| Patent application number | Description | Published |
|---|
| 20110266737 | CALCULATING BOOKLET SHEET LENGTH USING TONER THICKNESS - A booklet is produced including an outer sheet and an inner sheet folded and nested together. A print image having a thickness is printed where it is between the two sheets when they nest together. A cut length is calculated using the thicknesses of the sheets and the thickness of the print image, so that when the sheets are folded and the inner sheet is nested into the outer sheet, the edges of the inner sheet will not protrude beyond the edges of the outer sheet. The inner sheet is cut to the calculated cut length either before or after printing. The cut inner sheet and the outer sheet are folded and nested together to produce the booklet. | 11-03-2011 |
| 20110268485 | FOLDING METHOD FOR ELECTROPHOTOGRAPHIC PRINTS - Methods are provided for folding a receiver having a dry toner thermally fused thereon. In one aspect, water is applied along a fold line. The receiver is folded along the fold line. The folding is performed after a predetermined absorption period during which at least a portion of the applied water is absorbed by the receiver to reduce the extent to which the receiver cracks proximate to the fold line during folding. | 11-03-2011 |
| 20110269612 | FOLDING APPARATUS FOR ELECTROPHOTOGRAPHIC PRINTS - Systems for folding a receiver having a dry toner thermally fused thereon are provided. In one aspect, a system for folding has a wetting system adapted to apply water along a fold line and a fold mechanism folding the receiver along the fold line. The folding is performed after a predetermined absorption period during which at least a portion of the applied water is absorbed by the receiver to reduce the extent to which the receiver cracks proximate the fold line during folding. | 11-03-2011 |
| 20110269613 | PRODUCING BOOKLET BY CUTTING BEFORE PRINTING - A method of producing a booklet including an outer sheet and an inner sheet nested together. A processor calculates a cut length in a specific direction of the inner sheet using the thicknesses of the sheets, so that when the sheets are folded and the inner sheet is nested into the outer sheet, the edges of the inner sheet will not protrude beyond the edges of the outer sheet. A cutting device automatically cuts the inner sheet to the calculated cut length to define a fold axis. A print engine prints an image on the inner sheet after cutting the inner sheet. The inner sheet is automatically folded along its fold axis after printing. The outer sheet is automatically folded along its fold axis. The inner and outer sheets are automatically nested together to produce the booklet. | 11-03-2011 |
| 20110277613 | FINISHER FOR CUTTING OR SCORING RECEIVER - A finisher for a receiver moving in a feed direction includes a cutting device having a cutting blade and a scoring blade on opposite sides of the receiver and oriented perpendicular to the feed direction, and a scoring notch on the opposite side of the receiver from, and parallel to, the scoring blade. An actuator selectively causes the scoring blade to engage the scoring notch as the receiver moves between the scoring blade and scoring notch, so that the receiver is scored, or causes the cutting blade to engage the scoring blade, so that the receiver is cut. A controller receives a job specification including one or more cut or score location(s) on the receiver and causes the receiver to be cut at the cut location(s) or scored at the score location(s). | 11-17-2011 |
| 20110280687 | MAKING BOOKLET BY ITERATIVELY FOLDING AND CUTTING - A booklet with a cover sheet and a plurality of inner sheets is produced. The cover sheet is folded to begin the booklet. One at a time, the inner sheets are selectively printed, folded, and nested into the booklet. When each inner sheet is nested in the booklet, an edge of the inner sheet protrudes beyond an edge of the cover sheet. The protruding edge of the inner sheet is cut flush with the corresponding edge of the cover sheet. | 11-17-2011 |
| 20110283855 | SLITTER WITH TRANSLATING CUTTING DEVICES - Apparatus for cutting a moving receiver includes a plurality of cutting devices and a transport mechanism for selectively moving the cutting devices perpendicular to the feed direction of the receiver. Each cutting device includes two parallel cutting wheels and a pressure wheel arranged so that the cutting wheels are pressed laterally against the pressure wheel to form two cutting areas and a chad area arranged laterally between the cutting areas. A drive mechanism rotates the cutting wheels or pressure wheel of two or more of the cutting devices so that the rotating cutting wheels engage the moving receiver to cut the moving receiver parallel to its feed direction. A controller receives a job specification including two or more specified cut locations and causes the transport mechanism to laterally position two or more of the cutting devices to cut the moving receiver in the specified cut locations. | 11-24-2011 |
| 20110286778 | ELECTROPHOTOGRAPHIC PRINT BINDING SYSTEM - Systems for producing bound electrophotographic prints are provided. In one aspect there is provided a system with a print engine having a printing module to form a toner image on a receiver, a fuser with a heater that heats the toner image to fuse the toner image to a receiver to form a print, a stacking system that stacks the print and a sheet in a stacking area with the fused toner image between the print and the sheet. A heating system has a heat source that applies a heat along an edge of the stack, and a controller that causes the toner image to have toner in a binding area proximate to the heated edge of the stack and in an image area that is separated from the binding area by a separation area. A portion of the heat applied at the edge of the stack heats the binding area to cause toner in the binding area to fuse for a second time and a residual portion of the heat applied heats the separation area, but the separation area does not heat the image area to an extent sufficient to fuse toner in the image area. | 11-24-2011 |
| 20110286779 | ELECTROPHOTOGRAPHIC PRINT BINDING METHOD AND SYSTEM - Methods and printers are provided for forming bound electrophotographic prints are provided. In one aspect, the method comprises the steps of applying a toner to a receiver to form a toner image with having toner in a binding area and in an image area. The binding area is proximate to a binding edge of the receiver and the image area that is separated from the binding area by an separation area; (printers). The toner image is fused to form a print, and a sheet and the prints are stacked with the toner in the binding area of the print confronting the sheet along a binding edge of the sheet. Heat is applied at the binding edges to cause the toner in the binding area to fuse for a second time. A residual portion of the applied heat heats the separation area but the separation area does not heat the image area to an extent sufficient to fuse toner in the image area. | 11-24-2011 |
| 20110287357 | ELECTROPHOTOGRAPHIC PRINT BINDING METHOD - Methods for forming bound electrophotographic prints are provided. In one aspect a method comprises the steps of applying a toner to a receiver to form a toner image with having toner in a binding area and in an image area. The binding area is proximate to a binding edge of the receiver and the image area that is separated from the binding area by an separation area. The toner image is fused to form a print, and a sheet and the prints are stacked with the toner in the binding area of the print confronting the sheet along a binding edge of the sheet. Heat is applied at the binding edges to cause the toner in the binding area to fuse for a second time. A residual portion of the applied heat heats the separation area but the separation area does not heat the image area to an extent sufficient to fuse toner in the image area. | 11-24-2011 |
| 20110287917 | STACKING BOOKLET SHEETS ON ADJUSTABLE-ANGLE RAMP - A booklet is produced. Selectively-printed sheets are cut to length, inner sheets being shorter, and stacked on a ramp set at an adjustable angle to a sheet support. This aligns the fold axes of all the sheets so they can be fastened and folded. Gravity is used to hold the sheets in place on the ramp and sheet support. | 11-24-2011 |
