Devices and methods are provided for cutting or forming tapered surfaces on the end portions of tube or pipe lengths prior to forming joints in adjoining lengths. A device body includes multiple guide surfaces, each having distinct size and shape to engage with an open end of a one of a multiple of tube of predetermined diameters. In intended use, a powered cutting device is rotated about the end of stationary tube or pipe.

Devices and methods are provided for cutting or forming tapered surfaces on the end portions of tube or pipe lengths prior to forming joints in adjoining lengths. A device body includes multiple guide surfaces, each having distinct size and shape to engage with an open end of a one of a multiple of tube of predetermined diameters. In intended use, a powered cutting device is rotated about the end of stationary tube or pipe.

A method produces a frame for a transport device for receiving slices of material separated by a cutting blade of a cutting machine. The method includes: providing a single integral workpiece, the single integral workpiece having a base plate region, a first longitudinal side region on a first side of the base plate region, and a second longitudinal side region on a second side of the base plate region, bending the first longitudinal side region along a first longitudinal side bending edge until the first longitudinal side region is perpendicular to the base plate region, and bending the second longitudinal side region along a second longitudinal side bending edge until the second longitudinal side region is perpendicular to the base plate region. The first longitudinal side region and second longitudinal side region each extend away from the base plate region in a first direction, and are parallel to each other.

A method produces a frame for a transport device for receiving slices of material separated by a cutting blade of a cutting machine. The method includes: providing a single integral workpiece, the single integral workpiece having a base plate region, a first longitudinal side region on a first side of the base plate region, and a second longitudinal side region on a second side of the base plate region, bending the first longitudinal side region along a first longitudinal side bending edge until the first longitudinal side region is perpendicular to the base plate region, and bending the second longitudinal side region along a second longitudinal side bending edge until the second longitudinal side region is perpendicular to the base plate region. The first longitudinal side region and second longitudinal side region each extend away from the base plate region in a first direction, and are parallel to each other.

A device for manufacturing a chopped fiber bundle includes a cutter roll provided with one or more disk blades on a circumference of a roll core having a center axis coinciding with a rotation axis of the roll core and a nip roll provided in parallel with the rotation axis of the roll core, to feed a reinforcing fiber yarn to be continuously cut between the nip roll and the cutter roll, further including a rotary drive mechanism that rotates the cutter roll and at least one of: a reciprocating drive mechanism that reciprocates the cutter roll along the rotation axis of the roll core; and a traverse guide that traverses the reinforcing fiber yarn along the rotation axis of the roll core.

A device for manufacturing a chopped fiber bundle includes a cutter roll provided with one or more disk blades on a circumference of a roll core having a center axis coinciding with a rotation axis of the roll core and a nip roll provided in parallel with the rotation axis of the roll core, to feed a reinforcing fiber yarn to be continuously cut between the nip roll and the cutter roll, further including a rotary drive mechanism that rotates the cutter roll and at least one of: a reciprocating drive mechanism that reciprocates the cutter roll along the rotation axis of the roll core; and a traverse guide that traverses the reinforcing fiber yarn along the rotation axis of the roll core.

A system and method relating to a slicer system, the slicer system includes a slicer that includes a slider blade, a first motor configured to rotate the slicer blade, an in-feed table configured to hold the product and move, while the product is sliced by the slicer blade; an out-feed table configured to receive a sliced portion of a product, in response to the slicer blade slicing the product, at least one second motor, each of the at least one second motor configured to move the out-feed table in at least one direction; and at least one processor configured to cause the sliced portion of the product to be received on the out-feed table in a predetermined shape by controlling the at least one second motor to move the out-feed table while the slicer is slicing the product.

A system and method relating to a slicer system, the slicer system includes a slicer that includes a slider blade, a first motor configured to rotate the slicer blade, an in-feed table configured to hold the product and move, while the product is sliced by the slicer blade; an out-feed table configured to receive a sliced portion of a product, in response to the slicer blade slicing the product, at least one second motor, each of the at least one second motor configured to move the out-feed table in at least one direction; and at least one processor configured to cause the sliced portion of the product to be received on the out-feed table in a predetermined shape by controlling the at least one second motor to move the out-feed table while the slicer is slicing the product.

An electrically-operated slice-cutting machine for cutting slices offin particular, strand-shapedmaterial to be cutpreferably, foodincludes: a machine housing which holds a drive motor and a rotating and/or circumferentially-movable cutting blade driven by the drive motor; a product feed for feeding the material to be cut to the cutting blade; a carrier plate; and a cutting frame arranged on the carrier plate and via which the material to be cut is fed to the cutting blade. The cutting frame is geometrically arranged such that the material to be cut is feedable by the product feed through the cutting frame to the cutting blade in an operating state of the slice-cutting machine. The slice-cutting machine has at least a first and a second lever element for releasably fixing the cutting frame, each of the two lever elements being transferrable from a holding position into a release position.

An electrically-operated slice-cutting machine for cutting slices offin particular, strand-shapedmaterial to be cutpreferably, foodincludes: a machine housing which holds a drive motor and a rotating and/or circumferentially-movable cutting blade driven by the drive motor; a product feed for feeding the material to be cut to the cutting blade; a carrier plate; and a cutting frame arranged on the carrier plate and via which the material to be cut is fed to the cutting blade. The cutting frame is geometrically arranged such that the material to be cut is feedable by the product feed through the cutting frame to the cutting blade in an operating state of the slice-cutting machine. The slice-cutting machine has at least a first and a second lever element for releasably fixing the cutting frame, each of the two lever elements being transferrable from a holding position into a release position.