DE574069C - X-ray device in which the pipe is fed by means of a multiplier circuit consisting of a valve and capacitors - Google Patents

Description

X-ray device in which the tube is made by means of a valve and Capacitors existing multiplier circuit is fed It is already proposed an X-ray device in a circuit with valve and capacitors with the X-ray tube, valves, condenser and transformer a structural one Form unity. In such devices, however, there is the disadvantage that they Obtained a great weight by the built-in transformer and the transformer cannot be used for any other purpose.

In the previously common X-ray devices, the rectifier organs are and capacitor assembled with the X-ray transformer and via the capacitor or. Lines carrying maximum tube voltage are connected to the X-ray tube. The isolation these lines must therefore be dimensioned for these highest occurring voltages.

The X-ray tube and the supply lines are also already known with the help of an earthed jacket to prevent contact with high-voltage parts protection. For devices with transformer voltages multiplied by capacitors and valves however, the high-voltage clearances for the supply lines increase accordingly to the X-ray tube from the point of origin of the multiplied voltage. All these disadvantages are in an X-ray device in which the tube by means of a a multiplier circuit consisting of valves and capacitors is fed, avoided according to the invention in that the X-ray tube, the valve, the capacitors and the heating transducers as a structural unit surrounded by an insulating sheath are designed, and that this unit with the high-voltage transformer only over two power lines connected. The insulating sheath and the high voltage cables are advantageous in a known manner from a metallic earthed sheath surround. This has the advantage that normal diagnostic transformers be connected with the unit to be understood as a therapy add-on, and thus two things Purposes can serve. It continues to exist compared to the known X-ray devices in multiple circuit, where X-ray tubes, valves, capacitors and the transformer Form a structural unit, improving that by separating the transformer of the remaining parts forming a structural unit, the weight of the unit @ is reduced that the connecting lines between unit and transformer only for the transformer voltage and not for the multiplied Voltage are to be isolated and that finally the transformer is also connected can be used with other devices. At this low transformer voltage cheap high-voltage cables with practically sufficient mobility can also be installed operate.

In the figures, exemplary embodiments according to the invention are shown. For a better understanding of Fig. 2, Fig. I shows the circuit diagram of a so-called Villard circuit. At the ends of the transfermator high voltage winding i i are two capacitors 12, 13 connected, between which the valve 14 and the parallel X-ray tube 15 connected to it are located.

The supply lines in front. the transformer high-voltage bushings 16 (according to FIG. 2) to the capacitors 12, 13 are designed as cables 17 . The ends of the cables are connected to the outer lining 18 of the capacitors. The dielectric between the outer covering i8 and the inner covering ig of the capacitors is formed by the wall of the insulating housing 2o which encloses the entire device. The covers of the capacitors can be applied as conductive layers to the insulating wall, for example using the Schoop method. The covers 18, 1g of the capacitors enclose the iron cores at high voltage potential and the high-voltage winding 22 of the heating transformer (s) connected to the inner capacitor layer 1g at point 2i. The left heating transformer heats the filament of the X-ray tube 15 and the right heating transformer the filament of the valve 14 .. The low-voltage windings 23 of the heating transformers are outside the high voltage on the insulating sleeves 2.4. This design of the X-ray device has the advantage that the increase in the transformer voltage only takes place within the structural unit or the tube chamber through the capacitors. For better heat dissipation of the heated parts of the valve tube 14 and X-ray tube 15, these can be connected to the iron cores of the heating transformers. To reduce the high-voltage distances within the unit, the possibly externally conductive housing 2o can be filled with an insulating liquid or with a gas under pressure in a known manner and the liquid can be used at the same time to cool the heated parts of the tube.

Claims (3)

PATENT CLAIMS: i. X-ray device in which the tube is by means of a multiplier circuit consisting of a valve and capacitors is, characterized in that the X-ray tube, the valve, the capacitors and the heating transducers as a structural unit surrounded by an insulating sheath are designed, and that this unit with your high voltage transformer only is connected via two high-voltage lines. 2. X-ray device according to claim i with cables as connecting lines to the transformer, characterized that the insulating sheath and the high-voltage cables in a known manner from one metallic earthed sheath are surrounded. 3. Modification of the device according to claim i, characterized in that the one assignment of the capacitors as conductive Layer on the inner wall, the other covering as a conductive layer on the outer wall the insulating sleeve is applied. q .. Device according to claim i to 3, characterized characterized in that the ends of the unit are connected to the transformer feed lines via plug-in devices are connected.