DE574376C - Facility for operating Roentgen pipes - Google Patents

Description

GERMAN EMPIRE

ISSUED AV
APRIL 12, 1933

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21g GROUP 20

S 98618 VIIIa [2nd day of the announcement about the grant of the patent:

1933

Equipment for the operation of X-ray tubes

Addition to patent 571 710 **)

Patented in the German Empire on May 12, 1931 The main patent started on April 24, 1930.

The main patent relates to a device for operating X-ray tubes, their anticathode compared to the cathode ray beam made deflectable by a magnetic field is made movable, such a connection of the causing the deflection Circuit with the tube circuit consists of the cathode ray beam for each value of the tube operating voltage, its position in space at least approximately maintains.

Tests have shown that in order to meet this condition, the most distracting The current that generates a magnetic field is not roughly proportional, as it may first appear may increase with the tube operating voltage.

The curve in Fig. 1 shows what field strength (the ampere-turns are plotted as ordinates) for each occurring X-ray tube operating voltage (the kilovolt numbers are as abscissas applied) is necessary to always have the same deflection of the cathode ray beam to achieve.

In order to give the magnet current a dependence on the tube operating voltage corresponding to the curve, a transformer or generator can be used to supply the magnet, which is so highly saturated that with a linear increase in the primary or excitation voltage, the voltage generated by the transformer or The voltage supplied by the generator and thus also the magnet current increases according to curve A in Fig. 1.

Since practically not a complete match of the curves is required, but an approximate match is only required in that part of the curve, the voltages to be considered for generating effective X-rays corresponds, it is sufficient if the field strength generating the deflecting magnetic field roughly corresponds to the curve in the range from 40 to 120kV.

If no more agreement is reached below a voltage of 40 kV and consequently the focal spot changes its position somewhat at these low voltages changes, so this is irrelevant, since the X-rays generated thereby due to their small Intensity and penetration are no longer effective in photographic recordings. Such an approximate

") From the patent payer has been indicated as the inventor:

Dipl.-Ing. Kurt Bischoff in Rudolstadt, TMr. **) Former additional patent 573 553

Correspondence between the dependence of the field strength and the (precisely) determined dependency can be achieved in that a field strength generated by a current independent of the tube operating voltage and a field strength proportional to the tube operating voltage work together to generate the magnetic field. This can be achieved, as is shown, for example, in FIG. 2, in that two coils, separated from one another and through which different currents flow, are attached to the iron core 1 of the electromagnet. The constant direct current, which is independent of the tube operating voltage and which can be taken from the direct current network, flows through the coil 2. The second coil, which in the illustrated embodiment is composed of two symmetrically arranged parts 3, 4, has a current proportional to the tube operating voltage flowing through it; This current can be taken from the voltage source for the high-voltage transformer or taps on the primary coil of the high-voltage transformer and rectified by the rectifier system 5. In this case, curve B in Fig. 1 shows the dependence of the field strength on the tube operating voltage.

In the present example, the coil 2 can have approximately 500 turns and a current of 1.5 amperes flows through it. The resulting field strength corresponds to 750 ampere turns. The coils 3, 4 together also have 500 turns on and are traversed by a current of 0.52 amps at a tube operating voltage of 40 kV, so that a magnetic field strength corresponding to 260 ampere turns is generated. The whole Field strength then corresponds to 1010 ampere-turns. When the tube operating voltage is increased the magnetizing current increases to 100 kV corresponding to 1.3 amps; the field strength then corresponds to 650 ampere turns, the total field strength is 1400 amp turns.

A particular advantage of the new facility is that the time constant of the electromagnet is reduced in size, so that when the X-ray tube operating voltage changes, especially when switching on, the magnetic field faster than with the first mentioned Using a highly saturated transformer assumes the required value.

Claims (3)

Patent claims: 1. Device for operating X-ray tubes according to patent 571 710, characterized by a device which causes the magnetic field strength to be within the range to generate effective X-rays possible voltage range approximately linear, but less than proportional to the tube operating voltage increases. 2. Device according to claim 1, characterized ' due to high saturation of the transformer or generator feeding the magnetic circuit. 3. Device according to claim 1, characterized in that the waste is the '.- steering effecting magnetic field by cooperation of a constant and one of the tube voltage proportional to the field strength generated. For this purpose ι sheet of drawings