KR102010669B1 - Disassemble device of Reactor Vessel Internals of nuclear reactor - Google Patents

Abstract

The present invention relates to a device for dismantling an internal structure of a nuclear reactor, the tank comprising a cylindrical tank for accommodating the internal structure of the reactor in the state filled with water, a turn table installed on the inner bottom surface of the tank and seating the reactor internal structure; It is installed so as to be lifted along the longitudinal direction of the tank, and includes a plurality of cutting modules are driven in different directions to cut the reactor internal structure.

Description

Disassemble device of Reactor Vessel Internals of nuclear reactor

The present invention relates to an apparatus for dismantling an internal structure of a reactor, and more particularly, to an apparatus for dismantling an internal structure of a reactor capable of dismantling an internal structure of a reactor with a water tank.

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)

SUMMARY OF THE INVENTION An object of the present invention is to provide a dismantling apparatus for a reactor internal structure that can dismantle the reactor internal structure with a water tank.

The dismantling apparatus of the reactor internal structure of the present invention includes a cylindrical tank for accommodating the modular reactor internal structure in a state filled with water, a turn table installed on the bottom surface of the tank, and the reactor internal structure seated thereon; It is installed to be elevated along the longitudinal direction of the, and driven in different directions includes a plurality of cutting modules for cutting the reactor internal structure.

The cutting module is characterized in that a plurality of a pair of cutters are installed to be orthogonal to each other.

The cutter is characterized in that the circular cutter.

The cutting module supports a plurality of first cutters that rotate in a direction perpendicular to the longitudinal direction of the tank, a plurality of second cutters that rotate in the longitudinal direction of the tank, and supports the first cutter and the second cutter, respectively. A support frame, and a drive device for rotating the first cutter and the second cutter and lifting the support frame.

The turn table may be rotated in a clockwise or counterclockwise direction when the reactor internal structure is seated.

And a plurality of linear guides detachably coupled to the turn table to align the tubular structures on both sides of the tubular structure when the tubular structure is cut in the reactor internal structure.

The linear guide is provided in a pair, characterized in that the length is variable.

It further includes an auxiliary cutting module that is installed to be elevated in the longitudinal direction of the tank.

The auxiliary cutting module includes a band-shaped auxiliary cutter, a support frame for supporting the auxiliary cutter, and driving means for driving the auxiliary cutter and the support frame.

The auxiliary cutter is characterized in that any one of a band saw, a wire saw, a reciprocating saw.

The dismantling apparatus of the reactor internal structure according to an embodiment of the present invention is provided with a plurality of circular saws disposed orthogonally to each other and a separate guide for cutting the tubular structure, thereby quickly and accurately cutting and dismantling the reactor internal structure. There is an advantage to this.

1 is a side view showing a dismantling apparatus of a reactor internal structure according to an embodiment of the present invention;
2 is a plan view showing a dismantling device of the reactor internal structure according to FIG. 1;
3 is a plan view illustrating a dismantling apparatus of a reactor internal structure according to another embodiment of the present invention.

Hereinafter, with reference to the drawings, it will be described in detail for the dismantling apparatus 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 a dismantling device for separately transporting and processing the drawn reactor internal structure will be described in detail below.

1 is a side view showing a dismantling device of the reactor internal structure according to an embodiment of the present invention, Figure 2 is a plan view showing a dismantling device of the reactor internal structure according to FIG.

1 and 2, the reactor internal structure 10 is modularized in the form of a cylindrical aggregate, and the dismantling operation is performed in a state in which it is housed in a tank of the dismantling device 100.

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 displayed.

The dismantling device 100 of the reactor internal structure is installed in a cylindrical tank 110 in which the reactor internal structure 10 is accommodated in a state where water is filled, and installed on the inner bottom surface of the tank 110 so that the reactor internal structure 10 is seated. The turn table 150, the plurality of cutting modules 130 for cutting the reactor internal structure 10, and the linear guide 170 installed on the turn table 150 to serve as a guide for cutting the tubular structure. It is configured to include.

The water tank 110 is filled with water in a state where the turn table 150 is installed therein, and the reactor internal structure 10 is seated on the turn table 150. The weight of the turn table 150 and the reactor internal structure 10 allows the reactor internal structure 10 to remain seated on the turn table 150 despite buoyancy caused by water. However, since the reactor internal structure 10 may flow during cutting, the reactor internal structure 10 may be fixed to the turn table 150 using a separate fixing jig (not shown). A plurality of cutting modules 130 are installed on the inner circumferential surface of the water tank 110.

Turn table 150 is a device that is provided with a rotating means (not shown) to rotate the reactor internal structure 10 in a clockwise or counterclockwise direction, it is possible to control the rotational direction or rotational speed from the outside of the tank (110) have. The turn table 150 may be driven by the self driving means 152 (including a power source such as a battery) or may be performed by a power source and a driving device connected to the outside. The turn table 150 may be formed in a circular shape corresponding to the shape of the inner bottom surface of the water tank 110. In addition, the reactor internal structure 10 is inserted and seated on the turn table 150, and a cylindrical support 154 having a predetermined height may be provided.

