KR102027198B1 - moving device of Reactor Vessel Internals of nuclear reactor - Google Patents

Abstract

The present invention relates to a transfer device of an internal reactor structure, and includes a turn table for supporting the inner structure of the reactor when the inner structure of the reactor is cut, and a fragment of the reactor inner structure cut from the turn table when the inner structure of the reactor is cut. A conveying device for conveying, and a cylindrical cask coupled to the conveying device to seal the cut piece of the reactor internal structure.
According to the present invention, the inner structure of the reactor can be cut into an easy form of cask packaging, and the cask packaging can be moved to minimize the radiation exposure and to easily transport the inner structure of the reactor.

Description

Moving device of reactor reactors of nuclear reactor

The present invention relates to a transfer device of the reactor internal structure, and more particularly to a transfer device of the reactor internal structure easy to cask packaging.

In general, abolition measures are taken at the end of operation in nuclear power plants such as nuclear power plants. The abolition proceeds in the order of systematic decontamination, safe storage of fuel and demolition.

In demolition demolition, the internal pipes and equipment must be removed before the building is removed. Dismantling demolition should not scatter radioactive material to the outside and it is necessary to prevent radiation exposure to workers engaged in dismantling demolition.

Among apparatuses, the dismantling of the reactor pressure vessel is the most difficult. Conventionally, water is filled in a cavity, the furnace structure is taken out and dismantled by a cutting device, and the reactor pressure vessel is cut by the cutting device and then taken out.

Furnace structures, commonly referred to as reactor vessel internals, are modular in the form of cylindrical assemblies. An example of such a modular reactor internal structure is disclosed in Korean Patent Registration No. 10-0423814.

The reactor internal structure is taken out of the reactor by a separate dedicated transfer device, etc., and the reactor internal structure taken out to a separate treatment facility is cut and dismantled to the required size for disposal. Therefore, the dismantling of the reactor internal structure is performed in various ways in order to prevent the exposure of workers in the separate treatment facilities and to prevent the scattering of radioactive contaminants, but there is a problem in that the dismantling time is long and the dismantling process is complicated.

Korean Patent Registration No. 10-0423814 (Registration Date 2004.03.09)

It is an object of the present invention to provide a transfer device of a reactor inner structure that is easy to cask package.

The transfer device of the reactor internal structure of the present invention, when cutting the reactor internal structure, and a table to support the reactor internal structure, and when the reactor internal structure is cut is mounted to transfer the pieces of the reactor internal structure cut from the turn table A transfer device, and a cylindrical cask coupled to the transfer device to seal the cut piece of the reactor internal structure.

The turn table may be partially separated by the number of pieces of the cut reactor internal structure.

The separate turn table is coupled to the transfer device.

The turn table may be formed in correspondence with a disc-shaped base, a plurality of plates detachably coupled to an upper portion of the base, a transfer portion provided at a lower portion of each plate, and coupled to the base, and corresponding to a position of the transfer portion. And a coupling part coupled to the transfer part.

The conveying portion is characterized in that the projection or roller protruding toward the base.

The coupling part is a recess groove for accommodating the protrusion when the transfer part is a protrusion, and a rail supporting the roller slidably when the transfer part is a roller.

The transfer device includes a disc shaped main body supporting the cut reactor internal structure piece, an accommodating part provided on an upper surface of the main body and coupled to the transfer part, and a lower surface of the main body to support the main body so as to be movable. It includes a plurality of wheels.

The accommodating part is a concave recess for accommodating the protrusion when the conveying part is a protrusion, and a rail for slidably supporting the roller when the conveying part is a roller.

The cask is open at one side in a longitudinal direction, and is coupled to an upper portion of the body to seal the cut reactor internal structure.

The apparatus for transferring a reactor internal structure according to an embodiment of the present invention may minimize the radiation exposure and easily transport the reactor internal structure by cutting the reactor internal structure into a form that facilitates cask packaging and moving the cask package. .

1 is a schematic diagram showing a transfer device of the reactor internal structure according to an embodiment of the present invention,
Figure 2 is a schematic diagram showing a separated state after cutting of the reactor internal structure according to Figure 1,
3 is a schematic diagram showing a state mounted on the transfer apparatus after the separation of the reactor internal structure according to FIG.
FIG. 4 is a schematic diagram showing a packed state after the reactor internal structure according to FIG. 3 is mounted in a transport apparatus.

Hereinafter, with reference to the drawings, it will be described in detail with respect to the transfer device of the reactor internal structure according to an embodiment of the present invention.

