Patent Number: 055747663
Section: claims

1. An x-ray beam limiter assembly, comprising: a bearing retaining race having an inner surface characterized by an inner diameter, the inner surface having a groove with a diameter and radius disposed therein; and  a rotating assembly rotatably mounted with respect to the bearing retaining race, the rotating assembly comprising  a support plate;  an actuator pin fastened to the disc and disposed within an aperture in the support plate, the aperture and pin defining first and second rotatable positions of the disc;  an actuator disposed with a bore contained with the support plate and in communication with the actuator pin, which actuator causes the disc to assume the first rotatable position when the actuator is depressed; and  a spring fastened to the disc and to the support plate which causes the disc to assume the second position when the actuator is not depressed.  a disc having a diameter and a radiused outer edge, the outer edge having a bearing surface applied thereto;  means for permitting the diameter of the disc to be reduced to a compressed diameter when a compressive force is applied to the disc and for urging the disc to return to substantially its original diameter when the compressive force is removed; and  a bearing retaining race having an inner surface characterized by a diameter smaller than the uncompressed diameter of the disc and a groove disposed within the inner surface, the groove having a diameter and a radius which accept the disc and permit rotation thereof;  whereby the disc can be inserted in the groove when a compressive force is applied to the disc and the disc is rotatably retained within the groove when the compressive force is released.  an actuator means for causing a predetermined angular rotation of the disc;  spring means for urging the disc to return to a predetermined position; and an x-ray beam limiter mounted to the disc.  a bearing retaining race having an inner surface characterized by an inner diameter, the inner surface having a groove with a diameter and radius disposed therein; and  a disc having a radiused outer edge, an aperture, and a slot extending between the aperture and the outer edge, and a bearing surface disposed on the outer edge, the disc with the bearing surface applied thereto having an uncompressed diameter, the uncompressed diameter being less than or equal to the diameter of the groove and which bearing surface is retained within the groove; whereby the disc can be inserted into the groove when a compressive force is applied thereto and which is rotatably mounted within the retaining race when the compressive force is removed.  a bearing retaining race having an inner surface characterized by an inner diameter and defining means for retaining a rotating assembly;  the rotating assembly rotatably mounted with respect to the race, the rotating assembly comprising  a support plate;  an actuator pin fastened to the disc and disposed within an aperture in the support plate, the aperture and pin defining first and second rotatable positions of the disc;  an actuator disposed with a bore contained with the support plate and in communication with the actuator pin, which actuator causes the disc to assume the first rotatable position when the actuator is depressed; and  a spring fastened to the disc and to the support plate which causes the disc to assume the second position when the actuator is not depressed.  applying a compressive force to a disc having a bearing surface applied to its outer edge;  inserting the disc into a groove disposed within the inner surface of a bearing retaining race;  removing the compressive force applied to the disc; and  fastening an x-ray beam limiter having at least first and second radiation passing portions to the disc;  fastening an actuator pin to the disc;  fastening a spring to the disc and to a support plate;  fastening the bearing retaining race to the support plate;  inserting an actuator in a bore within the support plate, which actuator is in communication with the actuator pin. 2. The x-ray beam limiter of claim 1 wherein the means for rotating comprises: 3. A sleeve bearing beam limiter comprising: 4. The beam limiter of claim 3 wherein the bearing surface comprises polytetrafluoroethylene. 5. The beam limiter of claim 4 wherein the disc comprises a fiberglass epoxy resin. 6. The beam limiter of claim 4 wherein the disc comprises a polyetherimide resin. 7. The beam limiter of claim 3 wherein the means for permitting and urging is an aperture within the disc and a slot extending from the aperture to the outer edge of the disc. 8. The beam limiter of claim 3 further comprising: 9. A sleeve bearing beam limiter comprising: 10. The beam limiter of claim 9 wherein the beating surface comprises polytetrafluoroethylene. 11. The beam limiter of claim 9 wherein the disc comprises a fiberglass resin. 12. The beam limiter of claim 9 wherein the disc comprises a polyetherimide resin. 13. An x-ray beam limiter comprising: 14. The x-ray beam limiter of claim 13 wherein the bearing surface comprises polytetrafluoroethylene. 15. The x-ray beam limiter of claim 14 wherein the means for retaining the a groove in the inner surface. 16. The x-ray beam limiter of claim 13 wherein the means for rotating comprises: 17. A method of assembling an x-ray beam limiter, the method comprising: 18. The method of claim 17, further comprising the steps of: 19. The method of claim 17 wherein the bearing surface comprises polytetrafluoroethylene. 20. The method of claim 17 wherein the disc comprises one of a fiberglass resin and a polyetherimide resin.