Molded products have particulates, and a method and device apply particulates to the surface of the molded products. In a general aspect, the molded product includes an undistorted three-dimensional design and has particulates that do not distort the shape of the three-dimensional design. The molded product can be made by a method including filling a mold in a die roll with one or more particulates, filling the mold with a dough, compressing the dough into the mold, and releasing the compressed dough from the mold to form the molded product.

A method for manufacturing a wet food product for animals can include mixing solid animal feed components with a sauce or sauce components in a temperature-controllable process reactor and sterilising the mixture by heat treatment in the process reactor. The mixing and sterilising can occur at the same time. Embodiments can utilize an apparatus that can include a reactor to receive solid animal feed components and a sauce or sauce components, a temperature control device to control the temperature of the reactor (e.g. at least one wall of the reactor), a mixing device to mix the components located in the reactor (e.g. an agitator within the reactor, etc.), and a control device to control the mixing device to mix the components in the process reactor and to control the temperature control device to sterilise the components or mixture in the reactor.

Fodder mixing wagon with a mixing container and at least one mixing member arranged rotatable therein for fodder components and a sensor system arranged to co-rotate on the mixing member for examining at least one of the fodder components and/or a fodder mixture formed therefrom. A data transmission system with a transmitter a receiver which are associated with one another in a co-rotating and not co-rotating arrangement for wireless data transmission to and/or from the sensor system; and/or an electrical generator for supplying power to the sensor system. The transmitter and receiver are arranged such that the wireless data transmission is within the mixing container; and the generator is arranged on the stator side to co-rotate with the mixing member and on the rotor side is coupled not to co-rotate. Data transmission is provided with a low transmission power. Inductive data and power transmission may be used.

A system for improving livestock and poultry feed may include a non-magnetic conduit, a feeding mechanism configured to transfer livestock and poultry feed into the non-magnetic conduit, and a magnetic fields generation mechanism that may include a plurality of magnets arranged around the non-magnetic conduit. The magnetic fields generation mechanism configured to subject the transferred livestock and poultry feed to magnetic fields. The system may subject the livestock and poultry feed to magnetic fields for a period of 40 to 45 minutes.

A system for improving livestock and poultry feed may include a non-magnetic conduit, a feeding mechanism configured to transfer livestock and poultry feed into the non-magnetic conduit, and a magnetic fields generation mechanism that may include a plurality of magnets arranged around the non-magnetic conduit. The magnetic fields generation mechanism configured to subject the transferred livestock and poultry feed to magnetic fields. The system may subject the livestock and poultry feed to magnetic fields for a period of 40 to 45 minutes.

The present invention relates to a modular, mobile mixing and packaging plant for powdery or granular products comprising a carrying structure having dimensions suitable for being introduced in a standard maritime container and internally housing a reception and manual weighing module, a material loading module, a mixing module and a packaging module.

An animal feed tenderizing system that includes: a conveyor trough; a press wheel, where the press wheel is positioned within the conveyor trough and adapted to roll over animal feed; a motor, wherein the motor is engaged with the press wheel and provides a means to rotate the press wheel; and a wheel base, where the wheel base supports the trough. The press wheel is preferably made of steel. The trough is adapted to receive animal feed, wherein the animal feed is hay. The means to rotate the press wheel may include a pulley system attached to a motor, where the motor is a hydraulic motor. The press wheel is adapted to compress animal feed to enable rehydration of the animal feed.

A system for converting an irregular flow stream of solid particulates into a continuously flowing stream of solid particulates is disclosed. The system comprises a bin adapted to receive the irregular particulate flow stream. A level sensor is adapted to produce an output signal representative of the volume of particulates in the bin. The bin level controller has a set point corresponding to a desired level for the volume of particulates in the bin and is adapted to receive the output signal from the level sensor. The bin level controller produces a bin level control signal proportional to the deviation from the set point signal. A movable valve is positioned proximate the outlet adapted to modulate the particulate flow stream out of the bin and a valve controller is operatively associated with the valve. The valve controller is adapted to respond to bin level control signals from the bin level controller. The bin level controller is constructed and arranged to operate the valve such that the volume of particulates remains at the bin set point level to ensure a constant stream of particulates out of the bin through the outlet. Once the particulate flow stream is continuous and measured, it may be subjected to further operations such as proportional coating or mixing of additional constituents.

A system for converting an irregular flow stream of solid particulates into a continuously flowing stream of solid particulates is disclosed. The system comprises a bin adapted to receive the irregular particulate flow stream. A level sensor is adapted to produce an output signal representative of the volume of particulates in the bin. The bin level controller has a set point corresponding to a desired level for the volume of particulates in the bin and is adapted to receive the output signal from the level sensor. The bin level controller produces a bin level control signal proportional to the deviation from the set point signal. A movable valve is positioned proximate the outlet adapted to modulate the particulate flow stream out of the bin and a valve controller is operatively associated with the valve. The valve controller is adapted to respond to bin level control signals from the bin level controller. The bin level controller is constructed and arranged to operate the valve such that the volume of particulates remains at the bin set point level to ensure a constant stream of particulates out of the bin through the outlet. Once the particulate flow stream is continuous and measured, it may be subjected to further operations such as proportional coating or mixing of additional constituents.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.