In order to be able to implement a plurality of gripper functions acting independently of one another in a slicing machine without requiring a separate drive unit for each gripper function, a switching unit displaceable along an axial shifting distance is provided. Upon displacement of the switching unit along a first partial distance of a plurality of partial distances of the shifting distance, a caliber contact element is actuated in such a way that a caliber is pushed away from a caliber gripper, and upon shifting of the switching unit along a second partial distance, gripper claws of the caliber gripper are actuated in such a way that they are moved into an engagement position, in which they engage with the caliber, or into a release position, in which they release the caliber.

A method for selectively feeding rolls of paper coming out of a log saw unit (10), wherein the log saw unit (10) comprises (n) feeding channels (12) for feeding logs (11) towards a cutting device (13) provided at the outlet with (n) unloading belts (14) in a number equal to the feeding channels (12), comprises a step of generating a stop signal relating to a portion of a packaging unit downstream of the log saw unit (10) further to the detection of accumulation of rolls (11′) and/or of stopping of a packaging machine, as well as a step of attributing said stop signal to a feeding channel/sub-group of feeding channels (12) operatively associated with the portion of the packaging unit, called “feeding channels/sub-groups of feeding channels (12) subject to stopping”, wherein the method—upon receipt of the stop signal—comprises at least the steps of: ending the cutting of the log (11) in progress on all of the (n) feeding channels (12) of the log saw unit (10), selectively stopping the forward movement of a new log (11) towards the cutting device (13) just in the feeding channels/sub-groups of feeding channels (12) subject to stopping through the stopping of the forward movement of the carriers (15) of the carrier device (16) of the feeding channels/sub-groups of feeding channels (12) subject to stopping, proceeding without interruption in the operative feeding channels (12), namely those not subject to the stop signal, with the cutting of the logs (11) in succession.

A slicing machine for cutting slices of a food product includes a machine housing including a circular blade configured to rotate in a cutting plane, a stop plate configured to be move, by an adjustment device, perpendicular to the cutting plane, a carriage mounted such that it is movable parallel to the cutting plane, and a machine status display for displaying an actual status of the slicing machine.

A retraction device includes a spindle movable along the axis thereof and an operating unit including a pull rod and a movable member. The movable member defines a step-shaped groove, the pull rod has a first end connected to the spindle, and a second end received in the groove; the groove includes a first step and a second step and an inclined face connecting the first step and the second step arranged along a first direction, and a height of the second step is greater than that of the first step along the axis direction of the spindle; the movable member is slidable along the first direction relative to the pull rod, to allow the spindle to switch between a retraction position in which the pull rod is received in the second step, and a release position in which the pull rod is received in the first step.

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 mandoline has a food holder and a food pusher, the food holder being slidable along the body and the food pusher being rotatably mounted on the food holder, the food pusher having a first pusher wall and a second pusher wall, the second pusher wall being in the form of a substantially flat plate and the first pusher wall being arranged perpendicular to the second pusher wall and being jaw-shaped in nature.

A cutting machine for cutting a food product includes a housing and a blade cover removably mounted to the housing via at least two positive or non-positive fastening points. A circular blade is rotatably disposed in the housing such that the blade cover covers a surface of the circular blade. A carriage is movably mounted parallel to the circular blade and includes a carriage surface for holding the food product. Each of the fastening points are disposed beneath the carriage surface.

A product slicer having an adjustable gauge plate precisely positioned by the unique cooperation of a cam plate and a cam follower.

A product slicer having an adjustable gauge plate precisely positioned by the unique cooperation of a cam plate and a cam follower.

A food product slicing apparatus includes a frame and upper and lower drive assemblies. The upper drive assembly includes a belt configured to engage an upper surface of a food product block to be sliced, a plate pivotally mounted to the frame, front and rear wheels supporting the upper belt, the front wheel rotatably mounted to the plate and a drive member engaged with the plate. When the drive member is engaged, the plate and the front roller pivot relative to the frame and to the rear wheel. The lower drive assembly includes a belt configured to engage a bottom surface of the food product block.