A debris-collecting apparatus includes a draft inducer operable to draw air and debris, an input portion for receiving incoming air and debris caused by operation of the draft inducer, and a bagging portion. The bagging portion includes a hood having an arcuate portion, a bag removably positioned below the hood and having an inner face, and a bagging passage for directing the air and debris from the input portion to the hood. The arcuate portion extends from the bagging passage to the bag such that the air and debris from the bagging passage travels along the arcuate portion and thereafter apply a dislodging force to dislodge debris collected at the inner face of the bag.

A debris-collecting apparatus includes a draft inducer operable to draw air and debris, an input portion for receiving incoming air and debris caused by operation of the draft inducer, and a bagging portion. The bagging portion includes a hood having an arcuate portion, a bag removably positioned below the hood and having an inner face, and a bagging passage for directing the air and debris from the input portion to the hood. The arcuate portion extends from the bagging passage to the bag such that the air and debris from the bagging passage travels along the arcuate portion and thereafter apply a dislodging force to dislodge debris collected at the inner face of the bag.

The Multipurpose Leaf Crop Harvesting Apparatus and Processing Method will accomplish seven steps in one pass of the combine harvester. This apparatus and processing method harvests leaf crops and is configured to perform multiple processing operations, including fractionation of the leaf crop, leaf maceration, leaf sizing, elevating the leaf fraction to a transport vehicle, and stem conditioning, cutting and windrowing, in a single pass through the crop field. These steps are accomplished using a header unit, an adapter feeder macerator and a forage harvester vehicle, expeditiously removing the leaf fraction from the field. Following leaf fraction harvesting, the leaf fraction is processed by densification into forage feed products. The processed leaf fraction can be combined with other feeds to make up customized feed rations. The stem fraction is also processed. The present invention can also be used to harvest grass crops.

A harvesting method includes the steps of operating a moveable harvesting machine in one or more fields to harvest plant matter and produce a secondarily processable harvest product for subsequent processing using secondary processing machinery; and while operating the harvesting machine to produce the secondarily processable harvest product, recording data that includes information on one or more characteristics of the secondarily processable harvest product. The method further includes transferring the recorded data from the harvesting machine to an external data store; causing moveable secondary processing machinery to retrieve at least some data on the secondarily processable harvest product from the data store; and controlling one or more controllable parameters of the secondary processing machinery based on the retrieved data during operation of the secondary processing machinery to process the secondarily processable harvest product.

A lawn mower including a frame, a prime mover supported by the frame, a plurality of wheels rotatably coupled to the frame to support the frame for movement along the ground, and a cutting deck supported by the frame. The cutting deck has a discharge opening. The lawn mower also includes a cutting blade rotatably mounted below the cutting deck and driven by the prime mover. The cutting blade is rotatable within a cutting plane. The lawn mower further includes a blower supported by the cutting deck adjacent the discharge opening to draw cut vegetation from under the cutting deck and discharge the cut vegetation away from the cutting deck. The blower is obliquely angled relative to the cutting plane.

A lawn mower including a frame, a prime mover supported by the frame, a plurality of wheels rotatably coupled to the frame to support the frame for movement along the ground, and a cutting deck supported by the frame. The cutting deck has a discharge opening. The lawn mower also includes a cutting blade rotatably mounted below the cutting deck and driven by the prime mover. The cutting blade is rotatable within a cutting plane. The lawn mower further includes a blower supported by the cutting deck adjacent the discharge opening to draw cut vegetation from under the cutting deck and discharge the cut vegetation away from the cutting deck. The blower is obliquely angled relative to the cutting plane.

A harvesting machine along with a method of operating the harvesting machine. The harvesting machine includes a frame having a first end and a second end. A rotatable pick-up head is pivotally mounted on the first end and is capable of urging a crop into the machine. A cutting mechanism is mounted on a bottom plate for cutting the stems of the plants. A crimper mechanism is positioned downstream of the bottom plate and is capable of compacting the cut stems into a moving web. A moisture removal mechanism is positioned after the crimper mechanism to lower the moisture in the cut stems. A crop converging mechanism is located downstream of the moisture removal mechanism and reduces the width of the moving web into a ribbon. A chopper then chops the ribbon into small pieces so that they can be blown into a storage wagon for transport.

A harvesting machine along with a method of operating the harvesting machine. The harvesting machine includes a frame having a first end and a second end. A rotatable pick-up head is pivotally mounted on the first end and is capable of urging a crop into the machine. A cutting mechanism is mounted on a bottom plate for cutting the stems of the plants. A crimper mechanism is positioned downstream of the bottom plate and is capable of compacting the cut stems into a moving web. A moisture removal mechanism is positioned after the crimper mechanism to lower the moisture in the cut stems. A crop converging mechanism is located downstream of the moisture removal mechanism and reduces the width of the moving web into a ribbon. A chopper then chops the ribbon into small pieces so that they can be blown into a storage wagon for transport.

An Invasive Weed Seed Removal System, and a method are disclosed providing an invasive weed seed removal device including a weed seed removal nozzle in combination with a vacuum and a venturi effect cutting blade configuration, which acts to cut and vacuum invasive weed seed pods, thereby effectively and economically removing them from the environment before the weed seeds reach the ground, whereby the annual cycle of invasive weed growth is broken, and areas of land are cleared of invasive weeds to enable native plants to grow and thrive. The Invasive Weed Seed Removal System can be configured as a hand-held unit, a backpack mounted unit, a lawn mower type unit and a heavy equipment type tractor attachment, to enable several methods of controlled cutting and removal of the seed pods of invasive weeds and noxious imported grasses, by adjusting the height of the cutting and vacuum nozzle.

An Invasive Weed Seed Removal System, and a method are disclosed providing an invasive weed seed removal device including a weed seed removal nozzle in combination with a vacuum and a venturi effect cutting blade configuration, which acts to cut and vacuum invasive weed seed pods, thereby effectively and economically removing them from the environment before the weed seeds reach the ground, whereby the annual cycle of invasive weed growth is broken, and areas of land are cleared of invasive weeds to enable native plants to grow and thrive. The Invasive Weed Seed Removal System can be configured as a hand-held unit, a backpack mounted unit, a lawn mower type unit and a heavy equipment type tractor attachment, to enable several methods of controlled cutting and removal of the seed pods of invasive weeds and noxious imported grasses, by adjusting the height of the cutting and vacuum nozzle.