Equipment inspection and evaluation system, equipment management system, and computer-readable record medium with equipment management program stored therein
An equipment inspecting and evaluating system can be used to inspect and evaluate steam traps by detecting a level of vibrations of each trap and the surface temperature of the housing of that trap. The detected vibration level and temperature are used to determine whether or not steam is leaking th
An equipment inspecting and evaluating system can be used to inspect and evaluate steam traps by detecting a level of vibrations of each trap and the surface temperature of the housing of that trap. The detected vibration level and temperature are used to determine whether or not steam is leaking through that trap and to what extent steam leakage is. An equipment management system is connected to the inspection and evaluation system by a data transmission cable and receives inspection data of the traps from the inspection and evaluation system. The management system analyzes the received inspection data for computing the number of defective traps, the ratio of defective traps to the entire traps, the loss caused by steam leakage, etc.
대표청구항▼
An equipment inspecting and evaluating system can be used to inspect and evaluate steam traps by detecting a level of vibrations of each trap and the surface temperature of the housing of that trap. The detected vibration level and temperature are used to determine whether or not steam is leaking th
An equipment inspecting and evaluating system can be used to inspect and evaluate steam traps by detecting a level of vibrations of each trap and the surface temperature of the housing of that trap. The detected vibration level and temperature are used to determine whether or not steam is leaking through that trap and to what extent steam leakage is. An equipment management system is connected to the inspection and evaluation system by a data transmission cable and receives inspection data of the traps from the inspection and evaluation system. The management system analyzes the received inspection data for computing the number of defective traps, the ratio of defective traps to the entire traps, the loss caused by steam leakage, etc. . A non-contact electrode system having at least one electrode, the system comprising: means for adapting the least one of said non-contact electrode for attachment; andmeans for transferring physiologic data obtained by said at least one electrode to an external device.9. The system of claim 8 wherein said at least one electrode includes attachment to a programmer head.10. The system of claim 8 wherein said at least one electrode includes attachment to an electrode strip.11. The system of claim 8 wherein said physiologic data includes respiration signal implemented to provide one of implantable medical device follow-up, emphysema, edema and CHF monitoring and AVD optimization.12. The system of claim 8 wherein said physiologic data includes data obtained in cooperation with an implanted medical device wherein capture detection and ischemia detection are obtained for monitoring.13. A non-contact electrode in cooperation with a Web-enabled data management system, comprising: means for transferring physiologic data collected from a patient with an implanted medical device (IMD);an external device in data communication with the non-contact electrode to uplink and transfer said physiologic data;interface means to transfer said physiologic data from said external device to a network; andmeans to transfer said physiologic data from said network to a PC or a network server.14. The system of claim 13 wherein said network is Web-enabled and is remotely located from the electrode location.15. The system of claim 13 wherein said interface is one of a modem, cable, fiber optics and RF.16. A method of collecting physiological data using one or more non-contact electrodes comprising: positioning the one or more non-contact electrodes proximate to a patient; andtransferring physiologic data collected by the electrodes to an external device.17. The method of claim 16 wherein the electrodes are implemented with a telemetry head wherein said transfer of data includes telemetry communication with an implanted medical device. e for each of said wheels based on said coefficient of friction, attitude, and weight transference.10. The method of claim 9 further comprising calculating brake apply torque based on said coefficient of friction, said attitude, and said weight transference.11. A vehicle anti-lock braking system, comprising: a brake pedal;a brake modulator; anda controller that communicates with said brake modulator and that measures vehicle deceleration as a function of brake pedal position, updates a first table with said vehicle deceleration and said brake pedal position, estimates a coefficient of friction of a road surface based on said first table, and estimates a slip target for at least one wheel that is based on an estimated maximum slip of said at least one wheel before losing traction minus an estimated potential for vehicle rollover.12. The method of claim 11 wherein said controller estimates a deceleration target for at least one wheel that is based on an estimated maximum deceleration of said at least one wheel before losing traction minus said estimated potential for vehicle rollover.13. The method of claim 12 wherein said controller estimates rollover lateral acceleration and wherein said estimated potential for vehicle rollover is based on rollover lateral acceleration.14. The method of claim 12 wherein said controller estimates grade based on rolling resistance, drag, engine braking, brake torque and acceleration.15. The method of claim 13 wherein said controller estimates vehicle weight.16. The method of claim 15 wherein said controller estimates steering angle and steering rate.17. The method of claim 16 wherein said controller estimates weight distribution for each wheel of said vehicle.18. The method of claim 17 wherein said controller adjusts said weight distribution for roll, pitch, lateral acceleration and longitudinal acceleration.19. The method of claim 18 wherein said controller calculates brake release torque for each of said wheels based on said coefficient of friction, attitude, and weight transference.20. The method of claim 19 wherein said controller calculates brake apply torque based on said coefficient of friction, said attitude, and said weight transference. Systems, New York, NY: IEEE, US, vol. 2, Jun. 9, 1997, pp. 1129-1132.
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