RU2251230C1 - X-ray pulse oscillator - Google Patents

Abstract

FIELD: production of roentgen rays.

SUBSTANCE: proposed pulse oscillator has capacitor 3 made in the form of three coaxially disposed cylinders of which cylinder 1 functions as oscillator case, cylinder 4 is connected to high-voltage pulse transformer 2, and cylinder 5 serves as part of casing of X-ray emitter 6 incorporating X-ray tube 8, shorting-out inductance coil 9, and peaker gap 7 whose one insulator 10 separating low- and high-pressure areas 11 and 12, respectively, has threaded outer surface mounting shorting-out inductance coil 9, and second insulator 13 disposed on side of high-voltage pulse transformer 3 separates high-pressure area 12 from space 14 filled with liquid insulator.

EFFECT: enhanced pulse emission power.

1 cl, 1 dwg

Description

The invention relates to pulsed x-ray generators of nanosecond duration and can be used in the development of pulsed x-ray apparatus for defectoscopy of metal structures.

Known pulsed x-ray generator containing a pulsed high-voltage transformer, a storage capacitor, a surge arrester and an x-ray tube with a cold cathode, in which, in order to simplify the design and technology, all generator elements are located coaxially in one sealed shell made in the form of a closed metal cylinder separated by an insulator into two isolated volumes, one of which is a low-pressure region, and the other is a high-pressure region (see ed. certificate of the USSR No. 396850 , CL H 05 G 1/22, publ. 08/29/79).

The disadvantage of such a pulsed X-ray generator is the relatively small radiation power in the pulse with limited overall dimensions and limited service life due to the inability to replace the pulse transformer when it fails and there is no element shunting the X-ray tube.

The element shunting the x-ray tube affects the parameters of the voltage pulse applied to the electrodes of the x-ray tube with a cold cathode and thereby affects the x-ray characteristics of the generator.

As is known, the voltage pulse generated by the transformer lies in the microsecond range and, therefore, the element shunting the tube, for example, in the form of inductance (an inhomogeneous line with wave resistance decreasing along the length of the line from its input to zero), has a small resistance under the action of this pulse. In this case, the storage capacitor is charged to the amplitude value at which the breakdown of the discharger-sharpener occurs. The switching time of the arrester-sharpener determines the front of the pulse voltage applied to the electrodes of the x-ray tube, and lies within a few nanoseconds. After breakdown of the spark gap arrester, a voltage pulse with a large front (tenths of a nanosecond) is applied to the X-ray tube and the shunt element. In this case, the time the voltage exerted on the tube is equal to the double run time of the wave along the line.

The use of a shunt element in the form of a volume spiral with a variable diameter of turns on a truncated cone can significantly increase the durability of the x-ray tube and increase the radiation intensity. A nanosecond pulsed X-ray generator is also known, comprising a cold cathode X-ray tube, a discharge capacitor, a pulsed transformer, the primary winding of which is made in the form of a continuous hollow cylinder, covering the secondary winding, which is installed coaxially to it and has the shape of a hollow truncated cone with a round base. The discharge capacitor is made in the form of coaxial cylinders, the length of which is greater than the length of the transformer and the first of which is located between the primary and secondary windings of the transformer, and the second inside the secondary winding of the transformer, and in the cylinders of the discharge capacitor there are windows for transmitting the magnetic field created by the transformer windings. In addition, in order to increase the capacitance of the discharge capacitor, and therefore the radiation power, a third coaxial cylinder is included in the discharge capacitor located inside the second cylinder and electrically connected to the external first cylinder of the capacitor (see ed. Certificate of the USSR No. 1040630, class H 05 G 1/24, published on September 7, 83).

The disadvantage of this x-ray generator, despite the presence of a discharge capacitor in the form of a system of three coaxial cylinders, is the low power of the x-ray radiation, determined by the design features of the generator.

There are no elements in the generator (an arrester-sharpener and an element shunting an x-ray tube) that determine the parameters of the voltage pulse acting on the x-ray tube, and therefore, on the x-ray technical characteristics.

The absence of these elements, the presence of windows in the cylinders of the discharge capacitor to provide electromagnetic coupling of the primary and secondary windings of the transformer, limiting the size of the structural capacity, and the presence of uncompensated distortions of the electric field between the cylinders of the discharge capacitor, due to the location between them of the secondary winding of the transformer, leads to a decrease in power x-ray radiation in the pulse and the deterioration of x-ray characteristics.

Closest to the proposed invention is a nanosecond pulsed X-ray generator containing a pulsed transformer, surge arrester, structural capacitor and X-ray tube with

a cold cathode, in parallel with which a shunt element is included, made in the form of an inhomogeneous line with wave impedance decreasing along the length of the line from its entrance. (See ed. Certificate of the USSR No. 571018 class H 05 G 1/24, publ. 30.08.77, prototype).

The overall weight and X-ray characteristics depend on the nature of the performance of the generator elements and their structural location.

The optimal design of such a generator is a coaxial design, which is a metal cylinder, inside of which along the axis there is a pulse transformer, a surge arrester, a shunt tube element (inductance in the form of a volume spiral with a variable diameter of turns, which is an inhomogeneous line with wave resistance decreasing along the length line from its entrance to low resistance or zero). A high-voltage capacitor, the capacitance of which determines the radiation power in a pulse, is formed by the metal surface of the arrester-sharpener case (or a cylindrical glass inside which the arrester-sharpener is installed) and the inner surface of the metal cylinder (generator shell).

The disadvantage of this design of the x-ray generator is the relatively small radiation power in the pulse with limited overall dimensions, complex design and technology for its manufacture.

