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Last Updated: April 24, 2024

Claims for Patent: 8,070,570

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Summary for Patent: 8,070,570

Title:	Spreader disk assembly convertible for windrowing
Abstract:	A spreader disk assembly for spreading crop residue such as straw discharged from an agricultural harvesting machine, and more particularly, which has a bat support mechanism that enables the bats to be quickly and easily hingedly or pivotally convertible from a deployed spreading mode to a flattened stowed mode for windrowing, which does not require removal of the bats, or the disk from the spreader. A locking mechanism is provided that enables the quick and easy conversion and securely holds the bats in both modes.
Inventor(s):	Murray; Craig E. (Rock Island, IL), Johnson; Orlin W. (Geneseo, IL), Watt; John D. (Davenport, IA), Schroeder; Jay D. (Coal Valley, IL), Finley; Bryan B. (Bettendorf, IA)
Assignee:	CNH America LLC (New Holland, PA)
Application Number:	12/844,501
Patent Claims:	1. A spreader disk assembly for an agricultural harvesting machine, comprising: a disk having a substantially planar first surface, a second surface opposite the first surface, and a rotational axis extending through a central portion of the disk between the first and second surfaces; a plurality of elongate bats disposed on the first surface at angularly spaced locations about the rotational axis, respectively, each of the bats having a longitudinal edge pivotally mounted to the disk for pivotal movement of the bat between a deployed position extending generally axially outwardly from the first surface, and a stowed position extending generally parallel to the first surface; and bat support mechanisms extending through slots formed through the disk and connected to the bats, respectively, each of the support mechanisms being configurable in a bat deploying mode for movably extending through a slot for lockingly supporting and holding the bat connected thereto in the deployed position, and each of the support mechanisms being configurable in a bat stowing mode for unlocking the bat connect thereto from the deployed position and moving the bat to a bat stowing position while movably retracting from the slot and holding the bat connected thereto in the stowed position, wherein the bat support mechanism is positioned below the first surface and adjacent the second surface when the bat is held in the stowed position, and wherein each of the bats is generally flat and will lay substantially flat against the first surface when in the stowed position. 2. The spreader disk assembly of claim 1, wherein the disk is comprises a substantially planar first surface adjacent its outer radial edge, and a substantially frusto-conical surface in its central portion. 3. The spreader disk assembly of claim 1, wherein each of the bat support mechanisms comprises an elongate support bracket extending longitudinally through at least one slot through the disk and having a first end connected to the bat, and a second end located adjacent to the second surface, the bracket carrying a locked mechanism configurable in a first manner for supporting and holding the bat in the deployed position, and in a second manner for holding the bat in the stowed position. 4. The spreader disk assembly of claim 3, wherein the locking mechanism comprises a detent element on the second surface and a resiliently elongatable strap having one end captured and carried in a slot extending longitudinally along the bracket so as to be movable longitudinally relative thereto, and an opposite end configured to be cooperatively engaged and held by the detent element, wherein the strap is movable to one end of the slot and engageable with the detent element for releasably holding the bat in the deployed position, and wherein the strap is movable to an opposite end of the slot and engageable with the detent element for releasably holding the bat in the stowed position. 5. The spreader disk assembly of claim 1, wherein the disk is supported below a crop residue discharge outlet of a harvesting machine and is connected in rotatably driven relation to a drive operable for rotating the disk about the rotational axis in a manner such that crop residue discharged onto the disk when rotating will be propelled radially outwardly by the bats when in the deployed position, and will pass over the bats when in the stowed position. 6. A spreader disk assembly for an agricultural harvesting machine, comprising: a disk having a substantially planar first surface, a second surface opposite the first surface, and a rotational axis extending through a central portion of the disk between the first and second surfaces; a plurality of elongate bats disposed on the first surface at angularly spaced locations about the rotational axis, respectively, each of the bats having a longitudinal edge hingedly mounted to the disk for hinged movement of the bat between a deployed position extending generally axially outwardly from the first surface, and a stowed position extending generally parallel to the first surface; bat support mechanisms extending through slots formed through the first and second surfaces of the disk and connected to the