A scribe saw assembly is provided for a loin puller and has substantially reduced wear and increased life of the assembly components. A pinion assembly includes a double keyway and opposing cutouts on the pinion shaft, with dual needle bearings. A bevel gear assembly includes pins for holding the scribe saw blade and dual bearings on the bevel gear shaft to eliminate shaft flex and blade wear. The standard is mounted to the motor housing with load bearing pins to prevent loosening of the mounting bolts. An adjustable ski is provided on the standard to control the cutting depth of the scribe saw blade.

The present disclosure provides a mechanical system for providing a food product on a sheet of paper. The disclosed mechanical system includes an adjustable conveyor belt system that is configured to enable a puck of food product to land up-right. The angle (e.g., slope) of the adjustable conveyor belt system can be adjusted to account for variations in the size and shape of the puck. The disclosed mechanical system also includes a flattener that is configured to provide memory to the pressed pucks.

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 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.

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.

There is described an inline cutting system comprising an extruder having an outlet, an outlet line connected with the extruder outlet. The outlet line comprises a side wall surrounding an internal passage. Cutting means is arranged in connection with the outlet line. The extruder is arranged for continuously producing a meat analogue product and the extruded string of meat analogue product is cut into meat pieces by the cutting means. The cutting means is extending through the side wall of the outlet line and extends inside said internal passage. The cutting means comprises at least one cutting edge which is pointed in a substantial axial direction of the outlet line in order to establish a cutting in the longitudinal direction of the string of meat analogue product. The extruder and the outlet line forms a closed enclosure upstream of the cutting means.

A carcass cutting system including a belt positioned below a conveyor such as to stabilise a carcass during imaging and/or cutting operations. An offset section of conveyor track in the region of the belt may be utilized to urge the carcass against the belt. Imagining may use an optical imaging system, an X-ray imaging system, a laser scanning camera, a time of flight camera or a Dual-energy X-ray absorptiometry system. Imaging information may be used to calculate cutting paths and/or weight distribution of carcass portions. Cutting may be performed by a robotic cutter using a circular saw or a circular knife.

A scribe saw assembly is provided for a loin puller and has substantially reduced wear and increased life of the assembly components. A pinion assembly includes a double keyway and opposing cutouts on the pinion shaft, with dual needle bearings. A bevel gear assembly includes pins for holding the scribe saw blade and dual bearings on the bevel gear shaft to eliminate shaft flex and blade wear. The standard is mounted to the motor housing with load bearing pins to prevent loosening of the mounting bolts. An adjustable ski is provided on the standard to control the cutting depth of the scribe saw blade.

The technology as disclosed herein includes a method and apparatus for deboning a meat item, and more particular for deboning a poultry item including performing an initial shoulder cut for removing boneless breast meat from the poultry carcass or frame. The method and apparatus disclosed and claimed herein is a combination of a robotic arm including an ultrasonic knife implement and a vision system for varying the cut path based on the shape and size of the poultry item. The combination as claimed including the ultrasonic knife can perform a meat cut while penetrating the meat with less force than the typical penetration that occurs when using a traditional knife.

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.