This disclosure provides methods and compounds for pH controlled anticoagulant materials using phosphates. At least one phosphate and at least one alkalizing processing aid are combined in an anticoagulant compound that may be applied in an aqueous solution to acidifying animal blood to substantially neutralize the animal blood for further processing, such as fractionization.

The present invention relates to a system for monitoring utensils (100) in slaughterhouses, comprising: at least one utensil (100) comprising at least one readable medium (110) identifying the at least one utensil (100); at least one reading device (210, 220, 230, 240, 250, 260, 270, 280) in at least one specific location of the slaughterhouse, reading the at least one readable medium (110) of at least one utensil (100) for collecting at least one data relative to said utensil (100); wherein the data collected by the reading device (210, 220, 230, 240, 250, 260, 270, 280) is stored in at least one of a hardware and a cloud database.

The present invention relates to a system for monitoring utensils (100) in slaughterhouses, comprising: at least one utensil (100) comprising at least one readable medium (110) identifying the at least one utensil (100); at least one reading device (210, 220, 230, 240, 250, 260, 270, 280) in at least one specific location of the slaughterhouse, reading the at least one readable medium (110) of at least one utensil (100) for collecting at least one data relative to said utensil (100); wherein the data collected by the reading device (210, 220, 230, 240, 250, 260, 270, 280) is stored in at least one of a hardware and a cloud database.

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.

Disclosed are an animal fat grading device and an animal fat grading method. The device includes a frame, a barrel, a temperature control device, a collecting part, a compacting part and a collecting and stirring assembly; the frame is fixedly connected with the barrel, the barrel is connected with the temperature control device, the collecting part is located at a bottom of the barrel, the compacting part is located inside the barrel, and a top of the frame is telescopically connected with the collecting and stirring assembly; the collecting and stirring assembly includes a connecting plate, a stirring part and a scraper; the top of the connecting plate is telescopically connected with the top of the frame, and the bottom of the connecting plate is fixedly connected with the stirring part and the scraper; the stirring part is located in a center of the scraper, and the scraper corresponds to the compacting part. The application achieves an objective of grading fats with different melting points.

A cutting system is provided for cutting carcass parts while the carcass parts are carried by carriers connected to and moved by an overhang transport system. A detection device is provided for determining a cutting position of an incoming carcass part. At least one cutting device having an upwardly and downwardly facing surface structure is provided and a moving mechanism is mechanically connected to the at least one cutting device for controlling the position of the at least one cutting device on the basis of the determined cutting position. A carcass displacement device is arranged to initiate displacement of the carcass part away from the at least one cutting position while the carcass part or a resulting sub-part carried by a carrier and is located between the upstream cutting edge and the downstream edge.

CT-scanners for industrial use e.g. at abattoirs for scanning animal carcasses or cuttings hereof should be able to perform continuous scanning for an extended period of time and should be hygienic designed and be easy to clean. The CT scanner has an elongated tube forming a through-going opening for continuous conveying objects to be scanned through the CT-scanner and may have elongated detector pixel geometry leading to a fixed anisotropic spatial resolution. The CT-scanner is especially for scanning meat pieces to determine the quality such as the distribution of muscles and fat within the meat pieces.

The invention relates to a method for cutting open a slaughtered animal, in particular fowl, which is suspended with its legs from a suspension hook of a conveyor, in particular, but not limited to, making an incision in the belly of a slaughtered bird, wherein the method comprises the step of making a first incision in the skin of the slaughtered animal, which first incision extends substantially in a first direction of the slaughtered animal.

A system and method for cutting a carcass. The system comprises a support assembly (12) movable along a first path and a second path adjacent to a first portion and a second portion of the carcass respectively; a retractable assembly (14) movable between an extended configuration when the support assembly is moved along the first path and a retracted configuration away from the carcass when the support assembly (12) is being moved along the second path; a first cutting tools (16) processing the first portion of the carcass when the support assembly (12) is moved along the first path, and disengaging from the carcass when the retractable assembly (14) is in the retracted position; and a second cutting tool processing the second portion of the carcass when the support assembly (12) is moved along the second path. The first cutting tool (16) is independently and separately movable relatively to movement of the second cutting tool (18).

A method to capture data for animals to be slaughtered with an image capture unit that has an image capture range in which a surface of an animal to be slaughtered is captured visually and in which image points on the surface of the animal are captured. The capture unit provides image point data from the image points in transmittable form. An evaluation unit captures the point data and uses the point data to capture markings on the rear surface of the animal. The evaluation unit provides the markings as a storable capture result. Image points on the surface of the animal are captured in the image capture range. The points contain the markings. The capture unit transmits the point data. The evaluation unit captures the image point data. The method makes an association of an identification code for an animal with the point data. The evaluation unit provides the markings as a storable capture result with the code for the animal.