bats, respectively, each of the support mechanisms being configurable in a bat deploying mode for movably extending through a slot for lockingly supporting and holding the bat connected thereto in the deployed position, and each of the support mechanisms being configurable in a bat stowing mode for unlocking the bat connect thereto from the deployed position and moving the bat to a bat stowing position while movably retracting from the slot and holding the bat connected thereto in the stowed position, wherein the bat support mechanism is positioned below the first surface and adjacent the second surface when the bat is held in the stowed position, and wherein each of the bats is generally flat and will lay substantially flat against the first surface when in the stowed position, and the disk being supported below a crop residue discharge outlet of a harvesting machine such that crop residue discharged therefrom will impinge the first surface, and such that, when the disk is rotated, if the bats are in the deployed position the crop residue will be spread by the spreader disk assembly in a swath having a sideward extend greater than a sideward extent of the disk, and if the bats are in the stowed position the crop residue that impinges the disk will fall from the disk in a windrow having a sideward extent about equal to the sideward extent of the disk. 7. The spreader disk assembly of claim 6, wherein the disk comprises a substantially planar first surface adjacent its outer radial edge, and a substantially frusto-conical surface in its central portion. 8. The spreader disk assembly of claim 7, wherein each of the bat support mechanisms comprises an elongate support bracket extending longitudinally through at least one slot through the disk and having a first end pivotally mounted to the bat, and a second end located adjacent to the second surface, the bracket carrying a locking mechanism configurable in a first manner for supporting and holding the bat in the deployed position, and in a second manner for resiliently biasing the bat against the first surface. 9. The spreader disk assembly of claim 8, wherein the locking mechanism comprises a detent element on the second surface and a resiliently elongated strap having one end captured and carried in a slot extending longitudinally along the bracket so as to be movable longitudinally relative thereto, and an opposite end configured to be cooperatively engaged and held by the detent element, wherein the strap is movable to one end of the slot and engageable with the detent element for releasably holding the bat in the deployed position, and wherein the strap is movable to an opposite end of the slot and engageable with the detent element for releasably and resiliently holding the bat in the stowed position. 10. The spreader disk assembly of claim 6, comprising two of the disks disposed in side-by-side relation below the crop residue discharge outlet. 11. A spreader disk assembly, comprising: a pair of disks supported in side-by-side relation beneath a crop residue discharge outlet of a harvesting machine for receiving a flow of crop residue discharged therefrom, each of the disks having a substantially planar first surface disposed to be impinged by the crop residue flow, a second surface opposite and beneath the first surface, and a rotational axis extending through a central portion of the disk between the first and second surfaces; a plurality of elongate bats disposed on the first surface of each of the disks at angularly spaced locations about the rotational axis, respectively, each of the bats having a longitudinal edge hingedly mounted to the disk for hinged movement of the bat between a deployed position extending generally axially outwardly from the first surface, and a stowed position extending generally parallel to the first surface; bat support mechanisms extending through slots formed through the first and second surfaces of the disks and connected to the bats of each of the disks, respectively, each of the support mechanisms being configurable in a bat deploying mode for movably extending through a slot in each disk for lockingly supporting and holding the bat connected thereto in the deployed position, and each of the support mechanisms being configurable in a bat stowing mode for unlocking the bat connect thereto from the deployed position and moving the bat to a bat stowing position while movably retracting from the slot and holding the bat connected thereto in the stowed position, wherein the bat support mechanism is positioned below the first surface and adjacent the second surface when the bat is held in the stowed position, and wherein each of the bats is generally flat and will lay substantially flat against the first surface when in the stowed position, and a drive connected to the disks and operable for counter rotating the disks about the rotational axis, respectively, such that when the bats are in the deployed position and the disks are rotated any crop residue that impinges the first surfaces of the disks will be spread in a dispersed pattern by the bats, and such that when the bats are in the stowed position and the disks are rotated any crop residue that impinges the first surfaces of the disks will be decelerated and dropped substantially directly downwardly from the disks. 