JPS63128524A - Crystat for gyrotron - Google Patents

Abstract

PURPOSE:To prevent a local heating of an insulation oil and a deterioration of the insulation oil or a damage of the cryostat by tilting the under surface of the cryostat so as to project an ordinary temperature space side for inserting a gyrotron oscillating tube is toward the down direction. CONSTITUTION:The under surface of a cryostat 3 is tilted so as to project an ordinary temperature space side in which the gyrotron is inserted in the gyrotron cryostat 3 which has a means supporting and cooling plural coaxial superconducting solenoid magnets and a hollow ordinary temperature space in which the gyrotron is to be inserted, and is used installed in or oil tank 4. This enables a local heating of a insulation oil to be prevented and a deterioration of the insulation oil or a damage of a cryostat 3 to be avoided as the insulation oil heated by a power source equipment 6 can be convected without stagnation along the tilted surface of the cryostat 3.

Description

[Detailed Description of the Invention] [Purpose of the Invention] (Field of Industrial Application) This invention;:C* To generate electromagnetic waves with a high power of 710 mm, which heats the plasma of a cough melting furnace, etc. This invention relates to a cryostat for a gyrotron that is used in combination with a gyrotron.

(Prior Art) In recent years, a method of using electromagnetic waves to heat the plasma of a nuclear fusion reactor has been studied, and a gyrotron fe#L has been developed as a device that generates this electromagnetic wave. The gyrotron generator, which generates electromagnetic waves in the millimeter wave band, requires a magnetic field of several Tesla, so conductive magnets are used. For that reason, J1's regular gyrotron oscillation setup is the second one.
As shown in the figure, it consists of a gyrotron oscillation tube, a third cryostat that supports and cools the superconducting magnet, and an oil tank, that is, a gyrotron active tube IH.
The cryostat 3 is fixed to the oil tank 4, and the cryostat 3' is fixed to the oil tank 4. ! It makes up the location.

Inside the oil tank 4 is an electron gun section 2 of a gyrotron oscillation tube.
A socket 5 for connecting the electron gun 2 and the electron gun 2 is installed. In addition, socket 5 supports socket! It is fixed to the oil tank 4 by E7. The oil tank 4 is also grooved with insulating oil 8 for maintaining electrical insulation and cooling of the power supply device fA6, the socket 5, and the electron gun 2.

(Problem to be solved by the invention) However, such 1! In the installation, power equipment 6
The heat generated from the insulating oil 8 is finally radiated from the outer wall of the oil tank 4 using the convection of the insulating oil 8. However, the insulating oil heated by the source equipment 6 tends to stagnate on the underside of the cryostat 3', causing deterioration of the insulating oil and damage to the cryostat due to localized heating of the insulating oil. There is an interlayer.

This invention aims to improve the above-mentioned drawbacks.

It is an object of the present invention to provide a gyrostat for a gyrotron having a feature that allows convection of insulating oil without stagnation when applied by a power supply device.

[Structure of the invention]

(The tth way to solve the problem) This invention! The point is that in a cryostat for a gyrotron, the lower surface of the cryostat is sloped so that the room temperature space into which the gyrotron oscillation tube is inserted is convex downward.

(Function) In the gyrotron failure device configured as described above using the gyrotron cryostat,
The insulating oil heated by the power supply equipment inside the oil tank can convect toward the outer wall of the oil tank without stagnation along the slope of the lower surface of the cryostat. Therefore, local heating of the hot oil can be prevented, and deterioration of the insulating oil and damage to the cryostat can be avoided.

(Example) Examples of the present invention will be described in detail below. In addition.

Parts that are the same in structure as the conventional V& Figure 1 is.

3 shows the structure of a gyrotron oscillation reward constructed using the cryostat for a gyrotron of the present invention. The lower surface of this cryostat is inclined toward the bottom surface of the oil tank 4 so that the normal temperature space into which the gyrotron flexing tube 2 is inserted is convex. Therefore, the insulating oil heated by the power supply equipment 6 can convect without stagnation along the inclined surface of the cryostat 9, which prevents local heating of the insulating oil. oil deterioration.

Damage to the cryostat can be avoided.

〔Effect of the invention〕

As mentioned above, by using the gyrotron cryostat of the present invention, the insulating oil in the oil tank can convect without stagnation, so deterioration of the insulating oil and damage to the cryostat can be prevented, and the following: As a result, a gyrotron 14rR device capable of operating for a long period of time can be constructed.

[Brief explanation of the drawing]

11A is an ablation diagram showing the cryostat for a gyrotron of the present invention and the gyrotron constructed using the same; FIG. 2 is a diagram showing the conventional cryostat for a gyrotron and the gyrotron constructed using the same. Seismic isolation T
FIG. 2 is a configuration diagram showing the device. l... Gyrotron oscillation tube, 2... Electron gun, 3.
... Cryostat for gyrotron, 4... Oil tank, 5... Socket, 6... Power supply equipment, 7...
・Socket support plate, 8...Insulating oil. Agent Patent Attorney Ken Nori Chika Udo Kikuo Takehana

Claims (1)

[Claims] In a cryostat for a gyrotron that has means for supporting and cooling a plurality of coaxial superconducting solenoid magnets and a hollow normal temperature space into which a gyrotron is inserted, and is used by being installed in an oil tank, the lower surface of the cryostat is A cryostat for a gyrotron, characterized in that the gyrotron is tilted so that the side of the normal temperature space into which the gyrotron is inserted is convex.