The exemplary embodiments generally relate to media handling and finishing for machines, such as printers and copiers for producing documents, booklets and other materials and specifically relate to booklet makers.
Folding or creasing a stack of several sheets of paper in the middle of the paper is part of forming a booklet. The sheets may be stapled at the fold line, resulting in a stapled booklet or bound in some other manner. A booklet is formed in a booklet maker, where a crease blade strikes the middle of the stack and pushes the stack towards a pair of nipped (upper and lower) crease rolls, which are typically made of an elastomer material. The blade stops at a fixed distance before the centerline of crease rolls. The crease blade does not travel through the crease rolls. The distance between the tip of the crease blade and the centerline of the crease rolls is important to the function of the booklet maker. If the crease blade is pushed too far into the crease rolls, sheet wrinkling or blade/roll jamming may occur. If the crease blade stops too far away from the crease rolls and the sheets are slippery, the sheet(s) closest to the crease rolls may be pulled off the stack of paper. Sheets may be slippery for many reasons, such as the media type, waxy toners, color ink, area coverage, and the like. The sheet closest to the crease rolls that is pulled off the stack is often the cover of the booklet. If the booklet is stapled, the cover sheet (and possibly more sheets) may be torn off the stapled portion, resulting in a paper jam and or a damaged document.
This problem has previously been tackled by allowing the crease blade to travel through the crease rolls, by protruding segments past the blade tip and segmenting the crease rolls. The blade segments travel between and through the roll segments, thereby pushing the sheets through the rolls. Because of the segmented characteristics of the blade and rolls, the roll never pinches the blade and sheet wrinkling or blade or roll jamming cannot occur. In addition, as the blade pushes and forces the sheets through the rolls, the cover sheet does not tear or pull off the stack of paper. This is generally accomplished with two sets of crease rolls. The first is the segmented set, which does not provide a continuous and crisp fold, and its function is to acquire the stack and make the initial crease without allowing the outer sheet(s) to separate from the rest of the book. The second set of rolls is continuous and is used to create the final crisp fold along the entire edge of the book.
Exemplary embodiments include aspects of a booklet maker with spring-loaded assist idlers, placed above and below a blade. The upper and lower portion of the stack is clamped against the elastomer crease rolls when the blade travels towards the rolls. The crease blade initiates the buckle in the stack before the spring-loaded assist idlers clamp the stack. When clamped, the idlers apply equal nip forces to the top and bottom halves of the stack. This generates a drive force on the stack to assist feeding the stack into the crease roll nip. The stack, including the cover sheet, moves through the crease roll nip, thereby preventing the cover sheet from tearing or pulling off the stack of paper. In addition to preventing the cover of the booklet from pulling or tearing off, exemplary embodiments have an advantage of producing a crisp fold with a single set of continuous crease rolls. A single roll pair design also allows for larger diameter rolls, which is also a factor in preventing sheet separation in the book. Exemplary embodiments may be used and packaged within the volume of existing machines, allowing for easy upgrade or retrofit.
One aspect is a device for forming a fold in one or more sheets that extend along a first direction. The device includes a blade and one or more movable members. The blade moves in a second direction that intersects the first direction to contact the sheets at a first position. The member moves to contact the sheets at least at a second position, which is different from the first position, to move a section of the sheets in the second direction. The device may include a pair of rolls forming a nip. The nip is disposed along a path of the section of the sheets movable in the second direction. The fold in the sheets is creased by the nip after the sheets pass through the nip. The nip and a portion of the sheets at the first position may both be disposed along the path in the second direction. The device may include a second movable member to contact the sheets at least at a third position, which is different from the first position and the second position, to move the section of the sheets in the second direction. The first and second movable members may move the sheets by applying forces pressing the sheets against the pair of rolls. A buckle may be created in the sheets by contact of the blade with the sheets. A binder may bind the sheets. Another aspect is a finisher module for machines, such as printers and copiers for producing documents, booklets and other materials.
