DE4217201A1 - Digital scanner for X=ray images using linear CCD array - employs flicker-free source of visible light placed under transparencies which are scanned from above - Google Patents

Abstract

Halogen lamps (2) powered from a DC source in a housing (1) with a diffusely reflecting film (5) on its floor illuminate the X-ray pictures through two parallel matt glass plates (3,4). Cooling air is drawn in by a fan (6) and exhausted through a grating (7). The pictures are laid in three rectangular recesses (8-10) in the upper plate (4). A conventional CCD hand-scanner (12) slides over them between parallel guide rails (13). Its readings are output to a data transmission line (11). USE/ADVANTAGE - In medical practice, undistorted image data with high resolution can be reproduced in digital form with low-cost device.

Description

The invention relates to a device for digital acquisition of X-ray images, included send a fixed lighting device, a flat recording for what is to be captured X-ray and one on an electronic Data processing system connectable CCD image sensor, the lighting device and the CCD image sensor different sides of the shot for that X-ray image are provided.

The digitization of X-ray images is over desired for various reasons. In particular such digitization is particularly permitted X-ray images of their space-saving archi vation by means of digital image databases, quick access, their loading and Processing using electronic media as well as their short-term transmission by Email, for example to someone else Local resident specialists.

For reading X-ray images in electronics Data processing systems are currently CCD cameras used, i. H. Cameras with one flat CCD sensor. The image to be captured  is doing this during a single exposure process in the CCD chip of the camera read. The known generic Vorrich CCD cameras show three significant disadvantages: firstly, they have an extraordinarily high price that only Enables clinics to purchase them; Doctor practices or communities of practice in increasingly, especially to the Organisa tion and billing, via computer systems with Software programs for special patients databases, on the other hand, can use known, equipped with CCD cameras Devices for the digital acquisition of X-rays because of the poor cost Do not equip the benefit ratio. A desirable addition to patient data banks with digitally stored X-rays pictures can therefore not be realized will. Secondly, there is a CCD camera increasing optical towards the edge areas Distortion, which leads to the digi tal data of the picture, if not one undergo extensive correction, not the actual metric ratios of the correspond to the X-ray object. For the third well-known, equipped with CCD cameras Devices for the digital acquisition of X-ray images with an elaborate optical  Bench designed (or manufactured), which is a parallelism of the image plane with the flat CCD sensor guaranteed.

Another device for scanning u. a. of X-ray images is in DE-OS 37 13 009 described. With her the lighting device and a scanner, the an opto-elek not specified any further tronic converter includes, synchronous to each other moved relative to the image to be captured. That too capturing image is displayed in grid lines gropes.

The object of the present invention is to achieve this based on a generic device for digital acquisition of X-ray images create whose low manufacturing costs their Facilitate purchase through medical practices. The digital data of the captured X-ray image of this as distortion-free as possible and play back in high resolution.

According to the present invention, this is Task solved in that the lighting set up at least one flicker-free Includes light source and essentially one illuminance constant over time providing X-ray image and that  the CCD imager as relative to the through Photo-movable, one-dimensional CCD line is trained.

By using a flicker-free Light source in the lighting device, which is essentially constant over time Illuminance of the x-ray to be acquired provides picture, the line by line scanning of the data to be recorded X-ray image of usable digital data which leads to the grays of the subject to be captured X-ray image with a high degree of accuracy play back. In contrast, would a flickering light source leading to a correspondingly fluctuating illuminance of the x-ray image to be acquired, too useless when scanning it line by line data, since the brightness X-ray image values and brightness fluctuations in the lighting device would store. In known devices for digital acquisition of x-rays, at those of the one provided in the CCD camera flat CCD sensor over its entire Area during exactly the same period exposed, fluctuations in the Illuminance of the X-ray image not to the consequence that the recorded  Data is unusable. Thus, the Merk times after which the lighting device at least one flicker-free light source includes and one essentially in time constant illuminance of the to be detected provide an x-ray image Prerequisite for that with a relative moved to the X-ray image, out as a CCD line formed one-dimensional image recorders useful results can be achieved. Since the for numerous applications in Commercially available one-dimensional CCD image transducers are extremely inexpensive compared with CCD cameras with good optical quality, there is a considerable cost advantage the device according to the invention in comparison with known devices for digital Acquisition of X-ray images. Is also with one-dimensional, designed as a CCD line Image recorders, which are relative to the X-ray image be moved, their distortion-free Einle electronic data processing plant possible.

The fluctuation range of illuminance the lighting device is purpose moderately not more than ± 2% of the mean worth it. If the illuminance only within this band during the  Reading process changes, this remains unnoticed any adverse effects on quality and the usability of the in the electro African data processing system digital data of the x-ray image.

In a preferred embodiment of the inventions device according to the invention comprises the lighting device at least one with equals current operated light source, because in this Trap is the fluctuation range of intensity of the emitted light is naturally lower than when operating the light source with change electricity. As particularly useful in With regard to the cost of the invention The device has been made using a or several DC halogen lamps as light source of the lighting device posed.

To ensure a spatially uniform, diffuse Illumination of the x-ray image to be acquired ensure are in the lighting device of the device according to the invention expediently one or more of the provided the following measures: The lighting processing device comprises a plurality of Light sources that are as evenly as possible the X-ray image to be acquired are distributed.  

