Abstract: A method for weighing sliced products to generate product batches of a pre-determined weight. A slicer slices products which are disposed onto a slice scale located beneath the output end of the slicer. An intermediate weight is measured at a pre-determined point in the slicing process. The intermediate weight information is used to calculate the minimum number of completion slices, based on thicknesses of the slices, needed to meet the target weight. The competed draft is transferred to a check sale where a final draft weight is measured and compared to a sum of the intermediate weight and the weight of the completion slices. Comparison of the weight is used to adjust slicing parameters for more precise targeting of the desired weight of the next draft. Completion slices may be adjusted in thickness to minimize the giveaway weight.

Abstract: An apparatus for acquiring a profile of a food product for use in subsequent processing of the food product includes a scanning area and one or more product drives for driving a product through the scanning area in a longitudinal direction. First line lasers project one first transverse laser line transversely to the longitudinal direction on the first surface and two first cameras arranged to capture different, overlapping first transverse image portions of the first transverse laser line. A reference laser projects a beam on the first surface that indicates a transverse reference position, and the two first cameras also capture the reference position. A control system uses the transverse reference position to combine the different first transverse image portions captured by the two first cameras to calculate a first profile of the first surface at multiple positions along a length of the first surface as the product is driven through the scanning area.

Abstract: A method for weighing sliced products to generate product batches of a pre- determined weight. A slicer slices products which are disposed onto a slice scale located beneath the output end of the slicer. An intermediate weight is measured at a pre-determined point in the slicing process. The intermediate weight information is used to calculate the minimum number of completion slices, based on thicknesses of the slices, needed to meet the target weight. The competed draft is transferred to a check sale where a final draft weight is measured and compared to a sum of the intermediate weight and the weight of the completion slices. Comparison of the weight is used to adjust slicing parameters for more precise targeting of the desired weight of the next draft. Completion slices may be adjusted in thickness to minimize the giveaway weight.

Abstract: A rotary molding system for molding food products, mold cavities formed when a mold shell rotates mold shapes disposed along the mold shell into a fill position between a fill plate and a wear plate. Molded food products are removed from mold cavities using knock-out cups, the use of air pressure, or the use of a vacuum source disposed below the mold cavity, without the need to slow the rotation of the mold shell. Knock-out cups may be used with a heating system to reduce accumulation of unwanted materials on the knock-out cups. The rotary molding system can also be used to form products with contoured surfaces. A smart tagging system can be used to ensure that compatible sets of mold shells and knock out cups are being used. A vacuum region may be disposed upstream of the fill position to remove air within the mold cavity prior to filling.

Abstract: A method for weighing sliced products to generate product batches of a pre-determined weight. A slicer slices products which are disposed onto a slice scale located beneath the output end of the slicer. An intermediate weight is measured at a pre-determined point in the slicing process. The intermediate weight information is used to calculate the minimum number of completion slices, based on thicknesses of the slices, needed to meet the target weight. The competed draft is transferred to a check sale where a final draft weight is measured and compared to a sum of the intermediate weight and the weight of the completion slices. Comparison of the weight is used to adjust slicing parameters for more precise targeting of the desired weight of the next draft. Completion slices may be adjusted in thickness to minimize the giveaway weight.

Abstract: A rotary molding system for molding food products, mold cavities formed when a mold shell rotates mold shapes disposed along the mold shell into a fill position between a fill plate and a wear plate. Molded food products are removed from mold cavities using knock-out cups, the use of air pressure, or the use of a vacuum source disposed below the mold cavity, without the need to slow the rotation of the mold shell. Knock-out cups may be used with a heating system to reduce accumulation of unwanted materials on the knock-out cups. The rotary molding system can also be used to form products with contoured surfaces. A smart tagging system can be used to ensure that compatible sets of mold shells and knock out cups are being used. A vacuum region may be disposed upstream of the fill position to remove air within the mold cavity prior to filling.

