Abstract:
The present invention is directed to a modular scanning apparatus that can be advantageously used in both computed radiology devices and fixed scanning direct radiology devices. The scanning assembly advantageously utilizes a light collecting and measuring assembly having highly reflective surfaces in conjunction with a novel optical assembly within a light box type enclosure to enable a modular scanning and reading assembly that is compact, robust and also scaleable. The present invention further discloses novel computed radiography and direct radiography devices that utilize the modular scanning assembly to provide radiology devices that are highly robust and efficient and yet also simple to build, maintain, service and repair.
Abstract:
A computed tomography system, capable of tomosynthesis, includes an inner circular gantry and an outer gantry within a housing assembly. A plurality of spaced apart radiology imaging plates are located along the inner gantry and adapted as x-ray detectors. An x-ray source is secured to the outer gantry and adapted to shoot x-rays between the spaced apart detectors and onto the patient or object while being rotated along the gantry and relative to the patient. A radiography device is moveably coupled to the inner gantry and adapted to scan and read the radiology plates and provide the data to an image processing computer. The x-ray source coupled to the outer gantry moves relative to the imaging plates such that a large number of projections can be exposed and thereafter scanned by the integral radiology device.
Abstract:
A scanning apparatus that can operate as both a computed and direct style radiography device. In the computed radiography mode, an internal imaging plate is removed or maintained inwardly within the housing assembly to allow a cassette handling mechanism holding a removable imaging plate to pass adjacent the scanning head. In the direct radiography mode, the cassette handling mechanism is retracted and the internal imaging plate is moved outward from the within the housing such that it is located adjacent the reading slot of the scan head assembly. In both modes of operation, the imaging plate being used is maintained adjacent the scan head while the scan head and imaging plate surface are moved relative to each other allowing the scanning and acquisition of the image data stored on the plate.
Abstract:
A computed tomography system, capable of tomosynthesis, includes an inner circular gantry and an outer gantry within a housing assembly. A plurality of spaced apart radiology imaging plates are located along the inner gantry and adapted as x-ray detectors. An x-ray source is secured to the outer gantry and adapted to shoot x-rays between the spaced apart detectors and onto the patient or object while being rotated along the gantry and relative to the patient. A radiography device is moveably coupled to the inner gantry and adapted to scan and read the radiology plates and provide the data to an image processing computer. The x-ray source coupled to the outer gantry moves relative to the imaging plates such that a large number of projections can be exposed and thereafter scanned by the integral radiology device.
Abstract:
A method and apparatus to permit digital capture of images from both transmissive and reflective media. A laser or other source of excitation radiation is coupled to a mounting surface to be in optical communication with a reading window when installed on a scanner. A rear casing is coupled to the monitoring surface to engage a housing of a scanner, the housing defining the reading window.
Abstract:
A wall mounted scanner for large and small format transmissive X-ray films and any type of transmissive media, that incorporates a viewing light box into the case to view the media before and after scanning. Transmissive media are defined as any type of media that passes light through it, specifically images on transparent film. Scanning light source can also be moved so that the unit can scan reflective media. The scanner has an external light source that shines through the media onto a lens/CCD camera. The media is transported under the light source for scanning and then it is brought back to the viewer for immediate comparison to the scanned image which is displayed on the computer monitor. The entire scanner is mounted vertically. Scanning and viewing is done in the vertical plane to allow for minimal contact between the media and scanner. It is possible to pivot the light source below the media to be scanned in order to scan reflective media.
Abstract:
A portable radiographic imaging system allowing multiple X-rays to be taken from various exposure positions and perspectives without having to move or reposition the patient. The imaging system may include a direct radiography system providing immediate processing and availability of the X-ray images that allows for the immediate evaluation and diagnosis. The imaging system includes a diagnostic imaging table for supporting and positioning a patient. A radiography imaging system is coupled to the imaging table and can be positioned as desired depending on the desired position and perspective of the X-Rays so as to receive the X-rays. The radiography device processes the X-ray energy into images that can be displayed in an integral monitor to allow for the immediate triage and diagnosis of the patient or product.
Abstract:
The present invention is directed to a modular scanning apparatus that can be advantageously used in both computed radiology devices and fixed scanning direct radiology devices. The scanning assembly advantageously utilizes a light collecting and measuring assembly having highly reflective surfaces in conjunction with a novel optical assembly within a light box type enclosure to enable a modular scanning and reading assembly that is compact, robust and also scaleable. The present invention further discloses novel computed radiography and direct radiography devices that utilize the modular scanning assembly to provide radiology devices that are highly robust and efficient and yet also simple to build, maintain, service and repair.
Abstract:
The invention provides a cassette enclosure having an energy translucent portion for supporting an imaging plate. The cassette is adapted for use with a computed radiography device wherein an image set forth on the imaging plate can be scanned without removing the plate from the cassette.
Abstract:
Embodiments include a method and apparatus for improving the reusability of a computed radiography (CR) plate by housing it in a cassette. The CR plate remains in the cassette during scanning. The embodiments of the method and apparatus improve the reusability of the CR plate.