Claims
- 1. A conveyor belt cleaning system for cleaning a conveyor belt, said conveyor belt cleaning system including:
a conveyor belt cleaner scraper blade adapted to engage the conveyor belt; a first actuator coupled to said scraper blade, said first actuator adapted to selectively rotate said scraper blade about a first pivot axis into engagement with the conveyor belt with a selected amount of force; and a second actuator coupled to said scraper blade, said second actuator adapted to selectively position said first pivot axis at a desired location with respect to the conveyor belt; whereby as said scraper blade wears said first and second actuators are adapted to reposition said scraper blade with respect to the conveyor belt and said first actuator is adapted to adjust the force with which the scraper blade engages the conveyor belt.
- 2. The conveyor belt cleaner system of claim 1 including a cross shaft, said scraper blade being attached to said cross shaft and said first actuator being coupled to said cross shaft, said first actuator adapted to rotate said cross shaft and said scraper blade about said first pivot axis.
- 3. The conveyor belt cleaner of claim 1 including a torque sensor adapted to indicate the torsional force with which said first actuator is biasing said scraper blade into engagement with the conveyor belt.
- 4. The conveyor belt cleaner system of claim 1 including a rotatable bracket, said second actuator being coupled to said bracket and adapted to selectively rotate said bracket about a second pivot axis, said second pivot axis being spaced apart from and generally parallel to said first axis, said scraper blade being coupled to said bracket and being conjointly rotatable with said bracket about said second pivot axis.
- 5. The conveyor belt cleaner system of claim 4 including an angular displacement sensor adapted to indicate the rotational position of said bracket with respect to said second pivot axis.
- 6. The conveyor belt cleaner system of claim 1 wherein said first actuator comprises a rotary actuator, and said second actuator comprises a linear actuator.
- 7. A conveyor belt cleaner system including:
a conveyor belt cleaner scraper blade including a wear sensor; and a wear indicator, said wear indicator adapted to receive a signal from said wear sensor indicative of the state of wear of said scraper blade, said wear indicator adapted to indicate when said scraper blade has worn to a selected extent.
- 8. The conveyor belt cleaner system of claim 7 including a plurality of wear indicators, each said wear indicator adapted to indicate when said scraper blade has worn to a respective selected extent.
- 9. The conveyor belt cleaner system of claim 7 wherein said wear indicator comprises a light.
- 10. A conveyor belt cleaning system including:
a conveyor belt cleaner scraper blade disposed on an associated cross shaft; a memory device storing a program; a processor in communication with said memory, said processor operative with said program to:
define a set of initial conditions that establish initial radial displacement of the conveyor belt cleaner scraper blade with respect to the conveyor belt; monitor output signals from a plurality of sensors disposed about said cross shaft, including a blade wear sensor and a strain sensor coupled to said scraper blade; compute angle of attack of said scraper blade with respect to the conveyor belt based upon radial displacement and blade wear sensor signals; determine current system performance based upon measured strain sensor signals; and adjust scraper blade angle of attack and blade engagement force to optimize current system performance.
- 11. A conveyor belt cleaning system that automatically places a conveyor belt cleaner scraper blade in optimum scraping engagement with a conveyor belt, the system comprising:
means for determining length of a conveyor belt cleaner scraper blade; means for computing angle of attack of the conveyor belt cleaner scraper blade with respect to the conveyor belt surface; means for measuring strain sensor signals transmitted from the scraper blade; and means for positioning the scraper blade at a desired angle of attack and scraping engagement force based upon computed angle of attack and measured strain sensor signals.
- 12. The conveyor belt cleaning system of claim 11 wherein said means for determining length of a conveyor belt cleaner scraper blade comprises means for deriving scraper blade length from wear sensor signals that define a range of possible length values.
- 13. The conveyor belt cleaning system of claim 11 wherein said means for computing angle of attack of the conveyor belt cleaner scraper blade with respect to the conveyor belt surface comprises means for establishing the radial distance of the scraper blade pivot axis from the conveyor belt, deriving scraper blade length from wear sensor signals that define a range of possible length values, and computing angle of attack using geometric analysis.
- 14. The conveyor belt cleaning system of claim 11 wherein said means for measuring strain sensor signals transmitted from the scraper blade comprises means for establishing a sampling duration and a sampling interval, inputting a data snapshot through a multi-channel ADC, time stamping the data snapshot, and storing the data elements of the data snapshot in memory.
- 15. The conveyor belt cleaning system of claim 11 wherein said means for positioning said scraper blade comprises means for recalculating blade angle of attack based upon current blade wear sensor data and cross shaft radial displacement data, then repositioning the cross shaft and adjusting engagement force as required.
