Patent Number: 063242583
Section: claims

1. An apparatus for making combined transmission and emission recordings of an object using radiation, the apparatus comprising: a radiation source;  a camera sensitive to radiation from the radiation source and to emitted radiation from the object, the radiation and the emitted radiation having different energy levels;  a collimator arranged between the radiation source and the camera;  radiation-directing means which ensure that the radiation of the radiation source is radiated in a planar radiation beam so that the camera is illuminated according to a substantially line-shaped irradiation pattern;  and means for moving the line-shaped irradiation pattern over the camera in a direction substantially perpendicular to the longitudinal direction thereof;  wherein the collimator is fixed relative to the camera; and  wherein the collimator is a focused fan beam collimator.  wherein the radiation source is a line-shaped radiation source, whose longitudinal direction is directed parallel to the convergence line of the collimator;  wherein said plane in which the radiation is radiated contains the convergence line of the collimator; and  wherein the collimator is a focused cone beam collimator.  wherein the shielding extends around the radiation source; and  wherein the shielding is rotatable with regard to the convergence line of the collimator.  wherein the shielding extends around the radiation source; and  wherein the combination of the radiation source and the shielding is rotatable with respect to the convergence line of the collimator.  wherein the radiation source is a point-shaped radiation source, which is arranged adjacent the convergence line of the collimator;  wherein said plane in which the radiation is radiated is substantially perpendicular to the convergence line of the collimator; and  wherein means are present for moving said plane in a direction parallel to the convergence line of the collimator.  wherein the shielding extends around the radiation source; and  wherein the combination of the radiation source and the shielding is movable along the convergence line of the collimator.  wherein the first camera is provided with a first fan beam collimator, whose focal line is located on the side of the first fan beam collimator directed to the second camera;  wherein the second camera is provided with a second fan beam collimator, whose focal line is located on the side of the second fan beam collimator directed to the first camera;  wherein the focal line of the first fan beam collimator and the focal line of the second fan beam collimator are mutually parallel; and  wherein a first point source is movable along the focal line of the first fan beam collimator and wherein a second point source is movable along the focal line of the second fan beam collimator.  wherein the first camera is provided with a first cone beam collimator, whose focal point is located on the side of the first cone beam collimator directed to the second camera;  wherein the second camera is provided with a second cone beam collimator, whose focal point is located on the side of the second cone beam collimator directed to the first camera;  wherein adjacent the focal point of the first cone beam collimator a first point source is arranged, which is associated with a first shielding element with a first movable passage slit; and  wherein adjacent the focal point of the second cone beam collimator a second point source is arranged, which is associated with a second shielding element with a second movable passage slit;  wherein the first passage slit and the second passage slit are mutually parallel; and  wherein the first passage slit is movable in a direction perpendicular to the first passage slit, and wherein the second passage slit is movable in a direction perpendicular to the second passage slit.  a control device for computing whether sensed radiation is emitted radiation or source radiation.  a radiation source;  a camera sensitive to radiation from the radiation source and to emitted radiation from the object, the radiation and the emitted radiation having different energy levels;  a collimator arranged between the radiation source and the camera;  radiation-directing means which ensure that the radiation of the radiation source is radiated in a planar radiation beam so that the camera is illuminated according to a substantially line-shaped irradiation pattern; and  means for moving the line-shaped irradiation pattern over the camera in a direction substantially perpendicular to the longitudinal direction thereof;  wherein the collimator is fixed relative to the camera; and  wherein the collimator is a focused fan beam collimator.  a control device for computing whether sensed radiation is emitted radiation or source radiation according to energy level.  a radiation source;  a camera sensitive to radiation from the radiation source and to emitted radiation from the object, the radiation and the emitted radiation having different energy levels;  a collimator arranged between the radiation source and the camera;  radiation-directing means which ensure that the radiation of the radiation source is radiated in a planar radiation beam so that the camera is illuminated according to a substantially line-shaped irradiation pattern; and  means for moving the line-shaped irradiation pattern over the camera in a direction substantially perpendicular to the longitudinal direction thereof;  wherein the collimator is fixed relative to the camera; and  wherein the collimator is a focused cone beam collimator.  