Apparatus And Method For Detecting Transmission Belt Wear And Monitoring Belt Drive System Performance
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Abstract
An apparatus and method to monitor endless belts and related belt drive systems by non-contact sensors for wear or an anomalous function, determining the state of belt drive system and detecting early stages of belt and system failure. A sensing unit featuring one or several independent sensor elements is placed near a belt of a polymer matrix with a fiber cord load bearing core to monitor several simultaneously occurring normal modes of operation. The sensor can determine soundness of the whole timing drive continuously by processing the collected signal and detecting structural damage. The collected data is processed by a microcontroller integrated with the sensor. The apparatus and method uses a non-contacting capacitor array having sensing element(s) connected to electronic circuitry that is adapted to sense the dynamic capacitance change coupled with electrocapacitive and piezoelectric effects exhibited by the belt. The sensor continuously monitors the belt during normal operation.
31 Citations
38 Claims
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1-19. -19. (canceled)
- 20. A method of determining the physical and structural condition of a moving composite polymer and fiber belt under normal operating conditions comprising, sensing instantaneous dynamic dielectric and electrocapacitive properties of a belt portion as the belt portion moves by a capacitance sensing device to produce instantaneous dynamic capacitance signals, separating the instantaneous dynamic capacitance signals produced by at least one sensing element of the sensing device from any static capacitance signals simultaneously present, comparing the separated instantaneous dynamic capacitance signals with a threshold level of dynamic capacitance signal and, in response to a cyclic breach of the threshold level of dynamic capacitance signal by the separated instantaneous dynamic capacitance signals, actuating an output signal.
- 23. A capacitance sensing device comprising at least one sensing element adapted for location adjacent a normally moving composite polymer and fiber belt, said sensing element adapted to produce a cyclically changing electric signal in response to dynamic changes in the dielectric properties of the belt as the belt moves past the sensing device, and electric computational means including at least one analog-to-digital converter, a microprocessor and means to provide an output signal in response to a cyclic breach of a threshold level of dynamic change in belt dielectric properties.
- 27. A method of determining the physical condition of a moving composite polymer and fiber belt under normal operating conditions comprising, sensing the instantaneous dynamic electrostatic field of a belt portion as the belt portion moves by a sensing device to produce instantaneous dynamic signals, separating the instantaneous dynamic signals produced by at least one sensing element of the sensing device from any static signals simultaneously present, comparing the instantaneous dynamic signals with a threshold level of dynamic signal and, in response to a cyclic breach of the threshold level of dynamic signal by the instantaneous dynamic signals, actuating an output signal.
- 30. A sensing device comprising at least one sensing element adapted for location adjacent a normally moving composite polymer and fiber belt, said sensing element adapted to produce a cyclically changing electric signal in response to dynamic changes in the electrostatic field of the belt as the belt moves past the sensing device, and electric computational means, including at least one analog-to-digital converter, a microprocessor and means to provide an output signal in response to a cyclic breach of a threshold level of dynamic change in belt electrostatic field.
- 34. A method of determining the physical condition and deterioration of a moving composite polymer and fiber belt under normal operating conditions comprising, sensing the electrical charge generated by piezoelectric coupling present in a belt portion as the belt portion moves by a non-contact charge sensor whereby a signal is produced in response to the instantaneous belt portion charge density.
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38. A sensing device comprising at least three electroconductive sensing elements with at least one electroconductive sensing element aligned with the direction of movement of a belt, at least one electroconductive sensing element positioned to be perpendicular to the direction of movement of the belt and at least one electroconductive sensing element to be lying in a plane parallel to the direction of movement of the belt, wherein the sensing device is configured to at least partially surround a portion of the belt as it moves through the device.
Specification