KR102592741B1 - Cutting system and cutting method of metal structures for nuclear power plants - Google Patents

Abstract

We provide a cutting system for metal structures for nuclear power plants. The cutting system for metal structures for nuclear power plants is a cutting system for metal structures for nuclear power plants, including metal structures used in nuclear power plants; and a cutting unit for cutting and processing the metal structure, wherein the cutting unit cools and recovers products including chips generated in the metal structure due to the cutting process. It includes a main body module, a cutting module installed in the main body module to perform the cutting process, and a cooling module installed in the main body module to perform cooling processing for the generated product.

Description

Cutting system and cutting method of metal structures for nuclear power plants}

The present invention relates to a cutting system and method for cutting metal structures for nuclear power plants.

When decommissioning a nuclear power plant, large-scale and large quantities of metal structures are cut and dismantled. Technologies for this can be broadly divided into thermal cutting technology and mechanical cutting technology. Compared to mechanical cutting technology, this thermal cutting technology has the advantage of relatively fast cutting speed and no direct contact between the cutting device and the metal structure, so no reaction force is generated due to the cutting load. In addition, thermal cutting devices have the advantage of being relatively lighter in weight and smaller in volume compared to mechanical cutting devices. Moreover, it has the advantage of cutting thick metal and high rigidity materials. The plasma torch cutting system is a representative thermal cutting technology. However, plasma torch cutting technology generates a large amount of welding chips, kurfs, and floating dust during the cutting process. Therefore, in order to prevent contamination of workers and the work environment, additional facilities are needed for effective removal and safe treatment.

Korean Patent No. 10-1116500

The problem to be solved by the present invention is to provide a cutting system for metal structures for nuclear power plants that rapidly lowers the temperature of objects to be cut, such as cuffs, based on a dry rapid cooling method when cutting metal structures, thereby suppressing evaporation of radioactive materials into the air as much as possible. It is provided.

In addition, when cutting a metal surface with a plasma torch, it provides a cutting system for metal structures for nuclear power plants that prevents falling downward along the cut surface and fusing by rapid cooling, and suppresses floating metallic dust rising upward as much as possible through spraying coolant.

In addition, it provides a cutting system for metal structures for nuclear power plants that can control the spread of dust by directing the flow direction of dust toward the collection device by controlling the spray direction.

In addition, it provides a cutting system for metal structures for nuclear power plants that can follow and rapidly cool the welding chips that scatter at high temperatures during the cutting process, preventing fusion of the welding chips after they fall and facilitating collection.

In addition, it provides a cutting system for metal structures for nuclear power plants that maximizes the advantages of plasma torch cutting technology in the cutting process and achieves a cooling effect without generating liquid waste through the use of dry gas such as dry ice and liquid nitrogen.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

A cutting system for a metal structure for a nuclear power plant according to one aspect of the present invention for achieving the above object is a cutting system for a metal structure for a nuclear power plant, which includes: a metal structure used in a nuclear power plant; and a cutting unit for cutting and processing the metal structure, wherein the cutting unit cools and recovers products including chips generated in the metal structure due to the cutting process. It includes a main body module, a cutting module installed in the main body module to perform the cutting process, and a cooling module installed in the main body module to perform cooling processing for the generated product.

A method of cutting a metal structure for a nuclear power plant according to another aspect of the present invention to achieve the above object includes the steps of preparing a metal structure used in a nuclear power plant; And a step of cutting and processing the metal structure by a cutting unit, wherein the cutting unit cools and recovers products including chips generated in the metal structure due to the cutting process. The cutting unit includes a main body module, a cutting module installed in the main body module to perform the cutting process, and a cooling module installed in the main body module to perform cooling processing for the product.

In addition, the cutting module cuts and processes the metal structure using an arc jet method, and the cooling module cools the products of the metal structure using a dry coolant injection method.

In addition, the cooling module sprays the dry coolant to rapidly cool the generated material scattered through the cutting process and guides it to a set position. A collection module is provided on the set position to collect the generated product induced through the dry coolant. Collect water.

In addition, the cutting module performs the cutting process using a thermal cutting method, and the cooling module includes dry ice and liquefied nitrogen pellets as the dry coolant, and is provided to enable variable operation on the main body module to use the dry coolant. Spray.

In addition, the cutting unit further includes an interlocking module that interlocks to enable variable operation of the cooling module on the main body module, and the interlocking module includes a first interlocking body provided on the main body module and moved up and down, A second linkage provided on the first linkage and moved left and right, and a third linkage provided on the first linkage and moved in at least one direction of up, down, left and right, and equipped with the cooling module. Includes.

According to the cutting system for metal structures for nuclear power plants of the present invention as described above, one or more of the following effects are achieved.

The present invention can provide a cutting system for metal structures for nuclear power plants that rapidly lowers the temperature of objects to be cut, such as cuffs, based on a dry rapid cooling method when cutting metal structures, thereby suppressing evaporation of radioactive materials into the air as much as possible.

In addition, when cutting a metal surface with a plasma torch, it is possible to provide a cutting system for metal structures for nuclear power plants that prevents falling downward along the cut surface and fusing by rapid cooling, and suppresses floating metallic dust rising upward as much as possible through coolant spraying. .

In addition, it is possible to provide a cutting system for metal structures for nuclear power plants that can control the spread of dust by directing the flow direction of dust toward the collection device by controlling the spray direction.

