DE9103451U1 - X-ray machine with cover adhesive plate - Google Patents

Description

X-ray machine with cover adhesive plate

The invention relates to an X-ray device with a radiation unit in which a plastically deformable covering compound is used to cover areas that would otherwise be over-irradiated.

It is known that X-rays are absorbed very differently by different parts of the body. When examining an organ with a high absorption factor, the organs next to it with a low absorption factor are exposed to too much light, which can impair the contrast of the entire X-ray image. To improve the contrast of body regions with strong differences in absorption, X-ray machines, especially angiography machines, use special filters in the beam path of the X-ray machine's emitter unit, which can cover the overexposed areas.

The use of such filters, however, brings with it the problem that they cannot be adapted to the precise shape of the areas to be covered. In order to achieve the most precise possible delimitation of the organs to be examined, i.e. the most precise possible coverage of the areas to be covered, these can be covered not only with a filter, but also with a plastically deformable mass (plasticine), which is generally placed on the output window of the depth stop of the X-ray device's emitter unit. However, the mass can only be used if the X-ray device with the emitter unit is set to such an exposure position that the radiation is directed vertically upwards or up to a small angle to the vertical, because the mass, which remains in its original position in these positions of the device due to the normal adhesion between it and the output window, would fall down from this output window in the other exposure positions of the X-ray device.

The invention solves the problem of creating an X-ray device of the type mentioned at the beginning and of designing it in such a way that a mass covering the over-irradiated areas can be used in as many recording positions of the X-ray device as possible.

This is achieved according to the invention by an adhesive plate that can be inserted into the beam path of the emitter unit of the X-ray device and serves to hold the plastically deformable covering compound, which is permeable to X-rays over at least a partial surface and on one surface of which a plurality of pyramid-shaped or conical projections are distributed for holding the covering compound.

The adhesive plate according to the invention can be optimally permeable to X-rays over its entire extent or only over the irradiated area. In general, it is expedient if this area is designed as a circular or rectangular central area of the adhesive plate in accordance with the cross-sectional shape of the X-ray beam of the respective emitter unit.

In a preferred embodiment of the adhesive plate according to the invention, the projections are arranged on one surface of the adhesive plate only outside the plate area irradiated by the X-ray beam. In order to influence the X-rays as little as possible, it is also preferred in this case that the plate area of the adhesive plate irradiated by the X-ray beam is reduced to a minimum in terms of its plate thickness, this minimum being determined by the necessary strength of the adhesive plate.

The adhesive plate can also be provided with projections on one of its surfaces over the entire plate surface. In this case, however, the plate area through which the X-ray beam passes must be designed in such a way that

that the radiation is as uniform as possible across this plate area, i.e. the absorption factor is the same across this plate area and the projections are not reflected in the X-ray image. This can be achieved by designing the projections in the plate area of the adhesive plate through which the X-ray beam passes as hollow projections, the hollow space of which appears as depressions on the side of the plate facing away from the projections, so that the thickness of this plate area is constant across its entire extent.

The adhesive plate designed in this way according to the invention is inserted into the beam path of the radiation unit with projections facing outwards, i.e. on the plate surface facing away from the radiation unit. This ensures that the plastically deformable mass that is impermeable to X-rays, which can be adapted to the shape of the areas to be covered, can be easily arranged on the plate surface of the adhesive plate that has the projections and can be easily removed again after the examination. On the one hand, the projections on the adhesive plate increase the contact area between the adhesive plate and the mass pressed between the projections, which increases the adhesion between the plate surface and the mass.

On the other hand, the projections also bring about a positive connection, which also helps to hold the mass in place when the X-ray machine is in a position where the angle between the beam path and the vertical is large. If the adhesive plate is provided with projections over its entire plate surface, then those parts of the mass that protrude into the plate area irradiated by the X-ray beam and thus cover the area of the body that would otherwise be over-irradiated are also held in place with the help of the projections present here.

