A method for perforating a web with a perforating apparatus includes: rotating a cylinder about a longitudinal cylinder axis, wherein the cylinder comprises at least one shaped blade; operatively engaging a moveable support with the cylinder; positioning an anvil disposed on the support so as to cooperate in contacting relationship with the shaped blade, wherein at least one of the blade and the anvil comprise a plurality of teeth, and wherein adjacent teeth are separated by a recessed portion; feeding a web between the cylinder and the support; and perforating the web as the anvil cooperates in contacting relationship with the shaped blade disposed on the rotating cylinder.

A method for perforating a web with a perforating apparatus includes: rotating a cylinder about a longitudinal cylinder axis, wherein the cylinder comprises at least one shaped blade; operatively engaging a movable support with the cylinder; positioning an anvil disposed on the support so as to cooperate in contacting relationship with the shaped blade, wherein at least one of the blade and the anvil comprise a plurality of teeth, and wherein adjacent teeth are separated by a recessed portion; feeding a web between the cylinder and the support; and perforating the web as the anvil cooperates in contacting relationship with the shaped blade disposed on the rotating cylinder.

A method for perforating a web with a perforating apparatus includes: rotating a cylinder about a longitudinal cylinder axis, wherein the cylinder comprises at least one shaped blade; operatively engaging a movable support with the cylinder; positioning an anvil disposed on the support so as to cooperate in contacting relationship with the shaped blade, wherein at least one of the blade and the anvil comprise a plurality of teeth, and wherein adjacent teeth are separated by a recessed portion; feeding a web between the cylinder and the support; and perforating the web as the anvil cooperates in contacting relationship with the shaped blade disposed on the rotating cylinder.

A new and improved microfabrication device, microfabrication method, transfer mold, and transfer object that can suppress a defect are provided. A microfabrication device comprises a tool mounting portion, a predetermined cutting tool, an oscillator, and a controller, wherein the controller performs a cutting process to satisfy at least one of: a cutting condition (1) that oscillations at a start point and an end point of each set are in phase with each other; and a cutting condition (2) that oscillations of the sets are in phase with each other.

A new and improved microfabrication device, microfabrication method, transfer mold, and transfer object that can suppress a defect are provided. A microfabrication device comprises a tool mounting portion, a predetermined cutting tool, an oscillator, and a controller, wherein the controller performs a cutting process to satisfy at least one of: a cutting condition (1) that oscillations at a start point and an end point of each set are in phase with each other; and a cutting condition (2) that oscillations of the sets are in phase with each other.

In a method for removing a wrapping, such as plastic film, from a roll of material an apparatus is used, which has a roll supporting unit, and a cutting means. The roll supporting unit is configured to rotate the roll supported thereon, and the cutting means is movable into cutting abutment against the envelope surface of the supported roll for removal of the wrapping during rotation of the roll.

In a method for removing a wrapping, such as plastic film, from a roll of material an apparatus is used, which has a roll supporting unit, and a cutting means. The roll supporting unit is configured to rotate the roll supported thereon, and the cutting means is movable into cutting abutment against the envelope surface of the supported roll for removal of the wrapping during rotation of the roll.

A conveyance system 14 carries food products 12 past the scanning system 16 for scanning the food products and generating data pertaining to various parameters of the food products. Thereafter, the food products 12 are transported past a processing station 18 for cutting, trimming, portioning, etc. using a cutting apparatus 20 in the form of a robotic actuator 22 onto which is mounted a dual headed cutter assembly 24 capable of independently and simultaneously cutting/trimming/portioning two separate food products 12, for example, located in side-by-side lanes on the conveyance system or capable of independently and simultaneously cutting/trimming the opposite sides of the same food product.

Provided is a method for producing noodle strands with which it is possible to reduce or prevent adhesion of wide noodle strands to each other. The method for producing noodle strands with a wavy cross-section comprises the preparation of a noodle strip and the cutting of the noodle strip into noodle strands using a cutting blade device. The cutting blade device has a pair of cutting blade rolls. The cutting blade rolls each have multiple circular grooves and multiple blades disposed alternately along the longitudinal direction of the cutting blade rolls, and are disposed so that the circular grooves of one cutting blade roll engage with the blades of the other cutting blade roll. The circular grooves of the cutting blade rolls each have two first groove sections near blades that are adjacent along the longitudinal direction of the cutting blade rolls and a second groove section between the two first groove sections that is deeper than the two first groove section. When the shortest distance between a first groove section of one cutting blade roll and the blade of the other cutting blade roll that faces said first groove section is D.sub.1, the thickness of the noodle strip is 2.0-2.7 times D.sub.1.

Provided is a method for producing noodle strands with which it is possible to reduce or prevent adhesion of wide noodle strands to each other. The method for producing noodle strands with a wavy cross-section comprises the preparation of a noodle strip and the cutting of the noodle strip into noodle strands using a cutting blade device. The cutting blade device has a pair of cutting blade rolls. The cutting blade rolls each have multiple circular grooves and multiple blades disposed alternately along the longitudinal direction of the cutting blade rolls, and are disposed so that the circular grooves of one cutting blade roll engage with the blades of the other cutting blade roll. The circular grooves of the cutting blade rolls each have two first groove sections near blades that are adjacent along the longitudinal direction of the cutting blade rolls and a second groove section between the two first groove sections that is deeper than the two first groove section. When the shortest distance between a first groove section of one cutting blade roll and the blade of the other cutting blade roll that faces said first groove section is D.sub.1, the thickness of the noodle strip is 2.0-2.7 times D.sub.1.