A tillage device includes a soil disruptor configured to couple to an agricultural implement. The soil disruptor is sized and shaped to create a soil disruption in a target soil profile beneath a soil surface without tilling the soil surface when the soil disruptor is moved through the target soil profile by the agricultural implement.

A tillage device includes a soil disruptor configured to couple to an agricultural implement. The soil disruptor is sized and shaped to create a soil disruption in a target soil profile beneath a soil surface without tilling the soil surface when the soil disruptor is moved through the target soil profile by the agricultural implement.

Scarifier for deep strip-tillage, that after a single trip allows the soil to be in adequate conditions for planting or sowing, operating with a great energy efficiency, contributing to an improvement in the production environment. The scarifier comprises a plurality of tillage units (a), spaced apart and located parallel to each other, and wherein each tillage unit (a) comprises a support structure (2) on which the corresponding tines (1a, 1b, 1c) are mounted, the lower ends of which are located at different heights, with the depth below the ground (d) being greater toward the rear of the scarifier. The scarifier preferably incorporates a fertilization system.

Scarifier for deep strip-tillage, that after a single trip allows the soil to be in adequate conditions for planting or sowing, operating with a great energy efficiency, contributing to an improvement in the production environment. The scarifier comprises a plurality of tillage units (a), spaced apart and located parallel to each other, and wherein each tillage unit (a) comprises a support structure (2) on which the corresponding tines (1a, 1b, 1c) are mounted, the lower ends of which are located at different heights, with the depth below the ground (d) being greater toward the rear of the scarifier. The scarifier preferably incorporates a fertilization system.

Systems, methods and apparatus for controlling the downforce applied to a row unit of an agricultural implement having multiple row units. A downpressure control device in fluid communication with a down chamber of the least one actuator maintains as a selected downpressure, any one of a continuous range of pressures in the downpressure chamber. A lift pressure control device in fluid communication with a lift chamber of the at least one actuator for controlling pressure in the lift chamber maintains as a selected lift pressure, any one of a continuous range of pressures in the lift chamber.

Systems, methods and apparatus for controlling the downforce applied to a row unit of an agricultural implement having multiple row units. A downpressure control device in fluid communication with a down chamber of the least one actuator maintains as a selected downpressure, any one of a continuous range of pressures in the downpressure chamber. A lift pressure control device in fluid communication with a lift chamber of the at least one actuator for controlling pressure in the lift chamber maintains as a selected lift pressure, any one of a continuous range of pressures in the lift chamber.

A shark fin wear bar includes a fin edge configured to till the soil. The fin edge is positioned to face in the same direction as the ripper point. The shark fin wear bar also includes a first part configured to abut the rear of the ripper point such that debris from tilling cannot get lodged between the two components.

A shark fin wear bar includes a fin edge configured to till the soil. The fin edge is positioned to face in the same direction as the ripper point. The shark fin wear bar also includes a first part configured to abut the rear of the ripper point such that debris from tilling cannot get lodged between the two components.

This agricultural device introduces an innovative approach to soil treatment that restores the fertility of depleted soils, which currently depend on chemical fertilizers to keep up with global food production needs. The new technology is based upon the concept of bioenergetics, whereby soil is conceived as the main factor that needs to be balanced in order to increase natural soil fertility, crop production, and food quality. This scientifically-based farming technology utilizes horizontal tillageas opposed to conventional tillageto reduce the entropy of the soil-plant-atmosphere system, helping regenerate biological memory and natural soil fertility. This new technology has been successfully tested on various kinds of terrains and crops, and its application progressively turns nature into the main factor of production equation, allowing us to reduce agrochemical dependency and production costs, and allowing us to overcome the apparent dichotomy that now exists between high food production needs and environmental care.

This agricultural device introduces an innovative approach to soil treatment that restores the fertility of depleted soils, which currently depend on chemical fertilizers to keep up with global food production needs. The new technology is based upon the concept of bioenergetics, whereby soil is conceived as the main factor that needs to be balanced in order to increase natural soil fertility, crop production, and food quality. This scientifically-based farming technology utilizes horizontal tillageas opposed to conventional tillageto reduce the entropy of the soil-plant-atmosphere system, helping regenerate biological memory and natural soil fertility. This new technology has been successfully tested on various kinds of terrains and crops, and its application progressively turns nature into the main factor of production equation, allowing us to reduce agrochemical dependency and production costs, and allowing us to overcome the apparent dichotomy that now exists between high food production needs and environmental care.