A pump is provided for immersion in a fluid reservoir, such as a pit or lagoon containing liquid manure, from a position at an edge of the reservoir. The pump may be adapted for connection to a farm vehicle, such as a tractor, positioned at the edge of the reservoir. The pump comprises an extensible body, fluid conduit and drive means in order that a length of the pump may be varied in order to accommodate a variety of reservoir fluid heights. In addition, the pump may be pivotable relative to at least a portion of a frame in order that the entrance angle may be adjusted. The pump may comprise a housing with an inlet and an outlet, the outlet in fluid communication with the fluid conduit. An impeller within the housing may direct fluid from the inlet to the outlet in the housing.

Described herein are implements and applicators for placement of fluid applications with respect to agricultural plants of agricultural fields. In one embodiment, a fluid applicator includes at least one applicator arm, a first nozzle disposed to apply fluid to a rhizosphere of the plants, and a second nozzle disposed to apply fluid between the row of plants.

Described herein are implements and applicators for placement of fluid applications with respect to agricultural plants of agricultural fields. In one embodiment, a fluid applicator includes at least one applicator arm, a first nozzle disposed to apply fluid to a rhizosphere of the plants, and a second nozzle disposed to apply fluid between the row of plants.

The invention relates to a liquid circuit for an agricultural sprayer having a main tank, a sealed transfer system able to transfer a liquid product contained in a drum to the liquid circuit in a sealed manner, a suction mechanism designed to suck the liquid product coming from the sealed transfer system and to discharge said liquid product to the main tank, a dosing mechanism and a control unit designed to determine a quantity of liquid product to be provided to the suction mechanism for the filling of the main tank, and to control the dosing mechanism to provide the determined quantity of liquid product to the suction mechanism, in such a way as to meter the liquid product transferred from the sealed transfer system to the main tank.

The invention relates to a liquid circuit for an agricultural sprayer having a main tank, a sealed transfer system able to transfer a liquid product contained in a drum to the liquid circuit in a sealed manner, a suction mechanism designed to suck the liquid product coming from the sealed transfer system and to discharge said liquid product to the main tank, a dosing mechanism and a control unit designed to determine a quantity of liquid product to be provided to the suction mechanism for the filling of the main tank, and to control the dosing mechanism to provide the determined quantity of liquid product to the suction mechanism, in such a way as to meter the liquid product transferred from the sealed transfer system to the main tank.

An agricultural method includes providing a positive air pressure chamber to prevent outside contaminants from entering the chamber; growing crops in a plurality of cells in the chamber, each cell having multi-grow benches or levels, each cell further having connectors to vertical hoists for vertical movements in the chamber; maintaining pre-set temperature, humidity, carbon dioxide, watering and lighting levels to achieve predetermined plant growth; using motorized transport rails to deliver benches for operations including seeding, harvesting, grow media recovery, and bench wash; dispensing seeds in the cell with a mechanical seeder coupled to the transport rails; growing the crops with computer controlled nutrients, light and air level; and harvesting the crops and delivering the harvested crop at a selected outlet of the chamber.

An example trailer for a pump can include: a folding system including a first member and a second member that are pivotally connected to one another at a pivot point; a mechanism positioned to move the first member relative to the second member from a transport mode to an operating mode; a ground support system configured to support the trailer relative to a ground; and a guide member configured to hold the pump.

An example trailer for a pump can include: a folding system including a first member and a second member that are pivotally connected to one another at a pivot point; a mechanism positioned to move the first member relative to the second member from a transport mode to an operating mode; a ground support system configured to support the trailer relative to a ground; and a guide member configured to hold the pump.

A treatment system for spraying treatment fluid onto plants in a field is described. The treatment system includes a highly configurable treatment mechanism including an array of nozzles and valve assemblies coupled into manifolds, and manifold assemblies. The manifolds of the manifold assemblies can be oriented in an open state or a nested state, the open state with no overlap between nozzles of adjacent manifolds and the nested state with overlap between nozzles of adjacent manifolds. The manifolds can have multiple configurations, examples of which include a tube manifold and an offset manifold. The nozzles of the system can have multiple configurations, examples of which include a tri-spray nozzle, a bar nozzle, a fan nozzle, and a deflected fan nozzle. The system can be controlled by a system controller which detects plant material and instructs a nozzle or combination of nozzles to spray treatment fluid.

A treatment system for spraying treatment fluid onto plants in a field is described. The treatment system includes a highly configurable treatment mechanism including an array of nozzles and valve assemblies coupled into manifolds, and manifold assemblies. The manifolds of the manifold assemblies can be oriented in an open state or a nested state, the open state with no overlap between nozzles of adjacent manifolds and the nested state with overlap between nozzles of adjacent manifolds. The manifolds can have multiple configurations, examples of which include a tube manifold and an offset manifold. The nozzles of the system can have multiple configurations, examples of which include a tri-spray nozzle, a bar nozzle, a fan nozzle, and a deflected fan nozzle. The system can be controlled by a system controller which detects plant material and instructs a nozzle or combination of nozzles to spray treatment fluid.