Claims
- 1. A system for remote monitoring of a level of a liquid within a container, said system comprising:
at least one magnetic float disposed within said container; one or more magnetic proximity sensors disposed external of and adjacent to said container; an indicator disposed remote from said container and having one or more liquid level indicators each corresponding to one of said sensors; and a controller for receiving one or more input signals from each said sensor and communicating one or more corresponding output signals to said corresponding level indicator, wherein said level indicators indicate said level of said liquid within said container.
- 2. The remote monitoring system of claim 1, wherein each of said sensors comprises a magnetic switch.
- 3. The remote monitoring system of claim 1, wherein said sensors are disposed adjacent to said container in positions corresponding to container liquid levels selected from the group consisting of full, ¾ full, ½ full, ¼ full, and empty.
- 4. The remote monitoring system of claim 1, further comprising a sensor mounting member, wherein each of said sensors is coupled to said mounting member.
- 5. The remote monitoring system of claim 1, wherein said sensors are disposed at least close enough to said container that said sensors can sense the proximity of said magnetic float, and wherein said sensors are not permanently affixed directly to said container.
- 6. The remote monitoring system of claim 1, wherein said controller is configured or programmed to send said output signal to said corresponding level indicator for a predetermined period of time.
- 7. The remote monitoring system of claim 1, wherein said controller is configured or programmed to count hits received from said sensors, and to send said output signal to said indicator until said controller receives a predetermined number of hits from one of said sensors.
- 8. The remote monitoring system of claim 7 wherein said controller is configured or programmed to reset said hit count to zero after a predetermined period of time or after said controller receives a predetermined number of canceling hits from one of said sensors.
- 9. A machine for use with a removable and replaceable liquid fuel container having a magnetic float disposed therein, said machine comprising:
a machine frame; a mount for removably coupling said container to said machine frame; one or more magnetic proximity sensors disposed on or adjacent to said mount; an indicator mounted to said machine frame at a position remote from said mount and having one or more liquid level indicators each corresponding to one of said sensors; and a controller for receiving one or more input signals from each said sensor and communicating one or more output signals to said corresponding level indicator, wherein said level indicators indicate said level of said liquid within said container.
- 10. The machine of claim 9, wherein each of said sensors comprises a magnetic switch.
- 11. The machine of claim 9, wherein said sensors are disposed adjacent to said container in positions corresponding to container liquid levels selected from the group consisting of full, ¾ full, ½ full, ¼ full, and empty.
- 12. The machine of claim 9, further comprising a sensor mounting member, wherein each of said sensors is coupled to said mounting member.
- 13. The machine of claim 9, wherein said sensors are disposed at least close enough to said container that said sensors can sense the proximity of said magnetic float, and wherein said sensors are not affixed directly to said container.
- 14. The machine of claim 9, wherein said controller is configured or programmed to send said output signal to said corresponding level indicator for a predetermined period of time.
- 15. The machine of claim 9, wherein said controller is configured or programmed to count hits received from said sensors, and to send said output signal to said indicator until said controller receives a predetermined number of hits from one of said sensors.
- 16. The machine of claim 15, wherein said controller is configured or programmed to reset said hit count to zero after a predetermined period of time or after said controller receives a predetermined number of canceling hits from one of said sensors.
- 17. A method for remote monitoring a level of a liquid within a container, said method comprising:
providing at least one magnetic float disposed within said container; providing one or more magnetic proximity sensors disposed external of and adjacent to said container; providing an indicator disposed remote from said container and having one or more liquid level indicators each corresponding to one of said sensors; and receiving one or more input signals from each said sensor; and communicating one or more output signals to said corresponding level indicator, wherein said level indicators indicate said level of said liquid within said container.
- 18. The liquid level monitoring method of claim 17, wherein each of said sensors comprises a magnetic switch.
- 19. The liquid level monitoring method of claim 17, wherein said sensors are disposed adjacent to said container in positions corresponding to container liquid levels selected from the group consisting of full, 3/4 full, 1/2 full, 1/4 full, and empty.
- 20. The liquid level monitoring method of claim 17, wherein said sensors are disposed at least close enough to said container that said sensors can sense the proximity of said magnetic float, and wherein said sensors are not affixed directly to said container.