In general, a reactor pressure vessel (hereinafter referred to as a reactor vessel) is located in the center of a reactor containment building and is mounted inside a shield wall. Steam generators, reactor coolant pumps and pressurizers are arranged around the shield wall. The closed wall is surrounded by a reactor tank.

Typically, the dismantling of the reactor vessel is carried out in a state where the standing period is sufficiently long after the nuclear fuel has already been removed, the coolant pipes are cut and sealed, and a reactor dismantling facility is installed. The reactor vessel and head are then separated to lift the head, and water is injected into the reactor tank before the head is completely separated to minimize the amount of radiation.

After separating the head, the reactor internal structure and the instrument guide tube bundle are withdrawn and removed, and the reactor vessel is cut into a plurality of blocks by a cutting device. The present invention relates to an apparatus for cutting and transporting a reactor internal structure and a method for cutting and transporting the reactor internal structure for separately transporting and processing the drawn reactor internal structure.

1 is a schematic diagram showing a cutting and transporting apparatus of the reactor internal structure according to an embodiment of the present invention, Figure 2 is a schematic diagram showing a separated state after cutting of the reactor internal structure according to FIG. FIG. 3 is a schematic diagram showing a state in which the reactor internal structure according to FIG. 2 is mounted on the transport apparatus, and FIG. 4 is a schematic diagram illustrating a state in which the reactor internal structure according to FIG. 3 is packaged after being mounted in the transport apparatus.

As shown in Figure 1 and 2, the transfer device of the reactor internal structure according to an embodiment of the present invention and the turn table 100 for supporting the reactor internal structure 10 during cutting of the reactor internal structure 10 and And a transfer device 300 used to transfer the cut reactor internal structure piece 12 and a cask 500 used for the hermetic packaging of the cut reactor internal structure piece 12.

First, the reactor internal structure 10 may be cut into pieces as many as the pieces of the turntable 100 are separated in a state seated on the turntable 100. At this time, the reactor internal structure 10 may be cut in the longitudinal direction of the cylinder may be cut into a flat fan shape.

In general, the inner structure of the reactor structure is divided into upper and lower parts, and aligns and supports the fuel assembly to maintain the gap between the control rods to prevent and protect the escape of the fuel assembly. Looking at the reactor internal structure in detail is made of a very complex structure, but in the present invention, since the dismantling device is not the detailed structure of the present invention, the structure of the reactor internal structure is simplified and represented in a cylindrical shape.

Tools for cutting may use existing cutting devices.

As a simple example for a cutting device, the cutting device includes a pair of support frames installed on the main surface of the turntable, a lifting mechanism for lifting along the longitudinal direction of each support frame, and mounted on the lifting mechanism for raising and lowering the reactor. It may be composed of a cutter for cutting along the longitudinal direction of the internal structure. The cutter may be provided with a wire saw coupled to a pair of lifting mechanisms, respectively, or a band saw, which is rotated and cut through a lifting mechanism. If the reactor internal structure 10 can be cut into the shape of FIG. 1, it is not limited to the tool.

As shown in FIGS. 1 and 2, the turn table 100 has a base 110, which is a circular plate shape having a predetermined thickness, and a plate 130 detachably coupled to an upper portion of the base 110. ). The plate 130 has a predetermined thickness and is separated into a number corresponding to the number of cut pieces of the reactor internal structure 10. Therefore, the plate 130 is divided into a flat shape in the shape of a fan, and each plate 130 is separated into a single disk shape when coupled to the base 110. The lower portion of each plate 130 is provided with a transfer portion 150 protruding to be coupled to the base 110, the base 110 is coupled to the recess formed from the upper surface of the base 110 corresponding to the position of each transfer portion 150 The unit 170 is provided.

The transfer part 150 is formed to protrude in the lower portion of each plate 130, is formed to protrude in a predetermined length along the radial direction. The transfer part 150 is slidably coupled to the coupling part 170 formed on the base 110 to maintain the coupling state with the base 110. In addition, the transfer unit 150 is coupled to the transfer device 300 also serves to fix the plate 130 to the transfer device 300.

As shown in FIG. 3, the transfer apparatus 300 includes a disc-shaped main body 310 having a predetermined thickness, an accommodating part 330 formed in the upper surface of the main body 310, and a main body 310. Is coupled to the lower portion is configured to include a plurality of wheels 350 to support the body 310 to be movable.

