A driving head of an electric gardening machine includes a base, a driving assembly, a clutch member and a transmission member. The base defines an axial direction. The driving assembly is disposed on the base and includes a motor assembly and a driving rod. The motor assembly and the driving rod are in a rotation-connecting relationship. The clutch member is sleeved with the driving rod and slidable relative to the driving rod in the axial direction to be in a first position or a second position. The transmission member is rotatably connected to the base. The clutch member is in rotational interference with and engaged with the transmission member when the clutch member is located in the first position. The clutch member is free of rotational interference with the transmission member when the clutch member is located in the second position.

A motorized machine for ground or soil cultivation. The machine includes a grip located on the side of a first end of the machine for gripping the machine; a tool head mounted on the side of a second end of the machine opposite the first end, the tool head supporting at least two tools; a body connecting the first and second ends, a rotational element for rotating the tools in counter-rotating directions around separate parallel axes of rotation, the axes of rotation of the tools extending, in the use configuration of the machine, in parallel planes substantially perpendicular to the surface of the ground or the soil, the at least two tools each including claws having a round cross-section and a curved shape.

A motorized machine for ground or soil cultivation. The machine includes a grip located on the side of a first end of the machine for gripping the machine; a tool head mounted on the side of a second end of the machine opposite the first end, the tool head supporting at least two tools; a body connecting the first and second ends, a rotational element for rotating the tools in counter-rotating directions around separate parallel axes of rotation, the axes of rotation of the tools extending, in the use configuration of the machine, in parallel planes substantially perpendicular to the surface of the ground or the soil, the at least two tools each including claws having a round cross-section and a curved shape.

This invention provides an oblique submerged reverse deep rotary tilling device, which includes a stander, a mounted frame, a gearbox and an oblique blade roller. However, the oblique blade roller is mainly made up of configured rotary blades whose tips bend to the same direction. The angle between the rotary tilling blade roller and the traction speed is 5570 while the rotary blade tips are all toward the right side of the traction speed. Side force balance blades are installed to the left side of the oblique blade roller and used to balance the axial component force of the oblique blade roller. The working pattern of this invention is an oblique submerged reverse rotary tillage method. Therefore, there is no soil restriction on the top of the tilling soil clod. Meanwhile, due to cutting soil configured regularly, the right-side soil has been cut when the rotary tilling blades soil begins tilling. The soil is mainly destroyed by tension. Since rotary blades have axial component speed, tilled soil clods will be destroyed mainly by rightward pulling force applied by rotary blades, and the tilled soil clods are mainly thrown to cultivated land. Thus, the invention can reduce secondary tillage and energy consumption. In addition, the invention can avoid interference among gearbox, bearing seat and untilled soil, so the blade roller can easily sink into the ground to achieve deep tillage.

This invention provides an oblique submerged reverse deep rotary tilling device, which includes a stander, a mounted frame, a gearbox and an oblique blade roller. However, the oblique blade roller is mainly made up of configured rotary blades whose tips bend to the same direction. The angle between the rotary tilling blade roller and the traction speed is 5570 while the rotary blade tips are all toward the right side of the traction speed. Side force balance blades are installed to the left side of the oblique blade roller and used to balance the axial component force of the oblique blade roller. The working pattern of this invention is an oblique submerged reverse rotary tillage method. Therefore, there is no soil restriction on the top of the tilling soil clod. Meanwhile, due to cutting soil configured regularly, the right-side soil has been cut when the rotary tilling blades soil begins tilling. The soil is mainly destroyed by tension. Since rotary blades have axial component speed, tilled soil clods will be destroyed mainly by rightward pulling force applied by rotary blades, and the tilled soil clods are mainly thrown to cultivated land. Thus, the invention can reduce secondary tillage and energy consumption. In addition, the invention can avoid interference among gearbox, bearing seat and untilled soil, so the blade roller can easily sink into the ground to achieve deep tillage.

A drill attachment for tilling soil has an extended drill shaft that is coupled with a till plate. The combination may be driven by an ordinary hand drill. The drill shaft has a stabilizer tip that protrudes beyond the till plate. The till plate includes a plurality of teeth that dig into and work top soil, while a generally planar disk-shaped body member at the top of the till plate prevents the till plate from sinking below the surface of the soil. The teeth are stamped from the till plate, forming openings in the generally planar disk-shaped body member. These openings and other optional openings cooperate with the teeth to further break up clumps of soil, and help to balance forces from the teeth pulling into the soil against the force of the body member that resists sinking into the earth. Optional weed-out and hole tools are also disclosed.

A drill attachment for tilling soil has an extended drill shaft that is coupled with a till plate. The combination may be driven by an ordinary hand drill. The drill shaft has a stabilizer tip that protrudes beyond the till plate. The till plate includes a plurality of teeth that dig into and work top soil, while a generally planar disk-shaped body member at the top of the till plate prevents the till plate from sinking below the surface of the soil. The teeth are stamped from the till plate, forming openings in the generally planar disk-shaped body member. These openings and other optional openings cooperate with the teeth to further break up clumps of soil, and help to balance forces from the teeth pulling into the soil against the force of the body member that resists sinking into the earth. Optional weed-out and hole tools are also disclosed.

The Row Digger provides a tool that enables an operator of the Row Digger to remove dirt piles interfering with irrigation between crop field furrows and irrigation trenches. The Row Digger includes a frame capable of moving from a transportation position to an operation position. The Row Digger also includes a plurality of digger arms extending from a central hub and each terminating in a corresponding digging disc. The central hub is connected to the frame at a hub angle and is capable of rotation about a hub axis. Each digging disc is also connected to the corresponding digger arm at a disc angle. Each digging disc enters a crop furrow and utilizes the slopes of the ridges to create the rotation required about the hub axis and ensure a path of travel for the digging discs that removes the impeding dirt piles.

The Row Digger provides a tool that enables an operator of the Row Digger to remove dirt piles interfering with irrigation between crop field furrows and irrigation trenches. The Row Digger includes a frame capable of moving from a transportation position to an operation position. The Row Digger also includes a plurality of digger arms extending from a central hub and each terminating in a corresponding digging disc. The central hub is connected to the frame at a hub angle and is capable of rotation about a hub axis. Each digging disc is also connected to the corresponding digger arm at a disc angle. Each digging disc enters a crop furrow and utilizes the slopes of the ridges to create the rotation required about the hub axis and ensure a path of travel for the digging discs that removes the impeding dirt piles.

Methods and systems for applying a uniform layer of a substance such as a hydrogel or other fluid substance beneath a soil surface with minimal or little surface disturbance to the plants, the plant roots and the soil located on or slightly below the applied surface area. Embodiments include injecting a fluid substance into soil using at least one injector probe, a driver to drive the at least one injector probe into and out of the soil to and from a target depth, and a rotator mechanism configured to rotate the at least one injector probe about a central axis from one angular position to another angular position at the target depth.