imaging unit 154 includes a registration mark sensor 186 that is configured to detect the registration marks 172 at a point where the paper web 18 is in contact with the drum 58. This configuration of the registration mark sensor 186 provides a reliable position detection of the registration marks 172, because the paper web 18 is in a fixed position relative to the surface of the drum 58, and hence the printhead arrays 60, as the paper web is in contact with the drum. In addition, the registration mark sensor 186 is positioned along an axis of rotation of the drum 58 at an expected position of the registration marks 172, e.g., at a position of the printhead that printed the registration mark. In one embodiment, the registration mark sensor 186 is a camera such as a CCD or CMOS image sensor. In yet another embodiment, the second imaging unit 154 includes a single sensor, such as the sensor 162 that is adapted to detect both the sense mark 158 and the position of the registration mark 172.
As the paper web 18 is driven past the printhead arrays 60 of the second imaging unit 154 by the drum 58, the registration mark sensor 186 detects the position of each registration mark 172 relative to the second imaging unit 154 and sends such positional data to the controller 170. The controller 170 compares the positional data from the second imaging unit 154 with a reference or expected position of the registration mark 172 and detects any differences in the relative positions of the registration mark 172. The expected position of the registration mark 172 corresponds to the positional data from the first imaging unit 152. Any difference between the detected position of the registration mark 172 and the expected position of the registration mark represent a shift in the paper web 18 with respect to the left and right printhead arrays 60a, 60b of the second imaging unit 154. The controller 170 corrects for any difference by instructing the printhead arrays 60 of the second imaging unit 154 to shift the image 182 accordingly. For example, if a registration mark 172 has shifted two pixels to the left, then the controller 170 instructs the left and right printhead arrays 60a, 60b to print the image 182 shifted two pixels to the left. Any other known algorithms may be used to correct for deformation and shifts once such problems are identified.
In another embodiment, the sense mark 158 printed by the sense mark printer 156 is used to correct for deformation and lateral shifts of the paper web 18. In this embodiment, the sense mark 158 is adapted to function as the registration mark 172, which is omitted. For example, the sense mark 158 can be a rectangular mark so that appropriate sensors associated with the first and second imaging units can detect the position of the sense mark in the direction of travel 178 and in a direction orthogonal to the direction of travel. Alternatively, the sense mark printer 156 prints both the sense mark 158 and the registration mark 172. In these two embodiments, the sensor 160 of the first imaging unit 152 is adapted to detect the position of the registration mark 172 and the controller 168 stores the position of the registration mark with respect to the first imaging unit 152 and instructs the left and right printhead arrays 60a, 60b to print images in registration. Alternatively, the first imaging unit includes a registration mark sensor similar to the registration mark sensor 186 in addition to the sensor 162. The second imaging unit 152 operates as describe above.
In yet another embodiment, the registration mark 172 is omitted and appropriate sensors associated with the first and second imaging units track a side edge, such as the right or left side margin 174, 180. The controllers 168, 170 track the position of the side edge to correct for deformation and lateral shifts of the paper web 18.
Further, it would be apparent to one skilled in the art to apply the discussion of
Following the block 206, control passes to a block 208 that instructs the printhead arrays 60 to print the images 182 on the paper web 18 in accordance with the detection of the sense mark 158 at the block 202 so that the images printed by the first and second imaging units 152, 154 are in registration along the length of the paper web. In addition, during the block 208 the printhead arrays 60 are instructed to print the images 182 at a position relative to the registration marks 172 so that the images are in registration along the width of the paper web 18, wherein the position of the images relative to the registration marks is stored.
If the registration marks 172 have been printed, then control passes to a block 210 that detects the position of the registration marks. Thereafter, control passes to a block 212 that compares the detected position of the registration marks with a reference or expected position of registration marks, wherein the reference or expected position is a previously stored position, e.g., the position stored during the block 206. At a decision block 214, a difference between the detected position and the reference position indicates an error to be corrected. If no error is detected, then control passes to the block 208 and the image 182 is printed by the printhead arrays 60. Otherwise at a block 216, an error is corrected by shifting a color component of an image 182 laterally in accordance with the difference between the detected position and the reference position. Any such correction is communicated to the block 208, which adjusts the position of the image 182 relative to the registration indicia 172 before instructing the printhead arrays 60 to print the images. In other embodiments, different algorithms can be used to correct for errors detected at the block 214.
The present disclosure is applicable in the printing arts, for example, to register image data printed by one or more imaging units. More particularly, the use of a registration indicium is used to register image data on a substrate in a lateral direction.
Numerous modifications will be apparent to those skilled in the art in view of the foregoing description. Accordingly, this description is to be construed as illustrative only and is presented for the purpose of enabling those skilled in the art to make and use the invention and to teach the best mode of carrying out same. The exclusive rights to all modifications which come within the scope of the appended claims are reserved.
This application claims the benefit of U.S. Provisional Application Ser. No. 60/937,660, filed Jun. 29, 2007, entitled “Use of a Sense Mark to Control a Printing System” (Attorney Docket No. X134A), and further comprises a continuation of U.S. patent application Ser. No. 12/215,521, filed on Jun. 27, 2008, entitled “Use of a Sense Mark to Control a Printing System” (Attorney Docket No. X134B), both owned by the assignee of the present application and the disclosures of which are incorporated by reference herein.
Number | Date | Country | |
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Parent | 12215521 | Jun 2008 | US |
Child | 14294887 | US |