IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0376045
(2003-02-26)
|
발명자
/ 주소 |
|
대리인 / 주소 |
Birch, Stewart, Kolasch &
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
7 |
초록
▼
A control system for motor vehicles that uses physical activity to operate the acceleration of a vehicle comprising a mechanical controller that proportionally converts kinetic movement into an electronic signal. An electronic controller uses this signal as well as the current vehicle speed and user
A control system for motor vehicles that uses physical activity to operate the acceleration of a vehicle comprising a mechanical controller that proportionally converts kinetic movement into an electronic signal. An electronic controller uses this signal as well as the current vehicle speed and user preferences to calculate a new pattern of energy flow to the engine. The controller then drives a system that manipulates the vehicle's acceleration or deceleration.
대표청구항
▼
1. An exercise system for controlling the acceleration and/or deceleration of a vehicle having a prime mover which comprises:a) at least one pedal, disposed to controllably move between a first position and a second position by said prime mover; b) a repetitive motion detection system, disposed to d
1. An exercise system for controlling the acceleration and/or deceleration of a vehicle having a prime mover which comprises:a) at least one pedal, disposed to controllably move between a first position and a second position by said prime mover; b) a repetitive motion detection system, disposed to detect at least one movement of said at least one pedal and generate a signal representative of said movement; and c) a first controller, disposed to receive said signal from said motion detection system, compare said signal to a threshold rate range and provide an output for controlling one of acceleration and deceleration of said motor vehicle. 2. The exercise system of claim 1, wherein said signal is representative of one of:a) the number of repetitive motions within a predetermined period; b) speed of said pedal as it moves past a fixed point; c) amount of time for said pedal to complete between first and second locations. 3. The exercise system according to claim 1, wherein a decrease in repetitive motions detected by said repetitive motion detection system compared to the threshold rate range results in deceleration of said motor vehicle.4. The exercise system according to claim 1, wherein an increase in repetitive motions detected by said repetitive motion detection system compared to said threshold rate range results in acceleration of said vehicle.5. The exercise system according to claim 1, wherein no change in the number of repetitive motions detected by said repetitive motion detection system compared to the threshold rate range maintains the current velocity of said vehicle.6. The exercise system according to claim 1, wherein said repetitive motion threshold rate range is set via a second controller.7. The exercise system according to claim 6, wherein said second controller receives input from an operator and provides output to the first controller.8. The exercise system of claim 6, wherein said second controller comprises at least one potentiometer.9. The exercise system of claim 8, wherein one said potentiometer is a sliding potentiometer or a rotating potentiometer.10. The exercise system of claim 8, wherein one said potentiometer controls the rate of repetitive movement necessary for said threshold rate range.11. The exercise system of claim 8, wherein one said potentiometer controls the variance in repetitive motion required to exceed or fall below said threshold range.12. The exercise system according to claim 1, wherein said system further comprises a pedal system comprising a pair of pedals reciprocally connected between at least one belt.13. The exercise system according to claim 12, wherein said pedal system is mounted in front of the driver's seat.14. The exercise system according to claim 12, wherein said exercise system further comprises a throttle interface.15. The exercise system according to claim 13, wherein said pedals are mounted under a dashboard.16. The exercise system according to claim 13, wherein said pedal system is a flat track.17. The exercise system according to claim 15, wherein said flat track is mounted to the floor.18. The exercise system according to claim 1, wherein said repetitive motion detection system generates an electronic signal.19. The exercise system according to claim 18, wherein said electronic signal is generated in proportion to the rate of pedal motion.20. The exercise system according to claim 18, wherein said electronic signal is a signal that represents the rate of pedal motion.21. The exercise system according to claim 1, wherein said first controller accepts the electronic signal of said repetitive motion detection system.22. The exercise system according to claim 1, wherein said output of said first controller is an electronic signal.23. The exercise system according to claim 1, further comprising a user interface.24. The exercise system according to claim 23, wherein said user interface controls variables within a transfer function of said first controller.25. The exercise system according to claim 24, wherein said transfer function relates input into said controller to output for controlling the operation of said engine.26. The exercise system according to claim 1, further comprising a vehicle interface for receiving output from said first controller and providing output to a vehicle engine control system.27. The exercise system according to claim 26, wherein said first controller uses at least one input to calculate at least one value selected from the group consisting of a vehicle speed, an acceleration rate, a deceleration rate and a throttle position.28. The exercise system according to claim 14, wherein said throttle interface manipulates said vehicle's existing throttle system.29. The exercise system according to claim 28, wherein said manipulation comprises directly manipulating a throttle cable.30. The exercise system according to claim 29, wherein said throttle cable manipulation occurs via an electric motor.31. The exercise system according to claim 28, wherein said manipulation occurs via a direct link into said vehicle's onboard computer system.32. The exercise system according to claim 28, wherein said manipulation occurs via an interface with the vehicle's onboard computer system.33. The exercise system according to claim 28, wherein said manipulation increases or decreases an amount of fuel or electricity that flows into the engine.34. The exercise system according to claim 16, wherein the acceleration or deceleration of said vehicle changes.35. The exercise system according to claim 1, wherein a change in the number of repetitive motions in said time detected by said repetitive motion detection system compared to the threshold rate range affects the current velocity of said vehicle in a predetermined way.36. A system for controlling acceleration or deceleration of a vehicle having a prime mover which comprises:a) two pedals positioned in front of a vehicle driver; b) a repetitive motion detection system for detecting the repetitive motion of said pedals in a specific period of time and generating an electrical or optical signal representative of the average rate of the repetitive motion of said pedals; c) a first controller for receiving input from said repetitive motion detection system and for providing output for controlling the acceleration or deceleration of an engine in the motor vehicle; d) a user interface for controlling variables within the transfer function of said first controller, wherein said transfer function relates input into said controller to output for controlling the operation of said engine; and e) a vehicle interface for receiving output from said first controller and providing output to a vehicle engine control system. 37. The system according to claim 36, wherein said transfer function accepts at least one input selected from the group consisting of vehicle speed, acceleration rate, deceleration rate, and throttle position.38. A method of exercising while driving a vehicle having a prime mover comprising the steps of:a) repetitively moving a pedal system that requires physical effort to operate; b) translating said repetitive motion into an electronic or optical signal via a repetitive motion detection system; c) coupling said repetitive motion detection system to a first controller that compares the rate of repetitive motion to a repetitive motion threshold range and then uses a transfer function that receives input from said repetitive motion detection system and provides output for controlling the operation of a prime mover in said motor vehicle; d) coupling a user interface with said transfer function that relates input into said controller to output for controlling the operation of said engine; and e) coupling a vehicle interface for receiving output from said first controller and providing output to a vehicle engine control system. 39. A method of exercising while driving a vehicle having a prime mover comprising the steps of:a) repetitively moving a pedal system that requires physical effort to operate; b) translating said repetitive motion into an electronic or optical signal via a repetitive motion detection system; c) coupling said repetitive motion detection system to a first controller with a transfer function that receives input from said pedal speed detection system and provides output for controlling the operation of a prime mover in said motor vehicle; d) coupling a user interface with said transfer function that relates input into said controller to output for controlling the operation of said engine; e) coupling a vehicle interface for receiving output from said first controller and providing output to a vehicle engine control system; and f) transforming said first controller outputs to manipulate a throttle position to result in a change of acceleration or deceleration of the vehicle.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.