X-ray or gamma ray systems or devices – Source support – Including object support or positioning
Reexamination Certificate
2001-05-17
2003-07-15
Church, Craig E. (Department: 2882)
X-ray or gamma ray systems or devices
Source support
Including object support or positioning
C378S202000
Reexamination Certificate
active
06592258
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention concerns the field of radiology apparatus and, in particular, the assembly of such an apparatus.
A radiology apparatus used, for example, in mammography, RAD or RF conventional radiology and neurological or even vascular (peripheral or cardiac) radiology generally comprises: an X-ray tube and a collimator for forming and delimiting an X-ray beam; an image receiver, generally a radiological image intensifier and a video camera, or even a solid-state detector; a positioner carrying the X-ray tube and collimator assembly on one side and image receiver on the other, movable in space on one or more axes; and a table for supporting a patient. An example of such an apparatus is disclosed in EP-A-972,490, and the apparatus has use in X-ray imaging.
An X-ray tube mounted, for example, in a medical radiology apparatus comprises a cathode and an anode, both contained in a vacuum-tight envelope, for electric insulation between the two electrodes. The cathode produces an electron beam which is received by the anode on a small surface constituting a focus from which the X-rays are emitted.
On application of a high voltage by a generator at the terminals of the cathode and anode, a so-called anode current is established in the circuit through the generator producing the high voltage. The anode current crosses the space between the cathode and anode in the form of an electron beam which bombards the focus.
In order to obtain a high-energy electron beam, the electrons are accelerated by an intense electric field produced between the cathode and anode. For that purpose, the anode is brought to a very high positive potential in relation to the cathode. That potential can exceed 150 kV. To produce those potentials, high-voltage supply devices are used.
A part of the X-ray emission from the focus crosses the envelope and then the window of the casing. The window being of small dimensions, the cathode, anode and window have to be mounted in given relative positions that are precise and reproducible. Furthermore, the collimator is mounted outside the casing and is crossed by the X-ray beam. As a result, the position of the focus and the position of the axis of propagation of the X-ray beam, in other words, the position of the X-ray beam, have to be perfectly defined, notably, in relation to the casing. Now, the position of the point of emission or focus of the X-ray beam is determined by three translations and three rotations of the X-ray tube in relation to the casing in a three-dimensional reference. Two of the positions in translation and two of the positions in rotation are obtained by design. However, the position in translation along the axis of rotation of the anode and the position in rotation on the same axis require adjustments requiring highly skilled labor, a considerable time and tools. In particular, it often proves indispensable to carry out X-ray emissions following which the apparatus is disassembled in order to perfect the adjustment and is reassembled, and so on until obtaining the desired positioning making it possible to satisfy radiation protection standards and to obtain good-quality images. Such an apparatus is disclosed in WO A 97/44809.
BRIEF DESCRIPTION OF THE INVENTION
An embodiment of the invention is directed to an economical method of assembly of an X-ray tube for a radiology apparatus.
An embodiment of the invention is directed to a new method of assembly with positioning obtained by design.
The method of assembly, according to one aspect of the invention, is intended for a radiology apparatus X-ray emission means. The emission means comprises a casing opened by a window and an X-ray tube placed in the casing. The X-ray tube comprises an anode assembly equipped with an anode, a cathode assembly equipped with a cathode and an envelope. The anode and the cathode are placed in the envelope in order to emit an X-ray beam passing through the window. The longitudinal positioning of the X-ray tube in the casing is produced on the anode side and the angular positioning of the X-ray tube in the casing on a longitudinal axis is produced on the cathode side.
The invention is also directed to an X-ray emission device intended, for example, for a radiology apparatus. The device comprises a casing opened by a window and an X-ray tube placed in the casing. The X-ray tube comprises an anode assembly equipped with an anode, a cathode assembly equipped with a cathode and an envelope, the anode and the cathode being placed in the envelope in order to emit an X-ray beam passing through the window. The anode assembly comprises a means of longitudinal positioning of the X-ray tube in the casing and the cathode assembly comprises a means of angular positioning of the X-ray tube in the casing on a longitudinal axis.
The invention is also directed to an X-ray emission device intended for a radiology apparatus. The device comprises a casing opened by a window and an X-ray tube placed in the casing. The X-ray tube comprises an anode assembly equipped with an anode, a cathode assembly equipped with a cathode and an envelope, the anode and the cathode being placed in the envelope in order to emit an X-ray beam passing through the window. The anode assembly contains a bayonet for fastening the X-ray tube to the casing.
A radiology apparatus X-ray emission device is thus obtained, the X-ray beam of which is positioned with great precision, while being simple to assemble.
REFERENCES:
patent: 2829271 (1958-04-01), Boucher
patent: 5067146 (1991-11-01), Meinel et al.
patent: 5581591 (1996-12-01), Burke et al.
patent: 19824008 (1999-12-01), None
patent: 351225 (1990-01-01), None
patent: 456539 (1991-11-01), None
patent: 972490 (2000-01-01), None
patent: 9744809 (1997-11-01), None
Chabin Eric
Le Pennec Xavier
Chaskin Jay L.
Church Craig E.
GE Medical Systems Global Technology Company LLC
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