- 21. The liquid level monitoring method of claim 17, further comprising the act of providing a sensor mounting member, wherein each of said sensors is coupled to said mounting member.
- 22. The liquid level monitoring method of claim 17, wherein said controller is configured or programmed to send said output signal to said corresponding level indicator for a predetermined period of time.
- 23. The liquid level monitoring method of claim 17, wherein said controller is configured or programmed to count hits received from said sensors, and to send said output signal to said indicator until said controller receives a predetermined number of canceling hits from one of said sensors.
- 24. The liquid level monitoring method of claim 23, wherein said controller is configured or programmed to reset to a zero count after a predetermined period of time or after said controller receives a predetermined number of canceling hits from one of said sensors.
- 25. The liquid level monitoring method of claim 17, further comprising the act of providing a liquid-fueled machine, and mounting said sensors, said controller, and said indicator to said machine.
- 26. A method for retrofitting a pre-existing liquid level indicator to provide for remote liquid level monitoring, said method comprising:
providing one or more magnetic proximity sensors; providing at least one controller configured for receiving input signals from said sensors and transmitting output signals to said pre-existing indicator; connecting said sensors to said controller; and connecting said controller to said pre-existing indicator.
- 27. The retrofit method of claim 26, wherein said pre-existing indicator comprises resistance characteristics, and further comprising the act of providing said controller with resistance characteristics to correspond to said resistance characteristics of said pre-existing indicator
- 28. The retrofit method of claim 26, wherein said pre-existing indicator comprises a control wire connected to a pre-existing fuel tank, and further comprising the act of severing said control wire between said pre-existing indicator and said pre-existing fuel tank.
- 29. The retrofit method of claim 26, wherein said pre-existing indicator comprises a control wire connected to a pre-existing fuel tank, and wherein said act of connecting said controller to said pre-existing indicator comprises the acts of connecting said control wire from said pre-existing indicator to said controller.
- 30. The retrofit method of claim 26, further comprising the act of providing a liquid container with at least one magnetic float disposed therein.
- 31. The retrofit method of claim 30, wherein providing said container comprises the act of opening said container, inserting said magnetic float onto said container, and closing said container.
- 32. The retrofit method of claim 26, further comprising the act providing a liquid-fueled machine, and mounting said sensors and said controller to said machine.
- 33. A container for a liquid, said container for use with a remote liquid level monitoring system having one or more magnetic proximity sensors, said liquid container comprising:
a shell bounding a contained volume; at least one opening defined in said shell and communicating with said contained volume, wherein said liquid can be added or removed from said container through said opening; and a magnetic float disposed within said contained volume, wherein said magnetic float is sensible by said sensors.
- 34. The container of claim 33, wherein said float comprises a body that is buoyant in said liquid, at least one portion of said body comprising a magnetic material.
- 35. The container of claim 34, wherein said float body is generally cylindrical and said magnetic portion comprises two magnetic portions with one of said magnetic portions positioned at an end of said cylindrical body and configured in an axial direction and another of said magnetic portions positioned at a side of said cylindrical body and configured in a radial direction.
- 36. The container of claim 33, further comprising a mechanical linkage connecting said float to said container for biasing or constraining said float toward a side of said container.
- 37. A magnetic float for use within a container for a liquid, said container for use with a remote liquid level monitoring system having one or more magnetic proximity sensors, said float comprising a body that is buoyant in said liquid, at least one portion of said body comprising a magnetic material.
- 38. The float of claim 37, wherein said float comprises two or more materials, wherein one of said materials is selected for buoyancy and said other material is magnetic.
- 39. The float of claim 37, wherein said float body is generally cylindrical and said magnetic portion comprises two magnetic portions with one of said magnetic portions positioned at an end of said cylindrical body and configured in an axial direction and another of said magnetic portions positioned at a side of said cylindrical body and configured in a radial direction.
- 40. The float of claim 37, further comprising a mechanical linkage connecting said float to said container for biasing or constraining said float toward a side of said container.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the priority benefit of U.S. Provisional Patent Application Ser. No. 60/181,015, filed Feb. 8, 2000 which is hereby incorporated by reference in its entirety.
Provisional Applications (1)
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Number |
Date |
Country |
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60181015 |
Feb 2000 |
US |