Track drive mode management system and methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60W-030/18
B62D-011/00
B60W-010/06
B60W-040/10
B62D-055/24
B62D-055/30
B62D-055/12
B62D-055/32
출원번호
US-0665075
(2015-03-23)
등록번호
US-9975554
(2018-05-22)
발명자
/ 주소
Lussier, Alain
Leblanc, Francois
Boily, Patrice
출원인 / 주소
Camso Inc.
대리인 / 주소
Fish & Richardson P.C.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록
A method for managing a drive mode of a tracked vehicle, comprising the step of reading an output of a sensor and in response to the output of the sensor performing a control action to manage the drive mode of the vehicle.
대표청구항▼
1. A system for controlling a vehicle that comprises a tracked undercarriage for traction of the vehicle, the tracked undercarriage comprising a track for engaging the ground, the system comprising: a sensor configured to be part of the track and monitor the tracked undercarriage; anda processing ap
1. A system for controlling a vehicle that comprises a tracked undercarriage for traction of the vehicle, the tracked undercarriage comprising a track for engaging the ground, the system comprising: a sensor configured to be part of the track and monitor the tracked undercarriage; anda processing apparatus configured to process a signal derived from the sensor to perform an action controlling the vehicle. 2. The system of claim 1, wherein the processing apparatus comprises a receiver configured to receive the signal derived from the sensor. 3. The system of claim 2, wherein the receiver is a wireless receiver configured to wirelessly receive the signal derived from the sensor. 4. The system of claim 1, wherein the tracked undercarriage comprises a drive wheel for driving the track and the sensor is configured to sense an interaction between the track and the drive wheel. 5. The system of claim 4, wherein the interaction between the track and the drive wheel is slippage between the track and the drive wheel. 6. The system of claim 4, wherein the interaction between the track and the drive wheel is a force between the track and the drive wheel. 7. The system of claim 1, wherein the sensor is a wireless sensor. 8. The system of claim 1, wherein the sensor is an optical sensor. 9. The system of claim 1, wherein the sensor is a strain sensor. 10. The system of claim 1, wherein the action controlling the vehicle is an action controlling the tracked undercarriage. 11. The system of claim 10, wherein the action controlling the tracked undercarriage is an action controlling power applied to the tracked undercarriage. 12. The system of claim 11, wherein the tracked undercarriage comprises a drive wheel for driving the track and the action controlling power applied to the tracked undercarriage is an action controlling power applied to the drive wheel. 13. The system of claim 1, wherein the tracked undercarriage is configured to drive the track in a plurality of drive modes that includes a friction drive mode and a positive drive mode, and the action controlling the tracked undercarriage is an action controlling in which of the drive modes the track is driven. 14. The system of 38, wherein the tracked undercarriage comprises a tensioner for tensioning the track and the action controlling the tracked undercarriage is an action controlling the tensioner. 15. The system of claim 1, wherein the action controlling the vehicle is issuance of a control signal to a component of the vehicle to control the component of the vehicle. 16. The system of claim 15, wherein the component of the vehicle is the tracked undercarriage. 17. The system of claim 1, wherein the sensor is located inside the track. 18. The system of claim 1, wherein the sensor is disposed within elastomeric material of the track. 19. The system of claim 1, wherein: the track comprises a ground-engaging outer surface, an inner surface opposite to the ground-engaging outer surface, and a plurality of projections projecting from the ground-engaging outer surface and the inner surface; and at least part of the sensor is located between the ground-engaging outer surface and the inner surface. 20. The system of claim 1, wherein: the track comprises a ground-engaging outer surface, an inner surface opposite to the ground-engaging outer surface, and a plurality of projections projecting from the ground-engaging outer surface and the inner surface; and at least part of the sensor is located in a given one of the projections. 21. The system of claim 20, wherein: the projections include traction projections projecting from the ground-engaging outer surface and wheel-contacting projections projecting from the inner surface; and the given one of the projections is a given one of the wheel-contacting projections. 22. The system of claim 21, wherein: the wheel-contacting projections include drive projections configured to engage a drive wheel for driving the track; and the given one of the wheel-contacting projections is a given one of the drive projections. 23. The system of claim 1, wherein the sensor is a first sensor, the system comprises a second sensor configured to be part of the track and monitor the tracked undercarriage, and the processing apparatus is configured to process the signal derived from the first sensor and a signal derived from the second sensor to perform the action controlling the vehicle. 24. A machine-readable storage medium storing software for controlling a vehicle that comprises a tracked undercarriage for traction of the vehicle, the tracked undercarriage comprising a track for engaging the ground, wherein the software, when executed by a processing entity, causes the processing entity to: receive data derived from a sensor that is part of the track and configured to monitor the tracked undercarriage; andprocess the data to perform an action controlling the vehicle. 25. A tracked undercarriage for traction of a vehicle, the tracked undercarriage comprising: a track for engaging the ground, the track comprising a sensor; anda track-engaging assembly for driving and guiding the track around the track-engaging assembly. 26. A track for traction of a vehicle, the track comprising: a ground-engaging outer surface for engaging the ground;an inner surface opposite to the ground-engaging outer surface; anda sensor disposed within elastomeric material of the track. 27. The track of claim 26, wherein the sensor is located inside the track. 28. The track of claim 26, wherein: the track comprises a plurality of projections projecting from the ground-engaging outer surface and the inner surface; and at least part of the sensor is located between the ground-engaging outer surface and the inner surface. 29. The track of claim 26, wherein: the track comprises a plurality of projections projecting from the ground-engaging outer surface and the inner surface; and at least part of the sensor is located in a given one of the projections. 30. The track of claim 29, wherein: the projections include traction projections projecting from the ground-engaging outer surface and wheel-contacting projections projecting from the inner surface; and the given one of the projections is a given one of the wheel-contacting projections. 