A mollusc farming machine deploys a tillage assembly connected by a support frame to a vehicle platform. The vehicle platform enables the user to mechanically traverse the tillage assembly across an aquaculture harvesting area, digging into the earth of the harvesting area in order to harvest clams and other molluscs. An agitating mechanism causes reciprocal motion of the tillage assembly in order to break up the aquaculture earth as a tilling section of the tillage assembly is displaced at an angle through the earth, forcing the earth and any buried molluscs onto the tillage section. The agitating motion further serves to sift the earth by causing dirt, plant matter and other debris to fall through spaces between a plurality of sifting rods of the tilling section, leaving behind any molluscs previously buried within the earth to be collected by workers.

A mollusc farming machine deploys a tillage assembly connected by a support frame to a vehicle platform. The vehicle platform enables the user to mechanically traverse the tillage assembly across an aquaculture harvesting area, digging into the earth of the harvesting area in order to harvest clams and other molluscs. An agitating mechanism causes reciprocal motion of the tillage assembly in order to break up the aquaculture earth as a tilling section of the tillage assembly is displaced at an angle through the earth, forcing the earth and any buried molluscs onto the tillage section. The agitating motion further serves to sift the earth by causing dirt, plant matter and other debris to fall through spaces between a plurality of sifting rods of the tilling section, leaving behind any molluscs previously buried within the earth to be collected by workers.

Aspects of the present application relate to dewatering methods, systems, apparatus, and associated components thereof. In one implementation, a plow for a sludge dewatering system includes a blade. The blade includes a leading edge, and a first wing swept downward in a vertical direction and outward in a first horizontal direction relative to the leading edge. The blade also includes a second wing swept downward in the vertical direction and outward in a second horizontal direction relative to the leading edge. The second horizontal direction is opposite of the first horizontal direction.

Aspects of the present disclosure relate to dewatering methods, systems, apparatus, and associated components thereof. In one implementation, a plow for a sludge dewatering system includes a blade. The blade includes a leading edge, and a first wing swept downward in a vertical direction and outward in a first horizontal direction relative to the leading edge. The blade also includes a second wing swept downward in the vertical direction and outward in a second horizontal direction relative to the leading edge. The second horizontal direction is opposite of the first horizontal direction.

A mollusc farming machine deploys a tillage assembly connected by a support frame to a vehicle platform. The vehicle platform enables the user to mechanically traverse the tillage assembly across an aquaculture harvesting area, digging into the earth of the harvesting area in order to harvest clams and other molluscs. An agitating mechanism causes reciprocal motion of the tillage assembly in order to break up the aquaculture earth as a tilling section of the tillage assembly is displaced at an angle through the earth, forcing the earth and any buried molluscs onto the tillage section. The agitating motion further serves to sift the earth by causing dirt, plant matter and other debris to fall through spaces between a plurality of sifting rods of the tilling section, leaving behind any molluscs previously buried within the earth to be easily collected by workers.

A mollusc farming machine deploys a tillage assembly connected by a support frame to a vehicle platform. The vehicle platform enables the user to mechanically traverse the tillage assembly across an aquaculture harvesting area, digging into the earth of the harvesting area in order to harvest clams and other molluscs. An agitating mechanism causes reciprocal motion of the tillage assembly in order to break up the aquaculture earth as a tilling section of the tillage assembly is displaced at an angle through the earth, forcing the earth and any buried molluscs onto the tillage section. The agitating motion further serves to sift the earth by causing dirt, plant matter and other debris to fall through spaces between a plurality of sifting rods of the tilling section, leaving behind any molluscs previously buried within the earth to be easily collected by workers.

Apparatus for creating a ditch or furrow for agricultural use, including an implement pulled by a tractor. Generally, an implement includes a plow, a roller, and a wheel, such as a packer wheel. A plow is located towards an implement front end, and a wheel is located towards an implement back end, typically with the plow coaligned with a wheel. A roller is located on one or both sides of the plow wherein a frame supports the configurations of the plow, roller, and wheel.

Apparatus for creating a ditch or furrow for agricultural use, including an implement pulled by a tractor. Generally, an implement includes a plow, a roller, and a wheel, such as a packer wheel. A plow is located towards an implement front end, and a wheel is located towards an implement back end, typically with the plow coaligned with a wheel. A roller is located on one or both sides of the plow wherein a frame supports the configurations of the plow, roller, and wheel.

Certain embodiments of the invention are related to creating a ditch or furrow for agricultural use. Certain embodiments include an implement pulled by a tractor. Generally, an implement includes a plow, a roller, and a wheel, such as a packer wheel. A plow is located towards an implement front end, and a wheel is located towards an implement back end. In certain embodiments, a plow is coaligned with a wheel. A roller is located on one or both sides of the plow in coalignment with a wheel. In certain embodiments, a frame supports the configurations of the plow, roller, and wheel.

A sweep plow implement includes a frame, sweep plow assemblies, wheel assemblies and actuators. Each sweep plow assembly is mounted to the frame by a standard which extends down from the frame. Each wheel is supported by a triangular structure which straddles the standard and which includes a wheel strut which is pivotably mounted to the frame forward of the wheel and carries the wheel at its distal end. An actuator connects between the frame and each wheel strut. When the actuator is extended, the frame is lifted to a maximum height and when the actuator is retracted, the frame is lowered to a minimum height. When the actuator is retracted sufficiently, the sweep plow assembly is at an elevation suitable for drafting the sweep plow assembly through farm ground soil.