DE318073C - - Google Patents

Description

For producing sharply defined X-ray images of moving organs, ζ. Β. the lungs, heart, stomach, intestines, etc., gas-filled X-ray tubes are usually used, by means of which the recording then takes place in small fractions of a second. .

Such recordings can now be used more and more for X-ray recordings gas-free electron tubes used cannot be produced in the same short time like with the gas-filled ion tubes. Rather, one almost always gets in such a case underexposed images. That is probably due to the fact that the gas-filled

The ion tube only responds when a certain breakdown voltage is exceeded, the gas-free electron tube, on the other hand, instantly with every applied voltage. As is well known, the breakdown voltage of ion tubes is generally much higher than the operating voltage. Only after the breakthrough has taken place and the gas content has become conductive as a result, the voltage drops to the value to be maintained in order to achieve a certain intake. With every single Augeriblick recording, a considerable proportion of harder X-ray radiation is created, corresponding to the high voltage increase above the operating value, which is advantageous for the good definition of the images. Since this process is absent in electron tubes, the electron tube is unsuitable for the production of instantaneous recordings as soon as the mode of operation used hitherto is retained. In addition, in this mode of operation of gas-free electron tubes, the voltage applied to their electrodes does not even immediately reach the value to be set for recording, but only increases gradually and often so slowly that it does not even reach during the short period of recording will. The electron tube then almost only supplies soft rays that are hardly sufficient for fluoroscopy.
The invention eliminates this disadvantage by first applying the operating voltage to the tube and only then by regulating the heating or ignition current to establish the conductivity required for the recording to take place. .

Because the glow coil. with the gas-free Because of their thermal inertia, electron tubes do not immediately reach a certain temperature is needed, which is necessary to release the certain number of electrons, in order to induce the creation of the tube current, one can, as it were, at the electron tube first apply the operating voltage and then in the desired Times of exposure of the organ to be recorded the heating current at the Coolidgercihre or switch on the ignition current at the lily field tube. - The end of the recording then happens either by switching off the operating voltage or the heating current or both circuits at the same time.

In the drawing are those that occur with the gas-filled and gas-free tubes Processes illustrated schematically.

Fig. Ι and 2 shows the process in the previous operation of a hot cathode tube. In Fig. Ι the temperature curve of the glow coil is shown, namely the ordinates indicate the temperature and the abscissa the time. In this mode of operation, the temperature of the glow coil is driven very high during the preheating time α. After this preheating, the operating voltage (FIG. 2) is applied, which accordingly already has a high conductivity.

At the same time, the temperature of the glow spiral is then increased still further during the period of time b , which it can withstand for such a short period of operation. The tube voltage runs in the manner shown in FIG. '> ■

3 to 6 show schematically the relationships in the method according to the invention. From FIGS. 3 and 5, it can be seen that the spiral is preheated so little that when the voltage is applied at the time of the boundary between α and b there is no conductivity. At the same time as the voltage is connected, further heating takes place, which lags behind the glow coil due to the thermal inertia. The distance c in FIGS. 3 to 6 represents the time during which the X-rays are effective in the mode of operation according to the invention. As can be seen, it can be changed by choosing different heating currents.

Claims (1)

Patent claim: Process for the production of X-ray instantaneous recordings by means of gas-free Electron tubes, characterized in that the operating voltage is initially applied to the Tube laid and only then by regulating the heating or. Ignition current for the Establishment of the recording required conductivity is established. 1 sheet of drawings.