Electronic control for a grass cutting reel assembly of a lawn-care vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A01D-034/54
A01D-034/00
A01D-034/56
A01D-034/44
출원번호
US-0300571
(2014-06-10)
등록번호
US-9635809
(2017-05-02)
발명자
/ 주소
Iyasere, Erhun Osahenrhunwen
Pilon, Jr., Robert James
Krzesicki, Richard Michael
출원인 / 주소
Textron Inc.
대리인 / 주소
Polster Lieder
인용정보
피인용 횟수 :
0인용 특허 :
31
초록▼
A system for controlling a grass cutting reel assembly of a turf-care vehicle. The system includes: a reel cylinder motor operable to rotate a reel cylinder of a grass cutting reel assembly of a turf-care vehicle at a desired rotational rate of speed to provide a controllable frequency of clip for t
A system for controlling a grass cutting reel assembly of a turf-care vehicle. The system includes: a reel cylinder motor operable to rotate a reel cylinder of a grass cutting reel assembly of a turf-care vehicle at a desired rotational rate of speed to provide a controllable frequency of clip for the reel assembly; an automated height of cut control system operable to control a position of a front roller of the reel assembly to provide a controllable height of cut for the reel assembly; and a controller system operable to control the reel cylinder motor and the height of cut control system to provide a particular frequency of clip and a particular height of cut stipulated by one of a plurality of cutting scenarios programmed into the controller system and selected via a user interface of the controller system that is accessible by an operator onboard the turf-care vehicle.
대표청구항▼
1. A control system for a grass cutting reel assembly of a turf-care vehicle, said system comprising: a reel cylinder motor structured and operable to rotate a reel cylinder of a grass cutting reel assembly of a turf-care vehicle at a desired rotational rate of speed that is based on the terrestrial
1. A control system for a grass cutting reel assembly of a turf-care vehicle, said system comprising: a reel cylinder motor structured and operable to rotate a reel cylinder of a grass cutting reel assembly of a turf-care vehicle at a desired rotational rate of speed that is based on the terrestrial speed of the vehicle to provide a controllable frequency of clip for the reel assembly;an automated height of cut control system structured and operable to control a position of a front roller of the grass cutting reel assembly to provide a controllable height of cut for the reel assembly, wherein the automated height of cut control system comprises: a cam shaft rotationally mounted within a reel frame of the grass cutting reel assembly; anda pair of eccentric cams mounted to opposing ends of the cam shaft and structured and operable to interact with a front roller frame pivotally connected to the reel frame and having the front roller rotationally disposed therein, such that rotation of the cams will controllably move the front roller frame and thereby control a position of the front roller relative to the reel cylinder and thereby control the height of cut; anda controller system structured and operable to, via a one-touch process, control the reel cylinder motor and the height of cut control system in accordance with a selected one of a plurality of cutting scenarios, selected via the one-touch process, wherein each cutting scenario stipulates both a particular frequency of clip and a corresponding particular height of cut to be implemented by the reel assembly, each cutting scenario programmed into the controller system and selected via the one-touch process using a user interface of the controller system that is accessible by an operator onboard the turf-care vehicle. 2. The system of claim 1, wherein the height of cut control system further comprises a cam motor communicatively connected to the controller system and operably connected to the cams, the cam motor structured and operable to rotate the cams to move the front roller frame to adjust the position of the front roller to set the height of cut to the particular height stipulated by the selected cutting scenario. 3. The system of claim 2 further comprising a height sensor communicatively connected to the controller system and operably connected to the cams, the height sensor structured and operable to measure a rotational position of the cams. 4. The system of claim 2, wherein the eccentric cams comprise a plurality of flat faces such that rotation of the cams provides a plurality of discrete height of cut heights. 5. The system of claim 2, wherein the height of cut control system further comprises a pair of cam scrapers that are structured and operable to remove debris from the cams upon rotation of the cams. 6. The system of claim 1, wherein the user interface comprises a plurality of selection inputs, each input structured and operable to select a corresponding one of the plurality of programmed cutting scenarios. 7. A control system for a grass cutting reel assembly of a turf-care vehicle, said system comprising: a reel cylinder rotationally disposed within a reel frame of the reel assembly;a cam shaft rotationally mounted within the reel frame;a front roller rotationally disposed within a front roller frame of the reel assembly, the front roller frame pivotally connected to the reel frame such that a height of cut of the reel assembly can be adjusted by moving the front roller frame and thereby changing a position of the front roller relative to the reel cylinder; anda frequency of clip and height of cut control system comprising: a reel cylinder motor structured and operable to rotate the reel cylinder at a desired rotational rate of speed that is based on the terrestrial speed of the vehicle to provide a controllable frequency of clip for the reel assembly;an automated height of cut control system structured and operable to control a position of the front roller to provide a controllable height of cut for the reel assembly, the automated height of cut control system comprising: a pair of eccentric cams mounted to opposing ends of the cam shaft and structured and operable to interact with the front roller frame such that rotation of the cams will controllably move the front roller frame and thereby control the position of the front roller relative to the reel cylinder and thereby control the height of cut; anda cam motor communicatively connected to the controller system and operably connected to the cams, the cam motor structured and operable to rotate the cams to move the front roller frame to adjust the position of the front roller to set the height of cut; anda controller system structured and operable to control the reel cylinder motor and the cam motor in accordance with a selected one of a plurality of cutting scenarios, wherein each cutting scenario stipulates a particular frequency of clip and a corresponding particular height of cut to be implemented by the reel assembly, each cutting scenario programmed into the controller system and selected via a user interface of the controller system that is accessible by an operator onboard the turf-care vehicle. 