Patent Number: 
Section: claims

1. Apparatus for use in dentistry for producing real time fluoroscopic images, said apparatus comprising: a housing for emitting x-rays or gamma rays for passage through a dental region of a patient;  an image receptor assembly comprising a fluoroscopic image receptor positioned to receive the x-rays or gamma rays after passage thereof through the dental region of the patient to produce a visible light image of said dental region, a fiber optic system connected to said image receptor to transmit the light image, a charge coupled device connected to said fiber optic system to produce a high resolution video signal from said light image;  a rotatable C-arm assembly for holding said housing and said image receptor assembly;  a control panel for controlling and observing operation of the apparatus;  three mechanical arms connecting said housing and said control panel;  an intraoral image receptor that can be positioned to receive the x-rays or gamma rays after passage thereof through the dental region of the patient;  a plastic holder device for positioning said intraoral image receptor; and  a monitor for receiving said video signal to display in real time the dental region of the patient. 2. The apparatus as claimed in  claim 1 , wherein said C-arm assembly comprises said housing at one end and said fluoroscopic image receptor at an opposed end; said C-arm assembly comprising a telescopic straight section to vary a distance of said one end of the C-arm assembly relative to said other end; said straight section including a lock for locking said telescopic section once a distance is selected; said one end of said C-arm assembly including a hinge and a hinge lock. claim 1 3. The apparatus as claimed in  claim 2 , wherein said housing comprises a window at one end, an emitter positioned next to said window, said emitter including a beam limiter, an x-ray tube including an anode and a cathode, a high voltage power source feeding said x-ray tube through a high voltage connector assembly, an electronic power amplifying system positioned next to said high voltage power source, electronic power amplifying system connected by a low voltage cable to said control panel, and a protective lead plastic cover surrounding said housing. claim 2 4. The apparatus as claimed in  claim 3 , wherein said image receptor assembly further comprises a window at one end, said window positioned to allow passage of said x-rays to said fluoroscopic image receptor, an image amplifier assembly which receives the transmitted light image from said fiber optic system, optical lenses interposed between said fiber optic system and said image amplifier assembly, a cable which transmits said video signal from said charge coupled device to a computer monitor and/or television and VCR, and a fiber optic connector which receives an image from said intraoral image receptor. claim 3 5. The apparatus as claimed in  claim 4 , wherein said control panel comprises a housing including a microprocessor, said microprocessor connected to an on/off switch, digital controls, a kilovoltage level control, an amperage level control, exposure timing circuits, exposure time alarm control including visual and auditory signals, and a LCD panel, said housing including a pedal cable, a hand control cable, and a power supply emerging therefrom, said pedal cable including an activator pedal for use in fluoroscopic mode, said hand control cable including a hand activator control for use in conventional radiographic mode, said housing including a plastic holder for holding said hand control cable when not in use. claim 4 6. The apparatus as claimed in  claim 5 , wherein said control panel housing is connected to a wall by four screws. claim 5 7. The apparatus as claimed in  claim 5 , wherein said control panel housing comprises an attachment tube connected to an attachment device, said attachment device connects to a portable table which includes a lead weight for balance and four legs having four wheels for portability of said control panel. claim 5 8. The apparatus as claimed in  claim 6 , wherein said activator pedel has two pedal controls, one for activation of said apparatus in fluoroscopic mode, another for activation of recording of a procedure. claim 6 9. The apparatus as claimed in  claim 8 , wherein one arm of said three mechanical arms is connected to said control panel, another arm of said three mechanical arms is connected to said housing, wherein said three mechanical arms are connected to each other; said mechanical arms being able to extend, fold and move in various directions. claim 8 10. The apparatus as claimed in  claim 9 , wherein said intraoral image receptor comprises a fluorescent screen at one end which receives said x-rays after passage through the dental region of the patient, a fiber optic plate coupling which receives an image from said fluorescent screen, a fiber optic cable which transmits said image to said fiber optic connector of said image receptor assembly, and a lead foil backing positioned at an opposed end, in relation to said fluorescent screen, to reduce radiation exposure to the patient. claim 9 11. The apparatus as claimed in  claim 10 , wherein said plastic holder device comprises an intraoral image receptor holder and a clip. claim 10 12. Apparatus for use in dentistry for producing real time fluoroscopic images, said apparatus comprising: a housing for emitting x-rays for passage through a dental region of patient, said housing comprises a window at one end, an emitter positioned next to said window, said emitter including a beam limiter, an x-ray tube including an anode and a cathode, a high voltage power source feeding said x-ray tube through a high voltage connector assembly, an electronic power amplifying system positioned next to said high voltage power source, said electronic power amplifying system connected by a low voltage cable to said control