Control system and operating method in machine having rotatable operator station
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E02F-009/20
E02F-009/16
E02F-003/96
B60N-002/14
B60N-002/225
B66F-009/075
B60N-002/02
출원번호
US-0450349
(2017-03-06)
등록번호
US-10072394
(2018-09-11)
발명자
/ 주소
Wynkoop, Christopher
Pavlik, David
Dodge, Nicholas
Duren, F. Walter
Saxsma, Andrew
출원인 / 주소
Caterpillar Inc.
대리인 / 주소
Mattingly Burke Cohen & Biederman
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A control system for a machine with a rotatable operator station includes sensors to produce data indicative of suitability and unsuitability of the machine for initiating and completing adjustment, respectively, between a first control configuration where the operator station is at a first orientat
A control system for a machine with a rotatable operator station includes sensors to produce data indicative of suitability and unsuitability of the machine for initiating and completing adjustment, respectively, between a first control configuration where the operator station is at a first orientation and a second control configuration where the operator station is at a second orientation. A control device in the control system transitions the control system between a locking state for inhibiting rotation of the operator station and an unlocking state for permitting rotation, based on the suitability data and the unsuitability data.
대표청구항▼
1. A method of operating a machine, the method comprising: receiving an operator request for adjustment of the machine from a first control configuration where an operator station of the machine that includes a seat is at a first angular orientation about an axis to a second control configuration wh
1. A method of operating a machine, the method comprising: receiving an operator request for adjustment of the machine from a first control configuration where an operator station of the machine that includes a seat is at a first angular orientation about an axis to a second control configuration where the operator station is rotated to a second angular orientation about the axis;receiving data indicative of suitability of the machine for initiating the adjustment from the first control configuration to the second control configuration;transitioning a control system in the machine from a locking state, for inhibiting rotation of the operator station, to an unlocking state, for permitting rotation of the operator station; the control system being transitioned based on the operator request and the data indicative of suitability of the machine for initiating the adjustment; andthe operator station being rotated after the control system is transitioned from the locking state to the unlocking state;receiving data indicative of unsuitability of the machine for completing the adjustment from the first control configuration to the second control configuration after transitioning the control system from the locking state to the unlocking state; andtransitioning the control system from the unlocking state to the locking state based on the data indicative of unsuitability of the machine for completing the adjustment;determining at which of the first angular orientation or the second angular orientation the operator station is positioned;latching the control system to a forward state or a reverse state, based on the transitioning of the control system from the unlocking state to the locking state and the determining at which of the first angular orientation or the second angular orientation the operator station is positioned; andoutputting control commands to at least one of a steering system or a transmission system in the machine in one of a forward pattern or a reverse pattern based, respectively, on whether the control system is latched to the forward state or the reverse state. 2. The method of claim 1 wherein receiving data indicative of unsuitability of the machine for completing the adjustment includes receiving data indicative of at least one of a fault condition, expiration of a timer, a value of a ground travel parameter of the machine, a transmission gear or a change in transmission gear, or an interruption of the operator request. 3. The method of claim 2 wherein the data indicative of unsuitability includes data indicative of a value of the ground travel parameter, and wherein the ground travel parameter includes a ground speed of the machine. 4. The method of claim 2 wherein transitioning the control system from the locking state to the unlocking state further includes commanding shifting a transmission in the machine to neutral and commanding engaging a brake in the machine. 5. The method of claim 4 wherein transitioning the control system from the locking state to the unlocking state further includes commanding unlocking the operator station to rotation based on engagement of the brake. 6. The method of claim 2 wherein: the seat is rotatable between a forward orientation in the machine at the first angular orientation and a reverse orientation in the machine at the second angular orientation;receiving an operator request for adjustment of the machine further includes receiving an operator request that is based on an actuation state of a trigger at the operator station; andreceiving data indicative of unsuitability of the machine for completing the adjustment further includes receiving data indicative of an interruption of the operator request caused by a change in the actuation state of the trigger. 7. The method of claim 6 wherein transitioning the control system from the unlocking state back to the locking state occurs when the seat is at a third angular orientation about the axis that is between the first angular orientation and the second angular orientation. 