JPS61139786A - Nuclear fusion device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Technical Field of the Invention) The present invention relates to a fusion device (two S type) and a nuclear fusion device (former type) with an improved support structure for a Vt nidroidal magnetic field coil.

[Technical background of the invention and its problems]

Conventional fusion device! This will be explained using FIGS. 2 to 4. Figure 2 shows one torus-shaped nucleus! ! FIG. 3 is a vertical sectional view of the right side of the vehicle, and FIG. 3 shows a part of the section taken along line 1-1 in FIG. 1 is a donut-shaped discharge tube, and inside of this discharge tube 1 (= means plasma 2 is confined.
In order to confine the inner wall 1 of the discharge tube 1 without leaking (= the outer periphery C of the discharge tube 1 is a toroidal shape (= a plurality of toroidal coils 3 are arranged in parallel at a predetermined interval)
Ru. In addition, in order to generate plasma 2 and maintain equilibrium (- along the toroidal direction of the discharge tube), a plurality of poloidal coils 4 are arranged. Two support frames 5 are installed so as to take out the individual toroidal coils 3.Furthermore, this support frame 5 is attached to the top and bottom of this support frame 5 (two upper and lower sills 6 and 7 (=fixed). Also, between the respective support frames 5 in the torus direction (secondly, an upper fitting vane 8 is inserted to prevent the support frames 5 from deforming).Next (
2. The supporting frame 5 (two supporting frames 5 will be explained) using FIG. (consists of two parts.

Missing (two actions (explained with two actions). The conventional nuclear fusion device iii as mentioned above, (= means the said toroidal coil 3 auto(
The interaction between the directional electromagnetic force (hereinafter referred to as hoop force) and the toroidal coil 3 and the voloidal coil 4, which is generated from the second force and expands the toroidal coil 3, as shown in FIG. As shown in A and B, an electromagnetic force (hereinafter referred to as overturning force) acting in a direction (two directions) that causes the toroidal coil 3 to fall is generated. The spacers 8 are provided with two elements to increase the rigidity of the toroidal coil 3 due to the overturning force (two are provided). As mentioned above (2 each toroidal coil 3 (two supported crushers 5 are provided,
Between the torus sides of this support frame 5 (two spacers 8
The upper mount 6 and lower mount 71 are fixed, so a large torque is applied to the upper mount 6 and lower mount 71, and the mount rotates by the amount corresponding to the rigidity of the screw p of the mount. The supporting barrel 7 was extremely difficult (it required two people to work together).Also, since it was possible to slide between the adjacent toroidal coils 3, the individual rigidity (= deformation of the toroidal coil 3) was the main factor.v! In the torus center frame 1, the cross-sectional area of the toroidal coil 3 is reduced to prevent interference with adjacent coils, so the rigidity of the toroidal coil 3 is weak and the deformation due to the overturning force (== large). = If the deformation of the toroidal coil 3 is large, the induced magnetism i at the normal coil position
An error magnetic field is generated for t2, confining the plasma 2 (
Two negative effects. For this reason, in recent years toroidal coil 30
As the size of the toroidal coil 3 increases, prevention of deformation due to the overturning force of the toroidal coil 3 has become an important issue.

[Purpose of the invention]

An object of the present invention is to provide a nuclear fusion device that has the same strength as that of a toroidal coil.

[Summary of the invention]

In order to achieve the above object, the present invention has an annular discharge tube containing plasma, an outer periphery of this discharge tube (= toroidal coil 11a straightened in parallel, and two toroidal coils lf4 of this toroidal coil that are in contact with each other). This is a two-way toroidal coil (two-stranded toroidal coil).
When a two-turning force is applied to the toroidal coil, the deformation can be reduced and the rigidity of the toroidal coil can be increased.

[Embodiments of the invention]

One embodiment of the present invention (two examples) will be explained using FIG.

The same parts as in Figures 2 to 4 (= are given the same symbols, and the explanation thereof will be omitted. Figure 1 shows the two toroidal coils 3 that have been blown out and the support frame that houses the toroidal coils 3. 1
This is a cross section of 1. The support frame 11 has the following configuration. A center side support frame 12 is attached to the torus center side of the toroidal coil 3 that supports the toroidal coil 3, and an outer peripheral frame 13 that covers the periphery of the toroidal coil 3 is connected to this center side support frame L2. ing. Also, the part sandwiched between 92 adjacent toroidal coils 3 (the second is the * of each toroidal coil 3)
lfit two side plates 14 are attached, and furthermore (= between these side plates 14 (= = is the connection plate 15 whose two sides are in contact with each side plate 14) is attached in the toroidal direction (: even though it is attached, @rfi+; has a side plate 16 attached.The toroidal coil 3
When storing the support frame 10t = 10t, after constructing the support frame 11 other than the side plate 16, store the toroidal coil 3, and then install the side plate 16.
It is preferable to set it to a predetermined digit *+2 ms.

As described above, one support frame 10t = 2 toroidal coils 3 can be housed and fixed in a structure (2) The toroidal coil 3 can have a higher rigidity against the overturning force (2). Also, the side plate 14 and The connecting plate 15 is firmly connected (
Since the two welds are connected, the ratio is the same as in the past (= sliding of the opposing coils is restrained, so the deformation of the toroidal coil 3 is also reduced. For example, the screw rigidity of the toroidal coil 3 is higher than the conventional one support frame one coil Assuming Ip, the uninvented embodiment with one arm and two coils has a stiffness of ~8 Ip, and even if the overturning force is twice that of the conventional one, the deformation is ~8 Ip.
Becomes daytime. In addition, as in the conventional case (: platform (; toroidal coil 3 (2) when navoting by transmitting the total torque acting (
= Comparatively, the support of the whole device can be made reasonable (2).

〔Effect of the invention〕

According to Akira Honji, the rigidity of the rolling force (2) increases, which reduces the deformation of the toroidal coil and prevents the formation of an error magnetic field.

[Brief explanation of the drawing]

FIG. 1 is a partial horizontal sectional view showing one embodiment of the present invention, and FIG.
The figure is an M-side view of the right side of a conventional fusion device, Figure 3 is a partial horizontal sectional view along the It's a circle diagram. 1...Discharge tube, 2...Plasma, 3...
- Toroidal coil, U... Support frame, 12... Center side support frame, 13... Outer peripheral frame, 14... Side plate, 15... Connection plate, 16... Side plate. Agent: Patent attorney Kensuke Chika (and 1 other person) Figure 1,
A Figure 2 Figure 3 Figure 4

Claims (1)

[Claims] 1. An annular discharge tube containing plasma, a plurality of toroidal coils arranged side by side in a toroidal shape around the outer periphery of the discharge tube, and a support frame that houses and supports and fixes two adjacent toroidal coils. A nuclear fusion device comprising: 2. The support frame includes a center side support frame provided on the torus center side of the toroidal coil, a side plate provided on the side surface of the toroidal coil, and a connection provided between the outer peripheral frame that covers the periphery of the toroidal coil and the toroidal coil. 2. The nuclear fusion device according to claim 1, wherein the nuclear fusion device is comprised of two plates, each of which is joined by welding.