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.

A food slicing includes a forward conveyor assembly located proximal to the blade assembly and a rearward conveyor assembly configured to transport the food product to the forward conveyor assembly. The rearward conveyor assembly is located immediately upstream from the forward conveyor assembly and gap is formed laterally between the forward conveyor assembly and the rearward conveyor assembly, in the longitudinal direction. An upper scanner unit proximal the gap scans an upper surface of the food product while a lower scanner unit located below the forward and rearward conveyor assemblies scans a lower surface of the food product as the food product passes across the gap, to obtain contour information of the lower surface of the food product.

A drive assembly for a food product slicing apparatus is provided which slices food products into slices. The drive assembly is mounted on a frame of the food product slicing apparatus and includes lower and upper conveyor assemblies coupled to the frame which move food products relative to the frame. The upper conveyor assembly is configured to move upward and downward relative to an upper plane defined by the lower conveyor assembly, and is further configured to pivot relative to the lower conveyor assembly to firmly grip the food products as they pass therebetween.

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.

A housing has a first end and a second end, an inner surface of the housing defining a channel that is configured to slidably receive therein a food product. A food product motivating mechanism is configured to engage a food product, the food product motivating mechanism being slidably receivable in the first end of the housing, the food product motivating mechanism and the housing being configured to cooperatively slidably urge a food product from the first end of the housing toward the second end of the housing. A rotating cutting mechanism is removably attachable to an outer surface of the second end of the housing, the rotating cutting mechanism being configured to rotate about the second end of the housing, the rotating cutting mechanism being further configured to cuttingly engage a food product.

A food article slicing machine includes a food article loading apparatus with a lift tray assembly for moving food articles from a staging position to an elevated position at a beginning of a food article feed path, a food article feed apparatus disposed over the food article loading apparatus having an upper conveyor assembly with an independently driven endless conveyor belt used in cooperation with a food article gripper for moving the food articles along the food article feed path, a food article stop gate that forms part of the food article feed path and opens to drop food article end portions, and a slicing station at an end of the food article feed path with a knife for slicing the food articles.

Described herein is an array of finished products, each finished product in said array may have a Percent Compressibility of greater than 3.00% and an actual length ranging from about 10.955 inches to about 11.045 inches. The finished products may be paper towels, where the actual length is different for at least two finished products of the array and where at least one of the finished products of the array of finished products may comprise a protruding core and where at least one of the finished products may comprise a hidden core, and where each of the finished products are in a package.

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.

A system for packaging groups of paper rolls, including a cutting-off machine that cuts paper logs, each group including rolls obtained from a same log. The system includes: a first unit for arranging the individual rolls spaced apart from each other; a second unit forming the groups by grouping a predetermined number of rolls, the second unit being provided with blades adapted to push from the back the last roll of each group to be formed and each formed group as the individual groups are formed by exerting a pushing action on the rear base of said last roll while the front base and a lateral surface of each roll are free; a third unit located downstream of the second unit and adapted to convey the groups towards a packaging machine.

The present invention relates to a portioning machine for dividing a strand-like product into individual portions and a method of controlling such portioning machine. The portioning machine includes a magazine turret attachment for receiving the strand-like product, a pressing unit for pressure-compacting the strand-like product at least in its longitudinal direction, and a portioning and cutting device for portioning and separating individual portions from the strand-like product. The magazine turret attachment has a base segment and a turret segment which have chute portions oriented coaxially with respect to one another for forming at least one reception chute for the strand-like product and which are rotatable about a common axis for positioning the reception chute in a cutting position; and wherein the pressing unit for pressure-compacting the strand-like product has at least one pressure ram and a counter-pressure element. The counter-pressure element is a slide element arranged between the base segment and the turret segment of the magazine turret attachment and is reversibly movable in a direction at least approximately perpendicular to the axis of rotation of the magazine turret attachment between a release position and a closure position for unblocking or closing the reception chute placed in the cutting position.