Another aspect is a method for forming a fold in one or more sheet that extends along a first direction. A blade moves in a second direction that intersects the first direction to contact the sheets at a first position. One or more movable members move to contact the sheets at least at a second position, which is different from the first position, to move a section of the sheets in the second direction. A nip may be formed with a pair of rolls along a path of the section of the sheets movable in the second direction. The fold may be creased in the sheets as they pass through the nip. The nip and a portion of the sheets at the first position may both be disposed along the path in the second direction. A second movable member may move to contact the sheets at least at a third position, which is different from the first position and the second position, to move the section of the sheets in the second direction. The pair of rolls may be rotated and the sheets may be moved by the movable members to apply forces pressing the sheets against the rotating pair of rolls. A buckle may be created in the sheets. A fold may be formed in the sheets and bound at the fold.
Yet another aspect is a system forming a fold in at least one sheet that extends in a first direction. The system includes means for contacting the at least one sheet at a first position by movement in a second direction that intersects the first direction; and means for moving a section of the at least one sheet in the second direction by contacting the at least one sheet at a second position, which is different from the first position.
As the spring-loaded assist idlers of subassembly 200 move from the left to the right (
One exemplary embodiment is a subassembly 200 to crease a paper set in a booklet maker. This exemplary embodiment includes an upper 202 and lower 204 spring-loaded assist idler placed respectively above and below the crease blade 106. The subassembly engages the spring-loaded assist idlers 202, 204 against the crease rolls 108, 110 after the crease blade 106 initiates the buckle of the stack 102 and prior to creasing. The spring-loaded assist idlers 202, 204 apply nip forces to a top and bottom portion of the stack 102 and drive forces on the stack 102 to assist feeding the stack 102 into the crease roll nip (i.e., the nip formed by the crease rolls 108, 110). The drive forces on the stack 102 assists in the formation of the crease as well. With the assist of this extra drive force, the crease blade tip 106 can be stopped in time to avoid jamming while reducing the chance of getting a cover tear off. One embodiment uses only a single set of crease rolls (i.e., the single pair of crease rolls 108, 110) to produce a substantially crisp fold using, as opposed to the prior art with two sets of crease rolls (see
Booklet maker 502 defines a slot 512. The slot 512 accumulates signature sheets (e.g., sheets each having multiple page images thereon, for eventual folding into pages of a booklet) from the machine 504. Each sheet is held within the slot 512 at a level where stapler(s) 514 may staple the sheets along a midline. The midline of the sheets is the general location the eventual crease of the finished booklet. In order to hold sheets of a given size at the desired level relative to the stapler(s) 514, there is provided at the bottom of slot 512 an elevator 516, which forms the floor of the slot 512 on which the edges of the accumulating sheets rest before they are stapled. The elevator 516 is placed at different locations along the slot 512, depending on the size of the incoming sheets.
As printed signature sheets are output from the machine 504, they accumulate in the slot 512. When all of the necessary sheets to form a desired booklet are accumulated in the slot 512, the elevator 516 is moved from its first position to a second position where the midpoint of the sheets are adjacent the stapler(s) 514. The stapler(s) 514 is activated to place one or more staples along the midpoint of the sheets, where the booklet will eventually be folded.
After the stapling, the elevator 516 is moved from its second position to a third position, where the midpoint of the sheets are adjacent to the blade 106 and a nip formed by the crease rolls 108, 110. The action of the blade 106 and crease rolls 108, 110 performs the final folding, and sharp creasing, of the sheets into the finished booklet. The blade 106 contacts the sheet set along the stapled midpoint thereof, and bends the sheet set toward the nip of the first pair of crease rolls 108, 110 and the second pair of crease rolls 522, 524, which draw all the sheets in and form a crease. The creased and stapled sheet sets are then drawn, by the rotation of the crease rolls 108, 110, completely through the nip, to form the final main fold in the finished booklet. The finished booklets are then conducted along a path 518 and collected in a tray 520. One embodiment is a machine 504 including the finisher module 500 that includes the subassembly 200 (see
It will be appreciated that various of the above-disclosed and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Also, various presently unforeseen or unanticipated alternatives, modifications, variations or improvements therein may be subsequently made by those skilled in the art, and are also intended to be encompassed by the following claims.