The present disclosure discloses a machine and a method for peeling skin from un-peeled objects that mainly includes at least one controller, an object: handling unit, an agitating: and heating unit and a peeling and separating unit. The agitating and heating unit includes an agitator and a heater. The agitator receives un-peeled objects and hot abrasive particles. During agitation, un-peeled objects and hot abrasive particles tumble with each other thereby loosing bond between skin and objects and provide objects with loosely bonded skin. The heater heats the abrasive particles and then permits, flow within the agitator by use of abrasive conveyor. Objects with loosely bonded skin are then provided in the peeling and separation unit for peeling and separating skin from un-peeled objects and provide peeled objects in a controlled manner.

An environment-friendly shelling system and a sheller with multilayer modules thereof is provided, which relates to the technical field of agricultural processing devices. The sheller including a cylinder, fixed screens and rotating screens are provided in the cylinder, for each fixed screen, the fixed screen is arranged opposite to a corresponding one of the rotating screens, a shelling cavity for shelling is provided between the fixed screen and the corresponding one of the rotating screens, a mesh size of the fixed screen is greater than a mesh size of the corresponding one of the rotating screens, and a respective one of material receiving plates is coaxially provided below and co-rotated with the corresponding one of the rotating screens; feeding ports and discharging ports are provided on a side wall of the cylinder.

An environment-friendly shelling system and a sheller with multilayer modules thereof is provided, which relates to the technical field of agricultural processing devices. The sheller including a cylinder, fixed screens and rotating screens are provided in the cylinder, for each fixed screen, the fixed screen is arranged opposite to a corresponding one of the rotating screens, a shelling cavity for shelling is provided between the fixed screen and the corresponding one of the rotating screens, a mesh size of the fixed screen is greater than a mesh size of the corresponding one of the rotating screens, and a respective one of material receiving plates is coaxially provided below and co-rotated with the corresponding one of the rotating screens; feeding ports and discharging ports are provided on a side wall of the cylinder.

An intelligent separation device has gas explosion, stirring, drying and negative pressure adsorption devices. The gas explosion device receives conveyed peanut materials with red coats to be removed, and the materials are subjected to gas explosion, so that the peanut kernels and the peanut red coats are preliminarily separated. The stirring device shifts the preliminarily separated peanut kernels and peanut red coats into the drying device. The drying device compresses and heating external air, transfers heat through hot air, and heats and dries the preliminarily separated peanut kernels and peanut red coats, so that the peanut red coats and the peanut kernels are fully separated. The negative pressure adsorption device collects the fully separated peanut kernels and red coats with different densities and masses in a negative pressure adsorption mode.

An intelligent separation device has gas explosion, stirring, drying and negative pressure adsorption devices. The gas explosion device receives conveyed peanut materials with red coats to be removed, and the materials are subjected to gas explosion, so that the peanut kernels and the peanut red coats are preliminarily separated. The stirring device shifts the preliminarily separated peanut kernels and peanut red coats into the drying device. The drying device compresses and heating external air, transfers heat through hot air, and heats and dries the preliminarily separated peanut kernels and peanut red coats, so that the peanut red coats and the peanut kernels are fully separated. The negative pressure adsorption device collects the fully separated peanut kernels and red coats with different densities and masses in a negative pressure adsorption mode.

The present disclosure provides a peanut whole-process production line and a method. The peanut whole-process production line includes a peanut cleaning system, a shell breaking system, a skin removing system, a peanut kernel classification system, an ultra-fine pulverization system and a classification packaging system; a first procedure is cleaning and impurity removal of peanuts, breaking of peanut shells is performed after the cleaning and impurity removal of peanuts, removal of peanut kernel skins and ultra-fine pulverization of the peanut shells are respectively performed after the breaking of peanut shells, classification of peanut kernels is performed after the removal of peanut kernel skins, and classification packaging of ultra-fine peanut shell powder is performed after the ultra-fine pulverization of the peanut shells; whole-process processing of peanuts is completed by using the peanut whole-process production line, and peanut resources are fully utilized.

The present disclosure provides a peanut whole-process production line and a method. The peanut whole-process production line includes a peanut cleaning system, a shell breaking system, a skin removing system, a peanut kernel classification system, an ultra-fine pulverization system and a classification packaging system; a first procedure is cleaning and impurity removal of peanuts, breaking of peanut shells is performed after the cleaning and impurity removal of peanuts, removal of peanut kernel skins and ultra-fine pulverization of the peanut shells are respectively performed after the breaking of peanut shells, classification of peanut kernels is performed after the removal of peanut kernel skins, and classification packaging of ultra-fine peanut shell powder is performed after the ultra-fine pulverization of the peanut shells; whole-process processing of peanuts is completed by using the peanut whole-process production line, and peanut resources are fully utilized.

An intelligent separation method of peanut kernel and red coat, feeding peanuts to be removed red coats into a device for a gas explosion of the red coats of the peanuts, to complete a preliminary separation of kernels and the red coats of the peanuts; feeding the primarily separated kernels and peanut red coats of the peanuts into the drying device to fully separate the red coats from the kernels; delivering the fully separated peanut kernels and red coats of the peanuts into a negative pressure adsorption device to collect respectively the fully separated kernels and red coats of the peanuts with different densities and qualities by a negative pressure adsorption mode, finally obtaining the kernels of the peanuts without the red coats, and the red coats of the peanuts respectively.

Procedure for separating the husk from the seeds or fruit, screening device and selection device

It comprises introducing the seeds or fruit in a splitting machine that hits said husk of the seeds or fruit, splitting it.