8. A machine comprising: a frame;an operator station including a seat, and being adjustable relative to the frame between a first angular orientation about an axis and a second angular orientation about the axis;a control system including an input device configured to produce an operator request to adjust the machine between a first control configuration where the operator station is at the first angular orientation, and a second control configuration where the operator station is at the second angular orientation;the control system further including at least one sensing mechanism and at least one control device coupled with each of the input device and the at least one sensing mechanism;the at least one sensing mechanism being configured to produce data indicative of suitability of the machine for initiating the adjustment, and to produce data indicative of unsuitability of the machine for completing the adjustment; andthe at least one control device being configured to: transition the control system from a locking state, for inhibiting rotation of the operator station, to an unlocking state, for permitting rotation of the operator station, based on the data indicative of suitability of the machine for initiating the adjustment; andtransition the control system from the unlocking state to the locking state based on the data indicative of unsuitability of the machine for completing the adjustment; andthe at least one control device being further configured to: output control commands to at least one of a transmission system or a steering system in the machine according to a forward pattern when the operator station is at the first angular orientation and according to a reverse pattern when the operator station is at the second angular orientation;determine at which of the first angular orientation or the second angular orientation the operator station is positioned; andlatch the control system to one of a forward state for outputting the control commands in a forward pattern or a reverse state for outputting the control commands in a reverse pattern, based on the transitioning of the control system from the unlocking state to the locking state and the determining at which of the first angular orientation or the second angular orientation the operator station is positioned. 9. The machine of claim 8 wherein the first angular orientation includes a forward orientation of the seat, and wherein the second angular orientation includes a reverse orientation of the seat. 10. The machine of claim 9 wherein the at least one sensing mechanism includes a sensor configured to monitor a ground travel parameter of the machine. 11. The machine of claim 10 wherein the at least one sensing mechanism further includes a plurality of sensors coupled with the operator station, and the plurality of sensors providing a plurality of different output states indicative of whether the seat is at the first angular orientation or the second angular orientation. 12. The machine of claim 8 wherein the at least one control device includes a first control device configured to output the control commands to the transmission system and a second control device configured to output the control commands to the steering system. 13. The machine of claim 8 wherein the at least one control device is further configured to command a first electrical energy state of a seat lock actuator in the locking state of the control system, and to command a second electrical energy state of the seat lock actuator in the unlocking state of the control system. 14. The machine of claim 8 wherein the at least one control device is further configured to command shifting a transmission in the machine to neutral and to command engaging a brake in the machine, based on the data indicative of suitability of the machine for initiating the adjustment. 15. The machine of claim 14 wherein the at least one control device is further configured to disable auto-disengagement of the brake based on the data indicative of unsuitability of the machine for completing the adjustment. 16. A control system for a machine adjustable between a first control configuration where an operator station of the machine that includes a seat is at a first angular orientation about an axis, and a second control configuration where the operator station is rotated to a second angular orientation about the axis, the control system comprising: at least one sensing mechanism coupled with the control device and configured to produce data indicative of suitability of the machine for initiating an adjustment between the first control configuration and the second control configuration;at least one control device coupled with the at least one sensing mechanism, the at least one control device being configured to: transition the control system to an unlocking state for permitting rotation of the operator station, based on the data indicative of suitability of the machine for initiating the adjustment between the first control configuration and the second control configuration;transition the control system from the unlocking state to a locking state for inhibiting rotation of the operator station;output control commands to at least one of a transmission system or a steering system in the machine according to a forward pattern when the operator station is at the first angular orientation and according to a reverse pattern when the operator station is at the second angular orientation;determine at which of the first angular orientation or the second angular orientation the operator station is positioned; andlatch the control system to one of a forward state for outputting the control commands in the forward pattern or a reverse state for outputting the control commands in the reverse pattern, based on the transitioning of the control system from the unlocking state to the locking state and the determining at which of the first angular orientation or the second angular orientation the operator station is positioned. 17. The control system of claim 16 further comprising an operator input device coupled with the at least one control device and configured to produce an operator request for adjustment of the control system from the locking state to the unlocking state. 18. The control system of claim 17 wherein the data indicative of unsuitability includes data indicative of at least one of expiration of a timer, a value of a ground travel parameter of the machine, a transmission gear or a change in transmission gear, or an interruption of the operator request. 19. The control system of claim 18 wherein the at least one control device is further configured to command shifting a transmission in the machine to neutral and to command engaging a brake in the machine, based on the data indicative of suitability of the machine for initiating the adjustment. 20. The control system of claim 19 wherein: the at least one sensing mechanism is further configured to produce data indicative of unsuitability of the machine for completing the adjustment between the first control configuration and the second control configuration; andthe at least one control device is further configured to command disabling auto-disengagement of the brake based on the data indicative of unsuitability of the machine for completing the adjustment.
Billger,Steven C.; Gilliland,Kevin A.; Kaiser,Eric J.; Kluver,Leroy M.; Pollack,Jay G.; Pulskamp,Steven R.; Thobe,Nicholas D.; Winner,Dean E., Seat repositioning device with release on control handle.
Billger,Steven C.; Gilliland,Kevin A.; Kaiser,Eric J.; Kluver,Leroy M.; Pollack,Jay G.; Pulskamp,Steven R.; Thobe,Nicholas D.; Winner,Dean E., Seat repositioning device with release on control handle.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.