1. Field of the Invention
The present application relates generally to inkjet printing systems and methods and more particularly to a system and method for disposing inkjet cartridges in a carrier used in such systems.
2. Description of the Background of the Invention
High-speed printing systems typically include one or more imaging units. Each imaging unit has one or more inkjet cartridges (or printheads). A controller controls each inkjet cartridge to eject a fluid (such as ink or other composition) onto a receiving surface. Some printing systems use an imaging unit with a moving inkjet cartridge (or an array of inkjet cartridges) that traverses the width of the receiving surface as nozzles of the inkjet cartridge drop one or more lines of fluid to form a swath of an image along the width of the receiving surface. Upon completion of the swath, the receiving surface is advanced in accordance with the width of the swath and the inkjet cartridge again traverses the width of the receiving surface to print a next swath of the image.
Other printing systems use an image unit with a fixed inkjet cartridge (or an array of inkjet cartridges) in which the receiving surface is moved under the inkjet cartridge and nozzles of the inkjet cartridge eject drops of fluid onto the receiving surface in accordance with the position of the receiving surface to print an image. Inkjet cartridges are interfaced with a controller that controls the formation and ejection of drops from the inkjet cartridge when such drops are needed. In addition, inkjet cartridges may be connected using fluid conduits to ink supplies that provide ink and/or other fluids to the inkjet cartridge to replenish any ink ejected and/or otherwise removed (e.g., by evaporation) therefrom.
In a printing system, an inkjet cartridge is secured to a carrier and disposed such that the nozzles of the inkjet cartridge are directed toward the receiving surface. The carrier may be manufactured from steel or other alloys that can be milled to a high precision. More than one inkjet cartridge may be secured to a carrier in this fashion in a one or two-dimensional array. Some inkjet cartridges may need to be mounted so that, when a drop is ejected, the angle between the plane of the face of the inkjet cartridge directed toward the receiving surface and the plane of the portion of the receiving surface on which such drop is deposited is within a predetermined range. In addition, the distance between the face of the inkjet cartridge and the receiving surface may also need to be within a predetermined range.
Further, inkjet cartridges may need to be disposed on a carrier such that a sufficient amount of the carrier material remains between cartridges so that the structural integrity of the carrier is not compromised. Further, the inkjet cartridges may need to be disposed on a carrier so that there is sufficient space available to secure one or more data cables, fluid conduits, and/or circuitry to the inkjet cartridge disposed.
According to one aspect of the invention, a system for applying fluid to a receiver surface includes a carrier having a top surface, a bottom surface, and a slot, wherein the bottom surface of the carrier faces the receiver surface, The system also includes a mount positioned in the slot, an inkjet cartridge disposed in the mount, and a controller for causing the inkjet cartridge to eject fluid toward the receiver surface. At least a portion of the inkjet cartridge extends inwardly from the bottom surface of the carrier.
According to another aspect of the invention, a method of printing on a receiver surface includes the steps of providing a carrier having a top surface, a bottom surface, and a slot, wherein the bottom surface of the carrier faces the receiver surface, The method includes the additional steps of positioning a mount in the slot, disposing an inkjet cartridge in the mount, and operating the inkjet cartridge to eject a fluid toward the receiver surface. The inkjet cartridge is disposed such that at least a portion of the inkjet cartridge extends inwardly from the bottom surface of the carrier.
Other aspects and advantages will become apparent upon consideration of the following detailed description.
Referring to
In the printing system 100 of
The dryers 108 and 110 may be used to dry ink(s) or other fluids deposited by the inkjet cartridges of the first and second imaging units 104 and 106, respectively,
Referring to
The inkjet cartridges (not shown) disposed in the slots 214 of the carriers 114a and 114b print on the same side of the receiving surface. The slots 214 are arranged in the carriers 114a and 114b in a two-dimensional pattern. The inkjet cartridges disposed on the slots 214 of the carriers 114a and 114b print, for example, on the left-hand and right-hand portions, respectively, of a side 120a of the receiving surface 120. It should be apparent that the carriers 114a and 114b may be replaced by a single carrier or three or more carriers, wherein the single or multiple carriers together or individually span a width similar or identical to the combined width of the carriers 114a and 114b. Additional inkjet cartridges are mounted on carriers (not shown) similar or identical to the carriers 114a and 114b that are disposed on or adjacent the other portion 214 of the imaging unit 104. Each carrier 114a and 114b has a bottom surface 216 and a top surface 218. In the closed position, the bottom surfaces 216 face toward the drum 208, and therefore, toward the receiving surface 120 transported about such drum 208, and the top surfaces face away from the drum 208 and the receiving surface 120. As seen in
In some embodiments in which the fluid is ink, the imaging unit 104 may print using two colors of ink, for example, a black ink and a spot or process color ink. In such an embodiment, each inkjet cartridge secured to the carrier 112 may, for example, print black ink and each inkjet cartridge secured to the carrier 114 may, for example, print red ink. Alternately, each inkjet cartridge secured to the carriers 112 and 114 may print cyan and magenta ink, respectively, and each inkjet cartridge secured to the carriers 116 and 118 may print yellow and black inks, respectively. In such embodiments, the two imaging units 104 and 106 may be used to print a four-color image onto one side of the receiving surface 120.
