RU194010U1 - Node of electrical connection of the blanket module with the vacuum fusion reactor casing - Google Patents

Abstract

The invention relates to an electrical connection unit for a blanket module with a vacuum fusion reactor casing and comprises an electrical connection device provided with conductive elements located between the central and side flanges. The central flange of the device is connected to a vacuum housing. The node further comprises a conductive gasket made in the form of a plate, equipped with a flange. The conductive gasket is installed under the contact surface of the side flange of the device for electrical connection and is fixedly mounted in the blanket module by means of fixing elements installed in through holes made in its flange. The technical result is to increase the current load capacity of the electrical connection node of the blanket module with the vacuum case of the thermonuclear reactor, and as a result, increase the specific power of the reactor. 1 ill.

Description

The utility model relates to the field of thermonuclear fusion and can be used in nodes for electrical connection of the blanket module with the vacuum case of a thermonuclear reactor.

The closest to the claimed utility model in terms of essential features is the node for electrical connection of the blanket module with the vacuum case of the thermonuclear reactor, containing a device for electrical connection, equipped with conductive elements located between the central and side flanges, while the central flange of the device is connected to the vacuum body (see Yu.G. Dragunov, A.Yu. Leshukov, Yu.S. Strebkov, etc. Design development, manufacturing, and experimental substantiation awns components blanket system ITER. VAST. Ser. Fusion 2016, v. 39, no. 4, p. 21, Fig. 14).

In a known technical solution, the side flange of the device for electrical connection is in direct contact with the blanket module.

A disadvantage of the known technical solution is its limited current load capacity, which does not allow to increase the specific power of the reactor. The device for electrical connection is made of chromium-zirconium bronze, and the blanket module is made of stainless steel. Due to the difference in the conductivity of the above materials by more than an order of magnitude, when the current flows, local overheating of the blanket module zones occurs, which are in direct contact with the side flange of the device for electrical connection, which causes their plastic deformation and, as a result, worsens the contact conductivity. This phenomenon limits the current load capacity of the electrical connection node of the blanket module with the vacuum case of the thermonuclear reactor.

The objective of this utility model is to increase the specific power of the reactor by increasing the reliability of the electrical connection node of the blanket module with the vacuum reactor vessel.

The technical result of this utility model is to increase the current load capacity of the electrical connection node of the blanket module with a vacuum fusion reactor casing.

The specified technical result is achieved by the fact that in the known node of the electrical connection of the blanket module with the vacuum case of the thermonuclear reactor, containing a device for electrical connection, equipped with conductive elements located between the Central and side flanges, while the Central flange of the device is connected to a vacuum body

according to a utility model, the assembly further comprises a conductive gasket made in the form of a plate, provided with a flange and installed under the contact surface of the side flange of the device, while the conductive gasket is fixedly mounted in the blanket module by means of fixing elements installed in through holes made in its flange.

The above set of essential features allows to increase the current load capacity of the electrical connection node of the blanket module with the vacuum case of the thermonuclear reactor, and as a result, increase the specific power of the reactor due to the presence of a conductive strip installed under the contact surface of the side flange of the device, made in the form of a plate equipped with a flange. The gasket is installed in the seat socket of the blanket module and fixedly fixed therein by means of fixing elements installed in through holes made in its flange. Thus, the area of electrical contact of the structural material of the blanket module with the side flange of the device for electrical connection is increased.

The essence of the utility model is illustrated by the drawing, where in FIG. 1 shows the electrical connection node of the blanket module with the vacuum fusion reactor casing (side view with a cut).

The electrical connection unit of the blanket module with the vacuum case of the thermonuclear reactor comprises a device for electrical connection 1, provided with conductive elements 2 located between the central 3 and side 4 flanges. A mounting hole is made in the central flange 3 for mounting the device 1 to the vacuum housing 5. In the blank module 6, a seat is made for mounting a conductive strip 7 therein, made in the form of a plate provided with a flange in which through holes are made. The gasket 7 is installed in the mounting slot of the blanket module 6 and fixed therein by means of the fixing elements. In the mounting socket of the blanket module 6, holes for attaching the gasket 7 are provided corresponding to the fixing elements 7. The side flange 4 of the device 1 is provided with mounting holes for fastening to the blanket module 6, while the contact of the side flange 4 and the blanket module 6 is carried out through the conductive strip 7.

The assembly of the electrical connection node of the blanket module with the vacuum case of the thermonuclear reactor is as follows.

A conductive gasket 7 is installed in the mounting socket of the blanket module 6 and fixed therein by means of fixing elements installed in the through holes made in its flange. In the blank module 6, threaded rods are installed for fastening the side flange 4 of the device 1. Under the central flange 3 of the device 1, there is a screw for fastening the device 1 to the vacuum housing 5, while the head of the mounting screw faces the blank module 6. On the studs through holes of the side flange 4 install the device 1 and fix it with nuts on the threads of the studs, while the body of the fastening screw is located in the hole of the central flange 3 of the device 1, and the side flange 4 of the device 1 is attracted to the blanket module 6 through current lead the lead gasket 7. The blanket module 6 complete with the device 1, under the contact surface of the side flange 4 of which the conductive gasket 7 is installed, is fed to the vacuum housing 5 of the reactor, while ensuring the alignment of the body of the fastening screw of the device 1 and the threaded hole on the vacuum housing 5. B the conclusion is carried out by tightening the screw attaching the device 1 to the sleeve of the vacuum housing 5 of the fusion reactor.

The device operates as follows.

In the process of operation of a thermonuclear reactor with disruption of the plasma current from the blanket module 6 to the vacuum housing 5, it is necessary to divert a large electric current. To create reliable contact by electric current, the side flange 4 of the device 1 is attracted to the blank module 6 by means of a threaded connection through a conductive gasket 7 made in the form of a plate equipped with a flange. The conductive gasket 7 is installed in the mounting socket of the blanket module 6 before mounting the device 1 and its flange is pulled to the blanket module 6 by means of a threaded connection. This solution allows you to increase the electrical contact area of the blanket module 6, made of stainless steel, with the side flange 4 of the device 1, since the contact is made over the entire area of the conductive strip 7. Thus, the current load capacity of the electrical connection node of the blanket module with the vacuum fusion reactor vessel is increased , and, as a result, the specific power of the reactor increases.

Claims (1)

An assembly for electrically connecting a blanket module to a vacuum fusion reactor casing containing an electrical connection device provided with conductive elements located between the central and side flanges, the device being connected to a vacuum casing by a central flange, characterized in that the assembly further comprises a conductive pad made in in the form of a plate equipped with a flange and installed under the contact surface of the side flange of the device, while conducting conductive adka fixedly mounted in the module of the blanket by means of fixing elements mounted in the through holes formed in its flange.

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