Insertion tool for a rotary chopper element of an integral chopper assembly of a combine harvester
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B23Q-003/00
B25B-027/14
출원번호
US-0154609
(2008-05-23)
등록번호
US-8146231
(2012-04-03)
발명자
/ 주소
Farley, Herbert M.
Benes, Jason M.
Klein, Daniel J.
Wagner, Bradley J.
출원인 / 주소
CNH America LLC
대리인 / 주소
Harms, Michael G.
인용정보
피인용 횟수 :
2인용 특허 :
17
초록▼
An insertion tool for installing rotary chopper elements in integral chopper assemblies in combine harvesters, which insertion tool includes an elongated open-ended trough-like bed portion of a length, breadth, and depth to sufficiently accommodate the rotary chopper element therewithin, with lift b
An insertion tool for installing rotary chopper elements in integral chopper assemblies in combine harvesters, which insertion tool includes an elongated open-ended trough-like bed portion of a length, breadth, and depth to sufficiently accommodate the rotary chopper element therewithin, with lift brackets along the sides thereof configured to accommodate the prongs of lifting forks of a forklift. The rotary chopper element may be positioned to rest within the bed portion of the insertion tool for transport to adjacent to the access and installation window of a harvester and for slidable insertion by the insertion tool through such window for installation within the harvester.
대표청구항▼
1. An insertion tool for a rotary chopper element for a chopper assembly of a combine harvester, which harvester includes an access and installation window in the side thereof through which a rotary chopper element can be inserted for installation within the harvester, which rotary chopper element i
1. An insertion tool for a rotary chopper element for a chopper assembly of a combine harvester, which harvester includes an access and installation window in the side thereof through which a rotary chopper element can be inserted for installation within the harvester, which rotary chopper element includes knife blades mounted thereon, said insertion tool comprising an elongated open-ended bed portion with opposed sides extending from a leading end of said bed portion to a trailing end of said bed portion, upon which bed portion the rotary chopper element may rest, andlift members positioned along the sides of said bed portion and configured to accommodate prongs of lifting forks of a forklift, said bed portion configured to receive and to support therein a rotary chopper element as said insertion tool and a supported rotary chopper element are moved to position the rotary chopper element adjacent to the access and installation window for installation into the harvester, wherein said bed portion includes an underlying pan portion having leading and trailing ends and an upper surface, and a slip plate positionable upon said upper surface of said pan portion and slidably movable therealonq, wherein said slip plate includes near a leading end a pair of upstanding tab portions against which knife blades of the rotary chopper assembly are positionable when the rotary chopper element is positioned to rest upon said insertion tool,said installation tool operable to slidably move the rotary chopper element through the access and installation window to position the rotary chopper element within the harvester for mounting thereto. 2. The installation tool of claim 1 wherein said pan portion has the form of an open-ended trough. 3. The installation tool of claim 2 wherein said pan portion includes a plate-like portion, which has an upper surface, extending between said leading and trailing ends of said pan portion, said plate like portion having a radius of curvature greater than or equal to the radius of curvature of the rotary chopper element. 4. The installation tool of claim 3 wherein said slip plate conforms generally to said upper surface of said plate-like portion of said pan portion. 5. The installation tool of claim 4 said slip plate has a radius of curvature greater than or equal to the radius of curvature of the rotary chopper element. 6. The installation tool of claim 1 wherein said slip plate is slidably extensible relative to said pan portion to beyond said leading end of said pan portion. 7. The installation tool of claim 6 wherein said pan portion includes therewith a slide guide along at least a portion thereof to guide the slidable movement of said slip plate relative to said pan portion. 8. The installation tool of claim 7 wherein said slide guide minimizes torquing of said slip plate relative to said pan portion as said slip plate is slidably extended relative to said pan portion to beyond said leading end of said pan portion. 9. The installation tool of claim 8 wherein said slide guide includes flange portions along the sides of said plate-like portion defining slide channels within which the sides of said slip plate ride as said slip plate slidably moves relative to said pan portion. 10. The insertion tool of claim 9 including rolling members insertable between said pan portion and said slip plate on which said slip plate rides as it is slidably moved relative to said pan portion. 11. The insertion tool of claim 10 wherein one of said pan portion and slip plate includes pockets therein for retaining said rolling members and the other of said pan portion and slip plate includes extended grooves along which said rolling members ride as said slip plate is slidably moved relative to said pan portion. 