DE19850608A1 - X-ray picture evaluation unit, e.g. for the X-ray examination of humans, animals or objects, comprises a carrier which produces characteristic changes when exposed to X-rays, which are picked up by a detection unit. - Google Patents

Abstract

An X-ray picture transducer for evaluating information obtained following the X-ray examination of people, animals or components, comprises a carrier (4) which is exposed to the X-rays and which produces a characteristic changes. The carrier is in the form of a film, especially a plastic film. A detection unit probes the film surface to pick up the characteristic changes.

Description

State of the art

The invention relates to an X-ray image converter according to the Preamble of claim 1 and of a method for Taking x-rays according to the generic term of Claim 11.

In medicine, X-rays are used for diagnosis used. Also in the field of technology X-rays used for testing purposes, for example Material testing. For this purpose, the object to be examined is the Exposed to x-rays. Those exiting the object Rays are made with the help of an X-ray image converter added. As X-ray image converters are, for example X-ray films are known on which the contrasted negative Projection image is made immediately visible. About that are also coated with barium halide crystals Known polyester films that after exposure to the  X-rays are scanned by a laser beam and one corresponding to the intensity of the X-rays Send out light pulses, which after digital image processing in the Computer can be evaluated and printed. A further possibility of visualizing the x-ray image offers the use of the fluorescence of different substances in the X-ray light.

A disadvantage of the known ones X-ray image converters that for adequate evaluation and visualization of very high-energy X-rays must be used. Are going to take up the of the Crystal coating emits light pulses, for example CCD Cameras or other detection systems used, so there is in the known methods also the disadvantage that these be damaged by the high-energy X-rays.

The invention and its advantages

In contrast, the invention X-ray image converter with the characteristic features of the Claim 1 and the inventive method for Taking x-rays with the characteristic ones Features of claim 11 the advantage that for evaluation a carrier is used on the surface of the striking X-rays a detectable change in the Carrier causes. The evaluation is therefore not carried out optically but electrically and has the advantage that it is much more sensitive than the known methods and Image converter. For taking a high-contrast image Even the smallest voltage differences are sufficient. These will on the carrier used by much weaker X-ray radiation reaches that of the known methods and X-ray imaging is necessary.  

The carrier can be electrical before exposure to X-rays be charged to a sufficient for evaluation Guarantee number of free load carriers. However, this is not absolutely necessary, because depending on the carrier material and Intensity of the x-rays caused by the x-rays released charge carriers already for a high-contrast X-ray image is sufficient.

According to an advantageous embodiment of the invention X-ray image converter, the carrier consists of an insulating, electrically well-chargeable material in particular Plastic film. This material has the advantage that already at low radiation energies a change in Charge carriers occur, but these charge carriers do not immediately flow off again. The evaluation of the change in Load carriers are therefore within a certain time Exposure to X-rays possible.

According to a further advantageous embodiment of the invention is the back of the carrier with a weakly electric conductive coating. This leads to the on the plastic film specially applied or solely by the X-rays released after the charge carrier Scanning of the carrier can flow again.

According to a further advantageous embodiment of the invention is with the front of the carrier in different places a punctiform coating. The size of the individual coating points is in the range of Resolution of the X-ray image taken. The radiation of the X-ray light leads to an individual charge Coating points. This is how the uncoated environment of the points an evaluable Voltage difference.

According to a further advantageous embodiment of the invention is a proof of the change in charge carriers  Detection device movable relative to the carrier is provided. The movement between the detection device and the carrier takes place parallel to the support surface in one or two directions. After exposure to the X-rays, the wearer is replaced by the Detection device scanned. Because the backing material is isolating, the sampling can take place within a time interval after exposure to X-rays. The The detection device is not directly the X-ray radiation exposed and is therefore not damaged by this.

According to a further advantageous embodiment of the invention is in the detection device as a detector Field effect transistor provided. The electric field of the In this case, the carrier surface takes the place of the gate Control electrode for influencing the current between Source and sink. This influence is taken up and evaluated. The carrier surface can be scanned here done without contact.

