Planting apparatus includes: (i) a housing that defines: a primary guide; and first and second opposed branch guides extending laterally from the primary guide; (ii) a first runner slidably secured to, and movable along the primary guide; (iii) a second runner securable to, and movable along a first branch guide; and (iv) a third runner securable to, and movable along a second branch guide. The first, second and third runners are configured such that: the second runner is receivable from the first branch guide on to the first runner; and the third runner is receivable from the second branch guide on to the first runner. Drive means move: (i) the second runner along the first branch guide and on to the first runner; (ii) the third runner along the second branch guide and on to the first runner; and (iii) the first runner, together with either of the second or third runners received thereon, along the primary guide.

A small hand-guided self-propelled garlic planter includes a rack, a driving mechanism connected to an upright planting mechanism and a material taking mechanism in a stock bin by using a clutch mechanism. The stock bin is fixedly connected to the rack. The planting mechanism includes a material receiving mechanism fixed to the rack and an insertion type planting mechanism disposed below the material receiving mechanism. The insertion type planting mechanism is connected to a turnable mechanism mounted to the rack, which is connected to the driving mechanism. A plurality of first feed bowls are disposed on the material receiving mechanism. The first feed bowls are connected to a first opening mechanism. A first acting member is disposed on the insertion type planting mechanism. A plurality of duckbills connected to a second opening are disposed on the insertion type planting mechanism. A second acting member is disposed on the rack.

A field planting system for planting seeds of at least two plant genotypes in a field includes a multi-variety planter operable to plant the seeds of the at least two plant genotypes in the field. The field planting system also includes a controller in operable communication with the multi-variety planter. The controller is configured to receive georeferenced field information for the field and plant information for the at least two plant genotypes, and generate a planting map for the field based on the georeferenced field information and the plant information, the planting map including a planting pattern for interplanting the seeds of the at least two plant genotypes. The controller is further configured to monitor a location of the multi-variety planter in the field, and control the multi-variety planter to plant the seeds of the at least two plant genotypes in the field according to the planting map.

A planter for planting seeds in the ground including a seed meter configured to provide a regulated flow of seeds, and a seed conduit defining a first portion of a flow path configured to transport the seeds from the seed meter towards the ground. The planter also includes a seed guide having an aperture in fluid communication with the seed conduit, the seed guide defining a second portion of the flow path configured to transport the seeds from the seed conduit towards the ground, and a shaft configured to reciprocate with respect to the seed guide through a stroke path towards and away from the ground. The shaft is configured to create a discrete hole in the ground for one of the seeds. A side of the shaft is configured to inhibit the one of the seeds from entering the second portion of the flow path until the shaft retracts past the aperture.

A planting device may include a platform having a top surface, a bottom surface, and an aperture. Either a projection that extends from the bottom surface or a planting tube that extends from the top surface may be configured couple to the aperture. The projection and the planting tube may be interchangeable. The planting device may further include a handle extending from the top surface.

Planting apparatus includes: (i) a housing that defines: a primary guide; and first and second opposed branch guides extending laterally from the primary guide; (ii) a first runner slidably secured to, and movable along the primary guide; (iii) a second runner securable to, and movable along a first branch guide; and (iv) a third runner securable to, and movable along a second branch guide. The first, second and third runners are configured such that: the second runner is receivable from the first branch guide on to the first runner; and the third runner is receivable from the second branch guide on to the first runner. Actuators move: (i) the second runner along the first branch guide and on to the first runner; (ii) the third runner along the second branch guide and on to the first runner; and (iii) the first runner, together with either of the second or third runners received thereon, along the primary guide.

A planting device may include a platform having a top surface, a bottom surface, and an aperture. Either a projection that extends from the bottom surface or a planting tube that extends from the top surface may be configured couple to the aperture. The projection and the planting tube may be interchangeable. The planting device may further include a handle extending from the top surface.

A self-propelled seeding vehicle includes a seed sorting and placement unit controlled by an on-board control system. The control system further controls a motive power unit operable to cause the vehicle to controllably traverse an area of ground to be seeded. The control system is further operable to control the sequential depositing of seeds independently of the speed of traversal of the ground by the vehicle.

The present disclosure provides a raft design for use in hydroponically growing crop seeds. The raft has a plurality of ribs that have a plurality of furrows between them. Media and crop seeds are placed in the furrows. The ribs have rounded tops so that the media and crop seeds do not get stuck on the top of the rib, but rather fall into the furrows. The raft also has a curved or arched underside, so that when the rafts are stacked on top of one another, air can circulate. The present disclosure also provides a process for filing the raft with growing media, seeding, and/or a topcoat. The furrows of the raft are oriented with respect to a hopper to provide a high efficiency.

Disclosed herein is a nut planter tool comprising an elongate drop tube fixed to a dig tube. The dig tube is spaced from the drop tube with each having generally parallel central axes. A plunger assembly comprises a plunger at an inferior end that translates within the dig tube. The tool ergonomically removes a soil core that is larger than the diameter of the tree nut, delivers the nut from an ergonomic height to a proper depth for germination; and replaces the soil core, covering the tree nut. The device is utilized standing upright thus eliminating the physical labor of bending over and reducing typical nut planting time.