A cutting device and corresponding method for cutting a relatively rigid material), such as for example paper, cardboard, plastic material, composite or other. The cutting device includes a first cutting disc sharpened along its peripheral edge and rotating around its a first axis of rotation. A second cutting disc, also sharpened along its peripheral edge (and rotating around a first axis of rotation (X3), is disposed in front of the first cutting disc with respect to the material and is co-planar with the first cutting disc (14).

Dynamic regulation of contact pressures in a blade sharpening system is provided. An example multiphase grinding wheel has a grinding face with one or more abrasive concentric rings for sharpening the cutting blade of the log saw machine, and one or more padded concentric rings consisting of fiber padding. Sharpening with the multiphase grinding wheel improves cut quality, increases blade life, removes glues and varnishes from the cutting blade, reduces blade deformation, and hones the edge of the cutting blade. A pneumatic tensioning system uses air bladders to apply dynamic cushioning and processor-controlled contact pressure between the grinding wheels and the cutting blade during sharpening. The fiber-padded grinding wheels and the air bladder tensioner provide improved sharpness of the cutting blade and longer life for the mechanical components.

Dynamic regulation of contact pressures in a blade sharpening system is provided. An example multiphase grinding wheel has a grinding face with one or more abrasive concentric rings for sharpening the cutting blade of the log saw machine, and one or more padded concentric rings consisting of fiber padding. Sharpening with the multiphase grinding wheel improves cut quality, increases blade life, removes glues and varnishes from the cutting blade, reduces blade deformation, and hones the edge of the cutting blade. A pneumatic tensioning system uses air bladders to apply dynamic cushioning and processor-controlled contact pressure between the grinding wheels and the cutting blade during sharpening. The fiber-padded grinding wheels and the air bladder tensioner provide improved sharpness of the cutting blade and longer life for the mechanical components.

A cutting unit includes a spindle housing, a spindle, a mounter fixed to the front end portion of the spindle for supporting a cutting blade, and a fixing flange for fixing the cutting blade to the mounter. The mounter includes a boss portion for axially slidably supporting the fixing flange, the boss portion being fitted to an engaging hole formed in a central portion of the fixing flange, a flange portion projecting radially outward from the outer circumference of the boss portion, the flange portion having a supporting surface for supporting the cutting blade on the front side opposed to the fixing flange, and a cylindrical portion formed on the rear side of the flange portion. The flange portion has a suction hole opening. The cylindrical portion has a communication passage communicating with the suction hole. The communication passage is connected through a rotary joint to a suction unit.

Apparatus is provided for a medical cutting device, specifically, a cast removal apparatus designed for the removal of orthopedic casts generally applied for immobilization, which apparatus comprises a temperature safety system and/or a burn reduction system. The use of any saw for cast removal creates a potential for patient discomfort and iatrogenic injury, including but not limited to burns which can leave unsightly scars and wound complications. The apparatuses presented comprise a housing for a temperature control system and motor, which motor can be controlled by the temperature control system to control a cast saw blade, with at least one temperature sensor to sense temperature information regarding at least one cutting region of the blade. The temperature information is used by the temperature control system to control the motor. The apparatuses presented comprise a burn reduction system with cast saw blade coolant or lubricant and coolant or lubricant applicators.

Apparatus is provided for a medical cutting device, specifically, a cast removal apparatus designed for the removal of orthopedic casts generally applied for immobilization, which apparatus comprises a temperature safety system and/or a burn reduction system. The use of any saw for cast removal creates a potential for patient discomfort and iatrogenic injury, including but not limited to burns which can leave unsightly scars and wound complications. The apparatuses presented comprise a housing for a temperature control system and motor, which motor can be controlled by the temperature control system to control a cast saw blade, with at least one temperature sensor to sense temperature information regarding at least one cutting region of the blade. The temperature information is used by the temperature control system to control the motor. The apparatuses presented comprise a burn reduction system with cast saw blade coolant or lubricant and coolant or lubricant applicators.

This disclosure describes techniques for automatically controlling the operation of a slitter (40) to convert a web (20) of material into smaller slit rolls (64, 66, 68). A slitter director (60) may automatically control the operation of a slitter (40) for defect removal, web splicing, and/or slit roll rejection based on continually registering previously-generated anomaly data (62) with physical locations of the web (20).

A laminated film, including an adhesive layer peelably laminated on a base film, and a carrier film overlapping each other are passed between a bladed roller including a plurality of disk-shaped slitting blades arranged at a pitch of 0.5 mm or less and an anvil roller with the laminated film on the bladed roller side to slit the laminated film by score cutting. The slitting blades have a blade angle of 30° or less. By doing so, the laminated film including the adhesive layer peelably laminated on the base film is silt to have a tape width of 0.5 mm or less in such a way that the base film and the adhesive layer do not peel apart and the protrusion of the adhesive layer is suppressed.

A method and device for managing and separating a tongue from a tongue blank, including cutting a first edge of a tongue from the tongue blank by rotating a tool which includes a protruding part, and displacing the tongue by the protruding part to a tongue queue. The method and device may include a second tool for cutting a second edge of the tongue from the tongue blank.

In order to avoid underweight of slices when slicing a loaf into slices, thickness adjustments specified for slicing are adjusted depending on different pre-known parameters, from loaf to loaf and/or from slice to slice within one and the same loaf, preferably also across the boundary between two loaves optimized as early as possible so that existing weight conditions with regard to actual weight of the slices are maintained, in particular no more underweight slices are produced and/or the minimum average weight of the slices required for the entire batch is maintained.