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 food spiral cutting machine, suitable for cutting fruits or vegetables into a continuous spiral or julienne. The spiral cutting machine includes a base, a drive unit, a screw, a cutter assembly and a locking device; the drive unit comprises a motor, a gearbox and an open drive nut; the gearbox comprises a planetary gear reduction group and a pair of bevel gears, a first bevel gear connects to the output of the planetary gear set, and the first bevel gear drives a second bevel gear which is provided with a spline inside the gear center hole. The first bevel gear meshes with the second bevel gear at right angle. An open drive nut rests on the underside of the screw. A screw is provided with a slot along the screw axis. The spline of the second bevel gear keys with the slot of the screw. When the second bevel gear is driven by the motor via the planetary gear set and the first bevel gear, the spline in the second bevel gear turns the screw. As the open drive nut meshing with the screw is stationary, the screw rotation results in linear movement of the screw along the screw axis. The distal end of the screw is fitted with a spikey disk, where there is a center pin and circumferential spikes such that fruit or vegetable can be supported and butted against the cutter assembly. By the simultaneous rotation and linear movement of the screw, the required motion to spirally cut fruit or vegetable is realized.

The invention described herein is directed to an inline spiral cutting food processor that includes a motor that rotates an upper positioned disc with a blade assembly by means of a belt or gear assembly or mechanism. The entrance and exit chute are fixed and positioned in-line with the axis of rotation of the blade supporting disc member. The entrance chute is positioned above the cutting disc, and the exit opening (or chute) is below. During operation a food item is pushed down the entrance chute as the blade rotates and cuts it. Cut food falls down through the opening or exit chute into a storage container or jar. The food cutting assembly is configured to generate spiral or helical food from vegetables.

Proposed is an ultrasonic bread cutter, in which high-frequency electrical energy is converted into mechanical energy by an ultrasonic unit and bread is cut by ultrasonic vibration of a cutting knife. The ultrasonic bread cutter according to an embodiment includes the ultrasonic unit configured to convert high-frequency electrical energy into the mechanical energy; and the cutting knife configured to cut bread by transmitting the mechanical vibration of the mechanical energy to the bread while passing through the bread.

A cutting assembly for mixtures for food use which is adapted for functional connection to a dispensing apparatus of at least one continuous element constituted by a mixture for food use, and which is provided with at least one cutter facing toward the exit of the dispensing apparatus.

A cutting assembly includes a fixed frame which is rigidly coupled, and proximate, to the dispensing apparatus, at least one motorized automatic follower mechanism, supporting the at least one cutter and coupled to the frame, and a control and management unit controlled by the dispensing apparatus and designed to control the at least one actuator of the at least one motorized automatic follower mechanism.

A system for cutting medical tubing sourced from a spool of tubing uses two actuator groups that each reciprocate along a respective track, which are parallel to each other. Each actuator group has a clamp and a cutting tool which have an operative position along a common axis. The tubing is fed along the common axis to be operated on by the actuator groups. A forward actuator group clamps onto the tubing and is then moved along its track, pulling the tubing. A rearward actuator group then clamps onto the tubing and cuts the tubing. While still clamped onto the tubing, the rearward actuator group is moved forward, pulling more tubing, and the actuator group that was forward is moved to the rearward position and the process is repeated iteratively to produce tubing sections cut to the desired length. The tubing is pressurized and kept under pressure to straighten the tubing.

A beverage vending machine with a stirrer dispenser configured to form and dispense disposable stirrersfrom a strip made of food-grade material, preferably biodegradable or compostable and preferably plastic-free and waterproof. The stirrer dispenser comprises a detaching device configured either to detach, or to allow manual detachment of, an end piece of the stripwith such a length as to be usable as a stirrer.

The present invention relates to a machine for cutting decorations for frustoconical bodies, for cutting printed strips wherein arch-shaped decorations and disposable trapezoidal portions are alternated. The machine comprises two longitudinal supports mounted on clamping pieces and carriers of respective groups of counter blades; and two independent groups of blades attached to the respective groups of counter blades and defining a gap between them of increasing width towards a lower gravity outlet opening of the trapezoidal portions separated by cutting. The blades of each group are fixed to respective drive shafts mounted in holes in the longitudinal supports and fixed to a common plate driven by a cylinder. The clamping parts of the longitudinal supports and the common plate are exchangeable for others that provide different inclinations and separations of the groups of blades and counter blades.

This invention is a mechanical harvesting device which uses a novel approach to cut stems on agricultural products such as apples. The device is comprised of a system including levers and a unique cutting blade profile which allows for directional transfer of force from the wrists and forearms to effectuate cutting. The device is designed so that the cutting of stems on agricultural products can be performed separately and autonomously by both arms, thus offering improvements in efficiency and safety over other harvesting practices where the cutting is performed using both hands together. Current improvements include revisions to the product interface and safety guide as well as new versions of the device, employing many of the same design elements but having as the main difference a powered motor to actuate the cutting sequence in place of levers. Future improvements include options for data generation using electronic signal processing to tabulate periodic count totals on harvested product. Such data would help growers and marketers gather valuable information about crop sizing and labor efficiency.

Devices and methods for extraction and processing of substantiagelatineafuniculi umbilicalis (Wharton's Jelly) from an umbilical cord.