The objective of the invention is to create a pulsed x-ray generator with increased radiation power in a pulse, by improving the volumetric weight characteristics and increasing the capacitance of the capacitor with comparative overall dimensions.

The technical result is achieved by the fact that in a known pulsed x-ray generator containing a housing in which a pulsed high-voltage transformer, a surge arrester, a capacitor, an X-ray tube are arranged, in parallel with which there is a shunt inductance and two insulators in the form of a truncated cone, the capacitor is made in the form of three coaxially arranged cylinders, one of which is the generator housing, the second is connected to a pulse high-voltage transformer, and the third serves as a frequent the emitter housing, including an x-ray tube, a shunt inductance and a surge arrester, one insulator of which separates the low and high pressure regions is made with a screw thread on the outer surface, in which the shunt inductance is located, and the second insulator located on the side of the high-voltage pulse transformer , separates the high-pressure region from the volume filled with a liquid dielectric.

The design of the arrester-sharpener and the X-ray tube with a shunt inductance in the form of a single device (emitter) can significantly simplify the design, improve the bulk-weight characteristics of the X-ray generator and increase the capacity of the structural capacitor, consisting of a system of three coaxial cylinders, with the same linear dimensions of the generator twice, which will increase the power of x-ray radiation in the pulse.

The compact arrangement of the main elements of the X-ray generator (discharger-sharpener, X-ray tube with a shunt element in the form of inductance) in one sealed housing of the emitter can reduce the linear dimensions of the coaxial and thereby reduce losses during the passage of a high-voltage nanosecond pulse from the discharger-sharpener to the electrode system of the x-ray tube, which also contributes to a significant increase in x-ray power.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, made it possible to establish that no analogue was found, characterized by features identical to all the essential features of the claimed invention. Comparison with the prototype allowed us to identify a set of essential features in relation to the perceived technical result set forth in the claims.

Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

To verify the inventive step, an additional search was carried out for known solutions, the results of which show that the claimed invention does not explicitly follow the prior art for a specialist, since technical solutions have not been identified in which the power of X-ray radiation in the pulse would be increased due to the compact arrangement the main elements of the x-ray generator, improving its volumetric weight characteristics and increasing the capacitance of the capacitor.

Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

The drawing shows in section a pulsed x-ray generator.

The pulsed X-ray generator contains a sealed enclosure consisting of a metal cylinder 1, inside of which an impulse high-voltage transformer 2 is located along the axis, a structural capacitor 3, consisting of a system of three coaxial cylinders 1, 4, 5, one of which 4 is potential, and two others 1 and 5 with zero potential, the emitter 6, consisting of a spark gap-sharpener with an interelectrode gap 7, an X-ray tube 8 and a shunt inductance 9. The insulator 10 separates the low-pressure regions 11 (X-ray Single tube 8) and high pressure 12 (discharger-sharpener 7). The insulator 10 is made with a screw thread on the outer surface, in which the shunt inductance 9 is located. The insulator 13 separates the high-pressure region 12 from the volume 14 filled with a liquid dielectric, 15, 16 electrodes of the sharpener-discharger located opposite each other along the axis of the device. The electrode system of the x-ray tube 8 consists of a thin diaphragm 17 (cathode), in the hole 18 of which there is an electrode 19 (anode) with a cone-shaped part.

X-ray generator operates as follows.

The high voltage pulse generated by the high-voltage transformer 2 charges the capacitance of the capacitor 3 formed by the coaxial cylinders 1, 4, 5 to the value at which the gas interelectrode gap of the arrester-sharpener 7 is broken. As a result of the breakdown of the arrester-sharpener 7, the capacity of the structural capacitor 3 is discharged through x-ray tube 8, which generates a short pulse of radiation.

The compact arrangement of the main elements of the X-ray generator (discharger-sharpener, X-ray tube with a shunt element in the form of inductance) in one sealed housing of the emitter can reduce the linear size of the coaxial and thereby reduce losses during the passage of a high-voltage nanosecond pulse from the discharger-sharpener to the electrode system of the tube, which contributes to a significant increase in the power of x-ray radiation in the pulse.

The above information indicates that the claimed invention, when implemented, is capable of achieving the technical result perceived by the applicant, for which a sample of an X-ray apparatus based on a sharpener with a dynamic breakdown voltage of 250 kV and an X-ray tube with an electrode system similar to commercially available X-ray tube IMA5-320D with a design capacity of about 100 pF.

Experimental studies have shown a significant excess of its X-ray technical characteristics compared with commercially available x-ray machines such as "Bumblebee" and "Arina".

Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (1)

A pulsed X-ray generator, comprising a housing in which a pulsed high-voltage transformer, a surge arrester, a capacitor, an X-ray tube are arranged in parallel with which a shunt inductance and two truncated cone insulators are included, characterized in that the capacitor is made in the form of three coaxially arranged cylinders, one of which is the generator housing, the second is connected to a pulse high-voltage transformer, and the third serves as part of the emitter housing, including an x-ray tube, a shunt inductance and an arrester-sharpener, one insulator of which separates the low and high pressure regions, is made with a screw thread on the outer surface, in which the shunt inductance is located, and a second insulator located on the side of the pulse high-voltage transformer separates the high-pressure region from the volume filled with a liquid dielectric, and the high-voltage pulse generated by the high-voltage transformer charges the capacitor capacitance to a value in which the breakdown of the gas interelectrode gap of the arrester-sharpener occurs, as a result of this breakdown, the capacitance of the capacitor is discharged through an x-ray tube, which generates a short radiation pulse.