A system for separating cut food products includes a flow inlet, a flow outlet, and at least one drum connecting the flow inlet and the flow outlet. The flow inlet may be oriented to direct the cut food product tangentially into the at least one drum. The flow inlet may be oriented to direct the cut food product into the at least one drum at a right angle to a longitudinal axis of the at least one drum. The at least one drum may be a plurality of drums including a first drum having the flow inlet and a second drum having the flow outlet. The system may include a passageway providing fluid communication from the first drum to the second drum. The passageway may include a tapered section. The flow inlet may be aligned with the flow outlet.

A rotary blade assembly for cutting a food product into helical strips is disclosed. The rotary blade assembly includes a substantially spiral-shaped blade holder for mounting in a food product flow path, and a plurality of axially extending slitter blades connected to the blade holder. The blade holder includes an axis of rotation, an upstream surface, an upstream end and a downstream end. The upstream end is axially spaced apart from the downstream end to define a radial slot. A radial cutting edge is positioned adjacent the radial slot. Each slitter blade extends upstream of the upstream surface and includes a slitter cutting edge. At least a portion of the slitter cutting edge of at least one of the slitter blades extends substantially non-perpendicularly to the upstream surface toward or away from the axis of rotation.

A rotary blade assembly for cutting a food product into helical strips is disclosed. The rotary blade assembly includes a substantially spiral-shaped blade holder for mounting in a food product flow path, and a plurality of axially extending slitter blades connected to the blade holder. The blade holder includes an axis of rotation, an upstream surface, an upstream end and a downstream end. The upstream end is axially spaced apart from the downstream end to define a radial slot. A radial cutting edge is positioned adjacent the radial slot. Each slitter blade extends upstream of the upstream surface and includes a slitter cutting edge. At least a portion of the slitter cutting edge of at least one of the slitter blades extends substantially non-perpendicularly to the upstream surface toward or away from the axis of rotation.

A food cutter assembly can include a spindle body defining an interior passage for receiving a food product. A cutting tool can be connected to an end of the spindle body for cutting the food product. The food cutter assembly can also include a housing for rotationally mounting the spindle body. Rotation of the spindle body can be controlled by one or more magnets mounted to the spindle body and by a stator and/or pulley magnetically or electromagnetically coupled with the magnet to drive the one or more magnets about a rotational axis, which in turn spins the spindle body about the rotational axis, driving the rotational cutting motion of the cutting tool.

A blade assembly is disclosed. The blade assembly includes a mounting ring, at least two elongate cutting blades, and a substantially circular central support positioned substantially at the center of the mounting ring. Each cutting blade may have a proximal end connected to the mounting ring. Each cutting blade may extend from the mounting ring toward a center of the mounting ring. Each cutting blade may be twisted along a length of the cutting blade. A distal end of each cutting blade may be connected to the central support.

A blade assembly is disclosed. The blade assembly includes a mounting ring, at least two elongate cutting blades, and a substantially circular central support positioned substantially at the center of the mounting ring. Each cutting blade may have a proximal end connected to the mounting ring. Each cutting blade may extend from the mounting ring toward a center of the mounting ring. Each cutting blade may be twisted along a length of the cutting blade. A distal end of each cutting blade may be connected to the central support.

A device for taking a sample from a solid body by cutting out, having a frame and a cutting tool retained on the frame in such a way that the cutting tool can be moved relative to the frame, wherein the cutting tool, at least in parts, at least substantially has the shape of a hollow spherical cap or a hollow spherical segment. A method for taking a sample from a solid body by cutting out is implemented with the device.

An onion chopper includes a container having a bottom and a plurality of sidewalls extending upwardly and terminating in a rim. A lid is attached to the container at a pivot location for movement between a closed position adjacent the rim and an open position pivoted away from the rim. A tray is removably supported atop the container, and defines a central opening positioned between a forward end and a rearward end. A spiralizer insert is removably attached to the tray within the central opening, the spiralizer insert having a central spindle and a blade extending radially outward from the central spindle.

An onion chopper includes a container having a bottom and a plurality of sidewalls extending upwardly and terminating in a rim. A lid is attached to the container at a pivot location for movement between a closed position adjacent the rim and an open position pivoted away from the rim. A tray is removably supported atop the container, and defines a central opening positioned between a forward end and a rearward end. A spiralizer insert is removably attached to the tray within the central opening, the spiralizer insert having a central spindle and a blade extending radially outward from the central spindle.

A system for separating cut food products includes a flow inlet, a flow outlet, and at least one drum connecting the flow inlet and the flow outlet. The flow inlet may be oriented to direct the cut food product tangentially into the at least one drum. The flow inlet may be oriented to direct the cut food product into the at least one drum at a right angle to a longitudinal axis of the at least one drum. The at least one drum may be a plurality of drums including a first drum having the flow inlet and a second drum having the flow outlet. The system may include a passageway providing fluid communication from the first drum to the second drum. The passageway may include a tapered section. The flow inlet may be aligned with the flow outlet.