Wakeboat hull control systems and methods are provided to monitor the orientation of the wakeboat hull in the surrounding water, and to automatically control wakeboat ballast components to achieve or maintain desired hull orientations. Systems and methods are provided to measure, store, and recall h
Wakeboat hull control systems and methods are provided to monitor the orientation of the wakeboat hull in the surrounding water, and to automatically control wakeboat ballast components to achieve or maintain desired hull orientations. Systems and methods are provided to measure, store, and recall hull orientation. Systems and methods are also provided to enable automated action to improve the safety, automation, performance, convenience, and marketing advantage of wakeboat ballast systems.
대표청구항▼
1. A wakeboat hull control system comprising: a first inclinometer operatively associated with the orientation of the hull of the wakeboat, wherein the first inclinometer is operatively associated with the orientation of the hull of the wakeboat to measure the tilt of the hull of the wakeboat around
1. A wakeboat hull control system comprising: a first inclinometer operatively associated with the orientation of the hull of the wakeboat, wherein the first inclinometer is operatively associated with the orientation of the hull of the wakeboat to measure the tilt of the hull of the wakeboat around a first axis;a second inclinometer operatively associated with the orientation of the hull of the wakeboat, wherein the second inclinometer is operatively associated with the orientation of the hull of wakeboat to measure the tilt of the hull around a second axis, the first axis being non-parallel to the second axis; andprocessing circuitry coupled to and receiving measurements from both the first and second inclinometers; anda plurality of ballast pumps coupled to and operated by the processing circuitry, the processing circuitry operating the ballast pumps in accordance with the measurements from one or both of the first and/or second inclinometers. 2. The wakeboat hull control system of claim 1 wherein the processing circuitry operates at least one of the ballast pumps in accordance with one or both of the tilt of the hull around the first axis as measured by the first inclinometer, and/or the tilt of the hull around the second axis as measured by the second inclinometer. 3. The wakeboat hull control system of claim 1 further comprising a draft sensor operatively associated with the hull, the draft sensor measuring the depth of the hull in the surrounding water, the processing circuitry being coupled to and receiving measurements from the draft sensor. 4. The wakeboat hull control system of claim 3 wherein the processing circuitry operates at least one of the ballast pumps in accordance with one or more of the tilt of the hull around the first axis as measured by the first inclinometer, the tilt of the hull around the second axis as measured by the second inclinometer, and/or the depth of the hull in the surrounding water as measured by the draft sensor. 5. The wakeboat hull control system of claim 1 wherein a tablet, smartphone, or handheld computer comprises a portion of the processing circuitry. 6. A wakeboat hull control method comprising: using processing circuitry to acquire measurements of both a first tilt of a hull of a wakeboat about a first axis and a second tilt of the hull of the wakeboat about a second axis that is non-parallel to the first axis; andusing the processing circuitry to change an amount of ballast in at least one ballast compartment aboard the wakeboat to change the one or both of the first and/or second tilt of the hull of the wakeboat from the acquired measurements. 7. The wakeboat hull control method of claim 6 wherein the processing circuitry measures the first and/or second tilt of the hull using complimentary first and/or second inclinometers. 8. The wakeboat hull control method of claim 6 further comprising using the processing circuitry to selectively filter the first and/or second measurements. 9. The wakeboat hull control method of claim 6 wherein the processing circuitry uses a ballast pump to change the amount of the ballast in the ballast compartment. 10. The wakeboat hull control method of claim 6 further comprising using a user interface to selectively display one or more of the first tilt of the hull, the second tilt of the hull, and/or the amount of the ballast in the ballast compartment. 11. The wakeboat hull control method of claim 6 further comprising using a memory in the processing circuitry to store the first and/or second measurements. 12. The wakeboat hull control method of claim 11 further comprising using the processing circuitry to recall the stored measurements from the memory, and using the processing circuitry to change the amount of the ballast to restore one or both of the first and/or second tilt of the hull of the wakeboat to the stored measurements. 13. The wakeboat hull control method of claim 11 further comprising using a computer interface to transmit and/or receive at least a portion of the memory. 14. The wakeboat hull control system of claim 1 further comprising a plurality of ballast compartments at least one of the plurality of compartments in fluid communication with at least one of the plurality of ballast pumps. 15. The wakeboat hull control system of claim 14 wherein at least one of the ballast compartments is associated with the stern of the wakeboat and at least another ballast compartment is associated with the bow of the wakeboat. 16. The wakeboat hull control system of claim 1 wherein the processing circuitry further comprises a touchscreen user interface. 17. The wakeboat hull control system of claim 16 wherein the touchscreen is configured to display at least one or more of speed, engine throttle, and/or engine RPM. 18. The wakeboat hull control system of claim 16 further comprising a tablet computer housing at least a portion of the processing circuitry, the tablet computer comprising the touchscreen and, the portion of the processing circuitry comprising one or both of the first inclinometer, and/or the second inclinometer. 19. The wakeboat hull control method of claim 6 further comprising using the processing circuitry to control at least one or more of speed, engine throttle, and/or engine RPM. 20. The wakeboat hull control method of claim 10 wherein the user interface comprises a touchscreen. 21. The wakeboat hull control method of claim 20 wherein the user interface comprises a tablet computer having the touchscreen. 22. The wakeboat hull control method of claim 7 further comprising providing a tablet computer housing at least a portion of the processing circuitry, the portion of the processing circuitry comprising one or both of the first and/or second inclinometers.
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