Patent Document

BACKGROUND OF THE INVENTION 
     1. Field of Invention 
     This invention relates to an oiling roller for a drum maintenance unit. 
     2. Description of Related Art 
     It is known to utilize intermediate transfer layers in ink printing systems, such as disclosed in U.S. Pat. Nos. 6,068,372 and 6,431,703 to Rousseau et al. These systems utilize an oiling roller that engages the imaging drum and applies a liquid intermediate transfer layer to the imaging drum. The print head ejects drops of ink onto the liquid intermediate transfer layer to form an ink image thereon. A receiving substrate such as paper is then brought into contact with the intermediate transfer layer on the imaging drum and the ink image is transferred to the receiving substrate. 
     U.S. Pat. No. 6,480,694 or Kimura et at. describes an oiling roller made of a hollow cylindrical porous formed body that retains the release agent lubricant in the microdiameter voids and pores inside. The lubricant moves throughout the roller body by capillary force. The amount of lubricant applied to the imaging drum can be controlled by the amount of permeability resistance in the porous material. The retaining pores also prevent leakage of the lubricant. 
     A part of the solid ink technology printing process includes the drum maintenance unit. One of the drum maintenance unit&#39;s objectives is to apply a metered amount of release agent onto to the imaging drum prior to the print head imaging process. A metering blade meters the release agent applied by the oiling roller into a very thin film on the imaging drum that will be sufficient to have the ink preferably stick to the media rather than to the drum. Proper imaging requires release agent layer uniformity. When the agent is not applied uniformly the images exhibit noticeable streaks. The release agent can also change the gloss of images on a substrate and the projection efficiency of transparencies. 
     SUMMARY OF THE INVENTION 
     The parts of a drum maintenance unit are subject to wear and dirt accumulation. The oiling roller is often made of a compressible, porous, open-cell material, and is subjected to temperature, load and chemical conditions that affect the surface and length of the roller. A worn oiling roller can slide in the drum maintenance unit leaving the edge portions of the image drum without a sufficient release agent layer. An oiling roller with accumulated dirt or debris can leave a nonuniform release agent layer. One solution to the problem of drum maintenance unit wear would be to replace the component parts at periodic intervals. Such periodic maintenance can be costly and result in unnecessary down time of the imaging apparatus. 
     It is important that ink printing systems deliver a layer of release agent onto the imaging drum so that the ink can be easily peeled off during the print process. The oiling roller should be center justified on the image so that the whole width of the image is entirely covered by the roller. Ink printing systems also require an oiling roller that fits within tight dimensional tolerances. Oiling rollers that are undersized or that slide towards one side leave a portion of the image less than adequately oiled and consequently cause a release failure of the image off the drum. Optimum performance keeps the oiling part of the roller centered on the image through a wide range of roller length variation. 
     This invention is directed to a mounting scheme for a drum maintenance oiling roller that avoids various disadvantages and drawbacks associated with conventional systems. In various exemplary embodiments, a mounting scheme that utilizes end caps to mount the roller and keep the oiling part of the roller centered on an image is contemplated. 
     This invention provides a durable and reliable design that accommodates a wider range of roller length variation. 
     This invention separately provides systems and methods for quickly and easily installing an oiling roller into a drum maintenance unit cartridge. 
     This invention separately provides systems and methods for keeping an oiling roller centered on an image. 
     This invention separately provides systems and methods for keeping an oiling roller centered during the life of a drum maintenance unit, even when the roller&#39;s length is reduced due to temperature, load and/or chemical compatibility. 
     This invention separately provides systems and methods for keeping an oiling roller centered in a drawer of a drum maintenance unit. 
     This invention separately provides systems and methods for allowing an oiling roller to fit snug in a drawer of a drum maintenance unit without impeding the free rotation of the roller. 
     This invention separately provides systems and methods for positioning an oiling roller in a predictable position over the life of a drum maintenance unit. 
     This invention separately provides systems and methods for keeping an oiling roller securely positioned in a drum maintenance unit. 
     This invention separately contributes to a reduction in costs of manufacture and maintenance of a drum maintenance unit. 
     Various exemplary embodiments of this invention provide an oiling roller assembly, comprising an oiling roller, a roller shaft about which the oiling roller rotates and at least one cap unit disposed on an end of the roller shaft. The at least one cap unit may further comprise a flange portion at an end of the cap and a recess portion at an opposite end of the cap. The at least one cap unit may comprise a pair of caps. Each of the pair of caps may be substantially identical. 
     In various exemplary embodiments of this invention, the oiling roller assembly further comprises a retainer disposed onto at least one end of the roller shaft and positioned between at least one end of the oiling roller and the at least cap unit. 
     In various exemplary embodiments of this invention, the at least one cap unit compresses the oiling roller material. 
     In various exemplary embodiments of this invention, the at least one cap unit disposed on an end of the axel of the oiling roller snaps into a drawer of a removable cassette. The at least one cap unit may be locked in place through a latching feature in the drawer. The retainer disposed onto at least one end of the roller shaft may provide an additional latching mechanism. 
     Various exemplary embodiments of this invention provide a drum maintenance unit for an imaging apparatus comprising the oiling roller assembly. The drum maintenance unit may be disposed in a removable cassette. The drum maintenance unit or the cassette may be a consumable unit. 
     Various exemplary embodiments of this invention provide a method for mounting an oiling roller in a drum maintenance unit. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       Various exemplary embodiments of the systems and methods of this invention are described in detail below, with reference to the attached drawing figures, in which: 
         FIG. 1  is a view of a first exemplary embodiment of an oiling roller according to this invention; 
         FIG. 2  is a cross-sectional view in an axial direction of the first exemplary embodiment of an oiling roller according to this invention; 
         FIG. 3  is a cross-sectional view in an axial direction of a cassette of a drum maintenance unit into which an embodiment of the oiling roller according to this invention is installed; 
         FIG. 4  is a cross-sectional view in an axial direction of a second exemplary embodiment of an oiling roller according to this invention; 
         FIG. 5  is an exploded perspective view of a replaceable cassette for an imaging apparatus according to an exemplary embodiment of this invention. 
     
