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.

Disclosed is an apparatus and method for cracking stone fruit nuts. The apparatus comprises a frame (2) supporting a set of spaced apart jaw comprising a first jaw (4) and a second jaw (5) defining between them a gap (6), which is tapered down from the inlet (7) to the outlet (8). The first jaw (4) is adjustably secured to the frame (2) for adjustment of the size of the gap (6). The second jaw (5) is movably supported by the frame (2) and secured to drive means configured to rotatably move the second jaw (5) relative to the first jaw (4) with a tangential motion resulting in the continuously change of the size of the gap (6). To crack the shell, the stone fruit nut is located between the jaws and repeatedly pressed and rolled between the jaws from the inlet (7) to the outlet (8).

Disclosed is an apparatus and method for cracking stone fruit nuts. The apparatus comprises a frame (2) supporting a set of spaced apart jaw comprising a first jaw (4) and a second jaw (5) defining between them a gap (6), which is tapered down from the inlet (7) to the outlet (8). The first jaw (4) is adjustably secured to the frame (2) for adjustment of the size of the gap (6). The second jaw (5) is movably supported by the frame (2) and secured to drive means configured to rotatably move the second jaw (5) relative to the first jaw (4) with a tangential motion resulting in the continuously change of the size of the gap (6). To crack the shell, the stone fruit nut is located between the jaws and repeatedly pressed and rolled between the jaws from the inlet (7) to the outlet (8).

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.

A nut picking system suitable for picking chestnuts having a gathering assembly, and a conveyor assembly. The gathering assembly has an intake and a mesh belt associated with the intake. The gathering assembly gathers chestnuts and burrs through the intake to from the mesh belt at the dispensing axle. The conveyor assembly includes a frame, bed rollers and a conveyor drive. The frame has a conveyor sides, a feed and discharge end. Each bed roller has a first end and a second end and outer surface. The bed rollers are rotatably coupled to the frame, and are spaced apart from each. The bed rollers include a plurality of spaced apart fingers extending outwardly from the outer surface and terminating in a tip. The fingers have a length that is greater than the bed roller spacing. The conveyor drive rotates the bed rollers. Methods are likewise disclosed.

The present invention relates to an impact ring for a device(S) for dehulling of granular good, comprising a ring-shaped body of metal and a polymer layer on its entire inner surface, wherein the polymer layer is releasably arranged on the inner surface of the ring-shaped body. The present invention further relates to a device (S) for dehulling of granular material with such an impact ring and/or sensors for monitoring the condition of the impact ring, which are selected from the group consisting of load sensors and vibration sensors.

A device for opening pistachios and associated procedure includes a conical receptacle, intended to receive a pistachio at the tip. A rod is aligned with the axis of the conical receptacle. An activator is intended to move the rod. The device includes a first frustoconical receptacle with the smaller diameter of a dimension between 5% and 20% less than the largest transverse diameter of the pistachio.

A device for cracking eggs is provided. The device has a generally flat blade portion secured to an arched base portion. The generally flat blade portion is used to cut or crack the egg. The generally flat blade portion is perpendicularly secured to the arched base portion wherein the arched base portion mirrors the arc of the exterior surface of an average egg. A user uses the generally flat blade portion to strike the egg. The arched base portion stops the generally flat blade portion from penetrating the egg past a predetermined point. In some embodiments, a padded attachment or a spring loaded contact surface may be secured to the arched base portion and may prevent the device from over-cutting or cracking the egg. In alternative embodiments, the back of the arched base portion has a loop for securing a finger. Finally, a handle may be secured to the arched base portion to easily grasp the device.

Disclosed is a device for separating the meat and the shell of a nut including a stator (10) and a rotor (12), both having a shape for rotation around a longitudinal axis XX, a work space, defined between the stator and the rotor, varying radially, and at least one unit for compressing the nut between the stator (10) and the rotor (12).

Disclosed is a device for separating the meat and the shell of a nut including a stator (10) and a rotor (12), both having a shape for rotation around a longitudinal axis XX, a work space, defined between the stator and the rotor, varying radially, and at least one unit for compressing the nut between the stator (10) and the rotor (12).