A cutting machine for cutting up pre-compressed meat strands into slices and a method for slicing pre-compressed meat strands, wherein the blade is moved forward in the feed direction to a limited extent after the blade has completely cut off a slice, and is either subsequently or simultaneously moved backward in the transversal direction. In this way, the forward movement of the meat strand to cut off the next slice can be started earlier.

A cutting machine for cutting up meat strands whose cross section varies over a longitudinal extension into weight precise slices as fast as possible, and a method for slicing such meat strands. Two or more strands may be received adjacent to each other in a respective form tube and pushed against a separately adjustable stop plate, which is assigned to each form tube, independently from each other by a controlled longitudinal press plunger. The strands may be compressed in the longitudinal direction and a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other. Thus, the respective meat strand may be transversally compressed to a constant cross section for slicing.

A cutting machine for cutting up meat strands whose cross section varies over a longitudinal extension into weight precise slices as fast as possible, and a method for slicing such meat strands. Two or more strands may be received adjacent to each other in a respective form tube and pushed against a separately adjustable stop plate, which is assigned to each form tube, independently from each other by a controlled longitudinal press plunger. The strands may be compressed in the longitudinal direction and a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other. Thus, the respective meat strand may be transversally compressed to a constant cross section for slicing.

A mist management system for a processing machine includes a pressure distribution assembly configured to evacuate mist from a portion of the processing machine into a plenum using pressure differences between the portion of the processing machine and the plenum. In one aspect, the system may include a mist directing assembly configured to purposefully direct mist toward the plenum using movement and momentum of the mist.

A mist management system for a processing machine includes a pressure distribution assembly configured to evacuate mist from a portion of the processing machine into a plenum using pressure differences between the portion of the processing machine and the plenum. In one aspect, the system may include a mist directing assembly configured to purposefully direct mist toward the plenum using movement and momentum of the mist.

Mist management systems are configured for a processing machine having a portioning station configured to portion a workpiece within an enclosed portioner housing having a first side wall extending along the portioning station, a second side wall, at least one hood portion between the first and second side walls, and at least one end wall between the first and second side walls, using at least one liquid jet cutter and a conveyor configured to move the workpiece in a longitudinal direction beneath the at least one liquid jet cutter. The systems may include a tray secured within the enclosed portioner housing beneath the at least one liquid jet cutter and the conveyor, the tray being downwardly angled and configured to direct a waterjet of the liquid jet cutter toward a low pressure plenum chamber positioned external to the first side wall of the enclosed portioner housing.

Mist management systems are configured for a processing machine having a portioning station configured to portion a workpiece within an enclosed portioner housing having a first side wall extending along the portioning station, a second side wall, at least one hood portion between the first and second side walls, and at least one end wall between the first and second side walls, using at least one liquid jet cutter and a conveyor configured to move the workpiece in a longitudinal direction beneath the at least one liquid jet cutter. The systems may include a tray secured within the enclosed portioner housing beneath the at least one liquid jet cutter and the conveyor, the tray being downwardly angled and configured to direct a waterjet of the liquid jet cutter toward a low pressure plenum chamber positioned external to the first side wall of the enclosed portioner housing.

This invention is a simplified method of cooking a whole fish without the problems associated with having to eat around fish bones or overcooking the fish. The whole fish is sliced open along the bottom side, the bones are removed, and the remaining fish meat is placed over a an upside-down V shaped stand for cooking for grilling.

This invention is a simplified method of cooking a whole fish without the problems associated with having to eat around fish bones or overcooking the fish. The whole fish is sliced open along the bottom side, the bones are removed, and the remaining fish meat is placed over a an upside-down V shaped stand for cooking for grilling.

A slicer apparatus for slicing food items includes a conveying means for conveying a food item to be cut along a conveying path, where a gap is provided extending across the conveying path; at least one cutting blade. A cutting land is arranged in and along the gap, and the cutting land comprises a recess on at least one side such that during cutting the at least one cutting blade at least partly extends into the recess. A first moving means is connected to the at least one cutting blade for moving the at least one cutting blade in distance relative to the cutting land. A second moving means is connected to the at least one cutting blade for moving the at least one cutting blade angularly relative to the conveying path. A third moving means is connected to the cutting land for adjusting at least an angular position of the cutting land around its longitudinal axis. The third moving means is configured to independently adjust the at least angular position of the cutting land around its longitudinal axis.