The present invention relates to a magazine turret attachment for a portioning machine for dividing a strand-like product into individual portions and a portioning machine having such a magazine turret attachment. The magazine turret attachment includes a turret base rotatable about a rotation axis which has at least one chute extending through the turret base and the chute axis of which extends at least approximately parallel to the rotation axis of the turret base; and at least one first chute module which may be reversibly arranged on the turret base in the area of the first chute and which is provided with only one chute extending through said first chute module and the chute axis of which extends coaxially to the chute axis of the first chute of the turret base and the cross-section of which corresponds at least approximately to the cross-section of the at least one chute of the turret base in order to form a first reception chute for a strand-like product.

A slicing apparatus for slicing food products into slices comprises a feeding unit configured to feed products along a feeding direction into a cutting region in which a blade for slicing the products into slices is arranged, wherein the feeding unit comprises a moving device that is configured to move the products into the cutting region, and wherein the moving device comprises a transporting member that is configured to apply a pressure onto an upper product side while the product is fed into the cutting region.

A device and a method for cutting a loaf of bread in slices having an input compartment adjacent to a set of parallel oblong blades which can be driven back and forth in their longitudinal direction. A pusher movable between a retracted position in relation to the blades and an end cutting position pushes the bread through the blades. A detector is provided to detect the presence of an object in the access opening of an input compartment which cooperates with the blades' drive to stop the movement of the blades when the presence of an object in the access opening is detected. When the presence of an object in the access opening is detected while the pusher is in its retracted position, the movement of the blades starts and the pusher will be moved from its retracted position to the end cutting position when the object is no longer detected in the access opening.

A feed chute assembly includes a lid coupleable to a container of a food processing system. The lid has a feed chute for introducing food towards rotating blades at the top of the container. A linkage cover housing a linkage component for activating the motor couples to the feed chute. The linkage cover defines a channel within an inside perimeter of the feed chute. A user inserts a pusher into the feed chute such that a rib on the pusher extends into the channel, operatively engaging the linkage component to activate the motor. When the user removes the pusher from the feed chute, the motor stops the spinning blades.

A vertical slicer includes a frame having a cover plate with a central opening and a hopper positioned over the opening. A carriage having a deck and a main cutting blade is attached to a spring-loaded plunger for reciprocating vertical movement within the frame. A tray collects food items cut by the main blade, which can be selectively adjusted to change a slicing thickness. A locking switch is configured to lock the plunger and carriage in a lowered locked position.

A food product slicing apparatus is configured to slice food products into slices. A load assembly pivotally is mounted on a frame and a food product is positioned thereon. A drive assembly on the frame receives the food product from the load assembly and moves the food product relative to the frame. The load assembly can be positioned in at a first, lowered position relative to the drive assembly, a second, partially raised position relative to the drive assembly and a third, fully raised position relative to the drive assembly. The drive assembly engages the food product when the load assembly is in the third, fully raised position.

A food slicing system includes a hub fixedly secured to a drive shaft and configured to rotate with the drive shaft. The hub has a central pilot projection coaxial with the drive shaft, and flat, blade contacting surface surrounding the pilot projection. A counterweight is eccentrically mounted to the hub and rotatable between a first position and an second position relative to the hub. Wherein when the counterweight is in a first position, the counterweight is in axial alignment with pilot projection, and permits the blade to be attached to or removed from the hub via movement of the blade in the axial direction. When the counterweight is in the second position, the counterweight is eccentric to the pilot projection and is offset from the axis of rotation, to provide a predetermined amount of weight offset from the axis of rotation to counterbalance the weight of the blade.

A food product slicing apparatus is provided for slicing food products into slices. A frame mounts a drive assembly, a lower feed roller, a shear bar and a slicing blade. The drive assembly moves the food products onto the lower feed roller. The food product passes over the lower feed roller and through the shear bar for slicing by the slicing blade. At least one upper feed roller is mounted on the shear bar and is adjustable in position relative to the lower feed roller.

A food slicing system having a main frame includes a blade reciprocating assembly, which further includes a support frame, a rotating cutting blade mounted to the support frame, a motor mounted on the support frame, and a support shaft operatively coupled to the main frame at opposite ends thereof. The support shaft is coupled to an upper portion of the support frame and is configured to support the support frame and permit pivotal movement of the support frame. A drive shaft is operatively coupled to the main frame and is rotationally driven by an actuator. A plurality of linkage elements are configured to operatively couple the drive shaft to a lower portion of the support frame, where the linkage elements reciprocally move the blade reciprocating assembly between a slicing position and a clearance position, and where the support frame pivots about the support shaft during the reciprocal movement.

A food product slicing apparatus for slicing food products into slices is provided. A frame mounts a drive assembly which is configured to move the food products relative to the frame, a side strapping assembly which side straps a side of the food product, and a slicing blade configured to slice the food products into slices. The side strapping assembly is mounted to the frame proximate to the drive assembly. The side strapping assembly includes a releasable clamp which couples a blade of the side strapping assembly to the frame. The clamp can be released without the use of tools.