A retrofit assembly used to substitute a remotely controlled cylinder for a furrow closing standard spring on agricultural equipment. The retrofit assembly includes a cylinder mount including a cylinder mount tab and a cylinder mount fixture. The cylinder mount is connected to the furrow mount. The cylinder bracket 30 is mounted to the agricultural equipment. A remotely controlled fluid cylinder is mounted between the cylinder mounting assembly and the cylinder mounting bracket. A standard spring for a furrow closing assembly on agricultural equipment can be replaced with a remotely control fluid cylinder allowing the furrow closing assembly to be controlled remotely by the user.

An agricultural implement includes at least one row unit having a plurality of support members, each of which is pivotably coupled to an attachment frame or another of the support members to permit vertical pivoting vertical movement of the support members, and a plurality of soil-engaging tools, each of which is coupled to at least one of the support members. A plurality of hydraulic cylinders are coupled to the support members for urging the support members downwardly toward the soil. A plurality of controllable pressure control valves are coupled to the hydraulic cylinders for controlling the pressure of hydraulic fluid supplied to the cylinders. A plurality of sensors produce electrical signals corresponding to predetermined conditions, and a controller is coupled to the sensor and the controllable pressure control valves. The controller receives the electrical signals from the sensors and produces control signals for controlling the pressure control valves.

A system for sensing characteristics of a trench in a soil surface during planting operations. A trench opening assembly opens a trench in the soil surface as the trench opening assembly moves in a forward direction of travel. A trench closing assembly disposed rearward of the trench opening assembly closes the opened trench with soil. One or more sensors may be disposed on an appurtenance disposed in said trench configured to provide characteristics of an area of the open trench or an area of the trench closed with soil by the trench closing assembly or a sensor may be disposed outside of said trench configured to provide characteristics of an area of the trench closed with soil or a combination of the sensors may be disposed in the trench and outside of the trench.

Air seeders that have force actuators acting on the firming implement and/or the closing wheel to adjust the downforce. In one example, the seeding implement includes a support arm having first and second portions. A finning implement support arm is pivotally connected to the support arm second portion at a first pivot at a first end of the finning implement support arm. A firming implement force actuator is pivotally connected to the support arm second portion at a first end of the firming implement force actuator and connected to the firming implement support arm at the second end of the firming implement force actuator.

Described herein are implements and application units for placement of fluid applications with respect to agricultural plants of agricultural fields. In one embodiment, an application unit includes a frame to be positioned in operation between two rows of plants and a plurality of flexible members coupled to the frame in operation such that the plurality of flexible members guide a lateral position of the frame to be approximately equidistant from the two rows of plants based upon whether at least one flexible member of the plurality of flexible members contacts one or more plants of the two rows of plants. The plurality of flexible members include a plurality of fluid outlets for spraying crop input in close proximity to the rows of plants.

The present invention provides a ground engaging film roller 30.2 having a generally horizontal axis of rotation and an outer circumference for engaging ground, the roller having opposed outer ends 30.21 of a larger circumference than the circumference of portions 30.22 located between the opposed ends.

The present invention also provides a film deployment system having a ground engaging film roller as described above, which is rotationally mounted to a frame 30.1, the ground engaging film roller 30.2 receiving film from above and to a front location of the roller, and passing between a film locating roller 30.3 and the ground engaging roller 30.2, the ground engaging roller 30.2 shaping the ground it engages by forming a channel in ground at the opposed ends 30.21 of the roller 30.2 for the film to be located as it leaves engagement with the ground engaging roller 30.2.

The present invention also provides an agricultural or horticultural implement 10, 30 for performing an agricultural or horticultural process, the implement 10, 30 including whipper arrangement 50 at a location forward of where the process will be performed.

The agricultural or horticultural implement 10, 30 can be such that to the rear of where the process is performed there can located film deployment system 30 as described above.

Disclosed is an intelligent seeding and fertilizing machine for intercropping, comprising: a fixed frame, a plurality of seeding devices arranged in parallel in the fixed frame and a plurality of guide columns fixedly connected in the fixed frame, where one end of fixed frame close to a cutting mechanism is provided with a lifting plate, a side of the fixed frame is in sliding contact with an inner wall of a lifting groove, the lifting groove is provided with a lifting screw, a lifting motor is fixedly connected to a top surface of the lifting plate; each seeding device includes a frame, and a bottom surface of the frame is respectively provided with a cutting mechanism, a cleaning mechanism, a furrowing mechanism, a fertilizing mechanism, a seeding mechanism and a soil covering mechanism, and the above mechanisms and the lifting motor are all electrically connected with a control system.

An adjustable furrow closing assembly that is used to close a seed furrow formed in the soil during a planting operation. The assembly includes a housing that is pivotally coupled to a planting unit. The housing includes an adjustable carrier that pivots within the housing. The adjustable carrier includes first and second closing wheels that are adapted to engage with the soil to close the seed furrow. The assembly also includes a downforce control lever that extends into the housing and is coupled to the adjustable carrier. The housing includes a gate member that including a plurality of slots. The downforce control lever is configured to be moved from one slot to a next slot of the gate to either increase or decrease downforce that is applied to the closing wheels. The slots formed in the gate to allow the gate position to be adjusted with respect to the housing to calibrate downforce on the closing wheels. The furrow closing assembly also includes an adjustment rod that is coupled to the adjustable carrier such that rotation of adjustment rod in a first direction causes movement of the adjustable carrier in a first direction to increase the angle of the closing wheels and rotation of the adjustment rod in a second direction causes movement of the adjustable carrier in a second direction to decrease the angle of the closing wheels.

A trench closing assembly including at least one soil deflector.

An agricultural planter includes a plurality of row units attached thereto for planting seed in a field. The row units include a seed meter for singulating and dispensing seed. Opening wheels or discs are included to create an opening in the field, such as a furrow. The row unit can include one or more continuous tracks for supporting the row unit as it moves through the field. The tracks reduce compaction around the created furrow and provide better control of seed depth placement. Furthermore, one or more cylinders may be provided that control the depth of furrow being created to also control the depth at which the seed is deposited.