Apparatus for measuring temperature of aero-engine turbine blades

The invention claimed is: 1. An apparatus for measuring temperature of turbine blades, the apparatus comprising: a radiation collection device, the radiation collection device comprising a scan reflector, a collimator lens, a first dichroic mirror, a first focus lens, a visible and near-infrared (VNIR) detector, a second dichroic mirror, a second focus lens, a short-wave infrared (SWIR) detector, a third focus lens, and a medium-wave infrared (MWIR) detector; a data processing module; a master control unit (MCU); and a calibration module, the calibration module comprising a calibration reflection mirror and a blackbody furnace; and a motion servo; wherein: the scan reflector, the collimator lens, the first dichroic mirror, the second dichroic mirror, the third focus lens, and the MWIR detector are disposed successively along a first optical axis; the first dichroic mirror, the first focus lens, and the VNIR detector are disposed successively along a second optical axis that is perpendicular to the first optical axis; the second dichroic mirror, the second focus lens, and the SWIR detector are disposed successively along a third optical axis that is perpendicular to the first optical axis and parallel to the second optical axis; the calibration reflection mirror is disposed between the scan reflection mirror and the collimator lens, and is located in the first optical axis; the black body is disposed at one side of the first optical axis; and a radiation emitted from the blackbody furnace is reflected by the calibration reflection mirror and then incident on the collimator lens; the data processing module acquires and analyzes data from the VNIR detector, the SWIR detector and the MWIR detector; the data processing module transmit a command to the MCU based on analysis results; and the MCU controls the motion servo to focus the collimator lens. 2. The apparatus of claim 1 , further comprising a spectrometer, a filter wheel, a beam splitter, a fourth focus lens, and a switch control; wherein: the beam splitter is disposed between the collimator lens and the first dichroic mirror, and is located in the first optical axis; the beam splitter, the fourth focus lens and the spectrometer are disposed successively along a fourth optical axis that is perpendicular to the first optical axis; the filter wheel is disposed between the second focus lens and the SWIR detector, and is located in the fifth optical axis that is perpendicular to the first optical axis; the switch control is controlled by the MCU; and the filter wheel comprises a plurality of filters. 3. The apparatus of claim 1 , wherein the SWIR detector and the MWIR detector are provided with filters, respectively. 4. The apparatus of claim 2 , wherein the SWIR detector and the MWIR detector are provided with filters, respectively. 5. The apparatus of claim 1 , wherein: the scan reflector is disposed in a tube; the tube comprises a first end located in an engine case of a turbine and a second end out of the engine case of the turbine; the first end is provided with an optical aperture corresponding to the scan reflector; the second end of the tube communicates with the radiation collection device via a transparent window disposed therebetween to seal the radiation collection device; and the second end of the tube comprises an air hole, and cold air enters the tube via the air hole to sweep and clean the tube and the scan reflector. 6. The apparatus of claim 2 , wherein: the scan reflector is disposed in a tube; the tube comprises a first end located in an engine case of a turbine and a second end out of the engine case of the turbine; the first end is provided with an optical aperture corresponding to the scan reflector; the second end of the tube communicates with the radiation collection device via a transparent window disposed therebetween to seal the radiation collection device; and the second end of the tube comprises an air hole, and cold air enters the tube via the air hole to sweep and clean the tube and the scan reflector.