A bone removal device for a chicken bonjiri includes a rotating conveyor mechanism that moves a plurality of receivers which are arrayed in a circumferential direction about a center of a disc taken as a support shaft, intermittently at a constant speed in a horizontal direction and rotates; a holder of a stamping punch mechanism that stamps and removes a coccyx in each of the bonjiris, which are mounted on the receivers, from the bonjiri in a state where this rotating conveyor mechanism is stopped; and an arm of a processed meat delivery mechanism that carries the bonjiri, from which such a bone is removed, out to the device by reversing each of the receivers.

A system for processing a suspended beef carcass as the carcass is moved along a defined path. A robotic arm is carried on a moveable table and has mounted thereon a servo motor-driven band saw capable of effecting a splitting operation on the beef carcass. The band saw is counterbalanced by a mass having a weight less than the weight of the band saw, and the robotic arm has a maximum load-carrying capacity less than the weight of the band saw. A torque monitor for the servo motor detects breaks in the band saw or breaks in the support for the band saw. A vision-based sensor system detects location of a tail bone on the beef carcass and identifies an age-indicating indicia. The system includes a controller in communication with the carcass rail, the carcass processing device and motor, and the vision-based sensor system.

A robotic carcass processing system uses a pair of robotic arms having multiple axes of motion, a saw mounted thereon, and a controller. The controller moves the saw in Cartesian space via inverse kinematics with interpolation control over the multiple axes of the robotic arm to synchronously move the saw relative to a carcass on an assembly line. The controller also determines when one of the robotic arms has moved its saw out of a defined space to indicate that space is clear and to permit the other robotic arm to enter that space. A sensor on the assembly line identifies location of the absence of a supported carcass, a supported carcass that requires special handling, or weight or length of a carcass. The controller sends a signal to the robotic arms to either effect a standard cut or to modify the standard cut at the identified location or carcass.

A system for processing a suspended beef carcass as the carcass is moved along a defined path. A robotic arm is carried on a moveable table and has mounted thereon a servo motor-driven band saw capable of effecting a splitting operation on the beef carcass. The band saw is counterbalanced by a mass having a weight less than the weight of the band saw, and the robotic arm has a maximum load-carrying capacity less than the weight of the band saw. A torque monitor for the servo motor detects breaks in the band saw or breaks in the support for the band saw. A vision-based sensor system detects location of a tail bone on the beef carcass and identifies an age-indicating indicia. The system includes a controller in communication with the carcass rail, the carcass processing device and motor, and the vision-based sensor system.

A robotic carcass processing system uses a pair of robotic arms having multiple axes of motion, a saw mounted thereon, and a controller. The controller moves the saw in Cartesian space via inverse kinematics with interpolation control over the multiple axes of the robotic arm to synchronously move the saw relative to a carcass on an assembly line. The controller also determines when one of the robotic arms has moved its saw out of a defined space to indicate that space is clear and to permit the other robotic arm to enter that space. A sensor on the assembly line identifies location of the absence of a supported carcass, a supported carcass that requires special handling, or weight or length of a carcass. The controller sends a signal to the robotic arms to either effect a standard cut or to modify the standard cut at the identified location or carcass.

A holding element positions back parts or parts thereof of poultry carcasses having a neck side, a hip side, a body exterior side, and a body interior side, wherein the back part has a spinal column or parts thereof and a rib structure having at least vertebral rib pairs or parts thereof. The back part has a region, on the exterior side of the body relative to the rib structure, that has back-flesh. The holding element includes a holding device with at least one controllable clamping element. The at least one clamping element is configured and adapted to releasably fix the back part at least in some regions on the holding device by non-positive and/or positive locking engagement with the body interior side.