A machine for forming packing templates includes a infeed mechanism that can feed multiple feeds of sheet material into the machine without repositioning the infeed mechanism or forming creases or bends in the sheet material. The machine also includes a separation and cutting systems with one or more cutting tables and biased knives that cut the sheet material packaging templates. The machine also includes creasing roller(s) that forms creases in the sheet material. The machine also includes a system for reducing or eliminating the impact of irregularities in the sheet material.

A device (I) for moving a treatment head (JO) and a tray (20) in relation to a plane P., The tray (20) of any shape is inscribed within a rectangle of width A and length 0.8., and includes a first driver (21) suitable for cooperating with a first actuator (22) so as to move the tray (20) in translation within a plane that is parallel to said plane .P. in a movement zone (30) formed from at least two perpendicular edges associated with a reference frame, Q, y, in a direction that is normally parallel to one of said axes or y, the device. (I) The device includes at least: a mobile arm (11) of length R pivotably mounted on one of its ends about an axis £ that is perpendicular to said plane .P., set in motion by a second actuator.

A machine for forming packing templates includes a infeed system that can feed multiple feeds of sheet material into the machine without repositioning the infeed system or forming creases or bends in the sheet material. The machine also includes a separation and cutting systems with one or more cutting tables and biased knives that cut the sheet material packaging templates. The machine also includes creasing roller(s) that forms creases in the sheet material. The machine also includes a system for reducing or eliminating the impact of irregularities in the sheet material.

Proposed is an ultrasonic bread cutter, in which high-frequency electrical energy is converted into mechanical energy by an ultrasonic unit and bread is cut by ultrasonic vibration of a cutting knife. The ultrasonic bread cutter according to an embodiment includes the ultrasonic unit configured to convert high-frequency electrical energy into the mechanical energy; and the cutting knife configured to cut bread by transmitting the mechanical vibration of the mechanical energy to the bread while passing through the bread.

A cutting device comprises an upper support and a lower support arranged above and below a media plane, and a contact-free coupling device to engage and disengage the upper support and the lower support, wherein one of the upper support and the lower support is a master support and the other one of the upper and lower supports is a slave support, and further comprises a master cutting blade arranged in the master support, wherein when the upper and lower supports are engaged, the slave support follows movement of the master support.

A machine for forming packing templates includes a infeed mechanism that can feed multiple feeds of sheet material into the machine without repositioning the infeed mechanism or forming creases or bends in the sheet material. The machine also includes a separation and cutting systems with one or more cutting tables and biased knives that cut the sheet material packaging templates. The machine also includes creasing roller(s) that forms creases in the sheet material. The machine also includes a system for reducing or eliminating the impact of irregularities in the sheet material.

The present disclosure refers to a cutter assembly for a printer, the cutter assembly including: a cutter module including a cutting blade; a support element extending along a cutting direction; and a carriage module to move the cutter module along the support element; wherein the carriage module is moved by a motor, the motor being controlled by a controller to move at a substantially constant speed along the cutting direction, and wherein the controller monitors a power signal of the motor and detects a cutting feature in the cutting direction based on the power signal.

The present disclosure refers to a cutter assembly for a printer, the cutter assembly including: a cutter module including a cutting blade; a support element extending along a cutting direction; and a carriage module to move the cutter module along the support element; wherein the carriage module is moved by a motor, the motor being controlled by a controller to move at a substantially constant speed along the cutting direction, and wherein the controller monitors a power signal of the motor and detects a cutting feature in the cutting direction based on the power signal.

A post-processing apparatus to perform a post-processing for a sheet conveyed from an image forming apparatus includes a punching unit, first and second motors, and a control unit. The punching unit includes a punch that is rotated by the first motor to punch the sheet, and a moving unit moved by the second motor to move the punch in a width direction intersecting with a sheet conveying direction. The control unit controls at least the first motor. In a first section from a first position in which the punch starts punching the sheet to a second position in which the punching ends, the control unit sets a current value for driving the first motor to a first current value. In a second section other than the first section, the control unit can set the first motor driving current value to a second current value lower than the first current value.

A post-processing apparatus to perform a post-processing for a sheet conveyed from an image forming apparatus includes a punching unit, first and second motors, and a control unit. The punching unit includes a punch that is rotated by the first motor to punch the sheet, and a moving unit moved by the second motor to move the punch in a width direction intersecting with a sheet conveying direction. The control unit controls at least the first motor. In a first section from a first position in which the punch starts punching the sheet to a second position in which the punching ends, the control unit sets a current value for driving the first motor to a first current value. In a second section other than the first section, the control unit can set the first motor driving current value to a second current value lower than the first current value.