A unit (UO) for the processing ground (T), comprises at least a first group (G1, D3) for supporting rotating cutting disk means (D) adapted to realize grooves (S) in said ground (T); at least a second group (G2) for supporting plowshare means (V, E) adapted to realize, in correspondence of said grooves (S), cuts (Z) below the surface of said ground (T); and mechanical coupling means (M2) for dynamically connecting said second group (G2) to said first group (G1, D3).

A header bar assembly has a row of header bar elements mounted on a fixed header bar section. The assembly includes a first moveable wing having mounted thereon one or more further header bar elements, the fixed header bar section supporting at the first end a first pillar extending generally perpendicular to the fixed header bar section and via which the first moveable wing is retained moveably captive relative to the fixed header bar section. The first moveable wing is moveable relative to the first pillar vertically and rotatably from an operative, deployed position in which it extends generally parallel to the fixed header bar section to a stowed position through vertical movement on the first pillar and rotation such that the first moveable wing lies adjacent the fixed header bar section inboard of the first pillar.

A method for increasing the efficiency of farming operations used in the production of sown crops. In the proposed method for cultivating sown crops, all bar none of the technological operations which are carried out in the field, beginning from pre-sowing preparation and ending with the gathering of a harvest, make use of a self-propelled power-operated technological device capable of functioning on tires having a super-low pressure of 5-60 kPa and/or with a pressure on the ground of less than 60 kPa. The proposed method is realized with the aid of a transport and technological system primarily for farming purposes, that utilizes a self-propelled power-operated vehicle on tires of super-low pressure operating among others at a pressure of 5 to 60 kPa and/or exerting a pressure of less than 60 kPa on the soil. This vehicle is equipped with a discharging device and/or a lifting device.

Described herein are implements, systems, and methods for applying stress to agricultural plants of agricultural fields. In one embodiment, an agricultural implement comprises a frame transverse to a direction of travel of the agricultural implement and a stress mechanism disposed on the frame in operation such that the stress mechanism applies a force to the row of plants as the agricultural implement moves through the field.

Steered caster wheel systems that include a disengagement system to enable a caster wheel steering mode and non-caster wheel steering mode are disclosed. In some embodiments, the caster wheels are mounted to a subframe that may be independently suspended from the chassis of a vehicle such as a self-propelled vehicle.

Steered caster wheel systems that include a disengagement system to enable a caster wheel steering mode and non-caster wheel steering mode are disclosed. In some embodiments, the caster wheels are mounted to a subframe that may be independently suspended from the chassis of a vehicle such as a self-propelled vehicle.

An arrangement of electrodes for removing weeds by contact electrocution comprising: —a general support (1) formed by a first connection means (2) associated with the proximal end of a deformable frame (3), and a first mounting means (5); —a first electrode support (8) associated with said general support (1) by said first connection means (2); —a second electrode support (22) associated with said general support (1) by the distal end (4) of said deformable frame (3); wherein said first electrode support (8) includes a first electrode (15); and wherein said second electrode support (22) includes at least one electrode (29).

A method for growing plants includes both a seeder and a harvester both of which include arrangements for singulating the seeds and for measuring parameters of the seeds while singulated. This can be used for seeding selected seeds and for harvesting particular plants. The system operates by correlating information from the individual seeded seeds and from the harvested seeds in respect of a particular location on the growth medium and may include information relating the growth medium at the location. The location can be determined by seeding the plants in patterns which can be detected by a reader on the harvester. The system can be used to control selection of seeds to take into account soil conditions at the plant.

A method for increasing the efficiency of farming operations used in the production of sown crops. In the proposed method for cultivating sown crops, all bar none of the technological operations which are carried out in the field, beginning from pre-sowing preparation and ending with the gathering of a harvest, make use of a self-propelled power-operated technological device capable of functioning on tires having a super-low pressure of 5-60 kPa and/or with a pressure on the ground of less than 60 kPa. The proposed method is realized with the aid of a transport and technological system primarily for farming purposes, that utilizes a self-propelled power-operated vehicle on tires of super-low pressure operating among others at a pressure of 5 to 60 kPa and/or exerting a pressure of less than 60 kPa on the soil. This vehicle is equipped with a discharging device and/or a lifting device.

Described herein are implements, systems, and methods for applying stress to agricultural plants of agricultural fields. In one embodiment, an agricultural implement comprises a frame transverse to a direction of travel of the agricultural implement and a stress mechanism disposed on the frame in operation such that the stress mechanism applies a force to the row of plants as the agricultural implement moves through the field.