An X-ray CT apparatus including an X-ray generator, an X-ray detector, a support part, and a base that rotatably supports the support part. The support part includes an exterior part made of carbon fiber reinforced plastic, and the X-ray generator and the X-ray detector are supported by the exterior part while being opposed to each other. The base rotatably supports the support part such that the X-ray generator and the X-ray detector turn about a turning axis.

An X-ray CT apparatus including an X-ray generator, an X-ray detector, a support part, and a base that rotatably supports the support part. The support part includes an exterior part made of carbon fiber reinforced plastic, and the X-ray generator and the X-ray detector are supported by the exterior part while being opposed to each other. The base rotatably supports the support part such that the X-ray generator and the X-ray detector turn about a turning axis.

According to various aspects, exemplary embodiments are disclosed of systems that may be used for cooling objects, such as X-ray tubes and detectors, etc. Also disclosed are exemplary embodiments of methods for cooling objects, such as X-ray tubes and detectors, etc. For example, an exemplary embodiment includes a system that can be used to cool an X-ray tube and detector with one chiller. As another example, an exemplary embodiment of a method includes using one chiller to cool an X-ray tube and detector.

A CT system is disclosed for generating tomographic recordings of an examination object. In an embodiment, the CT system includes at least a gantry with a rotatable support for receiving components of the CT system, and a cooling system for cooling the components secured to the gantry with at least one air duct. In at least one embodiment, an incoming-air duct of the cooling system is divided into at least two segments to ensure uniform pressure distribution in the incoming-air duct.

A CT system is disclosed for generating tomographic recordings of an examination object. In an embodiment, the CT system includes at least a gantry with a rotatable support for receiving components of the CT system, and a cooling system for cooling the components secured to the gantry with at least one air duct. In at least one embodiment, an incoming-air duct of the cooling system is divided into at least two segments to ensure uniform pressure distribution in the incoming-air duct.

Device including a multileaf collimator, the multileaf collimator including an array of leaves and slits, the array having an alternation of leaves and slits and extending in a longitudinal direction, the longitudinal direction being defined as a direction extending from an entrance plane of the array toward an exit plane of the array, each leaf being located between two slits; the device having a source for emitting an incident electromagnetic beam or a source for emitting an incident beam of subatomic particles, the source being arranged to emit the beam in the direction of the entrance plane of the array, the multileaf collimator being arranged to obtain an arrangement of beams from the incident beam, and the arrangement of beams forms an alternation of high-energy lines and lower-energy lines.

A medical apparatus is provided. The medical apparatus comprises an operating table provided with a base and a tabletop for supporting a patient, an x-ray detector attached to the operating table, and at least one x-ray source configured to be attached to the operating table in a manner so as to be movable with respect to the operating table.

A method and an apparatus for generating x-ray inspection image of an electronic circuit board are disclosed. The method includes: respectively generating, according to data files of the electronic circuit board and parameters of an X-ray machine, analog images of both faces of the electronic circuit board; subjecting the electronic circuit board to X-ray imaging to generate a real image of the electronic circuit board, the real image comprising real image elements on both faces of the electronic circuit board; identifying, according to the analog images of both faces, from the real image an interference image element that needs to be filtered from the real image for generating a real image of a detected object; and filtering the interference image element from the real image to generate the real image of the detected object.

A method and an apparatus for generating x-ray inspection image of an electronic circuit board are disclosed. The method includes: respectively generating, according to data files of the electronic circuit board and parameters of an X-ray machine, analog images of both faces of the electronic circuit board; subjecting the electronic circuit board to X-ray imaging to generate a real image of the electronic circuit board, the real image comprising real image elements on both faces of the electronic circuit board; identifying, according to the analog images of both faces, from the real image an interference image element that needs to be filtered from the real image for generating a real image of a detected object; and filtering the interference image element from the real image to generate the real image of the detected object.

A sterile drape can be used to cover a C-arm imaging machine used during a medical procedure. In some configurations, the drape includes a detector body cover, a C-arm body cover, and an elastic banding. The detector body cover can be positioned around a detector of the imaging machine. The C-arm body cover can include a tunnel portion that is positioned to surround a portion of the C-arm extending away from the detector. The elastic banding can extend about a perimeter of a junction between the detector body cover and the C-arm body cover. The elastic banding can provide a biasing force that draws the junction between the detector body cover and the C-arm body cover closed.