RU2687289C1 - Device for attachment of blanket module on vacuum housing of thermonuclear reactor - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to a device for fastening a blanket module on a vacuum housing of a thermonuclear reactor. Device includes a hollow cylindrical support with two flanges and flexible rod elements installed between them, separated by slots made in the axial direction of the support. Support is connected to the blanket module by one flange and the other one is installed in the mounting seat of the vacuum housing. Slits are uniformly located along the periphery of the flanges, and each of them has an external end located on the outer surface of the support, and an internal end located on the inner surface of the support. Slots in the cylindrical support are made so that each slot has a slit symmetrical to it, relative to the outer end and the plane passing through the axis of the cylindrical support and the outer end of the slot. Each slot is made at an angle to the plane passing through the axis of the cylindrical support and the outer end of the slot, wherein the value of the angle for all the slots is the same.EFFECT: technical result is maintaining required flexibility of support at axial forces in plane perpendicular to axis of support, while reducing axial dimension of support.1 cl, 2 dwg

Description

The invention relates to the field of thermonuclear fusion and can be used in devices for mounting a blanket module on the vacuum housing of a fusion reactor.

From the prior art a device for mounting a blanket module on a vacuum case of a thermonuclear reactor is known, which includes a hollow cylindrical support with flexible rod elements installed between the flanges, one of which is connected to the blanket module, and the other is installed in the threaded seat of the vacuum case (A. Rene Raffray, Mario Merola. Overview of the ITER blanket system. Fusion Engineering and Design, 87 (2012), page 769-776).

In the known device, the flexible core elements (spokes) are evenly spaced around the periphery of the flanges and are separated from each other by slots extended in the axial direction of the support. The slits are obtained by cutting a cylindrical support in planes passing through the axis of the support. During the operation of a fusion reactor, large axial forces act on the support, and as a result, to provide the necessary support flexibility in the direction perpendicular to the axis of the support, the axial envelope of the slits should be developed (on average, up to half a support diameter). The size of the slits determines the development of the axial dimension of the entire support, which in turn requires a deep seat in the vacuum housing of the fusion reactor.

A disadvantage of the known device for mounting a blanket module on the vacuum housing of a fusion reactor is the difficulty of forming a deep seat in the vacuum housing for mounting the support. In addition, a disadvantage of the known device is also the presence inside the support of the space not occupied by the structural elements, which is explained by the axial dimension of the support, and, as a consequence, the deterioration of the radiation protection of the thermonuclear reactor, which in turn affects its reliability.

The use of the present invention allows to solve the technical problem associated with the complexity of the formation in the vacuum case of a thermonuclear reactor a deep seat for fixing the support, and to increase the reliability of the thermonuclear reactor.

The technical result of the present invention is the preservation of the necessary flexibility of the support with axial forces in the plane perpendicular to the axis of the support, while reducing the axial dimension of the support.

This technical result is achieved by the fact that in the known device for mounting the blanket module on the vacuum vessel of a thermonuclear reactor, comprising a hollow cylindrical support with two flanges and flexible rod elements mounted between them, separated by slots made in the axial direction of the support, one support flange is connected to the module the blanket, and the other installed in the landing slot of the vacuum case, with the slots evenly spaced around the periphery of the flanges, and each of them has an external horse C, located on the outer surface of the bearing and the inner end located on the inner surface of the support, according to the claimed invention, each slot has a symmetrical slot with respect to the outer end and the plane passing through the axis of the cylindrical support and the outer end of the slot, with each slot made at an angle to the plane passing through the axis of the cylindrical support and the outer end of the slot, and the angle for all the slots is the same.

Compared with the known prototype device, the device in which the claimed set of essential features is realized has a more compact axial dimension while maintaining the total aggregate cross-section of the spokes and provides the necessary load-bearing capacity and compliance with axial forces in a plane perpendicular to the axis of the support. This also reduces the space inside the flexible support, which is not occupied by the structural elements (by reducing the axial dimension of the support), which has a positive effect on the radiation safety of the thermonuclear reactor.

The invention is illustrated by drawings, which show a side view with a section of a device for mounting a blanket module on the vacuum housing of a fusion reactor (Fig. 1) and a cross-section of the device (Fig. 2).

The device for mounting the blanket module on the vacuum housing of a fusion reactor contains a flexible support 1 with two flanges, one of which is a flexible support 1 fixed to the vacuum housing 2 of the thermonuclear reactor, and the other is fixed in the module of the blanket 3 with the formation of a flange connection with it using a bolt 4, nuts 5 and bushings 6. The flexible support 1 has slots in the middle part, which are axially long and evenly spaced around the periphery of the flanges. Each slot has an outer end located on the outer surface of the support and an inner end located on the inner surface of the support (Fig. 2). The plane of each slot is at an angle to the plane of the cylindrical support passing through the axis and the outer end of the slot, and the angle for all the slots is the same. Each slot has a symmetrical slot with respect to the outer end and the plane passing through the axis of the cylindrical support and the outer end of the slot.

A device for mounting a blanket module on the vacuum housing of a fusion reactor works as follows. The blanket module 3 should be securely mounted on the vacuum case of thermonuclear reactor 2. During the operation of the thermonuclear reactor, the blanket module is subject to dynamic loads from plasma breakdowns. Flexible support 1 perceives the compressive and tensile components of the external load arising at the place of installation of the mounting device, and the force from the blanket module 3 should be transferred to the vacuum vessel of the reactor 2. The compressive or tensile force components from the blanket module 3 through the sleeve 6, the nut 5 and the bolt 4 is transferred to the flexible support 1, and from the flexible support 1 through the threaded connection is transferred to the vacuum casing 2, while the flexible support 1 does not transmit the transverse components of the force to the vacuum casing of the reactor 2, since The Lake axially provide its pliability (flexibility) in a plane perpendicular to the axis.

Claims (1)

A device for mounting a blanket module on the vacuum housing of a fusion reactor, comprising a hollow cylindrical support with two flanges and flexible core elements installed between them, separated by slots made in the axial direction of the support, one flange of the support connected to the blanket module, and body, while the slots are evenly spaced around the periphery of the flanges, and each of them has an outer end located on the outer surface of the support, and an inner end, located on the inner surface of the support, characterized in that the slits in the cylindrical support are made so that each slot has a slot symmetrical to it, relative to the outer end and the plane passing through the axis of the cylindrical support and the outer end of the slot, and at the same time each slot is angled to the plane passing through the axis of the cylindrical support and the outer end of the slot, and the angle for all the slots is the same.

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