panel, and a protective lead plastic cover surrounding said housing;  an image receptor assembly comprising a fluoroscopic image receptor positioned to receive the x-rays or gamma rays after passage thereof through the dental region of the patient to produce a visible light image of said dental region, a window at one end, said window positioned to allow passage of said x-rays to said fluoroscopic image receptor, a fiber optic system connected to said image receptor to transmit the light image to an image amplifier assembly, optical lenses interposed between said fiber optic system and said image amplifier assembly, a charge coupled device connected to said fiber optic system to produce a high resolution video signal from said light image; a cable which transmits said video signal from said charge coupled device to a computer monitor and/or television and VCR, and a fiber optic connector which receives an image from an intraoral image receptor;  a rotatable C-arm assembly comprising said housing at one end and said image receptor assembly at an opposed end; said C-arm assembly comprising a telescopic straight section to vary a distance of said one end of the C-arm assembly relative to said other end; said straight section including a lock for locking said telescopic section once a distance is selected; said one end of said C-arm assembly including a hinge and a hinge lock;  a control panel comprising a housing including a microprocessor, said microprocessor connected to an on/off switch, digital controls, a kilovoltage level control, an amperage level control, exposure timing circuits, exposure time alarm control including visual and auditory signals, and a LCD panel, said housing including a pedal cable, a hand control cable, and a power supply emerging therefrom, said pedal cable including an activator pedal for use in fluoroscopic mode, said hand control cable including a hand activator control for use in conventional radiographic mode, said housing including a plastic holder for holding said hand control cable when not in use;  three mechanical arms connected to each other, one arm of said three mechanical arms is connected to said control panel, another arm of said three mechanical arms is connected to said housing; said mechanical arms being able to extend, fold and move in various directions;  said intraoral image receptor comprising a fluorescent screen at one end which receives said x-rays after passage through the dental region of the patient, a fiber optic plate coupling which receives an image from said fluorescent screen, a fiber optic cable which transmits said image to said fiber optic connector of said image receptor assembly, and a lead foil backing positioned at an opposed end of said fluorescent screen to reduce radiation exposure to the patient; and  a plastic holder device comprising an intraoral image receptor holder and a clip. 13. A method of producing real time images of a dental region of a patient, said method comprising: (a) selecting a fluoroscopic operating mode on a control panel,  (b) emitting x-rays from an emitter for passage through a dental region of a patient;  (c) placing an image receptor opposite said emitter to receive the x-rays after passage thereof through the dental region of the patient to produce a visible light image of said dental region,  (d) transmitting said visible light image through a fiber optic system from said image receptor to a charge coupled device to produce a high resolution video signal from said image;  (e) supporting said emitter and said image receptor on a C-arm assembly which is rotatably connected to a housing;  (f) controlling operation from the control panel which is connected to said housing by three mechanical arms which enable the C-arm assembly to be rotatable and also movable in opposite directions along two perpendicular axes so that the emitter and image receptor can be precisely placed at said dental region;  (g) positioning said image receptor and said emitter by a plastic holder on said C-arm assembly; and  (h) receiving said video signal to display on a monitor, in real time, the dental region of the patient. 14. The method as claimed in  claim 13 , comprising operating said emitter at a voltage within a range of 40 to 75 kilovolts and a microamperage between 50 to 300 microamperes. claim 13 15. The method as claimed in  claim 13 , comprising: claim 13 placing said emitter and said receptor at the dental region of the patient by moving said C-arm assembly and said housing under the control of said three mechanical arms. 16. The method as claimed in  claim 13 , wherein: claim 13 said positioning of the image receptor with respect to the emitter comprises the steps of unlocking a straight telescoping section of the C-arm assembly, adjusting telescoping of said straight section to adjust spacing of said emitter and said receptor and relocking the straight section. 17. The method as claimed in  claim 13 , wherein: claim 13 said positioning of the image receptor with respect to the emitter comprises the steps of unlocking a hinge lock on one side of the C-arm assembly, pivoting one end of the C-arm assembly by said plastic holder to adjust the position of the image receptor and relocking said hinge lock. 18. The method as claimed in  claim 13 , comprising: claim 13 selecting said fluoroscopic mode by operating a foot control pedal and selectively recording the display on the monitor of the dental region of the patient by operating a second foot control pedal. 19. The method as claimed in  claim 13 , comprising forming said C-arm assembly as a plurality of connected straight sections. claim 13 20. The method as claimed in  claim 13 , wherein said receptor is formed as a fluoroscopic image receptor to produce said visible image of said dental region or as an intraoral image receptor to produce an X-ray image which is connected by a small fluorescent screen to produce said visible image. claim 13