In addition, it is possible to provide a cutting system for metal structures for nuclear power plants that can follow and rapidly cool the welding chips that scatter at high temperatures during the cutting process, preventing fusion of the welding chips after they fall and facilitating collection.

In addition, it is possible to provide a cutting system for metal structures for nuclear power plants that maximizes the advantages of plasma torch cutting technology during the cutting process and achieves a cooling effect without generating liquid waste through the use of dry gases such as dry ice and liquid nitrogen.

Figure 1 is a diagram showing the configuration of a method for cutting a metal structure for a nuclear power plant according to an embodiment of the present invention.
Figures 2 and 3 are diagrams showing the cutting process according to Figure 1.
Figure 4 is a flow chart sequentially showing a method of cutting a metal structure for a nuclear power plant according to an embodiment of the present invention.

Referring to Figure 1, a cutting system for a metal structure for a nuclear power plant according to an embodiment of the present invention includes a cutting unit 100. The cutting unit 100 includes a main body module 110, a cutting module 120, an interlocking module 130, 140, 150, a cooling module 151, and a recovery module 160.

Here, the interlocking modules 130, 140, and 150 include a first interlocking body 130, a second interlocking body 140, and a third interlocking body 150. Referring to Figures 2 and 3, the cutting module 120 cuts and processes the metal structure (O) using an arc jet method.

The cooling module 151 cools the product (M1) of the metal structure (O) by spraying dry coolant (M2). The cooling module 151 sprays the dry coolant (M2) to rapidly cool the product (M1) scattered through the cutting process and guide it to the set position.

In addition, a collection module 160 is provided on the set position to collect the generated product (M1) induced through the dry coolant (M2). The collection module 160 operates to move its position manually or automatically in response to the variable operation of the cooling module 151.

The cutting module 120 performs the cutting process using a thermal cutting method. The cooling module 151 includes dry ice and liquid nitrogen pellets as the dry coolant (M2).

Here, the cooling module 151 is provided to enable variable operation on the main body module 110 and sprays the dry coolant (M2). The interlocking modules 130, 140, and 150 of the cutting unit 100 are interlocked to enable variable operation of the cooling module 151 on the main body module 110.

The first linkage body 130 of the linkage modules 130, 140, and 150 is provided on the main body module 110 and is moved up and down. The second linkage body 140 of the linkage modules 130, 140, and 150 is provided on the first linkage body 130 and is moved left and right.

Meanwhile, the third interlocking body 150 of the interlocking modules 130, 140, and 150 is provided on the first interlocking body 130 and moves in at least one direction of up, down, left, and right, and moves the cooling module 151. ) is provided.

The cooling module 151 is located on the third linkage body 150 in a diagonal direction with respect to the cutting module 120. The cooling module 151 performs cooling processing based on the variable operation of the interlocking modules 130, 140, and 150.

In addition, the cooling module 151 is the metal structure in which the cutting process is performed at the rear of the cutting module 120 when the cutting module 120 performs the cutting process on the metal structure (O) in the moving direction. Cooling treatment is performed in the processing area of (O).

At this time, the cooling module 151 performs cooling processing including the cuff (F) generated in the processing area. The cooling module 151 forms a predetermined curtain area C by adjusting the spray angle to the area where the product M1 is scattered through a variable operation. This curtain area (C) forms an area where the generated product (M1) flows and is recovered.

Referring to FIG. 4, in the method of cutting a metal structure for a nuclear power plant according to an embodiment of the present invention, a metal structure (O) used in a nuclear power plant is first prepared. The metal structure (O) is cut by the cutting unit (100).

The cutting unit 100 cools and recovers the product M1, which includes a chip shape, generated in the metal structure O due to the cutting process. Here, the cutting module 120 cuts and processes the metal structure (O) using an arc jet method.

Although embodiments of the present invention have been described with reference to the above and the attached drawings, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical idea or essential features. You will understand that it exists. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

100: Cutting unit
110: Main body module
120: Cutting module
130: first interlocking body
140: Second linkage body
150: Third linkage body
151: Cooling module
160: Recovery module

Claims (6)

As a cutting method for metal structures for nuclear power plants,
Steps in which metal structures used in nuclear power plants are prepared; and
It includes the step of cutting the metal structure by a cutting unit,
The cutting unit cools and recovers products including chips generated in the metal structure due to the cutting process,
The cutting unit is,
It includes a main body module, a cutting module installed in the main body module to perform the cutting process, and a cooling module installed in the main body module to perform cooling processing for the generated product,
The cutting module cuts and processes the metal structure using an arc jet method,
The cooling module cools the generated substances in the metal structure using a dry coolant injection method,
The cutting module performs the cutting process using a thermal cutting method,
The cooling module is,
The dry coolant includes dry ice and liquid nitrogen pellets,
It is equipped to enable variable operation on the main body module to spray the dry coolant,
The cutting unit is,
It further includes an interlocking module that interlocks to enable variable operation of the cooling module on the main body module,
The interlocking module is,
A first linkage body provided on the main body module and moved up and down,
A second linkage provided on the first linkage and moved left and right,
A method of cutting a metal structure for a nuclear power plant, including a third linkage body provided on the first linkage body and moved in at least one direction of up, down, left, and right, and provided with the cooling module. delete According to paragraph 1,
The cooling module sprays the dry coolant to rapidly cool the products scattered through the cutting process and guide them to the set position,
A method of cutting a metal structure for a nuclear power plant, wherein a collection module is provided on the set position to collect the generated products induced through the dry coolant. delete delete delete