Abstract: A rotary molding system for molding food products, mold cavities formed when a mold shell rotates mold shapes disposed along the mold shell into a fill position between a fill plate and a wear plate. Molded food products are removed from mold cavities using knock-out cups, the use of air pressure, or the use of a vacuum source disposed below the mold cavity, without the need to slow the rotation of the mold shell. Knock-out cups may be used with a heating system to reduce accumulation of unwanted materials on the knock-out cups. The rotary molding system can also be used to form products with contoured surfaces. A smart tagging system can be used to ensure that compatible sets of mold shells and knock out cups are being used. A vacuum region may be disposed upstream of the fill position to remove air within the mold cavity prior to filling.

Abstract: A rotary molding system for molding food products, mold cavities formed when a mold shell rotates mold shapes disposed along the mold shell into a fill position between a fill plate and a wear plate. Molded food products are removed from mold cavities using knock-out cups, the use of air pressure, or the use of a vacuum source disposed below the mold cavity, without the need to slow the rotation of the mold shell. Knock-out cups may be used with a heating system to reduce accumulation of unwanted materials on the knock-out cups. The rotary molding system can also be used to form products with contoured surfaces. A smart tagging system can be used to ensure that compatible sets of mold shells and knock out cups are being used. A vacuum region may be disposed upstream of the fill position to remove air within the mold cavity prior to filling.

Abstract: A rotary molding system for molding food products, mold cavities formed when a mold shell rotates mold shapes disposed along the mold shell into a fill position between a fill plate and a wear plate. Molded food products are removed from mold cavities using knock-out cups, the use of air pressure, or the use of a vacuum source disposed below the mold cavity, without the need to slow the rotation of the mold shell. Knock-out cups may be used with a heating system to reduce accumulation of unwanted materials on the knock-out cups. The rotary molding system can also be used to form products with contoured surfaces. A smart tagging system can be used to ensure that compatible sets of mold shells and knock out cups are being used. A vacuum region may be disposed upstream of the fill position to remove air within the mold cavity prior to filling.

Abstract: A rotary molding system for molding food products, mold cavities formed when a mold shell rotates mold shapes disposed along the mold shell into a fill position between a fill plate and a wear plate. Molded food products are removed from mold cavities using knock-out cups, the use of air pressure, or the use of a vacuum source disposed below the mold cavity, without the need to slow the rotation of the mold shell. Knock-out cups may be used with a heating system to reduce accumulation of unwanted materials on the knock-out cups. The rotary molding system can also be used to form products with contoured surfaces. A smart tagging system can be used to ensure that compatible sets of mold shells and knock out cups are being used. A vacuum region may be disposed upstream of the fill position to remove air within the mold cavity prior to filling.

Abstract: A food article end location detecting system for a food article slicing machine. The system includes a sensor located so that each food article passes a sensing range of the sensor as the food articles are loaded onto a food article feed apparatus. The system has instructions for calculating the length of each food article based on a location value provided by the sensor. The system also comprises a food article end disposal mechanism. The disposal mechanism has a transport for receiving said food article ends and for removing said food article ends from said food article path. The disposal mechanism also has a paddle for displacing food article ends from the transport.

Abstract: An apparatus for acquiring a profile of a food product for use in subsequent processing of the food product includes a scanning area and one or more product drives for driving a product through the scanning area in a longitudinal direction. First line lasers project one first transverse laser line transversely to the longitudinal direction on the first surface and two first cameras arranged to capture different, overlapping first transverse image portions of the first transverse laser line. A reference laser projects a beam on the first surface that indicates a transverse reference position, and the two first cameras also capture the reference position. A control system uses the transverse reference position to combine the different first transverse image portions captured by the two first cameras to calculate a first profile of the first surface at multiple positions along a length of the first surface as the product is driven through the scanning area.