    
    
     DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS 
     This invention may be applied to various oiling roller assembly configurations and is not limited to the particular configurations disclosed by the exemplary embodiments. Those skilled in the art will appreciate an oiling roller assembly system in accordance with this invention without including all of the particular features disclosed by the exemplary embodiments. 
       FIG. 1  illustrates a first exemplary embodiment of an oiling roller assembly  100  according to this invention. The assembly  100  comprises an oiling roller  130  mounted on a roller shaft  110 . A pair of end caps  120  are disposed on opposite ends of the shaft  110 . Each cap  120  comprises a flange portion  122  at one end of the cap that comes into contact with the roller  100 . Each cap  120  further comprises an indented or hollow recess portion  124  at the end opposite to the flange portion  122 . The oiling roller assembly  100  can also comprise an optional e-ring unit  140  snapped onto one end of the roller shaft  110  and positioned between one end of the oiling roller  130  the cap unit  120 . An outer surface  132  of the oiling roller  130  contacts with an imaging drum of a printing device when installed therein (not shown). 
     In the exemplary embodiment shown, the oiling roller  130  is a porous formed body of a hollow cylindrical shape, capable of retaining releasing agent. The oiling roller  130  is made of a compressible material. In embodiments, the material has a hardness of about 10-15 Shore A. In embodiments, the oiling roller  130  is made of a heat-resistant material having micro-diameter voids. The material comprising the oiling roller  130  offers an air permeability resistance of about 1.07 SCFM@ 3 psi. The heat-resistant material comprising the oiling roller  130  is chemically and mechanically stable, for example, under heating at a temperature of about 60-70° C. Possible materials for the oiling roller  130  include polyurethane foam. 
       FIG. 2  illustrates is a cross-sectional view in an axial direction of the first exemplary embodiment of this invention. The end caps  120  are mounted to each end of the shaft  110 . The end caps  120  can be pushed inward into the roller  130  so that the flange portion  132  of the cap compresses the compressible porous material of the roller  130 , causing the material to deflect. The compressibility of the roller&#39;s porous material provides a lateral load to the end cap  120  that can be utilized to latch the roller assembly  100  in a drum maintenance unit. 
       FIG. 3  further illustrates how the first exemplary embodiment of this invention can be installed into a drawer  310  of a drum maintenance unit  300 . The drum maintenance unit  300  comprises a drawer  310 , which itself comprises latching features  320  and  322  and a release agent pan  330 . Prior to inserting the oiling roller assembly  100  into the drawer  310 , the two end caps  120  are pushed inward, compressing the roller material so that the assembly can clear the latching features  320  and  322  in the drawer  310 . The roller assembly  100  is then placed in the drawer  310 . Once the caps  120  are snapped into place in the drawer  310 , the compressible roller material springs back, causing the roller assembly  100  to fit snug in the drawer  310 . The end caps  120  are snapped into place in the drawer  310  so that the recess portions  124  of the caps receive the latching features  320  and  322 . 
     The oiling roller assembly  100  is wide enough to cover the entire image space  350 . In embodiments, the oiling roller assembly  100  is positioned in the drawer  310  so that the center of the roller  130  corresponds to about the center of the image  340  on the image drum. The oiling roller assembly  100  fits snug in the drawer  310 , but without impeding the free rotation of the roller  130 . The compressed porous material of the oiling roller assembly  100 , and the end caps  120 , provide two lateral, opposed loads that will keep the oiling roller  120  centered in the drawer  310  and on the image  340 . The oiling roller assembly  100  is also positioned to fit in the drum maintenance unit  300  to allow enough clearance between the oiling roller  130  and the release agent pan portion  330  of the drawer  310 . 
       FIG. 4  illustrates a second exemplary embodiment of an oiling roller assembly  400  according to this invention. This embodiment includes a retainer such as an e-ring  140  at one end of the shaft  110  that is positioned between the end cap  120  and the oiling roller  130 . The e-ring  140  provides an extra level of security to guard against the oiling roller assembly  100  popping out of the drum maintenance unit  300  in case of shock or drop. The e-ring  140  is positioned on the shaft  110  such that it allows the end cap  120  to push inward and compress the roller  130 , but limits the degree of deflection. As a result, the oiling roller assembly  100  maintains a stronger interlocking scheme in the drawer  310  of the cassette  300 . 
       FIG. 5  illustrates an exploded perspective view of a replaceable cassette  510  for an imaging apparatus according to an exemplary embodiment of this invention. Disposed within the replaceable cassette  510  is a static shield  520 , a filter  530 , an oiling roller assembly  500 , a metering blade assembly  560  with leaf springs  570  and a top cover  550 . Details of the replaceable cassette are discussed in copending U.S. patent applications Ser. Nos. 10/740,461, 10/707,572,10/707,577,10/707,574. 
     While this invention has been described in conjunction with the exemplary embodiments outlined above, it is evident that many alternatives, modifications and variations will be apparent from a review of the foregoing. Accordingly, the exemplary embodiments of the invention, as set forth above, are intended to be illustrative, not limiting. Various changes may be made without departing from the spirit and scope of the invention.

Technology Category: 3