JPH0746564B2 - Gyrotron device - Google Patents

Description

Description: TECHNICAL FIELD OF THE INVENTION The present invention relates to a gyrotron device that generates high-power millimeter-wave electromagnetic waves.

[Technical background of the invention and its problems]

In recent years, a method of using an electromagnetic wave to heat plasma of a fusion reactor has been studied, and a gyrotron device has been developed as a generator of this electromagnetic wave. A superconducting magnet is used because a gyrotron oscillator that generates electromagnetic waves in the millimeter wave band requires a magnetic field of several tesla. Therefore, the device of the normal gyrotron is composed of a gyrotron oscillation tube, a cryostat for cooling and housing the superconducting magnet, and an oil tank as shown in FIG. That is, the gyrotron oscillator 1 has a cryostat 3 and the cryostat 3 has an oil tank 4
It is fixed to each and constitutes the device. Inside the oil tank 4, a device 6 that constitutes a power source for supplying electric power to the electron gun section 2 of the gyrotron oscillation tube, and a socket 5 for connecting the power source and the electron gun 2 are installed. The socket 5 is fixed to the oil tank 4 by the socket support plate 7. Further, the oil tank 4 is filled with insulating oil 8 for holding and cooling the electric insulation of the power supply devices 6, the socket 5 and the electron gun 2. The heat generated from the power supply devices 6 is radiated from the outer wall of the oil tank 4 through the insulating oil 8. In order to effectively cool this heat, the insulating oil 8 is forcibly convected by the oil circulation pump 9.

By the way, in such a device, the electron gun 2 serving as a heat source is concentrically surrounded by the socket 5 and the cryostat 3, and the insulating oil existing between them is not convected and is heated by the electron gun. The insulating oil becomes lighter and gradually accumulates in A in the figure, causing a local temperature rise of the insulating oil. Therefore, if it is operated for a long time, the deterioration of insulating oil,
There was a problem of causing damage to the cryostat.

[Object of the Invention]

The present invention improves the above-mentioned drawbacks, and an object thereof is to provide a gyrotron device having a structure capable of preventing deterioration of insulating oil heated by an electron gun of a gyrotron oscillation tube and enabling long-time operation. To do.

[Outline of Invention]

The present invention provides a gyrotron oscillation tube equipped with an electron gun, a superconducting magnet that generates a magnetic field for the gyrotron oscillation tube to generate an electromagnetic wave, and a superconducting magnet provided around the gyrotron oscillation tube. A cryostat for accommodating and cooling, a power supply for supplying electric power to the gyrotron oscillation tube, a socket arranged between the gyrotron oscillation tube and the cryostat, and connecting the gyrotron oscillation tube and the power source. And an oil tank that contains insulating oil therein, and in which at least a part of the electron gun, the socket, the power source, and the cryostat is immersed in the insulating oil, and between the gyrotron oscillation tube and the cryostat. By providing a means for forcing convection of the insulating oil, the heating of the insulating oil by the electron gun causes local It prevents degree rise, a gyrotron apparatus capable of long time operation.

〔The invention's effect〕

According to the present invention, the heat generated from the electron gun can be dissipated in the oil tank by the insulating oil forcibly convection, so that the local temperature rise of the insulating oil around the electron gun does not occur, Thus, a gyrotron device that can operate for a long time can be configured.

Example of Invention

Hereinafter, examples of the present invention will be described in detail. The parts having the same configurations as those of the conventional device are designated by the same reference numerals and the description thereof will be omitted. FIG. 1 shows the configuration of the gyrotron device of the present invention. An oil inlet 10 is provided in the socket 5, and a pipe 11 branched from the outlet of the oil circulation pump 9 is connected to the socket 5. The insulating oil supplied from the oil circulation pump 9 is introduced into the socket 5 through the pipe 11 and the oil introduction port 10, and is forced to convect along the path shown by the arrow in FIG. Dissipate. In the gyrotron device configured as described above, the heat generated from the electron gun 2 is carried into the oil tank 4 by the insulating oil that is forcedly convected, and the heat generated from the power equipment 6 from the outer wall of the oil tank 4 is transferred. Along with this, heat is radiated to the outside. Therefore, the heat generated from the electron gun does not cause a local temperature rise of the insulating oil around the electron gun, so that deterioration of the insulating oil and damage to the cryostat can be prevented, and a gyrotron device that can operate for a long time is provided. Can be configured.

[Brief description of drawings]

FIG. 1 is a block diagram showing a gyrotron device of the present invention, and FIG. 2 is a block diagram showing a conventional gyrotron device. 1. Gyrotron oscillation tube, 7. Socket support plate 2. Electron gun, 8. Insulating oil 3. Cryostat, 9. Oil circulation pump 4. Oil tank, 10. Oil inlet 5. Socket, 11. Piping 6. Power supply Equipment

Claims (1)

[Claims] 1. A gyrotron oscillation tube provided with an electron gun, a superconducting magnet for generating a magnetic field for the gyrotron oscillation tube to generate an electromagnetic wave, and a superconducting magnet provided around the gyrotron oscillation tube. A cryostat for accommodating and cooling, a power supply for supplying electric power to the gyrotron oscillation tube, arranged between the gyrotron oscillation tube and the cryostat, and connecting the gyrotron oscillation tube and the power source. Between a socket, an oil tank containing an insulating oil therein, and at least a part of the electron gun, the socket, the power source, and the cryostat being immersed in the insulating oil; and the gyrotron oscillation tube and the cryostat. Means for forcibly convection the insulating oil of the gyrotron device .