Methods for producing pet food from animals may utilize a multi-step process including a first processing system that may include at least a heating step through use of a steam jacketed tube system and a draining step to squeeze out the oils. Grinding and pre-breaking may first be used to break the fat/whole animal into pieces. The protein may be cooked in the first processing system, and a second processing system may cook the protein with hot water in the second heating step. The second processing system may wash impurities out of the protein and subject the protein to a high intensity flame that may burn off foreign matter, and/or microbes. The protein may be dried and may produce pet food for consumption by pets.

Food processing monitoring systems and method thereof are provided. A method includes obtaining first temperature data from a first temperature sensor at an inlet of a food processing machine; obtaining second temperature data from a second temperature sensor at an outlet of the food processing machine; obtaining current data from a current sensor that is configured to measure current of a motor of the food processing machine; determining presence of food product at the inlet based on a peak current, of the current data at a time the motor starts, being greater than a first current threshold; and logging a temperature of the first temperature data based on the peak current being greater than the first current threshold.

A conveying screw for a cutting and separating device, including a screw shaft having at least one helical screw flight integrally moulded thereon, which, in an installed position, has a front flank for transporting a foodstuff by pushing, a rear flank arranged on the opposite side, and, at its distal end between the front flank and the rear flank, a cylindrical portion, which is formed in the transition region to the front flank of the screw flight with a sharpened cutting edge, the sharpened cutting edge having a positive rake angle (γ) arranged between the front flank and a processing plane oriented at right angles to the screw shaft. The cutting performance of the cutting and separating device are significantly improved as the sharpened cutting edge is formed from a groove made on a distal end of the front flank, the outer contour of which groove cuts into the cylindrical portion.

A food processing line that includes at least one grinder which grinds or pre-grinds food to form a food mass; at least two mixers which mix the ground or pre-ground food mass or at least two mixer-grinders which further mixes and grinds the ground or pre-ground food mass; and at least one portioning/moulding apparatus to portion and/or mould individual food/feed products. The at least one grinder, the at least two mixers, and the at least one portioning/moulding apparatus are connected by conveyors.

Methods for separating lean and fat from beef or other meats and the separation apparatus are disclosed. The methods use microbiocidal fluids to reduce or eliminate possible sources of contamination.

Methods for separating lean and fat from beef or other meats and the separation apparatus are disclosed. The methods use microbiocidal fluids to reduce or eliminate possible sources of contamination.

A method for processing or manufacturing a meat product is disclosed. Frozen meat is provided into a meat grinder having a grinder plate having a first surface and a second surface defining apertures of different sizes and shapes extending between the first surface and the second surface. The meat is urged through the apertures by a coolant and chopped or broken into frozen pieces by a blade rotating a spaced distance from the second surface of the plate. The frozen pieces are then provided into and conveyed by an auger conveyor as more coolant is provided into the conveyor to further cool the meat pieces. The meat pieces are then sifted to more optimally obtain desired pieces sizes or range of sizes and/or sublimate the coolant.

A device for macerating bait, making chum, or both is provided. The device has a main housing having a top openable end and a closed bottom openable end; a removable lid attachable to the top openable end, wherein the removable lid comprises at least a fluid flow hole configured to, when placed in a fluid and towed behind the vessel, port the fluid to flow through the housing through bottom openable end and through the top openable end; a push rod disposed through the removable lid; a concentric cutting member attached to the push rod at a lower end of the push rod, wherein the concentric cutting member comprises a series of blades that are intersecting and have cutting edges on a top and bottom of the blades. A method of macerating bait is also provided.

The present technology provides a device, such as a food processor with interchangeable components to allow the device to serve as a juicer, pasta maker, slicer, grinder, and frozen dessert maker. The device driver receives components that attach to the outlet of the device driver via a screwed connection or other suitable connection. The device drives a central shaft connected to interchangeable components that mix pasta ingredients, drive an extrusion auger, drive a rotating slicer, or perform any other suitable functions. The components may extrude pasta, juiced pulp, frozen desserts, or ground meat. The components may receive food products and auger the food products via a tube or cylinder via a helical screwed surface of the auger. Other components drive a food slicer or a meat grinder. By changing the components connected to the drive motor of the device, five different food processing functions may be utilized.

A mincing drum for a cutting and separating device, at the first end section of which there is an inlet opening and at the second end section of which there is an outlet opening, a plurality of cutting openings being arranged in a pressure housing section of the mincing drum and passing continuously through the pressure housing section from an inner wall to an outer wall, each cutting opening having, on the inner wall, a cutting opening edge facing the outlet opening and a drawing-in opening edge facing the inlet opening. The cutting performance of the cutting and separating device and the quality of the desired food component is significantly improved as a feed channel which is recessed relative to the inner wall is situated between the cutting opening edge and the drawing-in opening edge.