In order to achieve a sufficient wedge effect with the projections and at the same time increase the adhesion surface, i.e. the area between the mass and the adhesive plate, the

Projections on the plate surface of the adhesive plate are pyramid-shaped or conical. It is also preferred to choose the opening angle of the projections in such a way that they form as flat an angle as possible to the horizontal in almost all recording positions of the X-ray device.

A plastic material such as polycarbonate is preferred as the material for the adhesive plate, in particular the polycarbonate with the trade name Lexan. 10

The invention is explained in more detail below using exemplary embodiments with the aid of the drawing. The drawing shows:

Figure 1 is a plan view of a preferred embodiment of the adhesive plate according to the invention,

Figure 2 shows a cross section of the

adhesive plate according to the invention, and 20

Figure 3 shows a cross section of an adhesive plate according to the invention, which is provided with projections over its entire plate surface.

The adhesive plate 1 from Figure 1 has a rectangular shape and has a circular, central plate area 2 that is transparent to X-rays. With the exception of the plate area 2, projections 3 are distributed on one plate surface of the adhesive plate 1 in such a way that the number of projections 3 is approximately four per cm ² and their base width is approximately 5 mm. The projections 3 are shown as crosses in Figure 1 for illustrative purposes only. As can be seen from Figure 2, the projections 3 have the shape of a pyramid or a cone with an opening angle of between 40° and 50°. The pyramid shape is preferred because it can be produced more easily by machining. The adhesive plate 1 designed in this way can be cut into a shape in the

The holding device arranged in the radiation exit area of the emitter unit of the X-ray device can be inserted or pushed in such a way that the adhesive plate 1 is perpendicular to the radiation axis of the emitter unit. The plastically deformable mass that is impermeable to X-rays can then be pressed onto the adhesive plate 1, where it is held in place with the help of the projections 3 of the adhesive plate 1 in any recording position of the X-ray device. In its position on the adhesive plate 1, the mass covers part of the plate area 2 of the adhesive plate 1 that is permeable to X-rays. This ensures that those areas of the body that would be overexposed without a cover can be covered precisely with the help of the mass according to the shape of these areas of the body.

The adhesive plate 1 from Figure 1 can be permeable to X-rays over its entire extent. In this case, the circular plate area 2 represents the area of the adhesive plate 1 through which the X-ray beam of the emitter unit passes in its installed position.

Figure 3 shows a further embodiment of the adhesive plate 1, in which projections 3 are also present in the plate area 2 through which the X-ray beam passes. In this embodiment, the projections 3 are designed as hollow projections, i.e. in the plate side of the adhesive plate 1 facing the emitter unit, recesses 4 are formed that are adapted to the shape of the projections 3 protruding from the plate side facing away from the emitter unit. This ensures that the absorption factor is essentially constant over the entire surface of the adhesive plate 1 and the projections 3 are not reflected in the X-ray image.

In this embodiment it is also possible that depressions 4 are only present in the plate area 2.

Since in the embodiment of Figure 3 projections 3 are also present in the plate area 2, the mass can not only

be arranged in such a way that it protrudes from the other areas of the adhesive plate 1 into the plate area 2, i.e. covers an edge part of the plate area 2, but it is also possible to apply the mass only in a central part of the plate area 2 without it being able to come loose in inclined positions.

Claims (3)

7 Claims 1. X-ray device with a radiation unit and an adhesive plate (1) that can be inserted into the beam path of the radiation unit and serves to hold a plastically deformable covering compound, which is permeable to X-rays over at least a partial surface and on one surface of the plate a plurality of pyramid-shaped or conical projections (3) are distributed for holding the covering compound. 10 2. X-ray device according to claim 1, wherein the projections (3) are arranged outside the plate area (2) of the adhesive plate (1) through which the X-ray beam passes. 3. X-ray device according to claim 1, wherein projections (3) located in the plate area (2) of the adhesive plate (1) through which the X-ray beam passes are designed as hollow projections that bring about uniform irradiation of the plate area (2). VjS