DE964017C - Aperture device with lamellas rotatable around their longitudinal axis for image layers in X-ray devices - Google Patents

Description

Aperture device with slats each rotatable about their longitudinal axis for image layers in X-ray devices The invention is based on the object X-ray devices with a star beam diaphragm assigned to the image layer, as an option to enable exposure and covering of the image layer.

According to the invention, it is therefore proposed in a diaphragm device with lamellas that can be rotated around their longitudinal axis for image layers in X-ray machines to dimension the slats in such a way and to arrange them so that they are adjustable around their longitudinal axis, that by opening the slats the radiation passes and by closing the slats the complete covering of the image layer is enabled, so that the device is optional able to act both as anti-scatter and as a masking screen.

It is useful here to put the lamellae in at least two layers to be arranged one above the other in such a way that the cover device through the slats of the two layers is formed.

Although it is known in an anti-scatter diaphragm device for Image layers in x-ray machines around the lamellae of the diaphragm, their longitudinal axis to be rotated: With these well-known Aperture devices However, the movability of the slats only serves to move the slats in the direction to adjust to the focal point of the X-ray tube. With this arrangement is therefore no complete closure of the blind slats intended.

According to the invention, the diaphragm is preferably used in an X-ray examination apparatus Use that has image layers arranged in two planes, one of which each X-ray source are assigned. The difficulty here is to obtain the X-ray film, which is not used during the recording in a plane., against scattered radiation shield. Normal anti-scatter screens are not sufficient for this. You can although the X-ray light coming from the unassigned tube is completely blocked, but not that of the subject, d. H. outgoing from the patient's body Intercept stray light.

For this purpose it is necessary to open the image opening of a recording device; when the examination device works for the other level, completely after fade out in all directions. In the interest of your quick way of working and for Avoiding vibrations of the devices, however, it is generally disadvantageous to use a one-piece cover, be it a sliding, be it that it is a pivoting screen, for which in general, too there is not enough space available.

It is known per se to use cross grids for this purpose. However, these screens only hold back some of the stray radiation from the film.

For continuous operation of the examination device in which the radiation sources assigned to the two image layers alternately in a pulsed manner the slats can be operated continuously. rotate.

Another possibility is that the slats around a certain Angular amount, preferably go °, are arranged and mounted swinging.

In all. Cases known per se means provided be to the grid on the X-ray image by moving the entire aperture: invisible close.

In the drawing is an: embodiment of the subject matter of Invention shown schematically, namely Fig. I shows the aperture according to the invention in a schematic side view in the open, Fig. 2 in partially pivoted and already closed state, while Fig.3 shows the completely closed state represents; Fig. 4 shows the control options for on two different levels the bezels ..

With i are! denotes the individual diaphragm elements, which consist of a material permeable to X-rays and with a lead lamella 2 are provided. Preferably, in order to achieve complete dimming, here two rows of diaphragm elements arranged one above the other, the same or also can be pivoted in opposite directions.

If, too. in the illustrated embodiment, the visor body i are assumed to be cylindrical, this embodiment is not a requirement. Thus, the lead lamellas 2 can also be designed to be self-supporting or the lamellar bodies i can be designed to be flat be.

According to Fig.2, the diaphragm bodies are pivoted by 45 °, whereby through the dashed lines indicate that the aperture is already completely closed is. In the further course of the movement of the diaphragms, they are complete as shown in Fig. 3 closed, the effect of the individual diaphragm strips 2 largely overlapping. To control the individual panel elements on a connecting rod 3 by means of Drive pin 4 be attached and rotate together. With 5 there is a storage denotes, in which the individual visor body i rotatably or pivotably mounted are. The mode of operation of the device is shown in the schematic illustration without further visible.

In the position shown in Fig. I, the lead lamellas are perpendicular to the Plate or film plane and let the X-rays of the associated X-ray tube through and at the same time act as a stray light shield for the von, this Tube about caused scattered rays. Even with a rotation of 45 °, according to Fig.2, the beam path is interrupted3, both for scattered rays and also for the regular X-rays.

For vertical recording devices that work in two planes, the X-ray tubes are operated alternately in pulse mode. The anti-scatter screens rotate in such a way that for one complete revolution of the @ diaphragm two impulses each Tube come. The slats for the two recording devices are operated in such a way that that in each case one aperture is completely closed, while the other is completely is open, d. H. the one aperture in. the position according to Fig. i, while the for the other device is in the position shown in Fig. 3 and. vice versa.

To achieve that the recording time, d-. H. the. Time during the If the slats are perpendicular to the film, it can be useful to enlarge them Not to let diaphragms rotate uniformly, but a Maltese cross drive, to provide a step switch mechanism, an electromagnet or a link guide. Finally, it is also possible not to rotate the diaphragms, but only to do so to oscillate a certain angular amount- In this embodiment can the passage position of the anti-scatter screen can also be extended over time.

In all cases it is useful to place the diaphragm grid on the X-ray image to blur by adding an additional to the overall aperture in a manner known per se Movement can be carried out. Included it does not matter whether one. therefor provides a reciprocating or a continuously rotating movement.

Claims (1)

PATENT CLAIMS: i. Aperture device, each with lamellae rotatable about its longitudinal axis, for image layers in: X-ray devices, characterized in that the lamellae are dimensioned and arranged so that they can be adjusted about their longitudinal axis in such a way that through. When the lamellae open the beam passage and by closing the lamellae the complete covering of the image layer is made possible, so that the device is able to act either as an anti-scatter or as a cover screen. z. Aperture device according to claim i, characterized in that the lamellae are arranged one above the other in at least two layers and can be closed in such a way that the covering device is formed by the lamellae of the two layers. 3. Aperture device according to claim 2, characterized in that the axes of rotation of the lamellae are parallel to one another and the lamellae of one layer are essentially offset by half the lamellae spacing relative to the lamellae of the other layer. rt. Screen device according to one of Claims 1 to 3, characterized in that the lamellae are arranged to be continuously rotatable. 5. Blemdemvorrichtung according to one of claims i to 3, characterized in that df.ß the slats about a certain Winikel amount, preferably 9o °, are arranged swinging .. 6. diaphragm device according to one of the preceding claims, characterized in that in per se known Wise means are provided to make the grid invisible on the X-ray image by moving the Blend @ envorridhtting. 7. Blendenvorriohtung according to one of claims i to 6, characterized by its application in your Römtgenuntersuchungsger ät with image layers arranged in two planes and one X-ray source for each plane in such a way that during the exposure of one image layer the aperture assigned to this image layer is opened, the shutter assigned to the other image layer is closed, however. B. Aperture device according to claims 4 and 7 ", characterized in that with pulsed operation of the X-ray tube in each of the two planes and rotating diaphragm blades, the speed of rotation and the pulsed operation are coordinated so that two pulses of the tube come for one complete revolution of each aperture blade. G. Diaphragm device according to claim q., Characterized by means for extending the passage position of the diaphragm over time, in particular by means of a Maltese cross drive.