The main body 310 is a portion that covers the lower portion of the cask 500 to be described later, and the size that can completely cover the lower portion of the cask 500 while having a size that can be mounted to the reactor internal structure pieces 12. It is preferable to form. On the upper surface of the main body 310, a receiving portion 330 having a shape corresponding to the shape of the transfer portion 150 formed on the plate 130 is recessed from the upper surface. The accommodating part 330 is preferably formed along the radial direction of the main body 310. Only the receiving portion 330 may be formed in the upper surface of the main body 310, the receiving space of the shape corresponding to the shape of the plate 130 is formed first, and then the receiving portion in which the conveying unit 150 is inserted into the upper surface is formed May be In the former case, the plate 130 is seated on the upper surface of the main body 310 to protrude as much as the thickness of the plate 130, and in the latter case, the plate 130 is seated in an integrally coupled state to the main body 310. .

Since the body 310 is provided with the wheel 350, the transfer device 300 may be moved to the turn table 100, and the plate 130 may be in close contact with one of the plates 130 of the turn table 100. Pulling the conveyer 150 slides along the receiving portion 330 while the reactor inner structure piece 12 is moved together. When the plate 130 is coupled to the main body 310, the cask 500 is combined to cover the main body 310, and then the transfer device 300 is moved to a desired place. Cask 500 is coupled to the transfer device 300 serves to seal and transport the reactor internal structure pieces 12.

As shown in FIG. 4, the cask 500 is called a flask, and is mainly used to transport spent nuclear fuel or radioactive structure to a reprocessing plant or to move to a storage. The cask 500 uses water or organic materials to block the emission of neutrons remaining in the spent nuclear fuel or radioactive structure, and iron or zinc is used to block the wires. Many heat sinks are added to the surface to remove decay heat, which is usually large and heavy.

Therefore, after storing the reactor internal structure pieces 12 in the cask 500, a very large force and time are required to lift and move the crane internal structures. In order to solve this difficulty, the present invention cuts and mounts the reactor internal structure pieces 12 in the transfer apparatus 300, and then couples the cask 500 to the main body 310 of the transfer apparatus 300 to transfer the apparatus ( Moving 300 has the effect of simplifying the packaging and transport of the reactor internal structure pieces 12.

In the above-described embodiment, the transfer part protrudes from the bottom of the plate and the coupling part and the receiving part have been described as a recessed groove shape for accommodating the same. It may be implemented in the form of a sliding rail. Alternatively, a groove or a rail may be formed in the lower part of the plate, and protrusions or rollers corresponding to the base or the main body of the transfer device may be formed.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and change the technical idea of the present invention in various forms. Therefore, as long as such improvements and modifications are obvious to those skilled in the art, they will fall within the scope of the present invention.

10: reactor internal structure 12: reactor internal structure fragment
100: turntable 110: base
130: plate 150: transfer unit
170: coupling portion 300: transfer device
310: main body 330: storage
350: wheel 500: cask

Claims (9)

A turntable for supporting the reactor internal structure when the reactor internal structure is cut;
A transfer device that mounts and transfers a piece of the reactor internal structure cut from the turn table when the reactor internal structure is cut;
A cylindrical cask coupled with the transfer device to seal the cut piece of internal structure of the reactor,
And the turn table is partially separated by the number of pieces of the cut reactor internal structure. delete The method of claim 1,
And said separated turn table is coupled to said transfer device. The method of claim 3,
The turn table may be formed in correspondence with a disc-shaped base, a plurality of plates detachably coupled to an upper portion of the base, a transfer portion provided at a lower portion of each plate, and coupled to the base, and corresponding to a position of the transfer portion. And a coupling unit coupled to the transfer unit. The method of claim 4, wherein
The transfer unit is a transfer device of the reactor internal structure, characterized in that the projection or roller protruding toward the base. The method of claim 5,
The coupling part is a concave groove for receiving the projection when the transfer portion is a projection, the transfer device of the reactor internal structure, characterized in that the rail is a sliding support for the roller when the transfer portion is a roller. The method of claim 6,
The transfer device includes a disc shaped main body supporting the cut reactor internal structure piece, an accommodating part provided on an upper surface of the main body and coupled to the transfer part, and a lower surface of the main body to support the main body so as to be movable. Transfer device for the reactor inner structure comprising a plurality of wheels. The method of claim 7, wherein
And the receiving part is a recess groove for accommodating the protrusion when the transfer part is a protrusion, and a rail for slidably supporting the roller when the transfer part is a roller. The method of claim 8,
The cask is open at one side in the longitudinal direction, is coupled to the upper portion of the main body of the reactor reactor, characterized in that for sealing the cut internal structure of the reactor.

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