KR101080936B1 - an earthquake-proof apparatus of a fuel rack - Google Patents

Abstract

The present invention relates to an earthquake resistant device of a nuclear fuel reservoir to minimize deformation and damage caused by an external impact such as an earthquake, and has a rectangular cross section on an upper surface of a base plate and forms a plurality of cans with an open upper surface. In the nuclear fuel storage unit coupled integrally, a horizontal fixing plate which is fixed to the upper surface of the can in a horizontal direction and arranged in parallel to the plurality; horizontally fixed plate coupled to the horizontal fixing plate at a right angle, a plurality of parallel vertically spaced plate It is configured to include.

Accordingly, it is easy to manufacture and install, but has an effect of preventing damage to the nuclear fuel reservoir caused by the impact of an earthquake.

Nuclear fuel, reservoirs, cans, seismic, breakage, deformation

Description

Earthquake-proof apparatus of a fuel rack

The present invention relates to a nuclear fuel reservoir for storing spent fuel assemblies, and more particularly, to a seismic device of a nuclear fuel reservoir for minimizing deformation and damage caused by an external impact such as an earthquake.

In general, a nuclear fuel rod used in a nuclear power plant is filled with uranium fillet inside a cylindrical rod formed with a space therein to have a rod shape as a whole, and a plurality of such fuel rods form a fuel assembly.

The fuel assembly is to be safely stored by using a separate storage stand according to the characteristics of the form before and after use, a fuel reservoir for storing the fuel assembly is typically a flat plate-shaped base plate (10) A plurality of supports 20 are fixed to the bottom surface of the base plate 10 so that the base plate 10 is spaced apart from the ground.

In addition, a space is formed on an upper surface of the base plate 10 so that a plurality of cans 30 having a square cross section and an open upper surface are coupled to store the spent fuel assembly described above, and the can 30. By allowing a plurality of the combined fuel assembly to be inserted into the inside of each can 30 so that the plurality of lattice shapes can be stored at the same time in a single fuel storage, the spent fuel assembly can be stored simultaneously, The outer surface of the) is coupled to the boral plate 31 and the cover plate 32 surrounding the boral plate to prevent nuclear reaction.

However, the conventional spent fuel assembly as described above has a risk that the can is deformed or broken when a direct impact is applied from the side of the can as the upper surface of the can is formed into an open cylindrical shape.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is to provide a seismic device of the nuclear fuel reservoir to maximize the seismic strength of the existing nuclear fuel reservoir with a simple configuration.

In addition, it is an object of the present invention to improve the integrity of the nuclear fuel reservoir of the mechanical structure by fixing the horizontal fixing plate and the vertical fixing plate to be firmly engaged with each other.

In order to achieve the above object, the present invention has a rectangular cross section on the upper surface of the base plate and a plurality of cans of which the upper surface is open to form a lattice shape and integrally coupled in the nuclear fuel reservoir, the horizontal direction on the upper surface of the can And a plurality of horizontal fixing plates which are fixed in parallel to and spaced apart from each other; and a vertical fixing plate which is coupled to form a right angle with the horizontal fixing plate and arranged in parallel to the plurality of parallel fixing plates, wherein the horizontal fixing plates are recessed downward on the upper surface. A coupling groove is formed, and a plurality of locking grooves recessed to be inserted into the coupling groove are formed on the lower surface of the vertical fixing plate, and the horizontal fixing plate and the vertical fixing plate are fixed to the upper side of the can.

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Accordingly, the present invention provides a seismic device of the nuclear fuel storage stand to maximize the seismic strength of the existing fuel storage stand by the simple configuration of the horizontal fixing plate and the vertical fixing plate, while making the installation and installation simple, damage to the nuclear fuel storage stand due to the impact of earthquakes and the like. It will have the effect of preventing.

In addition, the present invention by forming a coupling groove and the locking groove so that the horizontal fixing plate and the vertical fixing plate is firmly engaged with each other, the vertical fixing plate is firmly coupled to the horizontal fixing plate without using a separate fixing means to shift or slip each other In addition to being prevented, the supporting force of the horizontal fixing plate and the vertical fixing plate is maximized.

