A sectional control funnel box includes a box body having an upper receiving portion for receiving particulate matter and a plurality of chutes extending from the upper receiving portion. At least one blocker door is disposed between the upper receiving portion and at least one of the chutes, and the blocker door is movable between an open state and a closed state. An actuator is connected to the blocker door and configured to drive the blocker door between the open state and the closed state. An auger is disposed in the upper receiving portion to evenly distribute particulate material within the upper receiving portion.

A spreading apparatus (10) for spreading granular and/or pulverulent material such as grain, salt, fertiliser and the like is disclosed. The apparatus (10) includes a hopper (11) having a discharge aperture (12), a vibration unit (17) arranged for agitating material within the hopper (11), circuitry (22) arranged for supplying power from a power source to one or more material handling components of the spreading apparatus (11), monitoring the power drawn by the one or more material handling components and controlling operation of the vibration unit (17) in dependence upon said power. In various embodiments, the material handling components may include one or more of: a spreading disk (15) arranged for distributing material received from the discharge aperture (12); an auger (18) extending through the discharge aperture (12); and/or a conveyer belt arranged for conveying material from the discharge aperture to the spreading disk (15). A method for spreading granular and/or pulverulent material is also disclosed.

The present invention is directed to an applicator having an agricultural product mechanical conveying system which transfers particulate material from one or more source containers to application equipment on demand, and meters the material at the application equipment. The conveying system includes a pneumatic agitation system operably connected to the tanks of the applicator to agitate the particulate material disposed within the tanks in order to reduce the formation of agglomerations and/or bridges of particles within the tanks. The pneumatic agitation system includes a number of nozzle connected to each tank that are in turn connected to a pressurized air source and a controller. The controller is operable to selectively cause pressurized air to flow into the tanks through the nozzles to agitate the particulate material positioned therein, thereby breaking up and agglomerations of material within the tanks.

A hose-end spreader device includes a hopper configured to contain an amount of granular product, the hopper comprising a hopper inlet and a hopper outlet in communication with the hopper inlet. The device further includes a first chamber in communication with the hopper outlet, the first chamber comprising a first opening through which the granular product exits the device, and a first impeller disposed in the first chamber. Also included are a housing disposed below the first chamber, the housing comprising a fluid inlet, a second chamber in communication with the fluid inlet, and a second opening in communication with the second chamber through which a fluid exits the device, and a second impeller disposed in the second chamber. The second impeller is coupled to the first impeller.

An agricultural implement (1) for distributing granular material to ground over which the agricultural implement is travelling comprises a container (14) for the material, a fan (16) for producing an air flow in a primary channel (161, 162), a driveable volumetric feeder unit (141): for feeding the material to the primary channel (161, 162), such that a material laden air flow is produced, a plurality of secondary channels (18) for transporting the material laden air flow, and a plurality of output units (17) which are each connected to one of said secondary channels (18) and have an outlet channel (174) for discharging the material to the ground. Each of the output units (17) comprises a singulator (171), which has a singulating part (1714) which is movable in a singulating space and has a plurality of through-holes, and over which a pressure difference can be applied, such that the singulating part has a high-pressure side and a low-pressure side. The singulator (171) has a material inlet (1711) and an air inlet (1712), which connect to the singulating space on the high-pressure side. A material outlet (1713) of the singulator connects to the outlet channel (174).

A method for identifying commodity flow through a meter on an agricultural machine. The method includes providing a meter housing coupled to a tank and a first sensor in communication with a controller, coupling the first sensor to a location proximate to the meter housing, identifying, with the controller through the first sensor, when a buildup of commodity is positioned adjacent to the first sensor, and initiating a first response, with the controller, when the buildup of commodity is identified adjacent to the first sensor.

A meter assembly for an agricultural machine includes a meter, a conduit, and a bypass. The meter includes a roller to move commodity to the conduit. The bypass is coupled to the conduit and the meter to facilitate air flow therebetween free of interference from the roller or the commodity.

The present invention belongs to the field of machines and agricultural implements, more concretely agricultural implements for the mixture and/or distribution of a solid product having variable granulometry, such as, for example, silage, crumbs, clusters, in powder, among others, such as feedstuff and mineral supplements. Moreover, the present invention brings as main advantage, relative to the implements known to the state of the art, the fact that it has a torque limiting means over the movable parts, such as helical pitch threads, augers and/or beater arms, so that there is no overload in the hydraulic system of the implement that is operatively associated to the tractor unit. Further, the invention in question counts on a protection means, with paralyzation and partial reversal and/or rotation reducer, in an independent and/or synchronized form, of the movable parts, in case the hydraulic circuit of the implement detects a pressure that is over the preestablished value, avoiding damages and unscheduled stops of the implement.

An agricultural machine includes a product bin configured to store particulate material; a conveyor configured to draw the particulate material from the product bin; a distribution plate including a plurality of apertures; and a sectional control funnel box mounted on the distribution plate. The sectional control funnel box is configured to receive particulate material from the conveyor, and has a plurality of chutes extending therethrough and connecting the sectional control funnel box to the distribution plate. Distribution lines are configured to receive particulate material from a single aperture of the distribution plate and provide the particulate material to a distribution point of the distribution line. A system controller is configured to individually control a flow of the particulate material to each distribution line based on a location of the agricultural machine. Related systems and methods are also disclosed.

A multi-crop adaptive seed delivery and uniform seed distribution device, including: a seed storage box, a seed metering mechanism, a seed distributor lower housing, a seed distributor upper housing, and a blade driving mechanism. Closed accommodating cavity is formed between the seed distributor upper and lower housing; N seed guide tubes are arranged in circumferential direction, N being positive integer equal to or greater than 2; N blades are rotatably mounted in accommodating cavity; blades are arranged in vertical direction; closed independent seed guide cavity is divided in accommodating cavity by two adjacent blades; upper end of each seed guide tube is connected with corresponding seed guide cavity; top of seed distributor upper housing is divided into N fan-shaped areas in circumferential direction; upper end of each blade is connected to edge of corresponding fan-shaped area by means of elastic piece; and collision sensor is provided in each fan-shaped area.