- 16. A method for controlling a conveyor belt cleaning system having a conveyor belt cleaner scraper blade disposed on an associated cross shaft, the method comprising the steps of:
(a) monitoring output signals from a plurality of sensors disposed about the cross shaft, including a blade wear sensor and a strain sensor coupled to the scraper blade; (b) computing angle of attack of the scraper blade with respect to the conveyor belt based upon radial displacement and blade wear sensor signals; (c) determining current system performance based upon measured sensor signals; and (d) adjusting scraper blade angle of attack and blade engagement force.
- 17. The method in accordance with claim 16 including the step of determining initial linear and angular displacements of the cross shaft with respect to the conveyor belt.
- 18. The method in accordance with claim 16 wherein the step (a) of monitoring output signals from a plurality of sensors further comprises the steps of establishing a sampling duration and a sampling interval, inputting a data snapshot through a multi-channel ADC, time stamping the data snapshot, and storing the data elements of the data snapshot in memory.
- 19. The method in accordance with claim 16 wherein the step (b) of computing angle of attack comprises the steps of establishing the radial distance of the scraper blade pivot axis from the conveyor belt, deriving scraper blade length from wear sensor signals that define a range of possible length values, and computing angle of attack using geometric analysis.
- 20. The method in accordance with claim 16 including the step of empirically determining a model of optimum system behavior by analyzing strain sensor data indicative of scraper blade deflection during verified normal operation, along with data indicative of scraper blade radial displacement and scraper blade engagement force.
- 21. The method in accordance with claim 16 wherein the step (c) of determining current system performance comprises the step of comparing measured strain sensor output signals with their predicted values based upon a model of optimum system behavior.
- 22. The method in accordance with claim 16 wherein the step (d) of adjusting scraper blade angle of attack and blade engagement force to optimize current system performance comprises recalculating blade angle of attack based upon current blade wear sensor data and cross shaft radial displacement data, then repositioning the cross shaft and adjusting scraper blade engagement force as required.
- 23. A scraper blade for a conveyor belt cleaner adapted to clean the surface of a conveyor belt, said scraper blade including:
a base member including one or more cavities; and a tip member including a sensor and one or more projecting members, each said projecting member adapted to be removably inserted into a respective cavity of said base member; whereby said projecting members removably attach said tip member to said base member.
- 24. The scraper blade of claim 23 wherein each said projecting member includes a transverse groove, and said base member includes a transverse bore adapted to receive a rod having an eccentric lobe, said rod comprising a locking mechanism that is adapted to selectively rotate said eccentric lobe into engagement with said transverse groove to thereby selectively lock said tip member in engagement with said base member.
- 25. The scraper blade of claim 23 wherein at least one of said projecting members of said tip member includes one or more electrical contacts and at least one of said cavities of said body includes one or more electrical contacts such that electrical contact is provided between said tip member and said base member when said projecting member is located within said cavity.
- 26. The scraper blade of claim 23 wherein at least one of said cavities of said base member includes a rib and a groove, and at least one of said projecting members of said tip member includes a rib and a groove, whereby when said projecting member is inserted into said cavity, said rib of said projecting member is located in said groove of said cavity and said rib of said cavity is located in said groove of said projecting member.
- 27. The scraper blade of claim 26 wherein said sensor comprises a wear rate sensor, said wear rate sensor comprising a plurality of conductive traces disposed upon an electrically insulating substrate, at least a portion of said conductive traces arranged as a plurality of generally concentric loops of decreasing size.
- 28. A scraper blade for a conveyor belt cleaner adapted to clean the surface of a conveyor belt, said scraper blade including:
a base member including a body, a projection extending outwardly from said body and a strain gage sensor assembly, said strain gage sensor assembly being located at least partially within said projection of said base member; and a tip member adapted to be removably attached to said base member, said tip member including a cavity adapted to receive said projection of said base member when said tip member is attached to said base member; whereby said strain gage sensor assembly is adapted to sense flexing of said tip member.
- 29. The scraper blade of claim 28 wherein said base member includes one or more cavities and said tip member includes one or more projecting members, each said projecting member of said tip member adapted to be removably inserted into a respective cavity in said base member to thereby removably attach said tip member to said base member.
- 30. The scraper blade of claim 28 wherein said strain gage sensor assembly includes a strain gage sensor disposed between a first plate and a second plate, said first plate being located within said projection of said base member and said second plate being located within said body of said base member.
- 31. A scraper blade for a conveyor belt cleaner adapted to be removably attached to a cross shaft of the conveyor belt cleaner, said scraper blade including:
a body having a first end adapted to be attached to the cross shaft and a second end adapted to be placed in engagement with a conveyor belt, and an identification tag coupled to said body.
- 32. The scraper blade of claim 31 including a base member adapted to be attached to the cross shaft, and said body comprises a tip member adapted to be removably attached to said base member and thereby to the cross shaft.
- 33. The scraper blade of claim 31 wherein said identification tag is embedded within said body of said scraper blade.