31. The track of claim 30, wherein: the wheel-contacting projections include drive projections configured to engage a drive wheel for driving the track; and the given one of the wheel-contacting projections is a given one of the drive projections. 32. The track of claim 26, wherein the sensor is a first sensor and the track comprises a second sensor. 33. The track of claim 32, wherein the first and second sensors are configured to cause issuance of signals processable by a processing apparatus to perform an action related to controlling the vehicle. 34. The track of claim 26, wherein the sensor is configured to cause issuance of a signal processable by a processing apparatus to perform an action related to controlling the vehicle. 35. The track of claim 34, wherein the sensor comprises a wireless transmitter configured to wirelessly transmit the signal. 36. The track of claim 34, wherein the action related to controlling the vehicle is an action controlling a tracked undercarriage of the vehicle that includes the track. 37. The track of claim 36, wherein the action controlling the tracked undercarriage is an action controlling power applied to the tracked undercarriage. 38. The track of claim 37, wherein the tracked undercarriage comprises a drive wheel for driving the track and the action controlling power applied to the tracked undercarriage is an action controlling power applied to the drive wheel. 39. The track of claim 36, wherein the tracked undercarriage is configured to drive the track in a plurality of drive modes that includes a friction drive mode and a positive drive mode, and the action controlling the tracked undercarriage is an action controlling in which of the drive modes the track is driven. 40. The track of claim 36, wherein the tracked undercarriage comprises a tensioner for tensioning the track and the action controlling the tracked undercarriage is an action controlling the tensioner. 41. The track of claim 34, wherein the action related to controlling the vehicle is issuance of a control signal to a component of the vehicle to control the component of the vehicle. 42. The track of claim 41, wherein the component of the vehicle is a tracked undercarriage that includes the track. 43. The track of claim 26, wherein the sensor is configured to sense an interaction between the track and a drive wheel for driving the track. 44. The track of claim 43, wherein the interaction between the track and the drive wheel is slippage between the track and the drive wheel. 45. The track of claim 43, wherein the interaction between the track and the drive wheel is a force between the track and the drive wheel. 46. The track of claim 26, wherein the sensor is a wireless sensor. 47. The track of claim 26, wherein the sensor is an optical sensor. 48. The track of claim 26, wherein the sensor is a strain sensor. 49. A track for traction of a vehicle, the track comprising: a ground-engaging outer surface for engaging the ground;an inner surface opposite to the ground-engaging outer surface; anda sensor configured to cause issuance of a signal processable by a processing apparatus to perform an action related to controlling the vehicle. 50. The track of claim 49, wherein the sensor is located inside the track. 51. The track of claim 49, wherein the sensor is disposed within elastomeric material of the track. 52. The track of claim 49, wherein: the track comprises a plurality of projections projecting from the ground-engaging outer surface and the inner surface; and at least part of the sensor is located between the ground-engaging outer surface and the inner surface. 53. The track of claim 49, wherein: the track comprises a plurality of projections projecting from the ground-engaging outer surface and the inner surface; and at least part of the sensor is located in a given one of the projections. 54. The track of claim 53, wherein: the projections include traction projections projecting from the ground-engaging outer surface and wheel-contacting projections projecting from the inner surface; and the given one of the projections is a given one of the wheel-contacting projections. 55. The track of claim 54, wherein: the wheel-contacting projections include drive projections configured to engage a drive wheel for driving the track; and the given one of the wheel-contacting projections is a given one of the drive projections. 56. The track of claim 49, wherein the sensor is a first sensor and the track comprises a second sensor. 57. The track of claim 56, wherein the signal is a first signal and the second sensor is configured to cause issuance of a second signal processable by the processing apparatus to perform the action related to controlling the vehicle. 58. The track of claim 49, wherein the sensor comprises a wireless transmitter configured to wirelessly transmit the signal. 59. The track of claim 49, wherein the sensor is configured to sense an interaction between the track and a drive wheel for driving the track. 60. The track of claim 59, wherein the interaction between the track and the drive wheel is slippage between the track and the drive wheel. 61. The track of claim 59, wherein the interaction between the track and the drive wheel is a force between the track and the drive wheel. 62. The track of claim 49, wherein the sensor is a wireless sensor. 63. The track of claim 49, wherein the sensor is an optical sensor. 64. The track of claim 49, wherein the sensor is a strain sensor. 65. The track of claim 49, wherein the action related to controlling the vehicle is an action controlling a tracked undercarriage of the vehicle that includes the track. 66. The track of claim 65, wherein the action controlling the tracked undercarriage is an action controlling power applied to the tracked undercarriage. 67. The track of claim 66, wherein the tracked undercarriage comprises a drive wheel for driving the track and the action controlling power applied to the tracked undercarriage is an action controlling power applied to the drive wheel. 68. The track of claim 65, wherein the tracked undercarriage is configured to drive the track in a plurality of drive modes that includes a friction drive mode and a positive drive mode, and the action controlling the tracked undercarriage is an action controlling in which of the drive modes the track is driven. 69. The track of claim 65, wherein the tracked undercarriage comprises a tensioner for tensioning the track and the action controlling the tracked undercarriage is an action controlling the tensioner. 70. The track of claim 49, wherein the action related to controlling the vehicle is issuance of a control signal to a component of the vehicle to control the component of the vehicle. 71. The track of claim 70, wherein the component of the vehicle is a tracked undercarriage that includes the track.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (5)
Stratton, Kenneth L., Acceleration based automated slip control system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.