A method for cutting a running web includes the steps guiding the web over a circumferential surface of an abutment drum; rotating a blade, that extends in the axial direction of the abutment drum, about an axis of rotation parallel to the axis of the abutment drum; holding the blade in a retracted position in which a cutting edge of the blade is spaced apart from the web on the abutment drum; impacting the blade against the web and the surface of the abutment drum at a time when the blade passes through a plane that contains the axis of the abutment drum and the axis of rotation, supporting a knife shaft carrying the blade in an oscillating crank which in turn is mounted on a rotary eccentric, and controlling the impact movement of the blade by controlling the drive of the eccentric.

A food product slicer that includes a blade set and a food-product cradle for supporting a food-product in spaced relation to the blade set. In some embodiments, the cradle is configured to inhibit a user from contacting blades in the blade set in order to prevent injury. In some embodiments, the cradle is incorporated monolithically with a food-product pusher. Food-product cradles of the present disclosure can be enhanced with product-stabilizers that assist in keeping a food-product from moving within the cradles. Food-product cradles of the present disclosure can also be enhanced with side members to created housed cradles. The cradles may be made of fingers spaced from one another to allow the cradles to extend into and/or through the blade set.

A food product slicer that includes a blade set and a food-product cradle for supporting a food-product in spaced relation to the blade set. In some embodiments, the cradle is configured to inhibit a user from contacting blades in the blade set in order to prevent injury. In some embodiments, the cradle is incorporated monolithically with a food-product pusher. Food-product cradles of the present disclosure can be enhanced with product-stabilizers that assist in keeping a food-product from moving within the cradles. Food-product cradles of the present disclosure can also be enhanced with side members to created housed cradles. The cradles may be made of fingers spaced from one another to allow the cradles to extend into and/or through the blade set.

Relates to an improved universal industrial product to be installed on an existing binding or spiral binding machine, capable of binding in all existing binding systems that allow to perform a single set of oblong perforations, according to the paper size, and in which the support or receive the rings, spirals, or combs and binder having multiple size rings, which are currently formed by using machines with different perforation steps. Includes perforation dies having an oblong shape.

Relates to an improved universal industrial product to be installed on an existing binding or spiral binding machine, capable of binding in all existing binding systems that allow to perform a single set of oblong perforations, according to the paper size, and in which the support or receive the rings, spirals, or combs and binder having multiple size rings, which are currently formed by using machines with different perforation steps. Includes perforation dies having an oblong shape.

A cutter accessory is provided for use in combination with a printing device as part of a printing system. The cutter accessory includes a body that is configured to be mounted onto the printing device. An access door is mounted to the body and movable between a closed position and an open position. A slot is defined in the access door and configured to receive printed material from the printing device when the access door is in the closed position. A cutting blade is movably mounted to the body, with at least one cam being associated with the cutting blade. The cam is operable to move the cutting blade with respect to the slot to cut the printed material and is accessible when the access door is in the open position, but not accessible when the access door is in the closed position.

A cutter accessory is provided for use in combination with a printing device as part of a printing system. The cutter accessory includes a body that is configured to be mounted onto the printing device. An access door is mounted to the body and movable between a closed position and an open position. A slot is defined in the access door and configured to receive printed material from the printing device when the access door is in the closed position. A cutting blade is movably mounted to the body, with at least one cam being associated with the cutting blade. The cam is operable to move the cutting blade with respect to the slot to cut the printed material and is accessible when the access door is in the open position, but not accessible when the access door is in the closed position.

A cutting device includes a cutting blade, a receiving block, a motor, a cutting blade movement mechanism, and a receiving block movement mechanism. The cutting blade includes a blade portion. The receiving block includes a contact surface including a first contact surface and a second contact surface. The motor is configured to rotate. The cutting blade movement mechanism supports the cutting blade and is configured to move the cutting blade between a separated position and a contact position in concert with a rotation of the motor. The receiving block movement mechanism is configured to move the receiving block from a first opposed position to a second opposed position in concert with the rotation of the motor.

A cutting device includes a cutting blade, a receiving block, a motor, a cutting blade movement mechanism, and a receiving block movement mechanism. The cutting blade includes a blade portion. The receiving block includes a contact surface including a first contact surface and a second contact surface. The motor is configured to rotate. The cutting blade movement mechanism supports the cutting blade and is configured to move the cutting blade between a separated position and a contact position in concert with a rotation of the motor. The receiving block movement mechanism is configured to move the receiving block from a first opposed position to a second opposed position in concert with the rotation of the motor.

An impact cutoff device for a progressive high speed cold former having a low mass rigid cutter carriage, a torsion spring for carriage return, and an articulated, oil lubricated and dampened carriage drive block on a pivoting drive lever serving to reduce impact induced vibration otherwise leading to fatigue failure and wear of the various cutter parts and consequent loss of cutoff accuracy and quality.