wherein the radiation source is a point=shaped radiation source, which is arranged adjacent to the convergence point of the collimator; and  wherein said plane in which the radiation is radiated contains the convergence point of the collimator; and  which means are present for rotating said plane about an axis of rotation lying in that plane, which axis of rotation intersects the convergence point of the collimator.  a shielding which is provided with a movable passage slit.  wherein the shielding extends around the radiation source; and  wherein the shielding is rotatable about the axis of rotation.  wherein the radiation source is associated with a shielding element provided with a passage slit, the passage slit of said shielding element being movable with respect to the radiation source.  wherein the first camera is provided with a first cone beam collimator, whose focal point is located on the side of the first cone beam collimator directed to the second camera;  wherein the second camera is provided with a second cone beam collimator, whose focal point is located on the side of the second cone beam collimator directed to the first camera;  wherein adjacent the focal point of the first cone beam collimator a first point source is arranged, which is associated with a first shielding element with a first movable passage slit; and  wherein adjacent the focal point for the second cone beam collimator a second point source is arranged, which is associated with a second shielding element with a second movable passage slit;  wherein the first passage slit and the second passage slit are mutually parallel; and  wherein the first passage slit is movable in a direction perpendicular to the fist passage slit, and wherein the second passage slit is movable in a direction perpendicular to the second passage slit.  a radiation source;  a camera sensitive to radiation from the radiation source and to emitted radiation from the object, the radiation and the emitted radiation having different energy levels;  a collimator arranged between the radiation source and the camera;  radiation-directing means which ensure that the radiation of the radiation source is radiated in a planar radiation beam so that the camera is illuminated according to a substantially line-shaped irradiation pattern; and  means for moving the line-shaped irradiation pattern over the camera in a direction substantially perpendicular to the longitudinal direction thereof;  wherein the collimator is fixed relative to the camera; and  wherein the collimator is a focused cone beam collimator. 2. The apparatus according to claim 1, wherein the collimator has at least one convergence line; 3. The apparatus according to claim 2, wherein the radiation-directing means comprises a shielding, which is provided with a movable passage slit. 4. The apparatus according to claim 2, wherein the line-shaped radiation source substantially coincides with the convergence line of the collimator; 5. The apparatus according to claim 2, wherein the line-shaped radiation source is spaced from the convergence line of the collimator; 6. The apparatus according to claim 1, wherein the collimator has at least one convergence line; 7. The apparatus according to claim 6, wherein the radiation-directing means comprises a shielding which is provided with a movable passage slit. 8. The apparatus according to claim 7, wherein the point-shaped radiation source lies substantially on the convergence line of the collimator; 9. The apparatus according to claim 1, wherein a first camera and a second camera are arranged at an angle with respect to each other, which angle is about 90.degree.; 10. The apparatus according to claim 1, wherein a first camera and a second camera are arranged at an angle with respect to each other, which angle is about 90.degree.; 11. The apparatus according to claim 1, the apparatus further comprising: 12. An apparatus for making transmission and/or emission recordings of an object using radiation, the apparatus comprising: 13. The apparatus according to claim 12, the apparatus further comprising: 14. An apparatus for making combined transmission and emission recordings of an object using radiation, the apparatus comprising: 15. The apparatus according to claim 14, wherein the collimator is a cone beam collimator with a single convergence point; 16. The apparatus according to claim 15, wherein the radiation-directing means comprises: 17. The apparatus according to claim 16, wherein the point-shaped radiation source is located substantially at the convergence point of the collimator; 18. The apparatus according to claim 14, wherein the radiation source is stationarily arranged adjacent the focal point of the cone beam collimator; and 19. The apparatus according to claim 18, wherein the shielding element is a plate-shaped shielding element that is linearly movable in a direction perpendicular to said passage slit. 20. The apparatus according to claim 19, wherein the shielding element is a shielding element extending around the radiation source, which shielding element is rotatable about an axis of rotation extending through the radiation source, which axis of rotation is parallel to said passage slit. 21. The apparatus according to claim 14, wherein a first camera and a second camera are arranged at an angle with respect to each other, which angle is about 90.degree.; 22. The apparatus according to claim 18, wherein the shielding element is arranged before the radiation source, which shielding element is provided with a substantially point-shaped passage opening, and wherein said point-shaped passage opening is located adjacent the focal point of a cone beam collimator. 23. An apparatus for making transmission and/or emission recordings of an object using radiation, the apparatus comprising: