KR101353964B1 - A Vibration Isolator for Nuclear Fuels subjected to External Dynamic Loads - Google Patents

Abstract

The present invention relates to a support for vibration suppression of the nuclear fuel assembly of a passive vibration damping method to effectively insulate the external horizontal vibration, the lower frame having a vertical beam (112) formed perpendicular to each corner as a rectangular frame ( 110); A horizontal movable part 120 mounted on each of the vertical beams so as to be movable in a direction perpendicular to each other with respect to a horizontal plane; An upper frame 130 having a resilient member vertically downward to direct the lower frame 110 on each of the four sides of the horizontal movable part 120 as a rectangular frame; Fixed plates 140 fixed to the elastic members, respectively; Both ends are composed of flexible beams 151 and 152 connected horizontally to the fixed plate 140 and the vertical beams 112 of the lower frame 110 to influence the flow of cooling water supplied to the reactor. Without giving an effective vibration damping in the horizontal direction that can be generated in the fuel assembly by the passive vibration damping means consisting of only the flexible beam has the effect of preventing damage to the fuel rods.

Description

A Vibration Isolator for Nuclear Fuels subjected to External Dynamic Loads}

The present invention relates to a support for vibration suppression of a nuclear fuel assembly, and more particularly, to a support for vibration suppression of a nuclear fuel assembly of a passive vibration damping method to effectively insulate external horizontal vibrations.

Nuclear power plants generate electricity by using enriched uranium as a fuel, and thus, the power generation cost is lower than other energy sources. On the other hand, nuclear power plants are particularly strict in safety because radiation is generated during fission.

Therefore, since nuclear power plants are very important for safety, the site suitability is examined from the site selection considering the effects of the earthquake, and the construction is carried out through strict seismic design and construction stage.

As such, since nuclear power plants require strict safety, they are equipped with vibration suppression facilities in consideration of the effects of external forces such as earthquakes.

However, although conventional nuclear power plants have a vibration suppression facility, they do not individually apply vibration suppression means to the nuclear fuel assemblies.

For example, Patent Registration No. 10-1080936 (Date: 2011.11.01) discloses an earthquake resistant device of a nuclear fuel reservoir, but the registered patent stores the fuel assembly using a separate storage stand before or after use. In this case, it is intended to prevent damage to the fuel storage stand due to an earthquake or the like by simply combining and fixing a plurality of cans in which fuel is stored, so that the fuel can be stored safely.

As described above, there is no conventional means for damping the nuclear fuel assembly itself operated in a nuclear power plant. Therefore, in the present invention, a support for the nuclear fuel assembly capable of vibration insulation with respect to the nuclear fuel assembly itself is developed.

The present invention provides a nuclear fuel assembly which can insulate the horizontal vibration which can be transmitted from the outside to the nuclear fuel assembly by a passive simple vibration damping structure without affecting the flow of cooling water supplied to the nuclear reactor. It is to provide a support for the camp.

According to an aspect of the present invention, there is provided a nuclear fuel assembly vibration suppression support including: a lower frame having a vertical beam extending perpendicular to each corner as a rectangular frame; A horizontal movable part mounted on each of the vertical beams so as to be movable in a direction perpendicular to each other with respect to a horizontal plane; An upper frame having a resilient member disposed vertically downward on four horizontal sides to face the lower frame as a rectangular frame; Fixed plates fixed to the elastic members, respectively; Both ends are achieved by a plurality of flexible beams horizontally connected to each vertical beam of the fixed plate and the lower frame.

Preferably in the present invention, the elastic member is characterized in that the leaf spring, and in the present invention, it is characterized in that the adjustment screw for pressing the flexible beam is added to the vertical beam.

Also preferably, in the present invention, the horizontal movable unit may include: a first movable block having a first roller rotatably seated on the vertical beam; It is seated on the first movable block, and has a second roller that is rotated in a direction orthogonal to the movable direction of the first movable block, the upper may be composed of a second movable block on which the upper frame is seated. Preferably, in the present invention, the first and second movable blocks are provided with a stopper member bent at both ends, and the movable range is limited by the stopper member.

The nuclear fuel assembly vibration suppression support according to the present invention includes a lower frame, an upper frame seated on an upper portion of the lower frame through a horizontal moving part so as to be movable on a horizontal plane with respect to the lower frame, and vibration in a horizontal direction. It consists of a plurality of flexible beams arranged to reduce the energy consumption, and does not affect the flow of the coolant supplied to the reactor, but it does not affect the horizontal vibration that can be generated in the fuel assembly by the manual type of vibration damping means consisting of the flexible beam only. There is an effect that can be effectively damped to prevent damage to the fuel rods.

1 is a perspective view of a support for dust assembly of the nuclear fuel assembly according to the present invention;
Figure 2 is an exploded perspective view of the support for dust assembly of the nuclear fuel assembly according to the present invention,
Figure 3 (a) (b) is a perspective view and an exploded perspective view showing a preferred example of the horizontal movable portion, respectively in the nuclear fuel assembly vibration support according to the present invention,
Figure 4 is a front view of the nuclear fuel assembly vibration support according to the present invention,
5 is a plan view of the support for dust assembly of the nuclear fuel assembly according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 and 2, the nuclear fuel assembly vibration support support 100 according to the present invention, the lower frame 110, and the lower frame via a horizontal movable unit 120 that can move in the horizontal direction An upper frame 130 disposed on the upper portion and a plurality of flexible beams 151 and 152 provided on the lower frame 110 are formed.

The lower frame 110 is a rectangular frame 111 and has an open structure at the center thereof so as not to affect the coolant supplied to the reactor, and four vertical beams 112 vertically extending at each corner are provided.

