Optical rotor temperature sensing apparatus using phosphors and method of measuring the temperature at the bottom of a rotor slot in a rotating rotor
First Claim
1. An optical temperature sensing apparatus for sensing temperature at the bottom of a rotor slot in a rotating rotor comprisinga phosphor material disposed at the bottom of the rotor slot, said material having the characteristic that after it is excited, it emits energy with an intensity that decays with time at a rate that is dependent on its temperature,means positioned adjacent said rotor for exciting said phosphor material as the rotor slot rotates past said exciting means,means positioned adjacent said rotor of two spaced locators from said exciting means and spaced along the direction of rotation of said rotor for detecting the emission at two spaced times to provide signals representative of the intensity of emission at said times, andmeans for processing said signals to determine the decay rate and using said decay rate to indicate the temperature.
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Abstract
A temperature sensing apparatus and method of measuring the temperature at the bottom of a rotor slot in a rotating rotor using a temperature sensitive phosphor material. The temperature sensitive phosphor material is placed at the bottom of a rotor slot and is excited, as the rotor rotates, by an excitation source located at a location opposite the rotor, the excited radiation being detected at two spaced locations from the excitation source, the two spaced locations being located also opposite the rotor and spaced apart along the direction of the rotor. Then the decay rate of the detected radiation from the phosphor is determined and from this decay rate the temperature at the bottom of the rotor slot.
34 Citations
6 Claims
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1. An optical temperature sensing apparatus for sensing temperature at the bottom of a rotor slot in a rotating rotor comprising
a phosphor material disposed at the bottom of the rotor slot, said material having the characteristic that after it is excited, it emits energy with an intensity that decays with time at a rate that is dependent on its temperature, means positioned adjacent said rotor for exciting said phosphor material as the rotor slot rotates past said exciting means, means positioned adjacent said rotor of two spaced locators from said exciting means and spaced along the direction of rotation of said rotor for detecting the emission at two spaced times to provide signals representative of the intensity of emission at said times, and means for processing said signals to determine the decay rate and using said decay rate to indicate the temperature.
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6. A method of measuring the temperature at the bottom of a rotor slot in a rotating rotor comprising the steps of
placing a layer of phosphor at the bottom of the slot, said phosphor being characterized by emitting radiation when excited, the intensity of said radiation decaying with time at a rate which is dependent upon the temperature of the phosphor, exciting said phosphor with an excitation source located at a first location opposite said rotor to cause the phosphor to emit energy as the rotor slot rotates past said excitation source, detecting the intensity of the emitted energy at two spaced locations from said excitation source, said two spaced locations located opposite the rotor and spaced along the direction of rotation of the rotor to provide two intensity signals following excitation, processing said signals to determine the decay rate of the energy emitted by the phosphor, and determining the temperature at the bottom of the rotor slot in the rotating rotor from said decay rate.
Specification
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- Resources
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Current AssigneeElectric Power Research Institute Incorporated
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Original AssigneeElectric Power Research Institute Incorporated
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InventorsMannik, Lennart
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Primary Examiner(s)Cuchlinski, Jr., William A.
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Assistant Examiner(s)GUTIERREZ, DIEGO F
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Application NumberUS07/922,133Time in Patent Office369 DaysField of Search374/152, 374/153, 374/159, 374/161, 374/131, 374/166, 374/137, 374/124, 374/110, 250/458.1, 250/459.1, 250/461.1US Class Current374/131CPC Class CodesG01K 13/08 in rotary movement
