A harvest vacuum assembly includes a vacuum motor coupled to a farming implement. The vacuum motor urges air inwardly through an intake and outwardly through an exhaust when the vacuum motor is turned on. A suction tube is removably coupled to the hydraulic lift on the front end of the farming implement. The suction tube has a suction aperture therein that is directed downwardly toward ground when the suction tube is coupled to the hydraulic lift. Moreover, the suction tube is in fluid communication with the vacuum motor such that the vacuum motor urges air inwardly through the suction aperture. Thus, the suction aperture sucks loose objects on the ground for collection. The exhaust on the vacuum is in fluid communication with a harvester is towed behind the farming implement to transfer the loose objects into the harvester for harvesting.

A harvest vacuum assembly includes a vacuum motor coupled to a farming implement. The vacuum motor urges air inwardly through an intake and outwardly through an exhaust when the vacuum motor is turned on. A suction tube is removably coupled to the hydraulic lift on the front end of the farming implement. The suction tube has a suction aperture therein that is directed downwardly toward ground when the suction tube is coupled to the hydraulic lift. Moreover, the suction tube is in fluid communication with the vacuum motor such that the vacuum motor urges air inwardly through the suction aperture. Thus, the suction aperture sucks loose objects on the ground for collection. The exhaust on the vacuum is in fluid communication with a harvester is towed behind the farming implement to transfer the loose objects into the harvester for harvesting.

A mulching apparatus for attachment to a lawnmower includes a cutting assembly separate from the mower blades, wherein the grass clippings are finely cut and then dispersed onto the ground surface. A spreader assembly receives the mulched grass clippings from the cutting assembly and disperses the mulched grass clippings onto a ground surface. Optionally, the mulching apparatus includes a feeder assembly to facilitate supplying grass clippings to the cutting assembly.

A forage harvester configured for chopping harvested crops and producing a stream of chopped crop material. The harvester includes a rotatable blower drum mounted in a blower housing, for propelling the stream of crop material into an outlet duct of the harvester. The blower drum has an open structure which allows a flow of air in the axial direction of the drum. The blower drum is mounted between two sidewalls of the blower housing, at least one of the sidewalls comprising one or more air inlet openings. The harvester further includes at least one set of axial flow turbine blades, mounted between the blower drum and one or both of the sidewalls of the blower housing, the blades being rotatable about the blower drum's rotation axis.

A forage harvester configured for chopping harvested crops and producing a stream of chopped crop material. The harvester includes a rotatable blower drum mounted in a blower housing, for propelling the stream of crop material into an outlet duct of the harvester. The blower drum has an open structure which allows a flow of air in the axial direction of the drum. The blower drum is mounted between two sidewalls of the blower housing, at least one of the sidewalls comprising one or more air inlet openings. The harvester further includes at least one set of axial flow turbine blades, mounted between the blower drum and one or both of the sidewalls of the blower housing, the blades being rotatable about the blower drum's rotation axis.

A harvest vacuum assembly includes a vacuum motor coupled to a farming implement. The vacuum motor urges air inwardly through an intake and outwardly through an exhaust when the vacuum motor is turned on. A suction tube is removably coupled to the hydraulic lift on the front end of the farming implement. The suction tube has a suction aperture therein that is directed downwardly toward ground when the suction tube is coupled to the hydraulic lift. Moreover, the suction tube is in fluid communication with the vacuum motor such that the vacuum motor urges air inwardly through the suction aperture. Thus, the suction aperture sucks loose objects on the ground for collection. The exhaust on the vacuum is in fluid communication with a harvester is towed behind the farming implement to transfer the loose objects into the harvester for harvesting.

A harvest vacuum assembly includes a vacuum motor coupled to a farming implement. The vacuum motor urges air inwardly through an intake and outwardly through an exhaust when the vacuum motor is turned on. A suction tube is removably coupled to the hydraulic lift on the front end of the farming implement. The suction tube has a suction aperture therein that is directed downwardly toward ground when the suction tube is coupled to the hydraulic lift. Moreover, the suction tube is in fluid communication with the vacuum motor such that the vacuum motor urges air inwardly through the suction aperture. Thus, the suction aperture sucks loose objects on the ground for collection. The exhaust on the vacuum is in fluid communication with a harvester is towed behind the farming implement to transfer the loose objects into the harvester for harvesting.

The present invention provides a system for processing a bale of straw to provide a hurd fraction, a fiber fraction and a dust fraction. The system comprises a bale cutting assembly configured to cut the bale into a plurality of vertically stacked cut bale segments by making one or more horizontal cuts through the bale and to eject a lowermost one of the plurality of the cut bale segments onto a first conveyor assembly, which separates the bale segment into straw wafers and convey them into a flail assembly comprising a plurality of flails/beaters to convert straw wafers into loose straw. The loose straw are discharged into a grinding assembly via a second conveyor assembly, to provide a mixture of hurd, fiber and dust. A separation assembly receives and separate the mixture of hurd, fiber and dust into the hurd fraction, the fiber fraction and the dust fraction.

The present invention provides a system for processing a bale of straw to provide a hurd fraction, a fiber fraction and a dust fraction. The system comprises a bale cutting assembly configured to cut the bale into a plurality of vertically stacked cut bale segments by making one or more horizontal cuts through the bale and to eject a lowermost one of the plurality of the cut bale segments onto a first conveyor assembly, which separates the bale segment into straw wafers and convey them into a flail assembly comprising a plurality of flails/beaters to convert straw wafers into loose straw. The loose straw are discharged into a grinding assembly via a second conveyor assembly, to provide a mixture of hurd, fiber and dust. A separation assembly receives and separate the mixture of hurd, fiber and dust into the hurd fraction, the fiber fraction and the dust fraction.

A method for displacing bees from vegetation subject to cutting by a mowing machine having a cutting deck and using a blower assembly affixed to the mowing machine. The assembly is provided as a fan or motorized blower affixed to a funnel. In operation, the fan or motorized blower creates then forces a concentrated air stream into the funnel that then directs the concentrated air stream to an area of vegetation immediately in front of the cutting deck, displacing bees in the area of vegetation prior to cutting. A funnel mouth is oriented so that the emitted air stream is at least as wide as the cutting deck, and multiple blower assemblies or larger funnel attachments may be used to accommodate larger cutting decks. The method includes selective actuation of the blower while operating the mowing machine.