RU180427U1 - The resonator cover of the installation for radiation processing of products and materials - Google Patents

Abstract

The utility model relates to the field of radiation processing of products and materials, namely to structural elements of a pulsed linear accelerator. The technical result of the claimed utility model is to increase the maximum power of the device. The technical result is achieved by the fact that the resonator cover of the installation for radiation processing of products and materials, according to the utility model, contains four RF generators located on it, the cathode loop of each of which is placed at an angle to its anode part.

Description

The utility model relates to the field of radiation processing of products and materials, namely to structural elements of a pulsed linear accelerator.

The site http://www.inp.nsk.su/~tararysh/accel/ilu_r.html knows the ILU-8 pulse linear accelerator developed by the Institute of Nuclear Physics SB RAS, on the resonator cover of which there is an RF generator, a cathode loop and anode part which are located along the axis passing through the center of the RF generator, auxiliary devices, such as distributing devices for supplying coolant to the resonator, a pressure monometric lamp, an operating mode frequency adjustment sensor, are placed in free sections of the resonator cap in an arbitrary order.

A disadvantage of the known device is the low power of a pulsed linear accelerator.

Closest to the claimed technical solution is known on the site http://www.inp.nsk.su/~tararysh/accel/ilu_r.html and http://www.phys.nsu.ru/vestnik/catalogue/2006/02 /Vestnik_NSU_06T1V2_p89_p97.pdf an ILU-10 pulsed linear accelerator developed by the Institute of Nuclear Physics of the SB RAS, on the resonator cover of which there are two RF generators, a cathode loop and the anode part of each located along an axis passing through the center of the RF generator, auxiliary devices, such as distribution devices for supplying a coolant resonator to a monometric lamp eniya sensor adjustment of the working frequency of the mode are placed on the free portion of the resonator cover randomly.

A disadvantage of the known device is the low power of a pulsed linear accelerator.

The technical result of the claimed utility model is to increase the maximum power of the device.

The technical result is achieved by the fact that the resonator cover of the installation for radiation processing of products and materials, according to the utility model, contains four RF generators located on it, the cathode loop of each of which is placed at an angle to its anode part.

The implementation of the cathode loop of each RF generator at an angle to its anode part can significantly reduce their dimensions in space and install on the sections not covered by the elements of the RF generators two additional RF generators, increasing their number to four, which allows to increase the maximum power of the device to 150 kW, without increasing the dimensions of the resonator cap itself, using its existing geometric parameters, and without the use of high-power RF generators.

Thus, the claimed layout scheme allows you to increase maximum power without increasing the dimensions of the device.

The essence of the claimed technical solution is illustrated by the drawing.

In FIG. 1 shows a top view of the resonator cap of an apparatus for radiation processing of products and materials.

The resonator cap with the RF generators 1 located on it, with a cathode loop 2 and an anode part 3, distributing devices 4 for supplying coolant to the resonator, a pressure monometric lamp 5, and a frequency control sensor for the working mode 6.

The angle between the cathode loop and the anode part of each RF generator is not an obtuse angle and is optimally equal to 90 °, and the RF generator is offset from the center to the outer boundary of the resonator cap. The claimed layout scheme allows you to save the ability to place auxiliary devices on the resonator cover, such as distributing devices for supplying coolant to the resonator, a pressure gauge lamp, an operating mode frequency adjustment sensor, which are placed along the outer boundary of the resonator cover in the spaces between the generators.

Claims (1)

The resonator cover of the installation for radiation processing of products and materials, containing RF generators placed on it with a cathode loop and anode part, characterized in that it contains four RF generators installed on it, the cathode loop of each of which is placed at an angle to its anode part.

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