A nut sizer includes a nut sizer frame and a rotatable nut sizer cage mounted therein. A motor is attached to the nut sizer frame at an intake end thereof. The motor will drive a drive sprocket which will in turn drive a reel sprocket that is connected to the rotatable sizer cage. A chain engages the drive sprocket and the reel sprocket. The sizer cage may be lifted from the nut sizer frame by removing the chain. The nut sizer cage is a sectioned sizer cage and includes a first sizer section and a second sizer section detachably connected thereto.

A nut processing apparatus includes a pair of side panels with a vacuum duct connected thereto. The nut processing apparatus which may be referred to as a vacuum unit is configured to be mounted directly to other nut processing equipment such as for example a stick remover. The vacuum unit includes a vacuum duct with an upper stationary portion and a lower pivotable portion.

A nut processing apparatus includes a pair of side panels with a vacuum duct connected thereto. The nut processing apparatus which may be referred to as a vacuum unit is configured to be mounted directly to other nut processing equipment such as for example a stick remover. The vacuum unit includes a vacuum duct with an upper stationary portion and a lower pivotable portion.

The present invention discloses a device and method for peeling beans and separating the hulls from the peeled beans. The device for peeling beans comprising a rough disc (3) in a bowl (2), driven by an electric motor (1), to abrasively impact beans in water. A barrier ring (4) enables separation of the

Shown is an apparatus and method for cracking stone fruit nuts. The apparatus includes a frame (2) supporting a set of spaced apart jaw including 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).

Shown is an apparatus and method for cracking stone fruit nuts. The apparatus includes a frame (2) supporting a set of spaced apart jaw including 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).

A machine for the integral processing of hard or soft shelled nuts herein proposed comprises a feeding hopper and at least one receptacle having a first end for connection to said hopper and a second opposite end, where said receptacle is located in a horizontal position according to the longitudinal direction of the machine and comprises therein a central shaft located according to the longitudinal direction thereof and connected at one end to a rotating element, where said central shaft has finger-like elements projecting radially outwards from various longitudinal positions thereof.

A machine for the integral processing of hard or soft shelled nuts herein proposed comprises a feeding hopper and at least one receptacle having a first end for connection to said hopper and a second opposite end, where said receptacle is located in a horizontal position according to the longitudinal direction of the machine and comprises therein a central shaft located according to the longitudinal direction thereof and connected at one end to a rotating element, where said central shaft has finger-like elements projecting radially outwards from various longitudinal positions thereof.

A device includes a blade, which is movable within an associated working space for cutting product units, and a conveying device in which the product units can be individually conveyed into the working space of the blade. The conveying device includes at least one two-part conveying channel associated with the blade, in which on one side first conveyor elements and on the other side second conveyor elements are guided, which are assigned to one another in pairs and which have each a recess for partially receiving a separated product unit. The sides of the first and second conveyor elements, which are facing one another, delimit therebetween the free working space, so that the blade is guidable within the working space partially or completely through the product units held in the first and second conveyor elements which correspond to one another.

A device includes a blade, which is movable within an associated working space for cutting product units, and a conveying device in which the product units can be individually conveyed into the working space of the blade. The conveying device includes at least one two-part conveying channel associated with the blade, in which on one side first conveyor elements and on the other side second conveyor elements are guided, which are assigned to one another in pairs and which have each a recess for partially receiving a separated product unit. The sides of the first and second conveyor elements, which are facing one another, delimit therebetween the free working space, so that the blade is guidable within the working space partially or completely through the product units held in the first and second conveyor elements which correspond to one another.