Patent Number: 063209365
Section: claims

1. A beam limiting apparatus for reducing the emission of off-focus radiation from an x-ray tube assembly, wherein the x-ray tube assembly comprises a housing including an x-ray port for the passage of x-rays therethrough, a first mounting surface formed adjacent to the x-ray port, an x-ray tube mounted within the housing and including an evacuated envelope, an anode mounted within the envelope, and a cathode spaced relative to the anode within the envelope, wherein the anode defines a target surface, the cathode projects onto the target surface a focal spot defining a first size and shape, the x-ray port is spaced relative to the focal spot for receiving x-radiation emitted therefrom, and the x-ray port and envelope define a first predetermined depth therebetween, the beam limiting apparatus comprising: a peripheral flange defining a second mounting surface locatable over the first mounting surface of the housing for fixedly securing the beam limiting apparatus to the housing;  a radiation-absorbing body projecting outwardly from the peripheral flange and receivable through the x-ray port, the radiation-absorbing body defining a base surface, an x-ray entrance aperture formed through the base surface, an x-ray exit aperture spaced relative to the x-ray entrance aperture, and an x-ray transmissive beam conduit formed between the entrance and exit apertures, wherein the base surface extends into the housing a second depth less than the first depth with the base surface spaced closely adjacent to the evacuated envelope of the x-ray tube and defining a predetermined gap therebetween, the radiation-absorbing body is formed of a substantially electrically nonconductive, filled polymeric material, the x-ray entrance aperture defines a second size and shape, the x-ray exit aperture defines a third size and shape, and the second and third sizes and shapes are selected to define an x-ray beam of predetermined corresponding size and shape.  a plurality of walls defining interior and exterior sides, wherein a plurality of the interior sides of the walls define a hermetically-sealed cavity for receiving and enclosing an x-ray tube therein, at least the interior side of each of the plurality of walls of the housing defining the hermetically-sealed cavity is formed of a radiopaque, substantially electrically non-conductive, filled polymeric material, and wherein the plurality of walls defining the hermetically-sealed cavity thereby define a radiopaque enclosure for receiving the x-ray tube, and the interior sides of the plurality of walls defining the hermetically-sealed cavity are spaced relative to an x-ray tube received therein to allow the passage of oil between the x-ray tube and walls;  an x-ray port formed through at least one of the housing walls and defining a radiolucent aperture extending into the hermetically-sealed, radiopaque enclosure for allowing the transmission of x-rays therethrough; and  an electrically conductive surface located on the exterior sides of a plurality of the housing walls. 2. A beam limiting apparatus as defined in claim 1, further comprising an x-ray transmissive window extending across the beam conduit. 3. A beam limiting apparatus as defined in claim 2, wherein the x-ray transmissive window is molded integral with the radiation-absorbing body. 4. A beam limiting apparatus as defined in claim 1, wherein the x-ray transmissive window is made of an epoxy resin. 5. A beam limiting apparatus as defined in claim 4, wherein the x-ray transmissive window is optically transparent. 6. A beam limiting apparatus as defined in claim 4, wherein the x-ray transmissive window is metallic. 7. A beam limiting apparatus as defined in claim 1, wherein the x-ray port defines a recess for receiving the peripheral flange, the recess is defined by a first dimension, the peripheral flange is defined by a second dimension less than the first dimension to allow the flange to move within the recess, and further comprising at least one adjusting member coupled between the x-ray port and the peripheral flanges, and movable relative to at least one of the peripheral flange and x-ray port for adjusting the position of the peripheral flange relative to the x-ray port and, in turn, adjusting the position of the entrance aperture relative to the focal spot. 8. A beam limiting apparatus as defined in claim 1, wherein the entrance aperture defines approximately the same shape as the focal spot. 9. A beam limiting apparatus as defined in claim 8, wherein the second size and shape of the entrance aperture is approximately equal to the projection thereon of the first size and shape of the focal spot. 10. A beam limiting apparatus as defined in claim 8, wherein the exit aperture defines approximately the same shape as the entrance aperture and focal spot. 11. A beam limiting apparatus as defined in claim 1, further comprising a flexible, substantially radiolucent material extending across the predetermined gap between the evacuated envelope and base surface of the body, and substantially preventing the passage of oil therethrough and the accumulation of any foreign materials therein. 12. A beam limiting apparatus as defined in claim 1, wherein the predetermined gap between the evacuated envelope and base surface defines a width sufficient to allow differential thermal expansion between the x-ray tube and beam limiting device without contacting each other during operation of the x-ray tube. 13. A beam limiting apparatus as defined in claim 12, wherein the width of the predetermined gap is within the range of approximately 0.040 to approximately 0.080 inches. 14. A beam limiting apparatus as defined in claim 1, in combination with an x-ray tube housing comprising: 15. A beam limiting apparatus and x-ray tube housing as defined in claim 14, wherein the housing includes first and second castings of said filled polymeric material, the first casting defines the x-ray port, the beam limiting device formed within the x-ray port, the hermetically-sealed cavity, and at least one aperture extending into the hermetically-sealed cavity for receiving an x-ray tube therethrough, and the second casting defines a cover attachable to the first casting for hermetically sealing an x-ray tube therein. 16. A beam limiting apparatus and x-ray tube housing as defined in claim 14, wherein the electrically conductive surface is formed by a conductive coating applied to the exterior surfaces of a plurality of the filled polymeric walls of the housing. 17. A beam limiting apparatus as defined in claim 15, wherein the first casting further defines an anode plug cavity, a cathode plug cavity, and at least one oil cavity coupled in fluid communication with the hermetically-sealed cavity for receiving at least one of an oil pump and a reservoir of oil. 18. A beam limiting apparatus as defined in claim 1, further comprising a beam-adjusting mechanism for adjusting at least one of the size and shape of the image forming x-ray beam, and including a substantially radiopaque wall and a beam limiting aperture formed through the radiopaque wall, wherein the beam limiting aperture overlies and is in registration with the x-ray entrance aperture, and is movable radially relative to the x-ray entrance aperture and focal spot to, in turn, adjust at least one of the size and shape of the image forming beam. 19. A beam limiting apparatus as defined in claim 18, wherein the radiopaque wall of the beam adjusting mechanism is made of a substantially electrically non-conductive, filled polymeric material. 20. A beam limiting apparatus as defined in claim 18, further comprising means for moving the beam limiting aperture of the beam adjusting mechanism between at least first and second positions relative to the x-ray entrance aperture and focal spot for adjusting the size of the image forming beam.