12. The spreader disk assembly of claim 11, wherein each disk comprises a substantially planar first surface adjacent its outer radial edge, and a substantially frusto-conical surface in its central portion. 13. The spreader disk assembly of claim 11, wherein each of the bat support mechanisms comprises an elongate support bracket extending longitudinally through at least one slot through the disk and having a first end mounted to the bat, and a second end located adjacent to the second surface, the bracket carrying a locking mechanism configurable in a first manner for supporting and holding the bat in the deployed position, and in a second manner for holding the bat in the stowed position. 14. The spreader disk assembly of claim 13, wherein the locking mechanism comprises a detent element on the second surface and a resiliently elongatable strap having one end captured and carried in a slot extending longitudinally along the bracket so as to be movable longitudinally relative thereto, and an opposite end configured to be cooperatively engaged and held by the detent element, wherein the strap is movable to one end of the slot and engageable with the detent element for releaseably holding the bat in the deployed position, and wherein the strap is movable to an opposite end of the slot and engageable with the detent element for releasably holding the bat in the stowed position. 15. The spreader disk assembly of claim 12, wherein each disk counter rotates and the frusto-conical surface of each of the disks cooperate to direct a flow of crop residue from the harvesting machine. 16. A spreader disk assembly for an agricultural harvesting machine, comprising: a disk having a substantially planar first surface adjacent its outer radial edge, and a substantially frusto-conical surface in its central portion, and a second surface opposite the first surface, and a rotational axis extending through the frusto-conical surface of the central portion of the disk; a plurality of elongate bats disposed on the first surface at angularly spaced locations about the rotational axis, respectively, each of the bats having a longitudinal edge pivotally mounted to the disk for pivotal movement of the bat between a deployed position extending generally axially outwardly from the first surface, and a stowed position extending generally parallel to the first surface; and bat support mechanisms extending through slots formed through the disk and connected to the bats, respectively, each of the support mechanisms being configurable in a bat deploying mode for movably extending through a slot for lockingly supporting and holding the bat connected thereto in the deployed position, and each of the support mechanisms being configurable in a bat stowing mode for unlocking the bat connect thereto from the deployed position and moving the bat to a bat stowing position while movably retracting from the slot and holding the bat connected thereto in the stowed position, wherein the bat support mechanism is positioned below the first surface and adjacent the second surface when the bat is held in the stowed position. 17. The spreader disk assembly of claim 16, wherein each of the bat support mechanisms comprises an elongate support bracket extending longitudinally through at least one slot through the disk and having a first end connected to the bat, and a second end located adjacent to the second surface, the bracket carrying a locked mechanism configurable in a first manner for supporting and holding the bat in the deployed position, and in a second manner for holding the bat in the stowed position. 18. The spreader disk assembly of claim 17, wherein the locking mechanism comprises a detent element on the second surface and a resiliently elongatable strap having one end captured and carried in a slot extending longitudinally along the bracket so as to be movable longitudinally relative thereto, and an opposite end configured to be cooperatively engaged and held by the detent element, wherein the strap is movable to one end of the slot and engageable with the detent element for releasably holding the bat in the deployed position, and wherein the strap is movable to an opposite end of the slot and engageable with the detent element for releasably holding the bat in the stowed position. 19. The spreader disk assembly of claim 18, wherein the disk is supported below a crop residue discharge outlet of a harvesting machine and is connected in rotatably driven relation to a drive operable for rotating the disk about the rotational axis in a manner such that crop residue discharged onto the disk when rotating will be propelled radially outwardly by the bats when in the deployed position, and will pass over the bats when in the stowed position.

Details for Patent 8,070,570

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Applicant	Tradename	Biologic Ingredient	Dosage Form	BLA	Approval Date	Patent No.	Expiredate
Emergent Biosolutions Canada Inc.	BAT	botulism antitoxin heptavalent (a, b, c, d, e, f, g) - (equine)	Solution	125462	03/22/2013	⤷ Try a Trial	2029-07-28
>Applicant	>Tradename	>Biologic Ingredient	>Dosage Form	>BLA	>Approval Date	>Patent No.	>Expiredate

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