Abstract: The invention relates to an X-ray detector device for industrial measurement of workpieces by X-ray, having scintillator means (12) for converting incident X-rays of the X-ray radiation passing through a workpiece being measured into visible light at a scintillator light exit surface (14), optical detector means (22; 24, 26) optically downstream of the scintillator means, for converting the visible light at the scintillator light exit surface into an electronic image signal, and X-ray protection means (18, 20; 18?, 20?; 18?, 20?) which are provided in an optical beam path between the scintillator means and the optical detector means and have a body, in particular a glass body, that is transparent to visible light and has X-ray absorbing properties.
Abstract: The invention relates to an X-ray detector device for industrial measurement of workpieces by X-ray, having scintillator means (12) for converting incident X-rays of the X-ray radiation passing through a workpiece being measured into visible light at a scintillator light exit surface (14), optical detector means (22; 24, 26) optically downstream of the scintillator means, for converting the visible light at the scintillator light exit surface into an electronic image signal, and X-ray protection means (18, 20; 18?, 20?; 18?, 20?) which are provided in an optical beam path between the scintillator means and the optical detector means and have a body, in particular a glass body, that is transparent to visible light and has X-ray absorbing properties.
Abstract: The invention relates to an industrial X-ray workpiece measuring system comprising an X-ray source (4), which is arranged in an X-ray protective housing (2) and has an X-ray focal spot (3), workpiece carrier means, which are arranged in the X-ray protective housing, for accommodating a non-medical workpiece (5) to be examined, and X-ray detector means (10a, 10b, 10c) which are provided on and/or in the X-ray protective housing, are designed to detect an X-ray beam from the X-ray source, which X-ray beam penetrates the workpiece held on the workpiece carrier means, and downstream of which X-ray detector means electronic evaluating means can be connected.
Abstract: A device for additive manufacturing of a workpiece (10; 30) having a cell-like building space (24) for the workpiece to be built, preferably layer by layer, and an additive manufacturing unit (14; 34, 36) provided on or in the building space, wherein a workpiece measurement apparatus (16, 18, 20; 40, 42; 82, 86) is provided on or in the building space such that the workpiece measurement apparatus that provides the workpiece with irradiation from an irradiation source has a detector unit (22; 42) configured to detect an irradiation image of the workpiece provided with the irradiation on and/or through an outer wall of the workpiece, and/or to detect a nuclear spin image of the workpiece provided with the magnetic field excitation, and to generate workpiece measurement data from the irradiation image or the nuclear spin image.