A slicer for cutting slices of elongated food products includes a machine housing and a slicing blade that is held by the machine housing. An electric slicing motor drives the slicing blade, and a control unit actuates the slicing motor using a pulse-width modulation. The control unit includes a microcontroller and a motor output stage. The microcontroller is configured to generate pulse-width-modulated control signals by varying at least one of an amplitude, a frequency or a pulse width of the control signals and to forward the control signals to the slicing motor.

A slicer having at least one cutting blade, in particular a scythe-like blade, rotating about an axis of rotation and having an imbalance. Also included is a rotary drive for the cutting blade. Further included is a counterweight having at least one balance mass for compensating the imbalance of the cutting blade.

A rotary knife fixture for cutting vegetable products such as raw potatoes into spiral shapes. The knife fixture includes a ring-shaped blade holder driven rotatably within a hydraulic product flow path. The blade holder includes at least one cutting blade, wherein the blade is twisted from a generally longitudinally aligned center axis outwardly in opposite circumferential directions with a sharpened leading edge set at a desired pitch angle. By controlling the pitch angle of the blade in relation to the blade rotational speed and velocity at which the potato travels along the hydraulic flow path, the resultant spiral cut shape is selected. By using multiple cutting blades at known axially spaced positions and selecting the angular position of each cutting blade in succession, the number of spiral shapes cut from each potato is selected. The blades can have a nontextured straight-cut edge, or a textured crinkle-cut edge, or a combination.

A rotary knife fixture configured for use in a water knife cutting system includes a ring, defining an internal aperture, and at least two spaced, angularly offset, parallel groups of parallel helically twisted cutting blades, extending across the aperture. The ring is configured to be placed in fluid communication with a hydraulic feed conduit of the water knife cutting system and for rotary motion about a rotational axis extending through the aperture. The groups of parallel blades are oriented generally perpendicular to the rotational axis. Each cutting blade has a sharpened cutting edge at one side thereof and is twisted generally about a center point thereof to define a pair of cutting edges oriented in opposite-facing circumferential directions. A vegetable product, fed through the aperture at a product speed, and with the rotary knife fixture rotating at a rotational speed, is substantially simultaneously cut into multiple helically twisted pieces.

A rotary knife fixture for cutting vegetable products into spiral shapes. The knife fixture includes a blade holder driven rotatably within a hydraulic product flow path. The blade holder includes at least one cutting blade, wherein the blade is twisted with a sharpened leading edge set at a desired pitch angle. By controlling the pitch angle of the blade in relation to the blade rotational speed and velocity at which the potato travels along the hydraulic flow path, the resultant spiral cut shape is selected. By using multiple cutting blades at known axially spaced positions and selecting the angular position of each cutting blade in succession, the number of spiral shapes cut from each potato is selected. The blades can have a nontextured straight-cut edge, or a textured crinkle-cut edge, or a combination.

A remote cutter head and a system therefore which can operate in confined spaces are provided. The remote cutting system including a cutter assembly driven by a fluid source, a pushrod hose coupling the cutter assembly to the fluid source, a control assembly detachably secured to the pushrod hose, and a monitor assembly coupled to at least one camera. The monitor assembly provides video images of the cutter assembly and cutter assembly surroundings. The cutting head including a fluid-driven gearmotor, the gearmotor including a two-piece housing, bearings, a pressure balanced gearmotor cavity, and two rotating members provided in the pressure balanced gearmotor cavity, one of the rotating members protruding from the cutting head. High-pressure fluid provided to the cutting head turns the two rotating members to drive a cutting bit attached to the rotating member protruding from the cutting head. Also provided is a cutting bit.

Nonmetallic tools such as rotary bits, circular blades, and scything tools are described that may be suitable for removing cured flexibilized epoxy gap-filler materials from gaps between soft composite materials. The nonmetallic tools may be formed from various plastic or composite materials that are sufficiently hard to cut through the gap-filler material while being sufficiently soft to avoid damaging adjacent areas of soft composite materials. Methods for using the nonmetallic tools may include attaching the nonmetallic tools to a suitable machine-driven tool and contacting the nonmetallic tools to a material to be cut, shaped, or drilled.