The vertical beam 112 is formed with a square assembly hole (112a) so that one end of the flexible beam (151, 152) can be inserted and fixed, press the flexible beam (151, 152) corresponding to the assembly hole (112a). The outer circumferential surface is formed with a screw fastening hole 112b capable of fastening the adjustment screw (B).

The horizontal movable part 120 is mounted on each vertical beam 112 and provided to be movable in a direction perpendicular to each other with respect to the horizontal plane.

Specifically, referring to (a) and (b) of FIG. 3, the horizontal movable part 120 includes: a first movable block 122 having a first roller 121 rotatably seated on an upper vertical beam; The first movable block 122 is seated on the upper portion, and has a second roller 123 is rotated in a direction perpendicular to the movable direction of the first movable block 122, the second movable block on which the upper frame is seated ( 124).

The first movable block 122 is a plate material, the bottom surface is provided with a rotatable first roller 121 seated on the upper surface, preferably includes a stopper member 122 bent at both ends. The stopper member 122 functions to limit the movable range while the first movable block 122 is caught by the vertical beam when the first movable block 122 moves back and forth on the vertical beam.

The second movable block 124 is a substantially hexahedral block, and a second roller 123 is provided on the lower surface of the second movable block 124 so as to be movable back and forth in a direction perpendicular to the movable direction of the first movable block 122, preferably bent at both ends. The second stopper member 125 is formed. The second stopper member 125 functions to limit the front and rear movable range while the second movable block 124 is caught by the first movable block 122 when the second movable block 124 moves forward and backward on the first movable block 122.

As such, the configured horizontal movable part 120 can be horizontally moved within a predetermined range in the x direction and the y direction. Therefore, the upper frame is positioned on the lower frame through the horizontal movable part to be a constant plane (xy plane). It has a structure that can move in phase.

Reference numeral 124a denotes an upper frame seating hole formed to allow the engagement protrusion of the upper frame to be fixed.

Referring back to FIGS. 1 and 2, the upper frame 130 is a frame 131 having a center-opened structure similar to the lower frame 110, and the lower frame 110 on each of four sides. It has a leaf spring 132 as an elastic member having elasticity vertically downward to direct. The elastic member may provide a compressive force to the flexible beam disposed to be orthogonal, and may be provided by a known compression spring rather than a leaf spring.

Engagement protrusions 131a may be provided at the bottom of each corner of the upper frame 130 to be assembled with the horizontal movable part 120.

The leaf spring 132 is formed with a slot 132a to be coupled to the fixed plate 140.

The fixed plate 140 is composed of two first and second plates 141 and 142 having a predetermined gap and integrally formed. The fixed plate 140 has a slot 132a of the leaf spring 132 in the outer first plate 141. Has a rail 141a.

One end of the flexible beam is inserted into the gap position between the first and second plates 141 and 142.

Flexible beams 151 and 152 are beam flexible beams formed with notches 151a and 152a. Both ends are horizontally coupled to the fixed plate 140 and the vertical beam 112 so as to have a vertical plane. do.

The nuclear fuel assembly vibration support according to the present invention configured as described above may be mounted on the nuclear fuel assembly at an upper portion to damp vibration generated in the horizontal direction.

Specifically, referring to FIG. 4, the flexible beams 151 and 152 connected between the vertical beams 112 through the fixing plate 140, and the flexible beams 151 and 152 are disposed perpendicular to the compression beams. The leaf spring 132 to provide a vibration portion in the horizontal equation (x direction) can be reduced by designing a portion corresponding to stiffness close to zero in the vibration equation.

On the other hand it is possible to adjust the compression force applied to the flexible beams (151, 152) through the adjustment screw (B).

Referring to FIG. 5, the nuclear fuel assembly vibration support according to the present invention has an open shape at a central portion thereof, and has a flexible beam provided at each side of the square without affecting the flow of coolant supplied from the reactor. Vibration can be prevented against the vibration in the direction, and thus, damage to the fuel rod can be prevented by reducing the vibration in the horizontal direction with respect to the nuclear fuel assembly located on the upper portion of the support.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

110: lower frame 112: vertical beam
120: horizontal moving part 130: upper frame
131: frame 140: fixed plate
151, 152: flexible beam B: adjusting screw

Claims (5)

A lower frame having a vertical beam extending perpendicular to each corner as a rectangular frame;
A horizontal movable part mounted on each of the upper portions of the vertical beams and provided to be movable in a direction perpendicular to each other with respect to a horizontal plane;
An upper frame having an elastic member vertically positioned so as to be positioned on the horizontal movable parts, each of which has a rectangular frame in which a nuclear fuel assembly is seated and positioned at the top, and is oriented downwardly to direct the lower frame on each of four sides;
Fixed plates fixed to the elastic members, respectively;
And a flexible beam having both ends thereof connected horizontally to each of the vertical beams of the fixed plate and the lower frame. The support of claim 1, wherein the elastic member is a leaf spring. The nuclear fuel assembly vibration support of claim 1, wherein an adjustment screw is attached to the vertical beam to press the flexible beam. The method of claim 1, wherein the horizontal movable unit,
A first movable block mounted on the vertical beam and having a first roller rotatable therein;
The second movable block is mounted on the first movable block, the second roller is rotated in a direction orthogonal to the movable direction of the first movable block, and the second movable block is mounted on the upper frame. Support for dust assembly of nuclear fuel assemblies. According to claim 4, wherein the first and second movable block is provided with a stopper member bent at both ends, the movable assembly is characterized in that the movable range is limited by the stopper member.

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