| 摘要 |
A device for the contactless and nondestructive testing of a surface by measuring the infrared radiation thereof has one or more incoherent electromagnetic radiation sources (1) and a detector (14) arranged on a detection axis (9), wherein the radiation sources (1) are arranged at a radial distance from the detection axis (9), at a distance from a testing area (7). In this arrangement, a pulsed or intensity-modulated excitation radiation (2) can be generated by these radiation sources (1) and applied to the surface (6) to be tested in the testing area (7) at an inclination to the detection axis (9) in the testing area (7). The detection radiation emitted by a measuring area (8) of the surface (6) to be tested can be fed to the detector (14), wherein the detector (14) is arranged on the detection axis (9) further away spatially from the testing area (7) than the radiation sources (1). Furthermore, an imaging device (10, 12) is provided on the detection axis (9) for creating an image of the testing area (7) on the measuring area of the detector (14) that is arranged between the radiation sources (1). |
| 主权项 |
1. A device for the contactless and non-destructive testing of a test surface by measuring the infrared radiation thereof, comprising:
one or more incoherent electromagnetic radiation sources, a detector providing and arranged on a detection axis and comprising a measuring area, a testing area defining an area to be measured of the test surface, and an imaging device arranged on the detection axis for mapping the testing area onto the measuring area of the detector, wherein the radiation sources are arranged at a radial distance from the detection axis at a distance from the testing area, wherein the radiation sources are adapted to generate a pulsed or intensity-modulated excitation radiation which can be directed onto the surface to be tested in the testing area, wherein, in response to radiation impinging onto the surface to be tested in the testing area, detection radiation is emitted by the measuring area of the surface to be tested and fed to the detector, wherein the radiation sources are arranged in a housing having the form of a torus or polygon course open on one side towards the testing area, wherein the excitation radiation from the radiation sources is fed to the testing area at an inclination to the detection axis, wherein the detector on the detection axis is arranged spatially further away from the testing area than the radiation sources, wherein the imaging device is arranged between the radiation sources, wherein one or more optical filter devices are arranged between the radiation sources and the testing area, through which the excitation radiation is guidable to the testing area, wherein the filter devices are designed to absorb one or more spectral ranges of the generated excitation radiation, wherein the one or more optical filters are provided as a ring-shaped or polygon-shaped filter at the one-sided opening of the housing. |