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

1 is an exploded perspective view showing an embodiment of the present invention, Figure 2 is a perspective view showing a combined state of Figure 1, the present invention relates to a nuclear fuel storage table for storing the nuclear fuel used in the nuclear power plant as shown In addition, a plurality of cans 30 are provided with a horizontal fixing plate 41 and a vertical fixing plate 42 on the upper surface of the cell module 40 coupled to form a lattice and when the impact or load is applied from the outside of the can 30. The present invention relates to a seismic device of a nuclear fuel reservoir that supports deformation and damage of (30).

The fuel reservoir is provided with a base plate 10 in the form of a plate on the lower side, has a square cross section on the upper surface of the base plate 10 is formed in the inner receiving space for storing the spent fuel assembly and the upper surface is open A plurality of cans 30 are provided, and the cans 30 form a lattice shape and are integrally coupled to each other so that a plurality of spent fuel assemblies are stored in a single fuel reservoir.

In addition, the nuclear fuel storage station is fixed to the plurality of supports 20 to be fixed to the base plate 10 is spaced apart from the ground on the lower surface of the base plate 10 as shown in FIG.

In addition, the outer surface of the can 30 is attached to the boral plate 31 to prevent nuclear reaction and the cover plate 32 surrounding the boral plate 31 to attach the nuclear reaction in the process of storing the nuclear fuel assembly after use It is preferable.

The horizontal fixing plate 41 is formed of a stainless steel plate or the like made of the same material as the can 30, and is formed in a length corresponding to the width of the cell module 40 in the horizontal direction on the upper surface of the cell module 40. Is arranged, but a plurality of parallel to be spaced apart at a predetermined interval, and fixed to the upper side of the cell module 40 by a coupling method such as welding.

The vertical fixing plate 42 is orthogonal to the horizontal fixing plate 41 so that a plurality of the horizontal fixing plates 41 are arranged in parallel to each other so that the horizontal fixing plate 41 and the vertical fixing plate 42 form a lattice as a whole and are applied from the outside of the cell module 40. Support the shock.

In addition, the vertical fixing plate 42 forms a plurality of coupling grooves 411 recessed downward in the upper surface of the horizontal fixing plate 41 in order to have a more solid binding force and easy assembly, the vertical fixing plate 42 Forming a plurality of engaging grooves 421 recessed to the upper side to correspond to the coupling groove 411 in the engaging groove 411 and the engaging groove 421 are engaged with each other, the horizontal fixing plate 41 and the vertical fixing plate 42 ) Is preferably integrally coupled.

In addition, the horizontal fixing plate 41 is preferably fixed to the outer wall of the plurality of cans 30 by welding, and the vertical fixing plate 42 is also coupled to orthogonal to the horizontal fixing plate 41.

1 is an exploded perspective view showing an embodiment of the present invention.

Figure 2 is a perspective view showing a coupled state of FIG.

Figure 3 is a perspective view showing an example of a conventional fuel reservoir.

[Description of Drawings]

10: base plate

20: Support

30: can

   31: Boral plate 32: Cover plate

40: cell module

   41: horizontal fixing plate 411: coupling groove

   42: vertical fixed plate 421: locking groove

Claims (3)

delete delete In the nuclear fuel storage table provided with a cell module 40 integrally coupled with a plurality of cans 30 having a rectangular cross section on the top surface of the base plate 10 and having an open top surface in a lattice shape, A horizontal fixing plate 41 fixed to the upper side of the cell module 40 in a horizontal direction and spaced apart from each other in parallel; And a vertical fixing plate 42 coupled to form a right angle with the horizontal fixing plate 41 and spaced apart in parallel. The horizontal fixing plate 41 is formed with a plurality of coupling grooves 411 recessed downward on the upper surface, a plurality of locking grooves 421 recessed to be inserted into the coupling groove 411 on the lower surface of the vertical fixing plate 42. ) Is formed, The horizontal fixing plate 41 and the vertical fixing plate 42 is fixed to the upper side of the can 30, the seismic device of the nuclear fuel reservoir.

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