Rotary knifes/cutters play an important role in manufacturing of finished products. The rotary cutters tend to lose their cutting material over time. Hence to compensate, pressure applied by cylinder over rotary cutter needs to be changed. But this change in pressure needs to be optimum as too high pressure can lead to loss of material and too low pressure can stop cutting operation. Present application provides methods and systems for real time estimation of pressure change requirements for rotary cutters. The system first determines minimum and maximum usage limit for rotary cutter based on historical rotary cutter usage data and real-time pressure value using first trained model. The system, upon determining that minimum usage limit is reached, determines time for next pressure change based on physical parameters using second trained model. Thereafter, system compares estimated time with estimated maximum usage limit and displays notification to change pressure based on comparison.

An edge trimming mechanism of an edge banding machine capable of removing scraps includes a cutting device and an air guiding cover. The cutting device includes a motor having a power outputting shaft, and a cutter mounted at an end of the power outputting shaft. The air guiding cover is hollow-shaped, installed outside the motor, and has air inlet and outlet. The power outputting shaft protrudes out of the air inlet and the cutter is at least partially located out of the air inlet. An air exhausting path is defined between the inner wall of the air guiding cover and the outer wall of the motor. Two opposite ends of the air exhausting path communicate with the air inlet and outlet respectively. By the above-described configuration of the edge trimming mechanism, it is effective in removing the scraps produced by the edge banding machine in the edge trimming process.

An apparatus and method for cutting blocks of frozen food into irregular shapes comprises a slicer unit carrying a cutting blade and chutes for feeding logs of frozen food to said blade. The chute extends from a chute inlet to a chute outlet, having a central longitudinal axis extending from the center of the chute inlet to center of chute outlet. The cutting blade is positioned below the chute outlets wherein said elongate blocks of processed food are fed into said chute inlet through the chute to the chute outlet, to said blade, said blade sectioning the blocks into smaller pieces. The chutes are angled greater than 15 degrees and less than 90 degrees from the plane of the cutting blade and the chute is rotated about its longitudinal axis between 0 to 180 degrees from a square orientation to the plane of the blade.

An apparatus and method for cutting blocks of frozen food into irregular shapes comprises a slicer unit carrying a cutting blade and chutes for feeding logs of frozen food to said blade. The chute extends from a chute inlet to a chute outlet, having a central longitudinal axis extending from the center of the chute inlet to center of chute outlet. The cutting blade is positioned below the chute outlets wherein said elongate blocks of processed food are fed into said chute inlet through the chute to the chute outlet, to said blade, said blade sectioning the blocks into smaller pieces. The chutes are angled greater than 15 degrees and less than 90 degrees from the plane of the cutting blade and the chute is rotated about its longitudinal axis between 0 to 180 degrees from a square orientation to the plane of the blade.

The invention relates to a gripper for use in a slicing machine, in particular a high-performance slicing machine, said gripper being joined to the food product using an integral bonding process.

Apparatuses, systems, and methods are disclosed for a multidimensional print, cut, and craft device. A device includes a housing, a gantry coupled to the housing, a tool housing movably coupled to the gantry, a tool holder coupled to the tool housing, and a material platform. The tool housing is movable in three dimensions in response to the gantry being actuated to craft a material placed on the material platform using a tool placed in the tool holder.

A cutting assembly for use in a hydro-cutting system in which water and food products are conveyed through tubes and the food products are sliced into smaller pieces. The cutting assembly includes multiple disks and U-shaped blades. Legs of the blades are mounted between the substantially parallel disks on opposite sides of the disks, thereby holding the blades in place. A rotationally-driven motor driveshaft extends through the assembly and the assembly is mounted in a tube. When the water and food products are conveyed into the cutting assembly, the rotating assembly slices pieces from the food product, and the pieces are separated from the water for later use or processing. The water can be used in another slicing cycle.

A cutting assembly for use in a hydro-cutting system in which water and food products are conveyed through tubes and the food products are sliced into smaller pieces. The cutting assembly includes multiple disks and U-shaped blades. Legs of the blades are mounted between the substantially parallel disks on opposite sides of the disks, thereby holding the blades in place. A rotationally-driven motor driveshaft extends through the assembly and the assembly is mounted in a tube. When the water and food products are conveyed into the cutting assembly, the rotating assembly slices pieces from the food product, and the pieces are separated from the water for later use or processing. The water can be used in another slicing cycle.

A transverse cutting system for a machine for the production of plastic film includes a supporting structure carrying a cutting unit, which are moved between a rest position away from a path of a plastic film being wound and an operating position along the path of the plastic film; a rotating support carrying a hot wire; a rotating cap, associated to an idle roller and arranged transversally to the path of the plastic film that is moving forwards, and an actuator, which controls the rotation of the rotating support carrying the rotating cap and causes the rotating cap to interfere with the plastic film before the hot wire also interferes with said plastic film. The same plastic film, owing to the friction force generated by the rotating cap, entrains it with it, causing the rotating cap to equalize the linear velocity of the plastic film.

Some examples of a cable cutting system include a first cutting apparatus that includes a recess to receive a cable. The system includes a second cutting apparatus separate from and attached to the first cutting apparatus. The second cutting apparatus includes multiple cutting surfaces arranged to cut the cable received at the recess.