8. The system of claim 7 further comprising a height sensor communicatively connected to the controller system and operably connected to the cams, the height sensor structured and operable to measure a rotational position of the cams. 9. The system of claim 7, wherein the height of cut control system further comprises: a pulley operatively connected to cams; anda pulley belt operatively connected to the pulley and the cam motor such that rotation of the cam motor rotates the pulley and the cams to set the height of cut to the particular height of cut stipulated by the selected one of the plurality of cutting scenarios. 10. The system of claim 7, wherein the eccentric cams comprise a plurality of flat faces such that rotation of the cams provides a plurality of discrete height of cut heights. 11. The system of claim 7, wherein the height of cut control system further comprises a pair of cam scrapers that are structured and operable to remove debris from the cams upon rotation of the cams. 12. The system of claim 7, wherein the user interface comprises a plurality of selection inputs, each input structured and operable to select a corresponding one of the plurality of programmed cutting scenarios. 13. A turf-care vehicle, said vehicle comprising: an operator seat in which a vehicle operator can sit during operation of the vehicle;an instrument control panel accessible by the operation while sitting in the seat; andat least one grass cutting reel assembly, each grass cutting reel assembly comprising: a reel cylinder rotationally disposed within a reel frame of the reel assembly;a front roller rotationally disposed with a front roller frame of the reel assembly, the front roller frame pivotally connected to the reel frame such that a height of cut of the reel assembly can be adjusted by changing the position of the front roller relative to the reel cylinder; anda frequency of clip and height of cut control system comprising: a reel cylinder motor structured and operable to rotate the reel cylinder at a desired rotational rate of speed that is based on the terrestrial speed of the vehicle to provide a controllable frequency of clip for the reel assembly;an automated height of cut control system structured and operable to control a position of the front roller to provide a controllable height of cut for the reel assembly, wherein the automated height of cut control system comprises: a cam shaft rotationally mounted within a reel frame of the grass cutting reel assembly; anda pair of eccentric cams mounted to opposing ends of the cam shaft and structured and operable to interact with a front roller frame pivotally connected to the reel frame and having the front roller rotationally disposed therein, such that rotation of the cams will controllably move the front roller frame and thereby control a position of the front roller relative to the reel cylinder and thereby control the height of cut; anda controller system structured and operable, via a one-touch process, to control the reel cylinder motor and the height of cut control system in accordance with a selected one of a plurality of cutting scenarios, selected via the one-touch process, wherein each cutting scenario stipulates both a particular frequency of clip and a corresponding particular height of cut to be implemented by the reel assembly, each cutting scenarios programmed into the controller system and selected via the one-touch process using a user interface of the controller system disposed within the instrument control panel that is accessible by the operator while sitting in the seat. 14. The system of claim 13, wherein the height of cut control system further comprises a cam motor communicatively connected to the controller system and operably connected to the cams, the cam motor structured and operable to rotate the cams to move the front roller frame to adjust the position of the front roller to set the height of cut to the particular height stipulated by the selected cutting scenario. 15. The system of claim 14 further comprising a height sensor communicatively connected to the controller system and operably connected to the cams, the height sensor structured and operable to measure a rotational position of the cams. 16. The system of claim 14, wherein the eccentric cams comprise a plurality of flat faces such that rotation of the cams provides a plurality of discrete height of cut heights. 17. The system of claim 14, wherein the height of cut control system further comprises a pair of cam scrapers that are structured and operable to remove debris from the cams upon rotation of the cams. 18. The system of claim 13, wherein the user interface comprises a plurality of selection inputs, each input structured and operable to select a corresponding one of the plurality of programmed cutting scenarios. 19. A control system for a grass cutting reel assembly of a turf-care vehicle, said system comprising: an automated height of cut control system structured and operable to control a position of a front roller of a grass cutting reel assembly of a turf-care vehicle to provide a controllable height of cut for the reel assembly, the automated height of cut control system comprising: a cam shaft rotationally mounted within a reel frame of the grass cutting reel assembly; anda pair of eccentric cams mounted to opposing ends of the cam shaft and structured and operable to interact with a front roller frame pivotally connected to the reel frame and having the front roller rotationally disposed therein, such that rotation of the cams will controllably move the front roller frame and thereby control a position of the front roller relative to a reel cylinder of the grass cutting reel assembly and thereby control the height of cut such that rotation of the cams provides a plurality height of cut heights;a controller system structured and operable to control the height of cut control system in accordance with a selected one of a plurality of cutting scenarios, wherein each cutting scenario stipulates a particular height of cut to be implemented by the reel assembly.
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이 특허에 인용된 특허 (31)
Alan R. Fillman ; Frank D. Gall, III, Articularly mounted battery-powered walk-behind reel lawnmower.
Lonn Dana R. (Minneapolis MN) Wucherpfennig Fredrick D. (Bloomington MN) Dunford William M. (Minneapolis MN), Electronic control for turf maintenance vehicle.
Rich Frank C. (13195 Maple Ave. Cato NY 13033) Keysor Larry R. (R.D. #2 Weedsport NY 13166), Golf greens mower with self-cleaning ground contacting rollers.
Hess Kristoffer A. (Brockville CAX) Hare Ronald G. (Brockville CAX) Jackson Ronald A. (Brockville CAX) Bond Courtney F. (Brockville CAX), Lawn mower height-adjust systems.
Weaver Marvin G. (Lititz PA) McClure John R. (New Holland PA) Chow Mark K. (Paoli PA) Bohman Carl E. (New Holland PA) Strosser Richard P. (Akron PA), Method and apparatus for adjusting a shear bar relative to a cutter head.
Schmidt, Mark Alvin; Reichen, Ronald Lee; Thier, Richard David; Poulson, Eric Alan; Cripps, Donald Lewis; Flenniken, John Michael; Susman, Ezekiel A., User interface and control for cutting reel system.
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