According to a further advantageous embodiment of the invention is the detection device in two directions over the carrier movable. The carrier itself is arranged stationary. The The detector of the detection device can be punctiform be trained. Are several detectors side by side arranged so that one expanded in one dimension Detection device is created, it is sufficient to use this in one Direction to move relative to the carrier.

According to a further advantageous embodiment of the invention is the carrier, for example the plastic film, on rollers or Rolls stored so that the carrier relative to Detection device can be moved.

According to a further advantageous embodiment of the invention there are several for recording spatially resolved information Beams in different spatial positions relative to the  arranged object to be recorded. In this case, too multiple X-ray sources can be provided.

According to a further advantageous embodiment of the invention the one recorded by the detection device Information evaluated with the help of a computer and displayed. The X-ray images can be saved in the computer or printed out on the printer.

Further advantages and advantageous configurations of the Invention are the following description, the drawing and removable from the claims.

drawing

In the drawing is an embodiment of the invention shown and described in more detail below. It shows:

Fig. 1 shows a schematic representation of an arrangement of X-ray source, person to be examined and X-ray image converter.

Description of the embodiment

Fig. 1 shows an arrangement of X-ray source 1 and X-ray image converter 2 for receiving X-ray images of a person 3. In the X-ray image converter, a plastic film 4 is provided as the carrier, which is arranged on two rollers 5 . After the X-rays have acted on the plastic film 4 , it is rolled over the rollers and moved past a detection device 6 . The detection device 6 is not directly exposed to the X-ray radiation and therefore cannot be damaged by it.

The detection device does not have one in the drawing detectable elongation perpendicular to the image plane and therefore does not have to be moved over the plastic film. The detection device can be made via appropriate lines be connected to a computer with the help of which sampled voltage differences can be evaluated.

Depending on the intensity of the X-rays and the nature of the plastic film, a charge carrier difference can occur not only on the side of the plastic film facing the X-ray source 1 , but also on the area of the plastic film 4 that faces away from the X-ray source. Both areas of the plastic film can be used for the evaluation.

All in the description, the following claims and The features shown in the drawing can be both individually as well as in any combination with each other be essential to the invention.  

List of reference numbers

1

X-ray source

2nd

X-ray image converter

3rd

person

4th

Plastic film

5

roller

6

Detection device

Claims (9)

1. X-ray image converter for evaluating information obtained during the x-ray examination of people ( 3 ), animals or objects with a carrier ( 4 ) on which the x-ray radiation strikes and triggers a characteristic change, characterized in that
that a film, in particular a plastic film, is provided as the carrier ( 4 ), and
that a detection device is provided to detect the characteristic change, which scans the surface of the film during a relative movement with respect to the film. 2. X-ray image converter according to claim 1, characterized in that rollers ( 5 ) or rollers for moving the film ( 4 ) are provided in one direction relative to the detection device ( 6 ). 3. X-ray image converter according to claim 1 or 2, characterized in that the back of the film ( 4 ) is provided with a weakly electrically conductive coating. 4. X-ray image converter according to one of the preceding claims, characterized in that the front of the carrier ( 4 ) is provided at various points with a punctiform coating. 5. X-ray image converter according to one of the preceding claims, characterized in that a field effect transistor is provided as a detector in the detection device ( 6 ). 6. X-ray image converter according to one of the preceding claims, characterized in that the detection device ( 6 ) is movable in one or two directions over the carrier ( 4 ). 7. X-ray image converter according to one of the preceding Claims, characterized in that for inclusion spatially resolved information multiple carriers in different spatial positions relative to the object to be recorded are arranged. 8. X-ray image converter according to one of the preceding Claims, characterized in that the of Detector recorded information using of a computer is evaluated and displayed. 9. A method for taking x-ray images during the x-ray examination of people, animals or objects characterized by the following method steps,
that the object to be examined is irradiated with X-rays,
that the X-ray radiation emitted or transmitted by the object is collected with the aid of a carrier ( 4 ),
that the change in the charge carriers on the surface of the carrier ( 4 ) is determined for evaluation.