KR20190107820A - Cutting apparatus for the liner plate of a reactor containment - Google Patents

Abstract

The present invention relates to an apparatus for cutting a liner plate in a reactor, which can easily cut a corroded part of a liner plate required with repair in a reactor. According to the present invention, the apparatus for cutting a liner plate in a reactor comprises a rail unit, a magnet fixing unit, and a cutting means. The magnet fixing unit is coupled to both ends of the rail unit to fix the rail unit to a liner plate in a reactor. The cutting means includes a casing, a cutting unit, a pressing unit, and an elastic member. The casing has a receiving unit therein, and is mounted on the rail unit to slide along the rail unit. The cutting unit is mounted on the receiving unit to be vertically moved in a liner plate direction while cutting the liner plate. The pressing unit is mounted on the casing to press the cutting unit to be vertically moved to be inserted into the liner plate so as to cut the liner plate. The elastic member supports the cutting unit inside the casing to restore the movement of the cutting unit when the cutting unit is moved by the pressing unit. According to the present invention, the apparatus for cutting a liner plate, which comprises the rail unit, the magnet fixing unit, and the cutting means, is provided, thereby easily cutting a corroded part of the liner plate even in a narrow space which is difficult to be accessed by a worker. Therefore, work efficiency can be increased by reducing work time.

Description

Cutting apparatus for the liner plate of a reactor containment}

The present invention relates to an in-line liner plate cutting device, and more particularly, to an in-reactor liner plate cutting device that can easily cut off the corroded portion of the liner plate that requires repair in the reactor.

In general, reactor containment buildings are constructed by covering steel plates on concrete surfaces to prevent internal radioactive material from leaking out during operation or use. The steel plate coated in this way serves to support various structures as well as formwork when forming walls by pouring concrete in addition to preventing leakage of radioactive material. This steel plate is usually called a liner plate.

The uppermost part of the reactor containment building takes a long time before the dome is placed after the concrete is poured into the walls. Due to this, there is a problem in that moisture or salt flows into the gap between the liner plate and the concrete and the liner plate is corroded by the oxidation / reduction action.

Therefore, it is necessary to regularly repair the corroded portion of the liner plate for the safety of the containment. At this time, in order to repair the corroded part of the liner plate, the corroded part of the liner plate should be cut. The seismic gap between the liner plate and the concrete inside the dome is 2 inches, which makes it difficult to use the tool freely and work. There was a problem that took a long time.

Republic of Korea Patent No. 10-1171236 (Registration date 2012.07.31) Republic of Korea Registration Room No. 20-0431176 (Registration date 2006.11.08)

The present invention is to solve the above problems. An object of the present invention is to provide a liner plate cutting device in a reactor that can easily cut the corroded portion of the liner plate even in a space that is inaccessible to the operator.

An apparatus for cutting a liner plate in a reactor according to the present invention includes a rail portion, a magnet fixing portion, and a cutting means. The magnet fixing part is coupled to both ends of the rail part to fix the rail part to a liner plate in the reactor. The cutting means includes a casing, a cutting portion, a pressing portion, and an elastic member. The casing has an accommodating portion formed therein and is mounted to the rail portion so as to slide along the rail portion. The cut portion is mounted to the receiving portion to cut the liner plate and to move vertically in the direction of the liner plate. The pressing portion is mounted to the casing to press the cutting portion to vertically move so that the cutting portion is inserted into the liner plate to cut the liner plate. The elastic member supports the cut portion inside the casing so that when the cut portion is moved by the pressing portion, the movement of the cut portion can be restored.

In the above reactor liner plate cutting device, the cutting portion preferably includes a vertical moving block, a driving bar, and a cutting wheel. The vertical movement block is mounted to the upper portion is pressed by the pressing portion and both ends are supported by the elastic member to move vertically to the receiving portion. One end of the driving bar is exposed to the vertical movement block and is rotatably mounted to the vertical movement block. The cutting wheel is detachably mounted to one end of the driving bar to cut the liner plate.

In addition, in the reactor liner plate cutting device in the reactor, when the pressing portion is rotated through the casing so that one end presses the upper end of the vertical movement block to vertically move so that the cutting wheel can be inserted into the liner plate. It is preferable to be screwed with the casing.

ADVANTAGE OF THE INVENTION According to this invention, by providing the liner plate cutting apparatus provided with the rail part, the magnet fixing part, and the cutting means, the corroded part of the liner plate can be easily cut | disconnected even in the narrow space which an operator cannot touch. Therefore, the work time can be shortened and work efficiency can be increased.

1 is a conceptual diagram of one embodiment of a liner plate cutting device in a reactor according to the present invention;
2 is a conceptual view of a cut portion of the cutting means of the embodiment shown in FIG.
3 is a conceptual view excluding the cutting portion of the cutting means of the embodiment shown in FIG.
Figure 4 (a) is a cross-sectional view before operation of the AA 'portion of the cutting means of the embodiment shown in FIG.
Figure 4 (b) is a cross-sectional view after the operation of the AA 'portion of the cutting means of the embodiment shown in FIG.

An embodiment of an in-line liner plate cutting device according to the present invention will be described with reference to FIGS.

