An assembly includes first and second shafts and first and second sprockets. The first shaft has a first and second ends and a first longitudinal axis of rotation. The first sprocket is attached to the first shaft proximate the first end of the first shaft. The first sprocket rotates with the first shaft. The second shaft is spaced from the first shaft by a distance, the second shaft having a first end spaced from the first end of the first shaft by the distance, a second end spaced from the second end of the first shaft by the distance, and a second longitudinal axis of rotation substantially parallel to the first longitudinal axis of rotation. The second sprocket is attached to the second shaft proximate the second end of the second shaft. The second sprocket rotates with the second shaft. The distance is adjustable.

An air system for supplying product to the product tank of an agricultural implement has an air supply and at least one elongated conduit for delivering air entrained product to the tank. There is at least one outlet in the tank formed as a hollow elbow having a generally downwardly directed outlet, a generally upwardly directed outlet and a transverse inlet coupled to the conduit. The elbow includes an upper generally cylindrical region comprising a cyclone chamber for swirling the incoming air entrained product directing at least a portion of the air flow upwardly toward the upwardly directed outlet while allowing the product to fall in a generally helical pattern through a generally frusto-conical region, whereby material migrates downwardly and air upwardly releasing the material to fall in a gentle spiral and air to exit from the upper region of the tank.

A seed treatment composition which efficiently applies a seed treatment material such as a bacterium or plant protein to a seed by using a talc-based carrier material. The seed treatment composition generally includes a carrier material which is mixed with a seed treatment material and applied to a seed such that the carrier material and seed treatment material both adhere to and uniformly coat the exterior surface of the seed. The carrier material will generally include talc which mixes with the seed treatment material and adheres to the exterior of the seed. The seed treatment material may comprise any solid, particulate material which would benefit a seed, such as an inoculant, bacterium, plant proteins, insecticide, and/or fungicide.

A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators.

A material spreading system including a spreader and a tote, and related methods, are disclosed. The spreader may include a frame attachable to a loading machine such as a skid loader, an inlet for receiving a material, one or more connector members, and a discharge mechanism configured to selectively discharge the material onto the ground. The tote may include a container for storing the material and one or more connector members. The connector members of the tote may be configured to matingly engage the connector members of the spreader such that an opening in the container aligns with the inlet of the spreader. Accordingly, the material in the container may be transferred from the container to the spreader. Furthermore, the material spreading system may be used in various application including those involving the spread of granular and/or liquid de-icing material over the ground.

A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators.

An exhaust system of an agricultural product container includes a first media screen configured to be coupled to the agricultural product container. The first media screen includes a first plurality of apertures. The first media screen is configured to block a granular product from entering the exhaust system and enabling an air flow into the exhaust system. The exhaust system includes a diffuser having a first diffuser aperture configured to diffuse the air flow in a downward direction. The exhaust system further includes a passage fluidly coupled between the first media screen and the diffuser. The passage is configured to selectively guide the air flow from the first media screen toward the diffuser.

An air cart for distributing air entrained particulate material from a chamber or tank to a plurality of distribution lines for application to an agricultural field has a tank refilling feature utilizing air flow from the cart distribution system or from a dedicated pneumatic source. The cart conveying system air flow is diverted and passed through an assembly containing multiple venturis which also receives particulate material from a supply source. The air entrained material from the source is conveyed to and gently deposited in the cart tank. Exhaust air from the tank may be directed back into the cart conveying system or vented through an air diffuser located beneath the cart. Exhaust air which is directed back to the cart conveying system may return to a location closely adjacent that from which it was originally diverted.

An air system for supplying product to the product tank of an agricultural implement has an air supply and at least one elongated conduit for delivering air entrained product to the tank. There is at least one outlet in the tank formed as a hollow elbow having a generally downwardly directed outlet, a generally upwardly directed outlet and a transverse inlet coupled to the conduit. The elbow includes an upper generally cylindrical region comprising a cyclone chamber for swirling the incoming air entrained product directing at least a portion of the air flow upwardly toward the upwardly directed outlet while allowing the product to fall in a generally helical pattern through a generally frusto-conical region, whereby material migrates downwardly and air upwardly releasing the material to fall in a gentle spiral and air to exit from the upper region of the tank.

An air cart system includes a container assembly mounted on wheels and including a primary product container and an air distribution network including a product conduit that delivers a first agricultural product and a second agricultural product to an agricultural implement. The air cart system includes a first metering device to meter the first agricultural product from the primary product container to the product conduit. A fill hopper mounts on a side of the container assembly, and a secondary product container mounts beneath a portion of the primary product container. The secondary product container receives the second agricultural product from the fill hopper, which receives the second agricultural product at an opening and conveys the second agricultural product to the secondary product container. The air cart system includes a second metering device to meter the second agricultural product from the secondary product container to the product conduit.