摘要:
An apparatus, system and method are provided for controlling one or more strip radii in a fuser. The fuser has a first member having a first surface. The fuser also has a belt having a first portion that contacts the first surface of the first member. The fuser further has a second member having a second surface that contacts a second portion of the belt in a region defining a nip. The fuser additionally has a stripping apparatus, positioned downstream of the nip in a process direction, comprising one or more adjustable blades configured to selectively exert one or more variable predetermined pressures on one or more selected sections of the first portion of the belt causing one or more selectable strip radii.
摘要:
An apparatus, system and method are provided for controlling one or more strip radii in a fuser. The fuser has a first member having a first surface. The fuser also has a belt having a first portion that contacts the first surface of the first member. The fuser further has a second member having a second surface that contacts a second portion of the belt in a region defining a nip. The fuser additionally has a stripping apparatus, positioned downstream of the nip in a process direction, comprising one or more adjustable blades configured to selectively exert one or more variable predetermined pressures on one or more selected sections of the first portion of the belt causing one or more selectable strip radii.
摘要:
A method and system for producing a flat three-dimensional image utilizing acoustic transfer assist. An image is first developed in image bearing material onto the image bearing surface of a rendering device. A three-dimensional plastic sheet can be provided to the transfer section of the rendering device. Transfer of the image can then be accomplished as the plastic sheet comes into contact with the image-bearing surface. The transfer is facilitated by acoustic transfer assist technology associated with the rendering device.
摘要:
A method and system for producing a flat three-dimensional image utilizing acoustic transfer assist. An image is first developed in image bearing material onto the image bearing surface of a rendering device. A three-dimensional plastic sheet can be provided to the transfer section of the rendering device. Transfer of the image can then be accomplished as the plastic sheet comes into contact with the image-bearing surface. The transfer is facilitated by acoustic transfer assist technology associated with the rendering device.
摘要:
As set forth herein, a reusable transfer assist blade (TAB) assembly includes a replaceable blade assembly that is locked into position between a clamp assembly and an extruded portion of the TAB assembly. When the blade assembly requires replacement, spring tables on the clam assembly are biased upward to release the clamp assembly from the extruded portion, and the clamp assembly is rotated about a clamp tab-clamp pocket interface at the top of the TAB assembly. The blade assembly is removed and replaced, the clamp assembly is rotated back into position against the extruded portion, and the spring tabs re-engage interlocking features on the extruded portion to lock the replacement blade in position. The expensive extruded portion and clamp assembly are thus reused and the inexpensive blade assembly is discarded or recycled.
摘要:
An imaging forming device and a constrained transfer assist blade (CTAB) that provides for faster printing speeds, with an improved image-to-edge border specification is disclosed. An upper blade layer constrains pressure blades towards a lifter assembly in order to prevent the lower lying pressure blades from delaminating and a wear layer is formed around outer edges of the blade. Faster response times and improved trail edge flip defects as well as printing closer to the sheet edges is enabled.
摘要:
There is provided a method and system evaluating performance of a printing device. In accordance with the method a diagnostic routine is executed on the printing device. The diagnostic routine evaluates performance of the printing device using a set of instructions stored on a computer-readable medium. The set of instructions are configured to identify a fault in the performance of the printing device based on an artifact identifiable on at least one diagnostic output. The diagnostic output is generated by the printing device with the identifiable artifact in accordance with the diagnostic routine for identifying the artifact and associated fault of the printing device.
摘要:
A system and method for automatically rendering labeling service prints with print engine parameters. An auto-labeling application can be configured in association with a print engine controller for labeling the service prints with the print engine parameters via a built-in marker integrated with a fault multi-function device. A portable inline marker can also be separately attached to a baffle assembly of the fault device and connected to the print engine controller via a connector in order to receive the print engine parameters from the print engine controller. A setup routine configured with the auto-labeling application can be employed to customize the service print labels in a modular format and the parameters can be appended to each other based on the information required to troubleshoot the fault multi-function device. Such an approach effectively provides labeling of the service prints with enhanced service proficiency and customer satisfaction and reduces service time with respect to the fault multi-function device.
摘要:
An imaging forming device and a constrained transfer assist blade (CTAB) that provides for faster printing speeds, with an improved image-to-edge border specification is disclosed. An upper blade layer constrains pressure blades towards a lifter assembly in order to prevent the lower lying pressure blades from delaminating and a wear layer is formed around outer edges of the blade. Faster response times and improved trail edge flip defects as well as printing closer to the sheet edges is enabled.
摘要:
A system and method for automatically rendering labeling service prints with print engine parameters. An auto-labeling application can be configured in association with a print engine controller for labeling the service prints with the print engine parameters via a built-in marker integrated with a fault multi-function device. A portable inline marker can also be separately attached to a baffle assembly of the fault device and connected to the print engine controller via a connector in order to receive the print engine parameters from the print engine controller. A setup routine configured with the auto-labeling application can be employed to customize the service print labels in a modular format and the parameters can be appended to each other based on the information required to troubleshoot the fault multi-function device. Such an approach effectively provides labeling of the service prints with enhanced service proficiency and customer satisfaction and reduces service time with respect to the fault multi-function device.