Electrophotography – Having particular structure
Reexamination Certificate
2000-01-13
2001-09-04
Lee, Susan S. Y. (Department: 2852)
Electrophotography
Having particular structure
C015S003000, C015S256510, C399S123000
Reexamination Certificate
active
06285845
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to an image forming device, and more particularly to an improved cleaning system adapted to be incorporated into a printer for cleaning printable media fed into the printer prior to being printed.
BACKGROUND OF THE INVENTION
A conventional image forming device, such as a printer, sometimes includes a cleaning mechanism for cleaning a printable medium, such as a PVC or plastic card, fed into the printer before the printable medium is printed by the printer. There are different types of commercially available printable media, e.g., regular papers, thermal papers, or plastic cards, and each conventional printer is specifically adapted to print images on at least one type of the printable media. However, some conventional image forming devices may be adapted to print images on one or more types of the printable media, e.g., cards and paper.
Each printable medium has at least one printable surface on one side and, oftentimes, on both sides of the printable media. Some printable media have greater tolerance to pollution, such as dust particles, on the printable surfaces of the printable media and are still receptive to the printer for printing images thereon even though the printable surfaces of the printable media might not be very clean. For instance, a conventional printer adapted to print images on regular papers typically uses a ribbon for transferring images to the surfaces of the papers, or it may use an injection mechanism to project carbon particles on the surfaces of the papers to form images. The carbon particles ordinarily are well defined during printing and would not disperse once deposited on the surface of the paper. Thus, a light deposition of dust particles on the printable surface of the regular paper normally does not greatly degrade a printing result on the paper, such as by blurring. However, for some other types of printable media, such as the PVC cards or the plastic cards, it is particularly important that the printable surfaces of these printable media be extremely clean before printing in order to have good quality print results. Normally, these printable media, e.g., the plastic cards, require a high temperature thermal printing process to form images. Ordinarily, the temperature of the thermal printing process used to form images on these plastic printable media is very high, often much higher than a temperature of the thermal printing process, if any, needed to print on regular paper. As a result, if the printable surfaces of these printable media, e.g., the plastic cards, are not clean, the images printed thereon tend to be blurred due to this high temperature process. Even a slight deposition of dust particles on the printable surface of the plastic card will likely blur the images to be formed and greatly affect the quality of the printing results. Thus, having a cleaning mechanism is necessary for the printer adapted to print plastic or PVC cards.
The cleaning mechanism in a conventional printer typically is located inside the printer and is adjacent to a feeding mechanism. The feeding mechanism of the printer is accessible from outside for loading or unloading a printable medium stack onto the feeding mechanism. During operation, the feeding mechanism feeds the printable media, such as cards, into the printer to be printed by a print head of the printer. The cleaning mechanism of the conventional printer is coupled to the conventional printer between the feeding mechanism and the print head. Therefore, the cleaning mechanism may clean the printable medium, such as a card, fed into the printer before the card is printed by the print head.
The conventional cleaning mechanism typically includes a cleaning roller and a drive roller rotatably coupled to a support frame securely mounted to the conventional printer. The cleaning roller and the drive roller are approximately positioned in parallel to each other. The drive roller normally is rotatably coupled to the support frame and cannot be moved either laterally or vertically. The cleaning roller, however, is often rotatably coupled to the support frame by coupling both ends of a cleaning roller shaft of the cleaning roller to the support frame. The cleaning roller is properly located so that it can be positioned directly above the drive roller and is adapted to press the printable medium against the drive roller. Moreover, positions of the drive roller and the cleaning roller inside the printer are precisely disposed to allow the printable media traveling there between. A drive roller shaft of the drive roller is coupled to a gear system of the conventional printer for rotation, and the gear system is further coupled to a motor of the printer, where the motor is adapted to control the rotation of the drive roller.
When the printable medium, such as a card, is fed into the printer by the feeding medium, the card will urge the movable cleaning roller slightly up by approximately the thickness of the card. Due to the compression effect, the cleaning roller will press the card against the drive roller located underneath. The cleaning roller is typically made by silicone materials molded to the roller shape for encircling the cleaning roller shaft. In addition, a treatment process is applied to the cleaning roller for making the silicone surface of the cleaning roller sticky. The above-mentioned treatment process is well known to persons skilled in the art and is not an aspect of the present invention. Most commercially available printers incorporating the cleaning systems have the drive rollers made of the same materials as are commonly used for making the platens of the printers. When the drive roller is rotated by the motor, it drives the card toward the print head. As mentioned, the cleaning roller presses the card against the drive roller, so when the card is driven through by the drive roller, the card will cause the cleaning roller to rotate due to the sticky effect of the silicone surface of the cleaning roller.
Moreover, the sticky surface of the cleaning roller serves the purpose of removing undesirable pollutants, such as dust particles, deposited on the printable surface of the card. When the card moves through between the cleaning roller and the drive roller, the cleaning roller would pick up dust particles deposited on the surface of the card facing the cleaning roller due to the sticky effect of the cleaning roller. Thus, the printable surface of the card should face the cleaning roller for cleaning. Alternatively, drive rollers of some conventional printers are made of sticky silicone materials similar to the cleaning roller. As a result, the drive roller and the cleaning roller of these printers are adapted to clean opposite surfaces of the card. The printable surface of the card may therefore face either up or down for cleaning, or both sides of the card could be printable surfaces.
The sticky surface of the cleaning roller removes dust particles from the card surface by sticking the dust particles out of the printable surface of the card as the card rolls through the cleaning roller. After being removed from the card, the dust particles will stick to the surface of the cleaning roller. As a result, the surface of the cleaning roller accumulates more dust particles each time the cleaning roller cleans a card, and the efficacy of the cleaning roller is accordingly reduced after each cleaning. At some point in time, the cleaning roller will no longer be able to effectively remove any more dust particles from the cards due to the dirtiness on its surface. The cleaning roller, therefore, needs to be clean, or even be replaced, periodically to maintain the effectiveness of the cleaning system of the conventional printer.
As stated, the cleaning roller is coupled to the printer by inserting its cleaning roller shaft into a pair of slots on the support frame of the printer. Generally, the slots are located deep inside the printer, so it is quite difficult and inconvenient to install, to replace, or to remove the cleaning roller for c
Heno Gaetan
Liatard Yves
Fulbright & Jaworski L.L.P.
Lee Susan S. Y.
Tran Hoan
ZIH Corp.
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