Abstract: A method for weighing sliced products to generate product batches of a pre-determined weight. A slicer slices products which are disposed onto a slice scale located beneath the output end of the slicer. An intermediate weight is measured at a pre-determined point in the slicing process. The intermediate weight information is used to calculate the minimum number of completion slices, based on thicknesses of the slices, needed to meet the target weight. The competed draft is transferred to a check sale where a final draft weight is measured and compared to a sum of the intermediate weight and the weight of the completion slices. Comparison of the weight is used to adjust slicing parameters for more precise targeting of the desired weight of the next draft. Completion slices may be adjusted in thickness to minimize the giveaway weight.

Abstract: A rotary molding system for molding food products, mold cavities formed when a mold shell rotates mold shapes disposed along the mold shell into a fill position between a fill plate and a wear plate. Molded food products are removed from mold cavities using knock-out cups, the use of air pressure, or the use of a vacuum source disposed below the mold cavity, without the need to slow the rotation of the mold shell. Knock-out cups may be used with a heating system to reduce accumulation of unwanted materials on the knock-out cups. The rotary molding system can also be used to form products with contoured surfaces. A smart tagging system can be used to ensure that compatible sets of mold shells and knock out cups are being used. A vacuum region may be disposed upstream of the fill position to remove air within the mold cavity prior to filling.

Abstract: A high speed food article slicing machine with a slicing station, a moveable frame supporting a food article feed mechanism frame, a food article gate, and a safety guard system for detecting an intrusion into the machine. Food articles are loaded onto a lift tray and raised to a staging position where food articles are in contact with a food article gate. The lift tray is located inline with the food article feed paths such that lateral shifting of food articles into the feed paths is not needed. Food article grippers, individually driven along feed paths by an overhead conveyor, move food articles over the food article gate towards the slicing station. The food article gate functions to assist in removal of food article end portions. The slicing machines utilizes a horizontally radiating laser intrusion detector to shut down systems when an unwanted intrusion is sensed.

Abstract: A scrap food slice disposal mechanism for a food article slicing machine. The disposal mechanism has a jump conveyor with a disposal position for discharging scrap slices. The disposal mechanism has a disposal path where the jump conveyor operates in the reverse direction and slices are directed to a scrap conveyor for disposal or recycling.

Abstract: An information carrier system for a food article slicing machine. The system is for reading data from removable parts of the slicing machine. The system has a data carrier located on one or more removable parts for storing data and a head for reading data from the data carrier or for writing data to the data carrier guides. A shear support is one of the removable parts.

Abstract: A food article end location detecting system for a food article slicing machine. The system includes a sensor located so that each food article passes a sensing range of the sensor as the food articles are loaded onto a food article feed apparatus. The system has instructions for calculating the length of each food article based on a location value provided by the sensor. The system also comprises a food article end disposal mechanism. The disposal mechanism has a transport for receiving said food article ends and for removing said food article ends from said food article path. The disposal mechanism also has a paddle for displacing food article ends from the transport.

Abstract: A method of classifying slices or a portion cut from a food product according to an optical image of the slice. After a slice is removed from a food product loaf the slice is passed into an image field of a digital image receiving device. A control generates a pixel-by-pixel image data of the slice using input from the digital image receiving device. The control calculates a surface area of the slice from the data, and a fat content of the slice on a pixel-by-pixel basis. The fat content data is compared to at least one predetermined limit and the slice is classified accordingly.

Abstract: A slicing and conveying system forms a three or more flavor-combined draft. A first slicing machine slices a succession of first and third slices in first and third shingled drafts. A second slicing machine slices a succession of second slices in second shingled drafts. A pass-through conveyor transfers the first draft to an output conveyor of the second slicing machine, wherein the second draft is added to the first draft to form a first combined draft. An overlap conveyor receives the first combined draft and merges the first combined draft with the third draft on the overlap conveyor to form an elongated combined draft. Optical sensors determine lengths of the first draft, the second draft, the third draft, and/or the elongated combined draft.