A blade housing assembly for a power operated rotary knife including a split blade housing and an expansion sleeve assembly. The split blade housing including an annular blade support section and a mounting section extending from the blade support section. The mounting section includes a split extending through the mounting section and includes a first body portion and a second body portion on opposite sides of the split, the first body portion including a slot extending axially through the first body portion and movable between blade supporting and blade changing positions. The expansion sleeve assembly extends through the slot and includes a split sleeve changeable between first and second circumferences. The expansion sleeve assembly further including a fastener extends through the split sleeve and, when engaged with the split sleeve, maintains the split sleeve in the first circumference and secures the first body portion in the blade supporting position.

An assembly between a filling machine and a conveyor for the production of pasty shaped parts, having various shape-generating elements which are adapted to the respective shape of differently shaped parts and can be driven, has an outlet and at least one universal drive and bearing interface for the shape-generating elements which can be driven via the interface.

In order to damage structure of a loaf as little as possible when pressing it, a change in length of the loaf that occurs during pressing should be limited to a specified target change in length. For this purpose, a crossposition of a crosspress stamp to be set for pressing may automatically be determined and set from basic data of the loaf determined before pressing, in particular its length and volume or weight.

A system 10 for analyzing and trimming pork bellies and other three-dimensional food and non-food products which are to be subsequently portioned or sliced so as to achieve an optimum harvest of slices from the food product bearing in mind achieving a maximum yield together with a desired quality level of the portions/slices. The system 10 includes a conveyor 12 for carrying the workpieces (WP) to be trimmed prior to subsequent slicing of the workpiece past a scanning system 14 for scanning the workpiece WP to ascertain the physical characteristics of the workpiece, including, for example, its three-dimensional shape as well as its position on the conveyor.

A cutting station 16 trims the workpiece WP into a desired two-dimensional shape which represents an optimum shape for the workpiece that seeks to maximize the harvest of slices from the workpiece while maintaining a desired quality level for the slices. A slicing station uses high speed cutters or slicers for portioning/slicing the workpiece into portions/slices which have been simulated by a processing system 18 employing a processor or computer 20.

A food processing system includes a driving pulley, a driven pulley, a motor, a belt, and an actuator. The motor is configured to rotate the driving pulley. The belt is connected with the driving pulley and the driven pulley. The driving pulley is configured to rotate the belt. The belt is configured to rotate the driven pulley. The actuator is connected with the driven pulley. The actuator is configured to move the driven pulley relative to the belt between an extended position and a retracted position.

Method and system for optically assessing properties of a body on at least one sectional surface of at least one cut introduced in the body in question. The sectional surface is thereby optically recorded directly during the cutting operation by an image acquisition unit, namely, by means of optical sensors of a blade of a cutting tool that is designed for this purpose. The data resulting from a digitization of the sensor signals that have been converted into electrical signals are then processed in an image processing device to visualize the at least one sectional surface on at least one display or/and to create reports in regard to the characteristics of the body or/and in order to classify the body in accordance with a classification system, or/and to derive control signals for a subsequent further processing of the body or of parts produced by the execution of the at least one cut.

A blade housing assembly for a power operated rotary knife including a split blade housing and an expansion sleeve assembly. The split blade housing including an annular blade support section and a mounting section extending from the blade support section. The mounting section includes a split extending through the mounting section and includes a first body portion and a second body portion on opposite sides of the split, the first body portion including a slot extending axially through the first body portion and movable between blade supporting and blade changing positions. The expansion sleeve assembly extends through the slot and includes a split sleeve changeable between first and second circumferences. The expansion sleeve assembly further including a fastener extends through the split sleeve and, when engaged with the split sleeve, maintains the split sleeve in the first circumference and secures the first body portion in the blade supporting position.

A cartilage cutting device for a bone-in meat according to an embodiment includes a cutting blade disposed on a conveying path for a bone-in meat and an elastic support portion for elastically supporting the cutting blade so that the cutting blade can recede by a reaction force applied to the cutting blade when cutting the bone-in meat. The elastic support portion is configured such that an elastic supporting force of the elastic support portion is switchable between a first elastic supporting force and a second elastic supporting force. The first elastic supporting force is capable of cutting a cartilage adhering to a bone part of the bone-in meat. The second elastic supporting force is smaller than the first elastic supporting force and is incapable of cutting the cartilage.

A cutting apparatus for slicing and/or dividing meat products, in particular bacon and/or fresh meat products, comprises a product feed that is configured to guide at least one first product and at least one second product simultaneously into a cutting region in which slices and/or pieces are cut off from the products by means of a first rotating blade and by means of a second rotating blade. In this respect, the product feed has a first conveying means for guiding the at least one first product into the cutting region and a second conveying means for guiding the at least one second product into the cutting region, wherein the first blade is associated with the first conveying means and is provided for cutting off slices and/or pieces from the at least one first product, and wherein the second blade is associated with the second conveying means and is provided for cutting off slices and/or pieces from the at least one second product.

Disclosed is a food product formed from the leg of a fowl comprising: a) a central leg bone having a foot end and a thigh end, said leg bone preferably being substantially without at least a foot knuckle; and b) a first portion of natural meat originally located around a portion of the foot-end of said bone and displaced from said foot end toward said thigh-end such that at least a portion of said foot-end bone is exposed and such that said displaced portion of meat remains indirectly attached to the bone.