SU1637032A1 - Impulsive roentgen apparatus - Google Patents

Abstract

The invention relates to X-ray technology, namely to pulsed X-ray machines used in studies of fast processes and radiation flaw detection. The purpose of the invention is to increase the radiation output, reducing the size and weight. To do this, in a pulsed x-ray apparatus with a cascade Arkadyev-Marx generator, made according to a two-pole scheme, successive stages with their capacitors and arresters are alternately arranged in at least two planes spaced apart from each other. 1 il.

Description

The invention relates to the field of X-ray technology, and more specifically to pulsed X-ray machines used in studies of fast processes and radiation flaw detection.

The purpose of the invention is to increase radiation output, reduce size and weight.

The drawing shows the structure of a pulsed x-ray machine.

The pulsed x-ray apparatus, case 1 of which is connected to the common bus 2, contains leads for connecting to a power source and a cascade pulsed high-voltage generator, made according to the Arkadyev-Marx two-pole scheme, (the generator stages are sequentially located in two planes separated from each other and B. Each cascade, located 8 planes A, consists of two low-inductance capacitors 3 connected through discharger 4, cascades,

located respectively in plane B, are similarly formed by capacitors 5 and arresters 6. Dividing elements 7–9, made in the form of active or reactive resistances, are included between the cascades. All cascades are connected in series by conductive busbars 10. When this capacitor 3 of the first cascade is connected to a common bus 2, and the output capacitor 5 of the last cascade is connected to the pulsed x-ray tube 11.

The device works as follows.

From the power supply through the separating elements 7 and 8, the right capacitors of the 5 stages in the plane B are charged to the voltage -MJ, the left capacitors of the 5-voltage to the voltage -U. The capacitors of the 3 stages in the plane A are charged respectively in the opposite polarity.

At the moment of launching the apparatus, sequential operation of the arresters 4 and 6 occurs due to overvoltage on their electrodes, and all capacitors 3 and 5 are connected in series. The total voltage of all capacitors 3 and 5 is applied to the X-ray tube 11, and a high-current tube breakdown occurs, which is accompanied by an X-ray emission.

The placement of capacitors 3 and 5; in at least two planes, allows a significant reduction in the inductance of the discharge circuit, which is determined by the magnitude of the uncompensated magnetic field created by the discharge current. The electric current flowing from right to left through the arresters 4 and from left to right through the arrays 6 through the high-voltage terminals of the capacitors 5 and 3, respectively, and through the conductive bus 10 along the surface of the capacitors 3 and 5, that

due to the shallow depth of the skin layer due to the nanosecond discharge duration, it generates an electromagnetic field which, with this arrangement of generator stages, is compensated for by an electromagnetic field of opposite sign formed around current-carrying buses of adjacent stages.

Claims (1)

The invention includes a pulsed x-ray apparatus containing a high-voltage Arkadyev-Marx high-voltage generator with a two-pole scheme and a pulsed x-ray tube connected to it, characterized in that, in order to increase radiation output, reduce dimensions and mass, the Arkadyev-Marx generator cascades and dischargers are alternately arranged in at least two planes spaced apart from each other.