An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.

Electronic soil coping system applied to a grain harvesting platform, able to adjust working height parameters during the collection process, adapting itself to soil irregularities and to those generated by uprooting, increasing the efficiency and reducing loss, enabling to combine belt collection at any time, individually, in pairs, or all of them jointly, generating different physical states, which will vary according to the number of belts of the device, also allowing the platform to perform tailpieces at street ends, not collecting undesired materials, and also allowing to increase the width of collection belts.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.

An implement intended for harvesting and/or gathering farm produce is used together with a self-propelled agricultural machine, more specifically a grain harvester, in order to provide driving power for its crop processing systems. A top roller (11) is positioned at the rear end of each conveyor belt (1) whereby, internally and concentrically thereto, the supports (9) move in a continuous rotating movement with the slats (10); the conveyor belt (1) has electronics for adjusting the speeds of the machine and the belts, varying electronically between these magnitudes according to the proportionality parameter; in addition to also regulating the height of the conveyor belt (1B) through electronics and a pivoting device (26); the set of conveyor belts (1) may also be articulated into a transportation position.

The present application for patent of invention refers to equipment designed for harvesting, cleaning and storing farming produce. The farming produce it is designed to process particularly includes peanuts, beans or any other produce disposed in rows that can be gathered from the ground. The invention comprises a head (2), endowed with a collecting platform (3) with belts (5); the head (2) comprises a transmission box (4) of the dual and pivotable type; the head (2) has complete hydraulic system with hydraulic oil tank (9), heat exchanger (9A) and filters; said transmission box (4) further has auxiliary input (11) to couple an accessory that can be hydraulic; pneumatic or electric, in order to drive auxiliary systems; in the rear part of the equipment are helicoids (6) that extend to the vertical transporter (7) and latter to the container (8).

The present application for patent of invention refers to equipment designed for harvesting, cleaning and storing farming produce. The farming produce it is designed to process particularly includes peanuts, beans or any other produce disposed in rows that can be gathered from the ground. The invention comprises a head (2), endowed with a collecting platform (3) with belts (5); the head (2) comprises a transmission box (4) of the dual and pivotable type; the head (2) has complete hydraulic system with hydraulic oil tank (9), heat exchanger (9A) and filters; said transmission box (4) further has auxiliary input (11) to couple an accessory that can be hydraulic; pneumatic or electric, in order to drive auxiliary systems; in the rear part of the equipment are helicoids (6) that extend to the vertical transporter (7) and latter to the container (8).

This Application for a Patent of Invention refers to an implement intended for harvesting and/or gathering farm produce, that is used together with a self-propelled agricultural machine, more specifically a grain harvester, in order to provide driving power for its crop processing systems. The invention is noteworthy for the fact that a top roller (11) is positioned at the rear end of each conveyor belt (1) whereby, internally and concentrically thereto, the supports (9) move in a continuous rotating movement with the slats (10); the conveyor belt (1) has electronic means for adjusting the speeds of the machine and the belts, varying electronically between these magnitudes according to the proportionality parameter; in addition to also regulating the height of the conveyor belt (1B) through electronic means and a pivoting device (26); the set of conveyor belts (1) may also be articulated into a transportation position.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.