Rapid shaft stop devices and transmissions are described that utilize permanent magnets for coupling and/or braking and are useful for electronic propeller guards and other equipment. In an embodiment, one or more capacitive discharge pulses are used to rapidly stop a shaft. A magnetic transmission
Rapid shaft stop devices and transmissions are described that utilize permanent magnets for coupling and/or braking and are useful for electronic propeller guards and other equipment. In an embodiment, one or more capacitive discharge pulses are used to rapidly stop a shaft. A magnetic transmission is provided having axially oriented magnets on each side of an air space junction that transmit torque across the junction with a torque/speed profile that particularly suits boat propellers. The junction may include a bearing and allows slippage when the propeller resistance exceeds a given value. This slippage acts as a variable gear reduction. One or more electromagnets may be energized and thereby add to or subtract from one or more magnetic fields and provide electronic control of torque and of gear reduction ratio for devices such as watercraft drive systems.
대표청구항▼
I claim: 1. An electrical control system for suddenly stopping or slowing a propeller in a motor driven watercraft, comprising at least one sensor that detects an object near the propeller and a control circuit that can stop or slow the propeller to less than 10 rpm within one second, wherein the a
I claim: 1. An electrical control system for suddenly stopping or slowing a propeller in a motor driven watercraft, comprising at least one sensor that detects an object near the propeller and a control circuit that can stop or slow the propeller to less than 10 rpm within one second, wherein the at least one sensor triggers the control circuit upon sensing the object, and further comprising a user actuated switch for disabling the system. 2. An electrical control system as described in claim 1, further comprising a timer, wherein the user actuated switch activates the timer to disable stopping of the propeller for a predetermined time period. 3. An electrical control system for suddenly stopping a propeller in a motor driven watercraft, comprising at least one piezoelectric transmitter, at least two piezoelectric detectors and a control circuit that can stop or slow the propeller to less than 10 rpm within one second, wherein one or more of the detectors can detect a signal from the transmitter and triggers the control circuit upon sensing the object. 4. The electrical control system of claim 3, wherein the at least one piezoelectric transmitter transmits ultrasonic energy continuously. 5. The electrical control system of claim 3, wherein the at least one piezoelectric transmitter is inorganic and the at least two piezoelectric detectors are organic. 6. The electrical control system of claim 3, wherein the control circuit comprises a capacitor discharge circuit for rapidly pulsing an electromagnet. 7. The electrical control system of claim 3, wherein at least one motor of the motor driven watercraft is an internal combustion motor. 8. The electrical control system of claim 7, wherein the control circuit comprises a capacitor discharge circuit for rapidly energizing an electromagnet. 9. The electrical control system of claim 8, wherein the capacitor discharge circuit comprises a capacitor with a capacity rating of at least 10,000 microfarads and a voltage rating of at least 100 volts. 10. The electrical control system of claim 7, further comprising at least one silicon controlled rectifier, IGPT or MOSFET for discharging the capacitor. 11. The electrical control system of claim 8, further comprising at least one electromagnet and at least one permanent magnet arranged to disengage the propeller from the motor upon activation. 12. The electrical control system of claim 6, further comprising a friction brake for slowing the propeller upon activation. 13. An electrical control system for suddenly stopping or slowing a propeller in a motor driven watercraft, comprising at least one sensor that detects an object near the propeller, a control circuit that can stop or slow the propeller to less than 10 rpm within one second, and a magnetic particle brake or clutch, wherein the at least one sensor triggers the control circuit upon sensing the object, and the control circuit electrically activates the magnetic particle brake or clutch to affect sudden stopping, or slowing of the propeller. 14. The control system of claim 13, further comprising a user actuated switch for disabling the system. 15. The electrical control system as described in claim 13, further comprising a capacitor stored charge of electricity that is pulsed into one or more of the magnetic particle brakes or clutches upon activation by the sensor to at least slow or disconnect the propeller from the motor upon activation. 16. A system for monitoring boat speed of a controlled waterway, comprising: a) one or more fixed position transmitters that emit energy into or over the waterway; b) a movable receiver that may be carried in or attached to a boat that can transit the waterway; wherein the receiver can monitor the boat speed and can report the speed to a fixed position receiver and thereby reporting violations of speed limit. 17. The system of claim 16, wherein the movable receiver contains or is attached to a global positioning satellite detector for determining boat speed. 18. The system of claim 16, wherein the movable receiver is attached to or is part of an propeller control system. 19. The system of claim 18, wherein the boat speed is controlled by a fossil fueled motor and the movable receiver limits boat speed by limiting power output from the fossil fueled motor. 20. The system of claim 16, further comprising a boat operator alert that signals the boat operator prior to reporting an overspeed limitation, to allow the boat operator a set time grace period to decrease speed before reporting a speed violation to the fixed position receiver.
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