A bundle breaker including first and second platen assemblies mounted above upstream and downstream breaking supports with first and second actuators for moving the platen assemblies toward and away from the breaking supports and a third actuator for moving the downstream breaking support to perform a breaking operation. The first platen assembly and/or the second platen assembly each includes an upper platen assembly and a lower platen assembly supported by the upper platen assembly, the upper platen assembly including an upper platen and a support for the upper platen and the lower platen assembly including a lower platen supported for movement relative to the upper platen in the vertical direction and relative to the upper platen in the longitudinal direction.

A bundle breaker has upstream and downstream breaking supports each having an input end and an output end. A first platen is located above the upstream breaking support, and a second platen is located above the downstream breaking support, and each platen has an actuator for moving the respective platen toward and away from the breaking supports to selectively clamp a log between the platens and the breaking supports. A third actuator is configured to apply a shifting force to the downstream breaking support to shift the input end of the downstream breaking support relative to the output end of the upstream breaking support from a first position toward a second position to break the second portion of the log from the first portion of the log. The first actuator and/or the second actuator and/or the third actuator includes at least one servo motor.

A bundle breaker includes upstream and downstream breaking supports, platens over the breaking supports and actuators for moving the platens toward and away from the breaking supports. Each of the platens includes a plurality of air bladders each having a bottom contact surface facing one of the breaking supports. The actuators move the platens to selectively clamp a log between the bottom contact surfaces of the air bladders and the breaking supports. A third actuator shifts an input end of the downstream breaking support relative to an output end of the upstream breaking support from a first position to a second position to break a first portion of the log from a second portion of the log.

The present invention relates a perforation system to be installed on a binding machine, the perforation system including a first elongated platform; a second elongated platform aligned with the first elongated platform; vertical bars to vertically connect the first elongated platform with the second elongated platform; a third elongated platform having a first end fixed to the second elongated platform and a second end secured to a surface on the binding machine; the first elongated platform includes holes and a punch passing through each hole, the holes and the punches have a shape with a length greater than a width; the second elongated platform includes guiding holes aligned with the holes and punches of the first platform, the guiding holes have a shape with a length greater than a width; the third elongated platform includes a row of perforations having a shape with a length greater a width; the holes, punches, guiding holes, and perforation have the same shape; the first elongated platform has a length, width, and thickness; the second elongated platform has a length, a width, and a thickness equal to the length, width, and thickness of the first elongated platform; and the third elongated platform has a length, a width, and a thickness greater than the length, width, and thickness of the first and second elongated platforms.

An expandable package filler or ornament includes a stack of sheets, such as tissue paper, foil, etc. The stack is bound together, such as by a fastener. A generally spiral cut extends from a peripheral edge of the stack toward the center of the each sheet. The cut forms each sheet into a generally spiral strip ending in a peninsula portion. Grasping the peninsula portion, lifting and shaking the stack causes the strips to fall and entangle with each other. The resulting structure is decorative and may be used to stuff a gift box, bag or basket.

The device disclosed herein is a device for performing binding functions such as stapling, hole punching, and comb binding. The device includes a housing, lid, slots for receiving sheets of material to be operated on by the punching and biding assemblies of the device. The device includes a lid to close off or inactivate portions or functions of the device and direct or guide the operator to the proper function or assembly to use for the operation. The device further includes an actuator that selectively operates functional assemblies of the device. The device may further include a moveable guide to selectively offset the punching assembly when larger dimensional covers are punched. The device may also include punching die assemblies that are easily moved and aligned from one position to another.

Disclosed herein is an industrial printing operation and associated printing instructions that make use a non-die cutter operation to subdivide a media sheet, followed by a series of die-cutter operations each subdivision to take advantage of industrial printer efficiency. This printing operation is enabled by planning and impositioning phases that generate print instructions allows a change in media size from printer apparatus to dies. Specifically, during the planning phase of the print order, a printer apparatus and a die or set of dies are selected where the media size used by the printer apparatus is larger than the die(s) is/are designed for.

A bundle breaker includes first and second platens located above upstream and downstream breaking supports and first and second actuators configured to move the platens to selectively clamp logs between the platens and the breaking supports. A third actuator moves the second breaking support relative to the first breaking support to break bundles off the log. A foam sheet is attached to the bottom of each of the first and second platens and is configured to be compressed when the logs are clamped. The bottom surfaces of the foam sheets are preferably at least partially coated with an elastomeric coating or at least partially covered by an elastomeric sheet.

A bundle breaker has downstream and upstream breaking supports, first and second platens located over the respective breaking supports and first and second actuators to move the platens to selectively clamp portions of a log against the breaking supports. A third actuator shifts the downstream breaking support relative to the upstream breaking support from a first position to a second position to break a bundle from the log. A scrap chute is mounted below a junction of the upstream and downstream breaking support to catch scrap material falling between the upstream support and the downstream breaking support. Each time the downstream breaking conveyor is shifted to the second position, scrap in the chute is jolted and is shifted toward a discharge opening of the scrap chute and, optionally, into a scrap drawer.

A method for contour punching an output stack consisting of sheet-like material and a punching device for carrying out the method Includes providing at least two punching procedures. A large proportion of an unprinted region is separated from a printed region in a first punching procedure and a first punching waste produced thereby is collected separately, whereby the quantity of the second punching waste which is formed in a second punching procedure is significantly less than if only a single punching procedure were to be carried out. By collecting the first punching waste and the second punching waste separately, it is possible to provide this waste in each case for appropriate disposal or appropriate recycling.