DE955476C - Anti-scatter screens and filters for X-rays - Google Patents

Description

Anti-scatter diaphragms and filters for X-rays The well-known ones Anti-scatter diaphragms that obscure the X-ray image through the .secondary Intended to prevent radiation, are produced almost exclusively in such a way that that thin lamellae made of X-ray permeable and X-ray absorbing Material alternately layered on top of one another and z. B. in a baking process be joined together to form a fat body that is in a room or a flat box is housed. This type of manufacture is difficult, in particular because they are very thin lamellas, they are used to achieve a fine grid are absolutely necessary, are difficult to cut and can be placed exactly on top of each other.

According to the invention, the use of ultrasonic waves for production by 'anti-scatter diaphragms and .also filters for X-rays proposed in the way that standing ultrasonic waves for the production of anti-scatter diaphragms such on an X-ray absorbing substance in powdery or colloidal form State. -Containing medium to act, i.e. in the medium Grids from the X-ray absorbing material and that for the production Ultrasonic waves progressing from filters in such a way that they absorb X-rays Medium containing substance in a fine-grained or powdery state for action be brought to a uniform distribution of the strahlen.abslorbierenden Substance in the medium results.

It is used to visualize and measure the wavelength of ultrasonic waves known, fine Bringing coke dust into a liquid., The in the case of a standing wave, it collects in the nodal planes as it sinks and deposited in strips on a base plate. It is also known that in aqueous emulsions and suspensions exposed to the action of ultrasonic waves exposed to particles whose density is lower than that of the dispersing one In the middle, at the nodes, the particles of greater density, on the other hand, are piled up on the bellies will.

So if you according to the invention standing ultrasonic waves on a X-ray absorbing substance in fine-grained, powdery or colloidal form Brings state containing medium to the action, one can achieve that in the medium lattice from the X-ray absorbing material, which at Activation in the X-ray cone. Act as a control beam diaphragm. on the other hand can also be achieved in the medium by using advancing ultrasonic waves an even distribution of the radiation-absorbing material, such as it is aimed at filters for X-rays. The one that absorbs the X-rays The medium containing the substance is preferably a pulpy one during the sonication . Or liquid, later hardening substance, such as B. gelatin, wax, resin, in particular Synthetic resin. This medium containing the X-ray absorbing substance becomes before the sound e.g. B. softened by heating or liquefied, then left the ultrasonic waves act until the medium has hardened. That hardened; the radiation-absorbing material after the sonication in a grid form or in a more even manner The medium containing the distribution can then be sliced from the one used for the diaphragms or Filter desired 'starch can be cut.

The medium containing the X-ray absorbing material can also a. pulpy or liquid 'substance, which you can find in the appropriate place in the X-ray cone @ and for the duration of the X-ray examination or exposure to the action of the ultrasonic waves. The desired distribution of the X-ray absorbing material within the pulp or liquid in this case one does not achieve for the duration, but only for as long as a scattered radiation effect occurs or a filter effect during the X-ray examination or treatment is needed. For this purpose pulpy or liquid, X-ray, absorbent Media containing substances are, for example, those used in some x-ray examinations used known contrast media.

In all cases, various ultrasonic waves can optionally be used Use direction and / or wavelength. This way you can see it from X-rays absorbing material give existing lattices within the medium other shapes, for example, achieve a cross grid like the aforementioned cross grid panels exhibit. The known ultrasonic waves can be used to generate the ultrasonic waves to be used.

Claims (1)

PATENT CLAIMS: i. The use of ultrasonic waves for manufacture from. Anti-scatter diaphragms and filters for X-rays in such a way that for Production of anti-scatter diaphragms for standing ultrasonic waves on an X-ray Containing absorbent material in a fine-grained, powdery or colloidal state Medium to be brought into action that in the medium grating from the X-rays ab.sorrbierenden material arise and that progressive to the hay position of filters Ultrasonic waves in such a way on an X-ray absorbing substance in fine grain or a medium containing a powdery state are brought into action, that there is a uniform distribution of the radiation-absorbing material in the Medium yields. ?. Anti-scatter screen or filter according to Claim i, characterized in that that the X-ray absorbing medium containing a during the sonication of pulpy or liquid, later hardening substance such. B. gelatin, Wax, resin, synthetic resin, is. 3. Process for the manufacture of anti-scatter diaphragms or filter according to claim, characterized in that the X-ray absorbing Substance-containing medium is softened or liquefied before sonication and that the ultrasonic waves are brought into action until the medium hardens is. 4. The method according to claim 3, characterized in that the hardened, the Radiation-absorbing material after exposure to the sound in grid form or in a more even form Distribution-containing medium in slices of the desired for the diaphragms or filters Starch is cut up. 5. anti-scatter screen or filter according to claim i, characterized characterized in that the medium containing the X-ray absorbing material is a pulpy or liquid substance that adheres to the fluoroscopic site in the X-ray cone is switched on and for the duration of the X-ray examination or treatment under the action of the ultrasonic waves. 6. The simultaneous application of ultrasonic waves different directions and / or wavelengths for the production of secondary beam diaphragms and filtering according to one or the preceding claims. Considered publications: German Patent No. 676 543; Bergmann: "Der L'ltraschall", 1942, p. 6; and 333.