In other embodiments of the printing system 100, inkjet cartridges that can each print two ink colors (or two types of fluids) may be used. In such embodiments, each inkjet cartridge secured to the carrier 112 may print, for example, cyan and magenta ink and each inkjet cartridge secured to the carrier 114 may print, for example, yellow and black ink, In these embodiments, one imaging unit 104 may be used to print a four-color image on one side of the receiving surface 120. As should be apparent, inkjet cartridges that can each print one or more colors may be used in any combination on the carriers 112 and 114. Further, the inkjet cartridges disposed on the carriers 112 and 114 may print identical colors. As should be apparent the carriers 112 and 114 need not be of identical size and that either or both carriers may be replaced by a single or more than two carriers.
Referring to
The carrier 300 includes additional apertures 302 through which elements of a mount (not seen in FIGS, 3A and 3B) secured into a slot 214 may extend into and/or pass through. The apertures 302 may also be used to accommodate one or more screws that secure the mount to the carrier 300. The carrier 300 may include additional indents or screw holes 304 that may be used to secure the mount to the carrier 300 and/or provide datum surfaces that aid in aligning the mount with respect to the slot 214 in the carrier 300. As should be apparent, the carrier 300 may be an arcuate plate or a flat plate.
Provisional U.S. Patent Application Ser. No. 61/535,150, filed on Sep. 23, 2011, is directed to a mount in which an inkjet cartridge may be disposed and the entire contents of this application are incorporated herein by reference.
Referring to
Referring to
A mount 500 and inkjet cartridge 502 are similar or identical to the mounts 400 and inkjet cartridges 402, respectively, already secured to the carrier 300. In some cases, the inkjet cartridge 502 is secured to the mount 500 before the mount 500 is secured to the carrier 300 as described above. As should be apparent, that the mount 500 may instead be secured to the carrier 300 first and the inkjet cartridge 502 secured to the mount 500 thereafter. A handle 504 may be temporarily secured to the mount 500 and/or inkjet cartridge 502 to assist in positioning the mount 500 and/or inkjet cartridge 502 in a slot 514 of the carrier plate 300. The mount 500 may be secured to the carrier plate 300 as described hereinbefore.
In one embodiment, after the mounts 400 are secured to the carrier 300 and the inkjet cartridges 402 are disposed in such mounts, substantially all of each inkjet cartridge 402 extends inwardly beyond the bottom surface 216 of the carrier 300. In another embodiment, a portion of each or some of the inkjet cartridges 402 extends inwardly beyond the bottom surface 216. In still another embodiment, at least half of some or each of the inkjet cartridges 402 extends inwardly beyond the bottom surface 216.
A conduit 516 is guided through the slot 214 and the aperture 408 of the mount 400 and affixed to the inlet port 414 of the inkjet cartridge 402. An end 518 of the conduit 516 may be connected to an external ink supply (not shown).
A circuit board 520 is disposed atop the each mount 400, wherein such circuit board 520 includes a processor and supporting components that control the ejection of drops from the inkjet cartridge 402 disposed in such mount. The circuit board may be connected via a cable (not shown) to a data computer (not shown) that supplies data such as, for example, image data to the circuit board. Such data is analyzed by software and or firmware operating in the processor to determine when a drop should be ejected from the inkjet cartridge 402. Additional control signals, for example, those associated with the transport of the receiving surface 120 and/or rotation of the drum 208, may be supplied to the circuit board via the data cable. The processor may use the control signals and the data to determine the timing and frequency of drop ejection and the volume of ink in a drop.
Other embodiments of the invention including all the possible different and various combinations of the individual features of each of the foregoing described embodiments are specifically included herein.
The apparatus and method disclosed herein may be utilized to position and dispose inkjet cartridges and mounts therefor on a carrier of an imaging unit. Disposing the inkjet cartridges and mounts as described above enables the nozzle plates of the inkjet cartridges to be packed close to one another and provides sufficient space the for connecting such inkjet cartridges and mounts to cabling, fluid supply lines, and/or control circuitry. The inkjet cartridges may be packed so closely that the bottom portions thereof, that is, the portions of the inkjet cartridges farthest from the carrier plate, e.g., the nozzle plates, may be closely spaced or even touch one another in the direction of movement of the receiver surface. Further, disposing the inkjet cartridges and mounts in the manner described herein provides sufficient carrier material therebetween so that the structural integrity of the carrier is not compromised. Further, various modifications may be apparent to enhance the efficacy of mounting inkjet cartridges. Still further, the systems disclosed herein are easily scalable to be utilized with a wide variety of sizes, types, and configurations of printing systems.
It should be noted that some or all of the advantages noted above may be realized by an arrangement wherein a portion of each cartridge extends upwardly above the upper surface 218 of each carrier.
Numerous modifications to the present disclosure 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 disclosure and to teach the best mode of carrying out the same. The exclusive right to all modifications within the scope of this disclosure is reserved.
The present application is a continuation-in-part of International Application No. PCT/US2012/50403, with an international filing date of Aug. 10, 2012, which in turn claims benefit of Moscato et al., Provisional U.S. Patent Application Serial No. 61/523,079, filed on Aug. 12, 2011. The entire contents of both of these applications are incorporated herein by reference.
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Number | Date | Country | |
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Parent | PCT/US2012/050403 | Aug 2012 | US |
Child | 13829027 | US |