DE552088C - Ionization chamber for devices for measuring X-rays - Google Patents

Description

X-rays are known to be measured by the degree of ionization they have able to evoke. A lonisa-5 is used to measure the degree of ionization tion chamber, which contains a certain volume of gas, and an electrical measuring device. the The ionization chambers commonly used up to now have the disadvantage that they differ from air Have radiation properties that are relatively complex to manufacture and are easily fragile. All of these evils are eliminated by the invention. According to her, the walls of the ionization chamber only from a mixture> S of an air mass preparation with a one Cellulosic material that forms binders, such as celluloid or acetylcellulose, exist.

It is already known to produce ionization chambers starting from a mixture of graphite *> with an unknown binder. The chamber is pressed from this mass by means of a mold and a press ram and then covered with a protective skin made of celluloid ο. Like. Provided. ^a 5 The known combs are easily fragile as long as they do not have the protective coating. The chambers, which are produced by pressing a mixture of graphite with the binding agent used by their manufacturers, are only secured against the risk of breakage by the protective coating, which is generally explained by the fact that an elastic air cushion is formed between the pressed chamber wall and the protective coating. The first advantage of the subject invention is that there is no need to provide a protective coating on it.

The celluloid membrane, which must be provided in the previously known chamber, can lead to static charges. Such are not the subject of the invention to fear what a second advantage over the known lies. The chamber according to the invention exists from a single piece, and their manufacture is extremely simple. You manufacture first a shape adapted to the shape of the ionization chamber and then immersed it in a mixture of a mass of air and a solution of celluloid ο. Like. Until the shape is surrounded with a sufficiently thick layer. Now the shape is removed so that a hollow body is obtained which serves as an ionization chamber.

The figure illustrates the execution of the procedure.

In the container 1 there is, for example, a solution of celluloid or acetyl cellulose in acetone or amyl acetate, to which a l'uf tmassepreparat is added, ie a preparation which has approximately the same radiation properties (absorption and scattering properties) as air with regard to X-rays. A proven air mass preparation is a blend of 97 ° / ₀ graphite and 3 o / ₀ silicon. A mold 2, which is adapted to the shape of the ionization chamber to be produced and which consists for example of paraffin, is immersed in the mixture which is located in the container 1. Several layers 3 of the air mass-celluloid solution mixture are attached to the mold 2. If these layers have reached a sufficient strength with regard to the mechanical strength of the ionization chamber, the mold 2 is removed from the bath. After the layers 3 have hardened, the mold 2 is removed. If you work with a paraffin mold, this is done by heating. ⁸ Q

Claims (3)

Patent claims: 1. Ionization chamber for measuring X-rays, characterized in that that the walls of the chamber only consist of a mixture of a Luftmaesepreparates with a cellulosic material forming a binder, such as celluloid or acetyl cellulose. 2. Process for the production of ionization chambers according to claim 1, namely spherical chambers, characterized in that that one of the shape of the ionization chamber adapted form into a mixture of an air mass preparation and a solution of a cellulosic binder is dipped until the mold is surrounded by a sufficiently thick layer is, and then removed the mold, so that a hollow body is obtained. 3. The method according to claim 2, characterized in that a mold is made an easily meltable mass and it after hardening of the chamber walls forming layers removed from the chamber by melting. 1 sheet of drawings K. PRINTED I »OEB ItEICHSDKUCKiM ;!