A method monitors a slicing machine, which has a circular knife driven by an electric knife motor. The method includes: sensing a knife motor current or a temporal profile of the knife motor current from the electric knife motor; determining measurement data based on the knife motor current or the temporal profile of the knife motor current; and determining a current cutting characteristic value based on the measurement data. The measurement data includes a load-dependent or load-independent current component. The cutting characteristic value includes a soiling, wear, or knife sharpness characteristic value, the soiling and wear characteristic values being derived from the load-independent current component, and the knife sharpness characteristic value being derived from the load-dependent current component.

A device (1) for cutting food comprises a cutting unit (10) having a rotatable carrier (20), a slicing knife (21) associated with the carrier (20) at one side of the carrier (20) for slicing the food, and at least one dicing knife associated with the carrier (20) at another side of the carrier (20) for dicing the food. The cutting unit (10) furthermore comprises a protection element (30) which is designed to be arranged vis-à-vis a side of the carrier (20) where the dicing knife associated with the carrier (20) is present, for delimiting a dicing space for the dicing knife associated with the carrier (20) to move through during operation, wherein the protection element (30) is equipped with at least one annular groove (33) at a side for facing the carrier (20), for receiving a free end of the dicing knife associated with the carrier (20).

A slicing machine for slicing meat strands that have a cross section that varies over a longitudinal extension in large numbers and as quickly as possible into weight precise slices. In one embodiment, two meat strands are received adjacent to each other in a respective form tube and pushed against a respective separately adjustable stop plate independently from each other by a controlled longitudinal press plunger and compressed in the longitudinal direction. In addition, a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other and thus the respective meat strand is transversally compressed to a constant cross section prior to slicing.

A vegetable chopper is provided and includes a base, having an upper end surface with a slideway and one end of the base corresponding to the slideway being vertically provided with a tool mounting plate, and the tool mounting plate being formed with a notch; a hand cranking rotary socket, disposed in the slideway in a slidable manner; a fixed blade, corresponding to the notch, fixed on the tool mounting plate; and further comprises: a rotary toolholder, corresponding to the notch, disposed on the tool mounting plate in a rotatable manner, having an outer side being provided with at least two sets of toothed blades in different pitches along the direction of the rotating axis of the rotary toolholder; and, a rotary mechanism, disposed on the base and connected with the rotary toolholder.

Knife arrangement for use in for example a slicer apparatus for slicing meat, and in particular fish meat, wherein the knife arrangement comprises two reciprocating knives 40, 40′, each knife 40, 40′ has a blade 54 with a sharp edge 55 and an opposite edge 56, and blade material between said edges, where adjacent a first end 57 of each knife 40, 40′ an engagement member 58 is arranged, which engagement member 58 protrudes perpendicular to the plane of the blade 40, 40′.

Methods of processing a glass ribbon are provided. The method includes the step of traversing the glass ribbon through a travel path at a predetermined velocity and severing the glass ribbon to create an upstream web and a downstream web. The method further includes the step of increasing a relative velocity of a downstream edge portion with respect to an upstream edge portion to create a gap between an upstream severed edge and a downstream severed edge. In other example methods, a segment of the glass ribbon is removed to create a gap between an upstream severed edge and a downstream severed edge. In still further example methods, an upstream severed edge is directed along a second travel path to create a gap between the upstream severed edge and a downstream severed edge.

The present invention relates to a tubular clamp module and a system thereof, and in particular, to a tubular clamp module and a system thereof applicable to a roll material cutting machine. In the tubular clamp module of the present invention, a slope is disposed at a top end of a support, and support rods slide on the slope to support tubular plates to form an appropriate radian, so as to provide a desirable tubular clamping force in combination with the force applied by a pressing belt. In the tubular clamp system of the present invention, a plurality of tubular clamp modules is used and various driving wheels and driving belts are disposed to enable synchronous adjustment of the positions of the support rods and the length of the pressing belt, so as to rapidly complete clamping of rolls having different diameters and provide a desirable tubular clamping force.

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 loading apparatus for loading food products onto and/or into a slicing apparatus, in particular a high-speed slicer, comprises at least one magazine unit that includes a conveying means that endlessly circulates along a running direction. The conveying means is configured to lift the products to a transferring height at which the products can be transferred to the slicing apparatus and includes several product support surfaces, the product support surfaces being oriented essentially perpendicular to the running direction and positioned subsequently along the running direction with a space between each other. At least one product is loadable onto a respective product support surface for lifting the product to the transferring height.

An apparatus for severing a workpiece having a cutting mechanism operable to cut the workpiece substantially along a selected course; drive mechanism operable to drive the cutting mechanism to cut the workpiece; a transport assembly operable to guide the workpiece in movement relative to a predetermined severing position and with respect to the cutting mechanism; and a frame mounting the cutting mechanism and transport assembly in predetermined relation to each other and relative to the severing position so that the drive mechanism is operable to drive the cutting mechanism to cut the workpiece in the severing position.