The safety attachment provides preferably 4 video cameras mounted around a bandsaw blade and looking parallel to the blade direction. Each camera CCD sensor is partly scanned in mode 1. In mode 1 an axis corner of each scanned area is aligned with the camera axis, produced to the table, defining a corner of a parallel-sided protected volume including the entire exposed blade. The blade is rapidly braked when the attachment detects a glove intrusion. In the alternative fully scanned mode 2 the protected area extends outside the mode 1 area and a warning only is emitted on intrusion.

A vacuum rotary knife is fluidly connectable to a vacuum source conduit. The rotary knife includes an annular blade and a knife head. The knife head supports the blade for rotation about a rotational axis. The knife head presents a vacuum port fluidly connectable to the conduit. The vacuum port is spaced from the blade such that the knife head defines a suction pathway extending between the blade and the vacuum port.

This disclosure describes methods for growing cells in a controlled environment in a growing room, transporting the cells to a harvest room, and removing the cells from the controlled environment in the harvest room. The disclosed method can limit exposure of cells to contaminants by maintaining a controlled environment through cell growth and additional processing. For instance, the cells may be washed and cooled within the controlled environment. The cells are transferred to a harvest room where they are harvested and removed from the controlled environment.

The present invention relates to a ham stand (1) that comprises a support structure (2) for a ham (3) and a base structure (4) for the assembly, and a connection element (5) of the support structure (2) with the base structure (4). The connection element (5) comprises a spherical joint (6) and a housing piece (7) of said joint (6) attached to the other structure such that it presents multiple degrees of freedom due to the combination of pivoting and rotational movements of the support structure (2) with respect to the base structure (4). Thanks to the pivoting movement, the user can rotate the ham to position it as desired in order to cut it conveniently and safely.

This disclosure concerns methods for processing and grading food articles including x-raying the food articles a first time and taking a 3D image of the food articles.

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.

The present disclosure relates to systems, apparatuses, and methods for preparing cell-based meat products (i.e., comestible meat products). In particular, a pipe-based bioreactor is disclosed having one or more substrates disposed therein. In one or more embodiments, the one or more substrates comprise a plurality of nominally spaced substrates conforming to an interior profile of an elongated enclosure of the pipe-based bioreactor. In some embodiments, multiple pipe-based bioreactors are interconnected a fluid source for preparing cell-based meat products. In addition, various methods and procedures for utilizing embodiments of pipe-based bioreactors are disclosed.

Food or feed processors (16, 16a) include an elongated processor barrel (38) presenting an inner surface (44) with a central body or tube (60) within the barrel (38) and presenting an outer surface (62). The surfaces (38, 62) define an elongated annular processing region (70). The barrel (38) and tube (60) are steam heated by means of apparatus (52, 66). A rotatable processing element (72) is also located within the region (70). The element (72) has a plurality of vanes (88, 104), which scrape the surfaces (44, 62) to prevent buildup of material on these surfaces.

A saw blade illumination device includes a waterproof main body that houses a light source to be directed along the length of a bandsaw blade. The device includes a mounting bracket for securing the main body onto a guide post of the band saw. The light source includes a laser assembly having a laser diode, and a lens for producing a generally planar beam of light. A vibration isolator is disposed along the mounting bracket at a location between the main body and the guide post. A power unit is connected to the light source and includes a step down transformer and an electrical connector for engaging the power source of the band saw.

Food or feed processing systems (10, 96) include an extruder (14) and a downstream processor (16, 16a), and are operable to process high meat food or feed formulations. The processors (16, 16a) include an elongated processor barrel (38) presenting an inner surface (44) with a central body or tube (60) within the barrel (38) and presenting an outer surface (62). The surfaces (38, 62) thereby define an elongated annular processing region (70). The barrel (38) and tube (60) are steam heated by means of apparatus (52, 66). A rotatable processing element (72) is also located within the region (70). The element (72) has a plurality of helical vanes (88, 104), which scrape the surfaces (44, 62) to prevent buildup of material on these surfaces.