12. The installation of claim 1 wherein said slip plate is securable to said pan portion when a rotary chopper element has been positioned to rest upon said slip plate for transport and to prevent slidable movement between said slip plate and said pan portion during such transport. 13. The installation tool of claim 1 wherein said pan portion includes a plate-like central portion between two opposed sides, said central portion having a generally concave cross-section, said pan portion including a pair of generally sidewardly projecting guide plates extending to distal ends thereof, the distance between the distal ends of said guide plates being slightly less than the width of the access and installation window of the harvester. 14. The installation tool of claim 1 wherein said slip plate includes at least one strap mounting portion that may be employed to strap the rotary chopper element to said slip plate during transport and positioning of a supported rotary chopper element for installation within the harvester. 15. The installation tool of claim 1 wherein said lift members are secured to said pan portion. 16. The installation tool of claim 15 wherein said lift members are located along approximately the trailing half of said pan portion. 17. The installation tool of claim 15 wherein said lift members are securable to the prongs of the lifting forks of the forklift. 18. The installation tool of claim 17 wherein said pan portion includes opposed sides,said lift members include pairs of aligned box brackets along said sides of said pan portion,each said pair of aligned box brackets configured to receive therein and to have projecting therethrough a prong of the lifting fork of the forklift, said box brackets including sides thereof with mounting holes therethrough for connection members to be received therein to connect to the prong of the lifting fork of the forklift. 19. A method for positioning, with the aid of a forklift having a lifting fork with at least one prong thereon, a rotary chopper element for a chopper assembly of a combine harvester within the harvester, which harvester includes an access and installation window in the side thereof through which a rotary chopper element can be inserted for installation within the harvester and which rotary chopper element includes knife blades mounted thereon, said method comprising providing an insertion tool for such rotary chopper element, said insertion tool includingan elongated open-ended bed portion configured to receive and to support therein a rotary chopper element, andat least one lift member positioned along said bed portion and configured to accommodate the prong of the lifting fork of the forklift, said bed portion includingan underlying pan portion having leading and trailing ends and an upper surface, anda slip plate positionable upon said upper surface of said pan portion and slidably movable therealong,ensuring said slip plate is generally positioned to be approximately centered relative to the leading and trailing ends of said pan portion,positioning the rotary chopper assembly to rest upon said slip plate,ensuring the positioning of the prong of the lifting fork of the forklift in engagement with said lift member and effecting the lifting of the insertion tool and the rotary chopper assembly positioned upon said slip plate thereof, such combination forming a forklift load, to a desired elevation,moving said forklift and said forklift load to a desired location generally adjacent to the access and installation window of the harvester, with the leading end of said bed portion directed generally towards the access and installation window,aligning said forklift load with the access and installation window for insertion of the slip plate and rotary chopper element positioned and resting thereupon through the access and installation window,slidably extending said slip plate, with the rotary chopper element positioned and resting thereon, relative to said pan portion to extend beyond said leading end of said pan portion and through the access and installation window into the harvester,mounting, at least loosely, the rotary chopper element to the harvester,slidably retracting said slip plate towards said pan portion to withdraw said slip plate from beneath the mounted rotary chopper element and through the access and installation window. 20. The method of claim 19 wherein the step of positioning the rotary chopper assembly to rest upon said slip plate includes securably connecting said slip plate to said pan portion to substantially prevent sliding movement therebetween as the rotary chopper element is transported. 21. The method of claim 20 wherein the step of slidably extending said slip plate, with the rotary chopper element positioned and resting thereon, relative to said pan portion to extend beyond said leading end of said pan portion and through the access and installation window into the harvester includes disconnecting said slip plate from said pan portion to allow sliding movement therebetween. 22. The method of claim 19 wherein the step of ensuring the positioning of the prong of the lifting fork of the forklift in engagement with lift members and effecting the lifting of the insertion tool and the rotary chopper assembly positioned upon said slip plate thereof includes securing said lift member to the prong of the lifting fork. 23. The method of claim 19 wherein said slip plate portion includes a tab portion near a leading end, and the step of positioning the rotary chopper assembly to rest upon said slip plate includes positioning a knife blade of the rotary chopper assembly against said tab portion.
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