This application discloses an improved quick fit clamping device and method of use to remove excess movement between a seed boot and a seed row unit. The quick fit clamping device is primarily used on air seeders which have developed excess movement between the seed boot and seed row unit. A cap screw may connect the seed boot to the seed row unit. The quick fit clamping device may be joined to a cap screw without the need to remove the cap screw. Once joined the quick fit clamping device may be configured to apply pressure between the cap screw and the seed row unit, thereby remedying the excess movement.

A row unit includes a blade and a packer arm pivotally coupled to a packer support structure. The row unit also includes a packer wheel rotatably coupled to the packer arm, and configured to rotate across a soil surface to limit a penetration depth of the blade into the soil. The row unit further includes an actuator having a first portion rotatably coupled to the packer arm and a second portion rotatably coupled to the packer support structure, wherein the penetration depth of the blade is controlled by extending and contracting the actuator.

An agricultural seeder implement includes a seed boot connected directly to an opener having a leading extremity and a trailing extremity. The seed boot and the opener form a channel and an outlet. The channel extends forwardly from an inlet of the seed boot proximate to the trailing extremity of the opener to the outlet behind the leading extremity of the opener. The opener is for being pulled for cutting a furrow in the ground by the leading extremity ahead of the outlet, and the channel is for guiding a stream of air-driven seed forwardly therethrough from the inlet and into the furrow through the outlet directed downwardly in the furrow.

Land cultivating systems and methods utilizing high-pressure fluid jet cutting techniques are disclosed. An example system includes a mobile unit, a traveler arrangement operably coupled to the mobile unit to ride on the surface of stubble residues as the mobile unit moves across land to be cultivated, and a fluid jet cutting head supported by the traveler arrangement. The cutting head is configured to selectively discharge a high-pressure fluid jet to make a cut through the stubble residues and underlying soil as the mobile unit moves across the land. A soil opening device is provided to form a furrow in the ground in line with the cut made by the high-pressure fluid jet, and a liquid injector nozzle is provided to discharge fertilizer or other chemical(s) into the soil.

Each wing of a rear folding implement has a wing frame supported on rear wheels for movement along the ground, and a forewing frame and wheel pivotally attached to the wing frame. A center ball joint pivotally connects right and left inner wings and a center wheel assembly supports the center ball joint. The wings extend laterally and the forewing frames are in a lowered position supported on their wheels when in the operating position. To move the wings into a transport position, the implement is towed forward and the wings pivot about the center ball joint to trail rearward and the forewing frames are moved upward to narrow the implement for transport. An air seeder cart hitch is rearward of and near the center ball joint in the operating position, and when the wings trail rearward the cart hitch is near rear ends of the trailing wings.

An agricultural seeder implement includes a seed boot connected to an opener. The seed boot includes a channel extending from an inlet to an outlet behind a leading extremity of the opener, a deflecting surface facing downwardly into the channel toward the outlet, and a ramp facing inwardly into the channel between the inlet and the outlet. The opener is for cutting a furrow in the ground by the leading extremity ahead of the outlet, and the channel is for guiding a stream of air-driven seed forwardly therethrough from the inlet and downwardly into the furrow through the outlet, wherein the ramp is in-turned toward the deflecting surface for deflecting the stream of air-driven seed through the channel inwardly to the deflecting surface, and the deflecting surface is for deflecting the stream of air-driven seed received from the ramp downwardly to and through the outlet into the furrow.

Agricultural seed planting systems include a processing unit, a frame, a furrow opener coupled to the frame for opening a furrow in soil, and a sensor in communication with the processing unit and adapted to sense a characteristic associated with seed planting. The sensor may generate a signal associated with the sensed characteristic and the processing unit may receive the signal. In some aspects, the sensed characteristic may be either a soil characteristic or a seed characteristic. Information associated with the sensed characteristic can be saved in memory for future use and to assist with more effective planting in the future.

A reversible seed trench appurtenance for a row unit of an agricultural planter. The seed trench appurtenance includes an upper portion and a trailing portion. The upper portion is received within a mounting bracket attached to the row unit of the planter. The seed trench appurtenance is movable between a normal operating position in which the trailing portion extends into the seed trench. When the row unit is reversed in a direction opposite the forward direction of travel, the seed trench appurtenance moves from the normal operating position to a reversing position in which the trailing portion is vertically above the normal operating position thereby avoiding damage to the seed trench appurtenance and the mounting bracket.

A paired row furrow opener can include a seed boot body, a fertilizer passageway, a seed passageway, at least one soil deflecting edge, and at least one row soil deflecting surface. The seed boot body can extend along a longitudinal axis between a forward end and a rearward end. The fertilizer passageway can extend through the seed boot body between an outlet and an inlet elevated from the outlet. The seed passageway can extend through the seed boot body between an outlet and an inlet. The at least one soil deflecting edge can be integral with the seed boot body. The at least one row soil deflecting surface can extend aft from the at least one soil deflecting edge along the longitudinal axis and can face upward.

A downforce controller for an agricultural implement having a double-acting hydraulic cylinder. The cylinder is configured to be coupled to an agricultural row unit and an agricultural toolbar for transmitting a net downforce between the agricultural toolbar and the agricultural row unit. A first pressure in a first chamber of the cylinder and a second pressure in a second chamber of the cylinder have counteracting effects on the net downforce. A manifold coupled to the cylinder is in fluid communication with the first chamber. A pressure control valve coupled to the manifold is in fluid communication with the manifold and the first chamber.