FIELD: medicine.
SUBSTANCE: invention relates to remotely operated x-ray devices. Complex comprises a table, an x-ray emitter tripod and an x-ray detector tripod. Table is installed on a fixed base and includes a radiotransparent deck installed on the frame, and a lifting-turning mechanism connecting the frame with the fixed base; at that, the frame is connected with the lifting-turning mechanism by means of a longitudinal support installed along the radioparent deck on one of its longitudinal sides. X-ray emitter tripod is made in the form of a manipulator comprising hinged series-connected rods: 1st stage, 2nd stage and 3d stage, and is installed on a movable base, made with a possibility of movement along the longitudinal support along the radioparent deck. 1st stage, from one end, is connected with the movable base and contains the 1-st hinge, and, from the other side is connected by means of the 2nd hinge to the end of the 2nd stage, the opposite end of which is connected to the end of stage 3 by the 3d hinge, while rotational axes of the 1st, 2nd and 3d hinges are parallel to each other and the plane of the radiotransparent deck, and on the opposite end of the 3d stage there is fitted an x-ray emitter. Tripod of the x-ray detector is made in the form of a manipulator comprising series-connected by means of hinges links: 1st link and 2nd link, and is installed on the movable base, made with a possibility of movement along the longitudinal support along the radioparent deck. 1st link, via the 7th hinge, is connected with the movable base, and at the opposite end, via the 8th hinge, is connected to the end of the 2nd link, on the opposite end of which, by means of the 9th hinge, there is installed a bracket with the x-ray detector. Table additionally includes a longitudinal support located parallel to the first longitudinal support under the radioparent deck, lifting-turning mechanism is arranged under the radioparent deck between the two longitudinal supports, while between the additional longitudinal support and the radioparent deck there is an opening made with a possibility to ensure movement of the x-ray detector under the radiotransparent deck parallel to it. Tripod of the x-ray emitter and tripod of the x-ray detector are located on independent mobile bases installed on different longitudinal supports with a possibility of movement along them, while the movable base of the x-ray detector tripod is installed on an additional longitudinal support. 1st stage of the x-ray emitter tripod is connected to the movable base by means of a rotary column mounted perpendicular to the plane of the radioparent deck and made with a possibility of rotation around its axis. Between the end of the 3d stage and the 3d hinge there is the 4th hinge configured to turn the 3d stage in the plane perpendicular to the rotation axis of rotation of the 3d hinge, while the rotation axis of the 4th hinge is perpendicular to the plane of the radioparent deck. Between the opposite end of stage 3 and the bracket with the x-ray emitter there is the 5th hinge, which is designed to rotate the bracket with the x-ray emitter in the plane perpendicular to the plane of the radioparent deck, between the 7th hinge and a movable base of the x-ray detector tripod there is the 6th hinge, made with a possibility to turn the 1st link of the x-ray detector tripod in the plane parallel to the radioparent deck, the 7th hinge is designed to rotate the 1st-th link in the plane perpendicular to th plane of the radioparent deck, the axis of the 8th hinge is parallel to the axis of the 7th hinge, rotation axis of the 9th hinge is perpendicular to rotation axes of the 7th and 8th rotary hinges.
EFFECT: invention usage allows to ensure free access to the patient and to perform all basic types of x-ray examinations.
3 cl, 15 dwg
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Authors
Dates
2016-06-20—Published
2015-04-03—Filed