The lighting device comprises one or several focusing screens, which in the case of several are irradiated in succession, d. H. preferably parallel to each other between the Light sources and the X-ray to be acquired picture are arranged. Any light source Lighting device is one of the abge shone light diffusely scattering reflector assigned.

Depending on the heat development of the used Light sources can be useful Cooling device, in particular in the form of a Cooling fan.

Becomes a commercially available CCD image sensor Reflected light hand scanner used, d. H. a Scanner that is scanned by hand Submission is carried out and according to his Provision for the detection of opaque Templates is provided, can be invented device according to the invention due to the relative low cost of such Manufacture CCD image recorders particularly inexpensively. However, it must be ensured that the The wavelength of the reflected light hand-held scanner is not the main part of the wave spectrum or the Wavelength of the light source (s) the lighting device corresponds; rather should  the greatest possible distance between the specified wavelengths are observed. At of the device according to the invention expediently provided guide elements, along which the hand scanner is guided.

In the context of the invention, however, instead from commercially available incident light hand scanners too commercial flatbed scanner with a Stepper motor for moving the CCD image be used.

For common applications, a 256 grayscale handheld scanner with a resolution of 400 dpi as particularly expedient poses. Such an image sensor has at a relatively low acquisition cost adequate properties in digital Acquisition of usual X-ray images with regard on the resolution and gray value acquisition. Is such a handheld scanner with a red light LED as an internal incident light source equipped, so the lighting of the capturing x-ray image using custom white light halogen lamps for good results nits.

In the following the invention based on the Drawing explained in more detail. This shows the scheme  table is a perspective view of a preferred embodiment of the inventions device according to the invention.

The lighting device is housed in a housing 1 and comprises a more number of halogen lamps 2, which are connected to a DC voltage source (not shown ), and two parallel screens 3 and 4 . The bottom of the housing 1 is lined with a diffusely reflecting film 5 . In a side wall of the housing 1 , a cooling fan 6 is arranged, in the opposite side wall with a grille 7 provided cooling air discharge opening.

In the surface of the upper focusing screen 4 , three rectangular recesses 8 , 9 and 10 are incorporated, the dimensions of which correspond to the usual X-ray image formats. The top of the inserted x-ray image facing the hand scanner is flush with the surface outside the recesses, so that there is no local distance between the possibly larger CCD line and a small format x-ray image format. X-ray images inserted into these depressions can therefore be acquired by means of the device shown, without the risk that they will change their position during the reading.

The surface of the upper focusing screen is designed to be non-transparent in the areas outside the depressions, in particular due to blackening. As a result, the x-ray image to be read in can be scanned with a high set sensitivity because the light emitted by the lighting device does not strike the CCD line anywhere without being first attenuated by the x-ray image. Alternatively, it is also possible to provide variable, opaque shielding strips which are placed on the upper focusing screen 4 , so that the size of the illuminated area can be adjusted.

On the surface of the upper focusing screen 4 , the commercially available incident light hand scanner 12 connected via a data transmission line 11 to a — not shown — electronic data processing system can be moved horizontally. To guide it, two parallel guide rails 13 are provided on the upper focusing screen 4 .

Claims (14)

1. Device for digital acquisition of X-ray images, comprising a stationary lighting device, a flat recording for the X-ray image to be recorded and a CCD image sensor that can be connected to an electronic data processing system, the lighting device and the CCD image sensor on different sides of the recording for the An X-ray image is provided, characterized in that the illumination device comprises at least one flicker-free light source and provides an essentially temporally constant illuminance of the X-ray image to be acquired and that the CCD image sensor is designed as a one-dimensional CCD line that is movable relative to the X-ray image. 2. Device according to claim 1, characterized, that the temporal fluctuation range of Illuminance of the to be recorded X-ray image not more than ± 2% of the Mean value.   3. Device according to claim 1, characterized, that the lighting device at least a DC powered light source includes. 4. The device according to claim 3, characterized in that at least one DC halogen lamp ( 2 ) is provided as the light source. 5. The device according to claim 1, characterized, that the lighting device a more number of light sources included. 6. The device according to claim 1, characterized in that the lighting device comprises a plurality of successively irradiated focusing screens ( 3 , 4 ). 7. The device according to claim 1, characterized in that the light sources of the lighting devices diffusely scattering reflectors ( 5 ) are assigned. 8. The device according to claim 1, characterized in that a commercially available incident light scanner ( 12 ) is provided as a CCD image sensor. 9. The device according to claim 8, characterized, that the wavelength of the internal light source of the reflected light scanner not to that Main part of the wave spectrum or the Wavelength of the lighting device corresponds. 10. The device according to claim 8, characterized, that a commercially available incident light hand scanner is used. 11. The device according to claim 10, characterized in that guide elements ( 13 ) are provided for guiding the hand scanner. 12. The device according to claim 8, characterized, that a flatbed scanner is provided with a stepper motor to move the CCD line.   13. The apparatus according to claim 1, characterized in that it has recesses ( 8 , 9 , 10 ) for taking X-ray images, the depth of the recesses substantially corresponding to the thickness of an X-ray image. 14. The apparatus according to claim 13, characterized in that the vicinity of the recesses ( 8 , 9 , 10 ) is non-transparent.