Patent application number | Description | Published |
20080260105 | STATIONARY CATHODE IN ROTATING FRAME X-RAY TUBE - An x-ray tube includes a stationary base and a passage therein. The x-ray tube includes an anode frame having an anode positioned adjacent to a first end and having a neck at a second end, the neck extends into the passage, wherein the anode frame is configured to rotate about a longitudinal axis of the passage. A hermetic seal is positioned about the neck between the neck and the stationary base. | 10-23-2008 |
20090060140 | FOCAL SPOT TEMPERATURE REDUCTION USING THREE-POINT DEFLECTION - An x-ray tube includes an anode comprising a focal track and a cathode assembly configured to emit an electron beam toward a focal spot on the focal track. The x-ray tube also includes a controller configured to wobble the electron beam among a plurality of focal points in a direction tangent to the focal track. The plurality of focal points includes at least one focal point that is bounded by a pair of boundary focal points. The controller is further configured to delay a wobble of the electron beam away from the at least one focal point for a pre-determined amount of time. | 03-05-2009 |
20110150174 | MULTIPLE X-RAY TUBE SYSTEM AND METHOD OF MAKING SAME - An imaging system includes a rotatable gantry having an opening therein to receive a subject to be scanned and configured to rotate about a central axis in a rotation direction. The imaging system also includes a first x-ray source coupled to the rotatable gantry at a first position, wherein the first position is offset from the central axis of the rotatable gantry by a first distance. Further, the imaging system includes a second x-ray source coupled to the rotatable gantry at a second position, wherein the second position is offset from the central axis of the rotatable gantry by a second distance, wherein the second position is offset from the first position in a direction coincident with the rotation direction, and wherein the second position is offset from the first position in a direction parallel to the central axis. | 06-23-2011 |
20110176659 | APPARATUS FOR WIDE COVERAGE COMPUTED TOMOGRAPHY AND METHOD OF CONSTRUCTING SAME - A tube for generating x-rays includes a cathode adapted to emit electrons, a target positioned to receive the electrons from the cathode on a surface thereof, an anode adapted with an aperture and positioned between the cathode and the target and configured to accelerate the electrons toward the target, and a rotating system adapted to rotate the target about an axis, the rotating system located in a position facing the surface of the target. | 07-21-2011 |
20120106709 | ACTIVE THERMAL CONTROL OF X-RAY TUBES - The present embodiments relate to active thermal control of X-ray tubes, for example X-ray tubes used in CT imaging. In one embodiment, a system for thermal control of an X-ray tube is provided. The system includes an X-ray tube having an electron beam target, a rotary bearing supporting the target in rotation, and a coolant flow passage, at least a portion of the coolant flow passage being disposed in the center of the rotary bearing, and the coolant flow passage is configured to receive a coolant. The system also includes a coolant circulating system coupled to the coolant flow passage and configured to circulate the coolant thorough the coolant flow passage, and a control circuit coupled to the coolant circulating system and the rotary bearing, the control circuit being configured to control heat flow between components of the X-ray tube by regulating extraction of heat from the X-ray tube via the coolant and by regulating a rotation rate of the rotary bearing. | 05-03-2012 |
20140362969 | SYSTEM AND METHOD FOR MOUNTING X-RAY TUBE ON A CT GANTRY FOR HIGH G-LOAD APPLICATIONS - A mounting structure for mounting an x-ray tube on a CT rotatable gantry is disclosed. The mounting structure includes base plates that are boltable to the CT rotatable gantry and have bearing strut connections formed thereon. Spherical bearing struts are provided in the mounting structure to mechanically couple the x-ray tube to the base plates, with the spherical bearing struts each having a first end secured in a respective bearing strut connection of the x-ray tube casing and a second end secured in a respective bearing strut connection of the base plates. The spherical bearing struts constrain a gantry-load direction displacement of the x-ray tube and enable rotation and displacement of the x-ray tube around at least one axis of rotation or in one direction other than a gantry load direction, so as to accommodate thermal displacements in the x-ray tube created during operation thereof. | 12-11-2014 |