The invention relates to controlling a driving condition for an agricultural machine having a tractor, an implement for applying materials selected from the group of granular material, liquid material, and a powder-form material, the implement carried or trailed by the tractor and comprising a supply container, an application device, and a weight sensor device having at least one weight sensor and configured to sense an empty weight and a filling weight for the supply container. A tractor implement management system is provided and is operationally connected to the weight sensor device and configured for controlling driving conditions of the tractor. The method comprises driving the tractor, measuring first weight signals, indicative of a first driving condition, providing first tractor control signals, generated in response to the first weight signals and configured to apply a first control condition to the tractor driving, for controlling the tractor driving.

A spreader having a hopper for particulate material with discharge openings over two separate different areas along the hopper bottom, a pair of wheels upon separate drive shafts mounted for rotation to a lower frame which supports the hopper, and a rear frame extending from the hopper to provide a pair of handles. Two rotatable shafts with agitator elements are mounted over each of the different hopper areas. Each of the agitator shafts are coupled for rotation by different ones of the drive shafts. Two gates with openings are disposed below the hopper each along different ones of the areas dividing the hopper bottom. Each gate is movable to close and open the openings of the hopper in the area associated with the gate. A pair of controllers are provided each coupled to a different one of the two gates to independently move the gates between open and close positions.

A broadcast spreader and methods of using the same. One method includes dispersing particulate material using a broadcast spreader having a hopper and an impeller by placing the spreader in a first configuration where a first set of through openings proximate a bottom portion of the hopper permit the particulate material to pass therethrough and fall onto the impeller to thereby be distributed in a first spread pattern, and shifting the spreader into a second configuration where a second set of through openings proximate the bottom portion of the hopper permit the particulate material to pass therethrough and fall onto the impeller to thereby be distributed in a second spread pattern. The first set of through openings includes a different number of through openings than the second set of through openings, and the first spread pattern is different than the second spread pattern.

A loader bucket has material spreaders on opposing sides of the loader bucket to spread material from within the loader bucket received through discharge openings in the rear wall of the bucket from an auger located in the bottom of the bucket. Each material spreader includes a spinner formed with blades to spread the material received through the discharge openings. The material spreaders are positioned below the apex of the V-shaped bucket and operable within a path of distribution that includes an interior boundary member oriented with a forward end closer to the center of the bucket than the rearward end to provide a distribution forwardly and laterally of the bucket. A low baffle mounted at the bottom periphery of the spinner blades forces material upwardly into a fluffy pattern. A high baffle provides a second boundary limit for the distribution of material.

A pneumatic delivery system for particulate agricultural products includes one or more compartment for containing and supplying one or more particulate product. An inductor assembly separately receives and fluidizes the particulate products and conveys the fluidized products to a metering assembly. The metering assembly separately meters each of the product flows and transfers the metered flows to one or more delivery units for applying the products. The pneumatic delivery system can be used on various implements, including planters and applicators for applying seeds, fertilizer, pesticides and other products.

A spreader with a material divider that is adjustable by movement of a plurality of internally movable parts therein to change a stream of material which flows in an arbitrary manner to the centrifugal disk(s) to achieve a desired symmetrical or asymmetrical spread pattern.

An apparatus for broadcasting particulate or granular material over a ground surface involves a variable speed spinner and a material conveyor. The spinner is positioned generally horizontally below a discharge end of a material conveyor. The spinner has a disk having a generally radially disposed fin fixed to an upper side of the disk and radiating outwardly from a center of the disk. The spinner is positioned to receive material from the material conveyor at a location about half way along a length of the fin. In a method broadcasting particulate or granular material over a ground surface, the spinner is preferably rotated at a speed of 900-1000 rpm. The apparatus and method provide for distribution of material over greater distances and can do so without pulverizing the material, creating a uniform pattern of distribution over a 50% wider swath.

A spreading device is disclosed for spreading vehicles for discharging spreading agents. The spreading device includes at least one tank for receiving liquid spreading agents to be spread and at least one rotationally-driven discharge device, connected via a provided supply unit to the tank. The discharge device has at least one base body and one cover securely connected to the base body, wherein the base body defines a receiving chamber (AR) for the supplied liquid spreading agent and is in the shape of a cylinder. The base body has at least one bottom section, forming an underside (U) of the discharge device, with an inlet opening and at least one wall section projecting from the bottom section and concentrically surrounding an axis of rotation (RA). The discharge device has multiple discharge units, each having a discharge opening, for dispensing the liquid spreading agent from the receiving chamber (AR).

The invention relates to a method for determining suitable spreading settings for an agricultural spreading machine (10) for achieving an intended spreading material distribution of a spreading material (30) across an agricultural area (12), comprising the steps of: determining the current ejection direction of the ejected spreading material (30) during a spreading operation and determining a suitable application point setting for the agricultural spreading machine (10) taking into account the determined current ejection direction of the ejected spreading material (30) and an ejection direction for the ejected spreading material (30) which is suitable for achieving the intended spreading material distribution during the spreading operation.

An agricultural combine including a residue spreading system adapted for spreading residue onto a field. The residue spreading system includes a seed container and a seed dispensing system adapted to dispense seeds from the seed container into the residue so that, in operation, the dispensed seeds are spread onto the field together with the residue.