The cutting module 130 may include a first cutter 132 rotating in a direction perpendicular to the z axis and a support frame 136 supporting it, a second cutter 134 rotating in the z axis direction (see FIG. 1), and It comprises a support frame 136 for supporting it and a driving device not shown in the drawing. The driving device may drive the cutter and the support frame with its own power by a battery or the like, or may be connected to an external power source to drive them.

The first cutter 132 and the second cutter 134 may be circular cutters that rotate in directions perpendicular to each other. Each support frame 136 is elevated along the z-axis, which is the longitudinal direction of the reactor internal structure 10, and the first cutter 132 rotates to cut the reactor internal structure 10 in the horizontal direction (L). The second cutter 134 rotates to cut the reactor internal structure 10 in the z-axis direction. As the support frame 136 is raised and lowered and the first cutter 132 and the second cutter 134 are operated, the reactor internal structure 10 is cut into multiple blocks having a hexahedron shape as shown in FIG. 1 to be disassembled. Can be.

When the cutting order of the reactor internal structure 10 is cut in the z-axis direction by the second cutter 134, the first cutter 132 is cut in the horizontal direction perpendicular to this, and then one block is cut. Using a lifting mechanism such as a gripper (not shown), the cut block may be transported, packed and moved. When cutting the reactor internal structure 10, the turn table 150 may be driven to rotate as needed.

The linear guide 170 may be detachably coupled to the turn table 150, and may be installed in a radial direction of the turn table 150, but installed in at least one pair. The linear guide 170 is implemented in a double pipe shape, such that the length can be variable, the length can be varied by inserting or protruding a smaller diameter pipe in one pipe, both ends of the outside of the turntable 150 It may be coupled to the turn table 150 in a shape that is held on the neck. The linear guide 170 may be used to align them on both sides of the tubular structure when cutting the tubular structure, which is one component of the reactor internal structure 10, to prevent the tubular structure from being out of position during cutting. Since the linear guide 170 may be detachably coupled to the turn table 150, the linear guide 170 may be appropriately moved according to the position or size of the tubular structure to be positioned at both sides of the tubular structure.

3 is a plan view illustrating a dismantling apparatus of a reactor internal structure according to another embodiment of the present invention.

In the above-described embodiment, the dismantling apparatus of the reactor internal structure having two types of cutters disposed to be orthogonal to each other has been described, but it may further include an auxiliary cutting module.

As shown in FIG. 3, the dismantling apparatus 100 ′ of the reactor inner structure according to another embodiment of the present invention may further include an auxiliary cutting module 190 in addition to the structure of the dismantling apparatus 100 of FIGS. 1 and 2. It can be provided.

The auxiliary cutting module 190 includes an auxiliary cutter 192 composed of a band saw, a wire saw, or a reciprocating saw in the form of a band, and a support frame 194 for supporting the auxiliary cutter 192. It may be provided with a drive means not shown. The auxiliary cutting module 190 may be detachably installed and used as necessary.

As described above, the dismantling apparatus of the reactor internal structure according to the present invention is provided with a plurality of circular saws disposed orthogonally to each other and a separate guide for cutting the tubular structure, so that the reactor internal structure can be quickly and accurately cut and There is an advantage to dismantling. In addition, since the cutting is made in the water tank, there is an effect of minimizing the leakage of radioactive material.

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 100, 100 ': dismantling device
110: tank 130: cutting module
150: turntable 170: linear guide
190: auxiliary cutting module

Claims (10)

A cylindrical water tank containing the modular reactor internal structure in a water filled state,
A turn table installed at an inner bottom surface of the tank to seat the reactor internal structure;
It is installed so as to be elevated along the longitudinal direction of the tank, including a plurality of cutting modules are driven in different directions to cut the reactor internal structure,
The cutting module is provided with a plurality of a pair of cutters installed to be perpendicular to each other,
The cutting module supports a plurality of first cutters that rotate in a direction perpendicular to the longitudinal direction of the tank, a plurality of second cutters that rotate in the longitudinal direction of the tank, and supports the first cutter and the second cutter, respectively. And a support frame for rotating the first cutter and the second cutter and lifting the support frame.
delete The method of claim 1,
Dismantling device of the reactor internal structure, characterized in that the cutter is a circular cutter.
delete The method of claim 1,
And the turn table rotates in a clockwise or counterclockwise direction when the reactor internal structure is seated. The method of claim 5,
And a plurality of linear guides detachably coupled on the turn table to align the tubular structures at both sides of the tubular structure when the tubular structures are cut out of the reactor internal structures. The method of claim 6,
The linear guide is provided in a pair, the dismantling device of the reactor internal structure, characterized in that the variable length. The method of claim 3,
Dismantling apparatus of the reactor internal structure further comprises an auxiliary cutting module that is installed to be elevated in the longitudinal direction of the tank. The method of claim 8,
The auxiliary cutting module includes a strip-shaped auxiliary cutter, a support frame for supporting the auxiliary cutter, and a drive means for driving the auxiliary cutter and the support frame dismantling apparatus of the reactor internal structure. The method of claim 9,
And the auxiliary cutter is any one of a band saw, a wire saw, and a reciprocating saw.

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