- 34. The scraper blade of claim 31 wherein said identification tag comprises an active RF identification tag that transmits a unique identifying pattern.
- 35. A scraper blade for a conveyor belt cleaner adapted to clean the surface of a conveyor belt, said scraper blade including:
a body adapted to engage the conveyor belt; one or more sensors coupled to said body; and a telemetry transmitter electrically coupled to one or more of said sensors; whereby said telemetry transmitter is adapted to transmit data from said one or more sensors to a remote receiver.
- 36. The scraper blade of claim 35 wherein said telemetry transmitter transmits sensor data over an optical channel.
- 37. The scraper blade of claim 35 wherein said telemetry transmitter transmits sensor data over an RF channel.
- 38. A scraper blade for a conveyor belt cleaner adapted to clean the surface of a conveyor belt, said scraper blade including:
a body adapted to engage the conveyor belt; and a wear sensor coupled to said body, said wear sensor including one or more conductive elements.
- 39. The scraper blade of claim 38 wherein said one or more conductive elements of said wear sensor comprise a plurality of conductive elements of different sizes.
- 40. The scraper blade of claim 39 wherein said plurality of conductive elements comprise a plurality of conductive traces disposed upon an electrically insulating substrate, at least a portion of said conductive traces being generally arranged as loops located one inside another.
- 41. The scraper blade of claim 39 wherein said plurality of conductive elements comprise a plurality of conductive wires generally arranged as loops located one inside another.
- 42. The scraper blade of claim 38 including a panel member embedded within said body, said panel member positioning said one or more conductive elements of said wear sensor within said body.
- 43. The scraper blade of claim 42 wherein said panel member includes a plurality of spacer pieces adapted to locate said one or more conductive elements with respect to one another, said spacer pieces being selectively positionable with respect to one another prior to being embedded within said body.
- 44. The scraper blade of claim 42 wherein said body and said panel member are both formed from an elastomeric material.
- 45. The scraper blade of claim 42 including a base attachment piece, an end of said panel member being attached to said base attachment piece, said base attachment piece adapted to position said panel member within said body.
- 46. A tip member for a conveyor belt cleaner scraper blade adapted to be removably attached to a base member of the conveyor belt cleaner scraper blade, said tip member including:
a body having a first end adapted to be removably attached to the base member and a second end adapted to engage a conveyor belt; and one or more sensors coupled to said body.
- 47. The tip member of claim 46 wherein said body includes a bottom wall and one or more projecting members extending outwardly from said bottom wall, said projecting members adapted to be removably inserted in the base member to removably attach said tip member to the base member.
- 48. The tip member of claim 47 wherein each said projecting member includes a transverse groove adapted to receive a locking member.
- 49. The tip member of claim 46 wherein said body includes a bottom wall and a cavity located within said body, said cavity having an opening in said bottom wall.
- 50. The tip member of claim 46 including an identification tag that transmits a unique identifying pattern.
- 51. A wear rate sensor for a conveyor belt cleaner scraper blade, said wear rate sensor including:
an electrical insulating member; and one or more conductive elements attached to said insulating member; whereby as the scraper blade wears said one or more conductive elements are adapted to be sequentially broken such that the broken conductive elements will indicate the extent of wear to the scraper blade.
- 52. The wear rate sensor of claim 51 wherein said one or more conductive elements comprise a plurality of conductive elements generally arranged in loops of increasing size.
- 53. The wear rate sensor of claim 51 wherein said one or more conductive elements comprise one or more conductive traces disposed on said insulating member.
- 54. The wear rate sensor of claim 51 wherein said conductive elements comprise conductive wires.
- 55. The wear rate sensor of claim 52 wherein said loops of said conductive elements are located generally one inside another.
- 56. A strain gage sensor assembly for a conveyor belt cleaner scraper blade, said strain gage sensor assembly including:
a strain gage having a first end and a second end; a first magnifying member attached to said first end of said strain gage; and a second magnifying member attached to said second end of said strain gage.
- 57. The strain gage sensor assembly of claim 56 wherein each said magnifying member comprises a plate.
RELATED APPLICATIONS
[0001] This application is a continuation-in-part of U.S. application Ser. No. 10/025,091, filed Dec. 19, 2001, now pending, which is a continuation-in-part of U.S. application Ser. No. 09/454,856, filed Dec. 7, 1999, now U.S. Pat. No. 6,374,990, which claims the benefit of U.S. Provisional Application No. 60/111,774, filed Dec. 10, 1998.
Provisional Applications (1)
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Number |
Date |
Country |
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60111774 |
Dec 1998 |
US |
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
10025091 |
Dec 2001 |
US |
Child |
10435899 |
May 2003 |
US |
Parent |
09454856 |
Dec 1999 |
US |
Child |
10025091 |
Dec 2001 |
US |