The liner plate cutting device in a reactor according to the present invention includes a rail portion 10, a magnet fixing portion 20, and a cutting means 30.

The rail unit 10 serves to guide the cutting means 30 to slide in the axial direction so as to cut the liner plate.

The magnet fixing part 20 serves to fix the rail part 10 to the liner plate. To this end, the magnet fixing part 20 may be coupled to both ends of the rail part 10 and fixed to the liner plate. Here, the magnet fixing part 20 is implemented as an electromagnet, and when it is fixed to the liner plate, the magnetization is supplied by supplying a current, and when the magnet fixing part 20 is separated from the liner plate, the magnet fixing part 20 returns to the original state which is not magnetized.

Cutting means 30 serves to cut the lighter plate. To this end, the cutting means 30 includes a casing 31, a cutting portion 33, a pressing portion 39, and an elastic member 41.

The casing 31 has an accommodating part 32 formed therein and is mounted to the rail part 10 so as to slide along the rail part 10.

The cutting part 33 serves to cut the liner plate, and is mounted to the receiving part 32 to vertically move in the direction of the liner plate. To this end, the cutting part 33 includes a vertical moving block 34, a driving bar 36, and a cutting wheel 38.

The vertical movement block 34 has an upper portion pressed by the pressing portion 39, and both ends 35 are supported by the elastic member 41 so as to be vertically movable to the receiving portion 32.

One end of the driving bar 36 is exposed to the vertical movement block 34 and is rotatably mounted to the vertical movement block 34.

The cutting wheel 38 is detachably mounted to one end of the drive bar 36 to cut the liner plate.

The pressing unit 39 serves to press the vertical moving block 34 so that the cutting wheel 38 can be vertically moved so that the cutting wheel 38 can be inserted into the liner plate to cut the liner plate. To this end, the pressing part 39 rotates through the casing 31 so that one end 40 presses the upper end of the vertical moving block 34 so that the cutting wheel 38 is vertically moved so that the cutting wheel 38 can be inserted into the liner plate. Screwed with (31).

The elastic member 41 serves to restore the movement of the cutting part 33 when the cutting part 33 is moved by the pressing part 39. To this end, the elastic member 41 is supported in one end of the casing 31 in the casing 31 and the other end supports both ends 35 of the vertical movement block 34.

In the present embodiment, the magnet fixing portion 20 is fixed to the liner plate so that the rail portion 10 on which the cutting means 30 is mounted may be located at the cutting position of the corroded portion of the liner plate. When the magnet fixing part 20 is fixed to the liner plate, the pressing part 39 is rotated so that the cutting wheel 38 is inserted to cut the liner plate. Then, as shown in FIG. 4B, one end 40 of the pressing unit 39 presses the upper end of the vertical moving block 34 to move in the direction of the arrow 3. When the cutting wheel 38 comes into contact with the liner plate, the driving wheel 36 is driven by a driving means such as a motor to rotate the cutting wheel 38. Then, the casing 31 is slid along the rail portion 10. Then, the cutting wheel 38 is inserted into the liner plate while sliding along the rail portion 10 to cut the liner plate. When the liner plate is cut, the pressing portion 39 is rotated to return the cutting wheel 38 to its original position. Then, the current supplied to the magnet fixing part 20 is cut off to separate the liner plate and the magnet fixing part 20.

Conventionally, due to the narrow space of the seismic gap between the liner plate and the concrete inside the dome, there is a problem that it is difficult to freely use the tool for cutting the corroded portion of the liner plate and takes a long time. On the other hand, according to the present embodiment, the magnet fixing part 20 fixes the rail part 10 to the liner plate, and the cutting means 30 cuts the liner plate while sliding in the axial direction of the rail part 10. Easily cut off the corroded portion of the liner plate even in tight spaces where it is difficult to access. Therefore, the work time can be shortened and work efficiency can be increased.

10: rail portion 20: magnet fixing portion
30: cutting means 31: casing
32: accommodating part 33: cutting part
34: vertical movement block 35: both ends
36: drive bar 38: cutting wheel
39: press portion 40: once
41: elastic member

Claims (3)

Rail section,
A magnet fixing part coupled to both ends of the rail part to fix the rail part to a liner plate in a nuclear reactor;
A housing is formed therein and a casing mounted to the rail unit to slide along the rail unit, a cutting unit mounted to the receiving unit to cut the liner plate and move vertically in the direction of the liner plate, and the cutting unit A press portion mounted to the casing to press vertically moveable to insert the liner plate to cut the liner plate, and the casing to return movement of the cut portion when the cut portion is moved by the press portion. And a cutting means including an elastic member for supporting the cut portion in the interior of the reactor. The method of claim 1,
The cutting part may have a vertical movement block having an upper portion pressurized by the pressing portion and both ends of which are supported by the elastic member so as to move vertically in the accommodation portion, and one end of which is exposed to the vertical movement block and may rotate on the vertical movement block. And a cutting wheel detachably mounted to one end of the drive bar to enable cutting of the liner plate. The method of claim 2,
When the pressing unit is rotated, one end presses the upper end of the vertical movement block so that the cutting wheel is screwed with the casing through the casing so that the vertical movement so that the cutting wheel can be inserted into the liner plate. Liner plate cutting device.

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