An agricultural seed planter is provided. The agricultural seed planter has a large diameter rotating planting wheel with fingers or teeth spaced around the periphery of the planting wheel. The teeth are positioned so as to achieve a spacing of the seeds when planted in the soil. The teeth have a small dimple in the end and an even smaller hole passing through the entire length. The dimple provides a place for the seed to sit in and the small hole allows positive or negative air pressure to be transmitted to the seed. The negative air pressure creates a vacuum suction that attaches the seed to the teeth, and the positive air pressure releases the seed from the teeth. In an example implementation, the wheel includes many individual mechanical modules that are linked together to form the wheel.

A method for placing seeds inside a growth substrate by a seed insertion device including the steps of: arranging the seed insertion device in contact with the growth substrate such that a tip of the seed insertion device penetrates through an outer surface of the growth substrate; creating a growth pocket inside the growth substrate with the seed insertion device; supplying seeds to the growth pocket of the growth substrate via the seed insertion device; removing the seed insertion device from contact with the growth substrate; and closing the growth pocket by elastic force of the growth substrate for forming a closed growth pocket such that the seeds remain in the closed growth pocket inside the growth substrate.

A method for placing seeds inside a growth substrate by a seed insertion device including the steps of: arranging the seed insertion device in contact with the growth substrate such that a tip of the seed insertion device penetrates through an outer surface of the growth substrate; creating a growth pocket inside the growth substrate with the seed insertion device; supplying seeds to the growth pocket of the growth substrate via the seed insertion device; removing the seed insertion device from contact with the growth substrate; and closing the growth pocket by elastic force of the growth substrate for forming a closed growth pocket such that the seeds remain in the closed growth pocket inside the growth substrate.

A knife assembly mountable to a frame of a seeder is provided comprising a knife shank having a proximal end and a distal end, the proximal end of the knife shank adapted to be directly or indirectly attached to the frame; a knife blade removably attached at or near the distal end of the knife shank; and a tube holder having a groove along a portion of its length, the groove designed to slidably receive a corresponding ridge on a flexible drop tube, the tube holder being attached at or near the distal end of the knife shank behind the knife blade so that both the knife blade and the flexible drop tube can be removed individually without disturbing the other elements of the knife assembly.

A knife assembly mountable to a frame of a seeder is provided comprising a knife shank having a proximal end and a distal end, the proximal end of the knife shank adapted to be directly or indirectly attached to the frame; a knife blade removably attached at or near the distal end of the knife shank; and a tube holder having a groove along a portion of its length, the groove designed to slidably receive a corresponding ridge on a flexible drop tube, the tube holder being attached at or near the distal end of the knife shank behind the knife blade so that both the knife blade and the flexible drop tube can be removed individually without disturbing the other elements of the knife assembly.

A device for facilitating the transplantation of a potted plant. The flora transplanting device includes a container having an open upper end, open lower end, and an intermediate surrounding side wall therebetween. The lower end can puncture a soil surface, allowing the flora transplanting device to be inserted into the soil by pressing on the upper end. The lower end is serrated to facilitate insertion of the device into the soil. Graduation marks are present on the outside of the surrounding side wall of the device to indicate insertion depth. In operation, the soil circumscribed by the device is removed and a plant is placed therein. The flora transplanting device supports the surrounding soil while the plant is inserted into the device to ease the process of planting. In some embodiments, the upper end of the device forms a handle to ease removal of the device from the soil.

An apparatus for making holes in plastic along a ridge row has a frame with wheels spanning a ridge row, a furrow reference wheel centered in the frame adapted to roll on soil surface between two raised ridge rows, a first vertically translatable mechanism positioned at a distance to a first side of the furrow reference wheel to be directly over the ridge row adjacent the furrow reference wheel, the vertically translatable mechanism having a first electrically-heated hole punch element at a lower extremity, and a control system having a power supply, sensors and actuators for managing operation of the apparatus. As the apparatus is towed, the furrow reference wheel triggers signals to the control system to activate the vertically translatable mechanism at repeated intervals to descend and make holes in the plastic covering on the raised ridge row.

An apparatus for making holes in plastic along a ridge row has a frame with wheels spanning a ridge row, a furrow reference wheel centered in the frame adapted to roll on soil surface between two raised ridge rows, a first vertically translatable mechanism positioned at a distance to a first side of the furrow reference wheel to be directly over the ridge row adjacent the furrow reference wheel, the vertically translatable mechanism having a first electrically-heated hole punch element at a lower extremity, and a control system having a power supply, sensors and actuators for managing operation of the apparatus. As the apparatus is towed, the furrow reference wheel triggers signals to the control system to activate the vertically translatable mechanism at repeated intervals to descend and make holes in the plastic covering on the raised ridge row.

A bracket for use with an agriculture planter including a trailing arm frame defining a pivot point thereon may include an arm bracket assembly with first and second arms. Each arm may extend from a middle portion of the bracket. First and second implements may be rotatably mounted on mounting ends of two of the arms. The middle portion of the bracket may be pivotally coupled to the trailing arm frame at the pivot point.

A bracket for use with an agriculture planter including a trailing arm frame defining a pivot point thereon may include an arm bracket assembly with first and second arms. Each arm may extend from a middle portion of the bracket. First and second implements may be rotatably mounted on mounting ends of two of the arms. The middle portion of the bracket may be pivotally coupled to the trailing arm frame at the pivot point.